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SharePlex 11.4 - Reference Guide

About this guide Conventions used in this guide Revision History SharePlex Commands for Oracle SharePlex parameters SharePlex Commands for PostgreSQL SharePlex Parameters for PostgreSQL General SharePlex utilities Oracle Cloud Infrastructure SharePlex environment variables

Repair / repair using for PostgreSQL

Use the repair and repair using commands (collectively known as the repair commands) to repair out-of-sync rows in a target table or tables.

  • The repair command repairs individual target tables or any number of target tables in a given schema through the use of wildcards. When repairing individual tables, you can make use of column-based filtering to control the rows that are selected for repair.
  • The repair using command repairs all of the target tables listed in the active configuration or in another file that contains a subset of the tables in the active configuration.

The repair commands first perform a comparison to identify the rows that need to be repaired, and then they perform the repair. For more information about how tables are compared, see compare / compare using.

Note: A running comparison or repair does not affect the source tables in any way. SharePlex logs into the database only to query for read consistency, and the locks on the source tables are brief. SharePlex briefly locks the target tables during the processing, but users can continue accessing them with little or no awareness of the lock. Target table (or Out-Of-Sync rows if less than threshold value) is locked during the repair process to correct any Out-of-Sync rows.

Supported operations

SharePlex can detect and repair out-of-sync rows in a target table that are caused by DML operations: INSERT, UPDATE, DELETE.

Not supported

SharePlex does not support (and will skip) the comparison and repair of the following:

  • Sequences.
  • Tables for which transformation was used.
  • Network configurations in which a pass-through server is used to pass data between the source and target servers.
  • Comparisons and repairs are not supported in a cascading replication environment.
  • Do not perform DDL on a table that is being compared or repaired. A comparison does not detect out-of-sync conditions caused by DDL operations, including those that SharePlex supports. If the DDL changes the table definition, it invalidates the SELECT statement that is built by the comparison process to get the rows that need to be compared.

    Once you correct an out-of-sync condition caused by DDL, you can use the repair command to resynchronize the data in the rows.

  • Comparison and repair command strings longer than 255 characters are not supported. This is an operating system limitation. To work around this limitation, use the edit command on the source system. You can type the command string within a text file, and then the command automatically executes the file.
  • SharePlex displays incorrect results when users compare or repair PostgreSQL tables with advanced datatypes using SP_DEQ_USE_SP_CKSUM = 1. It is recommended that users use the default option, SP_DEQ_USE_SP_CKSUM = 0, which uses hashed value comparisons.

See the SharePlex Release Notes for additional information about data types that are supported by compare and compare using

Other conditions

  • The tables that you want to compare or repair must be part of an active configuration file.
  • Uncommitted transactions on a source table prevent the comparison and repair processes from obtaining the brief locks they need to obtain read consistency. Make certain that all transactions are committed before you run a comparison or repair.
  • Replication latency reduces the performance of compare and repair processing. The message from the source that spawns the comparison and repair processes on the target is sent through the queues with the replicated data. Delays caused by a data backlog also delay the spawn message and can cause the source process to lose its read consistency. If possible, perform comparisons and repairs during off-peak hours.

  • Do not truncate a table that is being compared or repaired. The comparison commands take a snapshot of each source table when they start. If a table is truncated, the table view in the snapshot is truncated, and this can cause the command to return invalid out-of-sync conditions.
  • To repair a view, the following must be true:

    • The view table must contain all of the constraint columns of the underlying table.
    • The names of the constraint columns in the view must be identical to the names of the constraint columns in the underlying table.

How to use the repair commands

The recommended procedure for maintaining synchronized data through the comparison and repair commands is to run the compare or compare using command first, then view the results with the repair status command. This command shows any rows that are out-of-sync and the possible cause. Unless the cause of the out-of-sync condition is corrected, replication will go out of synchronization again, even if you repair the rows this time. After the problem is fixed, issue the repair or repair using command.

You can run the repair or repair using command without doing a preliminary comparison. The command performs a comparison first, to identify the out-of-sync rows, and then it repairs those rows. However, the underlying cause of the out-of-sync condition must be corrected to prevent future out-of-sync conditions.

See the SharePlex Administration Guide for causes and solutions for out-of-sync conditions.

