HELPLIB.HLB  —  DCE  DCE_RPC, Application Routines
   These are the RPC application development routines.

1  –  cs_byte_from_netcs

 NAME

   cs_byte_from_netcs - Converts international character data from a
                        network code set to a local code set

   Used by client and server applications.

 SYNOPSIS

   #include <dce/codesets_stub.h>

   void cs_byte_from_netcs( rpc_binding_handle_t binding,
                            unsigned32 network_code_set_value,
                            idl_byte *network_data,
                            unsigned32 network_data_length,
                            unsigned32 local_buffer_size,
                            idl_byte *local_data,
                            unsigned32 *local_data_length,
                            error_status_t *status );

 PARAMETERS

   Input

   binding
       Specifies the target binding handle from which to obtain code set
       conversion information. When called from the client stub, this
       value is the binding handle of a compatible server returned by
       the rpc_ns_binding_import_next() or rpc_ns_binding_select()
       routine. When called from the server stub, this value is a
       pointer to binding information that the client stub passed in
       the RPC call.

   network_code_set_value
       The registered hexadecimal integer value that represents the code
       set that was used to transmit character data over the network.
       In general, the network'' code set is the code set that the client
       application's code sets evaluation routine has determined to be
       compatible for this client and server. When the caller is the
       client stub, this value is the receiving tag. When the caller is
       the server stub, this value is the sending tag.

   network_data
       A pointer to the international character data that has been
       received, in the network code set encoding.

   network_data_length
       The number of idl_byte data elements to be converted. For a
       varying array or a conformant varying array, this value is the
       local value of the length_is variable. For a conformant array,
       this value is the local value of the size_is variable.  For a
       fixed array, the value is the array size specified in the
       interface definition.

   local_buffer_size
       A pointer to the buffer size to be allocated to contain the
       converted data, in units of byte. The value specified in this
       parameter is the local buffer size returned from the
       cs_byte_local_size() routine.

   Output

   local_data
       A pointer to the converted data, in idl_byte format.

   local_data_length
       The length of the converted data, in units of idl_byte.  Specify
       NULL if a fixed array is to be converted.

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if
       not, why not.  The possible status codes and their meanings
       are as follows:

       rpc_s_ok       Success.

       rpc_s_ss_incompatible_codesets
                      The specified code set does not match the code set
                      specified in the sending tag in the binding handle.
                      If this error occurs in the server stub, an
                      exception is raised to the client application.

   When running the host converter, the following errors can occur:

       rpc_s_ss_invalid_char_input

       rpc_s_ss_short_conv_buffer

       rpc_s_ss_iconv_error (HP-UX reference platform only)

       rpc_s_ss_no_memory (HP-UX reference platform only)

   When invoked from the server stub, the routine calls the
   dce_cs_loc_to_rgy() routine and the host converter routines.  If
   these routines return an error, an exception is raised to the
   client application.

 DESCRIPTION

   The cs_byte_from_netcs() routine belongs to a set of DCE RPC routines
   for use by client and server applications that are transferring
   international character data in a heterogeneous character set and code
   sets environment.

   The cs_byte_from_netcs() routine is one of the DCE RPC stub code set
   conversion routines that RPC stubs use before they marshall or
   unmarshall data to convert international character data to and from
   local and network code sets.

   Client and server stubs call the cs_byte_*_netcs() routines when
   the cs_byte type has been specified as the local data type using
   the cs_char attribute in the attribute configuration file for the
   application. (the cs_byte type is equivalent to the byte type.)

   Client and server stubs call the cs_byte_from_netcs() routine before
   they unmarshall the international character data received from the
   network.  The routine takes a binding handle, a code set value that
   identifies the code set used to transfer international character
   data over the network, the address of the network data, in idl_byte
   format, that may need to be converted, and the data length, in units
   of idl_byte.

   The routine compares the sending code set to the local code set
   currently in use. If the routine finds that code set conversion is
   necessary, (because the local code set differs from the code set
   specified to be used on the network), it determines which host code
   set converter to call to convert the data and then invokes that
   converter.

   The routine then returns the converted data, in idl_byte format.  If
   the data is a varying, conformant, or conformant varying array, the
   routine also returns the length of the converted data, in units of
   idl_byte.

   Applications can specify local data types other than cs_byte and
   wchar_t (the local data types for which DCE RPC supplies stub code
   set conversion routines) with the cs_char ACF attribute. In this
   case, the application must also supply local_type_to_netcs() and
   local_type_from_netcs() stub conversion routines for this type.

   Permissions Required

   No permissions are required.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: wchar_t_from_netcs
              cs_byte_to_netcs
              wchar_t_to_netcs

2  –  cs_byte_local_size

 NAME

   cs_byte_local_size - Calculates the necessary buffer size for code
                        set conversion from a network code set to a
                        local code set

   Used by client and server applications.

 SYNOPSIS

   #include <dce/codesets_stub.h>

   void cs_byte_local_size( rpc_binding_handle_t binding,
                            unsigned32 network_code_set_value,
                            unsigned32 network_buffer_size,
                            idl_cs_convert_t *conversion_type,
                            unsigned32 *local_buffer_size,
                            error_status_t *status );

 PARAMETERS

   Input

   binding
       Specifies the target binding handle from which to obtain buffer
       size evaluation information. When called from the client stub,
       this value is the binding handle of a compatible server returned
       by the rpc_ns_binding_import_next() or rpc_ns_binding_select()
       routine. When called from the server stub, this value is a
       pointer to binding information that the client stub passed in
       the RPC call.

   network_code_set_value
       The registered hexadecimal integer value that represents the
       code set used to transmit character data over the network.  In
       general, the "network" code set is the code set that the client
       application's code sets evaluation routine has determined to be
       compatible for this client and server. When the caller is the
       client stub, this value is the receiving tag. When the caller is
       the server stub, this value is the sending tag.

   network_buffer_size
       The size, in units of idl_byte, of the buffer that is allocated
       for the international character data. For a conformant or
       conformant varying array, this value is the network value of the
       size_is variable for the array; that is, the value is the size
       of the unmarshalled string if no conversion is done.

   Output

   conversion_type
       A pointer to the enumerated type defined in dce/idlbase.h that
       indicates whether data conversion is necessary and whether or
       not the existing buffer is sufficient for storing the results
       of the conversion. The conversion type can be one of the
       following values:

       idl_cs_no_convert
                      No code set conversion is required.

       idl_cs_in_place_convert
                      Code set conversion can be performed in the
                      current buffer.

       idl_cs_new_buffer_convert
                      The converted data must be written to a new buffer.

   local_buffer_size
       A pointer to the buffer size that needs to be allocated to
       contain the converted data, in units of idl_byte. This value
       is to be used as the local value of the size_is variable for
       the array, and is non-NULL only if a conformant or conformant
       varying array is to be unmarshalled.  A value of NULL in this
       parameter indicates that a fixed or varying array is to be
       unmarshalled.

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if
       not, why not.  The possible status codes and their meanings
       are as follows:

       rpc_s_ok       Success.

       rpc_s_ss_incompatible_codesets
                      The specified code set does not match the code set
                      specified in the sending tag in the binding handle.
                      If this error occurs in the server stub, an
                      exception is raised to the client application.

   When invoked from the server stub, this routine calls the routines
   dce_cs_loc_to_rgy() and rpc_rgy_get_max_bytes().  If either of these
   routines returns an error, the cs_byte_local_size() routine raises
   an exception to the client application.

 DESCRIPTION

   The cs_byte_local_size() routine belongs to a set of DCE RPC routines
   for use by client and server applications that are transferring
   international character data in a heterogeneous character set and
   code sets environment.

   The cs_byte_local_size() routine is one of the DCE RPC buffer sizing
   routines that RPC stubs use before they marshall or unmarshall data
   to determine whether or not the buffers allocated for code set
   conversion need to be enlarged to hold the converted data.  The buffer
   sizing routines determine the type of conversion required and
   calculate the size of the necessary buffer (if a new one is required);
   the RPC stub then allocates a buffer of that size before it calls one
   of the code set conversion routines.

   Client and server stubs call the cs_byte_*_size routines when the
   cs_byte type has been specified as the local data type using the
   cs_char attribute in the attribute configuration file for the
   application.

   Applications do not call cs_byte_local_size() routine directly.
   Client and server stubs call the routine before they unmarshall any
   data.  The stubs pass the routine a binding handle and a code set
   value that identifies the code set that was used to transfer
   international character data over the network. The stubs also
   specify the network storage size of the data, in units of idl_byte,
   if a conformant or conformant varying array is to be unmarshalled,
   or they specify NULL if a fixed or varying array is to be marshalled.

   When called from a client stub, the cs_byte_local_size() routine
   determines the value of conversion_type from the client and server's
   code set tag information stored in the binding handle by a code sets
   evaluation routine or a tag-setting routine.  If the conversion type
   specified in the handle is idl_cs_new_buffer_convert, the routine sets
   the conversion_type parameter to this value and, if a conformant or
   conformant varying array is to be unmarshalled, calculates a new
   buffer size by multiplying the value of local_buffer_size by the
   c_max_bytes value for the code set specified in
   network_code_set_value. The routine returns the new buffer size in the
   local_buffer_size parameter. The size is specified in units of
   cs_byte, which is the local representation used for international
   character data (and is equivalent to the byte data type). For fixed
   and varying arrays, the routine assumes that network_buffer_size is
   sufficient to store the converted data.

   If the handle information specifies idl_cs_convert_in_place or
   idl_cs_no_convert, the routine assumes that network_buffer_size can
   store the converted data (or that no conversion is necessary) and
   returns idl_cs_convert_in_place (or idl_cs_no_convert) in the
   conversion_type parameter. The routine also returns the value of
   network_buffer_size in local_buffer_size if a conformant or
   conformant varying array is to be marshalled.

   In cases where the binding handle does not contain the results of
   character and code sets evaluation, or where it is being called from
   the server stub, the cs_byte_local_size() routine determines the
   value of conversion_type itself using the local code set value and
   the code set value passed in the network_code_set_value parameter and
   returns the appropriate conversion_type value.  If a conformant or
   conformant varying array is to be unmarshalled, and the routine finds
   that a new buffer is required to hold the converted data, the routine
   calculates the size of this new buffer (by multiplying the value of
   network_buffer_size by the local code set c_max_bytes value) and
   returns the results, in units of cs_byte, in local_buffer_size.

   Permissions Required

   No permissions are required.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: cs_byte_net_size
              wchar_t_local_size
              wchar_t_net_size

3  –  cs_byte_net_size

 NAME

   cs_byte_net_size - Calculates the necessary buffer size for code
                      set conversion from a local code set to a
                      network code set

   Used by client and server applications.

 SYNOPSIS

   #include <dce/codesets_stub.h>

   void cs_byte_net_size( rpc_binding_handle_t binding,
                          unsigned32 network_code_set_value,
                          unsigned32 local_buffer_size,
                          idl_cs_convert_t *conversion_type,
                          unsigned32 *network_buffer_size,
                          error_status_t *status );

 PARAMETERS

   Input

   binding
       Specifies the target binding handle from which to obtain buffer
       size evaluation information. When called from the client stub,
       this value is the binding handle of a compatible server returned
       by the rpc_ns_binding_import_next() or rpc_ns_binding_select()
       routine. When called from the server stub, this value is a
       pointer to binding information that the client stub passed in
       the RPC call.

   network_code_set_value
       The registered hexadecimal integer value that represents
       the code set to be used to transmit character data over the
       network.  In general, the "network" code set is the code set
       that the client application's code sets evaluation routine has
       determined to be compatible for this client and server. When
       the caller is the client stub, this value is the sending tag.
       When the caller is the server stub, this value is the receiving
       tag.

   local_buffer_size
       The size, in units of idl_byte, of the buffer that is allocated
       for the international character data.  This value is the local
       value of the size_is variable for the array; that is, the value
       is the size of the marshalled string if no conversion is done.

   Output

   conversion_type
       A pointer to the enumerated type defined in dce/idlbase.h that
       indicates whether data conversion is necessary and whether or
       not existing storage is sufficient for storing the results of
       the conversion. The conversion type can be one of the following
       values:

       idl_cs_no_convert
                      No code set conversion is required.

       idl_cs_in_place_convert
                      Code set conversion can be performed in the
                      current buffer.

       idl_cs_new_buffer_convert
                      The converted data must be written to a new buffer.

   network_buffer_size
       A pointer to the buffer size that needs to be allocated to contain
       the converted data, in units of idl_byte. This value is to be used
       as the network value of the size_is variable for the array, and is
       non-NULL only if a conformant or conformant varying array is to be
       marshalled.  A value of NULL in this parameter indicates that a
       fixed or varying array is to be marshalled.

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if
       not, why not.  The possible status codes and their meanings
       are as follows:

       rpc_s_ok       Success.

       rpc_s_ss_incompatible_codesets
                      The specified code set does not match the code
                      set specified in the sending tag in the binding
                      handle.  If this error occurs in the server
                      stub, an exception is raised to the client
                      application.

   When invoked from the server stub, this routine calls the routines
   dcs_cs_loc_to_rgy() and rpc_rgy_get_max_bytes().  If either of
   these routines returns an error, the cs_byte_net_size() routine
   raises an exception to the client application.

 DESCRIPTION

   The cs_byte_net_size() routine belongs to a set of DCE RPC routines
   for use by client and server applications that are transferring
   international character data in a heterogeneous character set and
   code sets environment.

   The cs_byte_net_size() routine is one of the DCE RPC buffer sizing
   routines that RPC stubs use before they marshall or unmarshall data
   to determine whether or not the buffers allocated for code set
   conversion need to be enlarged to hold the converted data.  The
   buffer sizing routines determine the type of conversion required
   and calculate the size of the necessary buffer (if a new one is
   required). The RPC stub then allocates a buffer of that size before
   it calls one of the code set conversion routines.

   Client and server stubs call the cs_byte_*_size routines when the
   cs_byte type (which is equivalent to byte) has been specified as
   the local data type using the cs_char attribute in the attribute
   configuration file for the application.  Applications do not call
   the cs_byte_net_size() routine directly.  Client and server stubs
   call the routine before they marshall any data.  The stubs pass the
   routine a binding handle and a code set value that identifies the
   code set to be used to transfer international character data over
   the network. The stubs also specify the local storage size of the
   data, in units of byte.

   When called from a client stub, the cs_byte_net_size() routine
   determines the value of conversion_type from the client and server's
   code set tag information set up the binding handle by a code sets
   evaluation routine or a tag-setting routine. If the conversion type
   specified in the handle is idl_cs_new_buffer_convert, the routine
   sets the conversion_type parameter to this value and, if a
   conformant or conformant varying array is to be marshalled,
   calculates a new buffer size by multiplying the value of
   local_buffer_size by the c_max_bytes value for the code set
   specified in network_code_set_value (the sending tag parameter).

   The routine returns the new buffer size in the network_buffer_size
   parameter. The size is specified in units of cs_byte, which is the
   network representation used for international character data (and
   is equivalent to the byte type). For fixed and varying arrays, the
   routine assumes that local_buffer_size is sufficient to store the
   converted data.

   If the handle information specifies idl_cs_convert_in_place or
   idl_cs_no_convert, the routine assumes that local_buffer_size can
   store the converted data (or that no conversion is necessary) and
   returns idl_cs_convert_in_place (or idl_cs_no_convert) in the
   conversion_type parameter. The routine also returns the value of
   local_buffer_size in network_buffer_size if a conformant or
   conformant varying array is to be marshalled.

   In cases where the binding handle does not contain the results of
   character and code sets evaluation, or where it is being called from
   the server stub, the cs_byte_net_size() routine determines the value
   of conversion_type itself using the local code set value and the
   code set value passed in the network_code_set_value parameter and
   returns the appropriate conversion_type value.  If a conformant or
   conformant varying array is to be marshalled, and the routine finds
   that a new buffer is required to hold the converted data, the routine
   calculates the size of this new buffer (by multiplying the value of
   local_buffer_size by the network code set c_max_bytes value) and
   returns the results, in units of cs_byte, in network_buffer_size.

   Permissions Required

   No permissions are required.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: cs_byte_local_size
              wchar_t_local_size
              wchar_t_net_size

4  –  cs_byte_to_netcs

 NAME

   cs_byte_to_netcs - Converts international character data from a
                      local code set to a network code set

   Used by client and server applications.

 SYNOPSIS

   #include <dce/codesets_stub.h>

   void cs_byte_to_netcs( rpc_binding_handle_t binding,
                          unsigned32 network_code_set_value,
                          idl_byte *local_data,
                          unsigned32 local_data_length,
                          idl_byte *network_data,
                          unsigned32 *network_data_length,
                          error_status_t *status );

 PARAMETERS

   Input

   binding
       Specifies the target binding handle from which to obtain code
       set conversion information. When called from the client stub,
       this value is the binding handle of a compatible server returned
       by the rpc_ns_binding_import_next() or rpc_ns_binding_select()
       routine. When called from the server stub, this value is a
       pointer to binding information that the client stub passed in
       the RPC call.

   network_code_set_value
       The registered hexadecimal integer value that represents the
       code set to be used to transmit character data over the network.
       In general, the network'' code set is the code set that the
       client application's code sets evaluation routine has determined
       to be compatible for this client and server. When the caller is
       the client stub, this value is the sending tag. When the caller
       is the server stub, this value is the receiving tag.

   local_data
       A pointer to the international character data to be transmitted,
       in the local code set encoding.

   local_data_length
       The number of idl_byte data elements to be converted. For a
       varying array or a conformant varying array, this value is the
       local value of the length_is variable. For a conformant array,
       this value is the local value of the size_is variable.  For a
       fixed array, the value is the array size specified in the
       interface definition.

   Output

   network_data
       A pointer to the converted data, in units of idl_byte.

   network_data_length
       A pointer to the length of the converted data, in units of
       idl_byte.  Specify NULL if a fixed or conformant array is to
       be converted.

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if
       not, why not.  The possible status codes and their meanings
       are as follows:

       rpc_s_ok       Success.

       rpc_s_ss_incompatible_codesets
                      The specified code set does not match the code set
                      specified in the sending tag in the binding handle.
                      If this error occurs in the server stub, an
                      exception is raised to the client application.

   When running the host converter, the following errors can occur:

       rpc_s_ss_invalid_char_input

       rpc_s_ss_short_conv_buffer

       rpc_s_ss_iconv_error (HP-UX reference platform only)

       rpc_s_ss_no_memory (HP-UX reference platform only)

   When invoked from the server stub, the routine calls the
   dce_cs_loc_to_rgy() routine and the host converter routines.  If
   these routines return an error, an exception is raised to the
   client application.

 DESCRIPTION

   The cs_byte_to_netcs() routine belongs to a set of DCE RPC routines
   for use by client and server applications that are transferring
   international character data in a heterogeneous character set and
   code sets environment.

   The cs_byte_to_netcs() routine is one of the DCE RPC stub code set
   conversion routines that RPC stubs use before they marshall or
   unmarshall data to convert international character data to and from
   local and network code sets.

   Client and server stubs call the cs_byte_*_netcs() routines when
   the cs_byte type has been specified as the local data type using
   the cs_char attribute in the attribute configuration file for the
   application.  (The cs_byte type is equivalent to the byte type.)

   Client and server stubs call the cs_byte_to_netcs() routine before
   they marshall any data. The routine takes a binding handle, a code
   set value that identifies the code set to be used to transfer
   international character data over the network, the address of the
   data to be converted, and the length of the data to be converted,
   in units of idl_byte.

   The routine compares the code set specified as the network code set
   to the local code set currently in use. If the routine finds that
   code set conversion is necessary, (because the local code set differs
   from the code set specified to be used on the network), it determines
   which host code set converter to call to convert the data and then
   invokes that converter.

   The routine then returns the converted data, in idl_byte format.
   If the data is a varying, conformant, or conformant varying array,
   the routine also returns the length of the converted data, in units
   of idl_byte.

   Applications can specify local data types other than cs_byte and
   wchar_t (the local data types for which DCE RPC supplies stub code
   set conversion routines) with the cs_char ACF attribute. In this
   case, the application must also supply local_type_to_netcs() and
   local_type_from_netcs() stub conversion routines for this type.

   Permissions Required

   No permissions are required.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: cs_byte_from_netcs
              wchar_t_from_netcs
              wchar_t_to_netcs

5  –  dce_cs_loc_to_rgy

 NAME

   dce_cs_loc_to_rgy - Maps a local name for a code set to a code set
                       value in the code set registry

   Used by client and server applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void dce_cs_loc_to_rgy( idl_char *local_code_set_name,
                           unsigned32 *rgy_code_set_value,
                           unsigned16 *rgy_char_sets_number,
                           unsigned16 **rgy_char_sets_value,
                           error_status_t *status );

 PARAMETERS

   Input

   local_code_set_name
       A string that specifies the name that the local host's locale
       environment uses to refer to the code set. The string is a
       maximum of 32 bytes: 31 character data bytes plus a terminating
       NULL character.

   Output

   rgy_code_set_value
       The registered integer value that uniquely identifies the code
       set specified by local_code_set_name.

   rgy_char_sets_number
       The number of character sets that the specified code set encodes.
       Specifying NULL prevents this routine from returning this
       parameter.

   rgy_char_sets_value
       A pointer to an array of registered integer values that uniquely
       identify the character set(s) that the specified code set
       encodes. Specifying NULL prevents this routine from returning
       this parameter. The routine dynamically allocates this value.

   status
       Returns the status code from this routine. This status code
       indicates whether the routine completed successfully or, if
       not, why not.  The possible status codes and their meanings
       are as follows:

       dce_cs_c_ok

       dce_cs_c_cannot_allocate_memory

       dce_cs_c_cannot_open_file

       dce_cs_c_cannot_read_file

       dce_cs_c_unknown

       dce_cs_c_not_found

 DESCRIPTION

   The dce_cs_loc_to_rgy() routine is a DCE function that maps
   operating system-specific names for character/code set encodings
   to their unique identifiers in the code set registry.

   The routine is currently used by the DCE RPC routines for character
   and code set interoperability, which permit DCE RPC clients and
   servers to transfer international character data in a heterogeneous
   character set and code sets environment.

   The dce_cs_loc_to_rgy() routine takes as input a string that holds
   the host-specific local name'' of a code set and returns the
   corresponding integer value that uniquely identifies that code set,
   as registered in the host's code set registry. If the integer value
   does not exist in the registry, the routine returns the status
   dce_cs_c_unknown. The routine also returns the number of character
   sets that the code set encodes and the registered integer values that
   uniquely identify those character sets.  Specifying NULL in the
   rgy_char_sets_number and  rgy_char_sets_value[] parameters prevents
   the routine from performing the additional search for these values.
   Applications that want only to obtain a code set value from the code
   set registry can specify NULL for these parameters in order to
   improve the routine's performance. If the value is returned from the
   routine, application developers should free the array after it is
   used, since the array is dynamically allocated.

   The DCE RPC code sets compatibility evaluation routines
   rpc_cs_eval_with_universal(), rpc_cs_eval_without_universal(), and
   rpc_cs_character_set_compat_check() use this routine to obtain
   registered integer values for a client and server's supported
   character sets in order to ensure that the server supports a
   character set that is compatible with the client. The DCE RPC stub
   support routines for code set conversion can use this routine to
   obtain the registered code set value that corresponds to the code
   set they are currently using; that is, the local code set specified
   in their host's locale environment. The stub routines for code set
   conversion then compare their local code set value to the code set
   value specified in the sending tag for the call to determine whether
   code set conversion is necessary.

   In general, programmers who are developing RPC applications that
   transfer international characters do not need to call this routine
   directly; the DCE RPC routines provided for code sets evaluation and
   the DCE RPC stub support routines for code set conversion call this
   routine on the client or server application's behalf.

   However, programmers who are developing their own stub support
   routines for code set conversion may want to include this routine in
   their conversion code to map their current locale information to a
   code set value in order to perform local-to-sending tag code set
   comparison.

   Permissions Required

   No permissions are required.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Commands: csrc

   Functions: dce_cs_rgy_to_loc
              rpc_cs_char_set_compat_check
              rpc_cs_eval_with_universal
              rpc_cs_eval_without_universal
              rpc_rgy_get_code_sets

6  –  dce_cs_rgy_to_loc

 NAME

   dce_cs_rgy_to_loc - Maps a code set value in the code set registry
                       to the local name for a code set

   Used by client and server applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void dce_cs_rgy_to_loc( unsigned32 *rgy_code_set_value,
                           idl_char **local_code_set_name,
                           unsigned16 *rgy_char_sets_number,
                           unsigned16 **rgy_char_sets_value,
                           error_status_t *status );

 PARAMETERS

   Input

   rgy_code_set_value
       The registered hexadecimal value that uniquely identifies the
       code set.

   Output

   local_code_set_name
       A string that specifies the name that the local host's locale
       environment uses to refer to the code set. The string is a
       maximum of 32 bytes: 31 character data bytes and a terminating
       NULL character.

   rgy_char_sets_number
       The number of character sets that the specified code set encodes.
       Specifying NULL in this parameter prevents the routine from
       returning this value.

   rgy_char_sets_value
       A pointer to an array of registered integer values that uniquely
       identify the character set(s) that the specified code set
       encodes.  Specifying NULL in this parameter prevents the routine
       from returning this value. The routine dynamically allocates this
       value.

   status
       Returns the status code from this routine. This status code
       indicates whether the routine completed successfully or, if
       not, why not.  The possible status codes and their meanings
       are as follows:

       dce_cs_c_ok

       dce_cs_c_cannot_allocate_memory

       dce_cs_c_cannot_open_file

       dce_cs_c_cannot_read_file

       dce_cs_c_unknown

       dce_cs_c_not_found

 DESCRIPTION

   The dce_cs_rgy_to_loc() routine is a DCE function that maps a unique
   identifier for a code set in the code set registry to the operating
   system-specific name for the code set, if it exists in the code set
   registry.

   The routine is currently used by the DCE RPC routines for character
   and code set interoperability, which permit DCE applications to
   transfer international characters in a heterogeneous character and
   code sets environment.

   The dce_cs_rgy_to_loc() routine takes as input a registered integer
   value of a code set and returns a string that holds the operating
   system-specific, or local name, of the code set.

   If the local code set name does not exist in the registry, the
   routine returns the status dce_cs_c_unknown and returns an
   undefined string.

   The routine also returns the number of character sets that the code
   set encodes and the registered integer values that uniquely identify
   those character sets.  Specifying NULL in the rgy_char_sets_number
   and rgy_char_sets_value[] parameters prevents the routine from
   performing the additional search for these values.  Applications
   that want only to obtain a local code set name from the code set
   registry can specify NULL for these parameters in order to improve
   the routine's performance. If the value is returned from the
   routine, application developers should free the rgy_char_sets_value
   array after it is used.

   In general, client and server applications that use the DCE RPC
   character and code set interoperablity features do not need to call
   this routine directly; the DCE RPC stub support routines provided
   for code set conversion call this routine on the client or server
   application's behalf to obtain the string name that matches the
   name of the host code set converter that they will call to perform
   the actual code set conversion.

   However, application programmers who are developing their own RPC
   stub support routines for code set conversion may want to include
   this routine in their conversion code to map code set values sent
   in code set tags into the local names for the code sets so that they
   can locate the correct operating system code set converter.

   Permissions Required

   No permissions are required.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Commands: csrc.

   Functions: dce_cs_loc_to_rgy
              rpc_cs_char_set_compat_check
              rpc_cs_eval_with_universal
              rpc_cs_eval_without_universal
              rpc_rgy_get_code_sets

7  –  idl_es_decode_buffer

 NAME

   idl_es_decode_buffer - Returns a buffer decoding handle to the IDL
                          encoding services

 SYNOPSIS

   void idl_es_decode_buffer( idl_byte *encoded_data_buffer,
                              idl_ulong_int buffer_size,
                              idl_es_handle_t *es_handle,
                              error_status_t *status );

 PARAMETERS

   Input

   encoded_data_buffer
        The address of the buffer that contains the data to be decoded.

   buffer_size
        The number of bytes of data in the buffer to be decoded.

   Output

   es_handle
        Returns the address of an IDL encoding services handle for use
        by a client or server decoding operation.

   status
        Returns the status code from this routine. This status code
        indicates whether the routine completed successfully or, if
        not, why not.  The possible status codes and their meanings
        include:

        rpc_s_ok       Success.

        rpc_s_ss_bad_buffer
                       Bad buffer operation.

        rpc_s_no_memory
                       Insufficient memory available to complete
                       operation.

 DESCRIPTION

   The IDL encoding services provide client and server RPC applications
   with a method for encoding data types in input parameters into a byte
   stream and decoding data types in output parameters from a byte stream
   without invoking the RPC runtime. Encoding and decoding operations are
   analogous to marshalling and unmarshalling, except that the data is
   stored locally, and is not transmitted over the network. Client and
   server applications can use the IDL encoding services to create
   persistent storage for their data.  Encoding "flattens" complex data
   types into a byte stream for storage on disk, while decoding restores
   the flattened data to complex form.

   The idl_es_decode_buffer() routine belongs to a set of routines that
   return handles to the IDL encoding services for use by client and
   server encoding and decoding operations. The information in the
   handle controls the way in which the IDL encoding services manage
   memory when encoding or decoding data.

   The idl_es_decode_buffer() routine returns a buffer decoding handle,
   which directs the IDL encoding services to decode data from a single
   application-supplied buffer of encoded data.

 RETURNED VALUES

   None.

 RELATED INFORMATION

   Function: idl_es_decode_incremental

8  –  idl_es_decode_incremental

 NAME

   idl_es_decode_incremental - Returns an incremental decoding handle
                               to the IDL encoding services

   Used by client and server applications.

 SYNOPSIS

   void idl_es_decode_incremental( idl_void_p_t state,
                                   idl_es_read_fn_t read_fn,
                                   idl_es_handle_t *es_handle,
                                   error_status_t *status );

 PARAMETERS

   Input/Output

   state
        Specifies the address of an application-provided data structure
        that coordinates the actions of successive calls to the read_fn
        routine.  The state data structure acts as a communications
        channel between the application and the read_fn routine.

   Input

   read_fn
        Specifies the address of a user-provided routine that generates
        a buffer of encoded data for decoding by the IDL encoding
        services. The IDL encoding services call the read_fn routine
        repeatedly until all of the data has been decoded.

        The following C definition for idl_es_read_fn_t illustrates the
        prototype for the read_fn routine:

             typedef void (*idl_es_read_fn_t)
              (
               idl_void_p_t    state,            /* in/out */
               idl_byte        **buffer,         /* in */
               idl_ulong_int   *size,            /* in */
              );

        The idl_es_decode_incremental() routine passes the specified
        state parameter value as input to the read_fn routine.  The
        state data structure is the communications path between the
        application and the read_fn routine. For example, the
        application can use the state parameter to pass in an open
        file pointer from which the read_fn routine is to read encoded
        data.

        The buffer parameter specifies the address of the data to be
        decoded; this address must be 8-byte aligned. The size parameter
        specifies the size of the buffer to be decoded, and must be a
        multiple of 8 bytes unless it represents the size of the last
        buffer to be decoded.  The read_fn routine should return an
        exception on error.

   Output

   es_handle
        Returns the address of an IDL encoding services handle for use
        by a client or server decoding operation.

   status
        Returns the status code from this routine. This status code
        indicates whether the routine completed successfully or, if
        not, why not.  The possible status code and its meaning is as
        follows:

        rpc_s_ok       Success.

        rpc_s_no_memory
                       Insufficient memory available to complete
                       operation.

 DESCRIPTION

   The IDL encoding services provide client and server RPC applications
   with a method for encoding data types in input parameters into a byte
   stream and decoding data types in output parameters from a byte stream
   without invoking the RPC runtime. Encoding and decoding operations are
   analogous to marshalling and unmarshalling, except that the data is
   stored locally, and is not transmitted over the network. Client and
   server applications can use the IDL encoding services to create
   persistent storage for their data.  Encoding "flattens" complex data
   types into a byte stream for storage on disk, while decoding restores
   the flattened data to complex form.

   The idl_es_decode_incremental() routine belongs to a set of routines
   that return handles to the IDL encoding services for use by client
   and server encoding and decoding operations. The information in the
   handle controls the way in which the IDL encoding services manage
   memory when encoding or decoding data.

   The idl_es_decode_incremental() routine returns an incremental
   decoding handle, which directs the IDL encoding services to decode
   data by calling the user-supplied read_fn routine, which generates
   a small buffer of encoded data for the IDL encoding services to
   decode. The routine passes the buffer address and size to the IDL
   encoding services, which then decode the buffer. The IDL encoding
   services call the read_fn routine repeatedly until there is no more
   data to decode.

 RETURN VALUES

   None.

 RELATED INFORMATION

   Functions: idl_es_encode_incremental
              idl_es_decode_buffer

9  –  idl_es_encode_dyn_buffer

 NAME

   idl_es_encode_dyn_buffer - Returns a dynamic buffer encoding handle
                              to the IDL encoding services

   Used by client and server applications.

 SYNOPSIS

   void idl_es_encode_dyn_buffer( idl_byte **encoded_data_buffer,
                                  idl_ulong_int *buffer_size,
                                  idl_es_handle_t *es_handle,
                                  error_status_t *status );

 PARAMETERS

   Input

   None.

   Output

   encoded_data_buffer
        The address to which the IDL encoding services will write the
        address of the buffer that contains the encoded data, when the
        encoding process is complete. When the application no longer
        needs the buffer, it should release the memory resource.  See
        the OSF DCE Application Development Guide-Core Components for
        an explanation of how to manage memory when using the IDL
        encoding services.

   buffer_size
        The address to which the IDL encoding services will write the
        size of the buffer that contains the encoded data, when the
        encoding process is complete.

   es_handle
        Returns the address of an IDL encoding services handle for use
        by a client or server encoding operation.

   status
        Returns the status code from this routine. This status code
        indicates whether the routine completed successfully or, if
        not, why not.  The possible status codes and their meanings
        are as follows:

        rpc_s_ok       Success.

        rpc_s_ss_bad_buffer
                       Bad buffer operation.

        rpc_s_no_memory
                       Insufficient memory available to complete
                       operation.

 DESCRIPTION

   The IDL encoding services provide client and server RPC applications
   with a method for encoding data types in input parameters into a byte
   stream and decoding data types in output parameters from a byte stream
   without invoking the RPC runtime. Encoding and decoding operations are
   analogous to marshalling and unmarshalling, except that the data is
   stored locally, and is not transmitted over the network. Client and
   server applications can use the IDL encoding services to create
   persistent storage for their data.  Encoding "flattens" complex data
   types into a byte stream for storage on disk, while decoding restores
   the flattened data to complex form.

   The idl_es_encode_dyn_buffer() routine belongs to a set of routines
   that return handles to the IDL encoding services for use by client
   and server encoding and decoding operations. The information in the
   handle controls the way in which the IDL encoding services manage
   memory when encoding or decoding data.

   The idl_es_encode_dyn_buffer() routine returns a dynamic buffer
   encoding handle, which directs the IDL encoding services to store
   the encoded data in a chain of small buffers, build an additional
   single buffer that contains the encoded data, and pass that buffer's
   address to the application.  Dynamic buffering is the most expensive
   style of IDL encoding services buffering, since two copies of the
   encoded data exist (one in the chain of buffers, and one in the
   single buffer).

 RETURN VALUES

   None.

 RELATED INFORMATION

   Functions: idl_es_encode_fixed_buffer
              idl_es_encode_incremental

10  –  idl_es_encode_fixed_buffer

 NAME

   idl_es_encode_fixed_buffer - Returns a fixed buffer encoding handle
                                to the IDL encoding services

 SYNOPSIS

   void idl_es_encode_fixed_buffer( idl_byte  *data_buffer,
                                    idl_ulong_int data_buffer_size,
                                    idl_ulong_int  *encoded_buffer_size,
                                    idl_es_handle_t  *es_handle,
                                    error_status_t  *status  );

 PARAMETERS

   Input

   data_buffer
        The address of the application-supplied buffer.  This address
        must be 8-byte aligned.

   data_buffer_size
        The size of the application-supplied buffer. The size must be
        a multiple of 8 bytes.

   Output

   encoded_buffer_size
        Returns the address to which the IDL encoding services write
        the size of the encoded buffer when they have completed
        encoding the data.

   es_handle
        Returns the address of an IDL encoding services handle for use
        by a client or server encoding operation.

   status
        Returns the status code from this routine. This status code
        indicates whether the routine completed successfully or, if
        not, why not.  The possible status codes and their meanings
        are as follows:

        rpc_s_ok       Success.

        rpc_s_bad_buffer
                       Bad buffer operation.

        rpc_s_no_memory
                       Insufficient memory available to complete
                       operation.

 DESCRIPTION

   The IDL encoding services provide client and server RPC applications
   with a method for encoding data types in input parameters into a
   byte stream and decoding data types in output parameters from a byte
   stream without invoking the RPC runtime. Encoding and decoding
   operations are analogous to marshalling and unmarshalling, except
   that the data is stored locally, and is not transmitted over the
   network. Client and server applications can use the IDL encoding
   services to create persistent storage for their data.  Encoding
   "flattens" complex data types into a byte stream for storage on
   disk, while decoding restores the flattened data to complex form.

   The idl_es_encode_fixed_buffer() routine belongs to a set of routines
   that return handles to the IDL encoding services for use by client
   and server encoding and decoding operations.  The information in the
   handle controls the way in which the IDL encoding services manage
   memory when encoding or decoding data.

   The idl_es_encode_fixed_buffer() routine returns a fixed buffer
   encoding handle, which directs the IDL encoding services to encode
   data into a single buffer that the application has provided.  The
   fixed buffer encoding style is useful for applications that need
   only one buffer for their encoding and decoding process.  The buffer
   that the application allocates must be large enough to hold all of
   the encoded data, and must also allocate 56 bytes for each encoding
   operation that the application has defined (this space is used to
   hold per-operation header information.)

 RETURN VALUES

   None.

 RELATED INFORMATION

   Functions: idl_es_encode_dyn_buffer
              idl_es_encode_incremental

11  –  idl_es_encode_incremental

 NAME

   idl_es_encode_incremental - Returns an incremental encoding handle
                               to the IDL encoding services

   Used by client and server applications.

 SYNOPSIS

   void idl_es_encode_incremental( idl_void_p_t state,
                                   idl_es_allocate_fn_t allocate_fn,
                                   idl_es_write_fn_t write_fn,
                                   idl_es_handle_t *es_handle,
                                   error_status_t *status );

 PARAMETERS

   Input/Output

   state
        Specifies the address of an application-provided data structure
        that coordinates the actions of the allocate_fn and write_fn
        routines.  The state data structure acts as a communications
        channel between the application and the allocate_fn and
        write_fn routines.

   Input

   allocate_fn
        Specifies the address of a user-provided routine that allocates
        an empty buffer.  The encoding stub uses the allocated buffer to
        store encoded data.

        The following C definition for idl_es_allocate_fn_t illustrates
        the prototype for the buffer allocation routine:

             typedef void (*idl_es_allocate_fn_t)
              (
               idl_void_p_t    state,            /* in/out */
               idl_byte        **buffer,         /* out */
               idl_ulong_int   *size,            /* in/out */
              );

        The idl_es_encode_incremental() routine passes the specified
        state parameter value as input to the allocate_fn buffer
        allocation routine.  When the IDL encoding services call the
        allocate_fn routine, the value at the address indicated by
        size represents the buffer size that the IDL encoding services
        have requested the routine to allocate.  When the allocate_fn
        buffer allocation routine allocates the buffer, it writes the
        actual size of the allocated buffer to this parameter; the value
        must be a multiple of eight bytes.  The buffer parameter
        specifies the address of the allocated buffer; this address must
        be 8-byte aligned.  The allocate_fn routine should return an
        exception on error.

   write_fn
        Specifies the address of a user-provided routine that writes the
        contents of a buffer that contains data that has been encoded by
        the IDL encoding services. The IDL encoding services will call
        this routine when the buffer allocated by allocate_fn is full,
        or when all of the application's encoding operation parameters
        have been encoded.

        The following C definition for idl_es_write_fn_t illustrates the
        prototype for the write_fn routine:

             typedef void (*idl_es_write_fn_t)
              (
               idl_void_p_t    state,            /* in/out */
               idl_byte        *buffer,          /* in */
               idl_ulong_int   size,             /* in */
              );

        The idl_es_encode_incremental() routine passes the specified
        state parameter value as input to the write_fn routine.  The
        buffer parameter value is the address of the data that the
        IDL encoding services have encoded. The size parameter value
        is the size, in bytes, of the encoded data.

        The write_fn routine should return an exception on error.

   Output

   es_handle
        Returns the address of an IDL encoding services handle for use
        by a client or server encoding operation.

   status
        Returns the status code from this routine. This status code
        indicates whether the routine completed successfully or, if
        not, why not.  The possible status codes and their meanings
        are as follows:

        rpc_s_ok       Success.

        rpc_s_no_memory
                       Insufficient memory available to complete
                       operation.

 DESCRIPTION

   The IDL encoding services provide client and server RPC applications
   with a method for encoding data types in input parameters into a byte
   stream and decoding data types in output parameters from a byte
   stream without invoking the RPC runtime. Encoding and decoding
   operations are analogous to marshalling and unmarshalling, except that
   the data is stored locally, and is not transmitted over the network.
   Client and server applications can use the IDL encoding services to
   create persistent storage for their data.  Encoding "flattens"
   complex data types into a byte stream for storage on disk, while
   decoding restores the flattened data to complex form.

   The idl_es_encode_incremental() routine belongs to a set of routines
   that return handles to the IDL encoding services for use by client
   and server encoding and decoding operations. The information in the
   handle controls the way in which the IDL encoding services manage
   memory when encoding or decoding data.

   The idl_es_encode_incremental() routine returns an incremental
   encoding handle, which directs the IDL encoding services to encode
   data into a chain of small buffers that the user-provided
   allocate_fn routine manages.  The user-provided write_fn routine
   writes the encoded data in these buffers back for access by the
   application.

   The state data structure is the communications path between the
   application and the allocate_fn and write_fn routines.  For example,
   the application can build a cache of pre-allocated memory to store
   encoded data, and store pointers to that pre-allocated memory in the
   state data structure.  When invoked by the IDL encoding services to
   allocate a buffer, the allocate_fn routine can search the state data
   structure for a free memory location to use.

 RETURN VALUES

   None.

 RELATED INFORMATION

   Functions: idl_es_decode_incremental
              idl_es_encode_fixed_buffer
              idl_es_encode_dyn_buffer

12  –  idl_es_handle_free

 NAME

   idl_es_handle_free - Frees an IDL encoding services handle

 SYNOPSIS

   void idl_es_handle_free( idl_es_handle_t *es_handle,
                            error_status_t *status );

 PARAMETERS

   Input/Output

   es_handle
        The address of the handle whose resources are to be freed.
        The handle is made NULL by this operation.

   Output

   status
        Returns the status code from this routine. This status code
        indicates whether the routine completed successfully or, if
        not, why not.  The possible status code and its meaning is
        as follows:

        rpc_s_ok       Success.

 DESCRIPTION

   The idl_es_handle_free routine frees an IDL encoding services handle
   that has been allocated by one of the IDL encoding services handle-
   returning routines.

 RETURNED VALUES

   None.

 RELATED INFORMATION

   Functions: idl_es_decode_buffer
              idl_es_decode_incremental
              idl_es_encode_dyn_buffer
              idl_es_encode_fixed_buffer
              idl_es_encode_incremental

13  –  idl_es_inq_encoding_id

 NAME

   idl_es_inq_encoding_id - Identifies an operation within an interface
                            that has been called to encode data using
                            the IDL encoding services

 SYNOPSIS

   void idl_es_inq_encoding_id( idl_es_handle_t  es_handle,
                                rpc_if_id_t *if_id,
                                idl_ulong_int  *op_num,
                                error_status_t  *status );

 PARAMETERS

   Input

   es_handle
        A encoding services handle returned by one of the IDL encoding
        services handle-returning routines.

   Output

   if_id
        Returns the interface UUID and version number assigned to the
        interface that defines the operation that encoded the data.
        This information is stored in the IDL encoding services handle
        that is associated with the encoded data.

   op_num
        Returns the operation number assigned to the operation that
        encoded the data. Operations are numbered in the order in
        which they appear in the interface definition, starting with
        zero (0). The operation number for the operation that encoded
        the data is stored in the IDL encoding services handle that
        is associated with the encoded data.

   status
        Returns the status code from this routine. This status code
        indicates whether the routine completed successfully or, if
        not, why not.  The possible status codes and their meanings
        are as follows:

        rpc_s_ok       Success.

        rpc_s_unknown_if
                       Interface identifier and operation number
                       unavailable.

 DESCRIPTION

   The IDL encoding services provide client and server RPC applications
   with a method for encoding data types in input parameters into a byte
   stream and decoding data types in output parameters from a byte
   stream without invoking the RPC runtime.  Encoding and decoding
   operations are analogous to marshalling and unmarshalling, except
   that the data is stored locally, and is not transmitted over the
   network.  Client and server applications can use the IDL encoding
   services to create persistent storage for their data.  Encoding
   "flattens" complex data types into a byte stream for storage on
   disk, while decoding restores the flattened data to complex form.

   The idl_es_inq_encoding_id() routine returns the identity of an
   operation within an application that has been invoked to encode data
   using the IDL encoding services. Applications can use this routine
   to determine the identity of an encoding operation, for example,
   before calling their decoding operations.

 RETURN VALUES

   None.

 RELATED INFORMATION

   Functions: idl_es_decode_buffer
              idl_es_decode_incremental
              idl_es_encode_dyn_buffer
              idl_es_encode_fixed_buffer
              idl_es_encode_incremental

14  –  rpc_binding_copy

 NAME

   rpc_binding_copy - Returns a copy of a binding handle

   Used by client or server applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_binding_copy( rpc_binding_handle_t source_binding,
                          rpc_binding_handle_t *destination_binding,
                          unsigned32 *status );

 PARAMETERS

   Input

   source_binding
       Specifies the server binding handle whose referenced binding
       information is copied.

   Output

   destination_binding
       Returns the server binding handle that refers to the copied
       binding information.

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if not,
       why not.  The possible status codes and their meanings are as
       follows:

       rpc_s_ok      Success.

       rpc_s_invalid_binding
                     Invalid binding handle.

       rpc_s_wrong_kind_of_binding
                     Wrong kind of binding for operation.

 DESCRIPTION

   The rpc_binding_copy() routine copies the server binding information
   referenced by the binding handle specified in the source_binding
   parameter.  This routine returns a new server binding handle for the
   copied binding information. The new server binding handle is returned
   in the destination_binding parameter.

   Use the rpc_binding_copy() routine if you want a change (made to
   binding information by one thread) not to affect the binding infor-
   mation used by other threads.  The explanation of binding handles in
   the rpc_intro reference page has more detail about this use of
   routine rpc_binding_copy().

   After calling this routine, operations performed on the source_binding
   binding handle do not affect the binding information referenced by the
   destination_binding binding handle. Similarly, operations performed on
   the destination_binding binding handle do not affect the binding
   information referenced by the source_binding binding handle.

   If you want the changes made to binding information by one thread to
   affect the binding information used by other threads, your program
   must share a single binding handle across the threads.  In this case
   the application controls binding handle concurrency.

   When an application is finished using the binding handle specified
   by the destination_binding parameter, the application calls the
   rpc_binding_free() routine to release the memory used by the
   destination_binding binding handle and its referenced binding
   information.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_binding_free

15  –  rpc_binding_free

 NAME

   rpc_binding_free - Releases binding handle resources

   Used by client or server applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_binding_free( rpc_binding_handle_t *binding,
                          unsigned32 *status );

 PARAMETERS

   Input/Output

   binding
       Specifies the server binding handle to free.

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if not,
       why not.  The possible status codes and their meanings are as
       follows:

       rpc_s_ok      Success.

       rpc_s_invalid_binding
                     Invalid binding handle.

       rpc_s_wrong_kind_of_binding
                     Wrong kind of binding for operation.

 DESCRIPTION

   The rpc_binding_free() routine frees the memory used by a server
   binding handle and its referenced binding information. Use this
   routine when your application is finished using a server binding
   handle that was dynamically created during program execution.

   If the free-binding operation succeeds, the binding parameter returns
   the value NULL.

