| Oracle® Streams Concepts and Administration 11g Release 2 (11.2) Part Number E17069-07 |
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PDF · Mobi · ePub |
| Oracle® Streams Concepts and Administration 11g Release 2 (11.2) Part Number E17069-07 |
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|
PDF · Mobi · ePub |
Both capture processes and synchronous captures perform implicit capture.
The following topics describe monitoring Oracle Streams implicit capture:
Note:
The Oracle Streams tool in Oracle Enterprise Manager is also an excellent way to monitor an Oracle Streams environment. See Oracle Database 2 Day + Data Replication and Integration Guide and the online Help for the Oracle Streams tool for more information.See Also:
Oracle Database Reference for information about the data dictionary views described in this chapter
This section provides sample queries that you can use to monitor Oracle Streams capture processes.
This section contains these topics:
Displaying the Queue, Rule Sets, and Status of Each Capture Process
Displaying Change Capture Information About Each Capture Process
Displaying State Change and Message Creation Time for Each Capture Process
Displaying Elapsed Time Performing Capture Operations for Each Capture Process
Displaying Information About Each Downstream Capture Process
Displaying the Registered Redo Log Files for Each Capture Process
Displaying the Redo Log Files that Are Required by Each Capture Process
Displaying SCN Values for Each Redo Log File Used by Each Capture Process
Displaying the Last Archived Redo Entry Available to Each Capture Process
Determining the Applied SCN for All Capture Processes in a Database
Determining Redo Log Scanning Latency for Each Capture Process
Determining Message Enqueuing Latency for Each Capture Process
Displaying Information About Rule Evaluations for Each Capture Process
Determining Which Capture Processes Use Combined Capture and Apply
You can display the following information about each capture process in a database by running the query in this section:
The capture process name
The name of the queue used by the capture process
The name of the positive rule set used by the capture process
The name of the negative rule set used by the capture process
The status of the capture process, which can be ENABLED, DISABLED, or ABORTED
To display this general information about each capture process in a database, run the following query:
COLUMN CAPTURE_NAME HEADING 'Capture|Process|Name' FORMAT A15 COLUMN QUEUE_NAME HEADING 'Capture|Process|Queue' FORMAT A15 COLUMN RULE_SET_NAME HEADING 'Positive|Rule Set' FORMAT A15 COLUMN NEGATIVE_RULE_SET_NAME HEADING 'Negative|Rule Set' FORMAT A15 COLUMN STATUS HEADING 'Capture|Process|Status' FORMAT A15 SELECT CAPTURE_NAME, QUEUE_NAME, RULE_SET_NAME, NEGATIVE_RULE_SET_NAME, STATUS FROM DBA_CAPTURE;
Your output looks similar to the following:
Capture Capture Capture Process Process Positive Negative Process Name Queue Rule Set Rule Set Status --------------- --------------- --------------- --------------- --------------- STRM01_CAPTURE STREAMS_QUEUE RULESET$_25 RULESET$_36 ENABLED
If the status of a capture process is ABORTED, then you can query the ERROR_NUMBER and ERROR_MESSAGE columns in the DBA_CAPTURE data dictionary view to determine the error.
See Also:
"Is the Capture Process Enabled?" for an example query that shows the error number and error message if a capture process is abortedThe query in this section displays the following session information about each session associated with a capture process in a database:
The capture process component
The session identifier
The serial number
The operating system process identification number
The process name of the capture process in the form CPnn, where nn can include letters and numbers
To display this information for each capture process in a database, run the following query:
COLUMN ACTION HEADING 'Capture Process Component' FORMAT A25
COLUMN SID HEADING 'Session ID' FORMAT 99999
COLUMN SERIAL# HEADING 'Session|Serial|Number' FORMAT 99999999
COLUMN PROCESS HEADING 'Operating System|Process Number' FORMAT A20
COLUMN PROCESS_NAME HEADING 'Process|Name' FORMAT A7
SELECT /*+PARAM('_module_action_old_length',0)*/ ACTION,
SID,
SERIAL#,
PROCESS,
SUBSTR(PROGRAM,INSTR(PROGRAM,'(')+1,4) PROCESS_NAME
FROM V$SESSION
WHERE MODULE ='Streams' AND
ACTION LIKE '%Capture%';
Your output looks similar to the following:
Session
Serial Operating System Process
Capture Process Component Session ID Number Process Number Name
------------------------- ---------- --------- -------------------- -------
EMDBA$CAP - Capture 74 9 10019 CP01
See Also:
"Capture Process Subcomponents" for information about capture process parallelismThe query in this section displays the following information about each capture process in a database:
The name of the capture process.
The process number CPnn, where nn can include letters and numbers
The session identifier.
The serial number of the session.
The current state of the capture process
The total number of redo entries passed by LogMiner to the capture process for detailed rule evaluation. A capture process converts a redo entry into a message and performs detailed rule evaluation on the message when capture process prefiltering cannot discard the change.
The total number LCRs enqueued since the capture process was last started.
To display this information for each capture process in a database, run the following query:
COLUMN CAPTURE_NAME HEADING 'Capture|Name' FORMAT A7
COLUMN PROCESS_NAME HEADING 'Capture|Process|Number' FORMAT A7
COLUMN SID HEADING 'Session|ID' FORMAT 9999
COLUMN SERIAL# HEADING 'Session|Serial|Number' FORMAT 9999
COLUMN STATE HEADING 'State' FORMAT A20
COLUMN TOTAL_MESSAGES_CAPTURED HEADING 'Redo|Entries|Evaluated|In Detail' FORMAT 9999999
COLUMN TOTAL_MESSAGES_ENQUEUED HEADING 'Total|LCRs|Enqueued' FORMAT 9999999999
SELECT c.CAPTURE_NAME,
SUBSTR(s.PROGRAM,INSTR(s.PROGRAM,'(')+1,4) PROCESS_NAME,
c.SID,
c.SERIAL#,
c.STATE,
c.TOTAL_MESSAGES_CAPTURED,
c.TOTAL_MESSAGES_ENQUEUED
FROM V$STREAMS_CAPTURE c, V$SESSION s
WHERE c.SID = s.SID AND
c.SERIAL# = s.SERIAL#;
Your output looks similar to the following:
Redo
Capture Session Entries Total
Capture Process Session Serial Evaluated LCRs
Name Number ID Number State In Detail Enqueued
------- ------- ------- ------- -------------------- --------- -----------
CAPTURE CP01 954 3 CAPTURING CHANGES 3719085 3389713
_HNS
The number of redo entries scanned can be higher than the number of DML and DDL redo entries captured by a capture process. Only DML and DDL redo entries that satisfy the rule sets of a capture process are captured and enqueued into the capture process queue. Also, the total LCRs enqueued includes LCRs that contain transaction control statements. These row LCRs contain directives such as COMMIT and ROLLBACK. Therefore, the total LCRs enqueued is a number higher than the number of row changes and DDL changes enqueued by a capture process.
