Extracts diagnostic information about the execution of the previous SQL statement or SQL routine environment. The GET DIAGNOSTICS statement captures diagnostic information from an Oracle Rdb maintained data structure called the diagnostics area. In the ANSI/ISO SQL standard, the diagnostics area consists of two components: a single header area and an array of detail areas. Oracle Rdb extracts information only from the header component and the first element of the detail area (Exception 1): o Header area Contains status information about rows and transactions, for example, the number of rows affected by an INSERT, UPDATE, or DELETE statement or the type of transaction that is active. See the statement-item-name argument for a complete list of the status information you can retrieve from the header area. o Detail area (Exception 1) Contains diagnostic information that corresponds to the status that would be reported in the SQLSTATE or SQLCODE status parameter. The EXCEPTION . . . RETURNED_SQLSTATE argument retrieves the SQLSTATE status information from the detail area. The EXCEPTION . . . RETURNED_SQLCODE argument retrieves the SQLCODE status information from the detail area.
1 – Environment
You can use the GET DIAGNOSTICS statement only within the compound statement of a multistatement procedure: o In interactive SQL o Embedded in host language programs to be precompiled o As part of a multistatement procedure in an SQL module o In dynamic SQL as a statement to be dynamically executed
2 – Format
(B)0[m[1;4mGET[m[1m [1;4mDIAGNOSTICS[m[1m qqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqk [m [1mlqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqqj [m [1mmqwqwqwq> <parameter> wqqq> = statement-item-name qqqqqwqqqqqqqqqqqqqw> [m [1m x x mq> <variable> qj x x [m [1m x mqqqqqqqqqqqqqqqq , <qqqqqqqqqqqqqqqqqqqqqqqqqqqqqqj x [m [1m mq> [1;4mEXCEPTION[m[1m qq> [1;4m1[m[1m qwqwq> <parameter> w> = statement-info-clause wj [m [1m x mq> <variable> qj x [m [1m mqqqqqqqqqqqqqqqqqqqq , <qqqqqqqqqqqqqqqqqqqqj [m [1m [m (B)0[m[1mstatement-item-name = [m [1m [m [1mqqqqwq> [1;4mACCESS_MODE[m[1m qqqqqqqqqqqqqqqqqwqq> [m [1m tq> [1;4mCALLING_ROUTINE[m[1m qqqqqqqqqqqqqu [m [1m tq> [1;4mCONNECTION_NAME[m[1m qqqqqqqqqqqqqu [m [1m tq> [1;4mCURRENT_ROW[m[1m qqqqqqqqqqqqqqqqqu [m [1mtq>[m [1;4mDATABASE_HANDLE[m [1mqqqqqqqqqqqqqu[m [1m tq> [1;4mGLOBAL_TRANSACTION[m[1m qqqqqqqqqqu [m [1mtq>[m [1;4mHOT_STANDBY_MODE[m[1m qqqqqqqqqqqqu[m [1mtq>[m [1;4mIMAGE_NAME[m [1mqqqqqqqqqqqqqqqqqu[m [1m [m [1m tq> [1;4mISOLATION_LEVEL[m[1m qqqqqqqqqqqqqu [m [1mtq> [1;4mLIMIT_CPU_TIME[m[1m qqqqqqqqqqqqqqu[m [1mtq> [1;4mLIMIT_ELAPSED[m[1m_[1;4mTIME[m[1m qqqqqqqqqqu[m [1mtq> [1;4mLIMIT_ROWS_FETCHED[m [1mqqqqqqqqqqu[m [1m tq> [1;4mROW_COUNT[m[1m qqqqqqqqqqqqqqqqqqqu [m [1mtq>[m [1;4mSERVER_IDENTIFICATION[m[1m qqqqqqqu[m [1m [m [1mtq>[m [1;4mTRACE_ENABLED[m[1m qqqqqqqqqqqqqqqu[m [1m tq> [1;4mTRANSACTION_ACTIVE[m[1m qqqqqqqqqqu [m [1mtq>[m [1;4mTRANSACTION_CHANGE_ALLOWED[m [1mqqu[m [1mtq>[m [1;4mTRANSACTION_SEQUENCE[m[1m qqqqqqqqu[m [1mtq>[m [1;4mTRANSACTION_TIMESTAMP[m [1mqqqqqqqu[m [1m [m (B)0[m [1m tq> [1;4mTRANSACTIONS_COMMITTED[m [1mqqqqqu [m [1m mq> [1;4mTRANSACTIONS_ROLLED_BACK[m[1m qqqqj [m [1m [m [1m [m [1m [m [1m [m [1m [m [1m [m [1m [m [1m [m [1m [m [1m [m (B)0[m[1mstatement-info-clause = [m [1m [m [1mqwq> [1;4mRETURNED_SQLSTATE[m[1m qqwqqq> [m [1m mq> [1;4mRETURNED_SQLCODE[m[1m qqqj [m [1m [m
3 – Arguments
3.1 – IMAGE_NAME