   An application can dynamically create binding handles by calling any
   of the following routines:

     +  rpc_binding_copy()

     +  rpc_binding_from_string_binding()

     +  rpc_ns_binding_import_next()

     +  rpc_ns_binding_select()

     +  rpc_server_inq_bindings()

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_binding_copy
              rpc_binding_from_string_binding
              rpc_binding_vector_free
              rpc_ns_binding_import_next
              rpc_ns_binding_lookup_next
              rpc_ns_binding_select
              rpc_server_inq_bindings

16  –  rpc_binding_from_string_binding

 NAME

   rpc_binding_from_string_binding - Returns a binding handle from a
                                     string representation

   Used by client or management applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_binding_from_string_binding( unsigned_char_t *string_binding,
                                         rpc_binding_handle_t *binding,
                                         unsigned32 *status );

 PARAMETERS

   Input

   string_binding
       Specifies a string representation of a binding handle.

   Output

   binding
       Returns the server binding handle.

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if not,
       why not.  The possible status codes and their meanings are as
       follows:

       rpc_s_ok      Success.

       rpc_s_invalid_arg
                     Invalid argument.

       rpc_s_invalid_endpoint_format
                     Invalid endpoint format.

       rpc_s_invalid_rpc_protseq
                     Invalid protocol sequence.

       rpc_s_invalid_string_binding
                     Invalid string binding.

       rpc_s_protseq_not_supported
                     Protocol sequence not supported on this host.

       uuid_s_bad_version
                     Bad UUID version.

       uuid_s_invalid_string_uuid
                     Invalid format for a string UUID.

 DESCRIPTION

   The rpc_binding_from_string_binding() routine creates a server binding
   handle from a string representation of a binding handle.

   The string_binding parameter does not need to contain an object UUID.
   In this case, the returned binding contains a nil UUID.

   If the provided string_binding parameter does not contain an endpoint
   field, the returned binding parameter is a partially bound server
   binding handle.

   If the provided string_binding parameter does contain an endpoint
   field, the returned binding parameter is a fully bound server binding
   handle with a well-known endpoint.

   If the provided string_binding parameter does not contain a host
   address field, the returned binding parameter refers to the local
   host.

   To create a string binding, call the rpc_string_binding_compose()
   routine or call the rpc_binding_to_string_binding() routine or
   provide a character string constant.

   When an application finishes using the binding parameter, the
   application calls the rpc_binding_free() routine to release the
   memory used by the binding handle.

   The rpc_intro reference page contains an explanation of partially
   and fully bound binding handles.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_binding_copy
              rpc_binding_free
              rpc_binding_to_string_binding
              rpc_string_binding_compose

17  –  rpc_binding_inq_auth_client

 NAME

   rpc_binding_inq_auth_client - Returns authentication and authorization
                                 information from the binding handle for
                                 an authenticated client.  This call is
                                 provided only for compatibility with
                                 pre-1.1 DCE applications. DCE Release
                                 1.1 and later applications should use
                                 the rpc_binding_inq_auth_caller() call.

   Used by server applications.

 SYNOPSIS

   #include <dce/rpc.h>
   #include <dce/id_base.h>

   void rpc_binding_inq_auth_client( rpc_binding_handle_t binding,
                                     rpc_authz_handle_t *privs,
                                     unsigned_char_t **server_princ_name,
                                     unsigned32 *protect_level,
                                     unsigned32 *authn_svc,
                                     unsigned32 *authz_svc,
                                     unsigned32 *status );

 PARAMETERS

   Input

   binding
       Specifies the client binding handle from which to return the
       authentication and authorization information.

   Output

   privs
       Returns a handle to the authorization information for the client
       that made the remote procedure call on binding.
       The server must cast this handle to the data type specified by
       authz_svc.  The following table shows how to cast the return
       value.

                      Casts for Authorization Information
     ____________________________________________________________________
     For authz_svc value:   privs contains this data:   Use this cast:
     ____________________________________________________________________
     rpc_c_authz_none       A NULL value.             None
     rpc_c_authz_name       The calling client's      (unsigned_char_t *)
                            principal name.
     rpc_c_authz_dce        The calling client's        (sec_id_pac_t *)
                            privilege attribute
                            certificate.

        Note that rpc_c_authz_none is valid only if the authn_svc
        parameter is rpc_c_authn_none.
        The data referenced by this parameter is read-only and should not
        be modified by the server.  If the server wants to preserve any
        of the returned data, it must copy the data into server-allocated
        memory.  Specifying NULL prevents the routine from returning this
        parameter.

   server_princ_name
       Returns a pointer to the server principal name specified by the
       client that made the remote procedure call on binding.  The
       content of the returned name and its syntax is defined by the
       authentication service in use.
       Specifying NULL prevents the routine from returning this
       parameter. In this case, the caller does not have to call the
       rpc_string_free() routine.

   protect_level
       Returns the protection level requested by the client that made the
       remote procedure call on binding.  The protection level determines
       the degree to which authenticated communications between the
       client and the server are protected. Specifying NULL prevents the
       routine from returning this parameter.  The possible protection
       levels are as follows:

       rpc_c_protect_level_default
                     Uses the default protection level for the specified
                     authentication service.

       rpc_c_protect_level_none
                     Performs no protection.

       rpc_c_protect_level_connect
                     Performs protection only when the client establishes
                     a relationship with the server.

       rpc_c_protect_level_call
                     Performs protection only at the beginning of each
                     remote procedure call when the server receives the
                     request.

       rpc_c_protect_level_pkt
                     Ensures that all data received is from the expected
                     client.

       rpc_c_protect_level_pkt_integ
                     Ensures and verifies that none of the data
                     transferred between client and server has been
                     modified.

       rpc_c_protect_level_pkt_privacy
                     Performs protection as specified by all of the
                     previous levels and also encrypt each remote
                     procedure call argument value.

   authn_svc
       Returns the authentication service requested by the client that
       made the remote procedure call on binding.
       Specifying NULL prevents the routine from returning this
       parameter.
       The possible authentication services are as follows:

       rpc_c_authn_none
                     No authentication.

       rpc_c_authn_dce_secret
                     DCE shared-secret key authentication.

       rpc_c_authn_dce_public
                     DCE public key authentication (reserved for future
                     use).

       rpc_c_authn_default
                     DCE default authentication service.

   authz_svc
       Returns the authorization service requested by the client that
       made the remote procedure call on binding.

       Specifying NULL prevents the routine from returning this
       parameter.  The possible authorization services are as follows:

       rpc_c_authz_none
                Server performs no authorization. This is valid only
                if the authn_svc parameter is rpc_c_authn_none.

       rpc_c_authz_name
                Server performs authorization based on the client
                principal name.

       rpc_c_authz_dce
                Server performs authorization using the client's DCE
                Privilege Attribute Certificate (PAC) sent to the server
                with each remote procedure call made with binding.
                Generally, access is checked against DCE Access Control
                Lists (ACLs).

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if not,
       why not.  The possible status codes and their meanings are as
       follows:

       rpc_s_ok      Success.

       rpc_s_invalid_binding
                     Invalid binding handle.

       rpc_s_wrong_kind_of_binding
                     Wrong kind of binding for operation.

       rpc_s_binding_has_no_auth
                     Binding has no authentication information.

 DESCRIPTION

   The rpc_binding_inq_auth_client() routine returns authentication and
   authorization information associated with the client identified by
   binding.  The calling server manager routine can use the returned data
   for authorization purposes.  This call is provided only for
   compatibility with pre-1.1 DCE applications.  DCE Release 1.1 and
   later applications should use the rpc_binding_inq_auth_caller() call.

   The RPC runtime allocates memory for the returned server_princ_name
   parameter.  The server is responsible for calling the
   rpc_string_free() routine for the returned parameter string.

   For applications in which the client side uses the IDL auto_handle
   or implicit_handle attribute, the server side needs to be built with
   the IDL explicit_handle attribute specified in the Attribute
   Configuration File (ACF).  Using explicit_handle provides binding as
   the first parameter to each server manager routine.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_binding_inq_auth_info
              rpc_binding_set_auth_info
              rpc_string_free

18  –  rpc_binding_inq_auth_info

 NAME

   rpc_binding_inq_auth_info - Returns authentication and authorization
                               information from a server binding handle

   Used by client applications.

 SYNOPSIS

   #include <dce/rpc.h>
   #include <dce/sec_login.h>

   void rpc_binding_inq_auth_info(
                           rpc_binding_handle_t binding,
                           unsigned_char_t **server_princ_name,
                           unsigned32 *protect_level,
                           unsigned32 *authn_svc,
                           rpc_auth_identity_handle_t *auth_identity,
                           unsigned32 *authz_svc,
                           unsigned32 *status );

 PARAMETERS

   Input

   binding
       Specifies the server binding handle from which to return the
       authentication and authorization information.

   Output

   server_princ_name
       Returns a pointer to the expected principal name of the server
       referenced by binding.  The content of the returned name and its
       syntax is defined by the authentication service in use.
       Specifying NULL prevents the routine from returning this
       parameter. In this case, the caller does not have to call the
       rpc_string_free() routine.

   protect_level
       Returns the protection level used for remote procedure calls made
       with binding.  The protection level determines the degree to which
       authenticated communications between the client and the server are
       protected.  Note that the returned level may be different from the
       level specified for protect_level on the call to
       rpc_binding_set_auth_info().  If the RPC runtime or the RPC
       protocol in the bound protocol sequence does not support a
       specified level, the level is automatically upgraded to the next
       higher supported level.

       Specifying NULL prevents the routine from returning this
       parameter. The possible protection levels are as follows:

       rpc_c_protect_level_default
                     Uses the default protection level for the specified
                     authentication service.

       rpc_c_protect_level_none
                     Performs no protection.

       rpc_c_protect_level_connect
                     Performs protection only when the client establishes
                     a relationship with the server.

       rpc_c_protect_level_call
                     Performs protection only at the beginning of each
                     remote procedure call when the server receives the
                     request.

       rpc_c_protect_level_pkt
                     Ensures that all data received is from the expected
                     client.

       rpc_c_protect_level_pkt_integ
                     Ensures and verifies that none of the data
                     transferred between client and server has been
                     modified.

       rpc_c_protect_level_pkt_privacy
                     Performs protection as specified by all of the
                     previous levels and also encrypt each remote
                     procedure call parameter value.

   authn_svc
       Returns the authentication service used for remote procedure calls
       made with binding.
       Specifying NULL prevents the routine from returning this argument.
       The possible authentication services are as follows:

       rpc_c_authn_none
                     No authentication.

       rpc_c_authn_dce_secret
                     DCE shared-secret key authentication.

       rpc_c_authn_dce_public
                     DCE public key authentication (reserved for future
                     use).

       rpc_c_authn_default
                     DCE default authentication service.

   auth_identity
       Returns a handle for the data structure that contains the client's
       authentication and authorization credentials.  This parameter must
       be cast as appropriate for the authentication and authorization
       services established via rpc_binding_set_auth_info().
       When using the rpc_c_authn_dce_secret authentication service and
       any authorization service, this value must be a sec_login_handle_t
       obtained from one of the following routines:

         + sec_login_setup_identity()

         + sec_login_get_current_context()

         + sec_login_newgroups()

   These routines are described in Chapter 5 of this manual.
   Specifying NULL prevents the routine from returning this parameter.

   authz_svc
       Returns the authorization service used for remote procedure calls
       made with binding.
       Specifying NULL prevents the routine from returning this
       parameter. The possible authorization services are as follows:

       rpc_c_authz_none
                Server performs no authorization.  This is valid only
                if the authn_svc parameter is rpc_c_authn_none.

       rpc_c_authz_name
                Server performs authorization based on the client
                principal name.

       rpc_c_authz_dce
                Server performs authorization using the client's DCE
                Privilege Attribute Certificate (PAC) sent to the server
                with each remote procedure call made with binding.
                Generally, access is checked against DCE Access Control
                Lists (ACLs).

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if not,
       why not.  The possible status codes and their meanings are as
       follows:

       rpc_s_ok      Success.

       rpc_s_invalid_binding
                     Invalid binding handle.

       rpc_s_wrong_kind_of_binding
                     Wrong kind of binding for operation.

       rpc_s_binding_has_no_auth
                     Binding has no authentication information.

 DESCRIPTION

   The rpc_binding_inq_auth_info() routine returns authentication and
   authorization information associated with the specified server binding
   handle.  The calling client associates the authentication and
   authorization data with the server binding handle by a prior call to
   the rpc_binding_set_auth_info() routine.

   The RPC runtime allocates memory for the returned server_princ_name
   parameter.   The  caller is responsible for calling the
   rpc_string_free() routine for the returned parameter string.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_binding_set_auth_info
              rpc_string_free

19  –  rpc_binding_inq_object

 NAME

   rpc_binding_inq_object - Returns the object UUID from a binding handle

   Used by client or server applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_binding_inq_object( rpc_binding_handle_t binding,
                                uuid_t *object_uuid,
                                unsigned32 *status );

 PARAMETERS

   Input

   binding
       Specifies a client or server binding handle.

   Output

   object_uuid
       Returns the object UUID found in the binding parameter.  The
       object UUID is a unique identifier for an object for which a
       remote procedure call can be made.

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if
       not, why not.  The possible status codes and their meanings are
       as follows:

       rpc_s_ok     Success.

       rpc_s_invalid_binding
                    Invalid binding handle.

 DESCRIPTION

   The rpc_binding_inq_object() routine obtains the object UUID
   associated with a client or server binding handle.  If no object
   UUID has been associated with the binding handle, this routine
   returns a nil UUID.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_binding_set_object

20  –  rpc_binding_reset

 NAME

   rpc_binding_reset - Resets a server binding handle

   Used by client or management applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_binding_reset( rpc_binding_handle_t binding,
                           unsigned32 *status );

 PARAMETERS

   Input

   binding
       Specifies the server binding handle to reset.

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if
       not, why not.  The possible status codes and their meanings
       are as follows:

       rpc_s_ok      Success.

       rpc_s_invalid_binding
                     Invalid binding handle.

       rpc_s_wrong_kind_of_binding
                     Wrong kind of binding for operation.

 DESCRIPTION

   The rpc_binding_reset() routine disassociates a server instance from
   the server binding handle specified in the binding parameter.  This
   routine removes the endpoint portion of the server address in the
   binding handle as well as any other server instance information in the
   binding handle.  The host portion of the server address remains
   unchanged.  The result is a partially bound server binding handle.
   This binding handle can rebind to another server instance on the
   previous host when it is later used to make a remote procedure call.
   The rpc_intro reference page contains an explanation of partially and
   fully bound binding handles.

   This routine does not affect any authentication information for the
   binding parameter.

   Suppose that a client can be serviced by any compatible server
   instance  on the host specified in the binding handle.  Then, the
   client can call the rpc_binding_reset() routine before making a
   remote procedure call using the binding handle specified in binding.

   When the client makes the next remote procedure call using the reset
   server binding handle in binding, the client's RPC runtime uses a
   well-known endpoint from the client's interface specification, if any.
   Otherwise, the client's RPC runtime automatically communicates with
   the DCE Host Daemon (dced) on the specified remote host, to obtain the
   endpoint of a compatible server from the local endpoint map.  If a
   compatible server is located, the RPC runtime updates binding with a
   new endpoint.

   However, if a compatible server is not located, the client's remote
   procedure call fails.  If the failed call uses a connection protocol
   (ncacn), it receives the rpc_s_endpoint_not_found status code.  If
   the failed call uses a datagram protocol (ncadg), it receives the
   rpc_s_comm_failure status code.

   If a server application wants to be available to clients making a
   remote procedure call on a reset binding handle, it registers all
   binding handles by calling rpc_ep_register() or
   rpc_ep_register_no_replace().  If, however, the IDL-generated file
   contains endpoint address information, then the application does not
   have to call either of these two routines.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_ep_register
              rpc_ep_register_no_replace

21  –  rpc_binding_server_from_client

 NAME

   rpc_binding_server_from_client - Converts a client binding handle
                                    to a server binding handle

   Used by server applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_binding_server_from_client(
                   rpc_binding_handle_t client_binding,
                   rpc_binding_handle_t *server_binding,
                   unsigned32 *status );

 PARAMETERS

   Input

   client_binding
       Specifies the client binding handle to convert to a server
       binding handle.

   Output

   server_binding
       Returns a server binding handle.

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if
       not, why not.  The possible status codes and their meanings
       are as follows:

       rpc_s_ok      Success.

       rpc_s_cant_getpeername
                     Cannot get peer name.

       rpc_s_connection_closed
                     Connection closed.

       rpc_s_invalid_binding
                     Invalid binding handle.

       rpc_s_wrong_kind_of_binding
                     Wrong kind of binding.

 DESCRIPTION

   When a remote procedure call arrives at a server, the RPC runtime
   creates a client binding handle to refer to information about the
   calling client (client binding information).  The RPC runtime
   passes the client binding handle to the called remote procedure as
   the first input argument (which uses the handle_t type).

   The rpc_binding_server_from_client() routine converts client binding
   information into server binding information corresponding to the
   client's system.  When calling this routine, the called remote
   procedure specifies the client binding handle, and the routine
   returns a partially bound server binding handle (that is, the newly
   constructed server binding information contains a network address
   for the client's system, but lacks an endpoint).  The server binding
   information also lacks authentication information, but the called
   procedure can add it by calling rpc_binding_set_auth_info().  The
   object UUID from the client binding information remains.

   The rpc_binding_server_from_client() routine is relevant when a
   called remote procedure (the first remote procedure) needs to make
   its own remote procedure call (a nested procedure call) to a second
   remote procedure offered by a server on the system of the client
   that called the first remote procedure (that is, the original
   client).  The partially bound server binding handle returned by the
   rpc_binding_server_from_client() routine ensures that a nested call
   requests the second remote procedure on the original client's system.

   In a multithreaded RPC application, the second remote procedure can
   belong to a server that shares the original client's address space
   (that is, the server and client can operate jointly as a
   server/client instance).  If the original client belongs to a
   server/client instance and the application requires the nested call
   to execute in that instance, the application must guarantee that the
   nested remote procedure call uses one of the instances' endpoints.

   An application can provide this guarantee by meeting any of the
   following conditions:

     +  The interface possesses its own well-known endpoints, and
        the server elects to use these interface-specific endpoints
        (by calling rpc_server_use_protseq_if() or
        rpc_server_use_all_protseqs_if()).

     +  The server uses server-specific endpoints, and the interface is
        offered by only one server/client instance per system.

        To use server-specific endpoints, a server either requests
        dynamic endpoints (by calling rpc_server_use_protseq() or
        rpc_server_use_all_protseqs()) or specifies its own well-known
        endpoints (by calling rpc_server_use_protseq_ep()).  The server
        must also register its server-specific endpoints in the local
        endpoint map (by calling rpc_ep_register()).

     +  The original client sets an object UUID into the server binding
        information of the first call (by calling
        rpc_binding_set_object()); the object UUID identifies the
        server/client instance.  The client can obtain the object UUID
        from the list of object UUIDs used to register the endpoints of
        the server/client instance. The client must select an object
        UUID that belongs exclusively to its instance.

        Server binding information containing an object UUID impacts
        the selection of a manager for a remote procedure call; see the
        OSF DCE Application Development Guide for a description of
        manager selection.  The object UUID can either identify a
        particular resource offered by the companion server or, used as
        an instance UUID, the object UUID can identify the original
        client's server/client instance.

        The object UUID is passed in the first remote procedure call as
        part of the client binding information and is retained in the
        server binding information.  This server binding information is
        newly constructed by the rpc_binding_server_from_client()
        routine.  When the second remote procedure call arrives at the
        original client's system, the DCE Host daemon uses the object
        UUID to look for associated endpoints in the local endpoint map.
        To ensure that the object UUID is associated with the endpoints
        of the original server/client instance, the server must complete
        the following steps:

         1. Obtain the UUID (for example, by calling uuid_create()).

         2. Specify the UUID as part of registering endpoints for the
            interface of the second remote procedure (by calling
            rpc_ep_register() or rpc_ep_register_no_replace()).

        If the second remote procedure call will be routed to a manager
        of a non-nil type, then the server must also do the following:

         1. Specify the type for the manager that implements that
            interface (by calling rpc_server_register_if()).

         2. Set the object UUID to the same type as the manager (by
            calling rpc_object_set_type()).

     +  The first remote procedure call contains a distinct call argument
        used by the original client to pass server information that
        identifies its server/client instance.

        The first remote procedure call uses this information to route
        the second remote procedure call to the original server/client
        instance.  For example, server information can be as follows:

          - A fully bound string binding that identifies the client's
            server/client instance.  If the first remote procedure
            receives this string binding, calling the
            rpc_binding_server_from_client routine is unnecessary.
            Instead, the first remote procedure requests a server
            binding handle for the string binding (by calling
            rpc_binding_from_string_binding()).

          - An object UUID that is associated in the endpoint map with
            one or more endpoints of the original server/client instance.
            The client can obtain the object UUID from the list of object
            UUIDs used to register the endpoints of the server/client
            instance.  The client must select an object UUID that belongs
            exclusively to its instance, and pass that UUID as a call
            argument.  After calling the rpc_binding_server_from_client()
            routine, add the object UUID from the call argument to the
            newly constructed server binding information (by calling
            rpc_binding_set_object()).

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_binding_free
              rpc_binding_set_object
              rpc_ep_register
              rpc_ep_register_no_replace

   Books: DCE OSF Application Development Guide.

22  –  rpc_binding_set_auth_info

 NAME

   rpc_binding_set_auth_info - Sets authentication and authorization
                               information for a server binding handle

   Used by client applications.

 SYNOPSIS

   #include <dce/rpc.h>
   #include <dce/sec_login.h>

   void rpc_binding_set_auth_info(
               rpc_binding_handle_t binding,
               unsigned_char_t *server_princ_name,
               unsigned32 protect_level,
               unsigned32 authn_svc,
               rpc_auth_identity_handle_t auth_identity,
               unsigned32 authz_svc,
               unsigned32 *status );

 PARAMETERS

   Input

   binding
       Specifies the server binding handle for which to set the
       authentication and authorization information.

   server_princ_name
       Specifies the principal name of the server referenced by binding.
       The content of the name and its syntax is defined by the
       authentication service in use.

       A client that does not know the server principal name can call
       the rpc_mgmt_inq_server_princ_name() routine to obtain the
       principal name of a server that is registered for the required
       authentication service.  Using a principal name obtained in this
       way means that the client is interested in one-way authentication.
       In other words, it means that the client does not care which
       server principal received the remote procedure call request.  The
       server, though, still verifies that the client is who the client
       claims to be.

   protect_level
       Specifies the protection level for remote procedure calls made
       using binding.  The protection level determines the degree to
       which authenticated communications between the client and the
       server are protected by the authentication service specified by
       authn_svc.

       If the RPC runtime or the RPC protocol in the bound protocol
       sequence does not support a specified level, the level is
       automatically upgraded to the next higher supported level.
       The possible protection levels are as follows:

       rpc_c_protect_level_default
                    Uses the default protection level for the specified
                    authentication service.  The default protection
                    level for the DCE shared-secret key authentication
                    service is rpc_c_protect_level_pkt_integ.

       rpc_c_protect_level_none
                    Performs no authentication: tickets are not
                    exchanged, session keys are not established, client
                    PACs or names are not certified, and transmissions
                    are in the clear.  Note that although uncertified
                    PACs should not be trusted, they may be useful for
                    debugging, tracing, and measurement purposes.

       rpc_c_protect_level_connect
                    Performs protection only when the client establishes
                    a relationship with the server.

       rpc_c_protect_level_call
                    Performs protection only at the beginning of each
                    remote procedure call when the server receives the
                    request.  This level does not apply to remote
                    procedure calls made over a connection-based
                    protocol sequence (that is, ncacn_ip_tcp).  If this
                    level is specified and the binding handle uses a
                    connection-based protocol sequence, the routine uses
                    the rpc_c_protect_level_pkt level instead.

       rpc_c_protect_level_pkt
                    Ensures that all data received is from the expected
                    client.

       rpc_c_protect_level_pkt_integ
                    Ensures and verifies that none of the data
                    transferred between client and server has been
                    modified.  This is the highest protection level that
                    is guaranteed to be present in the RPC runtime.

       rpc_c_protect_level_pkt_privacy
                    Performs protection as specified by all of the
                    previous levels and also encrypt each remote
                    procedure call argument value.  This is the highest
                    protection level, but it may not be available in
                    the RPC runtime.

   authn_svc
       Specifies the authentication service to use. The exact level of
       protection provided by the authentication service is specified
       by the protect_level parameter.  The supported authentication
       services are as follows:

       rpc_c_authn_none
                    No authentication:  no tickets are exchanged, no
                    session keys established, client PACs or names are
                    not transmitted, and transmissions are in the clear.
                    Specify rpc_c_authn_none to turn authentication off
                    for remote procedure calls made using binding.

       rpc_c_authn_dce_secret
                    DCE shared-secret key authentication.

       rpc_c_authn_default
                    DCE default authentication service.  The current
                    default authentication service is DCE shared-secret
                    key; therefore, specifying rpc_c_authn_default is
                    equivalent to specifying rpc_c_authn_dce_secret.

       rpc_c_authn_dce_public
                    DCE public key authentication (reserved for future
                    use).

       rpc_c_authn_winnt
                    Authentication via Microsoft NT Lan Manager (only
                    available on Windows NT and OpenVMS).  This allows
                    OpenVMS applications to authenticate with a Windows
                    NT domain security server.

   auth_identity
       Specifies a handle for the data structure that contains the
       client's authentication and authorization credentials
       appropriate for the selected authentication and authorization
       services.  When using the rpc_c_authn_dce_secret authentication
       service and any authorization service, this value must be a
       sec_login_handle_t obtained from one of the following routines:

         + sec_login_setup_identity()

         + sec_login_get_current_context()

         + sec_login_newgroups()

         + rpc_winnt_set_auth_identity

   Specify NULL to use the default security login context for the current
   address space.

   authz_svc
       Specifies the authorization service implemented by the server
       for the interface of interest.  The validity and trustworthiness
       of authorization data, like any application data, is dependent on
       the authentication  service and protection level specified.  The
       supported authorization services are as follows:

       rpc_c_authz_none
                 Server performs no authorization.  This is valid only if
                 the authn_svc parameter is rpc_c_authn_none, specifying
                 that no authentication is being performed.

       rpc_c_authz_name
                 Server performs authorization based on the client
                 principal name.   This value cannot be used if authn_svc
                 is rpc_c_authn_none.

       rpc_c_authz_dce
                 Server performs authorization using the client's DCE
                 Privilege Attribute Certificate (PAC) sent to the
                 server with each remote procedure call made with
                 binding.   Generally, access is checked against DCE
                 Access Control Lists (ACLs).  This value cannot be
                 used if authn_svc is rpc_c_authn_none.

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if
       not, why not.  The possible status codes and their meanings
       are as follows:

       rpc_s_ok      Success.

       rpc_s_invalid_binding
                     Invalid binding handle.

       rpc_s_wrong_kind_of_binding
                     Wrong kind of binding for operation.

       rpc_s_unknown_authn_service
                     Unknown authentication service.

       rpc_s_authn_authz_mismatch
                     Requested authorization service is not supported by
                     the requested authentication service.

       rpc_s_unsupported_protect_level
                     Requested protection level is not supported.

 DESCRIPTION

   The rpc_binding_set_auth_info() routine sets up the specified server
   binding  handle so that it can be used to make authenticated remote
   procedure calls that include authorization information.

   Unless a client calls rpc_binding_set_auth_info() with the parameters
   to set establish authentication and authorization methods, all remote
   procedure calls made on the binding binding handle are unauthenti-
   cated.Some authentication services (authn_svc) may need to
   communicate with the Security service to perform this operation.
   Otherwise, they may receive the rpc_s_comm_failure status.

   The authn_svc parameter specifies the authentication service to use.
   Since currently, there is only one available authentication service
   (DCE shared-secret key), the parameter currently functions to specify
   whether or not rpc calls will be authenticated and client PACs
   certified. If authentication is chosen, the protect_level parameter
   can specify a variety of protection levels, ranging from no
   authentication to the highest level of authentication and encryption.
   If the protect_level parameter is set to rpc_c_protect_level_none, no
   authentication is performed, regardless of the authentication service
   chosen.

   The authz_svc parameter specifies the authorization service to use.
   If no authentication has been chosen (authn_svc of rpc_c_authn_none),
   then no authorization (authz_svc of rpc_c_authz_none) must be chosen
   as well.  If authentication will be performed, you have two choices
   for authorization:  name-based authorization and DCE authorization.
   The use of name based_authorization, which provides a server with a
   client's principal name, is not recommended.  DCE authorization uses
   PACs, a trusted mechanism for conveying client authorization data to
   authenticated servers. PACs are designed to be used with the DCE ACL
   facility.

   Whether the call actually wakes up in the server manager code or is
   rejected by the runtime depends on following conditions:

     +  If the client specified no authentication, then none is attempted
        by the RPC runtime.The call wakes up in the manager code whether
        the server specified authentication or not.  This permits both
        authenticated and unauthenticated clients to call authenticated
        servers.  When the manager receives an unauthenticated call, it
        needs to make a decision about how to proceed.

     +  If the client specified DCE secret key authentication and the
        server specified no authentication, then the runtime will fail
        the call, and it will never reach the manager routine.

     +  If both client and server specified DCE secret key
        authentication, then authentication will be carried out
        by the RPC runtime transparently.  Whether the call reaches
        the server manager code or is rejected by the runtime
        depends on whether the authentication succeeded.

   Although the RPC runtime is responsible any authentication that is
   carried out, the fact that the runtime will always permit
   unauthenticated clients to reach the manager code means that a
   manager access function typically does need to make an
   authentication check.  When the manager access routine calls
   rpc_binding_inq_auth_client() it needs to check for a status of
   rpc_s_binding_has_no_auth.  In this case, the client has specified
   no authentication and the manager access function needs to make an
   access decision based on this fact.  Note that in such a case, no
   meaningful authentication or authorization information is returned
   from rpc_binding_inq_auth_client().

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_binding_inq_auth_client
              rpc_binding_inq_auth_info
              rpc_mgmt_inq_dflt_protect_level
              rpc_mgmt_inq_server_princ_name
              sec_login_get_current_context
              sec_login_newgroups
              sec_login_setup_identity

23  –  rpc_binding_set_object

 NAME

   rpc_binding_set_object - Sets the object UUID value into a server
                            binding handle.

   Used by client applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_binding_set_object( rpc_binding_handle_t binding,
                                uuid_t *object_uuid,
                                unsigned32 *status );

 PARAMETERS

   Input

   binding
       Specifies the server binding into which parameter object_uuid is
       set.  Supply NULL to specify a nil UUID for this parameter.

   object_uuid
       Specifies the UUID of the object serviced by the server specified
       in the binding parameter. The object UUID is a unique identifier
       for an object for which a remote procedure call can be made.

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if
       not, why not.  The possible status codes and their meanings are
       as follows:

       rpc_s_ok      Success.

       rpc_s_invalid_binding
                     Invalid binding handle.

       rpc_s_wrong_kind_of_binding
                     Wrong kind of binding for operation.

 DESCRIPTION

   The rpc_binding_set_object() routine associates an object UUID with
   a server binding handle. This operation replaces the previously
   associated object UUID with the UUID in the object_uuid parameter.

   To set the object UUID to the nil UUID, specify NULL or the nil UUID
   for the object_uuid parameter.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_binding_from_string_binding
              rpc_binding_inq_object

24  –  rpc_binding_to_string_binding

 NAME

   rpc_binding_to_string_binding - Returns a string representation of
                                   a binding handle

   Used by client, server, or management applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_binding_to_string_binding( rpc_binding_handle_t binding,
                                       unsigned_char_t **string_binding,
                                       unsigned32 *status );

 PARAMETERS

   Input

   binding
       Specifies a client or server binding handle to convert to a
       string representation of a binding handle.

   Output

   string_binding
       Returns a pointer to the string representation of the binding
       handle specified in the binding parameter.

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if
       not, why not.  The possible status codes and their meanings
       are as follows:

       rpc_s_ok    Success.

       rpc_s_cant_getpeername
                   Cannot get peer name.

       rpc_s_connection_closed
                   Connection closed.

       rpc_s_invalid_binding
                   Invalid binding handle.

 DESCRIPTION

   The rpc_binding_to_string_binding() routine converts a client or
   server binding handle to its string representation.

   The RPC runtime allocates memory for the string returned in the
   string_binding parameter. The application calls the rpc_string_free()
   routine to deallocate that memory.

   If the binding handle in the binding parameter contains a nil object
   UUID, the object UUID field is not included in the returned string.

   To parse the returned string_binding parameter, call
   rpc_string_binding_parse().

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_binding_from_string_binding
              rpc_string_binding_parse
              rpc_string_free

25  –  rpc_binding_vector_free

 NAME

   rpc_binding_vector_free - Frees the memory used to store a vector
                             and binding handles

   Used by client or server applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_binding_vector_free( rpc_binding_vector_t **binding_vector,
                                 unsigned32 *status );

 PARAMETERS

   Input/Output

   binding_vector
       Specifies the address of a pointer to a vector of server binding
       handles.  On return the pointer is set to NULL.

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if
       not, why not.  The possible status codes and their meanings
       are as follows:

       rpc_s_ok      Success.

       rpc_s_invalid_arg
                     Invalid argument.

       rpc_s_invalid_binding
                     Invalid binding handle.

       rpc_s_wrong_kind_of_binding
                     Wrong kind of binding for operation.

 DESCRIPTION

   The rpc_binding_vector_free() routine frees the memory used to store
   a vector of server binding handles. The freed memory includes both
   the binding handles and the vector itself.

   A server obtains a vector of binding handles by calling
   rpc_server_inq_bindings().  A client obtains a vector of binding
   handles by calling rpc_ns_binding_lookup_next().  Call
   rpc_binding_vector_free() if you have used either of these routines.

   The rpc_binding_free() routine frees individual elements of the
   vector. If an element is freed with this routine, the NULL element
   entry replaces it; rpc_binding_vector_free() ignores such an entry.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_binding_free
              rpc_ns_binding_lookup_next
              rpc_server_inq_bindings

26  –  rpc_cs_binding_set_tags

 NAME

   rpc_cs_binding_set_tags - Places code set tags into a server binding
                             handle

   Used by client applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_cs_binding_set_tags( rpc_binding_handle_t *binding,
                                 unsigned32 sending_tag,
                                 unsigned32 desired_receiving_tag,
                                 unsigned16 sending_tag_max_bytes,
                                 error_status_t *status );

 PARAMETERS

   Input/Output

   binding
       On input, specifies the server binding handle to modify with tag
       information.  This handle is the binding handle returned by the
       rpc_ns_binding_import_next() or rpc_ns_binding_select() routine.
       On output, returns the server binding handle modified with code
       set tag information. The server stub retrieves the tag information
       from the binding handle and uses it to invoke the appropriate
       buffer sizing and code set conversion routines.

   Input

   sending_tag
       Specifies the code set value for the code set in which client
       data to be sent to the server is to be encoded.  If the client
       is not sending any data, set this value to the client's current
       code set.  This step prevents the code set conversion routine
       from being invoked.

   desired_receiving_tag
       Specifies the code set value for the code set in which the client
       prefers data to be encoded when sent back from the server.  If
       the client is not planning to receive any data from the server,
       set this value to the server's current code set.  This step
       prevents the code set conversion routine from being invoked.

   sending_tag_max_bytes
       Specifies the maximum number of bytes that a code set requires
       to encode one character. The value is the c_max_bytes value
       associated with the code set value (c_set) used as the
       sending_tag value.

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if
       not, why not.  The possible status codes and their meanings
       are as follows:

       rpc_s_ok

       rpc_s_no_memory

   The routine can also return status codes generated by the
   rpc_rgy_get_codesets() routine.

 DESCRIPTION

   The rpc_cs_binding_set_tags() routine belongs to a set of DCE RPC
   routines for use by client and server applications that are
   transferring international character data in a heterogeneous
   character set and code sets environment.  These routines are used
   to enable "automatic" code set conversion between client and server
   for character representations that are not part of the DCE Portable
   Character Set.

   Client applications use the rpc_cs_binding_set_tags() routine to add
   code sets tag information to the binding handle of a compatible
   server. The tag information specified in the routine is usually
   obtained from a character and code sets evaluation routine (which is
   typically a user-written routine).

   The sending_tag value identifies the code set encoding that the client
   is using to send international character data to the server.  The
   desired_receiving_tag value indicates to the server the code set that
   the client prefers the server to use when sending return international
   character data. The sending_tag_max_bytes value is the number of bytes
   the sending code set uses to encode one character.

   Client applications that use the rpc_cs_eval_with_universal() or
   rpc_cs_eval_without_universal() routines do not need to call this
   routine because these routines set tag information in the server
   binding handle as part of their operation.  Application developers
   who are writing their own character and code sets evaluation routines
   need to include code that sets tags in a server binding handle.  The
   rpc_cs_binding_set_tags() routine provides this function and can be
   used in user-written evaluation routines, or alone if the application
   does not need to perform evaluation.  In this case, the routine
   provides a short cut for application programmers whose applications
   do not need to evaluate for character and code set compatibility.

   Permissions Required

   No permissions are required.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_cs_eval_with_universal
              rpc_cs_eval_without_universal
              rpc_cs_get_tags

27  –  rpc_cs_char_set_compat_check

 NAME

   rpc_cs_char_set_compat_check - Evaluates character set compatibility
                                  between a client and a server.

   Used by client applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_cs_char_set_compat_check(
             unsigned32 client_rgy_code_set_value,
             unsigned32 server_rgy_code_set_value,
             error_status_t *status );

 PARAMETERS

   Input

   client_rgy_code_set_value
       The registered hexadecimal value that uniquely identifies the code
       set that the client is using as its local code set.

   server_rgy_code_set_value
       The registered hexadecimal value that uniquely identifies the code
       set that the server is using as its local code set.

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if
       not, why not.  The possible status codes and their meanings
       are as follows:

       rpc_s_ok

       rpc_s_ss_no_compat_charsets

   The routine can also return status codes from the dce_cs_rgy_to_loc()
   routine.

 DESCRIPTION

   The rpc_cs_char_set_compat_check() routine belongs to a set of DCE
   RPC routines for use by client and server applications that are
   transferring international character data in a heterogeneous
   character set and code sets environment.

   The rpc_cs_char_set_compat_check() routine provides a method for
   determining character set compatibility between a client and a
   server; if the server's character set is incompatible with that of
   the client, then connecting to that server is most likely not
   acceptable, since massive data loss would result from such a
   connection.

   The RPC routines that perform character and code sets evaluation use
   the rpc_cs_char_set_compat_check() routine in their character sets
   and code sets compatibility checking procedure. The routine takes the
   registered integer values that represent the code sets that the client
   and server are currently using and calls the code set registry to
   obtain the registered values that represent the character set(s) that
   the specified code sets support. If both client and server support
   just one character set, the routine compares client and server
   registered character set values to determine whether or not the sets
   are compatible. If they are not, the routine returns the status
   message rpc_s_ss_no_compat_charsets.

   If the client and server support multiple character sets, the
   routine determines whether at least two of the sets are compatible.
   If two or more sets match, the routine considers the character sets
   compatible, and returns a success status code to the caller.

   Client and server applications that use the DCE RPC code sets
   evaluation routines rpc_cs_eval_with_universal() and
   rpc_cs_eval_without_universal() do not need to call this routine
   explicitly because these DCE RPC routines call it on their behalf.

   Client applications that do not use the DCE RPC code sets evaluation
   routines can use the rpc_cs_char_set_compat_check() routine in their
   code sets evaluation code as part of their procedure for determining
   character and code set compatibility with a server.

   Permissions Required

   No permissions are required.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_cs_eval_with_universal
              rpc_cs_eval_without_universal
              rpc_cs_get_tags
              rpc_ns_mgmt_read_codesets
              rpc_rgy_get_codesets

28  –  rpc_cs_eval_with_universal

 NAME

   rpc_cs_eval_with_universal - Evaluates a server's supported
                                character sets and code sets during
                                the server binding selection process

   Used indirectly by client applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_cs_eval_with_universal( rpc_ns_handle_t binding_handle,
                                    idl_void_p_t eval_args,
                                    idl_void_p_t *context );

 PARAMETERS

   Input

   binding_handle
       The server binding handle.

   eval_args
       An opaque data type that contains matching criteria that the
       routine uses to perform character and code sets compatibility
       evaluation.

   Input/Output

   context
       An opaque data type that contains search context to perform
       character and code sets compatibility evaluation.  The routine
       returns the result of the evaluation in a field within context.

 DESCRIPTION

   The rpc_cs_eval_with_universal() routine is a DCE RPC character and
   code sets evaluation routine that can be added to an import context.
   The routine provides a mechanism for a client application that is
   passing character data in a heterogeneous character set and code sets
   environment to evaluate a server's character and code sets
   compatibility before establishing a connection with it.

   Client applications do not call rpc_cs_eval_with_universal() directly.
   Instead, they add it to the import context created by the
   rpc_ns_binding_import_begin() routine by calling the routine
   rpc_ns_import_ctx_add_eval() and specifying the routine name and the
   RPC server entry name to be evaluated.  When the client application
   calls the rpc_ns_binding_import_next() routine to import compatible
   binding handles for servers, this routine calls
   rpc_cs_eval_with_universal(), which applies client-server code sets
   compatibility checking as another criteria for compatible binding
   selection.

   The rpc_cs_eval_with_universal() routine directs the
   rpc_ns_binding_import_next() routine to reject servers with
   incompatible character sets. If client and server character sets
   are compatible, but their supported code sets are not, the routine
   establishes tags that direct the client and/or server stubs to
   convert character data to the user-defined (if any) or default
   intermediate code set, which is the ISO10646 (or "universal") code
   set.

   Application programmers need not pay attention to the arguments of
   this routine. They only need to use the rpc_ns_import_ctx_add_eval()
   to set the routine, for example:

        rpc_ns_import_ctx_add_eval( &import_context,
                                    rpc_c_eval_type_codesets,
                                    (void *) nsi_entry_name,
                                    rpc_cs_eval_with_universal,
                                    NULL,
                                    &status );

   Permissions Required

   No permissions are required.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_cs_eval_without_universal
              rpc_cs_get_tags
              rpc_ns_binding_import_begin
              rpc_ns_binding_import_done
              rpc_ns_binding_import_next
              rpc_ns_import_ctx_add_eval
              rpc_ns_mgmt_handle_set_exp_age

29  –  rpc_cs_eval_without_universal

 NAME

   rpc_cs_eval_without_universal - Evaluates a server's supported
                                   character sets and code sets
                                   during the server binding
                                   selection process

   Used indirectly by client applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_cs_eval_without_universal( rpc_ns_handle_t binding_handle,
                                       idl_void_p_t eval_args,
                                       idl_void_p_t *context );

 PARAMETERS

   Input

   binding_handle
       The server binding handle.

   eval_args
       An opaque data type that contains matching criteria that the
       routine uses to perform code sets compatibility evaluation.

   Input/Output

       context
           An opaque data type that contains search context to perform
           character and code sets compatibility evaluation.  The
           routine returns the result of the evaluation in a field
           within context.

 DESCRIPTION

   The rpc_cs_eval_without_universal() routine is a DCE RPC character
   and code sets evaluation routine that can be added to an import
   context.  The routine provides a mechanism for a client application
   that is passing character data in a heterogeneous character set and
   code sets environment to evaluate a server's character and code sets
   compatibility before establishing a connection with it.

   Client applications do not call rpc_cs_eval_without_universal()
   directly.  Instead, they add it to the import context created by
   the rpc_ns_binding_import_begin() routine by calling the routine
   rpc_ns_import_ctx_add_eval() and specifying the routine name and
   the RPC server entry name to be evaluated.  When the client
   application calls the rpc_ns_binding_import_next() routine to import
   compatible binding handles for servers, this routine calls
   rpc_cs_eval_without_universal(), which applies client-server code
   sets compatibility checking as another criteria for compatible
   binding selection.

   The rpc_cs_eval_without_universal() routine directs the
   rpc_ns_binding_import_next() routine to reject servers with
   incompatible character sets. The routine also directs the
   rpc_ns_binding_import_next() routine to reject servers whose
   supported code sets are incompatible with the client's supported
   code sets; that is, it does not resort to using an intermediate
   code set as a last resort.

   Application programmers need not pay attention to the arguments of
   this routine. They only need to use the rpc_ns_import_ctx_add_eval()
   to set the routine, for example:

        rpc_ns_import_ctx_add_eval( &import_context,
                                    rpc_c_eval_type_codesets,
                                    (void *) nsi_entry_name,
                                    rpc_cs_eval_without_universal,
                                    NULL,
                                    &status );

   Permissions Required

   No permissions are required.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_cs_get_tags
              rpc_ns_binding_import_begin
              rpc_ns_binding_import_done
              rpc_ns_binding_import_next
              rpc_ns_import_ctx_add_eval
              rpc_ns_mgmt_handle_set_exp_age

30  –  rpc_cs_get_tags

 NAME

   rpc_cs_get_tags - Retrieves code set tags from a binding handle

   Used by client and server applications.

 SYNOPSIS

   #include <dce/codesets_stub.h>

   void rpc_cs_get_tags( rpc_binding_handle_t binding,
                         boolean32 server_side,
                         unsigned32 *sending_tag,
                         unsigned32 *desired_receiving_tag,
                         unsigned32 *receiving_tag,
                         error_status_t *status );

 PARAMETERS

   Input

   binding
       Specifies the target binding handle from which to obtain the code
       set tag information. When called from the client stub, this value
       is the binding handle of a compatible server returned by the
       rpc_ns_binding_import_next() or rpc_ns_binding_select() routines.
       When called from the server stub, this value is a pointer to the
       tag information that the client stub passed in the RPC call.

   server_side
       Indicates whether a client stub or a server stub is calling the
       routine.

   desired_receiving_tag
       (Server stub only) Specifies the code set value for the code set
       in which the client prefers data to be encoded when sent back from
       the server. The client stub passes this value in the RPC call.  If
       the routine is retrieving code set tags for an operation that does
       not specify a desired receiving tag parameter (the cs_drtag ACF
       parameter attribute has not been applied to one of the operation's
       parameters), this value is NULL.

   Output

   sending_tag
       (Client stub only) Specifies the code set value for the code set
       in which client data to be sent to the server is to be encoded.
       If the routine is retrieving code set tags for an operation that
       does not specify a sending tag parameter (the cs_stag ACF
       parameter attribute has not been applied to one of the operation's
       parameters), this value is NULL.

   desired_receving_tag
       (Client stub only) Specifies the code set value for the code set
       in which the client prefers to receive data sent back to it from
       the server. If the routine is retrieving code set tags for an
       operation that does not specify a desired receiving tag parameter
       (the cs_drtag ACF parameter attribute has not been applied to one
       of the operation's parameters), this value is NULL.

   receiving_tag
       (Server stub only) Specifies the code set value for the code set
       in which the server is to encode data to be sent back to the
       client.  If the routine is retrieving code set tags for an
       operation that does not specify a receiving tag parameter (the
       cs_rtag ACF parameter attribute has not been applied to one of
       the operation's parameters), this value is NULL.

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if
       not, why not.  The possible status codes and their meanings
       are as follows:

       rpc_s_ok       Success.

       rpc_s_ss_incompatible_codesets
                      The server cannot handle the data in the code set
                      that the client has specified. This status code
                      will be returned if the application performs
                      code set compatibility evaluation in the server
                      stub.

       rpc_s_ss_invalid_codeset_tag
                      The result of the client-side evaluation used an
                      invalid code set tag.

   If code set compatibility evaluation is performed, error values
   can also be returned from rpc_rgy_get_codesets(),
   rpc_ns_binding_inq_entry_name(), and rpc_ns_mgmt_read_codesets().

 DESCRIPTION

   The rpc_cs_get_tags() routine belongs to a set of DCE RPC routines
   for use by client and server applications that are transferring
   international character data in a heterogeneous character set and
   code sets environment.

   The rpc_cs_get_tags() routine is a DCE RPC routine that RPC stubs can
   use to retrieve the code set values to be used to "tag" international
   character data to be sent over the network. In general, the code set
   values to be used as tags are determined by a character and code sets
   evaluation routine, which is invoked from the client application code.
   However, application programmers can use other methods to establish
   values for code set tags.

   RPC stubs call the rpc_cs_get_tags() routine before they call the
   buffer sizing routines *_net_size() and the code set conversion
   routines _netcs().  The rpc_cs_get_tags() routine provides the stubs
   with code set values to use as input to the buffer sizing routines
   (to determine whether or not buffer storage needs to be allocated for
   conversion) and as input to the code set conversion routines (to
   determine whether conversion is necessary, and if so, which host code
   set converter to invoke).