See Also:
"Row LCRs" for more information about transaction control statementsThe query in this section displays the following information for each capture process in a database:
The name of the capture process
The current state of the capture process
The date and time when the capture process state last changed
The date and time when the capture process last created an LCR
To display this information for each capture process in a database, run the following query:
COLUMN CAPTURE_NAME HEADING 'Capture|Name' FORMAT A15
COLUMN STATE HEADING 'State' FORMAT A27
COLUMN STATE_CHANGED HEADING 'State|Change Time'
COLUMN CREATE_MESSAGE HEADING 'Last Message|Create Time'
SELECT CAPTURE_NAME,
STATE,
TO_CHAR(STATE_CHANGED_TIME, 'HH24:MI:SS MM/DD/YY') STATE_CHANGED,
TO_CHAR(CAPTURE_MESSAGE_CREATE_TIME, 'HH24:MI:SS MM/DD/YY') CREATE_MESSAGE
FROM V$STREAMS_CAPTURE;
Your output looks similar to the following:
Capture State Last Message Name State Change Time Create Time --------------- --------------------------- ----------------- ----------------- CAPTURE_SIMP CAPTURING CHANGES 13:24:42 11/08/04 13:24:41 11/08/04
The query in this section displays the following information for each capture process in a database:
The name of the capture process
The elapsed capture time, which is the amount of time (in seconds) spent scanning for changes in the redo log since the capture process was last started
The elapsed rule evaluation time, which is the amount of time (in seconds) spent evaluating rules since the capture process was last started
The elapsed enqueue time, which is the amount of time (in seconds) spent enqueuing messages since the capture process was last started
The elapsed LCR creation time, which is the amount of time (in seconds) spent creating logical change records (LCRs) since the capture process was last started
The elapsed pause time, which is the amount of time (in seconds) spent paused for flow control since the capture process was last started
Note:
All times for this query are displayed in seconds. TheV$STREAMS_CAPTURE view displays elapsed time in centiseconds by default. A centisecond is one-hundredth of a second. The query in this section divides each elapsed time by one hundred to display the elapsed time in seconds.To display this information for each capture process in a database, run the following query:
COLUMN CAPTURE_NAME HEADING 'Capture|Name' FORMAT A15
COLUMN ELAPSED_CAPTURE_TIME HEADING 'Elapsed|Capture|Time' FORMAT 99999999.99
COLUMN ELAPSED_RULE_TIME HEADING 'Elapsed|Rule|Evaluation|Time' FORMAT 99999999.99
COLUMN ELAPSED_ENQUEUE_TIME HEADING 'Elapsed|Enqueue|Time' FORMAT 99999999.99
COLUMN ELAPSED_LCR_TIME HEADING 'Elapsed|LCR|Creation|Time' FORMAT 99999999.99
COLUMN ELAPSED_PAUSE_TIME HEADING 'Elapsed|Pause|Time' FORMAT 99999999.99
SELECT CAPTURE_NAME,
(ELAPSED_CAPTURE_TIME/100) ELAPSED_CAPTURE_TIME,
(ELAPSED_RULE_TIME/100) ELAPSED_RULE_TIME,
(ELAPSED_ENQUEUE_TIME/100) ELAPSED_ENQUEUE_TIME,
(ELAPSED_LCR_TIME/100) ELAPSED_LCR_TIME,
(ELAPSED_PAUSE_TIME/100) ELAPSED_PAUSE_TIME
FROM V$STREAMS_CAPTURE;
Your output looks similar to the following:
Elapsed Elapsed
Elapsed Rule Elapsed LCR Elapsed
Capture Capture Evaluation Enqueue Creation Pause
Name Time Time Time Time Time
--------------- ------------ ------------ ------------ ------------ ------------
STM1$CAP 1213.92 .04 33.84 185.25 600.60
A downstream capture is a capture process that runs on a database other than the source database. You can display the following information about each downstream capture process in a database by running the query in this section:
The capture process name
The source database of the changes captured by the capture process
The name of the queue used by the capture process
The status of the capture process, which can be ENABLED, DISABLED, or ABORTED
Whether the downstream capture process uses a database link to the source database for administrative actions
To display this information about each downstream capture process in a database, run the following query:
COLUMN CAPTURE_NAME HEADING 'Capture|Process|Name' FORMAT A15
COLUMN SOURCE_DATABASE HEADING 'Source|Database' FORMAT A15
COLUMN QUEUE_NAME HEADING 'Capture|Process|Queue' FORMAT A15
COLUMN STATUS HEADING 'Capture|Process|Status' FORMAT A15
COLUMN USE_DATABASE_LINK HEADING 'Uses|Database|Link?' FORMAT A8
SELECT CAPTURE_NAME,
SOURCE_DATABASE,
QUEUE_NAME,
STATUS,
USE_DATABASE_LINK
FROM DBA_CAPTURE
WHERE CAPTURE_TYPE = 'DOWNSTREAM';
Your output looks similar to the following:
Capture Capture Capture Uses Process Source Process Process Database Name Database Queue Status Link? --------------- -------------------- --------------- --------------- -------- STRM03_CAPTURE DBS1.EXAMPLE.COM STRM03_QUEUE ENABLED YES
In this case, the source database for the capture process is dbs1.example.com, but the local database running the capture process is not dbs1.example.com. Also, the capture process returned by this query uses a database link to the source database to perform administrative actions. The database link name is the same as the global name of the source database, which is dbs1.example.com in this case.
If the status of a capture process is ABORTED, then you can query the ERROR_NUMBER and ERROR_MESSAGE columns in the DBA_CAPTURE data dictionary view to determine the error.
Note:
At the source database for an Oracle Streams downstream capture process, you can query theV$ARCHIVE_DEST_STATUS view to display information about the downstream database. The following columns in the view relate to the downstream database:
The TYPE column shows DOWNSTREAM if redo log information is being shipped to a downstream capture database.
The DESTINATION column shows the name of the downstream capture database.
See Also:
Oracle Streams Replication Administrator's Guide for information about creating a capture process
"Is the Capture Process Enabled?" for an example query that shows the error number and error message if a capture process is aborted
You can display information about the archived redo log files that are registered for each capture process in a database by running the query in this section. This query displays information about these files for both local capture processes and downstream capture processes.
The query displays the following information for each registered archived redo log file:
The name of a capture process that uses the file
The source database of the file
The sequence number of the file
The name and location of the file at the local site
Whether the file contains the beginning of a data dictionary build
Whether the file contains the end of a data dictionary build
To display this information about each registered archive redo log file in a database, run the following query:
COLUMN CONSUMER_NAME HEADING 'Capture|Process|Name' FORMAT A15
COLUMN SOURCE_DATABASE HEADING 'Source|Database' FORMAT A10
COLUMN SEQUENCE# HEADING 'Sequence|Number' FORMAT 99999
COLUMN NAME HEADING 'Archived Redo Log|File Name' FORMAT A20
COLUMN DICTIONARY_BEGIN HEADING 'Dictionary|Build|Begin' FORMAT A10
COLUMN DICTIONARY_END HEADING 'Dictionary|Build|End' FORMAT A10
SELECT r.CONSUMER_NAME,
r.SOURCE_DATABASE,
r.SEQUENCE#,
r.NAME,
r.DICTIONARY_BEGIN,
r.DICTIONARY_END
FROM DBA_REGISTERED_ARCHIVED_LOG r, DBA_CAPTURE c
WHERE r.CONSUMER_NAME = c.CAPTURE_NAME;
Your output looks similar to the following:
Capture Dictionary Dictionary Process Source Sequence Archived Redo Log Build Build Name Database Number File Name Begin End --------------- ---------- -------- -------------------- ---------- ---------- STRM02_CAPTURE DBS2.EXAMP 15 /orc/dbs/log/arch2_1 NO NO LE.COM _15_478347508.arc STRM02_CAPTURE DBS2.EXAMP 16 /orc/dbs/log/arch2_1 NO NO LE.COM _16_478347508.arc STRM03_CAPTURE DBS1.EXAMP 45 /remote_logs/arch1_1 YES YES LE.COM _45_478347335.arc STRM03_CAPTURE DBS1.EXAMP 46 /remote_logs/arch1_1 NO NO LE.COM _46_478347335.arc STRM03_CAPTURE DBS1.EXAMP 47 /remote_logs/arch1_1 NO NO LE.COM _47_478347335.arc
Assume that this query was run at the dbs2.example.com database, and that strm02_capture is a local capture process, and strm03_capture is a downstream capture process. The source database for the strm03_capture downstream capture process is dbs1.example.com. This query shows that there are two registered archived redo log files for strm02_capture and three registered archived redo log files for strm03_capture. This query shows the name and location of each of these files in the local file system.