Requests that the activating image name be returned to the caller. The image name includes the node name from which the attach was started. This might be a node different to that on which the Oracle Rdb server is running. The data is returned to the caller as a VARCHAR (255) value and should be assigned to either a VARCHAR or CHAR data type that supports the ASCII character set.
3.2 – EXCEPTION
Returns the exception condition following the execution of an SQL statement (other than GET DIAGNOSTICS). Either SQLCODE or SQLSTATE can be returned.
3.3 – parameter
Retrieves information about the statement execution recorded in the diagnostics area and stores it in a simple target specification (a parameter or variable).
3.4 – RETURNED_SQLCODE
Requests the SQLCODE be returned to the target variable or parameter. The data type of the returned information is INTEGER. Oracle Rdb only returns success (0) and warning status (positive value) for SQLCODE. Any error status will cause the compound statement, or stored routine to return to the calling application.
3.5 – RETURNED_SQLSTATE
Requests the SQLSTATE be returned to the target variable or parameter. The data type of the returned information is CHAR(5). Oracle Rdb only returns success ('00000') and warning status for SQLSTATE. Any error status will cause the compound statement, or stored routine to return to the calling application.
3.6 – statement-item-name
Specifies the kind of diagnostic information you can retrieve about a previously executed SQL statement. You can gather the following diagnostic data: o ACCESS_MODE returns the character string READ ONLY, READ WRITE, or BATCH UPDATE to indicate the type of transaction that is active. These character strings are of the CHAR data type. The argument also returns NONE when no transaction is active. See the SET_TRANSACTION statement for a description of transaction access modes. o CALLING_ROUTINE returns a string of data type CHAR(31) of the name of the calling routine. If there is no name for the calling routine, spaces are returned. o CONNECTION_NAME returns the current connection name. o DATABASE_HANDLE returns the current database handle (or stream) identifier. o CURRENT_ROW returns the integer value for the number of rows that have been fetched by the innermost FOR control statement. o GLOBAL_TRANSACTION returns an integer of 1 when a global transaction is active and an integer of 0 otherwise. o ISOLATION_LEVEL returns the character string READ COMMITTED, REPEATABLE READ, or SERIALIZABLE to indicate the isolation level of a transaction. These character strings are of the CHAR data type. The argument also returns NONE when no transaction is active. See the SET_TRANSACTION statement for a description of transaction isolation levels. o LIMIT_CPU_TIME returns an INTEGER value for the session's execution CPU time limit in seconds. If zero (0) is returned it is equivalent to no CPU time limit. This value is established by either the logical name RDMS$BIND_QG_EXEC_CPU_TIMEOUT or the SET QUERY EXECUTION LIMIT CPU TIME statement. o LIMIT_ELAPSED_TIME returns an INTEGER value for the session's execution elapsed time limit in seconds. If zero (0) is returned it is equivalent to no elapsed time limit. This value is established by either the logical name RDMS$BIND_QG_EXEC_ ELAPSED_TIMEOUT or the SET QUERY EXECUTION LIMIT ELAPSED TIME statement. o LIMIT_ROWS_FETCHED returns a BIGINT value for the session's row limit. If zero (0) is returned, it is equivalent to no row limit. This value is established by the logical name RDMS$BIND_QG_REC_LIMIT. o ROW_COUNT returns an integer for the number of rows affected by an INSERT, searched UPDATE, searched