   Client and server stubs call the rpc_cs_get_tags() routine before
   they marshall any data. When called from the client stub, the boolean
   value server_side is set to FALSE to indicate that the client stub has
   invoked the routine.  The binding handle is the handle to a compatible
   server returned by the rpc_ns_binding_import_next() or
   rpc_ns_binding_select() routines.  If the client has added a code sets
   evaluation routine to the binding import procedure (by calling the
   routine rpc_ns_import_ctx_add_eval()), the binding handle will contain
   the conversion method and the code set values to set for the client's
   sending tag and desired receiving tag.  If the binding handle does not
   contain the results of an evaluation, the rpc_cs_get_tags() routine
   will perform the character/code sets evaluation within the client stub
   and set the client code set tag values itself.

   On the client side, the output of the routine is the code set value
   that represents the client's sending tag and the code set value that
   represents the client's desired receiving tag. If the conversion
   method is "client makes it right" (CMIR), the sending tag and desired
   receiving tags will be set to the code set value of the server's
   local code set.  If the conversion method is "server makes it right"
   (SMIR), the sending tag and desired receiving tag will be set to the
   client's local code set value. If the conversion method is "receiver
   makes it right" (RMIR), the sending tag is the client's code set, and
   the desired receiving tag is the server's code set.

   When called from the server stub, the boolean value server_side is
   set to TRUE to indicate that the server stub has invoked the routine.
   The binding handle is a pointer to the tag data sent by the client
   stub.

   The server stub specifies the code set value given in the client's
   desired receiving tag as input to the routine.  The rpc_cs_get_tags()
   routine sets the code set value in desired_receiving_tag to
   receiving_tag and returns this value as output to the server stub.
   The server stub will then use the code set value in receiving_tag as
   the code set to use for data it sends back to the client.

   Application programmers who want their applications to use the
   rpc_cs_get_tags() routine to retrieve code set tag information as
   part of the automatic code set conversion process specify the
   routine name as the argument to the ACF attribute cs_tag_rtn when
   developing their internationalized RPC application.

   Application programmers can also write their own code set tags
   retrieval routine that RPC stubs can call; in this case, they specify
   the name of this routine as the argument to the ACF attribute instead
   of specifying the DCE RPC routine rpc_cs_get_tags().  Application
   programmers can also use the automatic code conversion mechanism, but
   design their applications so that the code set tags are set explicitly
   in the application instead of in the stubs.

   Permissions Required

   No permissions are required.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: cs_byte_from_netcs
              cs_byte_local_size
              cs_byte_net_size
              cs_byte_to_netcs
              wchar_t_from_netcs
              wchar_t_local_size
              wchar_t_net_size
              wchar_t_to_netcs

   Books: OSF DCE Application Development Guide-Core Components.

31  –  rpc_ep_register

 NAME

   rpc_ep_register - Adds to, or replaces, server address information
                     in the local endpoint map

   Used by server applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_ep_register( rpc_if_handle_t if_handle,
                         rpc_binding_vector_t *binding_vec,
                         uuid_vector_t *object_uuid_vec,
                         unsigned_char_t *annotation,
                         unsigned32 *status );

 PARAMETERS

   Input

   if_handle
       Specifies an interface specification to register with the local
       endpoint map.

   binding_vec
       Specifies a vector of binding handles over which the server can
       receive remote procedure calls.

   object_uuid_vec
       Specifies a vector of object UUIDs that the server offers.  The
       server application constructs this vector.
       Supply the value NULL to indicate there are no object UUIDs to
       register.

   annotation
       Defines a character string comment applied to each cross product
       element added to the local endpoint map.  The string can be up to
       64 characters long, including the NULL terminating character.
       Specify NULL or the string \0 if there is no annotation string.
       The string is used by applications for informational purposes
       only.  The RPC runtime does not use this string to determine
       which server instance a client communicates with, or for
       enumerating endpoint map elements.

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if
       not, why not.  The possible status codes and their meanings
       are as follows:

       rpc_s_ok      Success.

       ept_s_cant_access
                     Error reading endpoint database.

       ept_s_cant_create
                     Error creating endpoint database.

       ept_s_cant_perform_op
                     Cannot perform requested operation.

       ept_s_database_invalid
                     Endpoint map database invalid.

       ept_s_invalid_entry
                     Invalid database entry.

       ept_s_update_failed
                     Update failed.

       rpc_s_comm_failure
                     Communications failure.

       rpc_s_invalid_binding
                     Invalid binding handle.

       rpc_s_no_bindings
                     No bindings.

       rpc_s_wrong_kind_of_binding
                     Wrong kind of binding for operation.

 DESCRIPTION

   The rpc_ep_register() routine adds elements to, or replaces elements
   in, the local host's endpoint map.

   Each element in the local endpoint map logically contains the
   following:

     +  Interface ID, consisting of an interface UUID and versions
        (major and minor)

     +  Binding information

     +  Object UUID (optional)

     +  Annotation (optional)

   A server uses this routine, instead of rpc_ep_register_no_replace(),
   when only a single instance of the server runs on the server's host.
   Use this routine if, at any time, no more than one server instance
   offers the same interface UUID, object UUID, and protocol sequence.

   When local endpoint map elements are not replaced, obsolete elements
   accumulate each time a server instance stops running without calling
   rpc_ep_unregister().  Periodically the DCE Host Daemon identifies
   these obsolete elements and removes them.  However, during the time
   between these removals the obsolete elements increase the chance that
   a client will receive endpoints to nonexistent servers.  The client
   then wastes time trying to communicate with these servers before
   obtaining another endpoint.

   Using this routine to replace any existing local endpoint map elements
   reduces the chance that a client will receive the endpoint of a
   nonexistent server instance.

   Suppose an existing element in the local endpoint map matches the
   interface UUID, binding information exclusive of the endpoint, and
   object UUID of an element this routine provides.  The routine changes
   the endpoint map according to the elements' interface major and minor
   version numbers, as shown in the following table:

 Existing Element   Relationship   Provided Element   Routine's Action
 ______________________________________________________________________
 Major version #    Not equal to   Major version #    Ignores minor ver-
                                                      sion number rela-
                                                      tionship and adds
                                                      a new endpoint map
                                                      element.  The
                                                      existing element
                                                      remains unchanged.

 Major version #    Equal to       Major version #    Acts according to
                                                      the minor version
                                                      number relation-
                                                      ship.

 Minor version #    Equal to       Minor version #    Replaces the end-
                                                      point of the
                                                      existing element
                                                      based on the pro-
                                                      vided information.

 Minor version #    Less than      Minor version #    Replaces the
                                                      existing element
                                                      based on the pro-
                                                      vided information.

 Minor version #    Greater than   Minor version #    Ignores the pro-
                                                      vided information.
                                                      The existing ele-
                                                      ment remains
                                                      unchanged.

   For example, suppose under these circumstances that the existing
   interface version number is 1.3 (major.minor) and the provided
   version number is 2.0.  The routine adds a new endpoint map element
   with interface version number 2.0 and does not change the element
   with version number 1.3.  However, if the existing interface version
   number is 1.5 and the provided version number is 1.4, the routine
   does not change the endpoint map.

   A server program calls this routine to register endpoints that have
   been specified by calling any of the following routines:

     +  rpc_server_use_all_protseqs()

     +  rpc_server_use_protseq()

     +  rpc_server_use_protseq_ep()

   A server that calls only the rpc_server_use_all_protseqs_if() or
   rpc_server_use_protseq_if() routines does not need to call this
   routine.  In such cases, the client's runtime uses an endpoint from
   the client's interface specification to fill in a partially bound
   binding handle.  However, it is recommended that you also register
   well-known endpoints that the server specifies (registering endpoints
   from interface definitions is unnecessary).

   If the server also exports to the name service database, the server
   calls this routine with the same if_handle, binding_vec and
   object_uuid_vec parameters as the server uses when calling the
   rpc_ns_binding_export() routine.

   The rpc_ep_register() routine communicates with the DCE Host Daemon
   (dced), which in turn communicates with the local endpoint map.  The
   routine communicates using one of the protocol sequences specified in
   one of the binding handles in binding_vec.  Attempting to register a
   binding that specifies a protocol sequence that the DCE Host daemon
   is not listening on results in the failure of rpc_ep_register().  The
   routine indicates this failure by placing the value rpc_s_comm_failure
   into status.

   For information about how the endpoint map service selects an element
   for an interface ID and an object UUID, see the RPC information in the
   OSF DCE Application Development Guide.  This guide explains how the
   endpoint map service searches for the endpoint of a server that is
   compatible with a client.  If the client supplies a non-nil object
   UUID that is not in the endpoint map, or the client supplies a nil
   object UUID, the search can succeed, but only if the server has
   registered a nil object UUID using the rpc_ep_register() or
   rpc_ep_register_no_replace() routines.  The object_uuid_vec parameter
   can contain both nil and non-nil object UUIDs for the routine to
   place into endpoint map elements.

   For an explanation of how a server can establish a client/server
   relationship without using the local endpoint map, see the explanation
   of a string binding in the rpc_intro reference page.

   This routine creates a cross product from the if_handle, binding_vec
   and object_uuid_vec parameters, and adds each element in the cross
   product as a separate registration in the local endpoint map.  If you
   supply NULL to object_uuid_vec, the corresponding elements in the
   cross product contain a nil object UUID.

   For example, suppose that if_handle has the value ifhand, binding_vec
   has the values b1, b2, b3, and object_uuid_vec has the values u1, u2,
   u3, u4.The resulting 12 elements in the cross product are as follows:

        (ifhand,b1,u1)  (ifhand,b1,u2)  (ifhand,b1,u3)  (ifhand,b1,u4)
        (ifhand,b2,u1)  (ifhand,b2,u2)  (ifhand,b2,u3)  (ifhand,b2,u4)
        (ifhand,b3,u1)  (ifhand,b3,u2)  (ifhand,b3,u3)  (ifhand,b3,u4)

   (An annotation string is part of each of these 12 elements.)

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_ep_register_no_replace
              rpc_ep_resolve_binding
              rpc_ep_unregister
              rpc_mgmt_ep_unregister
              rpc_ns_binding_export
              rpc_server_inq_bindings
              rpc_server_use_all_protseqs
              rpc_server_use_all_protseqs_if
              rpc_server_use_protseq
              rpc_server_use_protseq_ep
              rpc_server_use_protseq_if

   Books: OSF DCE Application Development Guide.

32  –  rpc_ep_register_no_replace

 NAME

   rpc_ep_register_no_replace - Adds to server address information
                                in the local endpoint map

   Used by server applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_ep_register_no_replace( rpc_if_handle_t if_handle,
                                    rpc_binding_vector_t *binding_vec,
                                    uuid_vector_t *object_uuid_vec,
                                    unsigned_char_t *annotation,
                                    unsigned32 *status );

 PARAMETERS

   Input

   if_handle
       Specifies an interface specification to register with the local
       endpoint map.

   binding_vec
       Specifies a vector of binding handles over which the server can
       receive remote procedure calls.

   object_uuid_vec
       Specifies a vector of object UUIDs that the server offers.  The
       server application constructs this vector.
       Supply the value NULL to indicate there are no object UUIDs to
       register.

   annotation
       Defines a character string comment applied to each cross-product
       element added to the local endpoint map.  The string can be up
       to 64 characters long, including the NULL terminating character.
       Specify NULL or the string \0 if there is no annotation string.
       The string is used by applications for informational purposes
       only. The RPC runtime does not use this string to determine which
       server instance a client communicates with, or for enumerating
       endpoint map elements.

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if
       not, why not.  The possible status codes and their meanings
       are as follows:

       rpc_s_ok      Success.

       ept_s_cant_access
                     Error reading endpoint database.

       ept_s_cant_create
                     Error creating endpoint database.

       ept_s_cant_perform_op
                     Cannot perform requested operation.

       ept_s_database_invalid
                     Endpoint map database invalid.

       ept_s_invalid_entry
                     Invalid database entry.

       ept_s_update_failed
                     Update failed.

       rpc_s_comm_failure
                     Communications failure.

       rpc_s_invalid_binding
                     Invalid binding handle.

       rpc_s_no_bindings
                     No bindings.

       rpc_s_wrong_kind_of_binding
                     Wrong kind of binding for operation.

 DESCRIPTION

   The rpc_ep_register_no_replace() routine adds elements to the local
   host's endpoint map.  The routine does not replace existing elements.
   Otherwise, this routine is identical to rpc_ep_register().

   Each element in the local endpoint map logically contains the
   following:

     +  Interface ID, consisting of an interface UUID and versions
        (major and minor)

     +  Binding information

     +  Object UUID (optional)

     +  Annotation (optional)

   A server uses this routine, instead  of  rpc_ep_register(),  when
   multiple instances of the server run on the same host.  Use this
   routine if, at any time, more than one server instance offers the
   same interface UUID, object UUID, and protocol sequence.

   Since this routine does not replace elements, calling servers must
   unregister (that is, remove) themselves before they stop running.
   Otherwise, when local endpoint map elements are not replaced,
   obsolete elements accumulate each time a server instance stops running
   without calling rpc_ep_unregister().  Periodically the DCE Host Daemon
   identifies obsolete elements and removes them from the local endpoint
   map.  However, during the time between these removals, the obsolete
   elements increase the chance that a client will receive endpoints to
   nonexistent servers.The client then wastes time trying to communicate
   with these servers before obtaining another endpoint.

   A server program calls this routine to register endpoints that were
   specified by calling any of the following routines:

     +  rpc_server_use_all_protseqs()

     +  rpc_server_use_protseq()

     +  rpc_server_use_protseq_ep()

   A server that calls  only  the  rpc_server_use_all_protseqs_if() or
   rpc_server_use_protseq_if() routine does not need to call this
   routine.  In such cases, the client's runtime uses an endpoint from
   the client's interface specification to fill in a partially bound
   binding handle.  However, it is recommended that you also register
   well-known endpoints that the server specifies (registering endpoints
   from interface definitions is unnecessary).

   If the server also exports to the name service database, the  server
   calls this routine with the same if_handle, binding_vec and
   object_uuid_vec parameters as the server uses when calling the
   rpc_ns_binding_export() routine.

   The rpc_ep_register_no_replace() routine communicates with the DCE
   Host Daemon (dced), which in turn communicates with the local
   endpoint map.  The routine communicates using one of the protocol
   sequences specified in one of the binding handles in binding_vec.
   Attempting to register a binding that specifies a protocol sequence
   that the DCE Host daemon is not listening on results in the failure
   of rpc_ep_register_no_replace().  The routine indicates this failure
   by placing the value rpc_s_comm_failure into status.

   For information about how the endpoint map service selects an element
   for an interface ID and an object UUID, see the RPC information in the
   OSF DCE Application Development Guide.  This guide explains how the
   endpoint map service searches for the endpoint of a server that is
   compatible with a client.  If the client supplies a non-nil object
   UUID that is not in the endpoint map, or the client supplies a nil
   object UUID, the search can succeed, but only if the server has
   registered a nil object UUID using the rpc_ep_register_no_replace()
   or rpc_ep_register() routine.  The object_uuid_vec parameter can
   contain both nil and non-nil object UUIDs for the routine to place
   into endpoint map elements.

   For an explanation of how a server can establish a client/server
   relationship without using the local endpoint map, see the
   explanation of a string binding in the rpc_intro reference page.

   This routine creates a cross-product from the if_handle, binding_vec
   and object_uuid_vec parameters, and adds each element in the cross-
   product as a separate registration in the local endpoint map.  If you
   supply NULL to object_uuid_vec, the corresponding elements in the
   cross-product contain a nil object UUID.  The rpc_ep_register()
   routine's reference page summarizes the contents of an element in
   the local endpoint map.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_ep_register
              rpc_ep_resolve_binding
              rpc_ep_unregister
              rpc_mgmt_ep_unregister
              rpc_ns_binding_export
              rpc_server_inq_bindings
              rpc_server_use_all_protseqs
              rpc_server_use_all_protseqs_if
              rpc_server_use_protseq
              rpc_server_use_protseq_ep
              rpc_server_use_protseq_if

   Books: OSF DCE Application Development Guide.

33  –  rpc_ep_resolve_binding

 NAME

   rpc_ep_resolve_binding - Resolves a partially bound server binding
                            handle into a fully bound server binding
                            handle

   Used by client and management applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_ep_resolve_binding( rpc_binding_handle_t binding,
                                rpc_if_handle_t if_handle,
                                unsigned32 *status );

 PARAMETERS

   Input/Output

   binding
       Specifies a partially bound server binding handle to resolve
       into a fully bound server binding handle.

   if_handle
       Contains a stub-generated data structure that specifies the
       interface of interest.

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if
       not, why not.  The possible status codes and their meanings
       are as follows:

       rpc_s_ok      Success.

       ept_s_not_registered
                     No entries found.

       rpc_s_invalid_binding
                     Invalid binding handle.

       rpc_s_wrong_kind_of_binding
                     Wrong kind of binding for operation.

       rpc_s_rpcd_comm_failure
                     Communications failure while trying to reach the
                     endpoint map.

 DESCRIPTION

   An application calls the rpc_ep_resolve_binding() routine to resolve
   a partially bound server binding handle into a fully bound server
   binding handle.

   Resolving binding handles requires an interface UUID and an object
   UUID.  The object UUID can be a nil UUID.  The RPC runtime requests
   the DCE Host Daemon's Endpoint Mapper Service, on the host that the
   binding parameter specifies, to look up an endpoint for a compatible
   server instance.  The Endpoint Mapper Service finds the endpoint by
   looking in the local endpoint map for the interface UUID from the
   if_handle parameter and for the object UUID in the binding parameter.

   The rpc_ep_resolve_binding() routine depends on whether the specified
   binding handle is partially bound or fully bound.  When the
   application specifies a partially bound handle, the routine produces
   the following results:

     +  If no compatible server instances are registered in the local
        endpoint map, the routine returns the ept_s_not_registered
        status code.

     +  If one compatible server instance is registered in the local
        endpoint map, the routine returns a fully bound binding handle
        in binding and the rpc_s_ok status code.

     +  If more than one compatible server instance is registered in the
        local endpoint map, the routine randomly selects one.  It then
        returns the corresponding fully bound binding handle in binding
        and the rpc_s_ok status code.

   When the application specifies a fully bound binding  handle, the
   routine returns the specified binding handle in binding and the
   rpc_s_ok status code.  The routine makes no request of the DCE Host
   daemon.

   In neither the partially bound case nor the fully bound case does the
   routine contact a compatible server instance.

   Using This Routine

   For each server instance, the RPC runtime automatically provides
   routines (the rpc_mgmt_* routines) that form an RPC management
   interface.  If a server instance registers any application-provided
   interfaces, the RPC runtime automatically registers the RPC-provided
   management interface with the local endpoint map for that server
   instance.

   An application can call rpc_ep_resolve_binding() at any time with
   either a partially  bound  or a fully bound handle.  However,
   applications typically call this routine to avoid calling a routine
   in the management interface with a partially bound handle.

   An application can have a partially bound binding handle at the
   following times:

     +  After importing a binding handle.

     +  After resetting a binding handle.

     +  After converting a string binding without an endpoint to a
        binding handle.

   If an application calls an application-provided remote procedure using
   a partially bound handle, the RPC runtime automatically asks the DCE
   Host daemon to resolve the binding handle into a fully bound handle.
   This fully bound binding handle corresponds to the RPC interface of
   the called remote procedure and the requested object, if any.  The
   application can then use this fully bound handle to make remote
   management calls, so calling the rpc_ep_resolve_binding() routine is
   unnecessary.

   When a high proportion of all servers in an environment offers the
   same interface, the interface is known as a pervasive one.  The RPC
   management interface is a pervasive interface in all environments
   that use DCE RPC.

   Using this routine to unambiguously locate compatible server
   instances applies to application-pervasive interfaces as well as
   to the RPC management interface.

   Partially Bound Handles with a Non-nil Object UUID

   If the application has a partially bound handle with a non-nil
   object UUID, the application can decide not to call the
   rpc_ep_resolve_binding() routine before calling a procedure in the
   management interface.  In this case the remote management call is
   sent to a server instance, registered on the remote host, that
   offers that object UUID.

   After completing the remote management call, the application has a
   fully bound handle to that server instance.  The server instance that
   the handle specifies probably offers the non-management interfaces of
   interest to the calling application.  However, if you want to be
   certain of obtaining a fully bound handle to a server instance that
   offers the interfaces needed for later remote procedure calls, call
   the rpc_ep_resolve_binding() routine.

   Partially Bound Handles with a Nil Object UUID

   When an application makes a remote procedure or management call using
   a partially bound handle with a nil object UUID, the DCE Host daemon
   searches for a compatible server instance.  The search is based on
   the nil object UUID and the UUID of the interface to which the call
   belongs.

   All server instances that register any RPC interface automatically
   offer the RPC management interface.  When an application makes a
   remote management call using a partially bound handle with a nil
   object UUID, the DCE Host daemon on the remote host cannot
   distinguish among server instances registered in the local endpoint
   map.

   When the DCE Host daemon cannot distinguish among these instances it
   selects any server instance.  After completing the remote management
   call, the calling application has a fully bound handle.  However, the
   server instance that the handle represents probably does not offer
   the non-management interfaces that interest the application.

   The remote RPC management routines avoid this ambiguity.  They do
   this by returning the status rpc_s_binding_incomplete if the
   provided binding handle is a partially bound one with a nil object
   UUID.

   An application wanting to contact servers that have exported and
   registered interfaces with a nil object UUID calls routine
   rpc_ep_resolve_binding().  The application obtains a fully bound
   binding handle for calling remote management procedures in a server
   instance that also offers the remote procedures in the application-
   specific interface.

   Note that an application that wants to manage all the server instances
   on a host does not call rpc_ep_resolve_binding().  Instead, the
   application obtains fully bound binding handles for each  server
   instance by calling rpc_mgmt_ep_elt_inq_begin(),
   rpc_mgmt_ep_elt_inq_next(), and rpc_mgmt_ep_elt_inq_done().

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_ep_register
              rpc_ep_register_no_replace
              rpc_mgmt_ep_elt_inq_begin
              rpc_mgmt_ep_elt_inq_done
              rpc_mgmt_ep_elt_inq_next
              rpc_binding_from_string_binding
              rpc_binding_reset

34  –  rpc_ep_unregister

 NAME

   rpc_ep_unregister - Removes server address information from the
                       local endpoint map

   Used by server applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_ep_unregister( rpc_if_handle_t if_handle,
                           rpc_binding_vector_t *binding_vec,
                           uuid_vector_t *object_uuid_vec,
                           unsigned32 *status );

 PARAMETERS

   Input

   if_handle
       Specifies an interface specification to remove (that is,
       unregister) from the local endpoint map.

   binding_vec
       Specifies a vector of binding handles to remove.

   object_uuid_vec
       Specifies a vector of object UUIDs to remove. The server
       application constructs this vector.  This routine removes all
       local endpoint map elements that match the specified if_handle
       parameter, binding_vec parameter, and object UUIDs.
       This is an optional parameter.  The value NULL indicates there
       are no object UUIDs to remove.

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if
       not, why not.  The possible status codes and their meanings
       are as follows:

       rpc_s_ok      Success.

       ept_s_cant_access
                     Error reading endpoint database.

       ept_s_cant_create
                     Error creating endpoint database.

       ept_s_cant_perform_op
                     Cannot perform requested operation.

       ept_s_database_invalid
                     Endpoint map database invalid.

       ept_s_invalid_entry
                     Invalid database entry.

       ept_s_update_failed
                     Update failed.

       rpc_s_invalid_binding
                     Invalid binding handle.

       rpc_s_no_bindings
                     No bindings.

       rpc_s_wrong_kind_of_binding
                     Wrong kind of binding for operation.

 DESCRIPTION

   The rpc_ep_unregister() routine removes elements from the local host's
   endpoint map.  A server application calls this routine only if the
   server has registered endpoints previously and the server wishes to
   remove that address information from the local endpoint map.

   A server program is able to remove its own local endpoint map elements
   (server address information) based on either of the following:

     +  The interface specification.

     +  The interface specification and the object UUIDs of resources
        offered.

   The server calls the rpc_server_inq_bindings() routine to obtain the
   required binding_vec parameter.  To remove selected endpoints, the
   server can remove individual elements from binding_vec before calling
   this routine.  (See the explanation of a binding vector in the
   rpc_intro reference page for more information about removing a single
   element from a vector of binding handles.)

   This routine creates a cross product from the if_handle, binding_vec
   and object_uuid_vec parameters and removes each element in the cross
   product from the local endpoint map.   The rpc_ep_register() routine's
   reference page summarizes the contents of a cross product in the local
   endpoint map.

   Servers must always call the rpc_ep_unregister() routine to remove
   their endpoints from the local endpoint map before they exit.
   Otherwise, stale information will be in the local endpoint map.
   However, if a server prematurely removes endpoints (the server is
   not in the process of exiting), clients that do not already have
   fully bound binding handles to the server will not be able to send
   remote procedure calls to the server.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_ep_register
              rpc_ep_register_no_replace
              rpc_mgmt_ep_unregister
              rpc_ns_binding_unexport
              rpc_server_inq_bindings

35  –  rpc_if_id_vector_free

 NAME

   rpc_if_id_vector_free - Frees a vector and the interface identifier
                           structures it contains

   Used by client, server, or management applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_if_id_vector_free( rpc_if_id_vector_t **if_id_vector,
                               unsigned32 *status );

 PARAMETERS

   Input/Output

   if_id_vector
         Specifies the address of a pointer to a vector of interface
         information. On return the pointer is set to NULL.

   Output

   status
         Returns the status code from this routine.  This status code
         indicates whether the routine completed successfully or, if
         not, why not.  The possible status codes and their explanations
         are as follows:

         rpc_s_ok  Success.

         rpc_s_invalid_arg
                   Invalid argument.

 DESCRIPTION

   The rpc_if_id_vector_free() routine frees the memory used to store
   a vector of interface identifiers.  This includes memory used by the
   interface identifiers and the vector itself.  On return this routine
   sets the if_id_vector parameter to NULL.

   To obtain a vector of interface identifiers, call
   rpc_ns_mgmt_entry_inq_if_ids() or rpc_mgmt_inq_if_ids().  Call
   rpc_if_id_vector_free() if you have used either of these routines.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_if_inq_id
              rpc_mgmt_inq_if_ids
              rpc_ns_mgmt_entry_inq_if_ids

36  –  rpc_if_inq_id

 NAME

   rpc_if_inq_id - Returns the interface identifier for an interface
                   specification

   Used by client or server applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_if_inq_id( rpc_if_handle_t if_handle,
                       rpc_if_id_t *if_id,
                       unsigned32 *status );

 PARAMETERS

   Input

   if_handle
        Represents a stub-generated data structure that specifies the
        interface specification to inquire about.

   Output

   if_id
        Returns the interface identifier. The application provides
        memory for the returned data.

   status
        Returns the status code from this routine.  This status code
        indicates whether the routine completed successfully or, if
        not, why not.   The possible status code and its meaning is as
        follows:

        rpc_s_ok
              Success.

 DESCRIPTION

   An application calls the rpc_if_inq_id() routine to obtain a copy of
   the interface identifier from the provided interface specification.

   The returned interface identifier consists of the interface UUID and
   interface version numbers (major and minor) specified in the DCE IDL
   file's interface specification.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_if_id_vector_free
              rpc_mgmt_inq_if_ids
              rpc_ns_mgmt_entry_inq_if_ids

37  –  rpc_mgmt_ep_elt_inq_begin

 NAME

   rpc_mgmt_ep_elt_inq_begin - Creates an inquiry context for viewing
                               the elements in an endpoint map

   Used by management applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_mgmt_ep_elt_inq_begin( rpc_binding_handle_t ep_binding,
                                   unsigned32 inquiry_type,
                                   rpc_if_id_t *if_id,
                                   unsigned32 vers_option,
                                   uuid_t *object_uuid,
                                   rpc_ep_inq_handle_t *inquiry_context,
                                   unsigned32 *status );

 PARAMETERS

   Input

   ep_binding
       Specifies the host whose local endpoint map elements you receive.
       To receive elements from the same host as the calling application,
       specify NULL.

       To receive local endpoint map elements from another host, specify
       a server binding handle for that host.  You can specify the same
       binding handle you are using to make other remote procedure calls.
       The object UUID associated with this parameter must be a nil UUID.
       If you specify a non-nil UUID, the routine fails with the status
       code ept_s_cant_perform_op.  Other than the host information and
       object UUID, all information in this parameter is ignored.

   inquiry_type
       Specifies an integer value that indicates the type of inquiry
       to perform on the local endpoint map. The following list shows
       the valid inquiry types:

                    Valid Inquiries on Local Endpoint Maps
 _____________________________________________________________________
 Value                        Description
 _____________________________________________________________________
 rpc_c_ep_all_elts            Returns every element from the local
                              endpoint map.  The if_id, vers_option,
                              and object_uuid parameters are ignored.

 rpc_c_ep_match_by_if         Searches the local endpoint map for
                              those elements that contain the inter-
                              face identifier specified by the if_id
                              and vers_option values.  The object_uuid
                              parameter is ignored.

 rpc_c_ep_match_by_obj        Searches the local endpoint map for
                              those elements that contain the object
                              UUID specified by the object_uuid param-
                              eter.  The if_id and vers_option parame-
                              ters are ignored.

 rpc_c_ep_match_by_both       Searches the local endpoint map for
                              those elements that contain the inter-
                              face identifier and object UUID speci-
                              fied by the if_id, vers_option, and
                              object_uuid parameters.

       Specifies the interface identifier of the local endpoint map
       elements to be returned by the rpc_mgmt_ep_elt_inq_next() routine.

       Use this parameter only when specifying a value of
       rpc_c_ep_match_by_if or rpc_c_ep_match_by_both for the
       inquiry_type parameter.  Otherwise, this parameter is ignored
       and the value NULL can be specified.

       Specifies how the rpc_mgmt_ep_elt_inq_next() routine uses the
       if_id parameter.  Use this parameter only when specifying a
       value of rpc_c_ep_match_by_if or rpc_c_ep_match_by_both for the
       inquiry_type parameter.  Otherwise, this parameter is ignored
       and a 0 (zero) value can be specified.

       The following list presents the valid values for this parameter:

                      Valid values of vers_option
 _____________________________________________________________________
 Value                        Description
 _____________________________________________________________________
 rpc_c_vers_all               Returns local endpoint map elements that
                              offer the specified interface UUID,
                              regardless of the version numbers.  For
                              this value, specify 0 (zero) for both
                              the major and minor versions in if_id.

 rpc_c_vers_compatible        Returns local endpoint map elements that
                              offer the same major version of the
                              specified interface UUID and a minor
                              version greater than or equal to the
                              minor version of the specified interface
                              UUID.

 rpc_c_vers_exact             Returns local endpoint map elements that
                              offer the specified version of the
                              specified interface UUID.

 rpc_c_vers_major_only        Returns local endpoint map elements that
                              offer the same major version of the
                              specified interface UUID (ignores the
                              minor version).  For this value, specify
                              0 (zero) for the minor version in if_id.

 rpc_c_vers_upto              Returns local endpoint map elements that
                              offer a version of the specified inter-
                              face UUID less than or equal to the
                              specified major and minor version. (For
                              example, suppose if_id contains V2.0 and
                              the local endpoint map contained ele-
                              ments with the following versions: V1.3,
                              V2.0, and V2.1.  The
                              rpc_mgmt_ep_elt_inq_next routine returns
                              the elements with V1.3 and V2.0.)

       Specifies the object UUID that rpc_mgmt_ep_elt_inq_next() looks
       for in local endpoint map elements.

       This parameter is used only when you specify a value of
       rpc_c_ep_match_by_obj or rpc_c_ep_match_by_both for the
       inquiry_type parameter.  Otherwise, this parameter is ignored
       and you can supply NULL to specify a nil UUID.

   Output

   inquiry_context
       Returns an inquiry context for use with the
       rpc_mgmt_ep_elt_inq_next() and rpc_mgmt_ep_elt_inq_done()
       routines.

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if
       not, why not.  The possible status codes and their meanings are
       as follows:

       rpc_s_ok      Success.

       rpc_s_invalid_inquiry_context
                     Invalid inquiry context.

       rpc_s_invalid_inquiry_type
                     Invalid inquiry type.

       rpc_s_invalid_vers_option
                     Invalid version option.

       rpc_s_wrong_kind_of_binding
                     Wrong kind of binding for operation.

 DESCRIPTION

   The rpc_mgmt_ep_elt_inq_begin() routine creates an inquiry context for
   viewing server address information stored in the local endpoint map.

   Using the inquiry_type and vers_option parameters, an application
   specifies which of the following local endpoint map elements are
   returned from calls to the rpc_mgmt_ep_elt_inq_next() routine:

     +  All elements.

     +  Those elements with the specified interface identifier.

     +  Those elements with the specified object UUID.

     +  Those elements with both the specified interface identifier and
        object UUID.

   Before calling the rpc_mgmt_ep_elt_inq_next() routine, the application
   must first call this routine to create an inquiry context.

   After viewing the local endpoint map elements, the application calls
   the rpc_mgmt_ep_elt_inq_done() routine to delete the inquiry context.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_ep_register
              rpc_ep_register_no_replace
              rpc_ep_unregister
              rpc_mgmt_ep_elt_inq_done
              rpc_mgmt_ep_elt_inq_next
              rpc_mgmt_ep_unregister

38  –  rpc_mgmt_ep_elt_inq_done

 NAME

   rpc_mgmt_ep_elt_inq_done - Deletes the inquiry context for viewing
                              the elements in an endpoint map

   Used by management applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_mgmt_ep_elt_inq_done( rpc_ep_inq_handle_t *inquiry_context,
                                  unsigned32 *status );

 PARAMETERS

   Input/Output

   inquiry_context
       Specifies the inquiry context to delete.  (An inquiry context is
       created by calling rpc_mgmt_ep_elt_inq_begin().)
       Returns the value NULL.

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if
       not, why not.  The possible status codes and their meanings
       are as follows:

       rpc_s_ok       Success.

       rpc_s_invalid_inquiry_context
                      Invalid inquiry context.

 DESCRIPTION

   The rpc_mgmt_ep_elt_inq_done() routine deletes an inquiry context.
   The rpc_mgmt_ep_elt_inq_begin() routine created the inquiry context.

   An application calls this routine after viewing local endpoint map
   elements using the rpc_mgmt_ep_elt_inq_next() routine.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_mgmt_ep_elt_inq_begin
              rpc_mgmt_ep_elt_inq_next

39  –  rpc_mgmt_ep_elt_inq_next

 NAME

   rpc_mgmt_ep_elt_inq_next - Returns one element from an endpoint map

   Used by management applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_mgmt_ep_elt_inq_next( rpc_ep_inq_handle_t inquiry_context,
                                  rpc_if_id_t *if_id,
                                  rpc_binding_handle_t *binding,
                                  uuid_t *object_uuid,
                                  unsigned_char_t **annotation,
                                  unsigned32 *status );

 PARAMETERS

   Input

   inquiry_context
       Specifies an inquiry context.  This inquiry context is returned
       from the rpc_mgmt_ep_elt_inq_begin() routine.

   Output

   if_id
       Returns the interface identifier of the local endpoint map
       element.

   binding
       Returns the binding handle from the local endpoint map element.
       Specify NULL to prevent the routine from returning this parameter.
       In this case the application does not call the rpc_binding_free()
       routine.

   object_uuid
       Returns the object UUID from the local endpoint map element.
       Specify NULL to prevent the routine from returning this parameter.

   annotation
       Returns the annotation string for the local endpoint map element.
       If there is no annotation string in the local endpoint map
       element, the string \0 is returned.
       Specify NULL to prevent the routine from returning this argument.
       In this case the application does not call the rpc_string_free()
       routine.

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if
       not, why not.  The possible status codes and their meanings
       are as follows:

       rpc_s_ok      Success.

       ept_s_cant_perform_op
                     Cannot perform the requested operation.

       rpc_s_comm_failure
                     Communications failure.

       ept_s_database_invalid
                     Endpoint map database invalid.

       rpc_s_fault_context_mismatch
                     Fault context mismatch.

       ept_s_invalid_context
                     Invalid inquiry type for this context.

       ept_s_invalid_entry
                     Invalid database entry.

       rpc_s_invalid_arg
                     Invalid argument.

       rpc_s_invalid_inquiry_context
                     Invalid inquiry context.

       rpc_s_invalid_inquiry_type
                     Invalid inquiry type.

       rpc_s_no_more_elements
                     No more elements.

 DESCRIPTION

   The rpc_mgmt_ep_elt_inq_next() routine returns one element from the
   local endpoint map.  Regardless of the selector value specified for
   the inquiry_type parameter in rpc_mgmt_ep_elt_inq_begin(), this
   routine returns all the components of a selected local endpoint map
   element.  The rpc_ep_register() routine's reference page summarizes
   the contents of an element in the local endpoint map.

   An application can view all the selected local endpoint map elements
   by repeatedly calling the rpc_mgmt_ep_elt_inq_next() routine.  When
   all the elements have been viewed, this routine returns an
   rpc_s_no_more_elements status.  The returned elements are unordered.

   If a remote endpoint map contains elements that include a protocol
   sequence that your system does not support, this routine does not
   return the elements.  (A protocol sequence is part of the binding
   information component of an endpoint map element.)  To receive all
   possible elements from a remote endpoint map, your application must
   run on a system that supports the protocol sequences included in
   the elements.

   For example, if your system does not support protocol sequence
   ncacn_ip_tcp and a remote endpoint map contains elements that
   include this protocol sequence, this routine does not return these
   elements to your application.  If your application ran on a system
   that supported protocol sequence ncacn_ip_tcp, this routine would
   return the elements.

   The RPC runtime allocates memory for the returned binding and the
   annotation string on each call to this routine.  The application
   calls the rpc_binding_free() routine for each returned binding and
   the rpc_string_free() routine for each returned annotation string.

   After viewing the local endpoint map's elements, the application must
   call the rpc_mgmt_ep_elt_inq_done() routine to delete the inquiry
   context.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_binding_free
              rpc_ep_register
              rpc_ep_register_no_replace
              rpc_mgmt_ep_elt_begin
              rpc_mgmt_ep_elt_done
              rpc_string_free

40  –  rpc_mgmt_ep_unregister

 NAME

   rpc_mgmt_ep_unregister - Removes server address information from
                            an endpoint map

   Used by management applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_mgmt_ep_unregister( rpc_binding_handle_t ep_binding,
                                rpc_if_id_t *if_id,
                                rpc_binding_handle_t binding,
                                uuid_t *object_uuid,
                                unsigned32 *status );

 PARAMETERS

   Input

   ep_binding
       Specifies the host whose local endpoint map elements you
       unregister (that is, remove).  To remove elements from the same
       host as the calling application, specify NULL.

       To remove local endpoint map elements from another host, specify
       a server binding handle for that host.  You can specify the same
       binding handle you are using to make other remote procedure calls.
       The object UUID associated with this parameter must be a nil UUID.
       If you specify a non-nil UUID, the routine fails with the status
       code ept_s_cant_perform_op.  Other than the host information and
       object UUID, all information in this parameter is ignored.

   if_id
       Specifies the interface identifier to remove from the local
       endpoint map.

   binding
       Specifies the binding handle to remove.

   object_uuid
       Specifies an optional object UUID to remove.
       The value NULL indicates there is no object UUID to consider in
       the removal.

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if
       not, why not.  The possible status codes and their meanings
       are as follows:

       rpc_s_ok      Success.

       ept_s_cant_access
                     Error reading the endpoint database.

       ept_s_cant_perform_op
                     Cannot perform the requested operation.

       rpc_s_comm_failure
                     Communications failure.

       ept_s_database_invalid
                     Endpoint map database is invalid.

       ept_s_invalid_entry
                     Invalid database entry.

       ept_s_not_registered
                     No entries found.

       ept_s_update_failed
                     Update failed.

       rpc_s_invalid_binding
                     Invalid binding handle.

       rpc_s_no_interfaces
                     No interfaces registered.

       rpc_s_wrong_kind_of_binding
                     Wrong kind of binding for operation.

 DESCRIPTION

   The rpc_mgmt_ep_unregister() routine unregisters (that is, removes)
   an element from a local endpoint map.  A management program calls
   this routine to remove addresses of servers that are no longer
   available, or to remove addresses of servers that support objects
   that are no longer offered.

   Use this routine cautiously; removing elements from the local endpoint
   map may make servers unavailable to client applications that do not
   already have a fully bound binding handle to the server.

   A management application calls the rpc_mgmt_ep_inq_next() routine to
   view local endpoint map elements. The application can then remove
   the elements using the rpc_mgmt_ep_unregister() routine.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_ep_register
              rpc_ep_register_no_replace
              rpc_ns_binding_unexport
              rpc_mgmt_ep_elt_inq_begin
              rpc_mgmt_ep_elt_inq_done
              rpc_mgmt_ep_elt_inq_next

41  –  rpc_mgmt_inq_com_timeout

 NAME

   rpc_mgmt_inq_com_timeout - Returns the communications time-out value
                              in a binding handle

   Used by client applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_mgmt_inq_com_timeout( rpc_binding_handle_t binding,
                                  unsigned32 *timeout,
                                  unsigned32 *status );

 PARAMETERS

   Input

   binding
       Specifies a server binding handle.

   Output

   timeout
       Returns the communications time-out value from the binding
       parameter.

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if
       not, why not.  The possible status codes and their meanings
       are as follows:

       rpc_s_ok      Success.

       rpc_s_invalid_binding
                     Invalid binding handle.

       rpc_s_wrong_kind_of_binding
                     Wrong kind of binding for operation.

 DESCRIPTION

   The rpc_mgmt_inq_com_timeout() routine returns the communications
   timeout value in a server binding handle. The time-out value
   specifies the relative amount of time to spend trying to communicate
   with the server. Depending on the protocol sequence for the
   specified binding handle, the value in timeout acts only as advice
   to the RPC runtime.

   The rpc_mgmt_set_com_timeout reference page explains the time-out
   values returned in timeout.

   To change the timeout value, a client calls
   rpc_mgmt_set_com_timeout().

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_mgmt_set_com_timeout

42  –  rpc_mgmt_inq_dflt_protect_level

 NAME

   rpc_mgmt_inq_dflt_protect_level - Returns the default protection level
                                     for an authentication service

   Used by client and server applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_mgmt_inq_dflt_protect_level( unsigned32 authn_svc,
                                         unsigned32 *protect_level,
                                         unsigned32 *status );

 PARAMETERS

   Input

   authn_svc
       Specifies the authentication service for which to return the
       default protection level.
       The supported authentication services are as follows:

       rpc_c_authn_none
                    No authentication.

       rpc_c_authn_dce_secret
                    DCE shared-secret key authentication.

       rpc_c_authn_dce_public
                    DCE public key authentication (reserved for future
                    use).

       rpc_c_authn_default
                    DCE default authentication service.

   Output

   protect_level
       Returns the default protection level for the specified
       authentication service.  The protection level determines the
       degree to which authenticated communications between the client
       and the server are protected.  The possible protection levels
       are as follows:

       rpc_c_protect_level_default
                    Uses the default protection level for the specified
                    authentication service.

       rpc_c_protect_level_none
                    Performs no protection.

       rpc_c_protect_level_connect
                    Performs protection only when the client establishes
                    a relationship with the server.

       rpc_c_protect_level_call
                    Performs protection only at the beginning of each
                    remote procedure call when the server receives the
                    request.

       rpc_c_protect_level_pkt
                    Ensures that all data received is from the expected
                    client.

       rpc_c_protect_level_pkt_integ
                    Ensures and verifies that none of the data
                    transferred between client and server has been
                    modified.

       rpc_c_protect_level_pkt_privacy
                    Performs protection as specified by all of the
                    previous levels and also encrypts each remote
                    procedure call argument value.

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if
       not, why not.  The possible status codes and their meanings
       are as follows:

       rpc_s_ok      Success.

       rpc_s_unknown_authn_service
                     Unknown authentication service.

 DESCRIPTION

   The rpc_mgmt_inq_dflt_protect_level() routine returns the default
   protection level for the specified authentication service.

   A client can call this routine to learn the default protection level
   before specifying rpc_c_protect_level_default for the protect_level
   parameter in the rpc_binding_set_auth_info() routine.  If the default
   level is inappropriate, the client can specify a different, explicit
   level.

   A called remote procedure within a server application can call
   this routine to obtain the default protection level for a given
   authentication service.  By calling routine
   rpc_binding_inq_auth_client() in the remote procedure, the server
   can obtain the protection level set up by the calling client.  The
   server can then compare the client-specified protection level with
   the default level to determine whether to allow the remote procedure
   to execute.

   Alternatively, a remote procedure can compare the client's protection
   level against a level other than the default level.  In this case
   there is no need for the server's remote procedure to call this
   routine.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_binding_inq_auth_client
              rpc_binding_set_auth_info

43  –  rpc_mgmt_inq_if_ids

 NAME

   rpc_mgmt_inq_if_ids - Returns a vector of interface identifiers of
                         interfaces a server offers

   Used by client, server, or management applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_mgmt_inq_if_ids( rpc_binding_handle_t binding,
                             rpc_if_id_vector_t **if_id_vector,
                             unsigned32 *status );

 PARAMETERS

   Input

   binding
       Specifies a binding handle. To receive interface identifiers
       from a remote application, specify a server binding handle for
       that application. To receive interface information about your
       own (local) application, specify NULL.

       If the binding handle you supply refers to partially bound binding
       information and the binding information contains a nil object
       UUID, this routine returns the rpc_s_binding_incomplete status
       code. In this case, the DCE Host Daemon (dced) does not know which
       serveR instance to select from the local endpoint map because the
       RPC management interface is automatically registered (by the RPC
       runtime) for all RPC servers.  To avoid this situation, you can
       obtain a fully bound server binding handle by calling the
       rpc_ep_resolve_binding() routine.

   Output

   if_id_vector
       Returns the address of an interface identifier vector.

   status
       Returns the status code from this routine, which indicates
       whether the routine completed successfully or, if not, why
       not.  The possible status codes and their meanings are as follows:

       rpc_s_ok      Success.

       rpc_s_binding_incomplete
                     Binding incomplete (no object ID and no endpoint).

       rpc_s_comm_failure
                     Communications failure.

       rpc_s_invalid_arg
                     Invalid argument.

       rpc_s_invalid_binding
                     Invalid binding handle.

       rpc_s_mgmt_op_disallowed
                     Management operation disallowed.

       rpc_s_no_interfaces
                     No interfaces registered.

       rpc_s_wrong_kind_of_binding
                     Wrong kind of binding for operation.

   In addition to the values above, status can return the value of
   parameter status from the application-defined authorization function
   (rpc_mgmt_authorization_fn_t).  The prototype for such a function is
   defined in the authorization_fn parameter listed in the reference page
   for the rpc_mgmt_set_authorization_fn routine.

 DESCRIPTION

   An application calls the rpc_mgmt_inq_if_ids() routine to obtain a
   vector of interface identifiers listing the interfaces registered by
   a server with the RPC runtime.

   If a server has not registered any interfaces with the runtime, this
   routine returns a rpc_s_no_interfaces status code and an if_id_vector
   parameter value of NULL.

   The application calls the rpc_if_id_vector_free() routine to release
   the memory used by the vector.

   By default, the RPC runtime allows all clients to remotely call
   this routine.  To restrict remote calls of this routine, a server
   application supplies an authorization function using the
   rpc_mgmt_set_authorization_fn() routine.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_ep_resolve_binding
              rpc_if_id_vector_free
              rpc_mgmt_set_authorization_fn
              rpc_server_register_if

44  –  rpc_mgmt_inq_server_princ_name

 NAME

   rpc_mgmt_inq_server_princ_name - Returns a server's principal name

   Used by client, server, or management applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_mgmt_inq_server_princ_name(
                                rpc_binding_handle_t binding,
                                unsigned32 authn_svc,
                                unsigned_char_t **server_princ_name,
                                unsigned32 *status );

 PARAMETERS

   Input

   binding
       Specifies a binding handle.  If a client application wants the
       princi pal name from a server application, supply a server
       binding handle for that server.  For a server application to
       receive a principal name of itself, supply the value NULL.

       If the binding handle you supply refers to partially bound
       binding information and the binding information contains a nil
       object UUID, this routine returns the rpc_s_binding_incomplete
       status code.  In this case the DCE Host Daemon does not know
       which server instance to select from the local endpoint map
       because the RPC runtime automatically registers the RPC
       management interface for all RPC servers.  You can avoid this
       situation by calling rpc_ep_resolve_binding() to obtain a fully
       bound server binding handle.

   authn_svc
       Specifies the authentication service for which a principal name
       is returned.  The rpc_binding_set_auth_info reference page, in
       its explanation of the authn_svc parameter, contains a list of
       supported authentication services.