See Also:
"The LogMiner Data Dictionary for a Capture Process" for more information about data dictionary builds
Oracle Streams Replication Administrator's Guide for information about configuring a capture process
A capture process needs the redo log file that includes the required checkpoint SCN, and all subsequent redo log files. You can query the REQUIRED_CHECKPOINT_SCN column in the DBA_CAPTURE data dictionary view to determine the required checkpoint SCN for a capture process. Redo log files before the redo log file that contains the required checkpoint SCN are no longer needed by the capture process. These redo log files can be stored offline if they are no longer needed for any other purpose. If you reset the start SCN for a capture process to a lower value in the future, then these redo log files might be needed.
The query displays the following information for each required archived redo log file:
The name of a capture process that uses the file
The source database of the file
The sequence number of the file
The name and location of the required redo log file at the local site
To display this information about each required archive redo log file in a database, run the following query:
COLUMN CONSUMER_NAME HEADING 'Capture|Process|Name' FORMAT A15
COLUMN SOURCE_DATABASE HEADING 'Source|Database' FORMAT A10
COLUMN SEQUENCE# HEADING 'Sequence|Number' FORMAT 99999
COLUMN NAME HEADING 'Required|Archived Redo Log|File Name' FORMAT A40
SELECT r.CONSUMER_NAME,
r.SOURCE_DATABASE,
r.SEQUENCE#,
r.NAME
FROM DBA_REGISTERED_ARCHIVED_LOG r, DBA_CAPTURE c
WHERE r.CONSUMER_NAME = c.CAPTURE_NAME AND
r.NEXT_SCN >= c.REQUIRED_CHECKPOINT_SCN;
Your output looks similar to the following:
Capture Required
Process Source Sequence Archived Redo Log
Name Database Number File Name
--------------- ---------- -------- ----------------------------------------
STRM02_CAPTURE DBS2.EXAMP 16 /orc/dbs/log/arch2_1_16_478347508.arc
LE.COM
STRM03_CAPTURE DBS1.EXAMP 47 /remote_logs/arch1_1_47_478347335.arc
LE.COM
See Also:
"Required Checkpoint SCN"You can display information about the SCN values for archived redo log files that are registered for each capture process in a database by running the query in this section. This query displays information the SCN values for these files for both local capture processes and downstream capture processes. This query also identifies redo log files that are no longer needed by any capture process at the local database.
The query displays the following information for each registered archived redo log file:
The capture process name of a capture process that uses the file
The name and location of the file at the local site
The lowest SCN value for the information contained in the redo log file
The lowest SCN value for the next redo log file in the sequence
Whether the redo log file is purgeable
To display this information about each registered archive redo log file in a database, run the following query:
COLUMN CONSUMER_NAME HEADING 'Capture|Process|Name' FORMAT A15
COLUMN NAME HEADING 'Archived Redo Log|File Name' FORMAT A25
COLUMN FIRST_SCN HEADING 'First SCN' FORMAT 99999999999
COLUMN NEXT_SCN HEADING 'Next SCN' FORMAT 99999999999
COLUMN PURGEABLE HEADING 'Purgeable?' FORMAT A10
SELECT r.CONSUMER_NAME,
r.NAME,
r.FIRST_SCN,
r.NEXT_SCN,
r.PURGEABLE
FROM DBA_REGISTERED_ARCHIVED_LOG r, DBA_CAPTURE c
WHERE r.CONSUMER_NAME = c.CAPTURE_NAME;
Your output looks similar to the following:
Capture
Process Archived Redo Log
Name File Name First SCN Next SCN Purgeable?
--------------- ------------------------- ------------ ------------ ----------
CAPTURE_SIMP /private1/ARCHIVE_LOGS/1_ 509686 549100 YES
3_502628294.dbf
CAPTURE_SIMP /private1/ARCHIVE_LOGS/1_ 549100 587296 YES
4_502628294.dbf
CAPTURE_SIMP /private1/ARCHIVE_LOGS/1_ 587296 623107 NO
5_502628294.dbf
The redo log files with YES for Purgeable? for all capture processes will never be needed by any capture process at the local database. These redo log files can be removed without affecting any existing capture process at the local database. The redo log files with NO for Purgeable? for one or more capture processes must be retained.
See Also:
"ARCHIVELOG Mode and a Capture Process"For a local capture process, the last archived redo entry available is the last entry from the online redo log flushed to an archived log file. For a downstream capture process, the last archived redo entry available is the redo entry with the most recent system change number (SCN) in the last archived log file added to the LogMiner session used by the capture process.
You can display the following information about the last redo entry that was made available to each capture process by running the query in this section:
The name of the capture process
The identification number of the LogMiner session used by the capture process
The highest SCN available for the capture process
For local capture, this SCN is the last redo SCN flushed to the log files. For downstream capture, this SCN is the last SCN added to LogMiner through the archive logs.
The timestamp of the highest SCN available for the capture process
For local capture, this timestamp is the time the SCN was written to the log file. For downstream capture, this timestamp is the time of the most recent archive log (containing the most recent SCN) available to LogMiner.
The information displayed by this query is valid only for an enabled capture process.
Run the following query to display this information for each capture process:
COLUMN CAPTURE_NAME HEADING 'Capture|Name' FORMAT A20
COLUMN LOGMINER_ID HEADING 'LogMiner ID' FORMAT 9999
COLUMN AVAILABLE_MESSAGE_NUMBER HEADING 'Highest|Available SCN' FORMAT 9999999999
COLUMN AVAILABLE_MESSAGE_CREATE_TIME HEADING 'Time of|Highest|Available SCN'
SELECT CAPTURE_NAME,
LOGMINER_ID,
AVAILABLE_MESSAGE_NUMBER,
TO_CHAR(AVAILABLE_MESSAGE_CREATE_TIME, 'HH24:MI:SS MM/DD/YY')
AVAILABLE_MESSAGE_CREATE_TIME
FROM V$STREAMS_CAPTURE;
Your output looks similar to the following:
Time of Capture Highest Highest Name LogMiner ID Available SCN Available SCN -------------------- ----------- ------------- ----------------- DB1$CAP 1 1506751 09:46:11 06/29/09
The following query displays the current setting for each capture process parameter for each capture process in a database:
COLUMN CAPTURE_NAME HEADING 'Capture|Process|Name' FORMAT A25
COLUMN PARAMETER HEADING 'Parameter' FORMAT A30
COLUMN VALUE HEADING 'Value' FORMAT A10
COLUMN SET_BY_USER HEADING 'Set by|User?' FORMAT A10
SELECT CAPTURE_NAME,
PARAMETER,
VALUE,
SET_BY_USER
FROM DBA_CAPTURE_PARAMETERS;
Your output looks similar to the following:
Capture Process Set by Name Parameter Value User? ------------------------- ------------------------------ ---------- ---------- DA$CAP CAPTURE_IDKEY_OBJECTS N NO DA$CAP CAPTURE_SEQUENCE_NEXTVAL N NO DA$CAP DISABLE_ON_LIMIT N NO DA$CAP DOWNSTREAM_REAL_TIME_MINE Y NO DA$CAP EXCLUDETRANS NO DA$CAP EXCLUDEUSER NO DA$CAP EXCLUDEUSERID NO DA$CAP GETAPPLOPS Y NO DA$CAP GETREPLICATES N NO DA$CAP IGNORE_TRANSACTION NO DA$CAP IGNORE_UNSUPPORTED_TABLE * NO DA$CAP MAXIMUM_SCN INFINITE NO DA$CAP MAX_SGA_SIZE INFINITE NO DA$CAP MERGE_THRESHOLD 60 NO DA$CAP MESSAGE_LIMIT INFINITE NO DA$CAP MESSAGE_TRACKING_FREQUENCY 2000000 NO DA$CAP PARALLELISM 1 NO DA$CAP SKIP_AUTOFILTERED_TABLE_DDL Y NO DA$CAP SPLIT_THRESHOLD 1800 NO DA$CAP STARTUP_SECONDS 0 NO DA$CAP TIME_LIMIT INFINITE NO DA$CAP TRACE_LEVEL 0 NO DA$CAP WRITE_ALERT_LOG Y NO DA$CAP XOUT_CLIENT_EXISTS N NO
Note:
If theSet by User? column is NO for a parameter, then the parameter is set to its default value. If the Set by User? column is YES for a parameter, then the parameter was set by a user and might or might not be set to its default value.The applied system change number (SCN) for a capture process is the SCN of the most recent message dequeued by the relevant apply processes. All changes below this applied SCN have been dequeued by all apply processes that apply changes captured by the capture process.