DELETE, or a FOR cursor loop statement. o TRACE_ENABLED returns an INTEGER value to indicate if the TRACE flag has been enabled using the statement SET FLAGS 'TRACE', or by either of the logical names RDMS$SET_FLAGS or RDMS$DEBUG_FLAGS. A zero (0) is returned if the flag is disabled, otherwise a one (1) is returned to indicate that tracing is enabled. o TRANSACTION_ACTIVE returns an integer of 1 when a transaction is active and an integer of 0 otherwise. o TRANSACTIONS_COMMITTED returns an integer value for the number of transactions that have been committed during the processing of a multistatement procedure. o TRANSACTIONS_ROLLED_BACK returns an integer value for the number of transactions that have been rolled back during the processing of a multistatement procedure. o TRANSACTION_CHANGE_ALLOWED There are many situations where the SQL language programmer would like to start or end a transaction but does not know if a transaction statement (SET TRANSACTION, START TRANSACTION, COMMIT or ROLLBACK) is currently permitted. The transaction statements are not permitted in the following cases: o During a multi-database or global transaction. In this case the transaction must be coordinated by the client, not a server-based procedure. o When a BEGIN ATOMIC compound statement is in the outer scope. o When a FOR cursor loop is active in an outer scope. The TRANSACTION_CHANGE_ALLOWED clause allows the programmer to detect these restricted locations and conditionally execute a COMMIT, ROLLBACK, START TRANSACTION or SET TRANSACTION as needed. The result data type is INTEGER. If transaction changes are permitted then a value one (1) will be assigned. Otherwise the result will be zero (0). o HOT_STANDBY_MODE This option returns a text string that indicates if this database is participating in a Hot Standby configuration as master (returns 'MASTER'), or as standby (returns 'STANDBY'), or is not in such a configuration (returns 'NONE'). The result data type is CHAR (31). o SERVER_IDENTIFICATION This option returns a text string containing the Oracle Rdb release number. This is useful for log file annotation. The result data type is CHAR (31). o TRANSACTION_TIMESTAMP This option returns the date and time that the last transaction was started. If a transaction is not active, the returned date and time may be for a prior transaction. NOTE The database server will start transactions when performing database operations. So, this timestamp may reflect the time of an internal transaction. If the default date format is SQL99, this option returns a value with the data type TIMESTAMP(2), otherwise it returns a DATE (VMS) data type. The default date format can be changed using either the SET DIALECT or SET DEFAULT DATE FORMAT statements, or one of the associated module attributes. o TRANSACTION_SEQUENCE This is the transaction sequence number (TSN) assigned to the most recently started transaction. The TSN is a unique indicator of database transaction activity, however, please note that the TSN may be reused in some cases. The TSN for a READ ONLY transaction reflects the transaction state which is visible to the transaction and, therefore, it was previously assigned to a READ WRITE transaction. If a READ WRITE transaction does not perform database I/O or was rolled back, that TSN may be reused by a subsequent READ WRITE transaction. This option returns a BIGINT data type.
3.7 – variable
Retrieves information about the statement execution recorded in the diagnostics area and stores it in a simple target specification (a parameter or variable).