   Output

   server_princ_name
       Returns a principal name.  This name is registered for the
       authentication service in parameter authn_svc by the server
       referenced in parameter binding.  If the server registered
       multiple principal names, only one of them is returned.

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if
       not, why not.  The possible status codes and their meanings
       are as follows:

       rpc_s_ok      Success.

       rpc_s_binding_incomplete
                     Binding incomplete (no object ID and no endpoint).

       rpc_s_comm_failure
                     Communications failure.

       rpc_s_mgmt_op_disallowed
                     Management operation disallowed.

       rpc_s_unknown_authn_service
                     Unknown authentication service.

       rpc_s_wrong_kind_of_binding
                     Wrong kind of binding for operation.

   In addition to the above values, status can return the value of
   parameter status from the application-defined authorization function
   (rpc_mgmt_authorization_fn_t).  The prototype for such a function is
   defined in the authorization_fn parameter in the reference page for
   rpc_mgmt_set_authorization_fn.

 DESCRIPTION

   An application calls the rpc_mgmt_inq_server_princ_name() routine to
   obtain the principal name of a server registered for a specified
   authentication service.

   A client (or management) application uses this routine when it wants
   to allow one-way authentication with the server specified by binding.
   This means that the client does not care which server principal
   receives the remote procedure call request.  However, the server
   verifies that the client is who the client claims to be.  For one-way
   authentication, a client calls this routine before calling
   rpc_binding_set_auth_info().

   A server application uses this routine to obtain the principal name
   it registered by calling rpc_server_register_auth_info().

   The RPC runtime allocates memory for the string returned in
   server_princ_name.  The application calls rpc_string_free() to
   deallocate that memory.

   By default, the RPC runtime allows all clients to call this routine
   remotely.  To restrict these calls, a server application supplies an
   authorization function by calling rpc_mgmt_set_authorization_fn().

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_binding_inq_object
              rpc_binding_set_auth_info
              rpc_ep_resolve_binding
              rpc_mgmt_set_authorization_fn
              rpc_server_register_auth_info
              rpc_string_free
              uuid_is_nil

45  –  rpc_mgmt_inq_stats

 NAME

   rpc_mgmt_inq_stats - Returns RPC runtime statistics

   Used by client, server, or management applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_mgmt_inq_stats( rpc_binding_handle_t binding,
                            rpc_stats_vector_t **statistics,
                            unsigned32 *status );

 PARAMETERS

   Input

   binding
       Specifies a binding handle.  To receive statistics about a remote
       application, specify a server binding handle for that application.
       To receive statistics about your own (local) application, specify
       NULL.  If the binding handle you supply refers to partially bound
       binding information and the binding information contains a nil
       object UUID, this routine returns the rpc_s_binding_incomplete
       status code.  In this case, the DCE Host Daemon does not know
       which server instance to select from the local endpoint map
       because the RPC management interface is automatically registered
       (by the RPC runtime) for all RPC servers.  To avoid this
       situation, you can obtain a fully bound server binding handle by
       calling the rpc_ep_resolve_binding() routine.

   Output

   statistics
       Returns the statistics vector for the server specified by the
       binding parameter.  Each statistic is a value of the type
       unsigned32.

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if
       not, why not.  The possible status codes and their meanings
       are as follows:

       rpc_s_ok      Success.

       rpc_s_binding_incomplete
                     Binding incomplete (no object ID and no endpoint).

       rpc_s_comm_failure
                     Communications failure.

       rpc_s_invalid_binding
                     Invalid binding handle.

       rpc_s_mgmt_op_disallowed
                     Management operation disallowed.

       rpc_s_wrong_kind_of_binding
                     Wrong kind of binding for operation.

   In addition to the above values, status can return the value of
   parameter status from the application-defined authorization function
   rpc_mgmt_authorization_fn_t().  The prototype for such a function is
   defined in the  authorization_fn parameter in the reference page for
   rpc_mgmt_set_authorization_fn.

 DESCRIPTION

   The rpc_mgmt_inq_stats() routine returns statistics from the RPC
   runtime about a specified server.

   The explanation of a statistics vector in the rpc_intro reference
   page lists the elements of the vector.

   The RPC runtime allocates memory for the statistics vector.  The
   application calls the rpc_mgmt_stats_vector_free() routine to
   release the memory that the statistics vector used.

   By default, the RPC runtime allows all clients to remotely call
   this routine.  To restrict remote calls of this routine, a server
   application supplies an authorization function using the
   rpc_mgmt_set_authorization_fn() routine.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_ep_resolve_binding
              rpc_mgmt_set_authorization_fn
              rpc_mgmt_stats_vector_free

46  –  rpc_mgmt_is_server_listening

 NAME

   rpc_mgmt_is_server_listening - Tells whether a server is listening
                                  for remote procedure calls

   Used by client, server, or management applications.

 SYNOPSIS

   #include <dce/rpc.h>

   boolean32 rpc_mgmt_is_server_listening( rpc_binding_handle_t binding,
                                           unsigned32 *status );

 PARAMETERS

   Input

   binding
       Specifies a server binding handle. To determine if a remote
       application is listening for remote procedure calls, specify a
       server binding handle for that application. To determine if
       your own (local) application is listening for remote procedure
       calls, specify NULL.

       If the binding handle you supply refers to partially bound binding
       information and the binding information contains a nil object
       UUID,this routine returns the rpc_s_binding_incomplete status
       code. In this case, the DCE Host Daemon does not know which server
       instance to select from the local endpoint map because the RPC
       management interface is automatically registered (by the RPC
       runtime) for all RPC servers. To avoid this situation, you can
       obtain a fully bound server binding handle by calling the
       rpc_ep_resolve_binding() routine.

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if
       not, why not.  The possible status codes and their meanings are
       as follows:

       rpc_s_ok      Success.

       rpc_s_binding_incomplete
                     Binding incomplete (no object ID and no endpoint).

       rpc_s_comm_failure
                     Communications failure.

       rpc_s_invalid_binding
                     Invalid binding handle.

       rpc_s_mgmt_op_disallowed
                     Management operation disallowed.

       rpc_s_wrong_kind_of_binding
                     Wrong kind of binding for operation.

   In addition to the above values, status can return the value of
   parameter status from the application-defined authorization function
   (rpc_mgmt_authorization_fn_t).  The prototype for such a function is
   defined in the authorization_fn parameter in the reference page for
   rpc_mgmt_set_authorization_fn.

 DESCRIPTION

   The rpc_mgmt_is_server_listening() routine determines whether the
   server specified in the binding parameter is listening for remote
   procedure calls.

   This routine returns a value of TRUE if the server is blocked in the
   rpc_server_listen() routine.

   By default, the RPC runtime allows all clients to remotely call
   this routine.  To restrict remote calls of this routine, a server
   application supplies an authorization function using the
   rpc_mgmt_set_authorization_fn() routine.

 RETURN VALUES

   Your program must examine the return value of the status parameter
   and the return value of the routine to understand the meaning of the
   routine value.  The following table summarizes the values that this
   routine can return.

           Values Returned by rpc_mgmt_is_server_listening()
 _____________________________________________________________________
 Value Returned     Status Code               Explanation
 _____________________________________________________________________
   TRUE             rpc_s_ok                  The specified server is
                                              listening for remote
                                              procedure calls.

   FALSE            One of the status         The specified server is
                    codes listed for          not listening for remote
                    the status parameter      procedure calls, or the
                                              server cannot be reached.

 RELATED INFORMATION

   Functions: rpc_ep_resolve_binding
              rpc_mgmt_set_authorization_fn
              rpc_server_listen

47  –  rpc_mgmt_set_authorization_fn

 NAME

   rpc_mgmt_set_authorization_fn - Establishes an authorization function
                                   for processing remote calls to a
                                   server's management routines

   Used by server applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_mgmt_set_authorization_fn(
                   rpc_mgmt_authorization_fn_t authorization_fn,
                   unsigned32 *status );

 PARAMETERS

   Input

   authorization_fn
       Specifies a pointer to an authorization function. The RPC server
       runtime automatically calls this function whenever the server
       runtime receives a client request to execute one of the RPC
       management routines.

       Specify NULL to unregister a previously registered authorization
       function.  In this case, the default authorizations (as described
       later) are used.

       The following C definition for rpc_mgmt_authorization_fn_t
       illustrates the prototype for the authorization function:

            typedef boolean32 (*rpc_mgmt_authorization_fn_t)
              (
               rpc_binding_handle_t client_binding,           /* in  */
               unsigned32           requested_mgmt_operation, /* in  */
               unsigned32           *status                   /* out */
              );

       The following table shows the requested_mgmt_operation Values
       passed by the RPC runtime to the authorization function.

              Operation Values Passed to Authorization Function
      _________________________________________________________________
      Called Remote Routine              requested_mgmt_operation Value
      _________________________________________________________________
      rpc_mgmt_inq_if_ids()              rpc_c_mgmt_inq_if_ids
      rpc_mgmt_inq_server_princ_name()   rpc_c_mgmt_inq_princ_name
      rpc_mgmt_inq_stats()               rpc_c_mgmt_inq_stats
      rpc_mgmt_is_server_listening()     rpc_c_mgmt_is_server_listen
      rpc_mgmt_stop_server_listening()   rpc_c_mgmt_stop_server_listen

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if
       not, why not.  The possible status code and its meaning is as
       follows:

       rpc_s_ok
             Success.

 DESCRIPTION

   The rpc_mgmt_set_authorization_fn() routine sets up an authorization
   function to control remote access to the calling server's remote
   management routines.

   If a server does not provide an authorization function, the RPC
   runtime controls client application access to the server's remote
   management routines as shown in the next table.  In the table, an
   Enabled authorization allows all clients to execute the remote
   routine and a Disabled authorization prevents all clients from
   executing the remote routine.

            Default Controls for Remote Management Routines
        ________________________________________________________
        Remote Routine                     Default Authorization
        ________________________________________________________
        rpc_mgmt_inq_if_ids()                     Enabled
        rpc_mgmt_inq_server_princ_name()          Enabled
        rpc_mgmt_inq_stats()                      Enabled
        rpc_mgmt_is_server_listening()            Enabled
        rpc_mgmt_stop_server_listening()         Disabled

   A server can modify the default authorizations by calling
   rpc_mgmt_set_authorization_fn() to specify an authorization
   function.  When an authorization function is provided, the RPC
   runtime automatically calls that function to control the execution
   of all remote management routines called by clients.

   The specified function must provide access control for all of the
   remote management routines.

   If the authorization function returns TRUE, the management routine
   is allowed to execute.  If the authorization function returns FALSE,
   the management routine does not execute, and the called routine
   returns to the client the status code returned from the
   rpc_mgmt_authorization_fn_t function.  However, if the status code
   that the rpc_mgmt_authorization_fn_t function returns is 0 (zero) or
   rpc_s_ok, then the status code rpc_s_mgmt_op_disallowed is returned
   to the client.

   The RPC runtime calls the server-provided authorization function with
   the following two input arguments:

     +  The binding handle of the calling client.

     +  An integer value denoting which management routine the client has
        called.

   Using these arguments, the authorization function determines whether
   the calling client is allowed to execute the requested management
   routine.  For example, the authorization function can call
   rpc_binding_inq_auth_client() to obtain authentication and
   authorization information about the calling client and determine if
   that client is authorized to execute the requested management routine.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_mgmt_ep_unregister
              rpc_mgmt_inq_if_ids
              rpc_mgmt_inq_server_princ_name
              rpc_mgmt_inq_stats
              rpc_mgmt_is_server_listening
              rpc_mgmt_stop_server_listening

48  –  rpc_mgmt_set_cancel_timeout

 NAME

   rpc_mgmt_set_cancel_timeout - Sets the lower bound on the time to
                                 wait before timing out after
                                 forwarding a cancel

   Used by client applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_mgmt_set_cancel_timeout( signed32 seconds,
                                     unsigned32 *status );

 PARAMETERS

   Input

   seconds
       An integer specifying the number of seconds to wait for a
       server to acknowledge a cancel. To specify that a client
       waits an infinite amount of time, supply the value
       rpc_c_cancel_infinite_timeout.

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if
       not, why not.  The possible status code and its meaning is as
       follows:

       rpc_s_ok
               Success.

 DESCRIPTION

   The rpc_mgmt_set_cancel_timeout() routine resets the amount of time
   the RPC runtime waits for a server to acknowledge a cancel before
   orphaning the call.

   The application specifies either to wait forever or to wait a length
   of time specified in seconds. If the value of seconds is 0 (zero), the
   remote procedure call is immediately orphaned when the RPC runtime
   detects and forwards a pending cancel; control returns immediately to
   the client application. The default value,
   rpc_c_cancel_infinite_timeout, specifies waiting forever for the call
   to complete.

   The value for the cancel time-out applies to all remote procedure
   calls made in the current thread. A multithreaded client that wishes
   to change the time-out value must call this routine in each thread
   of execution.

   For more information about canceled threads and orphaned remote
   procedure calls, see the OSF DCE Application Development Guide.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: pthread_cancel
              pthread_setcancel

   Books: OSF DCE Application Development Guide.

49  –  rpc_mgmt_set_com_timeout

 NAME

   rpc_mgmt_set_com_timeout - Sets the communications time-out value
                              in a binding handle

   Used by client applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_mgmt_set_com_timeout( rpc_binding_handle_t binding,
                                  unsigned32 timeout,
                                  unsigned32 *status );

 PARAMETERS

   Input

   binding
       Specifies the server binding handle whose time-out value is set.

   timeout
       Specifies a communications time-out value.

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if
       not, why not.  The possible status codes and their meanings
       are as follows:

       rpc_s_ok      Success.

       rpc_s_invalid_binding
                     Invalid binding handle.

       rpc_s_invalid_timeout
                     Invalid time-out value.

       rpc_s_wrong_kind_of_binding
                     Wrong kind of binding for operation.

 DESCRIPTION

   The rpc_mgmt_set_com_timeout() routine resets the communications
   time-out value in a server binding handle.  The time-out value
   specifies the relative amount of time to spend trying to communicate
   with the server.  Depending on the protocol sequence for the
   specified binding handle, the timeout value acts only as advice to
   the RPC runtime.

   After the initial relationship is established, subsequent
   communications for the binding handle can revert to not less than
   the default time-outs for the protocol service. This means that after
   setting a short initial time-out, establishing a connection, calls in
   progress are not timed out any sooner than the default.

   The time-out value can be any integer value from 0 (zero) to 10.  Note
   that these values do not represent seconds. They represent a relative
   amount of time to spend to establish a client/server relationship
   (a binding).

   Constants are provided for certain values in the time-out range.  The
   following table lists the binding time-out values, describing the DCE
   RPC predefined values that an application can use for the timeout
   parameter.

                      Predefined Time-Out Values
 _____________________________________________________________________
 Name                           Value     Description
 _____________________________________________________________________
 rpc_c_binding_min_timeout        0       Attempts to communicate for the
                                          minimum amount of time for the
                                          network protocol being used.
                                          This value favors response time
                                          over correctness in determining
                                          whether the server is running.

 rpc_c_binding_default_timeout    5       Attempts to communicate for an
                                          average amount of time for the
                                          network protocol being used.
                                          This value gives equal con-
                                          sideration to response time and
                                          correctness in determining
                                          whether a server is running.
                                          This is the default value.

 rpc_c_binding_max_timeout        9       Attempts to communicate for the
                                          longest finite amount of time
                                          for the network protocol being
                                          used. This value favors
 					 correctness in determining
 					 whether a server is running
  					 over response time.

 rpc_c_binding_infinite_timeout  10       Attempts to communicate
 					 forever.

   Note that connection-oriented RPC handles the time-out value
   differently from Datagram RPC.  Because connection-oriented RPC is
   based upon a reliable transport layer, communications time-outs are
   not as significant as they are under datagram protocol.  When
   rpc_mgmt_set_com_timeout() is called on a binding using connection-
  oriented protocol, only the input argument
   rpc_c_binding_infinite_timeout changes the binding's behavior.
   All other values are ignored.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_mgmt_inq_com_timeout

50  –  rpc_mgmt_set_server_stack_size

 NAME

   rpc_mgmt_set_server_stack_size - Specifies the stack size for each
                                    server thread

   Used by server applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_mgmt_set_server_stack_size( unsigned32 thread_stack_size,
                                        unsigned32 *status );

 PARAMETERS

   Input

   thread_stack_size
       Specifies, in bytes, the stack size allocated for each thread
       created by rpc_server_listen().  This value is applied to all
       threads created for the server.  Select this value based on the
       stack requirements of the remote procedures offered by the server.

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if
       not, why not.  The possible status codes and their meanings
       are as follows:

       rpc_s_ok    Success.

       rpc_s_invalid_arg
                   Invalid argument.

       rpc_s_not_supported
                   Not supported.

 DESCRIPTION

   The rpc_mgmt_set_server_stack_size() routine specifies the thread
   stack size to use when the RPC runtime creates call threads for
   executing remote procedure calls.  The max_calls_exec parameter in
   rpc_server_listen() specifies the number of call execution threads
   created.

   A server, provided it knows the stack requirements of all the manager
   routines in the interfaces it offers, can call
   rpc_mgmt_set_server_stack_size() to ensure that each call thread has
   the necessary stack size.

   This routine is optional.  When it is used, it must be called before
   the server calls rpc_server_listen().  If a server does not call this
   routine, the default per thread stack size from the underlying threads
   package is used.

   Some thread packages do not support the specification or modification
   of thread stack sizes.  The packages cannot perform such operations or
   the concept of a thread stack size is meaningless to them.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_server_listen

51  –  rpc_mgmt_stats_vector_free

 NAME

   rpc_mgmt_stats_vector_free - Frees a statistics vector

   Used by client, server, or management applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_mgmt_stats_vector_free( rpc_stats_vector_t **stats_vector,
                                    unsigned32 *status );

 PARAMETERS

   Input/Output

   stats_vector
         Specifies the address of a pointer to a statistics vector.
         On return, stats_vector contains the value NULL.

   Output

   status
         Returns the status code from this routine.  This status code
         indicates whether the routine completed successfully or, if
         not, why not.  The possible status code and its meaning is as
         follows:

         rpc_s_ok
               Success.

 DESCRIPTION

   An application calls rpc_mgmt_stats_vector_free() to release the
   memory used to store a vector of statistics.

   An application calls rpc_mgmt_inq_stats() to obtain a vector of
   statistics.  Follow a call to rpc_mgmt_inq_stats() with a call to
   rpc_mgmt_stats_vector_free().

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_mgmt_inq_stats

52  –  rpc_mgmt_stop_server_listening

 NAME

   rpc_mgmt_stop_server_listening - Tells a server to stop listening
                                    for remote procedure calls

   Used by client, server, or management applications.

 SYNOPSIS

   #include <dce/rpc.h>(

   void rpc_mgmt_stop_server_listening( rpc_binding_handle_t binding,
                                        unsigned32 *status );

 PARAMETERS

   Input

   binding
       Specifies a server binding handle.  To direct a remote server to
       stop listening for remote procedure calls, specify a server
       binding handle to that server. To direct your own (local) server
       to stop listening for remote procedure calls, specify NULL.

       If the binding handle you supply refers to partially bound binding
       information and the binding information contains a nil object
       UUID, this routine returns the rpc_s_binding_incomplete status
       code. In this case, the DCE Host Daemon does not know which server
       instance to select from the local endpoint map because the RPC
       management interface is automatically registered (by the RPC
       runtime) for all RPC servers.  To avoid this situation, you can
       obtain a fully bound server binding handle by calling
        rpc_ep_resolve_binding().

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if
       not, why not.  The possible status codes and their meanings
       are as follows:

       rpc_s_ok      Success.

       rpc_s_binding_incomplete
                     Binding incomplete (no object ID and no endpoint).

       rpc_s_comm_failure
                     Communications failure.

       rpc_s_invalid_binding
                     Invalid binding handle.

       rpc_s_mgmt_op_disallowed
                     Management operation disallowed.

       rpc_s_unknown_if
                     Unknown interface.

       rpc_s_wrong_kind_of_binding
                     Wrong kind of binding for operation.

   In addition to the above values, status can return the value of
   parameter status from the application-defined authorization function
   rpc_mgmt_authorization_fn_t().  The prototype for such a function is
   defined in the  authorization_fn parameter in the reference page for
   rpc_mgmt_set_authorization_fn.

 DESCRIPTION

   The rpc_mgmt_stop_server_listening() routine directs a server to stop
   listening for remote procedure calls.

   On receiving such a request, the DCE RPC runtime stops accepting new
   remote procedure calls.  Executing calls are allowed to complete.

   After all calls complete, rpc_server_listen() returns to the caller.

   By default, the RPC runtime does not allow any client to remotely
   call this routine.  To allow clients to execute this routine, a
   server application supplies an authorization function using
   rpc_mgmt_set_authorization_fn().

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_ep_resolve_binding
              rpc_mgmt_set_authorization_fn
              rpc_server_listen

53  –  rpc_network_inq_protseqs

 NAME

   rpc_network_inq_protseqs - Returns all protocol sequences supported
                              by both the RPC runtime and the operating
                              system

   Used by client and server applications.

 SYNOPSIS

   #include <dce/rpc.h>(

   void rpc_network_inq_protseqs( rpc_protseq_vector_t **protseq_vector,
                                  unsigned32 *status );

 PARAMETERS

   Input

   None.

   Output

   protseq_vector
           Returns the address of a protocol sequence vector.

   status  Returns the status code from this routine.  This status code
           indicates whether the routine completed successfully or, if
           not, why not.  The possible status codes and their meanings
           are as follows:

           rpc_s_ok                 Success.

           rpc_s_no_protseqs        No supported protocol sequences.

 DESCRIPTION

   The rpc_network_inq_protseqs() routine obtains a vector containing
   the protocol sequences supported by the RPC runtime and the operating
   system.  A server chooses to accept remote procedure calls over some
   or all of the supported protocol sequences.  If there are no supported
   protocol sequences, this routine returns the rpc_s_no_protseqs status
   code and the value NULL in the protseq_vector parameter.

   The application calls rpc_protseq_vector_free() to release the memory
   used by the vector.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_network_is_protseq_valid
              rpc_protseq_vector_free

54  –  rpc_network_is_protseq_valid

 NAME

   rpc_network_is_protseq_valid - Tells whether the specified protocol
                                  sequence is supported by both the RPC
                                  runtime and the operating system

   Used by client and server applications.

 SYNOPSIS

   #include <dce/rpc.h>(

   boolean32 rpc_network_is_protseq_valid( unsigned_char_t *protseq,
                                           unsigned32 *status );

 PARAMETERS

   Input

   protseq
       Specifies a string identifier for a protocol sequence.  (See the
       table of valid protocol sequences in the rpc_intro reference page
       for a list of acceptable values.)

       The rpc_network_is_protseq_valid() routine determines whether this
       parameter contains a valid protocol sequence.  If not, the routine
       returns FALSE and the status parameter contains the
       rpc_s_invalid_rpc_protseq status code.

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if
       not, why not.  The possible status codes and their meanings
       are as follows:

       rpc_s_ok      Success.

       rpc_s_invalid_rpc_protseq
                     Invalid protocol sequence.

       rpc_s_protseq_not_supported
                     Protocol sequence not supported on this host.

 DESCRIPTION

   The rpc_network_is_protseq_valid() routine determines whether a
   specified protocol sequence is available for making remote procedure
   calls.  A server chooses to accept remote procedure calls over some
   or all of the supported protocol sequences.

   A protocol sequence is valid if the RPC runtime and the operating
   system support the protocol sequence.  DCE RPC supports the protocol
   sequences pointed to by the explanation of the protseq parameter.

   An application calls rpc_network_inq_protseqs() to obtain all the
   supported protocol sequences.

 RETURN VALUES

   This routine can return the following values:

   TRUE    The RPC runtime supports the protocol sequence specified in
           the protseq parameter.  The routine returns the status code
           rpc_s_ok in the status parameter.

   FALSE   The RPC runtime does not support the protocol sequence
           specified in the protseq parameter.

 RELATED INFORMATION

   Functions: rpc_network_inq_protseqs
              rpc_string_binding_parse

55  –  rpc_ns_binding_export

 NAME

   rpc_ns_binding_export - Establishes a name service database entry
                           with binding handles or object UUIDs for a
                           server

   Used by server applications.

 SYNOPSIS

   #include <dce/rpc.h>(

   void rpc_ns_binding_export( unsigned32 entry_name_syntax,
                               unsigned_char_t *entry_name,
                               rpc_if_handle_t if_handle,
                               rpc_binding_vector_t *binding_vec,
                               uuid_vector_t *object_uuid_vec,
                               unsigned32 *status );

 PARAMETERS

   Input

   entry_name_syntax
       An integer value that specifies the syntax of the entry_name
       parameter.

       To use the syntax specified in the RPC_DEFAULT_ENTRY_SYNTAX
       logical name, provide the value rpc_c_ns_syntax_default.

   entry_name
       Specifies the entry name to which binding handles and object UUIDs
       are exported.  This can be either the global or cell-relative
       name.

   if_handle
       Specifies a stub-generated data structure that identifies the
       interface to export. Specifying the value NULL indicates there
       are no binding handles to export (only object UUIDs are exported)
       and the binding_vec parameter is ignored.

   binding_vec
       Specifies a vector of server bindings to export. Specify the value
       NULL for this parameter in cases where there are no binding
       handles to export (only object UUIDs are exported).

   object_uuid_vec
       Identifies a vector of object UUIDs offered by the server.  The
       server application constructs this vector. NULL indicates there
       are no object UUIDs to export (only binding handles are exported).

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if
       not, why not.  The possible status codes and their meanings
       are as follows:

       rpc_s_ok      Success.

       rpc_s_incomplete_name
                     Incomplete name.

       rpc_s_invalid_binding
                     Invalid binding handle.

       rpc_s_invalid_name_syntax
                     Invalid name syntax.

       rpc_s_name_service_unavailable
                     Name service unavailable.

       rpc_s_no_ns_permission
                     No permission for name service operation.

       rpc_s_nothing_to_export
                     Nothing to export.

       rpc_s_unsupported_name_syntax
                     Unsupported name syntax.

       rpc_s_wrong_kind_of_binding
                     Wrong kind of binding for operation.

 DESCRIPTION

   The rpc_ns_binding_export() routine allows a server application to
   publicly offer, in the name service database, an interface that any
   client application can use.  A server application can also use this
   routine to publicly offer the object UUIDs of the application's
   resources.

   To export an interface, the server application calls the routine with
   an interface and the server binding handles that a client can use to
   access the server.

   A server can export interfaces and objects in a single call to this
   routine, or it can export them separately.

   If the entry in the name service database specified by the entry_name
   parameter does not exist, rpc_ns_binding_export() tries to create it.
   In this case a server must have the correct permissions to create the
   entry.  Otherwise, a management application with the necessary
   permissions creates the entry by calling rpc_ns_mgmt_entry_create()
   before the server runs.

   A server is not required to export its interfaces to the name service
   database.  When a server does not export any interfaces, only clients
   that privately know of that server's binding information can access
   its interfaces. For example, a client that has the information needed
   to construct a string binding can call
   rpc_binding_from_string_binding() to create a binding handle for
   making remote procedure calls to a server.

   Before calling rpc_ns_binding_export() to export interfaces (but not
   to export object UUIDs), a server must do the following:

     +  Register one or more protocol sequences with the local RPC
        runtime by calling one of the following routines:

        rpc_server_use_protseq()           rpc_server_use_protseq_ep()
        rpc_server_use_protseq_if()        rpc_server_use_all_protseqs()
        rpc_server_use_all_protseqs_if()

     +  Obtain a list of server bindings by calling
        rpc_server_inq_bindings().  The vector returned from
        rpc_server_inq_bindings() becomes the binding_vec parameter
        for this routine.  To prevent a binding from being exported,
        set the selected vector element to the value NULL.
        (See the section on RPC data types and structures in the
        rpc_intro reference page.)

   If a server exports an interface to the same entry in the name
   service database more than once, the second and subsequent calls
   to this routine add the binding information and object UUIDs only
   if they differ  from the ones in the server entry.  Existing data
   is not removed from the entry.

   To remove binding handles and object UUIDs from the name service
   database, a server application calls rpc_ns_binding_unexport() and
   a management application calls rpc_ns_mgmt_binding_unexport().

   For an explanation of how a server can establish a client/server
   relationship without using the name service database, see the
   explanation of a string binding in the rpc_intro reference page.

   In addition to calling this routine, a server that called either
   rpc_server_use_all_protseqs() or rpc_server_use_protseq() must also
   register with the local endpoint map by calling rpc_ep_register() or
   rpc_ep_register_no_replace().

   Permissions Required

   You need both read permission and write permission to the CDS object
   entry (the target name service entry).  If the entry does not exist,
   you also need insert permission to the parent directory.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_ep_register
              rpc_ep_register_no_replace
              rpc_ns_binding_unexport
              rpc_ns_mgmt_binding_unexport
              rpc_ns_mgmt_entry_create
              rpc_server_inq_bindings
              rpc_server_use_all_protseqs
              rpc_server_use_all_protseqs_if
              rpc_server_use_protseq
              rpc_server_use_protseq_ep
              rpc_server_use_protseq_if

56  –  rpc_ns_binding_import_begin

 NAME

   rpc_ns_binding_import_begin - Creates an import context for an
                                 interface and an object in the name
                                 service database

   Used by client applications.

 SYNOPSIS

   #include <dce/rpc.h>(

   void rpc_ns_binding_import_begin( unsigned32 entry_name_syntax,
                                     unsigned_char_t *entry_name,
                                     rpc_if_handle_t if_handle,
                                     uuid_t *obj_uuid,
                                     rpc_ns_handle_t *import_context,
                                     unsigned32 *status );

 PARAMETERS

   Input

   entry_name_syntax
       An integer value that specifies the syntax of parameter
       entry_name.  To use the syntax specified in the
       RPC_DEFAULT_ENTRY_SYNTAX logical name, provide the value
       rpc_c_ns_syntax_default.

   entry_name
       Specifies the entry name where the search for compatible binding
       handles begins.  This can be either the global or cell-relative
       name.  To use the entry name found in the RPC_DEFAULT_ENTRY
       logical name, supply NULL or a null string (\0) for this
       parameter. When this entry name is used, the RPC runtime
       automatically uses the default name syntax specified in the
       RPC_DEFAULT_ENTRY_SYNTAX logical name.

   if_handle
       A stub-generated data structure specifying the interface to
       import. If the interface specification has not been exported or
       is of no concern to the caller, specify NULL for this parameter.
       In this case the bindings returned are only guaranteed to be of
       a compatible and supported protocol sequence and, depending on
       the value of parameter obj_uuid, contain the specified object
       UUID.The desired interface may not be supported by the contacted
       server.

   obj_uuid
       Specifies an optional object UUID.

       If you specify NULL or a nil UUID for this parameter, the
       returned binding handles contain one of the object UUIDs that
       the compatible server exported.  If the server did not export
       any object UUIDs, the returned compatible binding handles contain
       a nil object UUID.

       If you specify a non-nil UUID, compatible binding handles are
       returned from an entry only if the server has exported the
       specified object UUID.  Each returned binding handle contains
       the specified non-nil object UUID.

   Output

   import_context
       Returns the name service handle for use with the
       rpc_ns_binding_import_next() and rpc_ns_binding_import_done()
       routines.

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if
       not, why not.  The possible status codes and their meanings
       are as follows:

       rpc_s_ok       Success.

       rpc_s_incomplete_name
                      Incomplete name.

       rpc_s_invalid_name_syntax
                      Invalid name syntax.

       rpc_s_invalid_object
                      Invalid object.

       rpc_s_no_env_setup
                      Environment variable not set up.

       rpc_s_unsupported_name_syntax
                      Unsupported name syntax.

 DESCRIPTION

   The rpc_ns_binding_import_begin() routine creates an import context
   for importing compatible server binding handles for servers.  These
   servers offer the specified interface and object UUID in the
   respective if_handle and obj_uuid parameters.

   Before calling rpc_ns_binding_import_next(), the client must first
   call this routine to create an import context.  The arguments to
   this routine control the operation of rpc_ns_binding_import_next().

   After importing binding handles, the client calls
   rpc_ns_binding_import_done() to delete the import context.

   Permissions Required

   No permissions are required.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_ns_binding_import_done
              rpc_ns_binding_import_next
              rpc_ns_mgmt_handle_set_exp_age

57  –  rpc_ns_binding_import_done

 NAME

   rpc_ns_binding_import_done - Deletes the import context for searching
                                the name service database

   Used by client applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_ns_binding_import_done( rpc_ns_handle_t *import_context,
                                    unsigned32 *status );

 PARAMETERS

   Input/Output

   import_context
       Specifies the name service handle to delete.  (A name service
       handle is created by calling rpc_ns_binding_import_begin().)
       Returns the value NULL.

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if
       not, why not.  The possible status codes and their meanings
       are as follows:

       rpc_s_ok    Success.

       rpc_s_invalid_ns_handle
                   Invalid name service handle.

 DESCRIPTION

   The rpc_ns_binding_import_done() routine deletes an import context
   created by calling rpc_ns_binding_import_begin().  This deletion does
   not affect any previously imported bindings.

   Typically, a client calls this routine after completing remote
   procedure calls to a server using a binding handle returned from
   rpc_ns_binding_import_next().  A client program calls this routine
   for each created import context, regardless of the status returned
   from rpc_ns_binding_import_next(), or the success in making remote
   procedure calls.

   Permissions Required

   No permissions are required.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_ns_binding_import_begin
              rpc_ns_binding_import_next

58  –  rpc_ns_binding_import_next

 NAME

   rpc_ns_binding_import_next - Returns a binding handle of a compatible
                                server (if found) from the name service
                                database

   Used by client applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_ns_binding_import_next( rpc_ns_handle_t import_context,
                                    rpc_binding_handle_t *binding,
                                    unsigned32 *status );

 PARAMETERS

   Input

   import_context
       Specifies a name service handle.  This handle is returned from
       the rpc_ns_binding_import_begin() routine.

   Output

   binding
       Returns a compatible server binding handle.

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if
       not, why not.  The possible status codes and their meanings
       are as follows:

       rpc_s_ok       Success.

       rpc_s_class_version_mismatch
                      RPC class version mismatch.

       rpc_s_entry_not_found
                      Name service entry not found.

       rpc_s_invalid_ns_handle
                      Invalid name service handle.

       rpc_s_name_service_unavailable
                      Name service unavailable.

       rpc_s_no_more_bindings
                      No more bindings.

       rpc_s_no_ns_permission
                      No permission for name service operation.

       rpc_s_not_rpc_entry
                      Not an RPC entry.

 DESCRIPTION

   The rpc_ns_binding_import_next() routine returns one compatible (to
   the client) server binding handle selected at random from the name
   service database.  The server offers the interface and object UUID
   specified by the respective if_handle and obj_uuid parameters in
   rpc_ns_binding_import_begin().

   A similar routine is rpc_ns_binding_lookup_next(), which returns a
   vector of compatible server binding handles for one or more servers.

   NOTE:  Routine rpc_ns_binding_import_next() calls routine
          rpc_ns_binding_lookup_next() which, in turn, obtains a vector
          of server binding handles from the name service database.
          Next, routine rpc_ns_binding_import_next() randomly selects one
          of the elements from the vector.

   The rpc_ns_binding_import_next() routine communicates only with the
   name service database, not directly with servers.

   The returned compatible binding handle always contains an object UUID.
   Its value depends on the value specified in the obj_uuid parameter of
   the rpc_ns_binding_import_begin() routine, as follows:

     +  If obj_uuid contains a non-nil object UUID, the returned binding
        handle contains that object UUID.

     +  If obj_uuid contains a nil object UUID or NULL, the object UUID
        returned in the binding handle depends on how the server exported
        object UUIDs:

          - If the server did not export any object UUIDs, the returned
            binding handle contains a nil object UUID.

          - If the server exported one object UUID, the returned binding
            handle contains that object UUID.

          - If the server exported multiple object UUIDs, the returned
            binding handle contains one of the object UUIDs, selected in
            an unspecified way.

          Applications should not count on multiple calls to
          rpc_ns_binding_import_next() returning different object UUIDs.
          In particular, note that each name service entry stores server
          address information separately from exported object UUIDs.
          Successive calls to rpc_ns_binding_import_next() using the same
          import context will return exactly one binding for each
          compatible server address, not the cross product of all
          compatible server addresses with all exported UUIDs.  Each
          returned binding will contain one of the exported object
          UUIDs, but applications should not count on any specific
          selection mechanism for these object UUIDs

   The client application can use the returned binding handle to make
   a remote procedure call to the server. If the client fails to
   communicate with the server, it can call the
   rpc_ns_binding_import_next() routine again.

   Each time the client calls rpc_ns_binding_import_next(), the routine
   returns another server binding handle.  The binding handles returned
   are unordered.  Multiple binding handles can refer to different
   protocol sequences from the same server.

   When the search finishes, the routine returns a  status  code  of
   rpc_s_no_more_bindings and returns the value NULL in binding.

   A client application calls rpc_ns_binding_inq_entry_name() to obtain
   the name of the entry in the name service database where the binding
   handle came from.

   The rpc_ns_binding_import_next() routine allocates memory for the
   returned binding parameter. When a client application finishes with
   the binding handle, it must call rpc_binding_free() to deallocate the
   memory.  Each call to rpc_ns_binding_import_next() requires a
   corresponding call to rpc_binding_free().

   The client calls the rpc_ns_binding_import_done() routine after it has
   satisfactorily used one or more returned server binding handles.  The
   rpc_ns_binding_import_done() routine deletes the import context.  The
   client also calls rpc_ns_binding_import_done() if the application
   wants to start a  new  search  for  compatible  servers  (by  calling
   rpc_ns_binding_import_begin()).  The order of binding handles returned
   can be different for each new search.  This means that the order in
   which binding handles  are returned to an application can be different
   each time the application is run.

   Permissions Required

   You need read permission to the specified CDS object entry (the
   starting name service entry) and to any CDS object entry in the
   resulting search path.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_ns_binding_import_begin
              rpc_ns_binding_import_done
              rpc_ns_binding_inq_entry_name
              rpc_ns_binding_lookup_begin
              rpc_ns_binding_lookup_done
              rpc_ns_binding_lookup_next
              rpc_ns_binding_select

59  –  rpc_ns_binding_inq_entry_name

 NAME

   rpc_ns_binding_inq_entry_name - Returns the name of an entry in the
                                   name service database from which the
                                   server binding handle came

   Used by client applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_ns_binding_inq_entry_name( rpc_binding_handle_t binding,
                                       unsigned32 entry_name_syntax,
                                       unsigned_char_t **entry_name,
                                       unsigned32 *status );

 PARAMETERS

   Input

   binding
       Specifies a server binding handle whose entry name in the name
       service database is returned.

   entry_name_syntax
       An integer value that specifies the syntax of returned parameter
       entry_name.

       To use the syntax specified in the RPC_DEFAULT_ENTRY_SYNTAX
       logical name, provide the value rpc_c_ns_syntax_default.

   Output

   entry_name
       Returns the name of the entry in the name service database in
       which binding was found.  The returned name is a global name.

       Specify NULL to prevent the routine from returning this parameter.
       When you specify this value, the client does not need to call
       rpc_string_free().

   status
       Returns the status code from this routine, which indicates whether
       the routine completed successfully or, if not, why not.
       The possible status codes and their meanings are as follows:

       rpc_s_ok      Success.

       rpc_s_incomplete_name
                     Incomplete name.

       rpc_s_invalid_binding
                     Invalid binding handle.

       rpc_s_invalid_name_syntax
                     Invalid name syntax.

       rpc_s_no_entry_name
                     No entry name for binding.

       rpc_s_unsupported_name_syntax
                     Unsupported name syntax.

       rpc_s_wrong_kind_of_binding
                     Wrong kind of binding for operation.

 DESCRIPTION

   The rpc_ns_binding_inq_entry_name() routine returns the global name
   of the entry in the name service database from which a binding handle
   for a compatible server came.

   The RPC runtime allocates memory for the string returned in the
   entry_name parameter. Your application calls rpc_string_free() to
   deallocate that memory.

   An entry name is associated only with binding handles returned from
   the rpc_ns_binding_import_next(), rpc_ns_binding_lookup_next(), and
   rpc_ns_binding_select() routines.

   If the binding handle specified in the binding parameter is not
   returned from an entry in the name service database (for example,
   the binding handle is created by calling
   rpc_binding_from_string_binding()), this routine returns the
   rpc_s_no_entry_name status code.

   Permissions Required

   No permissions are required.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_binding_from_string_binding
              rpc_ns_binding_import_next
              rpc_ns_binding_lookup_next
              rpc_ns_binding_select
              rpc_string_free

60  –  rpc_ns_binding_lookup_begin

 NAME

   rpc_ns_binding_lookup_begin - Creates a lookup context for an
                                 interface and an object in the name
                                 service database

   Used by client applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_ns_binding_lookup_begin( unsigned32 entry_name_syntax,
                                     unsigned_char_t *entry_name,
                                     rpc_if_handle_t if_handle,
                                     uuid_t *object_uuid,
                                     unsigned32 binding_max_count,
                                     rpc_ns_handle_t *lookup_context,
                                     unsigned32 *status );

 PARAMETERS

   Input

   entry_name_syntax
       An integer value that specifies the syntax of the entry_name
       parameter.  To use the syntax specified in the
       RPC_DEFAULT_ENTRY_SYNTAX logical name, provide the value
       rpc_c_ns_syntax_default.

   entry_name
       Specifies the entry name at which the search for compatible
       binding handles begins.  This can be either the global or cell-
       relative name.  To use the entry name found in the
       RPC_DEFAULT_ENTRY logical name, supply NULL or a null string (\0)
       for this parameter.  When this entry name is used, the RPC runtime
       automatically uses the default name syntax specified in the
       RPC_DEFAULT_ENTRY_SYNTAX logical name.

   if_handle
       A stub-generated data structure specifying the interface to look
       up.  If the interface specification has not been exported or is
       of no concern to the caller, specify NULL for this parameter.
       In this case the bindings returned are only guaranteed to be of
       a compatible and supported protocol sequence and contain the
       specified object UUID.  The desired interface might not be
       supported by the contacted server.

   object_uuid
       Specifies an optional object UUID.

       If you specify NULL or a nil UUID for this parameter, the returned
       binding handles contain one of the object UUIDs exported by the
       compatible server.  If the server did not export any object UUIDs,
       the returned compatible binding handles contain a nil object UUID.

       For a non-nil UUID, compatible binding handles are returned from
       an entry only if the server has exported the specified object
       UUID.Each returned binding handle contains the specified non-nil
       object UUID.

   binding_max_count
       Sets the maximum number of bindings to return in the
       binding_vector parameter of rpc_ns_binding_lookup_next().
       Specify rpc_c_binding_max_count_default to use the default count.

   Output

   lookup_context
       Returns the name service handle for use with the
       rpc_ns_binding_lookup_next() and rpc_ns_binding_lookup_done()
       routines.

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if
       not, why not.  The possible status codes and their meanings
       are as follows:

       rpc_s_ok       Success.

       rpc_s_incomplete_name
                      Incomplete name.

       rpc_s_invalid_name_syntax
                      Invalid name syntax.

       rpc_s_invalid_object
                      Invalid object.

       rpc_s_no_env_setup
                      Environment variable not set up.

       rpc_s_unsupported_name_syntax
                      Unsupported name syntax.

 DESCRIPTION

   The rpc_ns_binding_lookup_begin() routine creates a lookup context for
   locating compatible server binding handles for servers.  These servers
   offer the specified interface and object UUID in the respective
   if_handle and object_uuid parameters.

   Before calling rpc_ns_binding_lookup_next(), the client application
   must first create a lookup context by calling
   rpc_ns_binding_lookup_begin().  The parameters to this routine
   control the operation of rpc_ns_binding_lookup_next().

   When finished locating binding handles, the client application calls
   the rpc_ns_binding_lookup_done() routine to delete the lookup context.

   Permissions Required

   No permissions are required.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_ns_binding_lookup_done
              rpc_ns_binding_lookup_next
              rpc_ns_mgmt_handle_set_exp_age

61  –  rpc_ns_binding_lookup_done

 NAME

   rpc_ns_binding_lookup_done - Deletes the lookup context for searching
                                the name service database

   Used by client applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_ns_binding_lookup_done( rpc_ns_handle_t *lookup_context,
                                    unsigned32 *status );

 PARAMETERS

   Input/Output

   lookup_context
       Specifies the name service handle to delete. (A name service
       handle is created by calling rpc_ns_binding_lookup_begin().)
       Returns the value NULL.

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if
       not, why not.  The possible status codes and their meanings
       are as follows:

       rpc_s_ok                         Success.

       rpc_s_invalid_ns_handle          Invalid name service handle.

 DESCRIPTION

   The rpc_ns_binding_lookup_done() routine deletes a lookup context
   created by calling rpc_ns_binding_lookup_begin().

   Typically, a client calls this routine after completing remote
   procedure calls to a server using a binding handle returned from
   rpc_ns_binding_lookup_next().  A client program calls this routine
   for each created lookup context, regardless of the status returned
   from rpc_ns_binding_lookup_next(), or success in making remote
   procedure calls.

   Permissions Required

   No permissions are required.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_ns_binding_lookup_begin
              rpc_ns_binding_lookup_next

62  –  rpc_ns_binding_lookup_next

 NAME

   rpc_ns_binding_lookup_next - Returns a list of binding handles of
                                one or more compatible servers (if
                                found) from the name service database

   Used by client applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_ns_binding_lookup_next( rpc_ns_handle_t lookup_context,
                                    rpc_binding_vector_t **binding_vec,
                                    unsigned32 *status );

 PARAMETERS

   Input

   lookup_context
        Specifies a name service handle. This handle is returned from the
        rpc_ns_binding_lookup_begin() routine.

   Output

   binding_vec
        Returns a vector of compatible server binding handles.

   status
        Returns the status code from this routine, which indicates
        whether the routine completed successfully or, if not, why not.
        The possible status codes and their meanings are as follows:

        rpc_s_ok       Success.

        rpc_s_class_version_mismatch
                       RPC class version mismatch.

        rpc_s_entry_not_found
                       Name service entry not found.

        rpc_s_invalid_ns_handle
                       Invalid name service handle.

        rpc_s_name_service_unavailable
                       Name service unavailable.

        rpc_s_no_more_bindings
                       No more bindings.

        rpc_s_no_ns_permission
                       No permission for name service operation.

        rpc_s_not_rpc_entry
                       Not an RPC entry.

 DESCRIPTION

   The rpc_ns_binding_lookup_next() routine returns a vector of
   compatible (to the client) server binding handles.  The servers offer
   the interface and object UUID specified by the respective if_handle
   and object_uuid parameters in rpc_ns_binding_lookup_begin().  The
   number of binding handles that rpc_ns_binding_lookup_next() attempts
   to return is the value of binding_max_count in the
   rpc_ns_binding_lookup_begin() routine.

   A similar routine is rpc_ns_binding_import_next(), which returns one
   compatible server binding handle.

   The rpc_ns_binding_lookup_next() routine communicates only with the
   name service database, not directly with servers.

   This routine traverses entries in the name service database, returning
   compatible server binding handles from each entry.  The routine can
   return multiple binding handles from each entry.  The search operation
   obeys the following rules for traversing the entries:

     +  At each entry visited, the search operation randomly processes
        binding information, then group members, then profile members.
        Profile members with different priorities are returned according
        to their priorities, highest priority first.

     +  The search operation returns members of a group in random order.

     +  The search operation returns members of a profile with the same
        priority in random order.

   If the entry where the search begins (see the entry_name parameter in
   rpc_ns_binding_lookup_begin()) contains binding handles as well as an
   RPC group and/or a profile, rpc_ns_binding_lookup_next() returns the
   binding handles from entry_name before searching the group or profile.
   This means that rpc_ns_binding_lookup_next() can return a partially
   full vector before processing the members of the group or profile.

   Each binding handle in the returned vector always contains an object
   UUID.  Its value depends on the value specified in the object_uuid
   parameter of rpc_ns_binding_lookup_begin() as follows:

     +  If object_uuid contains a non-nil object UUID, each returned
        binding handle contains that object UUID.

     +  If object_uuid contains a nil object UUID or NULL, the object
        UUID returned in each binding handle depends on how the server
        exported object UUIDS:

          - If the server did not export any object UUIDs, each returned
            binding handle contains a nil object UUID.

          - If the server exported one object UUID, each returned
            binding handle contains that object UUID.