To display the applied SCN for all of the capture processes in a database, run the following query:
COLUMN CAPTURE_NAME HEADING 'Capture Process Name' FORMAT A30 COLUMN APPLIED_SCN HEADING 'Applied SCN' FORMAT 99999999999 SELECT CAPTURE_NAME, APPLIED_SCN FROM DBA_CAPTURE;
Your output looks similar to the following:
Capture Process Name Applied SCN ------------------------------ ----------- CAPTURE_EMP 177154
You can find the following information about each capture process by running the query in this section:
The redo log scanning latency, which specifies the number of seconds between the creation time of the most recent redo log entry scanned by a capture process and the current time. This number might be relatively large immediately after you start a capture process.
The seconds since last recorded status, which is the number of seconds since a capture process last recorded its status.
The current capture process time, which is the latest time when the capture process recorded its status.
The message creation time, which is the time when the data manipulation language (DML) or data definition language (DDL) change generated the redo data at the source database for the most recently captured LCR.
The information displayed by this query is valid only for an enabled capture process.
Run the following query to determine the redo scanning latency for each capture process:
COLUMN CAPTURE_NAME HEADING 'Capture|Process|Name' FORMAT A10
COLUMN LATENCY_SECONDS HEADING 'Latency|in|Seconds' FORMAT 999999
COLUMN LAST_STATUS HEADING 'Seconds Since|Last Status' FORMAT 999999
COLUMN CAPTURE_TIME HEADING 'Current|Process|Time'
COLUMN CREATE_TIME HEADING 'Message|Creation Time' FORMAT 999999
SELECT CAPTURE_NAME,
((SYSDATE - CAPTURE_MESSAGE_CREATE_TIME)*86400) LATENCY_SECONDS,
((SYSDATE - CAPTURE_TIME)*86400) LAST_STATUS,
TO_CHAR(CAPTURE_TIME, 'HH24:MI:SS MM/DD/YY') CAPTURE_TIME,
TO_CHAR(CAPTURE_MESSAGE_CREATE_TIME, 'HH24:MI:SS MM/DD/YY') CREATE_TIME
FROM V$STREAMS_CAPTURE;
Your output looks similar to the following:
Capture Latency Current Process in Seconds Since Process Message Name Seconds Last Status Time Creation Time ---------- ------- ------------- ----------------- ----------------- DA$CAP 1 1 12:33:39 07/14/10 12:33:39 07/14/10
The "Latency in Seconds" returned by this query is the difference between the current time (SYSDATE) and the "Message Creation Time." The "Seconds Since Last Status" returned by this query is the difference between the current time (SYSDATE) and the "Current Process Time."
You can find the following information about each capture process by running the query in this section:
The message enqueuing latency, which specifies the number of seconds between when an entry was recorded in the redo log at the source database and when the message was enqueued by the capture process
The message creation time, which is the time when the data manipulation language (DML) or data definition language (DDL) change generated the redo data at the source database for the most recently enqueued message
The enqueue time, which is when the capture process enqueued the message into its queue
The message number of the enqueued message
The information displayed by this query is valid only for an enabled capture process.
Run the following query to determine the message capturing latency for each capture process:
COLUMN CAPTURE_NAME HEADING 'Capture|Process|Name' FORMAT A10
COLUMN LATENCY_SECONDS HEADING 'Latency|in|Seconds' FORMAT 999999
COLUMN CREATE_TIME HEADING 'Message Creation|Time' FORMAT A20
COLUMN ENQUEUE_TIME HEADING 'Enqueue Time' FORMAT A20
COLUMN ENQUEUE_MESSAGE_NUMBER HEADING 'Message|Number' FORMAT 9999999999
SELECT CAPTURE_NAME,
(ENQUEUE_TIME-ENQUEUE_MESSAGE_CREATE_TIME)*86400 LATENCY_SECONDS,
TO_CHAR(ENQUEUE_MESSAGE_CREATE_TIME, 'HH24:MI:SS MM/DD/YY') CREATE_TIME,
TO_CHAR(ENQUEUE_TIME, 'HH24:MI:SS MM/DD/YY') ENQUEUE_TIME,
ENQUEUE_MESSAGE_NUMBER
FROM V$STREAMS_CAPTURE;
Your output looks similar to the following:
Capture Latency Process in Message Creation Message Name Seconds Time Enqueue Time Number ---------- ------- -------------------- -------------------- ------- CAPTURE 0 10:56:51 03/01/02 10:56:51 03/01/02 253962
The "Latency in Seconds" returned by this query is the difference between the "Enqueue Time" and the "Message Creation Time."
You can display the following information about rule evaluation for each capture process by running the query in this section:
The name of the capture process.
The number of changes discarded during prefiltering since the capture process was last started. The capture process determined that these changes definitely did not satisfy the capture process rule sets during prefiltering.
The number of changes kept during prefiltering since the capture process was last started. The capture process determined that these changes definitely satisfied the capture process rule sets during prefiltering. Such changes are converted into LCRs and enqueued into the capture process queue.
The total number of prefilter evaluations since the capture process was last started.
The number of undecided changes after prefiltering since the capture process was last started. These changes might or might not satisfy the capture process rule sets. Some of these changes might be filtered out after prefiltering without requiring full evaluation. Other changes require full evaluation to determine whether they satisfy the capture process rule sets.
The number of full evaluations since the capture process was last started. Full evaluations can be expensive. Therefore, capture process performance is best when this number is relatively low.
The information displayed by this query is valid only for an enabled capture process.
Run the following query to display this information for each capture process:
COLUMN CAPTURE_NAME HEADING 'Capture|Name' FORMAT A15
COLUMN TOTAL_PREFILTER_DISCARDED HEADING 'Prefilter|Changes|Discarded'
FORMAT 9999999999
COLUMN TOTAL_PREFILTER_KEPT HEADING 'Prefilter|Changes|Kept' FORMAT 9999999999
COLUMN TOTAL_PREFILTER_EVALUATIONS HEADING 'Prefilter|Evaluations'
FORMAT 9999999999
COLUMN UNDECIDED HEADING 'Undecided|After|Prefilter' FORMAT 9999999999
COLUMN TOTAL_FULL_EVALUATIONS HEADING 'Full|Evaluations' FORMAT 9999999999
SELECT CAPTURE_NAME,
TOTAL_PREFILTER_DISCARDED,
TOTAL_PREFILTER_KEPT,
TOTAL_PREFILTER_EVALUATIONS,
(TOTAL_PREFILTER_EVALUATIONS -
(TOTAL_PREFILTER_KEPT + TOTAL_PREFILTER_DISCARDED)) UNDECIDED,
TOTAL_FULL_EVALUATIONS
FROM V$STREAMS_CAPTURE;
Your output looks similar to the following:
Prefilter Prefilter Undecided Capture Changes Changes Prefilter After Full Name Discarded Kept Evaluations Prefilter Evaluations --------------- ---------- ----------- ----------- ----------- ----------- CAPTURE_HNS 927409 3271491 4198900 0 9
The total number of prefilter evaluations equals the sum of the prefilter changes discarded, the prefilter changes kept, and the undecided changes.
See Also:
"Capture Process Rule Evaluation"A combined capture and apply environment is efficient because the capture process acts as the propagation sender, and the buffered queue is optimized to make replication of changes more efficient.
When a capture process uses combined capture and apply, the OPTIMIZATION column in the V$STREAMS_CAPTURE data dictionary view is greater than zero. When a capture process does not use combined capture and apply, the OPTIMIZATION column is 0 (zero).