4 – Examples
Example 1: Using a GET DIAGNOSTICS statement to retrieve row count PROCEDURE increate_nh (SQLSTATE, :rows_affected INTEGER); BEGIN ATOMIC UPDATE salary_history SET salary_amount = salary_amount * 1.05 WHERE salary_end IS NULL AND employee_id IN (SELECT employee_id FROM employees WHERE state = 'NH' ); GET DIAGNOSTICS :rows_affected = ROW_COUNT; END; Example 2: Using RETURNED_SQLSTATE SQL> DECLARE :Y CHAR(5); SQL> BEGIN cont> SET :Y = 'Hello'; cont> GET DIAGNOSTICS EXCEPTION 1 :Y = RETURNED_SQLSTATE; cont> END; SQL> PRINT :Y; Y 00000 SQL> Example 3: Using RETURNED_SQLCODE SQL> DECLARE :X INTEGER; SQL> BEGIN cont> SET :X = 100; cont> GET DIAGNOSTICS EXCEPTION 1 :X = RETURNED_SQLCODE; cont> END; SQL> PRINT :X; X 0 Example 4: Returning the current connection name SQL> CONNECT TO 'ATTACH FILENAME mf_personnel' AS 'my_connection'; SQL> DECLARE :conn_name VARCHAR(20); SQL> BEGIN cont> GET DIAGNOSTICS :conn_name = CONNECTION_NAME; cont> END; SQL> PRINT :conn_name; CONN_NAME my_connection Example 5: Using the TRANSACTION_TIMESTAMP and TRANSACTION_ SEQUENCE options SQL> set transaction read write; SQL> show transaction Transaction information: Statement constraint evaluation is off On the default alias Transaction characteristics: Read Write Transaction information returned by base system: a read-write transaction is in progress - updates have not been performed - transaction sequence number (TSN) is 0:256 - snapshot space for TSNs less than 0:256 can be reclaimed - recovery unit journal filename is USER2:[RDM$RUJ]SCRATCH$00018679B3AD.RUJ;1 - session ID number is 8 SQL> SQL> declare :x date vms; SQL> SQL> begin get diagnostics :x = transaction_timestamp; end; SQL> print :x; X 27-MAY-1999 22:39:17.02 SQL> SQL> declare :y bigint; SQL> SQL> begin get diagnostics :y = transaction_sequence; end; SQL> print :y; Y 256 SQL> SQL> select current_timestamp from rdb$database; 27-MAY-1999 22:39:18.20 1 row selected SQL> SQL> commit; Example 6: Using the HOT_STANDBY_MODE and SERVER_IDENTIFICATION options SQL> set flags 'trace'; SQL> declare :id, :hsmode char(31); SQL> begin cont> get diagnostics :id = SERVER_IDENTIFICATION, cont> :hsmode = HOT_STANDBY_MODE; cont> trace :id, :hsmode; cont> end; ~Xt: Oracle Rdb V7.1 NONE Example 7: Using the LIMIT_CPU_TIME, LIMIT_ROWS_FETCHED, and LIMIT_ELAPSED_TIME options SQL> set flags 'trace'; SQL> set query execution limit elapsed time 10 minutes; SQL> begin cont> declare :row_limit integer; cont> declare :elapsed_limit integer; cont> declare :cpu_limit integer; cont> get diagnostics cont> :cpu_limit = LIMIT_CPU_TIME, cont> :row_limit = LIMIT_ROWS_FETCHED, cont> :elapsed_limit = LIMIT_ELAPSED_TIME; cont> trace 'LIMIT_ROWS_FETCHED: ', :row_limit; cont> trace 'LIMIT_CPU_TIME: ', :cpu_limit; cont> trace 'LIMIT_ELAPSED_TIME: ', :elapsed_limit; cont> end; ~Xt: LIMIT_ROWS_FETCHED: 0 ~Xt: LIMIT_CPU_TIME: 0 ~Xt: LIMIT_ELAPSED_TIME: 600 SQL> Example 8: Using the TRACE_ENABLED keyword in a compound statement SQL> declare :x integer; SQL> begin cont> get diagnostics :x = TRACE_ENABLED; cont> end; SQL> print :x; X 0 SQL> set flags 'trace'; SQL> begin cont> get diagnostics :x = TRACE_ENABLED; cont> end; SQL> print :x; X 1