          - If the server exported multiple object UUIDs, the returned
            binding handle contains one of the object UUIDs, selected
            in an unspecified way.

          Applications should not count on the binding handles returned
          from a given entry to contain different object UUIDs.  In
          particular, note that each name service entry stores server
          address information separately from exported object UUIDs.
          One or more calls to rpc_ns_binding_lookup_next() will return
          exactly one binding for each compatible server address, not
          the cross product of all compatible server addresses with all
          exported UUIDs.  Each returned binding will contain one of the
          exported object UUIDs, but applications should not count on
          any specific selection mechanism for these object UUIDs

   From the returned vector of server binding handles, the client
   application can employ its own criteria for selecting individual
   binding handles, or the application can call rpc_ns_binding_select()
   to select a binding handle.  The rpc_binding_to_string_binding() and
   rpc_string_binding_parse() routines are useful for a client creating
   its own selection criteria.

   The client application can use the selected binding handle to attempt
   a remote procedure call to the server. If the client fails to
   communicate with the server, it can select another binding handle
   from the vector.  When all the binding handles in the vector are used,
   the client application calls rpc_ns_binding_lookup_next() again.

   Each time the client calls rpc_ns_binding_lookup_next(), the routine
   returns another vector of binding handles.  The binding handles
   returned in each vector are unordered, as is the order in which the
   vectors are returned from multiple calls to this routine.

   When looking up compatible binding handles from a profile, the binding
   handles from entries of equal profile priority are unordered in the
   returned vector.  In addition, the vector returned from a call to
   rpc_ns_binding_lookup_next() contains only compatible binding handles
   from entries of equal profile priority. This means the returned vector
   may be partially full.

   For  example,  if  the  binding_max_count  parameter  value  in
   rpc_ns_binding_lookup_begin() was 5 and rpc_ns_binding_lookup_next()
   finds only three compatible binding handles from profile entries of
   priority 0 (zero), rpc_ns_binding_lookup_next() returns a partially
   full binding vector (with three binding handles).  The next call to
   rpc_ns_binding_lookup_next() creates a new binding vector and begins
   looking for compatible binding handles from profile entries of
   priority 1.

   When the search finishes, the routine returns a  status  code  of
   rpc_s_no_more_bindings and returns the value NULL in binding_vec.

   A client application calls rpc_ns_binding_inq_entry_name() to obtain
   the name of the entry in the name service database where the binding
   handle came from.

   The rpc_ns_binding_lookup_next() routine allocates memory for the
   returned binding_vec.  When a client application finishes with the
   vector, it must call rpc_binding_vector_free() to deallocate the
   memory.  Each call to rpc_ns_binding_lookup_next() requires a
   corresponding call to rpc_binding_vector_free().

   The client calls rpc_ns_binding_lookup_done(), which deletes the
   lookup context.  The client also calls rpc_ns_binding_lookup_done()
   if the application wants to start a new search for compatible
   servers (by calling rpc_ns_binding_lookup_begin()).  The order of
   binding handles returned can be different for each new search. This
   means that the order in which binding handles are returned to an
   application can be different each time the application is run.

   Permissions Required

   You need read permission to the specified CDS object entry (the
   starting name service entry) and to any CDS object entry in the
   resulting search path.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_binding_to_string_binding
              rpc_binding_vector_free
              rpc_ns_binding_import_next
              rpc_ns_binding_inq_entry_name
              rpc_ns_binding_lookup_begin
              rpc_ns_binding_lookup_done
              rpc_ns_binding_select
              rpc_string_binding_parse

63  –  rpc_ns_binding_select

 NAME

   rpc_ns_binding_select - Returns a binding handle from a list of
                           compatible server binding handles

   Used by client applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_ns_binding_select( rpc_binding_vector_t *binding_vec,
                               rpc_binding_handle_t *binding,
                               unsigned32 *status );

 PARAMETERS

   Input/Output

   binding_vec
       Specifies the vector of compatible server binding handles from
       which a binding handle is selected. The returned binding vector
       no longer references the selected binding handle (returned
       separately in the binding parameter).

   Output

   binding
       Returns a selected server binding handle.

   status
       Returns the status code from this routine, which indicates whether
       the routine completed successfully or, if not, why not.
       The possible status codes and their meanings are as follows:

       rpc_s_ok    Success.

       rpc_s_no_more_bindings
                   No more bindings.

 DESCRIPTION

   The rpc_ns_binding_select() routine randomly chooses and returns a
   server binding handle from a vector of server binding handles.

   Each time the client calls rpc_ns_binding_select(), the routine
   returns another binding handle from the vector.

   When all of the binding handles are returned from the vector, the
   routine returns a status code of rpc_s_no_more_bindings and
   returns the value NULL in binding.

   The select operation allocates storage for the data referenced by the
   returned binding parameter.  When a client finishes with the binding
   handle, it calls rpc_binding_free() to deallocate the storage.  Each
   call to the rpc_ns_binding_select() routine requires a corresponding
   call to rpc_binding_free().

   Instead of using this routine, client applications can select a
   binding handle according to their specific needs.  In this case the
   rpc_binding_to_string_binding() and rpc_string_binding_parse()
   routines are useful to the applications since the routines work
   together to extract the individual fields of a binding handle for
   examination.

   Permissions Required

   No permissions are required.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_binding_free
              rpc_binding_to_string_binding
              rpc_ns_binding_lookup_next
              rpc_string_binding_parse

64  –  rpc_ns_binding_unexport

 NAME

   rpc_ns_binding_unexport - Removes the binding handles for an
                             interface, or object UUIDs, from  an
                             entry in the name service database

   Used by server applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_ns_binding_unexport( unsigned32 entry_name_syntax,
                                 unsigned_char_t *entry_name,
                                 rpc_if_handle_t if_handle,
                                 uuid_vector_t *object_uuid_vec,
                                 unsigned32 *status );

 PARAMETERS

   Input

   entry_name_syntax
       An integer value that specifies the syntax of the entry_name
       parameter.  To use the syntax specified in the
       RPC_DEFAULT_ENTRY_SYNTAX logical name, provide the value
       rpc_c_ns_syntax_default.

   entry_name
       Specifies an entry name whose binding handles or object UUIDs are
       removed.  This can be either the global or cell-relative name.

   if_handle
       Specifies an interface specification for the binding handles to be
       removed from the name service database.  The value NULL indicates
       that no binding handles are removed (only object UUIDs are
       removed).

   object_uuid_vec
       Specifies a vector of object UUIDs to be removed from the name
       service database. The application constructs this vector.  The
       value NULL indicates that no object UUIDs are removed (only
       binding handles are removed).

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if
       not, why not.  The possible status codes and their meanings
       are as follows:

       rpc_s_ok       Success.

       rpc_s_class_version_mismatch
                      RPC class version mismatch.

       rpc_s_entry_not_found
                      Name service entry not found.

       rpc_s_incomplete_name
                      Incomplete name.

       rpc_s_interface_not_found
                      Interface not found.

       rpc_s_invalid_name_syntax
                      Invalid name syntax.

       rpc_s_invalid_vers_option
                      Invalid version option.

       rpc_s_name_service_unavailable
                      Name service unavailable.

       rpc_s_no_ns_permission
                      No permission for name service operation.

       rpc_s_not_all_objs_unexported
                      Not all objects unexported.

       rpc_s_nothing_to_unexport
                      Nothing to unexport.

       rpc_s_not_rpc_entry
                      Not an RPC entry.

       rpc_s_unsupported_name_syntax
                      Unsupported name syntax.

 DESCRIPTION

   The rpc_ns_binding_unexport() routine allows a server application to
   unexport (that is, remove) one of the following from an entry in the
   name service database:

     +  All the binding handles for an interface.

     +  One or more object UUIDs for a resource or resources.

     +  Both binding handles and object UUIDs.

   The rpc_ns_binding_unexport() routine removes only those binding
   handles that match the interface UUID and the major and minor
   interface version numbers found in the if_handle parameter.  To
   remove multiple versions of an interface, use
   rpc_ns_mgmt_binding_unexport().

   A server application can remove an interface and objects in a single
   call to this routine, or it can remove them separately.

   If rpc_ns_binding_unexport() does not find any binding handles for
   the specified interface, it returns an rpc_s_interface_not_found
   status code and does not remove the object UUIDs, if any are
   specified.

   If one or more binding handles for the specified interface are found
   and removed without error, rpc_ns_binding_unexport() removes the
   specified object UUIDs, if any.

   If any of the specified object UUIDs are not found,
   rpc_ns_binding_unexport() returns the status code
   rpc_s_not_all_objs_unexported.

   A server application, in addition to calling this routine, also calls
   rpc_ep_unregister()  to unregister any endpoints that the server
   previously registered with the local endpoint map.

   Use this routine with caution, only when you expect a server to be
   unavailable for an extended time; for example, when it is permanently
   removed from service.

   Additionally, keep in mind that name service databases are designed to
   be relatively stable.  In replicated name service databases, frequent
   use of rpc_ns_binding_export() and rpc_ns_binding_unexport() causes
   the name  service to remove and replace the same entry repeatedly, and
   can cause performance problems.

   Permissions Required

   You need both read permission and write permission to the CDS object
   entry (the target name service entry).

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_ep_unregister
              rpc_ns_binding_export
              rpc_ns_mgmt_binding_unexport

65  –  rpc_ns_entry_expand_name

 NAME

   rpc_ns_entry_expand_name - Expands the name of a name service entry

   Used by client, server, or management applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_ns_entry_expand_name(  unsigned32 entry_name_syntax,
                                   unsigned_char_t *entry_name,
                                   unsigned_char_t **expanded_name,
                                   unsigned32 *status );

 PARAMETERS

   Input

   entry_name_syntax
       An integer value that specifies the syntax of the entry_name
       parameter.  To use the syntax specified in the
       RPC_DEFAULT_ENTRY_SYNTAX logical name, provide a value of
       rpc_c_ns_syntax_default.

   entry_name
       Specifies the entry name to expand.  This can be either the global
       or cell-relative name.

   Output

   expanded_name
       Returns a pointer to the expanded version of entry_name.  Do not
       specify NULL since the routine always returns a name string.

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if not,
       why not.  The possible status codes and their meanings are as
       follows:

       rpc_s_ok                     Success.

       rpc_s_incomplete_name        Incomplete name.

 DESCRIPTION

   An application calls rpc_ns_entry_expand_name() to obtain a fully
   expanded entry name.

   The RPC runtime allocates memory for the returned expanded_name
   parameter.  The application is responsible for calling
   rpc_string_free() for that returned parameter string.

   The returned and expanded entry name accounts for local name
   translations and differences in locally defined naming schemas.
   For example, suppose the entry in the name service is

        /.:/subsys/PrintQ/server1

   Upon return from rpc_ns_entry_expand_name(),the expanded name could be

        /.../abc.com/subsys/PrintQ/server1

   For more information about local names and their expansions, see the
   information on the DCE Directory Service in the OSF DCE Administration
   Guide.

   Permissions Required

   No permissions are required.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_string_free

   Books: OSF DCE Administration Guide.

66  –  rpc_ns_entry_object_inq_begin

 NAME

   rpc_ns_entry_object_inq_begin - Creates an inquiry context for viewing
                                   the objects of an entry in the name
                                   service database

   Used by client, server, or management applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_ns_entry_object_inq_begin( unsigned32 entry_name_syntax,
                                       unsigned_char_t *entry_name,
                                       rpc_ns_handle_t *inquiry_context,
                                       unsigned32 *status );

 PARAMETERS

   Input

   entry_name_syntax
       An integer value that specifies the syntax of the entry_name
       parameter.  To use the syntax specified in the
       RPC_DEFAULT_ENTRY_SYNTAX logical name, provide a value of
       rpc_c_ns_syntax_default.

   entry_name
       Specifies the entry in the name service database for which object
       UUIDs are viewed.  This can be either the global or cell-relative
       name.

   Output

   inquiry_context
       Returns a name service handle for use with the
       rpc_ns_entry_object_inq_next() routine, and with the
       rpc_ns_entry_object_inq_done() routine.

   status
       Returns the status code from this routine, indicating whether the
       routine completed successfully or, if not, why not.
       The possible status codes and their meanings are as follows:

       rpc_s_ok       Success.

       rpc_s_incomplete_name
                      Incomplete name.

       rpc_s_invalid_name_syntax
                      Invalid name syntax.

       rpc_s_unsupported_name_syntax
                      Unsupported name syntax.

 DESCRIPTION

   The rpc_ns_entry_object_inq_begin() routine creates an inquiry context
   for viewing the object UUIDs exported to entry_name.

   Before calling rpc_ns_entry_object_inq_next(), the application must
   first call this routine to create an inquiry context.

   When finished viewing the object UUIDs, the application calls the
   rpc_ns_entry_object_inq_done() routine to delete the inquiry context.

   Permissions Required

   No permissions are required.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_ns_binding_export
              rpc_ns_entry_object_inq_done
              rpc_ns_entry_object_inq_next
              rpc_ns_mgmt_handle_set_exp_age

67  –  rpc_ns_entry_object_inq_done

 NAME

   rpc_ns_entry_object_inq_done - Deletes the inquiry context for viewing
                                  the objects of an entry in the name
                                  service database

   Used by client, server, or management applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_ns_entry_object_inq_done( rpc_ns_handle_t *inquiry_context,
                                      unsigned32 *status );

 PARAMETERS

   Input/Output

   inquiry_context
       Specifies the name service handle to delete.  (A name service
       handle is created by calling rpc_ns_entry_object_inq_begin().)
       Returns the value NULL.

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if not,
       why not.  The possible status codes and their meanings are as
       follows:

       rpc_s_ok    Success.

       rpc_s_invalid_ns_handle
                   Invalid name service handle.

 DESCRIPTION

   The rpc_ns_entry_object_inq_done() routine deletes an inquiry context
   created by calling rpc_ns_entry_object_inq_begin().

   An application calls this routine after viewing exported object UUIDs
   using the rpc_ns_entry_object_inq_next() routine.

   Permissions Required

   No permissions are required.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_ns_entry_object_inq_begin
              rpc_ns_entry_object_inq_next

68  –  rpc_ns_entry_object_inq_next

 NAME

   rpc_ns_entry_object_inq_next - Returns one object at a time from an
                                  entry in the name service database

   Used by client, server, or management applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_ns_entry_object_inq_next( rpc_ns_handle_t inquiry_context,
                                      uuid_t *obj_uuid,
                                      unsigned32 *status );

 PARAMETERS

   Input

   inquiry_context
       Specifies a name service handle.  This handle is returned from the
       rpc_ns_entry_object_inq_begin() routine.

   Output

   obj_uuid
       Returns an exported object UUID.

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if not,
       why not.  The possible status codes and their meanings are as
       follows:

       rpc_s_ok       Success.

       rpc_s_class_version_mismatch
                      RPC class version mismatch.

       rpc_s_entry_not_found
                      Name service entry not found.

       rpc_s_incomplete_name
                      Incomplete name.

       rpc_s_invalid_ns_handle
                      Invalid name service handle.

       rpc_s_name_service_unavailable
                      Name service unavailable.

       rpc_s_no_more_members
                      No more members.

       rpc_s_no_ns_permission
                      No permission for name service operation.

       rpc_s_not_rpc_entry
                      Not an RPC entry.

 DESCRIPTION

   The rpc_ns_entry_object_inq_next() routine returns one of the object
   UUIDs exported to an entry in the name service database.  The
   entry_name parameter in the rpc_ns_entry_object_inq_begin() routine
   specified the entry.

   An application can view all of the exported object UUIDs by repeatedly
   calling the rpc_ns_entry_object_inq_next() routine. When all the
   object UUIDs are viewed, this routine returns an rpc_s_no_more_members
   status. The returned object UUIDs are unordered.

   The application supplies the memory for the object UUID returned in
   the obj_uuid parameter.

   After viewing the object UUIDs, the application must call the
   rpc_ns_entry_object_inq_done() routine to delete the inquiry context.

   The order in which rpc_ns_entry_object_inq_next() returns object UUIDs
   can be different for each viewing of an entry.  Therefore, the order
   in which an application receives object UUIDs can be different each
   time the application is run.

   Permissions Required

   You need read permission to the CDS object entry (the target name
   service entry).

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_ns_binding_export
              rpc_ns_entry_object_inq_begin
              rpc_ns_entry_object_inq_done

69  –  rpc_ns_group_delete

 NAME

   rpc_ns_group_delete - Deletes a group attribute

   Used by client, server, or management applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_ns_group_delete( unsigned32 group_name_syntax,
                             unsigned_char_t *group_name,
                             unsigned32 *status );

 PARAMETERS

   Input

   group_name_syntax
       An integer value that specifies the syntax of the group_name
       parameter.  To use the syntax specified in the
       RPC_DEFAULT_ENTRY_SYNTAX logical name, provide the integer value
       rpc_c_ns_syntax_default.

   group_name
       Specifies the RPC group to delete.  This can be either the global
       or cell-relative name.

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if not,
       why not.  The possible status codes and their meanings are as
       follows:

       rpc_s_ok       Success.

       rpc_s_entry_not_found
                      Name service entry not found.

       rpc_s_incomplete_name
                      Incomplete name.

       rpc_s_invalid_name_syntax
                      Invalid name syntax.

       rpc_s_name_service_unavailable
                      Name service unavailable.

       rpc_s_no_ns_permission
                      No permission for name service operation.

       rpc_s_unsupported_name_syntax
                      Unsupported name syntax.

 DESCRIPTION

   The rpc_ns_group_delete() routine deletes the group attribute from the
   specified entry in the name service database.

   Neither the specified entry nor the entries represented by the group
   members are deleted.

   Permissions Required

   You need write permission to the CDS object entry (the target group
   entry).

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_ns_group_member_add
              rpc_ns_group_member_delete

70  –  rpc_ns_group_mbr_add

 NAME

   rpc_ns_group_mbr_add - Adds an entry name to a group; if necessary,
                          creates the entry

   Used by client, server, or management applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_ns_group_mbr_add( unsigned32 group_name_syntax,
                              unsigned_char_t *group_name,
                              unsigned32 member_name_syntax,
                              unsigned_char_t *member_name,
                              unsigned32 *status );

 PARAMETERS

   Input

   group_name_syntax
       An integer value that specifies the syntax of the group_name
       parameter.  To use the syntax specified in the
       RPC_DEFAULT_ENTRY_SYNTAX logical name, provide
       rpc_c_ns_syntax_default.

   group_name
       Specifies the RPC group that receives a new member.  This can be
       either the global or cell-relative name.

   member_name_syntax
       An integer value that specifies the syntax of member_name.
       To use the syntax specified in the RPC_DEFAULT_ENTRY_SYNTAX
       logical name, provide rpc_c_ns_syntax_default.

   member_name
       Name of the new RPC group member.  This can be either the global
       or cell-relative name.

   Output

   status
       Returns the status code from this routine, indicating whether
       the routine completed successfully or, if not, why not.
       The possible status codes and their meanings are as follows:

       rpc_s_ok       Success.

       rpc_s_class_version_mismatch
                      RPC class version mismatch.

       rpc_s_incomplete_name
                      Incomplete name.

       rpc_s_invalid_name_syntax
                      Invalid name syntax.

       rpc_s_name_service_unavailable
                      Name service unavailable.

       rpc_s_no_ns_permission
                      No permission for name service operation.

       rpc_s_unsupported_name_syntax
                      Unsupported name syntax.

 DESCRIPTION

   The rpc_ns_group_mbr_add() routine adds, to the name service database,
   an entry name as a member to the Name Service Interface (NSI) group
   attribute of an entry.  The group_name parameter specifies the entry.

   If the specified group_name entry does not exist, this routine creates
   the entry with a group attribute and adds the group member specified
   by the member_name parameter. In this case, the application must have
   permission to create the entry. Otherwise, a management application
   with the necessary permissions creates the entry by calling
   rpc_ns_mgmt_entry_create() before the application is run.

   An application can add the entry in member_name to a group before it
   creates the entry itself.

   Permissions Required

   You need both read permission and write permission to the CDS object
   entry (the target group entry).  If the entry does not exist, you
   also need insert permission to the parent directory.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_ns_group_mbr_remove
              rpc_ns_mgmt_entry_create

71  –  rpc_ns_group_mbr_inq_begin

 NAME

   rpc_ns_group_mbr_inq_begin - Creates an inquiry context for viewing
                                group members

   Used by client, server, or management applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_ns_group_mbr_inq_begin( unsigned32 group_name_syntax,
                                    unsigned_char_t *group_name,
                                    unsigned32 member_name_syntax,
                                    rpc_ns_handle_t *inquiry_context,
                                    unsigned32 *status );

 PARAMETERS

   Input

   group_name_syntax
       An integer value that specifies the syntax of the group_name
       parameter.  To use the syntax specified in the
       RPC_DEFAULT_ENTRY_SYNTAX logical name, provide
       rpc_c_ns_syntax_default.

   group_name
       Specifies the name of the RPC group to view.

   member_name_syntax
       An integer value that specifies the syntax of member_name in the
       rpc_ns_group_mbr_inq_next() routine.
       To use the syntax specified in the RPC_DEFAULT_ENTRY_SYNTAX
       logical name, provide rpc_c_ns_syntax_default.

   Output

   inquiry_context
       Returns a name service handle for use with the
       rpc_ns_group_mbr_inq_next() and rpc_ns_group_mbr_inq_done()
       routines.

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if not,
       why not.  The possible status codes and their meanings are as
       follows:

       rpc_s_ok       Success.

       rpc_s_incomplete_name
                      Incomplete name.

       rpc_s_invalid_name_syntax
                      Invalid name syntax.

       rpc_s_unsupported_name_syntax
                      Unsupported name syntax.

 DESCRIPTION

   The rpc_ns_group_mbr_inq_begin() routine creates an inquiry context
   for viewing the members of an RPC group.

   Before calling rpc_ns_group_mbr_inq_next(), the application must first
   call this routine to create an inquiry context.

   When finished viewing the RPC group members, the application calls
   the rpc_ns_group_mbr_inq_done() routine to delete the inquiry context.

   Permissions Required

   No permissions are required.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_ns_group_mbr_add
              rpc_ns_group_mbr_inq_done
              rpc_ns_group_mbr_inq_next
              rpc_ns_mgmt_handle_set_exp_age

72  –  rpc_ns_group_mbr_inq_done

 NAME

   rpc_ns_group_mbr_inq_done - Deletes the inquiry context for a group

   Used by client, server, or management applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_ns_group_mbr_inq_done( rpc_ns_handle_t *inquiry_context,
                                   unsigned32 *status );

 PARAMETERS

   Input/Output

   inquiry_context
       Specifies the name service handle to delete.  (A name service
       handle is created by calling rpc_ns_group_mbr_inq_begin().)
       Returns the value NULL.

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if not,
       why not.  The possible status codes and their meanings are as
       follows:

       rpc_s_ok                        Success.

       rpc_s_invalid_ns_handle         Invalid name service handle.

 DESCRIPTION

   The rpc_ns_group_mbr_inq_done() routine deletes an inquiry context
   created by calling rpc_ns_group_mbr_inq_begin().

   An application calls this routine after viewing RPC group members
   using the rpc_ns_group_mbr_inq_next() routine.

   Permissions Required

   No permissions are required.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_ns_group_mbr_inq_begin
              rpc_ns_group_mbr_inq_next

73  –  rpc_ns_group_mbr_inq_next

 NAME

   rpc_ns_group_mbr_inq_next - Returns one member name at a time from
                               a group

   Used by client, server, or management applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_ns_group_mbr_inq_next( rpc_ns_handle_t inquiry_context,
                                   unsigned_char_t **member_name,
                                   unsigned32 *status );

 PARAMETERS

   Input

   inquiry_context
       Specifies a name service handle.  This handle is returned from the
       rpc_ns_group_mbr_inq_begin() routine.

   Output

   member_name
       Returns a pointer to a (global) RPC group member name.
       The syntax of the returned name is specified by the
       member_name_syntax parameter in rpc_ns_group_mbr_inq_begin().
       Specify NULL to prevent the routine from returning this parameter.
       In this case, the application does not call rpc_string_free().

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if not,
       why not.  The possible status codes and their meanings are as
       follows:

       rpc_s_ok       Success.

       rpc_s_class_version_mismatch
                      RPC class version mismatch.

       rpc_s_entry_not_found
                      Name service entry not found.

       rpc_s_invalid_ns_handle
                      Invalid name service handle.

       rpc_s_name_service_unavailable
                      Name service unavailable.

       rpc_s_no_more_members
                      No more members.

       rpc_s_no_ns_permission
                      No permission for name service operation.

       rpc_s_not_rpc_entry
                      Not an RPC entry.

 DESCRIPTION

   The rpc_ns_group_mbr_inq_next() routine returns one member of
   the RPC group specified by the group_name parameter in the
   rpc_ns_group_mbr_inq_begin() routine.

   An application can view all the members of an RPC group by calling the
   rpc_ns_group_mbr_inq_next() routine repeatedly.  When all the group
   members have been viewed, this routine returns an
   rpc_s_no_more_members status. The returned group members are
   unordered.

   On each call to this routine that returns a member name (as a global
   name), the RPC runtime allocates memory for the returned member_name.
   The application calls rpc_string_free() for each returned member_name
   string.

   After viewing the RPC group's members, the application must call the
   rpc_ns_group_mbr_inq_done() routine to delete the inquiry context.

   Permissions Required

   You need read permission to the CDS object entry (the target group
   entry).

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_ns_group_mbr_inq_begin
              rpc_ns_group_mbr_inq_done
              rpc_string_free

74  –  rpc_ns_group_mbr_remove

 NAME

   rpc_ns_group_mbr_remove - Removes an entry name from a group

   Used by client, server, or management applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_ns_group_mbr_remove( unsigned32 group_name_syntax,
                                 unsigned_char_t *group_name,
                                 unsigned32 member_name_syntax,
                                 unsigned_char_t *member_name,
                                 unsigned32 *status );

 PARAMETERS

   Input

   group_name_syntax
       An integer value that specifies the syntax of the group_name
       parameter.  To use the syntax specified in the
       RPC_DEFAULT_ENTRY_SYNTAX logical name, provide
       rpc_c_ns_syntax_default.

   group_name
       Specifies the RPC group from which to remove member_name.  This
       can be either the global or cell-relative name.

   member_name_syntax
       An integer value that specifies the syntax of member_name.
       To use the syntax specified in the RPC_DEFAULT_ENTRY_SYNTAX
       logical name, provide rpc_c_ns_syntax_default.

   member_name
       Specifies the member to remove from the Name Service Interface
       (NSI) group attribute in the group_name entry.  This member can
       be either the global or cell-relative name.

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if not,
       why not.  The possible status codes and their meanings are as
       follows:

       rpc_s_ok       Success.

       rpc_s_entry_not_found
                      Name service entry not found.

       rpc_s_group_member_not_found
                      Group member not found.

       rpc_s_incomplete_name
                      Incomplete name.

       rpc_s_invalid_name_syntax
                      Invalid name syntax.

       rpc_s_name_service_unavailable
                      Name service unavailable.

       rpc_s_no_ns_permission
                      No permission for name service operation.

       rpc_s_unsupported_name_syntax
                      Unsupported name syntax.

 DESCRIPTION

   The rpc_ns_group_mbr_remove() routine removes a member from the NSI
   group attribute in the group_name entry.

   Permissions Required

   You need both read permission and write permission to the CDS object
   entry (the target group entry).

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_ns_group_mbr_add

75  –  rpc_ns_import_ctx_add_eval

 NAME

   rpc_ns_import_ctx_add_eval - Adds an evaluation routine to an import
                                context

   Used by client applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_ns_import_ctx_add_eval( rpc_ns_handle_t *import_context,
                                    unsigned32 function_type,
                                    rpc_ns_handle_t *eval_args,
                                    void *eval_func,
                                    void *free_func,
                                    error_status_t *status );

 PARAMETERS

   Input

   import_context
       The name service handle obtained from the
       rpc_ns_binding_import_begin() routine.

   func_type
       The type of evaluation function. This value currently must be
       rpc_cs_code_eval_func.

   eval_args
       An opaque data type that data used by the evaluation routine.
       Client applications adding a DCE RPC code sets evaluation routine
       (rpc_cs_eval_with_universal() or rpc_cs_eval_without_universal())
       specify the server's NSI entry name in this parameter.

   eval_func
       A function pointer to the evaluation routine to be called from
       the rpc_ns_binding_import_next() routine.  The void declaration
       for eval_func means that the function does not return a value.
       Client applications adding a DCE RPC code sets evaluation routine
       (rpc_cs_eval_with_universal() or rpc_cs_eval_without_universal())
       specify the routine name in this parameter.

   free_func
       A function pointer to a routine that is invoked from
       rpc_ns_binding_import_done() and which performs application-
       specific cleanup. Client applications adding a DCE RPC code sets
       evaluation routine (rpc_cs_eval_with_universal() or
       rpc_cs_eval_without_universal()) specify NULL in this parameter.

   Output

   import_context
       Returns the name service handle which contains the
       rpc_ns_binding_import_next() and rpc_ns_binding_import_done()
       routines.

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if not,
       why not.

       rpc_s_ok       Success.

       rpc_s_no_memory
                      The RPC runtime could not allocate heap storage.

       rpc_s_invalid_ns_handle
                      The import_context parameter was not valid.

 DESCRIPTION

   The rpc_ns_import_ctx_add_eval() routine adds an evaluation routine to
   an import context created by the rpc_ns_binding_import_begin()
   routine. The evaluation routine adds additional criteria to that used
   by rpc_ns_binding_import_next() (that is, protocol and interface
   information) for importing compatible server binding handles.  Client
   applications call the rpc_ns_import_ctx_add_eval() routine once for
   each evaluation routine to be added to an import context (if there are
   multiple evaluation routines to be set up.)

   If the user-specified evaluation routine needs to perform special
   cleanup functions, such as deleting a temporary file from a disk,
   use the free_func parameter to specify the cleanup routine to be
   called from rpc_ns_binding_import_done().

   For DCE 1.1, client applications that transfer international character
   data in a heterogeneous character set and code set environment use the
   rpc_ns_import_ctx_add_eval() routine to add one or more code sets
   evaluation routines to the import context returned by the
   rpc_ns_binding_import_begin() routine.  When the client application
   calls the rpc_ns_binding_import_next() routine to import compatible
   binding handles for servers, this routine calls the code sets
   evaluation routine, which applies client-server character set and
   code sets compatibility checking as another criteria for compatible
   binding selection.

   The code sets compatibility evaluation routine specified can be one
   of the following:

   rpc_cs_eval_with_universal
       A DCE RPC code sets evaluation routine that evaluates character
       set and code sets compatibility between client and server. If
       client and server character sets are compatible, but their
       supported code sets are not, the routine sets code set tags that
       direct the client and/or server stubs to convert character data
       to either user-defined intermediate code sets (if they exist) or
       the DCE intermediate code set, which is the ISO 10646
       (or "universal") code set.

   rpc_cs_eval_without_universal
       A DCE RPC code sets evaluation routine that evaluates
       character set and code sets compatibility between client and
       server.  If client and server character sets are compatible,
       but their supported code sets are not, the routine attempts to
       return the message rpc_s_no_compat_codesets to the
       rpc_ns_binding_import_next() routine.

   application-supplied-routine
       A user-written code sets evaluation routine. Application
       developers writing internationalized DCE applications can develop
       their own code sets evaluation routines for client-server code
       sets evaluation if the DCE-supplied routines do not meet their
       application's needs.

   Restrictions

   Client applications that add evaluation routines to server binding
   import context cannot use the automatic binding method to bind to a
   server.

   Permissions Required

   No permissions are required.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_cs_eval_with_universal
              rpc_cs_eval_without_universal
              rpc_ns_binding_import_begin
              rpc_ns_binding_import_done
              rpc_ns_binding_import_next
              rpc_ns_mgmt_handle_set_exp_age

76  –  rpc_ns_mgmt_binding_unexport

 NAME

   rpc_ns_mgmt_binding_unexport - Removes multiple binding handles, or
                                  object UUIDs, from an entry in the
                                  name service database

   Used by management applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_ns_mgmt_binding_unexport( unsigned32 entry_name_syntax,
                                      unsigned_char_t *entry_name,
                                      rpc_if_id_t *if_id,
                                      unsigned32 vers_option,
                                      uuid_vector_t *object_uuid_vec,
                                      unsigned32 *status );

 PARAMETERS

   Input

   entry_name_syntax
       An integer value that specifies the syntax of the
       entry_name parameter.  To use the syntax specified
       in the RPC_DEFAULT_ENTRY_SYNTAX logical name, provide
       rpc_c_ns_syntax_default.

   entry_name
       Specifies an entry name whose binding handles or object UUIDs are
       removed.  This can be either the global or cell-relative name.

   if_id
       Specifies an interface identifier for the binding handles to be
       removed from the name service database.  The value NULL indicates
       that no binding handles are removed (only object UUIDs are
       removed).

   vers_option
       Specifies how the rpc_ns_mgmt_binding_unexport() routine uses the
       vers_major and the vers_minor fields of the if_id parameter.

   The following table presents the accepted values for this parameter:

           Uses of vers_major and vers_minor fields of if_id
 _____________________________________________________________________
 Value                                Description
 _____________________________________________________________________
 rpc_c_vers_all                       Unexports (removes) all bindings
                                      for the interface UUID in if_id,
                                      regardless of the version
                                      numbers.  For this value,
                                      specify 0 (zero) for both the
                                      major and minor versions in if_id.

 rpc_c_vers_compatible                Removes those bindings for the
                                      interface UUID in if_id with the
                                      same major version as in if_id,
                                      and with a minor version greater
                                      than or equal to the minor ver-
                                      sion in if_id.

 rpc_c_vers_exact                     Removes those bindings for the
                                      interface UUID in if_id with the
                                      same major and minor versions as
                                      in if_id.

 rpc_c_vers_major_only                Removes those bindings for the
                                      interface UUID in if_id with the
                                      same major version as in if_id
                                      (ignores the minor version).
                                      For this value, specify 0 (zero)
                                      for the minor version in if_id.

 rpc_c_vers_upto                      Removes those bindings that
                                      offer a version of the specified
                                      interface UUID less than or
                                      equal to the specified major and
                                      minor version. (For example, if
                                      if_id contains V2.0 and the name
                                      service entry contains binding
                                      handles with the versions V1.3,
                                      V2.0, and V2.1, the rpc_ns_mgmt-
                                      _binding_unexport() routine
                                      removes the binding handles with
                                      V1.3 and V2.0.)

   object_uuid_vec
       Specifies a vector of object UUIDs to be removed from the name
       service database.  The application constructs this vector.  The
       value NULL indicates that no object UUIDs are removed (only
       binding handles are removed).

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if not,
       why not.  The possible status codes and their meanings are as
       follows:

       rpc_s_ok       Success.

       rpc_s_entry_not_found
                      Name service entry not found.

       rpc_s_incomplete_name
                      Incomplete name.

       rpc_s_interface_not_found
                      Interface not found.

       rpc_s_invalid_name_syntax
                      Invalid name syntax.

       rpc_s_invalid_vers_option
                      Invalid version option.

       rpc_s_name_service_unavailable
                      Name service unavailable.

       rpc_s_no_ns_permission
                      No permission for name service operation.

       rpc_s_not_all_objs_unexported
                      Not all objects unexported.

       rpc_s_nothing_to_unexport
                      Nothing to unexport.

       rpc_s_not_rpc_entry
                      Not an RPC entry.

       rpc_s_unsupported_name_syntax
                      Unsupported name syntax.

 DESCRIPTION

   The rpc_ns_mgmt_binding_unexport() routine allows a management
   application to unexport (that is, remove) one of the following from
   an entry in the name service database:

     +  All the binding handles for a specified interface UUID, qualified
        by the interface version numbers (major and minor).

     +  One or more object UUIDs of resources.

     +  Both binding handles and object UUIDs of resources.

   A management application can remove an interface and objects in a
   single call to this routine, or it can remove them separately.

   If the rpc_ns_mgmt_binding_unexport() routine does not find any
   binding handles for the specified interface, the routine returns
   an rpc_s_interface_not_found status and does not remove the object
   UUIDs, if any are specified.

   If one or more binding handles for the specified interface are found
   and removed without error, rpc_ns_mgmt_binding_unexport() removes the
   specified object UUIDs, if any.

   If  any  of  the   specified   object   UUIDs   are   not   found,
   rpc_ns_mgmt_binding_unexport() returns the rpc_not_all_objs_unexported
   status code.

   A management application, in addition to calling this routine, also
   calls the rpc_mgmt_ep_unregister() routine to remove any servers that
   have registered with the local endpoint map.

   Use this routine with caution, only when you expect a server to be
   unavailable for an extended time; for example, when it is permanently
   removed from service.

   Additionally, keep in mind that name service databases are designed to
   be relatively stable.  In replicated name service databases, frequent
   use of the rpc_ns_binding_export() and rpc_ns_mgmt_binding_unexport()
   routines causes the name service to remove and replace the same entry
   repeatedly, and can cause performance problems.

   Permissions Required

   You need both read permission and write permission to the CDS object
   entry (the target name service entry).

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_mgmt_ep_unregister
              rpc_ns_binding_export
              rpc_ns_binding_unexport

77  –  rpc_ns_mgmt_entry_create

 NAME

   rpc_ns_mgmt_entry_create - Creates an entry in the name service
                              database

   Used by management applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_ns_mgmt_entry_create( unsigned32 entry_name_syntax,
                                  unsigned_char_t *entry_name,
                                  unsigned32 *status );

 PARAMETERS

   Input

   entry_name_syntax
       An integer value that specifies the syntax of the entry_name
       parameter.  To use the syntax specified in the
       RPC_DEFAULT_ENTRY_SYNTAX logical name, provide
       rpc_c_ns_syntax_default.

   entry_name
       Specifies the name of the entry to create.  This can be either
       the global or cell-relative name.

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if not,
       why not.  The possible status codes and their meanings are as
       follows:

       rpc_s_ok       Success.

       rpc_s_entry_already_exists
                      Name service entry already exists.

       rpc_s_incomplete_name
                      Incomplete name.

       rpc_s_invalid_name_syntax
                      Invalid name syntax.

       rpc_s_name_service_unavailable
                      Name service unavailable.

       rpc_s_no_ns_permission
                      No permission for name service operation.

       rpc_s_unsupported_name_syntax
                      Unsupported name syntax.

 DESCRIPTION

   The rpc_ns_mgmt_entry_create() routine creates an entry in the name
   service database.

   A management application can call rpc_ns_mgmt_entry_create() to create
   an entry in the name service database for use by another application
   that does not itself have the necessary name service permissions to
   create an entry.

   Permissions Required

   You need both read permission and write permission to the CDS object
   entry (the target name service entry).  You also need insert
   permission to the parent directory.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_ns_mgmt_entry_delete

78  –  rpc_ns_mgmt_entry_delete

 NAME

   rpc_ns_mgmt_entry_delete - Deletes an entry from the name service
                              database

   Used by management applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_ns_mgmt_entry_delete( unsigned32 entry_name_syntax,
                                  unsigned_char_t *entry_name,
                                  unsigned32 *status );

 PARAMETERS

   Input

   entry_name_syntax
       An integer value that specifies the syntax of the entry_name
       parameter.  To use the syntax specified in the
       RPC_DEFAULT_ENTRY_SYNTAX logical name, provide
       rpc_c_ns_syntax_default.

   entry_name
       Specifies the name of the entry to delete.  This can be either the
       global or cell-relative name.

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if not,
       why not.  The possible status codes and their meanings are as
       follows:

       rpc_s_ok       Success.

       rpc_s_entry_not_found
                      Name service entry not found.

       rpc_s_incomplete_name
                      Incomplete name.

       rpc_s_invalid_name_syntax
                      Invalid name syntax.

       rpc_s_name_service_unavailable
                      Name service unavailable.

       rpc_s_no_ns_permission
                      No permission for name service operation.

       rpc_s_not_rpc_entry
                      Not an RPC entry.

       rpc_s_unsupported_name_syntax
                      Unsupported name syntax.

 DESCRIPTION

   The rpc_ns_mgmt_entry_delete() routine removes an RPC entry from the
   name service database.

   Management applications use this routine only when an entry is no
   longer needed, such as when a server is permanently removed from
   service.  If the entry is a member of a group or profile, it must
   also be deleted from the group or profile.

   Use this routine cautiously.  Since name service databases are
   designed to be relatively stable, the frequent use of
   rpc_ns_mgmt_entry_delete() can result in the following difficulties:

     +  Performance problems
        Creating and deleting entries in client or server applications
        causes the name service to remove and replace the same entry
        repeatedly in the name service database, which can lead to
        performance problems.

     +  Lost entry updates
        When multiple applications access a single entry through
        different replicas of a name service database, updates to the
        entry can be lost.  In this situation, if one application
        deletes the entry and another application updates the entry
        before the replicas are synchronized, the delete operation
        takes precedence over the update operation.  When the replicas
        are synchronized, the update is lost because the entry is
        deleted from all replicas.

   Permissions Required

   You need read permission to the CDS object entry (the target  name
   service entry).  You also need delete permission to the CDS object
   entry or to the parent directory.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_ns_mgmt_entry_create

79  –  rpc_ns_mgmt_entry_inq_if_ids

 NAME

   rpc_ns_mgmt_entry_inq_if_ids -  Returns the list of interfaces
                                   exported to an entry in the name
                                   service database

   Used by client, server, or management applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_ns_mgmt_entry_inq_if_ids( unsigned32 entry_name_syntax,
                                      unsigned_char_t *entry_name,
                                      rpc_if_id_vector_t **if_id_vec,
                                      unsigned32 *status );

 PARAMETERS

   Input

   entry_name_syntax
       An integer value that specifies the syntax of argument entry_name.
       To use the syntax specified in the RPC_DEFAULT_ENTRY_SYNTAX
       logical name, provide rpc_c_ns_syntax_default.

   entry_name
       Specifies the entry in the name service database for which an
       interface identifier vector is returned.  This can be either the
       global or cell-relative name.

   Output

   if_id_vec
       Returns the address of the interface identifier vector.

   status
       Returns the status code from this routine, indicating whether the
       routine completed successfully or, if not, why not.

       The possible status codes and their meanings are as follows:

       rpc_s_ok       Success.

       rpc_s_entry_not_found
                      Name service entry not found.

       rpc_s_incomplete_name
                      Incomplete name.

       rpc_s_invalid_name_syntax
                      Invalid name syntax.

       rpc_s_name_service_unavailable
                      Name service unavailable.

       rpc_s_no_interfaces_exported
                      No interfaces were exported to entry.

       rpc_s_no_ns_permission
                      No permission for name service operation.

       rpc_s_unsupported_name_syntax
                      Unsupported name syntax.

 DESCRIPTION

   The rpc_ns_mgmt_entry_inq_if_ids() routine returns an interface
   identifier vector containing the interfaces of binding handles
   exported to argument entry_name.

   This routine uses an expiration age of 0 (zero) to cause an immediate
   update of the local copy of name service data.  The
   rpc_ns_mgmt_inq_exp_age() routine's reference page contains an
   explanation of the expiration age.

   The application calls rpc_if_id_vector_free() to release memory used
   by the returned vector.

   Permissions Required

   You need read permission to the CDS object entry (the target name
   service entry).

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_if_id_vector_free
              rpc_if_inq_id
              rpc_ns_binding_export

80  –  rpc_ns_mgmt_free_codesets

 NAME

   rpc_ns_mgmt_free_codesets - Frees a code sets array that has been
                               allocated by the RPC runtime

   Used by client and server applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_ns_mgmt_free_codesets( rpc_codeset_mgmt_p_t *code_sets_array,
                                   error_status_t *status );

 PARAMETERS

   Input/Output

   code_sets_array
       A pointer to a code sets array that has been allocated by a
       call to the rpc_ns_mgmt_read_codesets() routine or the
       rpc_rgy_get_codesets() routine.

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if not,
       why not.  The possible status codes and their meanings are as
       follows:

       rpc_s_ok       Success.

 DESCRIPTION

   The rpc_ns_mgmt_free_codesets() routine belongs to a set of DCE RPC
   routines for character and code set interoperability. These routines
   permit client and server applications to transfer international
   character data in a heterogeneous character set and code sets
   environment.

   The rpc_ns_mgmt_free_codesets() routine frees from the client
   application's memory a code sets array allocated by a client call to
   the rpc_ns_mgmt_read_codesets() or the rpc_rgy_get_codesets()
   routines. The routine frees from a server application's memory a
   code sets array allocated by a server call to the
   rpc_rgy_get_codesets() routine.

   Client applications use the rpc_ns_mgmt_read_codesets() routine to
   retrieve a server's supported code sets in order to evaluate them
   against the code sets that the client supports. Clients and servers
   use the rpc_rgy_get_codesets() routine to get their supported code
   sets from the code set registery.  Clients and servers use the
   rpc_ns_mgmt_free_codesets() routine to free the memory allocated to
   the code sets array as part of their cleanup procedures.

   Permissions Required

   None.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_ns_mgmt_read_codesets
              rpc_rgy_get_codesets

81  –  rpc_ns_mgmt_handle_set_exp_age

 NAME

   rpc_ns_mgmt_handle_set_exp_age - Sets a handle's expiration age for
                                    local copies of name service data

   Used by client, server, or management applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_ns_mgmt_handle_set_exp_age( rpc_ns_handle_t ns_handle,
                                        unsigned32 expiration_age,
                                        unsigned32 *status );

 PARAMETERS

   Input

   ns_handle
       Specifies the name service handle for which you supply an
       expiration age.  An RPC Name Service Interface (NSI) inquiry
       begin operation returns a name service handle.  An example is
       the operation that rpc_ns_entry_object_inq_begin() performs; it
       returns a name service handle in its inquiry_context parameter.

   expiration_age
       This integer value specifies the expiration age, in seconds, of
       local name service data. This data is read by all RPC NSI next
       routines that use the specified ns_handle parameter.  An example
       is the rpc_ns_entry_object_inq_next() routine; it accepts a name
       service handle in its inquiry_context parameter.  An expiration
       age of 0 (zero) causes an immediate update of the local name
       service data.

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if not,
       why not.  The possible status codes and their meanings are as
       follows:

       rpc_s_ok                     Success.

       rpc_s_invalid_ns_handle      Invalid name service handle.

 DESCRIPTION

   The rpc_ns_mgmt_handle_set_exp_age() routine sets an expiration age
   for a specified name service handle (in ns_handle).  The expiration
   age is the amount of time, in seconds, that a local copy of data from
   a name service attribute can exist, before a request from the
   application for the attribute requires updating the local copy.
   When an application begins running, the RPC runtime specifies
   a random value of between 8 and 12 hours as the default expiration
   age.  The default is global to the application.  An expiration age
   applies only to a specific name service handle and temporarily
   overrides the current global expiration age.

   Normally, avoid using this routine; instead, rely on the application's
   global expiration age.

   A handle's expiration age is used exclusively by RPC NSI next
   operations (which read data from name service attributes). A next
   operation normally starts by looking for a local copy of the
   attribute data being requested by an application. In the absence of
   a local copy, the next operation creates one with fresh attribute
   data from the name service database. If a local copy already exists,
   the operation compares its actual age to the expiration age being
   used by the application (which in this case is the expiration age
   set for the name service handle). If the actual age exceeds the
   handle's expiration age, the operation automatically tries to update
   the local copy with fresh attribute data. If updating is impossible,
   the old local data remains in place and the next operation fails,
   returning the rpc_s_name_service_unavailable status code.

   The scope of a handle's expiration age is a single series of RPC NSI
   next operations.  The rpc_ns_mgmt_handle_set_exp_age() routine
   operates as follows:

    1.  An RPC NSI begin operation, such as the one performed by
        rpc_ns_group_mbr_inq_begin() creates a name service handle.

    2.  A call to rpc_ns_mgmt_handle_set_exp_age() creates an expiration
        age for the handle.

    3.  A series of corresponding RPC NSI next operations for the name
        service handle uses the handle's expiration age.

    4.  A corresponding RPC NSI done operation for the name service
        handle deletes both the handle and its expiration age.

   Permissions Required

   No permissions are required.

 CAUTIONS

   Use this routine with extreme caution.

   Setting the handle's expiration age to a small value causes the RPC
   NSI next operations to frequently update local data for any name
   service attribute requested by your application.  For example, setting
   the expiration age to 0 (zero) forces the next operation to update
   local data for the name service attribute requested by your
   application. Therefore, setting a small expiration age for a name
   service handle can create performance problems for your application.
   Also, if your application is using a remote server with the name
   service database, a small expiration age can adversely affect network
   performance for all applications.