To determine whether a capture process uses combined capture and apply, run the following query:
COLUMN CAPTURE_NAME HEADING 'Capture Name' FORMAT A30
COLUMN OPTIMIZATION HEADING 'Optimized?' FORMAT A10
SELECT CAPTURE_NAME,
DECODE(OPTIMIZATION,
0, 'No',
'Yes') OPTIMIZATION
FROM V$STREAMS_CAPTURE;
Your output looks similar to the following:
Capture Name Optimized? ------------------------------ ---------- CAPTURE_HNS Yes
This output indicates that the capture_hns capture process uses combined capture and apply.
Splitting and merging an Oracle Streams destination is useful under the following conditions:
A single capture process captures changes that are sent to two or more apply processes.
An apply process stops accepting changes captured by the capture process. The apply process might stop accepting changes if, for example, the apply process is disabled, the database that contains the apply process goes down, there is a network problem, the computer system running the database that contains the apply process goes down, or for some other reason.
When these conditions are met, it is best to split the problem destination stream off from the other destination streams to avoid degraded performance. When the problem is corrected, the destination stream that was split off can be merged back into the other destination streams for the capture process.
By default, split and merge operations are performed automatically when Oracle Streams detects a problem destination. Two capture process parameters, split_threshold and merge_threshold, control automatic split and merge operations.
The following sections contain queries that you can run to monitor current and past automatic split and merge operations:
Displaying the Names of the Original and Cloned Oracle Streams Components
Displaying the Actions and Thresholds for Split and Merge Operations
Displaying Information About Past Split and Merge Operations
Note:
The queries in these sections only show information about automatic split and merge operations. These queries do not show information about operations that split streams manually using theSPLIT_STREAMS procedure in the DBMS_STREAMS_ADM package.See Also:
Oracle Streams Replication Administrator's Guide for more information about split and merge operations
Oracle Database PL/SQL Packages and Types Reference for more information about capture process parameters
The query in this section shows the following information about the Oracle Streams components that are involved in a split and merge operation:
The name of the original capture process from which a destination stream was split off
The name of the cloned capture process that captures changes for the problem destination
The name of the original propagation or apply process that was part of the stream that was split off
In a multiple-database configuration, a propagation sends changes from the capture process's queue to the apply process's queue, and a propagation is shown in this query. In a single-database configuration, an apply process dequeues changes from the queue that is used by the capture process, and an apply process is shown in this query.
The name of the cloned propagation or apply process that processes changes for the problem destination
The type of the Oracle Streams component that receives changes from the capture process, either PROPAGATION or APPLY
Run the following query to display this information:
COLUMN ORIGINAL_CAPTURE_NAME HEADING 'Original|Capture|Process' FORMAT A15
COLUMN CLONED_CAPTURE_NAME HEADING 'Cloned|Capture|Process' FORMAT A15
COLUMN ORIGINAL_STREAMS_NAME HEADING 'Original|Streams|Name' FORMAT A15
COLUMN CLONED_STREAMS_NAME HEADING 'Cloned|Streams|Name' FORMAT A15
COLUMN STREAMS_TYPE HEADING 'Streams|Type' FORMAT A11
SELECT ORIGINAL_CAPTURE_NAME,
CLONED_CAPTURE_NAME,
ORIGINAL_STREAMS_NAME,
CLONED_STREAMS_NAME,
STREAMS_TYPE
FROM DBA_STREAMS_SPLIT_MERGE;
Your output looks similar to the following:
Original Cloned Original Cloned
Capture Capture Streams Streams Streams
Process Process Name Name Type
--------------- --------------- --------------- --------------- -----------
DB$CAP CLONED$_DB$CAP_ PROPAGATION$_17 CLONED$_PROPAGA PROPAGATION
1 TION$_17_2
See Also:
Oracle Streams Replication Administrator's Guide for more information about split and merge operationsThe query in this section shows the following information about the actions performed by the split and merge operation and the thresholds that were set for splitting and merging a problem destination:
The name of the original capture process from which a destination stream was split off
The script status of the split or merge job, either GENERATING, NOT EXECUTED, EXECUTING, EXECUTED, or ERROR
The type of action performed by the job, either SPLIT, MERGE, or MONITOR
When a SPLIT job determines that a split must be performed, a row with SPLIT action type is inserted into the DBA_STREAMS_SPLIT_MERGE view.
When the split operation is complete, the SPLIT action type row is copied to the DBA_STREAMS_SPLIT_MERGE_HIST view, and a MERGE job is created. A row with MERGE action type is inserted into the DBA_STREAMS_SPLIT_MERGE view. When merge operation is complete, the MERGE action type row is moved to the DBA_STREAMS_SPLIT_MERGE_HIST view, and the SPLIT action type row is deleted from the DBA_STREAMS_SPLIT_MERGE view. The SPLIT action type row was previously copied to the DBA_STREAMS_SPLIT_MERGE_HIST view.
Each original capture process has a SPLIT job that monitors all of its destinations. This type of job displays the MONITOR action type in rows in the DBA_STREAMS_SPLIT_MERGE view. MONITOR action type rows are moved to the DBA_STREAMS_SPLIT_MERGE_HIST view only if the SPLIT job is disabled. A SPLIT job can be disabled either by setting the split_threshold capture process parameter to INFINITE or by dropping the capture process.
The capture process parameter threshold set for the operation, in seconds
For SPLIT jobs, the threshold is set by the split_threshold capture process parameter. For MERGE jobs, the threshold is set by the merge_threshold capture process parameter.
The status of the action
For SPLIT actions, the status can be SPLITTING, SPLIT DONE, or ERROR. The SPLITTING status indicates that the split operation is being performed. The SPLIT DONE status indicates that the split operation is complete. The ERROR status indicates that an error was returned during the split operation.
For MERGE actions, the status can be NOTHING TO MERGE, MERGING, MERGE DONE, or ERROR. The NOTHING TO MERGE status indicates that a split was performed but the split stream is not yet ready to merge. The MERGING status indicates that the merge operation is being performed. The MERGE DONE status indicates that the merge operation is complete. The ERROR status indicates that an error was returned during the merge operation.
For MONITOR actions, the status can be any of the SPLIT and MERGE status values. In addition, a MONITOR action can show NOTHING TO SPLIT or NONSPLITTABLE for its status. The NOTHING TO SPLIT status indicates that the streams flowing from the capture process are being processed at all destinations, and no stream should be split. The NONSPLITTABLE status indicates that it is not possible to split the stream for the capture process. A NONSPLITTABLE status is possible in the following cases:
The capture process is disabled or aborted.
The capture process's queue has at least one publisher in addition to the capture process. The additional publisher can be another capture process or a propagation that sends messages to the queue.
The capture process has only one destination. Split and merge operations are possible only when there are two or more destinations for the changes captured by the capture process.
The date and time when the job status was last updated
Run the following query to display this information:
COLUMN ORIGINAL_CAPTURE_NAME HEADING 'Original|Capture|Process' FORMAT A10
COLUMN SCRIPT_STATUS HEADING 'Script|Status' FORMAT A12
COLUMN ACTION_TYPE HEADING 'Action|Type' FORMAT A7
COLUMN ACTION_THRESHOLD HEADING 'Action|Threshold' FORMAT A15
COLUMN STATUS HEADING 'Status' FORMAT A16
COLUMN STATUS_UPDATE_TIME HEADING 'Status|Update|Time' FORMAT A15
SELECT ORIGINAL_CAPTURE_NAME,
SCRIPT_STATUS,
ACTION_TYPE,
ACTION_THRESHOLD,
STATUS,
STATUS_UPDATE_TIME
FROM DBA_STREAMS_SPLIT_MERGE
ORDER BY STATUS_UPDATE_TIME DESC;
Your output looks similar to the following:
Original Status
Capture Script Action Action Update
Process Status Type Threshold Status Time
---------- ------------ ------- --------------- ---------------- ---------------
DB$CAP EXECUTED SPLIT 1800 SPLIT DONE 31-MAR-09 01.31
.37.133788 PM
See Also:
Oracle Streams Replication Administrator's Guide for more information about split and merge operations
Oracle Database PL/SQL Packages and Types Reference for more information about capture process parameters
After a stream is split off from a capture process for a problem destination, you must correct the problem at the destination and ensure that the cloned capture process is enabled. When the cloned capture process is sending changes to the problem destination, and the apply process at the problem destination is applying these changes, an Oracle Scheduler job runs the MERGE_STREAMS_JOB procedure according to its schedule.