   Limit the use of this routine to the following types of situations:

     +  When you must always get accurate name service data. For example,
        during management operations to update a profile, you may need to
        always see the profile's current contents. In this case, before
        beginning to inquire about a profile, your application must call
        rpc_ns_mgmt_handle_set_exp_age() and specify 0 (zero) for the
        expiration_age parameter.

     +  When a request using the default expiration age fails, and your
        application needs to retry the operation.  For example, a client
        application using import must first try to obtain bindings using
        the application's default expiration age.  However, sometimes the
        import-next operation returns either no binding handles or an
        insufficient number of them.  In this case, the client can retry
        the import operation and, after rpc_ns_binding_import_begin()
        terminates, include a rpc_ns_mgmt_handle_set_exp_age() routine
        that specifies 0 (zero) for the expiration_age parameter.  When
        the client calls the import-next routine again, the small
        expiration age for the name service handle causes the import-next
        operation to update the local attribute data.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_ns_binding_import_begin
              rpc_ns_binding_lookup_begin
              rpc_ns_entry_object_inq_begin
              rpc_ns_group_mbr_inq_begin
              rpc_ns_mgmt_inq_exp_age
              rpc_ns_mgmt_set_exp_age
              rpc_ns_profile_elt_inq_begin

82  –  rpc_ns_mgmt_inq_exp_age

 NAME

   rpc_ns_mgmt_inq_exp_age - Returns the application's global expiration
                             age for local copies of name service data

   Used by client, server, or management applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_ns_mgmt_inq_exp_age( unsigned32 *expiration_age,
                                 unsigned32 *status );

 PARAMETERS

   Input

   None.

   Output

   expiration_age
       Returns the default expiration age (in seconds). All the RPC Name
       Service Interface (NSI) read operations (all the next operations)
       use this value.

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if not,
       why not.  The possible status code and its meaning is as follows:

       rpc_s_ok              Success.

 DESCRIPTION

   The rpc_ns_mgmt_inq_exp_age() routine returns the global expiration
   age that the application is using.  The expiration_age parameter
   represents the amount of time, in seconds, that a local copy of data
   from a name service attribute can exist before a request from the
   application for the attribute requires updating the local copy.  When
   an application begins running, the RPC runtime specifies a random
   value of between 8 and 12 hours as the default expiration age.  The
   default is global to the application.

   The RPC NSI next operations, which read data from name service
   attributes, use an expiration age.  A next operation normally starts
   by looking for a local copy of the attribute data that an application
   requests.  In the absence of a local copy, the next operation creates
   one with fresh attribute data from the name service database. If a
   local copy already exists, the operation compares its actual age to
   the expiration age being used by the application.  If the actual age
   exceeds the expiration age, the operation automatically tries to
   update the local copy with fresh attribute data from the name service
   database. If updating is impossible, the old local data remains in
   place and the next operation fails, returning the
   rpc_s_name_service_unavailable status code.

   Applications normally use only the default expiration age. For special
   cases, an application can substitute a user-supplied global expiration
   age for the default by calling rpc_ns_mgmt_set_exp_age().  The
   rpc_ns_mgmt_inq_exp_age() routine returns the current global
   expiration age, whether it is a default or a user-supplied value.

   An application can also override the global expiration age temporarily
   by calling rpc_ns_mgmt_handle_set_exp_age().

   Permissions Required

   No permissions are required.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_ns_mgmt_handle_set_exp_age
              rpc_ns_mgmt_set_exp_age

83  –  rpc_ns_mgmt_read_codesets

 NAME

   rpc_ns_mgmt_read_codesets - Reads the code sets attribute associated
                               with an RPC server entry in the name
                               service database.

   Used by client applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_ns_mgmt_read_codesets( unsigned32 entry_name_syntax,
                                   unsigned_char_t *entry_name,
                                   rpc_codeset_mgmt_p_t *code_sets_array,
                                   error_status_t *status );

 PARAMETERS

   Input

   entry_name_syntax
       An integer value that specifies the syntax of the
       entry_name parameter.  To use the syntax specified in
       the RPC_DEFAULT_ENTRY_SYNTAX logical name, provide
       rpc_c_ns_syntax_default.

   entry_name
       Specifies the name of the RPC server entry in the name service
       database from which to read the code sets attribute. The name can
       be either the global or cell-relative name.

   Output

   code_sets_array
       A code sets array that specifies the code sets that the RPC server
       supports.

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if not,
       why not.  The possible status codes and their meanings are as
       follows:

       rpc_s_ok

       rpc_s_invalid_name_syntax

       rpc_s_mgmt_bad_type

       rpc_s_name_service_unavailable

       rpc_s_no_permission

       rpc_s_incomplete_name

       rpc_s_no_memory

 DESCRIPTION

   The rpc_ns_mgmt_read_codesets() routine belongs to a set of DCE RPC
   routines for character and code set interoperability. These routines
   permit client and server applications to transfer international
   character data in a heterogeneous character set and code sets
   environment.

   The rpc_ns_mgmt_read_codesets() routine reads the code sets attribute
   associated with an RPC server entry in the name service database.  The
   routine takes the name of an RPC server entry and returns a code sets
   array that corresponds to the code sets that this RPC server supports.

   Client applications use the rpc_ns_mgmt_read_codesets() routine to
   retrieve a server's supported code sets in order to evaluate them
   against the code sets that the client supports. Client applications
   that use the evaluation routines rpc_cs_eval_with_universal() and
   rpc_cs_eval_without_universal() do not need to call this routine
   explicitly, because these code sets evaluation routines call it on
   the client's behalf. Application developers who are writing their own
   character and code set evaluation routines may need to include
   rpc_ns_mgmt_read_codesets() in their user-written evaluation routines.

   Permissions Required

   You need read permission to the target RPC server entry (which is a
   CDS object).

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: dce_cs_rgy_to_loc
              dce_cs_loc_to_rgy
              rpc_ns_mgmt_free_codesets
              rpc_ns_mgmt_remove_attribute
              rpc_ns_mgmt_set_attribute
              rpc_rgy_get_codesets
              rpc_rgy_get_max_bytes

84  –  rpc_ns_mgmt_remove_attribute

 NAME

   rpc_ns_mgmt_remove_attribute - Removes an attribute from an RPC
                                  server entry in the name service
                                  database.

   Used mainly by server applications; can also be used by management
   applications.

 SYNOPSIS

   #include <dce/rpc.h>
   #include <dce/nsattrid.h>

   void rpc_ns_mgmt_remove_attribute( unsigned32 entry_name_syntax,
                                      unsigned_char_t *entry_name,
                                      uuid_t *attr_type,
                                      error_status_t *status );

 PARAMETERS

   Input

   entry_name_syntax
       An integer value that specifies the syntax of the
       entry_name parameter.  To use the syntax specified in
       the RPC_DEFAULT_ENTRY_SYNTAX logical name, provide
       rpc_c_ns_syntax_default.

   entry_name
       Specifies the name of the RPC server entry in the name service
       database from which the attribute will be removed. The name can be
       either the global or cell-relative name.  If you are using this
       routine to remove a code sets attribute from an RPC server entry
       in the Cell Directory Service database, then this parameter
       specifies the CDS name of the server entry that contains the code
       sets attribute to be removed.

   attr_type
       A UUID that specifies the attribute type. For DCE 1.1, this value
       must be rpc_c_attr_codesets.

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if not,
       why not.  The possible status codes and their meanings are as
       follows:

       rpc_s_ok       Success.

       rpc_s_entry_not_found
                      The routine cannot find the RPC server entry
                      specified in the call in the name service database.

       rpc_s_incomplete_name
                      The routine cannot expand the RPC server entry name
                      specified in the call.

       rpc_s_invalid_name_syntax
                      The name syntax specified in the call is not valid.

       rpc_s_mgmt_bad_type
                      The attribute type specified in the call does not
                      match that of the attribute to be removed from the
                      name service database.

       rpc_s_name_service_unavailable
                      The routine was unable to communicate with the name
                      service.

       rpc_s_no_ns_permission
                      The routine's caller does not have the proper
                      permission for an NSI operation.

 DESCRIPTION

   The rpc_ns_mgmt_remove_attribute() routine belongs to a set of DCE RPC
   routines for use by client and server applications that are
   transferring international character data in a heterogeneous character
   set and code sets environment.

   The rpc_ns_mgmt_remove_attribute() routine is designed to be a generic
   routine for removing an attribute from an RPC server entry in the name
   service database.  The routine removes the attribute from the
   specified RPC server entry in the name service database.  The routine
   does not remove the RPC server entry.

   For DCE 1.1, you use rpc_ns_mgmt_remove_attribute() in your
   application server initialization routine or signal handling routine
   to remove a code sets attribute from the server's entry in the Cell
   Directory Service database as part of the server cleanup procedure
   carried out prior to the server's termination.

   A management application can call rpc_ns_mgmt_remove_attribute() to
   remove an attribute from an RPC server entry in the name service
   database on behalf of an application that does not itself have the
   necessary name service permissions to remove one.

   Permissions Required

   You need write permission to the target RPC server entry (which is a
   CDS object).

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_ns_mgmt_read_codesets
              rpc_ns_mgmt_set_attribute
              rpc_rgy_get_codesets

85  –  rpc_ns_mgmt_set_attribute

 NAME

   rpc_ns_mgmt_set_attribute - Adds an attribute to an RPC server entry
                               in the name service database.

   Used mainly by server applications; can also be used by management
   applications.

 SYNOPSIS

   #include <dce/rpc.h>
   #include <dce/nsattrid.h>
   void rpc_ns_mgmt_set_attribute( unsigned32 entry_name_syntax,
                                   unsigned_char_t *entry_name,
                                   uuid_t *attr_type,
                                   void *attr_value,
                                   error_status_t *status );

 PARAMETERS

   Input

   entry_name_syntax
       An integer value that specifies the syntax of the
       entry_name parameter.  To use the syntax specified in
       the RPC_DEFAULT_ENTRY_SYNTAX logical name, provide
       rpc_c_ns_syntax_default.

   entry_name
       Specifies the name of the RPC server entry in the name service
       database with which the attribute will be associated.  The name
       can be either the global or cell-relative name.  If you are using
       this routine to add a code sets attribute to an RPC server entry
       in the name service database, then this parameter specifies the
       name of the server entry with which the code sets attribute will
       be associated.

   attr_type
       A UUID that specifies the attribute type. For DCE 1.1, this value
       must be rpc_c_attr_codesets.

   attr_val
       An opaque data structure that specifies the attribute value to be
       stored in the name service database. If you are using this routine
       to add a code sets attribute to an RPC server entry, you must cast
       the representation of the code set data from the data type
       rpc_codeset_mgmt_p_t to the data type void*.

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if not,
       why not.  The possible status codes and their meanings are as
       follows:

       rpc_s_ok       Success.

       rpc_s_invalid_name_syntax
                      The name syntax specified in the call is not valid.

       rpc_s_mgmt_bad_type
                      The attribute type specified in the call does not
                      match that of the attribute to be added to the name
                      service database.

       rpc_s_no_memory
                      The routine was unable to allocate memory to encode
                      the value.

       rpc_s_name_service_unavailable
                      The routine was unable to communicate with the name
                      service.

       rpc_s_no_ns_permission
                      The routine's caller does not have the proper
                      permission for an NSI operation.

 DESCRIPTION

   The rpc_ns_mgmt_set_attribute() routine belongs to a set of DCE
   RPC routines for use by client and server applications that are
   transferring international character data in a heterogeneous
   character set and code sets environment.

   The rpc_ns_mgmt_set_attribute() routine is designed to be a generic
   routine for adding an attribute to an RPC server entry in the name
   service database. The routine takes an attribute type and a pointer
   to the value, and stores the attribute value in the name service
   database.

   For DCE 1.1, you use rpc_ns_mgmt_set_attribute() in your application
   server initialization routine to add a code sets attribute to the
   server's entry in the Cell Directory Service database (which the
   initialization routine has created with the rpc_ns_binding_export()
   routine).  Because CDS stores integer values in little-endian format,
   the rpc_ns_mgmt_set_attribute() routine also encodes the code sets
   attribute value into an endian-safe format before storing it in the
   name service database.

   A management application can call rpc_ns_mgmt_set_attribute() to add
   an attribute to an RPC server entry in the name service database on
   behalf of an application that does not itself have the necessary name
   service permissions to add one.

   Permissions Required

   You need both read permission and write permission to the target RPC
   server entry (which is a CDS object). You also need insert permission
   to the parent directory.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_ns_mgmt_read_codesets
              rpc_ns_mgmt_remove_attribute
              rpc_rgy_get_codesets

86  –  rpc_ns_mgmt_set_exp_age

 NAME

   rpc_ns_mgmt_set_exp_age - Modifies the application's global expiration
                             age for local copies of name service data

   Used by client, server, or management applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_ns_mgmt_set_exp_age( unsigned32 expiration_age,
                                 unsigned32 *status );

 PARAMETERS

   Input

   expiration_age
       An integer value that specifies the default expiration age, in
       seconds, for local name service data.  This expiration age applies
       to all RPC name service interface (NSI) read operations (all the
       next operations).  An expiration age of 0 (zero) causes an
       immediate update of the local name service data.  To reset the
       expiration age to an RPC-assigned random value between 8 and 12
       hours, specify a value of rpc_c_ns_default_exp_age.

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if not,
       why not.  The possible status code and its meaning is as follows:

       rpc_s_ok            Success.

 DESCRIPTION

   The rpc_ns_mgmt_set_exp_age() routine modifies the global expiration
   age that the application is using.  The expiration_age parameter
   represents the amount of time, in seconds, that a local copy of data
   from a name service attribute can exist before a request from the
   application for the attribute requires updating the local copy.  When
   an application begins running, the RPC runtime specifies a random
   value of between 8 and 12 hours as the default expiration age.  The
   default is global to the application.

   Normally, you should avoid using this routine; instead, rely on the
   default expiration age.

   The RPC NSI next operations, which read data from name service
   attributes, use an expiration age.  A next operation normally starts
   by looking for a local copy of the attribute data that an application
   requests.  In the absence of a local copy, the next operation creates
   one with fresh attribute data from the name service database.  If a
   local copy already exists, the operation compares its actual age to
   the expiration age being used by the application.  If the actual age
   exceeds the expiration age, the operation automatically tries to
   update the local copy with fresh attribute data from the name service
   database.  If updating is impossible, the old local data remains in
   place and the next operation fails, returning the
   rpc_s_name_service_unavailable status code.

   Permissions Required

   No permissions are required.

 CAUTIONS

   Use this routine with extreme caution.

   Setting the expiration age to a small value causes the RPC NSI next
   operations to frequently update local data for any name service
   attribute that your application requests.  For example, setting the
   expiration age to 0 (zero) forces all next operations to update local
   data for the name service attribute that your application has
   requested. Therefore, setting small expiration ages can create
   performance problems for your application.  Also, if your application
   is using a remote server with the name service database, a small
   expiration age can adversely affect network performance for all
   applications.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_ns_mgmt_handle_set_exp_age
              rpc_ns_mgmt_set_exp_age

87  –  rpc_ns_profile_delete

 NAME

   rpc_ns_profile_delete - Deletes a profile attribute

   Used by client, server, or management applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_ns_profile_delete( unsigned32 profile_name_syntax,
                               unsigned_char_t *profile_name,
                               unsigned32 *status );

 PARAMETERS

   Input

   profile_name_syntax
       An integer value that specifies the syntax of the
       profile_name parameter.  To use the syntax specified in
       the RPC_DEFAULT_ENTRY_SYNTAX logical name, provide
       rpc_c_ns_syntax_default.

   profile_name
       Specifies the name of the profile to delete.  This can be either
       the global or cell-relative name.

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if not,
       why not.  The possible status codes and their meanings are as
       follows:

       rpc_s_ok       Success.

       rpc_s_entry_not_found
                      Name service entry not found.

       rpc_s_incomplete_name
                      Incomplete name.

       rpc_s_invalid_name_syntax
                      Invalid name syntax.

       rpc_s_name_service_unavailable
                      Name service unavailable.

       rpc_s_no_ns_permission
                      No permission for name service operation.

       rpc_s_unsupported_name_syntax
                      Unsupported name syntax.

 DESCRIPTION

   The rpc_ns_profile_delete() routine deletes the profile attribute from
   the specified entry in the name service database (the profile_name
   parameter).

   Neither the specified entry nor the entry names included as members in
   each profile element are deleted.

   Use this routine cautiously; deleting a profile may break a hierarchy
   of profiles.

   Permissions Required

   You need write permission to the CDS object entry (the target profile
   entry).

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_ns_profile_elt_add
              rpc_ns_profile_elt_remove

88  –  rpc_ns_profile_elt_add

 NAME

   rpc_ns_profile_elt_add - Adds an element to a profile; if necessary,
                            creates the entry

   Used by client, server, or management applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_ns_profile_elt_add( unsigned32 profile_name_syntax,
                                unsigned_char_t *profile_name,
                                rpc_if_id_t *if_id,
                                unsigned32 member_name_syntax,
                                unsigned_char_t *member_name,
                                unsigned32 priority,
                                unsigned_char_t *annotation,
                                unsigned32 *status );

 PARAMETERS

   Input

   profile_name_syntax
       An integer value that specifies the syntax of the
       profile_name parameter.  To use the syntax specified
       in the RPC_DEFAULT_ENTRY_SYNTAX logical name, provide
       rpc_c_ns_syntax_default.

   profile_name
       Specifies the RPC profile that receives a new element.  This can
       be either the global or cell-relative name.

   if_id
       Specifies the interface identifier of the new profile element.
       To add or replace the default profile element, specify NULL.

   member_name_syntax
       An integer value that specifies the syntax of
       member_name.  To use the syntax specified in the
       RPC_DEFAULT_ENTRY_SYNTAX logical name, provide
       rpc_c_ns_syntax_default.

   member_name
       Specifies the entry in the name service database to include in
       the new profile element.  This can be either the global or cell-
       relative name.

   priority
       An integer value (0 to 7) that specifies the relative priority
       for using the new profile element during the import and lookup
       operations.  A value of 0 (zero) is the highest priority.  A
       value of 7 is the lowest priority.  Two or more elements can have
       the same priority.  When adding the default profile member, use
       a value of 0 (zero).

   annotation
       Specifies an annotation string that is stored as part of the new
       profile element. The string can be up to 17 characters long.
       Specify NULL or the string \0 if there is no annotation string.
       The string is used by applications for informational purposes
       only. For example, an application can use this string to store
       the interface name string (specified in the IDL file).
       DCE RPC does not use this string during lookup or import
       operations, or for enumerating profile elements.

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if not,
       why not.  The possible status codes and their meanings are as
       follows:

       rpc_s_ok       Success.

       rpc_s_class_version_mismatch
                      RPC class version mismatch.

       rpc_s_incomplete_name
                      Incomplete name.

       rpc_s_invalid_name_syntax
                      Invalid name syntax.

       rpc_s_invalid_priority
                      Invalid profile element priority.

       rpc_s_name_service_unavailable
                      Name service unavailable.

       rpc_s_no_ns_permission
                      No permission for name service operation.

       rpc_s_unsupported_name_syntax
                      Unsupported name syntax.

 DESCRIPTION

   The rpc_ns_profile_elt_add() routine adds an element to the profile
   attribute of the entry in the name service database specified by the
   profile_name parameter.

   If the profile_name entry does not exist, this routine creates the
   entry with a profile attribute and adds the profile element specified
   by the if_id, member_name, priority, and annotation parameters. In
   this case, the application must have permission to create the entry.
   Otherwise, a management application with the necessary permissions
   creates the entry by calling rpc_ns_mgmt_entry_create() before the
   application is run.

   If an element with the specified member name and interface identifier
   are already in the profile, this routine updates the element's
   priority and annotation string using the values provided in the
   priority and annotation parameters.

   An application can add the entry in the member_name parameter to a
   profile before it creates the entry itself.

   Permissions Required

   You need both read permission and write permission to the CDS object
   entry (the target profile entry).  If the entry does not exist, you
   also need insert permission to the parent directory.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_if_inq_id
              rpc_ns_mgmt_entry_create
              rpc_ns_profile_elt_remove

89  –  rpc_ns_profile_elt_inq_begin

 NAME

   rpc_ns_profile_elt_inq_begin - Creates an inquiry context for
                                  viewing the elements in a profile

   Used by client, server, or management applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_ns_profile_elt_inq_begin( unsigned32 profile_name_syntax,
                                      unsigned_char_t *profile_name,
                                      unsigned32 inquiry_type,
                                      rpc_if_id_t *if_id,
                                      unsigned32 vers_option,
                                      unsigned32 member_name_syntax,
                                      unsigned_char_t *member_name,
                                      rpc_ns_handle_t *inquiry_context,
                                      unsigned32 *status );

 PARAMETERS

   Input

   profile_name_syntax
       An integer value that specifies the syntax of the
       profile_name parameter.  To use the syntax specified
       in the RPC_DEFAULT_ENTRY_SYNTAX logical name, provide
       rpc_c_ns_syntax_default.

   profile_name
       Specifies the name of the profile to view.  This can be either
       the global or cell-relative name.

   inquiry_type
       An integer value that specifies the type of inquiry to perform
       on the profile. The following table describes the valid inquiry
       types:

                     Valid Values of inquiry_type
 _____________________________________________________________________
 Value                             Description
 _____________________________________________________________________
 rpc_c_profile_default_elt         Searches the profile for the
                                   default profile element, if any.
                                   The if_id, vers_option, and
                                   member_name parameters are ignored.

 rpc_c_profile_all_elts            Returns every element from the pro-
                                   file.  The if_id, vers_option, and
                                   member_name parameters are ignored.

 rpc_c_profile_match_by_if         Searches the profile for those ele-
                                   ments that contain the interface
                                   identifier specified by the if_id
                                   and vers_option values.  The
                                   member_name parameter is ignored.

 rpc_c_profile_match_by_mbr        Searches the profile for those ele-
                                   ments that contain the member name
                                   specified by the member_name param-
                                   eter.  The if_id and vers_option
                                   parameters are ignored.

 rpc_c_profile_match_by_both       Searches the profile for those ele-
                                   ments that contain the interface
                                   identifier and member name speci-
                                   fied by the if_id, vers_option, and
                                   member_name parameters.

   if_id
       Specifies the interface identifier of the profile elements to be
       returned by rpc_ns_profile_elt_inq_next().  This parameter is used
       only when specifying a value of either rpc_c_profile_match_by_if
       or rpc_c_profile_match_by_both for the inquiry_type parameter.
       Otherwise, this parameter is ignored and you can specify the value
       NULL.

   vers_option
       Specifies how rpc_ns_profile_elt_inq_next() uses the if_id
       parameter.  This parameter is used only when specifying a value
       of either rpc_c_profile_match_by_if or rpc_c_profile_match_by_both
       for the inquiry_type parameter.  Otherwise, this parameter is
       ignored and you can specify the value 0 (zero).

   The following table describes the valid values for this parameter:

                  Valid Values of vers_option
 _____________________________________________________________________
 Value                             Description
 _____________________________________________________________________
 rpc_c_vers_all                    Returns profile elements that offer
                                   the specified interface UUID,
                                   regardless of the version numbers.
                                   For this value, specify 0 (zero)
                                   for both the major and minor ver-
                                   sions in if_id.

 rpc_c_vers_compatible             Returns profile elements that offer
                                   the same major version of the
                                   specified interface UUID and a
                                   minor version greater than or equal
                                   to the minor version of the speci-
                                   fied interface UUID.

 rpc_c_vers_exact                  Returns profile elements that offer
                                   the specified version of the speci-
                                   fied interface UUID.

 rpc_c_vers_major_only             Returns profile elements that offer
                                   the same major version of the
                                   specified interface UUID (ignores
                                   the minor version).  For this
                                   value, specify 0 (zero) for the
                                   minor version in if_id.

 rpc_c_vers_upto                   Returns profile elements that offer
                                   a version of the specified inter-
                                   face UUID less than or equal to the
                                   specified major and minor version.
                                   (For example, if if_id contains
                                   V2.0 and the profile contains ele-
                                   ments with the versions V1.3, V2.0,
                                   and V2.1,
                                   rpc_ns_profile_elt_inq_next()
                                   returns the elements with V1.3 and
                                   V2.0.)

   member_name_syntax
       An integer value that specifies the syntax of the member_name
       parameter in this routine and the syntax of the member_name
       parameter in rpc_ns_profile_elt_inq_next().  To use the syntax
       specified in the RPC_DEFAULT_ENTRY_SYNTAX logical name, provide
       rpc_c_ns_syntax_default.

   member_name
       Specifies the member name that rpc_ns_profile_elt_inq_next()
       looks for in profile elements.  This can be either the global
       or cell-relative name.  This parameter is used only when
       specifying a value of either rpc_c_profile_match_by_mbr or
       rpc_c_profile_match_by_both for the inquiry_type parameter.
       Otherwise, this parameter is ignored and you specify the value
       NULL.

   Output

   inquiry_context
       Returns a name service handle for use with the
       rpc_ns_profile_elt_inq_next() and rpc_ns_profile_elt_inq_done()
       routines.

   status
       Returns the status code from this routine, indicating indicates
       whether the routine completed successfully or, if not, why not.
       The possible status codes and their meanings are as follows:

       rpc_s_ok       Success.

       rpc_s_incomplete_name
                      Incomplete name.

       rpc_s_invalid_inquiry_type
                      Invalid inquiry type.

       rpc_s_invalid_name_syntax
                      Invalid name syntax.

       rpc_s_invalid_vers_option
                      Invalid version option.

       rpc_s_unsupported_name_syntax
                      Unsupported name syntax.

 DESCRIPTION

   The rpc_ns_profile_elt_inq_begin() routine creates an inquiry context
   for viewing the elements in a profile.

   Using the inquiry_type and vers_option parameters, an application
   specifies which of the following profile elements will be returned
   from calls to rpc_ns_profile_elt_inq_next():

     +  The default element.

     +  All elements.

     +  Those elements with the specified interface identifier.

     +  Those elements with the specified member name.

     +  Those elements with both the specified interface identifier and
        member name.

   Before calling rpc_ns_profile_elt_inq_next(), the application must
   first call this routine to create an inquiry context.

   When finished viewing the profile elements, the application calls
   the rpc_ns_profile_elt_inq_done() routine to delete the inquiry
   context.

   Permissions Required

   No permissions are required.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_if_inq_id
              rpc_ns_mgmt_handle_set_exp_age
              rpc_ns_profile_elt_inq_done
              rpc_ns_profile_elt_inq_next

90  –  rpc_ns_profile_elt_inq_done

 NAME

   rpc_ns_profile_elt_inq_done - Deletes the inquiry context for a
                                 profile

   Used by client, server, or management applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_ns_profile_elt_inq_done( rpc_ns_handle_t *inquiry_context,
                                     unsigned32 *status );

 PARAMETERS

   Input/Output

   inquiry_context
       Specifies the name service handle to delete.  (A name service
       handle is created by calling rpc_ns_profile_elt_inq_begin().)
       Returns the value NULL.

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if not,
       why not.  The possible status codes and their meanings are as
       follows:

       rpc_s_ok                     Success.

       rpc_s_invalid_ns_handle      Invalid name service handle.

 DESCRIPTION

   The rpc_ns_profile_elt_inq_done() routine deletes an inquiry context
   created by calling rpc_ns_profile_elt_inq_begin().

   An application calls this routine after viewing profile elements
   using the rpc_ns_profile_elt_inq_next() routine.

   Permissions Required

   No permissions are required.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_ns_profile_elt_inq_begin
              rpc_ns_profile_elt_inq_next

91  –  rpc_ns_profile_elt_inq_next

 NAME

   rpc_ns_profile_elt_inq_next - Returns one element at a time from
                                 a profile

   Used by client, server, or management applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_ns_profile_elt_inq_next( rpc_ns_handle_t inquiry_context,
                                     rpc_if_id_t *if_id,
                                     unsigned_char_t **member_name,
                                     unsigned32 *priority,
                                     unsigned_char_t **annotation,
                                     unsigned32 *status );

 PARAMETERS

   Input

   inquiry_context
       Specifies a name service handle.  This handle is returned from
       the rpc_ns_profile_elt_inq_begin() routine.

   Output

   if_id
       Returns the interface identifier of the profile element.

   member_name
       Returns a pointer to the profile element's member name.  The name
       is a global name.  The syntax of the returned name is specified by
       the member_name_syntax parameter in
       rpc_ns_profile_elt_inq_begin(). Specify NULL to prevent the
       routine from returning this parameter. In this case the
       application does not call rpc_string_free().

   priority
       Returns the profile element priority.

   annotation
       Returns the annotation string for the profile element. If there
       is no annotation string in the profile element, the string \0 is
       returned.  Specify NULL to prevent the routine from returning
       this parameter.  In this case the application does not need to
       call the rpc_string_free() routine.

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if not,
       why not.  The possible status codes and their meanings are as
       follows:

       rpc_s_ok       Success.

       rpc_s_class_version_mismatch
                      RPC class version mismatch.

       rpc_s_entry_not_found
                      Name service entry not found.

       rpc_s_incomplete_name
                      Incomplete name.

       rpc_s_invalid_ns_handle
                      Invalid name service handle.

       rpc_s_name_service_unavailable
                      Name service unavailable.

       rpc_s_no_more_elements
                      No more elements.

       rpc_s_no_ns_permission
                      No permission for name service operation.

       rpc_s_not_rpc_entry
                      Not an RPC entry.

 DESCRIPTION

   The rpc_ns_profile_elt_inq_next() routine returns one element from
   the profile specified by the profile_name parameter in the
   rpc_ns_profile_elt_inq_begin() routine.

   The selection criteria for the element returned are based on the
   inquiry_type parameter in the rpc_ns_profile_elt_inq_begin() routine.
   The rpc_ns_profile_elt_inq_next() routine returns all the components
   (interface identifier, member name, priority, annotation string) of
   a profile element.

   An application can view all the selected profile entries by
   repeatedly calling the rpc_ns_profile_elt_inq_next() routine.
   When all the elements have been viewed, this routine returns an
   rpc_s_no_more_elements status code.  The returned elements are
   unordered.

   On each call to this routine that returns a profile element, the
   DCE RPC runtime allocates memory for the returned member_name (which
   points to a global name) and annotation strings.  The application is
   responsible for calling the rpc_string_free() routine for each
   returned member_name and annotation string.

   After viewing the profile's elements, the application must call the
   rpc_ns_profile_elt_inq_done() routine to delete the inquiry context.

   Permissions Required

   You need read permission to the CDS object entry (the target profile
   entry).

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_ns_profile_elt_begin
              rpc_ns_profile_elt_done
              rpc_string_free

92  –  rpc_ns_profile_elt_remove

 NAME

   rpc_ns_profile_elt_remove - Removes an element from a profile

   Used by client, server, or management applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_ns_profile_elt_remove( unsigned32 profile_name_syntax,
                                   unsigned_char_t *profile_name,
                                   rpc_if_id_t *if_id,
                                   unsigned32 member_name_syntax,
                                   unsigned_char_t *member_name,
                                   unsigned32 *status );

 PARAMETERS

   Input

   profile_name_syntax
       An integer value that specifies the syntax of the
       profile_name parameter.  To use the syntax specified
       in the RPC_DEFAULT_ENTRY_SYNTAX logical name, provide
       rpc_c_ns_syntax_default.

   profile_name
       Specifies the profile from which to remove an element.  This
       can be either the global or cell-relative name.

   if_id
       Specifies the interface identifier of the profile element to be
       removed.  Specify NULL to remove the default profile member.

   member_name_syntax
       An integer value that specifies the syntax of member_name.  To
       use the syntax specified in the RPC_DEFAULT_ENTRY_SYNTAX logical
       name, provide rpc_c_ns_syntax_default.

   member_name
       Specifies the name service entry name in the profile element to
       remove.  This can be either the global or cell-relative name.
       When if_id is NULL, this argument is ignored.

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if not,
       why not.  The possible status codes and their meanings are as
       follows:

       rpc_s_ok       Success.

       rpc_s_entry_not_found
                      Name service entry not found.

       rpc_s_incomplete_name
                      Incomplete name.

       rpc_s_invalid_name_syntax
                      Invalid name syntax.

       rpc_s_name_service_unavailable
                      Name service unavailable.

       rpc_s_no_ns_permission
                      No permission for name service operation.

       rpc_s_profile_element_not_found
                      Profile element not found.

       rpc_s_unsupported_name_syntax
                      Unsupported name syntax.

 DESCRIPTION

   The rpc_ns_profile_elt_remove() routine removes a profile element
   from the profile specified by profile_name.  Unless if_id is NULL,
   the member_name parameter and the if_id parameter must match the
   corresponding profile element attributes exactly for an element to
   be removed.  When if_id is NULL, the default profile element is
   removed, and the member_name argument is ignored.

   The routine removes the reference to the entry specified by
   member_name from the profile; it does not delete the entry itself.

   Use this routine cautiously; removing elements from a profile may
   break a hierarchy of profiles.

   Permissions Required

   You need both read permission and write permission to the CDS object
   entry (the target profile entry).

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_ns_profile_delete
              rpc_ns_profile_elt_add

93  –  rpc_object_inq_type

 NAME

   rpc_object_inq_type - Returns the type of an object

   Used by server applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_object_inq_type( uuid_t *obj_uuid,
                             uuid_t *type_uuid,
                             unsigned32 *status );

 PARAMETERS

   Input

   obj_uuid
        Specifies the object UUID whose associated type UUID is returned.
        Supply NULL to specify a nil UUID for this parameter.

   Output

   type_uuid
        Returns the type UUID corresponding to the object UUID supplied
        in the obj_uuid parameter.  Specifying NULL here prevents the
        return of a type UUID. An application, by specifying NULL here,
        can determine from the value returned in status whether obj_uuid
        is registered.  This determination occurs without the application
        specifying an output type UUID variable.

   status
        Returns the status code from this routine.  This status code
        indicates  whether the routine completed successfully or, if not,
        why not.  The possible status codes and their meanings are as
        follows:

        rpc_s_ok                  Success.

        rpc_s_object_not_found    Object not found.

        uuid_s_bad_version        Bad UUID version.

 DESCRIPTION

   A server application calls the rpc_object_inq_type() routine to obtain
   the type UUID of an object.

   If the object is registered with the RPC runtime using the
   rpc_object_set_type() routine, the registered type is returned.

   Optionally, an application can maintain an object/type registration
   privately.  In this case, if the application provides an object
   inquiry function (see the rpc_object_set_inq_fn reference page), the
   RPC runtime uses that function to determine an object's type.

   The table below shows how rpc_object_inq_type() obtains the returned
   type UUID.

                 Rules for Returning an Object's Type
 _____________________________________________________________________
 Was object UUID        Was an object inquiry
 registered (using      function registered(using
 rpc_object_set_type)?  rpc_object_set_inq_fn)?    Return Value
 _____________________________________________________________________
          Yes                    Ignored           Returns the object's
                                                   registered type UUID.

          No                       Yes             Returns the type UUID
                                                   returned from calling
                                                   the inquiry function.

          No                       No              Returns the nil UUID.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_object_set_inq_fn
              rpc_object_set_type

94  –  rpc_object_set_inq_fn

 NAME

   rpc_object_set_inq_fn - Registers an object inquiry function

   Used by server applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_object_set_inq_fn( rpc_object_inq_fn_t inquiry_fn,
                               unsigned32 *status );

 PARAMETERS

   Input

   inquiry_fn
       Specifies a pointer to an object type inquiry function. When an
       application calls the rpc_object_inq_type() routine and the RPC
       runtime finds that the specified object is not registered, the
       runtime automatically calls the rpc_object_inq_type() routine to
       determine the object's type.  Specify NULL to remove a previously
       set inquiry function.

       The following C language definition for rpc_object_inq_fn_t
       illustrates the prototype for this function:

            typedef void (*rpc_object_inq_fn_t)
                    (
                        uuid_t       *object_uuid,  /* in  */
                        uuid_t       *type_uuid,    /* out */
                        unsigned32   *status        /* out */
                    );

       The returned type_uuid and status values are returned as the
       output arguments from the rpc_object_inq_type() routine.
       If you specify NULL, the rpc_object_set_inq_fn() routine
       unregisters (that is, removes) a previously registered object
       type inquiry function.

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if
       not, why not.  The possible status code and its meaning is as
       follows:

       rpc_s_ok    Success.

 DESCRIPTION

   A server application calls rpc_object_set_inq_fn() to specify a
   function to determine an object's type.  If an application privately
   maintains object/type registrations, the specified inquiry function
   returns the type UUID of an object from that registration.

   The RPC runtime automatically calls the inquiry function when the
   application calls rpc_object_inq_type() and the object was not
   previously registered by rpc_object_set_type().  The RPC runtime
   also automatically calls the inquiry function for every remote
   procedure call it receives if the object was not previously
   registered.

 Cautions

   Use this routine with caution.  When the RPC runtime automatically
   calls this routine in response to a received remote procedure call,
   the inquiry function can be called from the context of runtime
   internal threads with runtime internal locks held.  The inquiry
   function should not block or at least not block for long (for example,
   the inquiry function should not perform a remote procedure call).
   Also, the inquiry function must not unwind because of an exception.
   In general, the inquiry function should not call back into the RPC
   runtime.  It is legal to call rpc_object_set_type() or any of the
   uuid_* routines.  Failure to comply with these restrictions will
   result in undefined behavior.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_object_inq_type
              rpc_object_set_type

95  –  rpc_object_set_type

 NAME

   rpc_object_set_type - Registers the type of an object with the RPC
                         runtime

   Used by server applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_object_set_type( uuid_t *obj_uuid,
                             uuid_t *type_uuid,
                             unsigned32 *status );

 PARAMETERS

   Input

   obj_uuid
       Specifies an object UUID to associate with the type UUID in the
       type_uuid  parameter.  Do not specify NULL or a nil UUID.

   type_uuid
       Specifies the type UUID of the obj_uuid parameter.  Specify
       an argument value of NULL or a nil UUID to reset the object
       type to the default association of object UUID/nil type UUID.

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if not,
       why not.  The possible status codes and their meanings are as
       follows:

       rpc_s_ok                      Success.

       rpc_s_already_registered      Object already registered.

       rpc_s_invalid_object          Invalid object.

       uuid_s_bad_version            Bad UUID version.

 DESCRIPTION

   The rpc_object_set_type() routine assigns a type UUID to an object
   UUID.

   By default, the RPC runtime assumes that the type of all objects
   is nil.  A server program that contains one implementation of an
   interface (one manager entry point vector) does not need to call
   this routine, provided that the server registered the interface with
   the nil type UUID (see the rpc_server_register_if reference page).

   A server program that contains multiple implementations of an
   interface (multiple manager entry point vectors; that is, multiple
   type UUIDs) calls this routine once for each object UUID the server
   offers.  Associating each object with a type UUID tells the RPC
   runtime which manager entry point vector (interface implementation)
   to use when the server receives a remote procedure call for a non-nil
   object UUID.

   The RPC runtime allows an application to set the type for an
   unlimited number of objects.

   To remove the association between an object UUID and its type UUID
   (established by calling this routine), a server calls this routine
   again and specifies the value NULL or a nil UUID for the type_uuid
   parameter.  This resets the association between an object UUID and
   type UUID to the default.

   A server cannot register a nil object UUID.  The RPC runtime
   automatically registers the nil object UUID with a nil type UUID.
   Attempting to set the type of a nil object UUID will result in the
   routine's returning the status code rpc_s_invalid_object.

   Servers that want to maintain their own object UUID to type UUID
   mapping can use rpc_object_set_inq_fn() in place of, or in addition
   to, rpc_object_set_type().

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_object_set_inq_fn
              rpc_server_register_if

96  –  rpc_protseq_vector_free

 NAME

   rpc_protseq_vector_free - Frees the memory used by a vector and its
                             protocol sequences

   Used by client or server applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_protseq_vector_free( rpc_protseq_vector_t **protseq_vector,
                                 unsigned32 *status );

 PARAMETERS

   Input/Output

   protseq_vector
       Specifies the address of a pointer to a vector of protocol
       sequences.  On return the pointer is set to NULL.

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if not,
       why not.  The possible status code and its meaning is as follows:

       rpc_s_ok              Success.

 DESCRIPTION

   The rpc_protseq_vector_free() routine frees the memory used to store
   a vector of protocol sequences.  The freed memory includes both the
   protocol sequences and the vector itself.

   Call rpc_network_inq_protseqs() to obtain a vector of protocol
   sequences.  Follow a call to rpc_network_inq_protseqs() with a call
   to rpc_protseq_vector_free().

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_network_inq_protseqs

97  –  rpc_rgy_get_codesets

 NAME

   rpc_rgy_get_codesets - Gets supported code sets information from the
                          local host

   Used by client and server applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_rgy_get_codesets( rpc_codeset_mgmt_p_t *code_sets_array,
                              error_status_t *status );

 PARAMETERS

   Input

   No input is required.

   Output

   code_sets_array
       An integer array that specifies the code sets that the client's
       or server's host environment supports. Each array element is an
       integer value that uniquely identifies one code set.

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if not,
       why not.  The possible status codes and their meanings are as
       follows:

       dce_cs_c_cannot_open_file

       dce_cs_c_cannot_read_file

       rpc_s_ok

       rpc_s_no_memory

 DESCRIPTION

   The rpc_rgy_get_codesets() routine belongs to a set of DCE RPC
   routines for use by client and server applications that are
   transferring international character data in a heterogeneous
   character set and code sets environment.

   The rpc_rgy_get_codesets() routine examines the locale environment of
   the host on which the client or server process is running to determine
   the local code set currently in use by the client or server process
   and the set of supported code set conversion routines that exist on
   the host into which the client or server process can convert if
   necessary. It then reads the code sets registry on the local host to
   retrieve the unique identifiers associated with these supported code
   sets.

   The routine returns a code sets array. The set of values returned in
   this structure correspond to the process's local code set and the code
   sets into which processes that run on this host can convert.  The
   array also contains, for each code set, the maximum number of bytes
   that code set uses to encode one character (c_max_bytes).

   Server applications use the rpc_rgy_get_codesets() routine in their
   initialization code to get their host's supported character and code
   sets values in order to export them into the name service database
   with rpc_ns_mgmt_set_attribute().

   Client applications use the rpc_rgy_get_codesets() routine during the
   server binding selection process to retrieve the supported character
   and code sets at their host in order to evaluate them against the
   character and code sets that a server supports.  Client applications
   that use the evaluation routines rpc_cs_eval_with_universal() and
   rpc_cs_eval_without_universal() do not need to call this routine
   explicitly, because these code sets evaluation routines call it on
   the client's behalf.  Application developers who are writing their
   own character and code set evaluation routines may need to include
   rpc_rgy_get_codesets() in their user-written evaluation routines.

   Permissions Required

   No permissions are required.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Commands: csrc(8dce).

   Functions: rpc_ns_mgmt_read_codesets
              rpc_ns_mgmt_remove_attribute
              rpc_ns_mgmt_set_attribute

98  –  rpc_rgy_get_max_bytes

 NAME

   rpc_rgy_get_max_bytes - Gets the maximum number of bytes that a
                           code set uses to encode one character from
                           the code set registry on a host

   Used by client and server applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_rgy_get_max_bytes( unsigned32 rgy_code_set_value,
                               unsigned16 *rgy_max_bytes,
                               error_status_t *status );

 PARAMETERS

   Input

   rgy_code_set_value
       The registered hexadecimal value that uniquely identifies the
       code set.

   Output

   rgy_max_bytes
       The registered decimal value that indicates the number of bytes
       this code set uses to encode one character.

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if not,
       why not.  The possible status codes and their meanings are as
       follows:

       dce_cs_c_cannot_open_file

       dce_cs_c_cannot_read_file

       dce_cs_c_notfound

       dce_cs_c_unknown

       rpc_s_ok

 DESCRIPTION

   The rpc_rgy_get_max_bytes() routine belongs to a set of DCE RPC
   routines for use by client and server applications that are
   transferring international character data in a heterogeneous
   character set and code sets environment.

   The rpc_rgy_get_max_bytes() routine reads the code set registry on the
   local host. It takes the specified registered code set value, uses it
   as an index into the registry, and returns the decimal value that
   indicates the number of bytes that the code set uses to encode one
   character.

   The DCE RPC stub support routines for buffer sizing use the
   rpc_rgy_get_max_bytes() routine as part of their procedure to
   determine whether additional storage needs to be allocated for
   conversion between local and network code sets.  The DCE RPC stub
   support routines call the rpc_rgy_get_max_bytes() routine once to
   get the rgy_max_bytes value for the code set to be used to transfer
   the data over the network (the "network" code set) then call the
   routine again to get the rgy_max_bytes value of their local code set.
   The stubs then compare the two values to determine whether or not
   additional buffers are necessary or whether the conversion can be
   done "in place".

   Client and server applications that use the DCE RPC buffer sizing
   routines byte_net_size(), byte_local_size(), wchar_t_net_size(), and
   wchar_t_local_size() do not need to call this routine explicitly
   because these DCE RPC stub support routines call it on their behalf.
   Application programmers who are developing their own stub support
   routines for buffer sizing can use the rpc_rgy_get_max_bytes() routine
   in their code to get code set max_byte information for their user-
   written buffer sizing routines.

   Permissions Required

   No permissions are required.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Commands: csrc.

   Functions: dce_cs_loc_to_rgy
              dce_cs_rgy_to_loc
              rpc_ns_mgmt_read_code_sets
              rpc_rgy_get_code_sets

99  –  rpc_server_inq_bindings

 NAME

   rpc_server_inq_bindings - Returns binding handles for communications
                             with a server

   Used by server applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_server_inq_bindings( rpc_binding_vector_t **binding_vector,
                                 unsigned32 *status );

 PARAMETERS

   Input

   None.

   Output

   binding_vector
             Returns the address of a vector of server binding handles.

   status    Returns the status code from this routine.  This status
             code indicates whether the routine completed successfully
             or, if not, why not.

             The possible status codes and their meanings are as follows:

             rpc_s_ok                Success.

             rpc_s_no_bindings       No bindings.

 DESCRIPTION

   The rpc_server_inq_bindings() routine obtains a vector of server
   binding handles.  Binding handles are created by the RPC runtime
   when a server application calls any of the following routines to
   register protocol sequences:

     +  rpc_server_use_all_protseqs()

     +  rpc_server_use_all_protseqs_if()

     +  rpc_server_use_protseq()

     +  rpc_server_use_protseq_ep()

     +  rpc_server_use_protseq_if()

   The returned binding vector can contain binding handles with dynamic
   endpoints and binding handles with well-known endpoints, depending on
   which of the preceding routines the server application called.  The
   rpc_intro reference page contains an explanation of dynamic and well-
   known endpoints.

   A server uses the vector of binding handles for exporting to the name
   service, for registering with the local endpoint map, or for
   conversion to string bindings.

   If there are no binding handles (no registered protocol sequences),
   this routine returns the rpc_s_no_bindings status code and returns
   the value NULL to the binding_vector parameter.

   The server is responsible for calling the rpc_binding_vector_free()
   routine to deallocate the memory used by the vector.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_binding_vector_free
              rpc_ep_register
              rpc_ep_register_no_replace
              rpc_ns_binding_export
              rpc_server_use_all_protseqs
              rpc_server_use_all_protseqs_if
              rpc_server_use_protseq
              rpc_server_use_protseq_ep
              rpc_server_use_protseq_if

100  –  rpc_server_inq_if

 NAME

   rpc_server_inq_if - Returns the manager entry point vector registered
                       for an interface

   Used by server applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_server_inq_if( rpc_if_handle_t if_handle,
                           uuid_t *mgr_type_uuid,
                           rpc_mgr_epv_t *mgr_epv,
                           unsigned32 *status );

 PARAMETERS

   Input

   if_handle
       Specifies the interface specification whose manager Entry Point
       Vector (EPV) pointer is returned in the mgr_epv parameter.

   mgr_type_uuid
       Specifies a type UUID for the manager whose EPV pointer is
       returned in the mgr_epv parameter.  Specifying the value NULL
       (or a nil UUID) has this routine return a pointer to the manager
       EPV that is registered with if_handle and the nil type UUID of
       the manager.

   Output

   mgr_epv
       Returns a pointer to the manager EPV corresponding to if_handle
       and mgr_type_uuid.

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if not,
       why not.  The possible status codes and their meanings are as
       follows:

       rpc_s_ok                 Success.

       rpc_s_unknown_if         Unknown interface.

       rpc_s_unknown_mgr_type   Unknown manager type.

 DESCRIPTION

   A server application calls the rpc_server_inq_if() routine to
   determine the manager EPV for a registered interface and type UUID
   of the manager.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_server_register_if

101  –  rpc_server_listen

 NAME

   rpc_server_listen - Tells the RPC runtime to listen for remote
                       procedure calls

   Used by server applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_server_listen( unsigned32 max_calls_exec,
                           unsigned32 *status );

 PARAMETERS

   Input

   max_calls_exec
       Specifies the maximum number of concurrent executing remote
       procedure calls.  Use the value rpc_c_listen_max_calls_default
       to specify the default value.

       Also, the five rpc_server_use_*protseq* routines limit (according
       to their max_call_requests parameter) the number of concurrent
       remote procedure call requests that a server can accept.

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if not,
       why not.  The possible status codes and their meanings are as
       follows:

       rpc_s_ok      Success.

       rpc_s_already_listening
                     Server already listening.

       rpc_s_max_calls_too_small
                     Maximum calls value too small.

       rpc_s_no_protseqs_registered
                     No protocol sequences registered.

 DESCRIPTION

   The rpc_server_listen() routine makes a server listen for remote
   procedure calls.  DCE RPC allows a server to simultaneously process
   multiple calls.  The max_calls_exec parameter specifies the maximum
   number of concurrent remote procedure calls the server executes.
   Each remote procedure call executes in a call execution thread.
   The implementation of the RPC architecture determines whether it
   reuses call execution threads for the execution of subsequent remote
   procedure calls or, instead, it creates a new thread for each
   execution of a subsequent remote procedure call.

   The following conditions affect the number of concurrent remote
   procedure calls that a server can process:

     +  Sufficient network resources must be available to accept
        simultaneous call requests arriving over a particular protocol
        sequence.  The value of max_call_requests in the five
        rpc_server_use_*protseq* routines advises the RPC runtime about
        the runtime's request of network resources.

     +  Enough call threads must be available to execute the simultaneous
        call requests once they have been accepted.  The value of
        max_calls_exec in rpc_server_listen() specifies the number of
        call threads.

   These conditions are independent of each other.

   A server application that specifies a value for max_calls_exec greater
   than 1 is responsible for concurrency control among the remote
   procedures since each executes in a separate thread.

   If the server receives more remote procedure calls than it can execute
   (more calls than the value of max_calls_exec), the RPC runtime accepts
   and queues additional remote procedure calls until a call execution
   thread is available.  From the client's perspective, a queued remote
   procedure call appears the same as one that the server is actively
   executing.  A client call remains blocked and in the queue until any
   one of the following events occurs:

     +  The remote procedure call is assigned to an available call
        execution thread and the call runs to completion.

     +  The client no longer can communicate with the server.

     +  The client thread is canceled and the remote procedure call does
        not complete within the cancel time-out limits.

   The implementation of the RPC architecture determines the amount of
   queuing it provides.

   The RPC runtime continues listening for remote procedure calls (that
   is, the routine does not return to the server) until one of the
   following events occurs:

     +  One of the server application's manager routines calls
        rpc_mgmt_stop_server_listening().

     +  A client is allowed to, and makes, a remote
        rpc_mgmt_stop_server_listening() call to the server.

   On receiving a request to stop listening, the RPC runtime stops
   accepting new remote procedure calls for all registered interfaces.
   Executing calls and existing queued calls are allowed to complete.

   After all calls complete, rpc_server_listen() returns to the caller,
   which is a server application.

   For more information about a server's listening for and handling
   incoming remote procedure calls, refer to the OSF DCE Application
   Development Guide.  It also contains information about canceled
   threads.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_mgmt_server_stop_listening
              rpc_server_register_if
              rpc_server_use_all_protseqs
              rpc_server_use_all_protseqs_if
              rpc_server_use_protseq
              rpc_server_use_protseq_ep
              rpc_server_use_protseq_if

   Books: OSF DCE Application Development Guide.

102  –  rpc_server_register_auth_info

 NAME

   rpc_server_register_auth_info - Registers authentication information
                                   with the RPC runtime

   Used by server applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_server_register_auth_info(
                  unsigned_char_t *server_princ_name,
                  unsigned32 authn_svc,
                  rpc_auth_key_retrieval_fn_t get_key_fn,
                  void *arg,
                  unsigned32 *status );

 PARAMETERS

   Input

   server_princ_name
        Specifies the principal name to use for the server when
        authenticating remote procedure calls using the service
        specified by authn_svc.  The content of the name and its
        syntax is defined by the authentication service in use.

   authn_svc
        Specifies the authentication service to use when the server
        receives a remote procedure call request.  The following
        authentication services are supported:

        rpc_c_authn_none
                    No authentication.

        rpc_c_authn_dce_secret
                    DCE shared-secret key authentication.

        rpc_c_authn_winnt
                    Microsoft NT Lan Manager authentication.

        rpc_c_authn_dce_public
                    DCE public key authentication (reserved for future
                    use).

        rpc_c_authn_default
                    DCE default authentication service.

   get_key_fn
        Specifies the address of a server-provided routine that returns
        encryption keys.

        The following C definition for rpc_auth_key_retrieval_fn_t
        illustrates the prototype for the encryption key acquisition
        routine:

             typedef void (*rpc_auth_key_retrieval_fn_t)
              (
               void            *arg,               /* in */
               unsigned_char_t *server_princ_name, /* in */
               unsigned32      key_type,           /* in */
               unsigned32      key_ver,            /* in */
               void            **key,              /* out */
               unsigned32      *status             /* out */
              );

        The RPC runtime passes the server_princ_name parameter value
        specified on the call to rpc_server_register_auth_info(), as
        the server_princ_name parameter value, to the get_key_fn key
        acquisition routine.  The RPC runtime automatically provides a
        value for the key version (key_ver) parameter.  For a key_ver
        value of 0 (zero), the key acquisition routine must return the
        most recent key available.  The routine returns the key in the
        key parameter.  The key_type parameter specifies a Kerberos
        encryption key type.  Because currently the DCE supports only
        DES encryption, this parameter can be ignored.

        If the key acquisition routine, when called from the
        rpc_server_register_auth_info() routine, returns a status other
        than rpc_s_ok, the rpc_server_register_auth_info() routine fails
        and returns the error status to the calling server.

        If the key acquisition routine, when called by the RPC runtime
        while authenticating a client remote procedure call request,
        returns a status other than rpc_s_ok, the request fails and the
        RPC runtime returns the error status to the client.

   arg  Specifies an argument to pass to the get_key_fn key acquisition
        routine, if specified.  (See the description of the get_key_fn
        parameter for details.)

        Specify NULL for arg to use the default key table file,
        DCE$LOCAL:[KRB]v5srvtab.;

        The calling server must be privileged to access this file.
        If arg is a key table file name, the file must have been
        created with the ktadd command.  If the specified key table
        file resides in DCE$LOCAL:[KRB5], you can supply only the file
        name. If the file does not reside in DCE$LOCAL:[KRB5], you must
        supply the full pathname.  You must prepend the file's absolute
        pathname with the prefix FILE:.

   Output

   status
        Returns the status code from this routine.  This status code
        indicates whether the routine completed successfully or, if
        not, why not.  The possible status codes and their meanings
        are as follows:

        rpc_s_ok      Success.

        rpc_s_unknown_authn_service
                      Unknown authentication service.

        rpc_s_key_func_not_allowed
                      authn_svc is rpc_c_authn_default and a non-null
                      value was supplied for get_key_fn parameter.

 DESCRIPTION

   The rpc_server_register_auth_info() routine registers an authenti-
   cation service to use for authenticating remote procedure calls
   to a particular server principal.  A server calls this routine once
   for each authentication service and principal name combination that
   it wants to register.

   The authentication service specified by a client (using the
   rpc_binding_set_auth_info() routine) must be one of the authentication
   services registered by the server.  If it is not, the client's remote
   procedure call request fails with an rpc_s_unknown_authn_service
   status code.

   The following table shows the RPC runtime behavior for acquiring
   encryption keys for each supported authentication service.  Note that
   if authn_svc is rpc_c_authn_default, then get_key_fn must be NULL.

            RPC Key Acquisition for Authentication Services
 _______________________________________________________________________
 authn_svc            get_key_fn   arg        Runtime Behavior
 _______________________________________________________________________
 rpc_c_authn_default     NULL      NULL       Uses the default method of
                                              encryption key acquisition
                                              from the default key
 					     table.
 _______________________________________________________________________
 rpc_c_authn_default     NULL      non-NULL   Uses the default method of
                                              encryption key acquisition
                                              from the specified key
                                              table.
 _______________________________________________________________________
 rpc_c_authn_default     non-NULL  Ignored    Error returned.
 _______________________________________________________________________
 rpc_c_authn_none        Ignored   Ignored    No authentication
 					     performed.
 _______________________________________________________________________
 rpc_c_authn_dce_secret  NULL      NULL       Uses the default method of
                                              encryption key acquisition
                                              from the default key table.
 _______________________________________________________________________
 rpc_c_authn_dce_secret  NULL      non-NULL   Uses the default method of
                                              encryption key acquisition
                                              from the specified key
                                              table.
 _______________________________________________________________________
 rpc_c_authn_dce_secret  non-NULL  NULL       Uses the specified encryp-
                                              tion key acquisition
       					     routine to obtain keys
                                              from the default key table.
 _______________________________________________________________________
 rpc_c_authn_dce_secret  non-NULL  non-NULL   Uses the specified encryp-
                                              tion key acquisition
                                              routine to obtain keys from
                                              the specified key table.
 _______________________________________________________________________
 rpc_c_authn_winnt       Ignored   Ignored    Uses the default method of
                                              encryption key acquisition
                                              from the default key table.
 _______________________________________________________________________
 rpc_c_authn_dce_public  Ignored   Ignored    (Reserved for future use.)

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_binding_set_auth_info

103  –  rpc_server_register_if

 NAME

   rpc_server_register_if - Registers an interface with the RPC runtime

   Used by server applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_server_register_if( rpc_if_handle_t if_handle,
                                uuid_t *mgr_type_uuid,
                                rpc_mgr_epv_t mgr_epv,
                                unsigned32 *status );

 PARAMETERS

   Input

   if_handle
       An IDL-generated data structure specifying the interface to
       register.

   mgr_type_uuid
       Specifies a type UUID to associate with the mgr_epv parameter.
       Specifying the value NULL (or a nil UUID) registers the
       if_handle with a nil type UUID.

   mgr_epv
       Specifies the manager routines' entry point vector.  To use the
       IDL-generated default entry point vector, specify NULL.

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if not,
       why not.  The possible status codes and their meanings are as
       follows:

       rpc_s_ok      Success.

       rpc_s_type_already_registered
                     An interface with the given type of UUID is already
                     registered.

 DESCRIPTION

   The rpc_server_register_if() routine registers a server interface
   with the RPC runtime. A server can register an unlimited number of
   interfaces.  Once registered, an interface is available to clients
   through any binding handle of the server, provided that the binding
   handle is compatible for the client.

   A server must provide the following information to register an
   interface:

     +  An interface specification, which is a data structure generated
        by the IDL compiler. The server specifies the interface
        specification of the interface using the if_handle parameter.

     +  A type UUID and manager Entry Point Vector (EPV), a data pair
        that determines which manager routine executes when a server
        receives a remote procedure call request from a client.
        The server specifies the type UUID and EPV using the
        mgr_type_uuid and mgr_epv parameters, respectively.  Note that
        when a non-nil type UUID is specified, the server must also call
        the rpc_object_set_type() routine to register objects of this
        non-nil type.

   A server that only offers a single manager for an interface calls
   rpc_server_register_if() once for that interface.  In the simple case
   where the single manager's entry point names are the same as the
   operation names in the IDL interface definition, the IDL-generated
   default manager EPV for the interface may be used.  The value NULL in
   mgr_epv specifies the default manager EPV.

   Note that if a server offers multiple implementations of an interface,
   the server code must register a separate manager entry point vector
   for each interface implementation.

   Rules for Invoking Manager Routines

   The RPC runtime dispatches an incoming remote procedure call to a
   manager that offers the requested RPC interface.  When multiple
   managers are registered for an interface, the RPC runtime must
   select one of them.  To select a manager, the RPC runtime uses the
   object UUID specified by the call's binding handle.

   The following table summarizes the rules applied for invoking manager
   routines.

                   Rules for Invoking Manager Routines
 _______________________________________________________________________
 Object    Has Server     Has Server
 UUID      Set Type of    Set Type for
 of Call¹  Object UUID?²  Manager EPV³      Dispatching Action
 _______________________________________________________________________
 Nil   Not applicable(4)  Yes     Uses the manager with the nil type
 				 UUID.

 Nil   Not applicable(4)  No      Error (rpc_s_unknown_mgr_type). Rejects
                                  the remote procedure call.

 Non-nil       Yes        Yes     Uses the  manager  with  the same type
                                  UUID.

 Non-nil       No        Ignored  Uses the manager with the nil type
 				 UUID. If  no  manager  with the nil
                                  type UUID, error
 				 (rpc_s_unknown_mgr_type).  Rejects
                                  the remote procedure call.

 Non-nil       Yes         No     Error (rpc_s_unknown_mgr_type). Rejects
                                  the remote procedure call.

   ¹ This is the object UUID found in a binding handle for a remote
     procedure.

   ² By calling rpc_object_set_type() to specify the type UUID for an
     object.

   ³ By calling rpc_server_register_if() using the same type UUID.

   4 The nil object UUID is always automatically assigned the nil
     type UUID.  It is illegal to specify a nil object UUID in
     rpc_object_set_type().

   For more information about registering server interfaces and invoking
   manager routines, refer to the OSF DCE Application Development Guide.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_binding_set_object
              rpc_ep_register
              rpc_ep_register_no_replace
              rpc_ns_binding_export
              rpc_object_set_type
              rpc_server_unregister_if

   Books: OSF DCE Application Development Guide.

104  –  rpc_server_unregister_if

 NAME

   rpc_server_unregister_if - Removes an interface from the RPC runtime

   Used by server applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_server_unregister_if( rpc_if_handle_t if_handle,
                                  uuid_t *mgr_type_uuid,
                                  unsigned32 *status );

 PARAMETERS

   Input

   if_handle
       Specifies an interface specification to unregister (remove).

       Specify NULL to remove all interfaces previously registered with
       the type UUID value given in the mgr_type_uuid parameter.

   mgr_type_uuid
       Specifies the type UUID for the manager Entry Point Vector (EPV)
       to remove. This needs to be the same value as provided in a call
       to the rpc_server_register_if() routine.

       Specify NULL to remove the interface given in the if_handle
       parameter for all previously registered type UUIDs.

       Specify a nil UUID to remove the IDL-generated default manager
       EPV. In this case all manager EPVs registered with a non-nil
       type UUID remain registered.

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if not,
       why not.  The possible status codes and their meanings are as
       follows:

       rpc_s_ok                     Success.

       rpc_s_unknown_if             Unknown interface.

       rpc_s_unknown_mgr_type       Unknown manager type.

 DESCRIPTION

   The rpc_server_unregister_if() routine removes the association between
   an interface and a manager Entry Point Vector (EPV).

   Specify the manager EPV to remove by providing, in the mgr_type_uuid
   parameter, the type UUID value specified in a call to the
   rpc_server_register_if() routine.  Once removed, an interface is no
   longer available to client applications.

   When an interface is removed, the RPC runtime stops accepting new
   calls for that interface.  Executing calls (on that interface) are
   allowed to complete.

   The table below summarizes the actions of this routine.

                    Rules for Removing an Interface
 _____________________________________________________________________
 if_handle      mgr_type_uuid       Action
 _____________________________________________________________________
 non-NULL       non-NULL            Removes the manager EPV associated
                                    with the specified parameters.

 non-NULL       NULL                Removes all manager EPVs associated
                                    with parameter if_handle.

 NULL           non-NULL            Removes all manager EPVs associated
                                    with parameter mgr_type_uuid.

 NULL           NULL                Removes all manager EPVs.

   Note that when both of the parameters if_handle and mgr_type_uuid are
   given the value NULL, this call has the effect of preventing the
   server from receiving any new remote procedure calls since all the
   manager EPVs for all interfaces have been removed.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_server_register_if

105  –  rpc_server_use_all_protseqs

 NAME

   rpc_server_use_all_protseqs - Tells the RPC runtime to use all
                                 supported protocol sequences for
                                 receiving remote procedure calls

   Used by server applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_server_use_all_protseqs( unsigned32 max_call_requests,
                                     unsigned32 *status );

 PARAMETERS

   Input

   max_call_requests
       Specifies the maximum number of concurrent remote procedure call
       requests that the server can accept.

       The RPC runtime guarantees that the server can accept at least
       this number of concurrent call requests.  The actual number of
       these requests can be greater than the value of
       max_call_requests and can vary for each protocol sequence.

       Use the value rpc_c_protseq_max_reqs_default to specify the
       default parameter value.

       Note that in this version of DCE RPC, any number you specify is
       replaced by the default value.

       Also, the rpc_server_listen() routine limits (according to its
       max_calls_exec parameter) the amount of concurrent remote
       procedure call execution.  See the rpc_server_listen
       reference page for more information.

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if
       not, why not.  The possible status codes and their meanings
       are as follows:

       rpc_s_ok     Success.

       rpc_s_cant_create_socket
                    Cannot create socket.

       rpc_s_max_descs_exceeded
                    Exceeded maximum number of network descriptors.

       rpc_s_no_protseqs
                    No supported protocol sequences.

 DESCRIPTION

   The rpc_server_use_all_protseqs() routine registers all supported
   protocol sequences with the RPC runtime.  A server must register at
   least one protocol sequence with the RPC runtime to receive remote
   procedure call requests.

   For each protocol sequence registered by a server, the RPC runtime
   creates one or more binding handles.  Each binding handle contains a
   dynamic endpoint that the RPC runtime and operating system generated.

   The max_call_requests parameter allows you to specify the maximum
   number of concurrent remote procedure call requests the server
   handles.

   After registering protocol sequences, a server typically calls the
   following routines:

   rpc_server_inq_bindings()
                 Obtains a vector containing all of the server's binding
                 handles.

   rpc_ep_register()
                 Registers the binding handles with the local endpoint
                 map.

   rpc_ep_register_no_replace()
                 Registers the binding handles with the local endpoint
                 map.

   rpc_ns_binding_export()
                 Places the binding handles in the name service database
                 for access by any client.

   rpc_binding_vector_free()
                 Frees the vector of server binding handles.

   rpc_server_register_if()
                 Registers with the RPC runtime those interfaces that the
                 server offers.

   rpc_server_listen()
                 Enables the reception of remote procedure calls.

   To register protocol sequences selectively, a server calls one of the
   following routines:

   rpc_server_use_protseq()            rpc_server_use_all_protseqs_if()
   rpc_server_use_protseq_if()         rpc_server_use_protseq_ep()

   For an explanation of how a server can establish a client/server
   relationship without using the local endpoint map or the name service
   database, see the information on string bindings in the rpc_intro
   reference page.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_binding_from_string_binding
              rpc_binding_to_string_binding
              rpc_binding_vector_free
              rpc_ep_register
              rpc_ep_register_no_replace
              rpc_ns_binding_export
              rpc_server_inq_bindings
              rpc_server_listen
              rpc_server_register_if
              rpc_server_use_all_protseqs_if
              rpc_server_use_protseq
              rpc_server_use_protseq_ep
              rpc_server_use_protseq_if

106  –  rpc_server_use_all_protseqs_if

 NAME

   rpc_server_use_all_protseqs_if - Tells the RPC runtime to use all
                                    the protocol sequences and endpoints
                                    specified in the interface
                                    specification for receiving remote
                                    procedure calls

   Used by server applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_server_use_all_protseqs_if( unsigned32 max_call_requests,
                                        rpc_if_handle_t if_handle,
                                        unsigned32 *status );

 PARAMETERS

   Input

   max_call_requests
       Specifies the maximum number of concurrent remote procedure call
       requests that the server can accept.

       The RPC runtime guarantees that the server can accept at least
       this number of concurrent call requests.  The actual number of
       these requests can be greater that the value of max_call_requests
       and can vary for each protocol sequence.

       Use the value rpc_c_protseq_max_reqs_default to specify the
       default parameter value.

       Note that in this version of DCE RPC, any number you specify is
       replaced by the default value.

       Also, the rpc_server_listen() routine limits (according to its
       max_calls_exec parameter) the amount of concurrent remote
       procedure call execution.  See the rpc_server_listen reference
       page for more information.

   if_handle
       Specifies an interface specification containing the protocol
       sequences and their corresponding endpoint information to use in
       creating binding handles.  Each created binding handle contains a
       well-known (non-dynamic) endpoint contained in the interface
       specification.

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if not,
       why not.  The possible status codes and their meanings are as
       follows:

       rpc_s_ok      Success.

       rpc_s_calls_too_large_for_wk_ep
                     Maximum concurrent calls too large.

       rpc_s_cant_bind_socket
                     Cannot bind to socket.

       rpc_s_cant_create_socket
                     Cannot create socket.

       rpc_s_cant_inq_socket
                     Cannot inquire endpoint from socket.

       rpc_s_invalid_endpoint_format
                     Invalid interface handle.

       rpc_s_max_descs_exceeded
                     Exceeded maximum number of network descriptors.

       rpc_s_no_protseqs
                     No supported protocol sequences.

 DESCRIPTION

   The rpc_server_use_all_protseqs_if() routine registers all protocol
   sequences and associated endpoint address information provided in the
   IDL file with the RPC runtime.  A server must register at least one
   protocol sequence with the RPC runtime to receive remote procedure
   call requests.

   For each protocol sequence registered by a server, the RPC runtime
   creates one or more binding handles.  Each binding handle contains
   the well-known endpoint specified in the IDL file.

   The max_call_requests parameter allows you to specify the maximum
   number of concurrent remote procedure call requests the server
   handles.

   If you want to register selected protocol sequences specified in the
   IDL, your server uses rpc_server_use_protseq_if().

   The explanation of rpc_server_use_all_protseqs() contains a list of
   the routines a server typically calls after calling this routine.
   (However, a server that uses only rpc_server_use_all_protseqs_if()
   does not subsequently call rpc_ep_register() or
   rpc_ep_register_no_replace().)  For an explanation of how a server
   can establish a client/server relationship without using the local
   endpoint map or the name service database, see the information on
   string bindings in the rpc_intro reference page.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_binding_vector_free
              rpc_ep_register
              rpc_ep_register_no_replace
              rpc_ns_binding_export
              rpc_server_inq_bindings
              rpc_server_listen
              rpc_server_register_if
              rpc_server_use_all_protseqs
              rpc_server_use_protseq
              rpc_server_use_protseq_ep
              rpc_server_use_protseq_if

107  –  rpc_server_use_protseq

 NAME

   rpc_server_use_protseq - Tells the RPC runtime to use the specified
                            protocol sequence for receiving remote
                            procedure calls

   Used by server applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_server_use_protseq( unsigned_char_t *protseq,
                                unsigned32 max_call_requests,
                                unsigned32 *status );

 PARAMETERS

   Input

   protseq
       Specifies a string identifier for the protocol sequence to
       register with the RPC runtime.  (For a list of string identifiers,
       see the table of valid protocol sequences in the rpc_intro(3rpc)
       reference page.)

   max_call_requests
       Specifies the maximum number of concurrent remote procedure call
       requests that the server can accept.

       The RPC runtime guarantees that the server can accept at least
       this number of concurrent call requests.  The actual number of
       these requests can be greater than the value of max_call_requests
       and can vary for each protocol sequence.

       Use the value rpc_c_protseq_max_reqs_default to specify the
       default parameter value.

       Note that in this version of DCE RPC, any number you specify is
       replaced by the default value.

       Also, rpc_server_listen() limits (according to its max_calls_exec
       parameter) the amount of concurrent remote procedure call
       execution. See the rpc_server_listen reference page for more
       information.

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if not,
       why not.  The possible status codes and their meanings are as
       follows:

       rpc_s_ok     Success.

       rpc_s_cant_create_socket
                    Cannot create socket.

       rpc_s_invalid_rpc_protseq
                    Invalid protocol sequence.

       rpc_s_max_descs_exceeded
                    Exceeded maximum number of network descriptors.

       rpc_s_protseq_not_supported
                    Protocol sequence not supported on this host.

 DESCRIPTION

   The rpc_server_use_protseq() routine registers a single protocol
   sequence with the RPC runtime.  A server must register at least one
   protocol sequence with the RPC runtime to receive remote procedure
   call requests.  A server can call this routine multiple times to
   register additional protocol sequences.

   For each protocol sequence registered by a server, the RPC runtime
   creates one or more binding handles.  Each binding handle contains a
   dynamic endpoint that the RPC runtime and operating system generated.

   The max_call_requests parameter allows you to specify the maximum
   number of concurrent remote procedure call requests the server
    handles.

   A server calls rpc_server_use_all_protseqs() to register all protocol
   sequences.

   The explanation of the rpc_server_use_all_protseqs() routine contains
   a list of the routines a server typically calls after calling this
   routine.  For an explanation of how a server can establish a
   client/server relationship without using the local endpoint map or
   the name service database, see the information on string bindings in
   the rpc_intro reference page.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_binding_vector_free
              rpc_ep_register
              rpc_ep_register_no_replace
              rpc_network_is_protseq_valid
              rpc_ns_binding_export
              rpc_server_inq_bindings
              rpc_server_listen
              rpc_server_register_if
              rpc_server_use_all_protseqs
              rpc_server_use_all_protseqs_if
              rpc_server_use_protseq_ep
              rpc_server_use_protseq_if

108  –  rpc_server_use_protseq_ep

 NAME

   rpc_server_use_protseq_ep - Tells the RPC runtime to use the specified
                               protocol sequence combined with the
                               specified endpoint for receiving remote
                               procedure calls

   Used by server applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_server_use_protseq_ep( unsigned_char_t *protseq,
                                   unsigned32 max_call_requests,
                                   unsigned_char_t *endpoint,
                                   unsigned32 *status );

 PARAMETERS

   Input

   protseq
       Specifies a string identifier for the protocol sequence to
       register with the RPC runtime.  (For a list of string
       identifiers, see the table of valid protocol sequences in the
       rpc_intro(3rpc) reference page.

   max_call_requests
       Specifies the maximum number of concurrent remote procedure call
       requests that the server can accept.

       The RPC runtime guarantees that the server can accept at least
       this number of concurrent call requests.  The actual number of
       these requests can be greater than the value of max_call_requests
       and can vary for each protocol sequence.

       Use the value rpc_c_protseq_max_reqs_default to specify the
       default parameter value.

       Note that in this version of DCE RPC, any number you specify is
       replaced by the default value.

       Also, rpc_server_listen()  limits (according to its max_calls_exec
       parameter) the amount of concurrent remote procedure call
       execution. See the rpc_server_listen reference page for more
       information.

   endpoint
       Specifies address information for an endpoint. This information
       is used in creating a binding handle for the protocol sequence
       specified in the protseq parameter.

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if not,
       why not.  The possible status codes and their meanings are as
       follows:

       rpc_s_ok      Success.

       rpc_s_calls_too_large_for_wk_ep
                     Maximum concurrent calls too large.

       rpc_s_cant_bind_socket
                     Cannot bind to socket.

       rpc_s_cant_create_socket
                     Cannot create socket.

       rpc_s_invalid_endpoint_format
                     Invalid endpoint format.

       rpc_s_invalid_rpc_protseq
                     Invalid protocol sequence.

       rpc_s_max_descs_exceeded
                     Exceeded maximum number of network descriptors.

       rpc_s_protseq_not_supported
                     Protocol sequence not supported on this host.

 DESCRIPTION

   The rpc_server_use_protseq_ep() routine registers a protocol sequence
   and its specified endpoint address information with the RPC runtime.
   A server must register at least one protocol sequence with the RPC
   runtime to receive remote procedure call requests.  A server can call
   this routine multiple times to register additional protocol sequences
   and endpoints.

   For each protocol sequence registered by a server, the RPC runtime
   creates one or more binding handles.  Each binding handle contains
   the well-known endpoint specified in the endpoint parameter.

   The max_call_requests parameter allows you to specify the maximum
   number of concurrent remote procedure call requests the server
   handles.

   The explanation of rpc_server_use_all_protseqs() contains a list of
   the routines a server typically calls after calling this routine.
   For an explanation of how a server can establish a client/server
   relationship without using the local endpoint map or the name service
   database, see the information on string bindings in the rpc_intro
   reference page.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_binding_vector_free
              rpc_ep_register
              rpc_ep_register_no_replace
              rpc_ns_binding_export
              rpc_server_inq_bindings
              rpc_server_listen
              rpc_server_register_if
              rpc_server_use_all_protseqs
              rpc_server_use_all_protseqs_if
              rpc_server_use_protseq
              rpc_server_use_protseq_ep

109  –  rpc_server_use_protseq_if

 NAME

   rpc_server_use_protseq_if - Tells the RPC runtime to use the specified
                               protocol sequence combined with the
                               endpoints in the interface specification
                               for receiving remote procedure calls

   Used by server applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_server_use_protseq_if( unsigned_char_t *protseq,
                                   unsigned32 max_call_requests,
                                   rpc_if_handle_t if_handle,
                                   unsigned32 *status );

 PARAMETERS

   Input

   protseq
       Specifies a string identifier for the protocol sequence to
       register with the RPC runtime.  For a list of string
       identifiers, see the table of valid protocol sequences in the
       rpc_intro(3rpc) reference page.

   max_call_requests
       Specifies the maximum number of concurrent remote procedure call
       requests that the server can accept.

       The RPC runtime guarantees that the server can accept at least
       this number of concurrent call requests.  The actual number of
       these requests can be greater than the value of max_call_requests
       and can vary for each protocol sequence.

       Use the value rpc_c_protseq_max_reqs_default to specify the
       default parameter value.

       Note that in this version of DCE RPC, any number you specify is
       replaced by the default value.

       Also, the rpc_server_listen() routine limits (according to its
       max_calls_exec parameter) the amount of concurrent remote
       procedure call execution.  See the rpc_server_listen reference
       page for more information.

   if_handle
       Specifies an interface specification whose endpoint information
       is used in creating a binding for the protocol sequence specified
       in the protseq parameter.  Each created binding handle contains a
       well-known (nondynamic) endpoint contained in the interface
       specification.

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if not,
       why not.  The possible status codes and their meanings are as
       follows:

       rpc_s_ok      Success.

       rpc_s_calls_too_large_for_wk_ep
                     Maximum concurrent calls too large.

       rpc_s_cant_bind_socket
                     Cannot bind to socket.

       rpc_s_invalid_endpoint_format
                     Invalid endpoint format.

       rpc_s_invalid_rpc_protseq
                     Invalid protocol sequence.

       rpc_s_max_descs_exceeded
                     Exceeded maximum number of network descriptors.

       rpc_s_protseq_not_supported
                     Protocol sequence not supported on this host.

 DESCRIPTION

   The rpc_server_use_protseq_if() routine registers one protocol
   sequence with the RPC runtime, including its endpoint address
   information as provided in the specified IDL file.

   A server must register at least one protocol sequence with the RPC
   runtime to receive remote procedure call requests.  A server can call
   this routine multiple times to register additional protocol sequences.

   For each protocol sequence registered by a server, the RPC runtime
   creates one or more binding handles.  Each binding handle contains
   the well-known endpoint specified in the IDL file.

   The max_call_requests parameter allows you to specify the maximum
   number of concurrent remote procedure call requests the server
   handles.

   To register all protocol sequences from the IDL, a server calls the
   rpc_server_use_all_protseqs_if() routine.

   The explanation of rpc_server_use_all_protseqs() contains a list of
   the routines a server typically calls after calling this routine.
   However, a server that uses only rpc_server_use_protseq_if() does not
   subsequently call rpc_ep_register() or rpc_ep_register_no_replace().
   For an explanation of how a server can establish a client/server
   relationship without using the local endpoint map or the name service
   database, see the information on string bindings in the rpc_intro
   reference page.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_binding_vector_free
              rpc_ep_register
              rpc_ep_register_no_replace
              rpc_ns_binding_export
              rpc_server_inq_bindings
              rpc_server_listen
              rpc_server_register_if
              rpc_server_use_all_protseqs
              rpc_server_use_all_protseqs_if
              rpc_server_use_protseq
              rpc_server_use_protseq_ep

110  –  rpc_set_local_float_drep

 Name:

   rpc_set_local_float_drep - Sets the float type in the runtime to
                              the one with which the application is
                              being compiled

 SYNOPSIS:

   #include <dce/rpc.h>
   void rpc_set_local_float_drep (unsigned8 float_drep,
                                   unsigned32 *status);

 PARAMETERS

 Input

   float_drep
                 The parameter should always be passed as using the
                 macro "RPC_APPLICATION_FLOAT_TYPE". This macro will
                 be define to 0 or 1 based on the compilation option
                 specified for the float type.

   Output

   status
                 The routine will always return "rpc_s_ok" status.

 DESCRIPTION:

   The routine rpc_set_local_float_drep allows the RPC application
   to set the floating point type being used by the application
   Only G_FLOAT and IEEE_FLOAT floating types are supported. This
   routine if used,should be placed before any other API calls to
   the RPC runtime. The first parameter float_drep should be passed
   using the macro RPC_APPLICATION_FLOAT_TYPE that is defined in
   IDLBASE.H header file. This macro will be set to appropriate value
   based on the /FLOAT compilation option.

   This routine can be used only on Alpha and I64 and will not be
   supported on VAX.

 RETURN TYPE:

   No value is returned.

111  –  rpc_sm_allocate

 NAME

   rpc_sm_allocate - Allocates memory within the RPC stub memory
                     management scheme

 SYNOPSIS

   #include <rpc.h>
   idl_void_p_t rpc_sm_allocate ( unsigned long size,
                                  unsigned32 *status );

 PARAMETERS

   Input

   size      Specifies, in bytes, the size of memory to be allocated.

   Output

   status    Returns the status code from this routine.  This status code
             indicates whether the routine completed successfully or, if
             not, why not.

             Possible status codes and their meanings include:

             rpc_s_ok      Success.

 DESCRIPTION

   Applications call rpc_sm_allocate to allocate memory within the RPC
   stub memory management scheme.  Before a call to this routine, the
   stub memory management environment must have been established.  For
   manager code that is called from the stub, the stub itself normally
   establishes the necessary environment. When rpc_sm_allocate is used
   by code that is not called from the stub, the application must
   establish the required memory management environment by calling
   rpc_sm_enable_allocate.

   When the stub establishes the memory management environment, the stub
   itself frees any memory allocated by rpc_sm_allocate.  The application
   can free such memory before returning to the calling stub by calling
   rpc_sm_free.

   When the application establishes the memory management environment,
   it must free any memory allocated, either by calling rpc_sm_free or
   by calling rpc_sm_disable_allocate.

   Multiple threads may call rpc_sm_allocate and rpc_sm_free to manage
   the same memory within the stub memory management environment.  To do
   so, the threads must share the same stub memory management thread
   handle.  Applications pass thread handles from thread to thread by
   calling rpc_sm_get_thread_handle and rpc_sm_set_thread_handle.

 RETURN VALUES

   A pointer to the allocated memory.

 RELATED INFORMATION

   Functions: rpc_sm_free
              rpc_sm_enable_allocate
              rpc_sm_disable_allocate
              rpc_sm_get_thread_handle
              rpc_sm_set_thread_handle

112  –  rpc_sm_client_free

 NAME

   rpc_sm_client_free - Frees memory returned from a client stub

 SYNOPSIS

   #include <rpc.h>
   void rpc_sm_client_free ( idl_void_p_t node_to_free,
                             unsigned32 *status );

 PARAMETERS

   Input

   node_to_free
             Specifies a pointer to memory returned from a client stub.

   Output

   status    Returns the status code from this routine.  This status code
             indicates whether the routine completed successfully or, if
             not, why not.

             Possible status codes and their meanings include:

             rpc_s_ok      Success.

 DESCRIPTION

   The rpc_sm_client_free routine releases memory allocated and returned
   from a client stub. The thread calling rpc_sm_client_free must have
   the same thread handle as the thread that made the RPC call.
   Applications pass thread handles from thread to thread by calling
   rpc_sm_get_thread_handle and rpc_sm_set_thread_handle.

   This routine enables a routine to deallocate dynamically allocated
   memory returned by an RPC call without knowledge of the memory
   management environment from which it was called.

 RETURN VALUES

   None.

 RELATED INFORMATION

   Functions: rpc_sm_free
              rpc_sm_get_thread_handle
              rpc_sm_set_client_alloc_free
              rpc_sm_set_thread_handle
              rpc_sm_swap_client_alloc_free

113  –  rpc_sm_destroy_client_context

 NAME

   rpc_sm_destroy_client_context - Reclaims the client memory resources
                                   for a context handle, and sets the
                                   context handle to null

 SYNOPSIS

   #include <rpc.h>
   void rpc_sm_destroy_client_context(
                  idl_void_p_t p_unusable_context_handle,
                  unsigned32 *status );

 PARAMETERS

   Input

   p_unusable_context_handle
             Specifies the context handle that can no longer be accessed.

   Output

   status    Returns the status code from this routine.  This status code
             indicates whether the routine completed successfully or, if
             not, why not.

             Possible status codes and their meanings include:

             rpc_s_ok      Success.

 DESCRIPTION

   The rpc_sm_destroy_client_context routine is used by client
   applications to reclaim the client resources used in maintaining
   an active context handle.  Applications call this routine after a
   communications error makes the context handle unusable.  When the
   rpc_sm_destroy_client_context routine reclaims the memory resources,
   it also sets the context handle to null.

 RETURN VALUES

   None.

114  –  rpc_sm_disable_allocate

 NAME

   rpc_sm_disable_allocate - Releases resources and allocated memory
                             within the stub memory management scheme

 SYNOPSIS

   #include <rpc.h>
   void rpc_sm_disable_allocate ( unsigned32 *status );

 PARAMETERS

   Output

   status    Returns the status code from this routine.  This status code
             indicates whether the routine completed successfully or, if
             not, why not.

             Possible status codes and their meanings include:

             rpc_s_ok      Success.

 DESCRIPTION

   The rpc_sm_disable_allocate routine releases all resources acquired
   by a call to rpc_sm_enable_allocate, and any memory allocated by calls
   to rpc_sm_allocate after the call to rpc_sm_enable_allocate was made.

   The rpc_sm_enable_allocate and rpc_sm_disable_allocate routines must
   be used in matching pairs.

 RELATED INFORMATION

   Functions: rpc_sm_allocate
              rpc_sm_enable_allocate

115  –  rpc_sm_enable_allocate

 NAME

   rpc_sm_enable_allocate - Enables the stub memory managment environment

 SYNOPSIS

   #include <rpc.h>
   void rpc_sm_enable_allocate( unsigned32 *status );

 PARAMETERS

   Output

   status    Returns the status code from this routine.  This status code
             indicates whether the routine completed successfully or, if
             not, why not.

             Possible status codes and their meanings include:

             rpc_s_ok      Success.

 DESCRIPTION

   Applications can call rpc_sm_enable_allocate to establish a stub
   memory management environment in cases where one is not established
   by the stub itself.  A stub memory management environment must be
   established before any calls are made to rpc_sm_allocate.  For server
   manager code called from the stub, the stub memory management
   environment is normally established by the stub itself.  Code that is
   called from other contexts needs to call rpc_sm_enable_allocate
   before calling rpc_sm_allocate.

   For a discussion of how spawned threads acquire a stub memory
   management environment, see the rpc_sm_get_thread_handle and
   rpc_sm_set_thread_handle reference pages.

 RETURN VALUES

   None

 RELATED INFORMATION

   Functions: rpc_sm_allocate
              rpc_sm_disable_allocate

116  –  rpc_sm_free

 NAME

   rpc_sm_free - Frees memory allocated by the rpc_sm_allocate routine

 SYNOPSIS

   #include <rpc.h>
   void rpc_sm_free ( idl_void_p_t node_to_free,
                      unsigned32 *status );

 PARAMETERS

   Input

   node_to_free
             Specifies a pointer to memory allocated by rpc_sm_allocate.

   Output

   status    Returns the status code from this routine.  This status code
             indicates whether the routine completed successfully or, if
             not, why not.

             Possible status codes and their meanings include:

             rpc_s_ok      Success.

 DESCRIPTION

   Applications call rpc_sm_free to release memory allocated by
   rpc_sm_allocate.

   When the stub allocates memory within the stub memory management
   environment, manager code called from the stub can also use
   rpc_sm_free to release memory allocated by the stub.

   The thread calling rpc_sm_free must have the same thread handle
   as the thread that allocated the memory with rpc_sm_allocate.
   Applications pass thread handles from thread to thread by calling
   rpc_sm_get_thread_handle and rpc_sm_set_thread_handle.

 RETURN VALUES
   None.

 RELATED INFORMATION

   Functions: rpc_sm_allocate
              rpc_sm_get_thread_handle
              rpc_sm_set_thread_handle

117  –  rpc_sm_get_thread_handle

 NAME

   rpc_sm_get_thread_handle - Gets a thread handle for the stub memory
                              management environment

 SYNOPSIS

   #include <rpc.h>
   rpc_sm_thread_handle_t rpc_sm_get_thread_handle( unsigned32 *status );

 PARAMETERS

   Output

   status  Returns the status code from this routine.  This status code
           indicates whether the routine completed successfully or, if
           not, why not.

           Possible status codes and their meanings include:

           rpc_s_ok      Success.

 DESCRIPTION

   Applications call rpc_sm_get_thread_handle to get a thread handle
   for the current stub memory management environment. A thread that
   is managing memory within the stub memory managment scheme calls
   pc_sm_get_thread_handle to get a thread handle for its current stub
   memory management environment.  A thread that calls
   rpc_sm_set_thread_handle with this handle, is able to use the same
   memory management environment.

   When multiple threads call rpc_sm_allocate and rpc_sm_free to manage
   the same memory, they must share the same thread handle.  The thread
   that established the stub memory management environment calls
   rpc_sm_get_thread_handle to get a thread handle before spawning new
   threads that will manage the same memory.  The spawned threads then
   call rpc_sm_set_thread_handle with the handle provided by the parent
   thread.

   Typically, rpc_sm_get_thread_handle is called by a server manager
   routine before it spawns additional threads.  Normally the stub sets
   up the memory management environment for the manager routine.  The
   manager calls rpc_sm_get_thread_handle to make this environment
   available to the spawned threads.

   A thread may also use rpc_sm_get_thread_handle and
   rpc_sm_set_thread_handle to save and restore its memory
   management environment.

 RETURN VALUES

   A thread handle.

 RELATED INFORMATION

   Functions:  rpc_sm_allocate
               rpc_sm_free
               rpc_sm_set_thread_handle

118  –  rpc_sm_set_client_alloc_free

 NAME

   rpc_sm_set_client_alloc_free - Sets the memory allocation and freeing
                                  mechanisms used by the client stubs

 SYNOPSIS

    #include <rpc.h>
    void rpc_sm_set_client_alloc_free (
                   idl_void_p_t (*p_allocate) (unsigned long size),
                   void (*p_free) (idl_void_p_t ptr),
                   unsigned32 *status );

 PARAMETERS

   Input

   p_allocate
           Specifies a memory allocator routine.

   p_free  Specifies a memory free routine.  This routine is used to free
           memory allocated with the routine specified by p_allocate.

   Output

   status  Returns the status code from this routine.  This status code
           indicates whether the routine completed successfully or, if
           not, why not.

           Possible status codes and their meanings include:

           rpc_s_ok      Success.

 DESCRIPTION

   The rpc_sm_set_client_alloc_free routine overrides the default
   routines that the client stub uses to manage memory.

   The default memory management routines are ISO malloc and ISO free
   except when the remote call occurs within manager code in which case
   the default memory management routines are rpc_sm_allocate and
   rpc_sm_free.

 RETURN VALUES
   None.

 RELATED INFORMATION

   Functions: rpc_sm_allocate
              rpc_sm_free

119  –  rpc_sm_set_thread_handle

 NAME

   rpc_sm_set_thread_handle - Sets a thread handle for the stub memory
                              management environment

 SYNOPSIS

   #include <rpc.h>
   void rpc_sm_set_thread_handle ( rpc_sm_thread_handle_t id,
                                   unsigned32 *status );

 PARAMETERS

   Input

   id      Specifies a thread handle returned by a call to
           rpc_sm_get_thread_handle.

   Output

   status  Returns the status code from this routine.  This status code
           indicates whether the routine completed successfully or, if
           not, why not.

           Possible status codes and their meanings include:

           rpc_s_ok      Success.

 DESCRIPTION

   An application thread calls rpc_sm_set_thread_handle to set a thread
   handle for memory management within the stub memory management
   environment.  A thread that is managing memory within the stub memory
   managment scheme calls rpc_sm_get_thread_handle to get a thread handle
   for its current stub memory management environment.  A thread that
   calls rpc_sm_set_thread_handle with this handle is able to use the
   same memory management environment.

   When multiple threads call rpc_sm_allocate and rpc_sm_free to manage
   the same memory, they must share the same thread handle.  The thread
   that established the stub memory management environment calls
   rpc_sm_get_thread_handle to get a thread handle before spawning new
   threads that will manage the same memory.  The spawned threads then
   call rpc_sm_set_thread_handle with the handle provided by the parent
   thread.

   Typically, rpc_sm_set_thread_handle is called by a thread spawned by
   a server manager routine.  Normally the stub sets up the memory
   management environment for the manager routine and the manager calls
   rpc_sm_get_thread_handle to get a thread handle.  Each spawned thread
   then calls rpc_sm_get_thread_handle to get access to the manager's
   memory management environment.

   A thread may also use rpc_sm_get_thread_handle and
   rpc_sm_set_thread_handle to save and restore its memory
   management environment.

 RETURN VALUES

 RELATED INFORMATION

   Functions: rpc_sm_get_thread_handle
              rpc_sm_allocate
              rpc_sm_free

120  –  rpc_sm_swap_client_alloc_free

 NAME

   rpc_sm_swap_client_alloc_free - Exchanges the current memory
                                   allocation and freeing mechanism
                                   used by the client stubs with one
                                   supplied by the client

 SYNOPSIS

   #include <rpc.h>
   void rpc_sm_swap_client_alloc_free (
                 idl_void_p_t (*p_allocate) (unsigned long size),
                 void (*p_free) (idl_void_p_t ptr),
                 idl_void_p_t (**p_p_old_allocate) (unsigned long size),
                 void (**p_p_old_free) (idl_void_p_t ptr),
                 unsigned32 *status );

 PARAMETERS

   Input

   p_allocate
             Specifies a new memory allocation routine.

   p_free    Specifies a new memory free routine.

   Output

   p_p_old_allocate
             Returns the memory allocation routine in use before the
             call to this routine.

   p_p_old_free
             Returns the memory free routine in use before the call to
             this routine.

   status    Returns the status code from this routine.  This status code
             indicates whether the routine completed successfully or, if
             not, why not.

             Possible status codes and their meanings include:

             rpc_s_ok      Success.

 DESCRIPTION

   The rpc_sm_swap_client_alloc_free routine exchanges the current
   allocate and free mechanisms used by the client stubs for routines
   supplied by the caller.

 RETURN VALUES
   None.

 RELATED INFORMATION

   Functions: rpc_sm_allocate
              rpc_sm_free
              rpc_sm_set_client_alloc_free

121  –  rpc_ss_allocate

 NAME

   rpc_ss_allocate - Allocates memory within the RPC stub memory
                     management scheme

   Used by server or possibly by client applications.

 SYNOPSIS

   #include <dce/rpc.h>

   idl_void_p_t rpc_ss_allocate( idl_size_t size );

 PARAMETERS

   Input

   size      Specifies, in bytes, the size of memory to be allocated.

   Note that in ANSI standard C environments, idl_void_p_t is defined as
   void * and in other environments is defined as char *.

 DESCRIPTION

   Usually, the rpc_ss_allocate() routine is used in the manager code
   that is called from a server stub.  Memory allocated by
   rpc_ss_allocate is released by the server stub after marshalling
   any output parameters at the end of the remote call in which the
   memory was allocated.  If you want to release memory allocated by
   rpc_ss_allocate() before returning from the manager code use
   rpc_ss_free().

   You can also use rpc_ss_free() in manager code to release memory
   pointed to by a full pointer (ptr) in an input parameter.

   When the server uses rpc_ss_allocate(), the server stub creates the
   environment the routine needs.  If the parameters of the operation
   include any pointers other than those used for passing parameters by
   reference, the environment is set up automatically.

   If you need to use rpc_ss_allocate() in a manager code routine that
   does not have a pointer in any of its parameters, use an ACF and apply
   the enable_allocate attribute to the relevant operation.  This causes
   the generated server stub to set up the necessary environment.