The MERGE_STREAMS_JOB procedure queries the CAPTURE_MESSAGE_CREATE_TIME in the GV$STREAMS_CAPTURE view. When the difference between CAPTURE_MESSAGE_CREATE_TIME of the cloned capture process and the original capture process is less than or equal to the value of the merge_threshold capture process parameter, the MERGE_STREAMS_JOB procedure determines that the streams are ready to merge. The MERGE_STREAMS_JOB procedure runs the MERGE_STREAMS procedure automatically to merge the streams.
The LAG column in the DBA_STREAMS_SPLIT_MERGE view tracks the time in seconds that the cloned capture process lags behind the original capture process. The following query displays the lag time:
COLUMN ORIGINAL_CAPTURE_NAME HEADING 'Original Capture Process' FORMAT A25
COLUMN CLONED_CAPTURE_NAME HEADING 'Cloned Capture Process' FORMAT A25
COLUMN LAG HEADING 'Lag' FORMAT 999999999999999
SELECT ORIGINAL_CAPTURE_NAME,
CLONED_CAPTURE_NAME,
LAG
FROM DBA_STREAMS_SPLIT_MERGE;
Your output looks similar to the following:
Original Capture Process Cloned Capture Process Lag ------------------------- ------------------------- ---------------- DB$CAP CLONED$_DB$CAP_1 526
When the MERGE_STREAMS_JOB runs and the lag time is less than or equal to the value of the merge_threshold capture process parameter, the merge operation begins.
See Also:
Oracle Streams Replication Administrator's Guide for more information about split and merge operationsThe query in this section shows the following information about split and merge jobs:
The name of the original capture process from which a destination stream was split off
The owner of the job
The name of the job
The current state of the job, either DISABLED, RETRY SCHEDULED, SCHEDULED, RUNNING, COMPLETED, BROKEN, FAILED, REMOTE, SUCCEEDED, or CHAIN_STALLED
See Oracle Database Administrator's Guide for information about these job states.
The date and time when the job will run next
Run the following query to display this information:
COLUMN ORIGINAL_CAPTURE_NAME HEADING 'Original|Capture|Process' FORMAT A10
COLUMN JOB_OWNER HEADING 'Job Owner' FORMAT A10
COLUMN JOB_NAME HEADING 'Job Name' FORMAT A15
COLUMN JOB_STATE HEADING 'Job State' FORMAT A15
COLUMN JOB_NEXT_RUN_DATE HEADING 'Job Next|Run Date' FORMAT A20
SELECT ORIGINAL_CAPTURE_NAME,
JOB_OWNER,
JOB_NAME,
JOB_STATE,
JOB_NEXT_RUN_DATE
FROM DBA_STREAMS_SPLIT_MERGE;
Your output looks similar to the following:
Original
Capture Job Next
Process Job Owner Job Name Job State Run Date
---------- ---------- --------------- --------------- --------------------
DB$CAP SYS STREAMS_SPLITJO SCHEDULED 01-APR-09 01.14.55.0
B$_3 00000 PM -07:00
DB$CAP SYS STREAMS_MERGEJO SCHEDULED 01-APR-09 01.17.08.0
B$_6 00000 PM -07:00
See Also:
Oracle Streams Replication Administrator's Guide for more information about split and merge operationsThe query in this section shows the following historical information about split and merge operations that were performed in the past:
The name of the original capture process from which a destination stream was split off
The script status of split or merge job
The type of action performed by the job, either SPLIT or MERGE
The status of the action performed by the job
See "Displaying the Actions and Thresholds for Split and Merge Operations" for information about the status values.
The owner of the job
The name of the job
The recoverable script ID
Run the following query to display this information:
COLUMN ORIGINAL_CAPTURE_NAME HEADING 'Original|Capture|Process' FORMAT A8
COLUMN SCRIPT_STATUS HEADING 'Script|Status' FORMAT A12
COLUMN ACTION_TYPE HEADING 'Action|Type' FORMAT A8
COLUMN STATUS HEADING 'Status' FORMAT A10
COLUMN JOB_OWNER HEADING 'Job Owner' FORMAT A10
COLUMN JOB_NAME HEADING 'Job Name' FORMAT A10
COLUMN RECOVERABLE_SCRIPT_ID HEADING 'Recoverable|Script ID' FORMAT A15
SELECT ORIGINAL_CAPTURE_NAME,
SCRIPT_STATUS,
ACTION_TYPE,
STATUS,
JOB_OWNER,
JOB_NAME,
RECOVERABLE_SCRIPT_ID
FROM DBA_STREAMS_SPLIT_MERGE_HIST;
Your output looks similar to the following:
Original
Capture Script Action Recoverable
Process Status Type Status Job Owner Job Name Script ID
-------- ------------ -------- ---------- ---------- ---------- ---------------
DB1$CAP EXECUTED SPLIT SPLIT DONE SYS STREAMS_SP 6E5C6C49CDB5798
LITJOB$_9 3E040578C891704
87
DB1$CAP EXECUTED MERGE MERGE DONE SYS STREAMS_ME 6E5BA57554F1C4C
RGEJOB$_12 3E040578C89170A
1F
See Also:
Oracle Streams Replication Administrator's Guide for more information about split and merge operationsThe following sections contain queries that you can run to monitor supplemental logging at a source database:
The total supplemental logging at a database is determined by the results shown in all three of the queries in these sections combined. For example, supplemental logging can be enabled for columns in a table even if no results for the table are returned by the query in the "Displaying Supplemental Log Groups at a Source Database" section. That is, supplemental logging can be enabled for the table if database supplemental logging is enabled or if the table is in a schema for which supplemental logging was enabled during preparation for instantiation.
Supplemental logging places additional column data into a redo log when an operation is performed. A capture process captures this additional information and places it in LCRs. An apply process that applies these captured LCRs might need this additional information to schedule or apply changes correctly.
See Also:
To check whether one or more log groups are specified for the table at the source database, run the following query:
COLUMN LOG_GROUP_NAME HEADING 'Log Group' FORMAT A20
COLUMN TABLE_NAME HEADING 'Table' FORMAT A15
COLUMN ALWAYS HEADING 'Conditional or|Unconditional' FORMAT A14
COLUMN LOG_GROUP_TYPE HEADING 'Type of Log Group' FORMAT A20
SELECT
LOG_GROUP_NAME,
TABLE_NAME,
DECODE(ALWAYS,
'ALWAYS', 'Unconditional',
'CONDITIONAL', 'Conditional') ALWAYS,
LOG_GROUP_TYPE
FROM DBA_LOG_GROUPS;
Your output looks similar to the following:
Conditional or Log Group Table Unconditional Type of Log Group -------------------- --------------- -------------- -------------------- LOG_GROUP_DEP_PK DEPARTMENTS Unconditional USER LOG GROUP SYS_C002105 REGIONS Unconditional PRIMARY KEY LOGGING SYS_C002106 REGIONS Conditional FOREIGN KEY LOGGING SYS_C002110 LOCATIONS Unonditional ALL COLUMN LOGGING SYS_C002111 COUNTRIES Conditional ALL COLUMN LOGGING LOG_GROUP_JOBS_CR JOBS Conditional USER LOG GROUP
If the output for the type of log group shows how the log group was created:
If the output is USER LOG GROUP, then the log group was created using the ADD SUPPLEMENTAL LOG GROUP clause of the ALTER TABLE statement.
Otherwise, the log group was created using the ADD SUPPLEMENTAL LOG DATA clause of the ALTER TABLE statement.
If the type of log group is USER LOG GROUP, then you can list the columns in the log group by querying the DBA_LOG_GROUP_COLUMNS data dictionary view.
Note:
If the type of log group is notUSER LOG GROUP, then the DBA_LOG_GROUP_COLUMNS data dictionary view does not contain information about the columns in the log group. Instead, Oracle supplementally logs the correct columns when an operation is performed on the table. For example, if the type of log group is PRIMARY KEY LOGGING, then Oracle logs the current primary key column(s) when a change is performed on the table.To display the database supplemental logging specifications, query the V$DATABASE dynamic performance view, as in the following example:
COLUMN log_min HEADING 'Minimum|Supplemental|Logging?' FORMAT A12
COLUMN log_pk HEADING 'Primary Key|Supplemental|Logging?' FORMAT A12
COLUMN log_fk HEADING 'Foreign Key|Supplemental|Logging?' FORMAT A12
COLUMN log_ui HEADING 'Unique|Supplemental|Logging?' FORMAT A12
COLUMN log_all HEADING 'All Columns|Supplemental|Logging?' FORMAT A12
SELECT SUPPLEMENTAL_LOG_DATA_MIN log_min,
SUPPLEMENTAL_LOG_DATA_PK log_pk,
SUPPLEMENTAL_LOG_DATA_FK log_fk,
SUPPLEMENTAL_LOG_DATA_UI log_ui,
SUPPLEMENTAL_LOG_DATA_ALL log_all
FROM V$DATABASE;
Your output looks similar to the following:
Minimum Primary Key Foreign Key Unique All Columns Supplemental Supplemental Supplemental Supplemental Supplemental Logging? Logging? Logging? Logging? Logging? ------------ ------------ ------------ ------------- ------------ YES YES YES YES NO
These results show that minimum, primary key, foreign key, and unique key columns are being supplementally logged for all of the tables in the database. Because unique key columns are supplementally logged, bitmap index columns also are supplementally logged. However, all columns are not being supplementally logged.
Supplemental logging can be enabled when database objects are prepared for instantiation using one of the three procedures in the DBMS_CAPTURE_ADM package. A data dictionary view displays the supplemental logging enabled by each of these procedures: PREPARE_TABLE_INSTANTIATION, PREPARE_SCHEMA_INSTANTIATION, and PREPARE_GLOBAL_INSTANTIATION.
The DBA_CAPTURE_PREPARED_TABLES view displays the supplemental logging enabled by the PREPARE_TABLE_INSTANTIATION procedure.
The DBA_CAPTURE_PREPARED_SCHEMAS view displays the supplemental logging enabled by the PREPARE_SCHEMA_INSTANTIATION procedure.
The DBA_CAPTURE_PREPARED_DATABASE view displays the supplemental logging enabled by the PREPARE_GLOBAL_INSTANTIATION procedure.
Each of these views has the following columns:
SUPPLEMENTAL_LOG_DATA_PK shows whether primary key supplemental logging was enabled by a procedure.
SUPPLEMENTAL_LOG_DATA_UI shows whether unique key and bitmap index supplemental logging was enabled by a procedure.
SUPPLEMENTAL_LOG_DATA_FK shows whether foreign key supplemental logging was enabled by a procedure.
SUPPLEMENTAL_LOG_DATA_ALL shows whether supplemental logging for all columns was enabled by a procedure.
Each of these columns can display one of the following values:
IMPLICIT means that the relevant procedure enabled supplemental logging for the columns.
EXPLICIT means that supplemental logging was enabled for the columns manually using an ALTER TABLE or ALTER DATABASE statement with an ADD SUPPLEMENTAL LOG DATA clause.
NO means that supplemental logging was not enabled for the columns using a prepare procedure or an ALTER TABLE or ALTER DATABASE statement with an ADD SUPPLEMENTAL LOG DATA clause. Supplemental logging might not be enabled for the columns. However, supplemental logging might be enabled for the columns at another level (table, schema, or database), or it might have been enabled using an ALTER TABLE statement with an ADD SUPPLEMENTAL LOG GROUP clause.
The following sections contain queries that display the supplemental logging enabled by these procedures:
Displaying Supplemental Logging Enabled by PREPARE_TABLE_INSTANTIATION
Displaying Supplemental Logging Enabled by PREPARE_SCHEMA_INSTANTIATION
Displaying Supplemental Logging Enabled by PREPARE_GLOBAL_INSTANTIATION
The following query displays the supplemental logging enabled by the PREPARE_TABLE_INSTANTIATION procedure for the tables in the hr schema:
COLUMN TABLE_NAME HEADING 'Table Name' FORMAT A15
COLUMN log_pk HEADING 'Primary Key|Supplemental|Logging' FORMAT A12
COLUMN log_fk HEADING 'Foreign Key|Supplemental|Logging' FORMAT A12
COLUMN log_ui HEADING 'Unique|Supplemental|Logging' FORMAT A12
COLUMN log_all HEADING 'All Columns|Supplemental|Logging' FORMAT A12
SELECT TABLE_NAME,
SUPPLEMENTAL_LOG_DATA_PK log_pk,
SUPPLEMENTAL_LOG_DATA_FK log_fk,
SUPPLEMENTAL_LOG_DATA_UI log_ui,
SUPPLEMENTAL_LOG_DATA_ALL log_all
FROM DBA_CAPTURE_PREPARED_TABLES
WHERE TABLE_OWNER = 'HR';
Your output looks similar to the following:
Primary Key Foreign Key Unique All Columns
Supplemental Supplemental Supplemental Supplemental
Table Name Logging Logging Logging Logging
--------------- ------------ ------------ -------------- ------------
COUNTRIES NO NO NO NO
REGIONS IMPLICIT IMPLICIT IMPLICIT NO
DEPARTMENTS IMPLICIT IMPLICIT IMPLICIT NO
LOCATIONS EXPLICIT NO NO NO
EMPLOYEES NO NO NO IMPLICIT
JOB_HISTORY NO NO NO NO
JOBS NO NO NO NO
These results show the following:
The PREPARE_TABLE_INSTANTIATION procedure enabled supplemental logging for the primary key, unique key, bitmap index, and foreign key columns in the hr.regions and hr.departments tables.
The PREPARE_TABLE_INSTANTIATION procedure enabled supplemental logging for all columns in the hr.employees table.
An ALTER TABLE statement with an ADD SUPPLEMENTAL LOG DATA clause enabled primary key supplemental logging for the hr.locations table.
Note:
Omit theWHERE clause in the query to list the information for all of the tables in the database.The following query displays the supplemental logging enabled by the PREPARE_SCHEMA_INSTANTIATION procedure:
COLUMN SCHEMA_NAME HEADING 'Schema Name' FORMAT A20
COLUMN log_pk HEADING 'Primary Key|Supplemental|Logging' FORMAT A12
COLUMN log_fk HEADING 'Foreign Key|Supplemental|Logging' FORMAT A12
COLUMN log_ui HEADING 'Unique|Supplemental|Logging' FORMAT A12
COLUMN log_all HEADING 'All Columns|Supplemental|Logging' FORMAT A12
SELECT SCHEMA_NAME,
SUPPLEMENTAL_LOG_DATA_PK log_pk,
SUPPLEMENTAL_LOG_DATA_FK log_fk,
SUPPLEMENTAL_LOG_DATA_UI log_ui,
SUPPLEMENTAL_LOG_DATA_ALL log_all
FROM DBA_CAPTURE_PREPARED_SCHEMAS;
Your output looks similar to the following:
Primary Key Foreign Key Unique All Columns
Supplemental Supplemental Supplemental Supplemental
Schema Name Logging Logging Logging Logging
-------------------- ------------ ------------ -------------- ------------
HR NO NO NO IMPLICIT
OE IMPLICIT IMPLICIT IMPLICIT NO
These results show the following:
The PREPARE_SCHEMA_INSTANTIATION procedure enabled supplemental logging for all columns in tables in the hr schema.