   Note that memory allocated by allocators other than rpc_ss_allocate()
   is not released when the operation on the server side completes
   execution.

   If you want to use rpc_ss_allocate() outside the code called from a
   server stub, you must first create an environment for it by calling
   rpc_ss_enable_allocate().

   See the OSF DCE Application Development Guide for more information.

 RETURN VALUES

   A pointer to the allocated memory.

   An exception, rpc_x_no_memory, when no memory is available for
   allocation.

 RELATED INFORMATION

  Functions:  rpc_ss_free
              rpc_ss_enable_allocate
              rpc_ss_disable_allocate
              rpc_ss_get_thread_handle
              rpc_ss_set_thread_handle

122  –  rpc_ss_bind_authn_client

 NAME

   rpc_ss_bind_authn_client - Authenticates a client's identity to a
                              server from a client stub

 SYNOPSIS

   #include <rpc.h>
   void rpc_ss_bind_authn_client( rpc_binding_handle_t *binding,
                                  if_handle_t if_handle,
                                  error_status_t *status );

 PARAMETERS

   Input/Output

   binding   A pointer to the server binding handle for the remote
             procedure call to which the routine will add
             authentication and authorization context.

   Input

   if_handle
             A stub-generated data structure that specifies the interface
             of interest. The routine can use this parameter to resolve a
             partial binding or to distinguish between interfaces.

   Output

   status    Returns the status code from this routine.  This status code
             indicates whether the routine completed successfully or, if
             not, why not.

             Possible status codes and their meanings include:

             error_status_ok
                         Success.

             rpc_s_no_more_bindings
                         Directs the client stub not to look for another
                         server binding.

 DESCRIPTION

   The rpc_ss_bind_authn_client() routine is a DCE-supplied binding
   callout routine for use with the binding_callout ACF interface
   attribute.

   The binding_callout attribute enables applications to specify the
   name of a routine that the client stub will call automatically to
   modify a server binding handle with additional information before
   it initiates a remote procedure call.  This attribute is especially
   useful for applications using the automatic binding method, where
   it is the client stub that obtains the binding handle, rather than
   the application code.  The binding_callout attribute provides these
   applications with a way to gain access to a server binding handle
   from the client stub, since the handle is not accessible from the
   application code.

   Applications can specify rpc_ss_bind_authn_client() to the
   binding_callout ACF interface attribute in order to authenticate
   the client's identity to a server from the client stub before the
   remote procedure call to the server is initiated.  This routine
   performs one-way authentication: the client does not care which
   server principal receives the remote procedure call request, but
   the server verifies that the client is who the client claims to be.

   The routine sets the protection level used, the authentication
   identity, and the authentication service used to their default
   values; see the rpc_binding_set_auth_info reference pages for more
   information on these default values.  It sets the authorization
   service to perform authorization based on the client's principal name.

   Applications can also specify user-written binding callout routines
   with the binding_callout attribute to modify server binding handles
   from client stubs with other types of information.  See the OSF DCE
   Application Development Guide-Core Components for more information on
   using the binding_callout ACF attribute.

 RETURN VALUES
   None.

 RELATED INFORMATION

   Functions: rpc_binding_set_auth_info
              rpc_ep_resolve_binding
              rpc_mgmt_inq_server_princ_name

   Books: OSF DCE Application Development Guide-Introduction & Style
 		 Guide
          OSF DCE Application Development Guide-Core Components

123  –  rpc_ss_client_free

 NAME

   rpc_ss_client_free - Frees memory returned from a client stub

   Used by client applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_ss_client_free( idl_void_p_t node_to_free );

 PARAMETERS

   Input

   node_to_free
         Specifies a pointer to memory returned from a client stub.

 DESCRIPTION

   The rpc_ss_client_free() routine releases memory allocated and
   returned from a client stub. The thread calling rpc_ss_client_free()
   must have the same thread handle as the thread that made the RPC call.

   This routine enables a routine to deallocate dynamically allocated
   memory returned by an RPC call without knowledge of the memory
   management environment from which it was called.

   Note that while this routine is always called from client code, the
   code can be executing as part of another server.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_ss_free
              rpc_ss_get_thread_handle
              rpc_ss_set_client_alloc_free
              rpc_ss_set_thread_handle
              rpc_ss_swap_client_alloc_free

124  –  rpc_ss_destroy_client_context

 NAME

   rpc_ss_destroy_client_context - Reclaims the client memory resources
                                   for the context handle, and sets the
                                   context handle to NULL

   Used by client applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_ss_destroy_client_context( void *p_unusable_context_handle );

 PARAMETERS

   Input

   p_unusable_context_handle
                Specifies the context handle that can no longer be
                accessed.

 DESCRIPTION

   The rpc_ss_destroy_client_context() routine is used by the client
   application to reclaim the client resources used in maintaining an
   active context handle. Only call this after a communications error
   makes the context handle unusable.  When
   rpc_ss_destroy_client_context() reclaims the memory resources, it
   also sets the context handle to null.

 RETURN VALUES

   No value is returned.

   The rpc_ss_destroy_client_context() routine raises no exceptions.

125  –  rpc_ss_disable_allocate

 NAME

   rpc_ss_disable_allocate - Releases resources and allocated memory

   Used by client applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_ss_disable_allocate( void );

 DESCRIPTION

   The rpc_ss_disable_allocate() routine releases (disables) all
   resources acquired by a call to rpc_ss_enable_allocate(), and any
   memory allocated by calls to rpc_ss_allocate() after the call to
   rpc_ss_enable_allocate() was made.

   The rpc_ss_enable_allocate() and rpc_ss_disable_allocate() routines
   must be used in matching pairs.

   For information about rules for using memory management routines, see
   the OSF DCE Application Development Guide.

 RELATED INFORMATION

   Functions:  rpc_ss_allocate
              rpc_ss_enable_allocate

   Books: OSF DCE Application Development Guide

126  –  rpc_ss_enable_allocate

 NAME

   rpc_ss_enable_allocate - Enables the allocation of memory by the
                            rpc_ss_allocate() routine when not in
                            manager code

   Used by client applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_ss_enable_allocate( void );

 DESCRIPTION

   In sophisticated servers, it may be necessary to call manager code
   routines from different environments.  This occurs, for example, when
   the application is both a client and a server of the same interface.
   Therefore, a manager code routine may need to be called both by the
   application code and by the stub code.  If code, other than manager
   code, calls the rpc_ss_allocate() routine, it must first call
   rpc_ss_enable_allocate() to initialize the memory management
   environment that rpc_ss_allocate() uses.

   For information about rules for using memory management routines, see
   the OSF DCE Application Development Guide.

 RETURN VALUES

   An exception, rpc_x_no_memory, when there is insufficient memory
   available to set up necessary data structures.

 RELATED INFORMATION

  Functions:  rpc_ss_allocate
              rpc_ss_disable_allocate

   Books: OSF DCE Application Development Guide

127  –  rpc_ss_free

 NAME

   rpc_ss_free - Frees memory allocated by the rpc_ss_allocate() routine

   Used by server or possibly by client applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_ss_free( idl_void_p_t node_to_free );

 PARAMETERS

   Input

   node_to_free
          Specifies a pointer to memory allocated by rpc_ss_allocate().

   Note that in ANSI standard C environments, idl_void_p_t is defined
   as void * and in other environments is defined as char *.

 DESCRIPTION

   The rpc_ss_free() routine releases memory allocated by
   rpc_ss_allocate().  The thread calling rpc_ss_free() must have
   the same thread handle as the thread that allocated the memory
   with rpc_ss_allocate().  Use it only in an environment where
   rpc_ss_allocate() is used.

   If the manager code allocates memory with rpc_ss_allocate() and the
   memory is not released by rpc_ss_free() during manager code execution,
   then the server stub automatically releases the memory when the
   manager code completes execution and returns control to the stub.

   Manager code can also use rpc_ss_free() to release memory that is
   pointed to by a full pointer in an input parameter.

   For information about rules for using memory management routines,
   see the OSF DCE Application Development Guide.

 RELATED INFORMATION

   Functions: rpc_ss_allocate
              rpc_ss_get_thread_handle
              rpc_ss_set_thread_handle

   Books: OSF DCE Application Development Guide

128  –  rpc_ss_get_thread_handle

 NAME

   rpc_ss_get_thread_handle - Gets a thread handle for the manager code
                              before it spawns additional threads, or
                              for the client code when it becomes a
                              server

   Used by server or possibly by client applications.

 SYNOPSIS

   #include <dce/rpc.h>

   rpc_ss_thread_handle_t  rpc_ss_get_thread_handle( void );

 DESCRIPTION

   The rpc_ss_get_thread_handle() routine is used by a server manager
   thread when it spawns additional threads.  To spawn additional threads
   that are able to perform memory management, the server manager code
   calls rpc_ss_get_thread_handle() and passes the thread handle to each
   spawned thread.  Each spawned thread that uses rpc_ss_allocate() and
   rpc_ss_free() for memory management must first call
   rpc_ss_set_thread_handle(), using the handle obtained by the original
   manager thread.

   The rpc_ss_get_thread_handle() routine can also be used when a
   program changes from being a client to being a server.  The program
   gets a handle on its environment as a client by calling
   rpc_ss_get_thread_handle().  When the program reverts to being a
   client it re-establishes the client environment by calling
   rpc_ss_set_thread_handle(), supplying the previously obtained handle
   as a parameter.

 RETURN VALUES

   A thread handle.

 EXAMPLES

   This function determines the thread handle, creates a thread, and
   passes the thread handle to the thread so it can share the memory
   management environment of the calling thread.

        #include <pthread.h>
        #include <idlbase.h>

        pthread_t Launch_thread(
            int (*routine_to_launch)(pthread_addr_t th)
            )
        {
            rpc_ss_thread_handle_t th = rpc_ss_get_thread_handle();
            pthread_t t;

            /*
             * Create the thread and pass to it the thread handle
             * so it can use rpc_ss_set_thread_handle.
             */
            pthread_create( &t,
                            pthread_attr_default,
                            (pthread_startroutine_t)routine_to_launch,
                            (pthread_addr_t)th );

            return t;
        }

 RELATED INFORMATION

   Functions:  rpc_ss_allocate
               rpc_ss_free
               rpc_ss_set_thread_handle

129  –  rpc_ss_set_client_alloc_free

 NAME

   rpc_ss_set_client_alloc_free - Sets the memory allocation and
                                  freeing mechanism used by the client
                                  stubs, thereby overriding the default
                                  routines the client stub uses to
                                  manage memory for pointed-to nodes

   Used by client applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_ss_set_client_alloc_free(
               idl_void_p_t (*p_allocate)(idl_size_t size),
               void (*p_free)(idl_void_p_t *ptr) );

 PARAMETERS

   Input

   p_allocate
         Specifies a pointer to a routine that has the same procedure
         declaration as the malloc() routine and that is used by the
         client stub to allocate memory.

   p_free
         Specifies a pointer to a routine that has the same procedure
         declaration as the free() routine and that is used to free
         memory that was allocated using the routine pointed at by
         p_allocate.

   Note that in ANSI standard C environments, idl_void_p_t is defined
   as void * and in other environments is defined as char *.

 DESCRIPTION

   The rpc_ss_set_client_alloc_free() routine overrides the default
   routines that the client stub uses to manage memory for pointed-to
   nodes.  The default memory management routines are malloc() and
   free(), except when the remote call occurs within manager code, in
   which case the default memory management routines are
   rpc_ss_allocate() and rpc_ss_free().

   For information about rules for using memory management routines,
   see the OSF DCE Application Development Guide.

 RETURN VALUES

   An exception, rpc_x_no_memory, when there is insufficient memory
   available to set up necessary data structures.

 RELATED INFORMATION

   Functions: rpc_ss_allocate
              rpc_ss_free

   Books: OSF DCE Application Development Guide

130  –  rpc_ss_set_thread_handle

 NAME

   rpc_ss_set_thread_handle - Sets the thread handle for either a newly
                              created spawned thread or for a server
                              that was formerly a client and is ready
                              to be a client again

   Used by server or possibly by client applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_ss_set_thread_handle( rpc_ss_thread_handle_t id );

 PARAMETERS

   Input

   id   A thread handle returned by a call to rpc_ss_get_thread_handle().

 DESCRIPTION

   The rpc_ss_set_thread_handle() routine is used by a thread spawned
   in the manager code to associate itself with the main RPC manager
   thread.  Each spawned thread that uses rpc_ss_allocate() and
   rpc_ss_free() for memory management must call
   rpc_ss_set_thread_handle(), using the handle that the main RPC
   manager thread obtained through rpc_ss_get_thread_handle().

   The rpc_ss_set_thread_handle() routine can also be used by a program
   that originally was a client, then became a server, and is now
   reverting to a client.  The program must re-establish the client
   environment by calling the rpc_ss_set_thread_handle() routine,
   supplying the handle it received (through rpc_ss_get_thread_handle())
   prior to becoming a server, as a parameter.

 RETURN VALUES

   An exception, rpc_x_no_memory, when there is insufficient memory
   available to set up necessary data structures.

 EXAMPLES

   When this function is invoked within a spawned thread, its argument
   is the thread handle of the calling thread. This example assumes the
   data passed to the thread consists of only the middle thread.

        #include <pthread.h>
        #include <dce/idlbase.h>

         int helper_thread (pthread_addr_t th)
         {
             /*
              * Set the memory management environment to match
              * the parent environment.
              */
              rpc_ss_set_thread_handle(rpc_ss_thread_handle_t)th;
             /*
              * Real work of this thread follows here ...
              */
          }

 RELATED INFORMATION

   Functions: rpc_ss_get_thread_handle
              rpc_ss_allocate
              rpc_ss_free

   Books: OSF DCE Application Development Guide

131  –  rpc_ss_swap_client_alloc_free

 NAME

   rpc_ss_swap_client_alloc_free - Exchanges the current memory
                                   allocation and freeing mechanism
                                   used by the client stubs with one
                                   supplied by the client

   Used by client applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_ss_swap_client_alloc_free(
           idl_void_p_t (*p_allocate)(idl_size_t size),
           void (*p_free)(idl_void_p_t ptr),
           idl_void_p_t (**p_p_old_allocate)(idl_size_t size),
           void (**p_p_old_free)(idl_void_p_t ptr) );

 PARAMETERS

   Input

   p_allocate
         Specifies a pointer to a routine that has the same procedure
         declaration as the malloc() routine and that is used for
         allocating client stub memory.

   p_free
         Specifies a pointer to a routine that has the same procedure
         declaration as the free() routine and that is used for freeing
         client stub memory.

   Output

   p_p_old_allocate
         Specifies a pointer to a pointer to a routine that has the same
         procedure declaration as the malloc() routine. A pointer to the
         routine that was previously used to allocate client stub memory
         is returned in this parameter.

   p_p_old_free
         Specifies a pointer to a pointer to a routine that has the same
         procedure declaration as the free() routine. A pointer to the
         routine that was previously used to free client stub memory is
         returned in this parameter.

   Note that in ANSI standard C environments, idl_void_p_t is defined
   as void * and in other environments is defined as char *.

 DESCRIPTION

   The rpc_ss_swap_client_alloc_free() routine exchanges the current
   client allocate and free mechanism used by the client stubs for one
   supplied by the caller. If it is appropriate for the client code
   called by an application to use a certain memory allocation and
   freeing mechanism, regardless of its caller's state, the client code
   can swap its own mechanism into place on entry, replacing its
   caller's mechanism. It can then swap the caller's mechanism back
   into place prior to returning.

   For information about rules for using memory management routines,
   see the OSF DCE Application Development Guide.

 RETURN VALUES

   An exception, rpc_x_no_memory, is returned when there is insufficient
   memory available to set up necessary data structures.

 RELATED INFORMATION

   Functions: rpc_ss_allocate
              rpc_ss_free
              rpc_ss_set_client_alloc_free

   Books: OSF DCE Application Development Guide

132  –  rpc_string_binding_compose

 NAME

   rpc_string_binding_compose - Combines the components of a string
                                binding into a string binding

   Used by client or server applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_string_binding_compose( unsigned_char_t *obj_uuid,
                                    unsigned_char_t *protseq,
                                    unsigned_char_t *network_addr,
                                    unsigned_char_t *endpoint,
                                    unsigned_char_t *options,
                                    unsigned_char_t **string_binding,
                                    unsigned32 *status );

 PARAMETERS

   Input

   obj_uuid
       Specifies a NULL-terminated string representation of an object
       UUID.

   protseq
       Specifies a NULL-terminated string representation of a protocol
       sequence.

   network_addr
       Specifies a NULL-terminated string representation of a network
       address.

   endpoint
       Specifies a NULL-terminated string representation of an endpoint.

   options
       Specifies a NULL-terminated string representation of network
       options.

   Output

   string_binding
       Returns a pointer to a NULL-terminated string representation of
       a binding handle.

       Specify NULL to prevent the routine from returning this argument.
       In this case the application does not call rpc_string_free().

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if not,
       why not.  The possible status code and its meaning is as follows:

       rpc_s_ok            Success.

 DESCRIPTION

   The rpc_string_binding_compose() routine combines string binding
   handle components into a string binding handle.

   The RPC runtime allocates memory for the string returned in the
   string_binding parameter. The application calls  rpc_string_free()
   to deallocate that memory.

   Specify NULL or provide a null string (\0) for each input string
   that has no data.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_binding_from_string_binding
              rpc_binding_to_string_binding
              rpc_string_binding_parse
              rpc_string_free
              uuid_to_string

133  –  rpc_string_binding_parse

 NAME

   rpc_string_binding_parse - Returns, as separate strings, the
                              components of a string binding

   Used by client or server applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_string_binding_parse( unsigned_char_t *string_binding,
                                  unsigned_char_t **obj_uuid,
                                  unsigned_char_t **protseq,
                                  unsigned_char_t **network_addr,
                                  unsigned_char_t **endpoint,
                                  unsigned_char_t **network_options,
                                  unsigned32 *status );

 PARAMETERS

   Input

   string_binding
       Specifies a NULL-terminated string representation of a binding.

   Output

   obj_uuid
       Returns a pointer to a NULL-terminated string representation
       of an object UUID.  Specify NULL to prevent the routine from
       returning this parameter.  In this case the application does
       not call rpc_string_free().

   protseq
       Returns a pointer to a NULL-terminated string representation
       of a protocol sequence.  Specify NULL to prevent the routine
       from returning this parameter.  In this case the application
       does not call rpc_string_free().

   network_addr
       Returns a pointer to a NULL-terminated string representation
       of a network address.  Specify NULL to prevent the routine
       from returning this parameter.  In this case the application
       does not call rpc_string_free().

   endpoint
       Returns a pointer to a NULL-terminated string representation of
       an endpoint.  Specify NULL to prevent the routine from returning
       this parameter. In this case the application does not call
       rpc_string_free().

   network_options
       Returns a pointer to a NULL-terminated string representation of
       network options.  Specify NULL to prevent the routine from
       returning this parameter.  In this case the application does
       not call rpc_string_free().

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if not,
       why not.  The possible status codes and their meanings are as
       follows:

       rpc_s_ok                        Success.

       rpc_s_invalid_string_binding    Invalid string binding.

 DESCRIPTION

   The rpc_string_binding_parse() routine parses a string representation
   of a binding handle into its component fields.

   The RPC runtime allocates memory for each component string the
   routine returns.  The application calls rpc_string_free() once for
   each returned string to deallocate the memory for that string.

   If any field of the string_binding field is empty,
   rpc_string_binding_parse() returns the empty string in the
   corresponding output parameter.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_binding_from_string_binding
              rpc_binding_to_string_binding
              rpc_string_binding_compose
              rpc_string_free
              uuid_from_string

134  –  rpc_string_free

 NAME

   rpc_string_free - Frees a character string allocated by the runtime

   Used by client, server, or management applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void rpc_string_free( unsigned_char_t **string,
                         unsigned32 *status );

 PARAMETERS

   Input/Output

   string
       Specifies the address of the pointer to the character string to
       free.  The value NULL is returned.

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if not,
       why not.  The possible status code and its meaning is as follows:

       rpc_s_ok             Success.

 DESCRIPTION

   The rpc_string_free() routine deallocates the memory occupied by a
   character string returned by the RPC runtime.

   An application must call this routine once for each character string
   allocated and returned by calls to other RPC runtime routines.  The
   names of these routines appear at the end of this reference page.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: dce_error_inq_text
              rpc_binding_inq_auth_client
              rpc_binding_inq_auth_info
              rpc_binding_to_string_binding
              rpc_mgmt_ep_elt_inq_next
              rpc_mgmt_inq_server_princ_name
              rpc_ns_binding_inq_entry_name
              rpc_ns_entry_expand_name
              rpc_ns_group_mbr_inq_next
              rpc_ns_profile_elt_inq_next
              rpc_string_binding_compose
              rpc_string_binding_parse
              uuid_to_string

135  –  uuid_compare

 NAME

   uuid_compare - Compares two UUIDs and determines their order

   Used by client, server, or management applications.

 SYNOPSIS

   #include <dce/uuid.h>

   signed32 uuid_compare( uuid_t *uuid1,
                          uuid_t *uuid2,
                          unsigned32 *status );

 PARAMETERS

   Input

   uuid1
       Specifies a pointer to a UUID. This UUID is compared with the UUID
       specified in uuid2.  Use the value NULL to specify a nil UUID for
       this parameter.

   uuid2
       Specifies a pointer to a UUID. This UUID is compared with the UUID
       specified in uuid1.  Use the value NULL to specify a nil UUID for
       this parameter.

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if not,
       why not.  The possible status codes and their meanings are as
       follows:

       uuid_s_ok                 Success.

       uuid_s_bad_version        Bad UUID version.

 DESCRIPTION

   The uuid_compare() routine compares two UUIDs and determines their
   order.  A nil UUID is considered the first element in order.  The
   order of UUIDs is defined by the RPC architecture and is not a
   temporal (related to time) ordering.  Comparing two specific UUIDs
   always returns the same result regardless of the implementation or
   system architecture.

   You can use this routine to sort data with UUIDs as a key.

 RETURN VALUES

   Returns one of the following constants:

   -1  The uuid1 parameter precedes the uuid2 parameter in order.

    0  The uuid1 parameter is equal to the uuid2 parameter in order.

    1  The uuid1 parameter follows the uuid2 parameter in order.

   Note that a value of 0 (zero) has the same meaning as if
   uuid_equal(&uuid1, &uuid2) returned a value of TRUE.

   A nil UUID is the first UUID in order.  This means the following:

     +  If uuid1 is NULL and uuid2 is non-nil, the routine returns -1.

     +  If uuid1 is NULL and uuid2 is NULL, the routine returns 0.

     +  If uuid1 is non-nil and uuid2 is NULL, the routine returns 1.

 RELATED INFORMATION

   Functions: uuid_equal
              uuid_is_nil

136  –  uuid_create

 NAME

   uuid_create - Creates a new UUID

   Used by client, server, or management applications.

 SYNOPSIS

   #include <dce/uuid.h>

   void uuid_create( uuid_t *uuid,
                     unsigned32 *status );

 PARAMETERS

   Input

   None.

   Output

   uuid
       Returns the new UUID.

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if not,
       why not.  The possible status codes and their meanings are as
       follows:

       uuid_s_ok  Success.

       uuid_s_getconf_failure
                  Cannot get network interface device configuration.

       uuid_s_no_address
                  Cannot get Ethernet hardware address.

       uuid_s_socket_failure
                  Cannot create socket.

 DESCRIPTION

   The uuid_create() routine creates a new UUID.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: uuid_create_nil
              uuid_from_string
              uuid_to_string

137  –  uuid_create_nil

 NAME

   uuid_create_nil - Creates a nil UUID

   Used by client, server, or management applications.

 SYNOPSIS

   #include <dce/uuid.h>

   void uuid_create_nil( uuid_t *nil_uuid,
                         unsigned32 *status );

 PARAMETERS

   Input

   None.

   Output

   nil_uuid
        Returns a nil UUID.

   status
        Returns the status code from this routine.  This status code
        indicates whether the routine completed successfully or, if
        not, why not.  The possible status code and its meaning is as
        follows:

        uuid_s_ok              Success.

 DESCRIPTION

   The uuid_create_nil() routine creates a nil UUID.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: uuid_create

138  –  uuid_equal

 NAME

   uuid_equal - Determines if two UUIDs are equal

   Used by client, server, or management applications.

 SYNOPSIS

   #include <dce/uuid.h>

   boolean32 uuid_equal( uuid_t *uuid1,
                         uuid_t *uuid2,
                         unsigned32 *status );

 PARAMETERS

   Input

   uuid1
       Specifies a pointer to a UUID. This UUID is compared with the
       UUID specified in uuid2.  Supply the value NULL to specify a nil
       UUID for this parameter.

   uuid2
       Specifies a pointer to a UUID. This UUID is compared with the
       UUID specified in uuid1.  Supply the value NULL to specify a nil
       UUID for this parameter.

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if not,
       why not.  The possible status codes and their meanings are as
       follows:

       uuid_s_ok             Success.

       uuid_s_bad_version    Bad UUID version.

 DESCRIPTION

   The uuid_equal() routine compares two UUIDs and determines if they
   are equal.

 RETURN VALUES

   The possible return values and their meanings are as follows:

   TRUE    The uuid1 parameter is equal to the uuid2 parameter.
           Parameter status contains the status code uuid_s_ok.

   FALSE   The uuid1 parameter is not equal to the uuid2 parameter.

 RELATED INFORMATION

   Functions: uuid_compare

139  –  uuid_from_string

 NAME

   uuid_from_string - Converts a string UUID to its binary representation

   Used by client, server, or management applications.

 SYNOPSIS

   #include <dce/uuid.h>

   void uuid_from_string( unsigned_char_t *string_uuid,
                          uuid_t *uuid,
                          unsigned32 *status );

 PARAMETERS

   Input

   string_uuid
         Specifies a string representation of a UUID.  Supply the value
         NULL or the null string (\0) to specify a nil UUID.

   Output

   uuid  Returns the binary form of the UUID specified by the string_uuid
         parameter into the address specified by this parameter.

   status
         Returns the status code from this routine.  This status code
         indicates whether the routine completed successfully or, if
         not, why not.  The possible status codes and their meanings
         are as follows:

         uuid_s_ok    Success.

         uuid_s_bad_version
                      Bad UUID version.

         uuid_s_invalid_string_uuid
                      Invalid format for a string UUID.

 DESCRIPTION

   An application calls the uuid_from_string() routine to convert a
   string UUID to its binary representation.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: uuid_to_string

140  –  uuid_hash

 NAME

   uuid_hash - Creates a hash value for a UUID

   Used by client, server, or management applications.

 SYNOPSIS

   #include <dce/uuid.h>

   unsigned16 uuid_hash( uuid_t *uuid,
                         unsigned32 *status );

 PARAMETERS

   Input

   uuid
       Specifies the UUID for which a hash value is created.  Supply
       NULL to specify a nil UUID for this parameter.

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if not,
       why not.  The possible status codes and their meanings are as
       follows:

       uuid_s_ok                 Success.

       uuid_s_bad_version        Bad UUID version.

 DESCRIPTION

   The uuid_hash() routine generates a hash value for a specified UUID.

   Note that the return value for a single uuid value may differ across
   platforms.

 RETURN VALUES

   Returns a hash value for the specified UUID.

141  –  uuid_is_nil

 NAME

   uuid_is_nil - Determines if a UUID is nil

   Used by client, server, or management applications.

 SYNOPSIS

   #include <dce/uuid.h>

   boolean32 uuid_is_nil( uuid_t *uuid,
                          unsigned32 *status );

 PARAMETERS

   Input

   uuid
       Specifies a UUID to test as a nil UUID.  Supply NULL to specify
       a nil UUID for this parameter.

   Output

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if not,
       why not.  The possible status codes and their meanings are as
       follows:

       uuid_s_ok             Success.

       uuid_s_bad_version    Bad UUID version.

 DESCRIPTION

   The uuid_is_nil() routine determines whether the specified UUID is a
   nil UUID. This routine yields the same result as if an application did
   the following:

     +  Called the uuid_create_nil() routine.

     +  Called the uuid_equal() routine to compare the returned nil
        UUID to the UUID specified in the uuid parameter.

 RETURN VALUES

   The possible return values and their meanings are as follows:

   TRUE    The uuid parameter is a nil UUID.  Parameter status contains
           the status code uuid_s_ok.

   FALSE    The uuid parameter is not a nil UUID.

 RELATED INFORMATION

   Functions: uuid_compare
              uuid_create_nil
              uuid_equal

142  –  uuid_to_string

 NAME

   uuid_to_string - Converts a UUID from a binary representation to
                    a string representation

   Used by client, server, or management applications.

 SYNOPSIS

   #include <dce/uuid.h>

   void uuid_to_string( uuid_t *uuid,
                        unsigned_char_t **string_uuid,
                        unsigned32 *status );

 PARAMETERS

   Input

   uuid  Specifies a UUID in its binary format.  Supply NULL to specify
         a nil UUID for this parameter.

   Output

   string_uuid
         Returns a pointer to the string representation of the UUID
         specified in the uuid parameter.  Specify NULL for this
         parameter to prevent the routine from returning this
         information.

   status
         Returns the status code from this routine.  This status code
         indicates whether the routine completed successfully or, if
         not, why not.  The possible status codes and their meanings
         are as follows:

         uuid_s_ok               Success.

         uuid_s_bad_version      Bad UUID version.

 DESCRIPTION

   The uuid_to_string() routine converts a UUID from its binary
   representation to its string representation.

   The RPC runtime allocates memory for the string returned in the
   string_uuid parameter. The application calls rpc_string_free() to
   deallocate that memory.  It is not necessary to call
   rpc_string_free() when you supply NULL for the string_uuid
   parameter.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: rpc_string_free
              uuid_from_string

143  –  wchar_t_from_netcs

 NAME

   wchar_t_from_netcs - Converts international character data from a
                        network code set to a local code set

   Used by client and server applications.

 SYNOPSIS

   #include <dce/codesets_stub.h>

   void wchar_t_from_netcs( rpc_binding_handle_t binding,
                            unsigned32 network_code_set_value,
                            idl_byte *network_data,
                            unsigned32 network_data_length,
                            unsigned32 local_buffer_size,
                            wchar_t *local_data,
                            unsigned32 *local_data_length,
                            error_status_t *status );

 PARAMETERS

   Input

   binding
       Specifies the target binding handle from which to obtain code set
       conversion information. When called from the client stub, this
       value is the binding handle of a compatible server returned by the
       rpc_ns_binding_import_next() or rpc_ns_binding_select() routine.
       When called from the server stub, this value is a pointer to
       binding information that the client stub passed in the RPC call.

   network_code_set_value
       The registered hexadecimal integer value that represents the code
       set that was used to transmit character data over the network.
       In general, the "network" code set is the code set that the
       client application's code sets evaluation routine has determined
       to be compatible for this client and server.  When the caller is
       the client stub, this value is the receiving tag.  When the
       caller is the server stub, this value is the sending tag.

   network_data
       A pointer to the international character data that has been
       received, in the network code set encoding.

   network_data_length
       The number of byte data elements to be converted. This is the
       size of the byte string that was sent through the network.

   local_buffer_size
       A pointer to the buffer size to be allocated to contain the
       converted data, in units of wchar_t. The value specified in
       this parameter is the local buffer size returned by the
       wchar_t_local_size() routine.

   Output

   local_data
       A pointer to the converted data, in wchar_t format.

   local_data_length
       The length of the converted data, in units of wchar_t.  Specify
       NULL if a fixed array is to be converted.

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if not,
       why not.  The possible status codes and their meanings are as
       follows:

       rpc_s_ok       Success.

       rpc_s_ss_incompatible_codesets
                      The specified code set does not match the code set
                      specified in the sending tag in the binding handle.
                      If this error occurs in the server stub, an
                      exception is raised to the client application.

   When the routine is running the host converter routines, the following
   errors can be returned:

       rpc_s_ss_invalid_char_support

       rpc_s_ss_short_conv_buffer

       rpc_s_ss_iconv_error (HP-UX reference platform only)

       rpc_s_ss_no_memory (HP-UX reference platform only)

   When invoked from the server stub, this routine calls the
   dce_cs_loc_to_rgy() routine and the host converter routines.  If
   one of these routines returns an error, an exception is raised to
   the client application.

 DESCRIPTION

   The wchar_t_from_netcs() routine belongs to a set of DCE RPC routines
   for use by client and server applications that are transferring
   international character data in a heterogeneous character set and code
   sets environment.

   The wchar_t_from_netcs() routine is one of the DCE RPC stub code set
   conversion routines that RPC stubs use before they marshall or
   unmarshall data to convert international character data to and from
   local and network code sets.

   Client and server stubs call the wchar_t_*_netcs routines when the
   wchar_t type has been specified as the local data type using the
   cs_char attribute in the attribute configuration file for the
   application.

   Client and server stubs call the wchar_t_from_netcs() routine before
   they unmarshall the international character data received from the
   network.  The routine takes a binding handle, a code set value that
   identifies the code set used to transfer international character data
   over the network, the address of the network data, in idl_byte format,
   that may need to be converted, and the data length, in units of
   idl_byte.

   The routine compares the sending code set to the local code set
   currently in use. If the routine finds that code set conversion is
   necessary, (because the local code set differs from the code set
   specified to be used on the network), it determines which host code
   set converter to call to convert the data and then invokes that
   converter.

   The routine then returns the converted data, in wchar_t format.  If
   the data is a varying, conformant, or conformant varying array, the
   routine also returns the length of the converted data, in units of
   wchar_t.

   Applications can specify local data types other than cs_byte and
   wchar_t (the local data types for which DCE RPC supplies stub code
   set conversion routines) with the cs_char ACF attribute. In this
   case, the application must also supply local_type_to_netcs() and
   local_type_from_netcs() stub conversion routines for this type.

   Permissions Required

   No permissions are required.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: cs_byte_from_netcs
              cs_byte_to_netcs
              wchar_t_to_netcs

144  –  wchar_t_local_size

 NAME

   wchar_t_local_size - Calculates the necessary buffer size for code
                        set conversion from a network code set to a
                        local code set

   Used by client and server applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void wchar_t_local_size( rpc_binding_handle_t binding,
                            unsigned32 network_code_set_value,
                            unsigned32 network_buffer_size,
                            idl_cs_convert_t *conversion_type,
                            unsigned32 *local_buffer_size,
                            error_status_t *status );

 PARAMETERS

   Input

   binding
       Specifies the target binding handle from which to obtain buffer
       size evaluation information. When called from the client stub,
       this value is the binding handle of a compatible server returned
       by the rpc_ns_binding_import_next() or rpc_ns_binding_select()
       routine.  When called from the server stub, this value is a
       pointer to binding information that the client stub passed in
       the RPC call.

   network_code_set_value
       The registered hexadecimal integer value that represents the code
       set used to transmit character data over the network.  In general,
       the "network" code set is the code set that the client
       application's code sets evaluation routine has determined to be
       compatible for this client and server.  When the caller is the
       client stub, this value is the receiving tag.  When the caller
       is the server stub, this value is the sending tag.

   network_buffer_size
       The size, in units of idl_byte, of the buffer that is allocated
       for the international character data, For a conformant or
       conformant varying array, this value is the network value of the
       size_is variable for the array; that is, the value is the size of
       the unmarshalled string if no conversion is done.

   Output

   conversion_type
       A pointer to the enumerated type defined in dce/idlbase.h that
       indicates whether data conversion is necessary and whether or not
       the existing buffer is sufficient for storing the results of the
       conversion. Since idl_byte to wchar_t conversion always takes
       place, and idl_byte and wchar_t require a different number of
       bytes, the conversion type is always idl_cs_new_buffer_convert,
       which means that the converted data must be written to a new
       buffer.

   local_buffer_size
       A pointer to the buffer size that needs to be allocated to contain
       the converted data, in units of wchar_t.  This value is to be used
       as the local value of the size_is variable for the array, and is
       non-NULL only if a conformant or conformant varying array is to be
       unmarshalled.  A value of NULL in this parameter indicates that a
       fixed or varying array is to be unmarshalled.

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if not,
       why not.

       The possible status codes and their meanings are as follows:

       rpc_s_ok   Success.

       rpc_s_ss_incompatible_codesets
                  The specified code set does not match the code set
                  specified in the sending tag in the binding handle.
                  If this error occurs in the server stub, an exception
                  is raised to the client application.

   When invoked from the server stub, this routine calls the routines
   dce_cs_loc_to_rgy() and rpc_rgy_get_max_bytes().  If either of these
   routines returns an error, the wchar_t_local_size() routine raises an
   exception to the client application.

 DESCRIPTION

   The wchar_t_local_size() routine belongs to a set of DCE RPC routines
   for use by client and server applications that are transferring
   international character data in a heterogeneous character set and
   code sets environment.

   The wchar_t_local_size() routine is one of the DCE RPC buffer sizing
   routines that RPC stubs use before they marshall or unmarshall data
   to determine whether or not the buffers allocated for code set
   conversion need to be enlarged to hold the converted data.  The buffer
   sizing routines determine the type of conversion required and
   calculate the size of the necessary buffer (if a conformant or
   conformant varying array is to be marshalled).  The RPC stub then
   allocates a buffer of that size before it calls one of the code set
   conversion routines.

   Client and server stubs call the wchar_t_*_size routines when the
   wchar_t type has been specified as the argument to the cs_char
   attribute in the attribute configuration file for the application.
   Applications do not call wchar_t_local_size() routine directly.
   Client and server stubs call the routine before they unmarshall any
   data.  The stubs pass the routine a binding handle and a code set
   value that identifies the code set that was used to transfer
   international character data over the network. The stubs also
   specify the network storage size of the data, in units of idl_byte.

   When called from a client stub, the wchar_t_local_size() routine
   determines the value of conversion_type from conversion method and
   tag information set up in the binding handle by a code sets
   evaluation routine or a tag-setting routine.  Since idl_byte to
   wchar_t require different numbers of bytes to encode one character
   unit, the routine always sets the value to idl_cs_new_buffer_convert,
   which means that the converted data must be written to a new buffer.
   The routine sets the conversion_type parameter to this value and, if
   a conformant or conformant varying array is to be unmarshalled,
   calculates a new buffer size by dividing the value of
   network_buffer_size by the number of bytes required to encode one
   wchar_t unit.  The routine returns the new buffer size in the
   local_buffer_size parameter. The size is specified in units of
   wchar_t, which is the local representation used for international
   character data.

   In cases where the binding handle does not contain the results of
   character and code sets evaluation, or where it is being called from
   the server stub, the wchar_t_local_size() routine determines the
   value of conversion_type itself using the local code set value and
   the code set value passed in the network_code_set_value parameter
   and returns the appropriate conversion_type value.  If a conformant
   or conformant varying array is to be unmarshalled, the routine
   calculates the size of this new buffer (by multiplying the value of
   network_buffer_size by dividing the value of network_buffer_size by
   the number of bytes required to encode one wchar_t unit, and returns
   the results, in units of wchar_t, in local_buffer_size.

   Permissions Required

   No permissions are required.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: byte_net_size
              byte_local_size
              wchar_t_net_size

145  –  wchar_t_net_size

 NAME

   wchar_t_net_size - Calculates the necessary buffer size for code set
                      conversion from a local code set to a network code
                      set

   Used by client and server applications.

 SYNOPSIS

   #include <dce/rpc.h>

   void wchar_t_net_size( rpc_binding_handle_t binding,
                          unsigned32 network_code_set_value,
                          unsigned32 local_buffer_size,
                           idl_cs_convert_t *conversion_type,
                          unsigned32 *network_buffer_size,
                          error_status_t *status );

 PARAMETERS

   Input

   binding
       Specifies the target binding handle from which to obtain buffer
       size evaluation information. When called from the client stub,
       this value is the binding handle of a compatible server returned
       by the rpc_ns_binding_import_next() or rpc_ns_binding_select()
       routine.  When called from the server stub, this value is a
       pointer to binding infor mation that the client stub passed in
       the RPC call.

   network_code_set_value
       The registered hexadecimal integer value that represents the code
       set to be used to transmit character data over the network.  In
       general, the "network" code set is the code set that the client
       application's code sets evaluation routine has determined to be
       compatible for this client and server.  When the caller is the
       client stub, this value is the sending tag.  When the caller is
       the server stub, this value is the receiving tag.

   local_buffer_size
       The size, in units of wchar_t, of the buffer that is allocated
       for the international character data.  This value is the local
       value of the size_is variable for the array; that is, the value
       is the size of the marshalled string if no conversion is done.

   Output

   conversion_type
       A pointer to the enumerated type defined in dce/idlbase.h that
       indicates whether data conversion is necessary and whether or
       not the existing buffer is sufficient for storing the results of
       the conversion.  Because wchar_t to cs_byte conversion always
       takes place, and because wchar_t and cs_byte are different units,
       the conversion type returned is always idl_cs_new_buffer_convert,
       which means that the converted data must be written to a new
       buffer.

   network_buffer_size
       A pointer to the buffer size that needs to be allocated to contain
       the converted data, in units of idl_byte. This value is to be used
       as the network value of the size_is variable for the array, and is
       non-NULL only if a conformant or conformant varying array is to be
       marshalled.  A value of NULL in this parameter indicates that a
       fixed or varying array is to be marshalled.

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if not,
       why not.

       The possible status codes and their meanings are as follows:

       rpc_s_ok       Success.

       rpc_s_ss_incompatible_codesets
                  The specified code set does not match the code set
                  specified in the sending tag in the binding handle.
                  If this error occurs in the server stub, an exception
                  is raised to the client application.

   When invoked from the server stub, this routine calls the routines
   dcs_cs_loc_to_rgy() and rpc_rgy_get_max_bytes().  If either of these
   routines returns an error, the wchar_t_net_size() routine raises an
   exception to the client application.

 DESCRIPTION

   The wchar_t_net_size() routine belongs to a set of DCE RPC routines
   for use by client and server applications that are transferring
   international character data in a heterogeneous character set and
   code sets environment.

   The wchar_t_net_size() routine is one of the DCE RPC buffer sizing
   routines that RPC stubs use before they marshall or unmarshall data
   to determine whether or not the buffers allocated for code set
   conversion need to be enlarged to hold the converted data.  The
   buffer sizing routines determine the type of conversion required
   and calculate the size of the necessary buffer (if a conformant or
   conformant varying array is to be marshalled).  The RPC stub then
   allocates a buffer of that size before it calls one of the code set
   conversion routines.

   Client and server stubs call the wchar_t_*_size routines when the
   wchar_t type has been specified as the local data type with the
   cs_char attribute in the attribute configuration file for the
   application.  Applications do not call the wchar_t_net_size() routine
   directly.  Client and server stubs call the routine before they
   marshall any data.  The stubs pass the routine a binding handle and a
   code set value that identifies the code set to be used to transfer
   international character data over the network. The stubs also specify
   the local storage size of the data, in units of wchar_t.

   When called from a client stub, the wchar_t_net_size routine
   determines the value of conversion_type from conversion method and
   tag information set up in the binding handle by a code sets
   evaluation routine or a tag-setting routine.  Since wchar_t and
   idl_byte are completely different data types, the routine always
   sets the value to idl_cs_new_buffer_convert.  The routine sets the
   conversion_type parameter to this value and, if a conformant or
   conformant varying array is to be marshalled, calculates a new
   buffer size by multiplying the value of local_buffer_size by the
   byte size for wchar_t.  The routine returns the new buffer size in
   the network_buffer_size parameter. The size is specified in units
   of idl_byte, which is the network representation used for
   international character data.

   In cases where the binding handle does not contain the results of
   character and code sets evaluation, or where it is being called from
   the server stub, the wchar_t_net_size routine determines the value of
   conversion_type itself using the local code set value and the code set
   value passed in the network_code_set_value parameter, and returns the
   appropriate conversion_type value.  If a conformant or conformant
   varying array is to be marshalled, and the routine finds that a new
   buffer is required to hold the converted data, the routine calculates
   the size of this new buffer (by multiplying the value of
   local_buffer_size by sizeof(wchar_t); that is, the number of bytes
   required to encode one wchar_t data type, returns the results, in
   units of idl_byte, in network_buffer_size.

   Permissions Required

   No permissions are required.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: byte_local_size
              byte_net_size
              wchar_t_local_size

146  –  wchar_t_to_netcs

 NAME

   wchar_t_to_netcs - Converts international character data from a local
                      code set to a network code set

   Used by client and server applications.

 SYNOPSIS

   #include <dce/codesets_stub.h>

   void wchar_t_to_netcs( rpc_binding_handle_t binding,
                          unsigned32 network_code_set_value,
                          wchar_t *local_data,
                          unsigned32 local_data_length,
                          idl_byte *network_data,
                          unsigned32 *network_data_length,
                          error_status_t *status );

 PARAMETERS

   Input

   binding
       Specifies the target binding handle from which to obtain code set
       conversion information. When called from the client stub, this
       value is the binding handle of a compatible server returned by the
       rpc_ns_binding_import_next() or rpc_ns_binding_select() routine.
       When called from the server stub, this value is a pointer to
       binding information that the client stub passed in the RPC call.

   network_code_set_value
       The registered hexadecimal integer value that represents the code
       set to be used to transmit character data over the network.  In
       general, the "network" code set is the code set that the client
       application's code sets evaluation routine has determined to be
       compatible for this client and server.  When the caller is the
       client stub, this value is the sending tag.  When the caller is
       the server stub, this value is the receiving tag.

   local_data
       A pointer to the international character data to be transmitted,
       in the local code set encoding.

   local_data_length
       The number of wchar_t data elements to be converted. For a
       varying array or a conformant varying array, this value is the
       local value of the length_is variable.  For a conformant array,
       this value is the local value of the size_is variable.  For a
       fixed array, the value is the array size specified in the
       interface definition.

   Output

   network_data
       A pointer to the converted data, in idl_byte format.

   network_data_length
       A pointer to the length of the converted data, in units of
       idl_byte.  Specify NULL if a fixed or conformant array is to
       be converted.

   status
       Returns the status code from this routine.  This status code
       indicates whether the routine completed successfully or, if not,
       why not.  The possible status codes and their meanings are as
       follows:

       rpc_s_ok       Success.

       rpc_s_ss_incompatible_codesets
                      The specified code set does not match the code set
                      specified in the sending tag in the binding handle.
                      If this error occurs in the server stub, an
                      exception is raised to the client application.

   When this routine is running the host converter routines, the
   following errors can be returned:

       rpc_s_ss_invalid_char_input

       rpc_s_ss_short_conv_buffer

       rpc_s_ss_iconv_error (HP-UX reference platform only)

       rpc_s_ss_no_memory (HP-UX reference platform only)

   When invoked from the server stub, this routine calls the
   dce_cs_loc_to_rgy() routine and host converter routines.  If any of
   these routines returns an error, an exception is raised to the
   client application.

 DESCRIPTION

   The wchar_t_to_netcs() routine belongs to a set of DCE RPC routines
   for use by client and server applications that are transferring
   international character data in a heterogeneous character set and
   code sets environment.

   The wchar_t_to_netcs() routine is one of the DCE RPC stub code set
   conversion routines that RPC stubs use before they marshall or
   unmarshall data to convert international character data to and from
   local and network code sets.

   Client and server stubs call the wchar_t_*_netcs() routines when
   the wchar_t type has been specified as the local data type with the
   cs_char attribute in the attribute configuration file for the
   application.

   Client and server stubs call the wchar_t_to_netcs() routine before
   they marshall any data. The routine takes a binding handle, a code
   set value that identifies the code set to be used to transfer
   international character data over the network, the address of the
   data that may need to be converted, and the length of the data, in
   units of wchar_t.

   The routine first converts the character data from wchar_t values to
   idl_byte values. The routine next compares the sending code set to
   the local code set currently in use. If the routine finds that code
   set conversion is necessary, (because the local code set differs from
   the code set specified to be used on the network), it determines which
   host code set converter to call to convert the data and then invokes
   that converter.

   The routine then returns the converted data, in units of idl_byte.
   If the data is a varying, conformant, or conformant varying array,
   the routine also returns the length of the converted data, in units
   of idl_byte.

   Applications can specify local data types other than cs_byte and
   wchar_t (the local data types for which DCE RPC supplies stub support
   routines for code set conversion) with the cs_char ACF attribute.  In
   this case, the application must also supply local_type_to_netcs() and
   local_type_from_netcs() stub conversion routines for the application-
   defined local type.

   Permissions Required

   No permissions are required.

 RETURN VALUES

   No value is returned.

 RELATED INFORMATION

   Functions: cs_byte_from_netcs
              wchar_t_from_netcs
              cs_byte_to_netcs
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