The PREPARE_SCHEMA_INSTANTIATION procedure enabled supplemental logging for the primary key, unique key, bitmap index, and foreign key columns in the tables in the oe schema.
The following query displays the supplemental logging enabled by the PREPARE_GLOBAL_INSTANTIATION procedure:
COLUMN log_pk HEADING 'Primary Key|Supplemental|Logging' FORMAT A12
COLUMN log_fk HEADING 'Foreign Key|Supplemental|Logging' FORMAT A12
COLUMN log_ui HEADING 'Unique|Supplemental|Logging' FORMAT A12
COLUMN log_all HEADING 'All Columns|Supplemental|Logging' FORMAT A12
SELECT SUPPLEMENTAL_LOG_DATA_PK log_pk,
SUPPLEMENTAL_LOG_DATA_FK log_fk,
SUPPLEMENTAL_LOG_DATA_UI log_ui,
SUPPLEMENTAL_LOG_DATA_ALL log_all
FROM DBA_CAPTURE_PREPARED_DATABASE;
Your output looks similar to the following:
Primary Key Foreign Key Unique All Columns Supplemental Supplemental Supplemental Supplemental Logging Logging Logging Logging ------------ ------------ -------------- ------------ IMPLICIT IMPLICIT IMPLICIT NO
These results show that the PREPARE_GLOBAL_INSTANTIATION procedure enabled supplemental logging for the primary key, unique key, bitmap index, and foreign key columns in all of the tables in the database.
This section provides sample queries that you can use to monitor Oracle Streams synchronous captures.
This section contains these topics:
Displaying the Queue and Rule Set of Each Synchronous Capture
Displaying the Tables For Which Synchronous Capture Captures Changes
See Also:
Oracle Streams Replication Administrator's Guide for information about configuring synchronous capture
Oracle Database 2 Day + Data Replication and Integration Guide for an example that configures a replication environment that uses synchronous capture
You can display the following information about each synchronous capture in a database by running the query in this section:
The synchronous capture name
The name of the queue used by the synchronous capture
The name of the positive rule set used by the synchronous capture
The capture user for the synchronous capture
To display this general information about each synchronous capture in a database, run the following query:
COLUMN CAPTURE_NAME HEADING 'Synchronous|Capture Name' FORMAT A20 COLUMN QUEUE_NAME HEADING 'Synchronous|Capture Queue' FORMAT A20 COLUMN RULE_SET_NAME HEADING 'Positive Rule Set' FORMAT A20 COLUMN CAPTURE_USER HEADING 'Capture User' FORMAT A15 SELECT CAPTURE_NAME, QUEUE_NAME, RULE_SET_NAME, CAPTURE_USER FROM DBA_SYNC_CAPTURE;
Your output looks similar to the following:
Synchronous Synchronous Capture Name Capture Queue Positive Rule Set Capture User -------------------- -------------------- -------------------- --------------- SYNC01_CAPTURE STRM01_QUEUE RULESET$_21 STRMADMIN SYNC02_CAPTURE STRM02_QUEUE SYNC02_RULE_SET HR
The DBA_SYNC_CAPTURE_TABLES view displays the tables whose DML changes are captured by any synchronous capture in the local database. The DBA_STREAMS_TABLE_RULES view has information about each synchronous capture name and the rules used by each synchronous capture. You can display the following information by running the query in this section:
The name of each synchronous capture
The name of each rule used by the synchronous capture
If the rule is a subset rule, then the type of subsetting operation covered by the rule
The owner of each table specified in each rule
The name of each table specified in each rule
Whether synchronous capture is enabled or disabled for the table. If the synchronous capture is enabled for a table, then it captures DML changes made to the table. If synchronous capture is not enabled for a table, then it does not capture DML changes made to the table.
To display this information, run the following query:
COLUMN STREAMS_NAME HEADING 'Synchronous|Capture Name' FORMAT A15
COLUMN RULE_NAME HEADING 'Rule Name' FORMAT A15
COLUMN SUBSETTING_OPERATION HEADING 'Subsetting|Operation' FORMAT A10
COLUMN TABLE_OWNER HEADING 'Table|Owner' FORMAT A10
COLUMN TABLE_NAME HEADING 'Table Name' FORMAT A15
COLUMN ENABLED HEADING 'Enabled?' FORMAT A8
SELECT r.STREAMS_NAME,
r.RULE_NAME,
r.SUBSETTING_OPERATION,
t.TABLE_OWNER,
t.TABLE_NAME,
t.ENABLED
FROM DBA_STREAMS_TABLE_RULES r,
DBA_SYNC_CAPTURE_TABLES t
WHERE r.STREAMS_TYPE = 'SYNC_CAPTURE' AND
r.TABLE_OWNER = t.TABLE_OWNER AND
r.TABLE_NAME = t.TABLE_NAME;
Your output looks similar to the following:
Synchronous Subsetting Table Capture Name Rule Name Operation Owner Table Name Enabled? --------------- --------------- ---------- ---------- --------------- -------- SYNC01_CAPTURE EMPLOYEES20 HR EMPLOYEES YES SYNC02_CAPTURE DEPARTMENTS24 DELETE HR DEPARTMENTS YES SYNC02_CAPTURE DEPARTMENTS23 UPDATE HR DEPARTMENTS YES SYNC02_CAPTURE DEPARTMENTS22 INSERT HR DEPARTMENTS YES
This output indicates that synchronous capture sync01_capture captures DML changes made to the hr.employees table. This output also indicates that synchronous capture sync02_capture captures a subset of the changes to the hr.departments table.
If the ENABLED column shows NO for a table, then synchronous capture does not capture changes to the table. The ENABLED column shows NO when a table rule is added to a synchronous capture rule set by a procedure other than ADD_TABLE_RULES or ADD_SUBSET_RULES in the DBMS_STREAMS_ADM package. For example, if the ADD_RULE procedure in the DBMS_RULE_ADM package adds a table rule to a synchronous capture rule set, then the table appears when you query the DBA_SYNC_CAPTURE_TABLES view, but synchronous capture does not capture DML changes to the table. No results appear in the DBA_SYNC_CAPTURE_TABLES view for schema and global rules.
You can use the INCLUDE_EXTRA_ATTRIBUTE procedure in the DBMS_CAPTURE_ADM package to instruct a capture process or synchronous capture to capture one or more extra attributes and include the extra attributes in LCRs. The following query displays the extra attributes included in the LCRs captured by each capture process and synchronous capture in the local database:
COLUMN CAPTURE_NAME HEADING 'Capture Process or|Synchronous Capture' FORMAT A20 COLUMN ATTRIBUTE_NAME HEADING 'Attribute Name' FORMAT A15 COLUMN INCLUDE HEADING 'Include Attribute in LCRs?' FORMAT A30 SELECT CAPTURE_NAME, ATTRIBUTE_NAME, INCLUDE FROM DBA_CAPTURE_EXTRA_ATTRIBUTES ORDER BY CAPTURE_NAME;
Your output looks similar to the following:
Capture Process or Attribute Name Include Attribute in LCRs? Synchronous Capture -------------------- --------------- ------------------------------ SYNC_CAPTURE ROW_ID NO SYNC_CAPTURE SERIAL# NO SYNC_CAPTURE SESSION# NO SYNC_CAPTURE THREAD# NO SYNC_CAPTURE TX_NAME YES SYNC_CAPTURE USERNAME NO
Based on this output, the capture process or synchronous capture named sync_capture includes the transaction name (tx_name) in the LCRs that it captures, but this capture process or synchronous capture does not include any other extra attributes in the LCRs that it captures. To determine whether name returned by the CAPTURE_NAME column is a capture process or a synchronous capture, query the DBA_CAPTURE and DBA_SYNC_CAPTURE views.
See Also:
Oracle Database PL/SQL Packages and Types Reference for more information about the INCLUDE_EXTRA_ATTRIBUTE procedure
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