When to run the repair

The best time to repair a target table depends on its size, the cause of the problem, the extent of out-of-sync rows, and how long you are willing to tolerate users being locked out. Before you initiate a repair, consider the following:

  • Although the users of the tables are not usually affected by the brief locks that are applied when tables are compared, they are locked out of the target table for the duration of the repair process. For a small table, this might not be disruptive, but for a large table needing extensive repairs, the wait can be significant.
  • Locks on a target table can reduce posting performance if Post must wait for the repair to finish before it can apply changes to that table and move on to other tables. This increases the latency of the target data and causes operations to accumulate in the post queue. If the objects that Post needs to change are different from those being repaired, the two processes run simultaneously.
  • If you must repair a table immediately, but cannot tolerate locks or replication latency, you can use the where option to limit the repair to certain rows. An alternative is to use the key option, but this option may cause the repair to miss some out-of-sync rows.

  • If the repair can wait, correct the cause of the problem immediately and then do the repair during non-peak hours.

Special use cases

The following scenarios require special handling when running a comparison.

Use case Compare support
Consolidated replication

The target table in a central database has more rows than any of its contributing source databases, and often it has more columns than the source databases. Special consideration is required when using the repair commands in this environment.

repair using command

Consolidated replication is not supported by the repair using command. The repair using command will cause unwanted deletion of target rows that do not exist in those source tables.

As a workaround, create a subset of the configuration that excludes the tables that are involved in consolidated replication, and repair the subset configuration instead. You can use the repair command to repair the tables that are involved in consolidated replication.

repair command

Consolidated replication is supported if the target database and Post processes are configured to add the ID of the source host to each row. To compare or repair the correct rows in the central target table, use the targetwhere option and base the where clause on the source ID value.

For example, to compare a table in the database at the Eastern headquarters of a company to the correct rows in the central corporate database, you could use a source ID of "East" for the Eastern database and then base the targetwhere clause on that value. Use the same targetwhere clause in the repair command. The comparison and repair processes can use the source ID value to select only the rows that are valid for the Eastern database.

The use the comparison or repair commands for any implementation of consolidated replication, other than one that identifies a source ID, may result in the unwanted deletion of target rows. For more information about this configuration, see the SharePlex Administration Guide.

You may need to combine the targetwhere option with the standard where option to ensure that the target rows are selected accurately.

Peer-to-peer replication

In a peer-to-peer configuration, you must decide which system is the trusted source system and which is the secondary, or target, system. The secondary system is the one where any repairs will be performed. Before you run a comparison or repair in a peer-to-peer environment, follow these steps:

  1. Stop user access on the secondary system and wait for replicated operations from that system to post to the trusted source database. Users can continue to access the source database.
  2. Issue the qstatus command on the source and secondary systems.
  3. When there are 10 or fewer messages in the queues, run the comparison from the source system.
  4. During a comparison, you can permit user access to the source and secondary databases after the sp_xdesvr and sp_xdeclt start.
  5. Use the repair command with the where option to repair selected rows in a target table without locking users out of the table.

For more information about this configuration, see the SharePlex Administration Guide.

Tables without keys

The comparison and repair commands issue a SELECT statement with an ORDER BY clause on the source and target systems. The ordering is faster if large tables have a primary key or a unique, non-null key and an index (preferably a unique index). Otherwise, all of the columns are used as a key.

If a table has no unique row identifier, but does have one or more columns that can identify a row as unique, you can use the compare command with the orderby option. When this option is used, SharePlex prints a notice to the sp_xdesvr log on the source system that the command used those columns as a key.

The columns considered as keys should not contain null values if a repair needs to be done for a single row; it may result in a repair error. In this case, use the orderby option with columns that uniquely identify that row and do not contain null values.

Limitation: Data inconsistency is likely to occur in replication or compare-repair processes when SharePlex replication involves tables containing non-key columns with duplicate data.

Target tables with more columns than the source table

The repair and repair using commands ignore target columns that are not contained in the source table. A repair does the following:

  • An INSERT inserts values into target columns that have corresponding columns in the source table, but not into the extra columns. Columns with NOT NULL constraints but no default values cause PostgreSQL errors. Default values are recommended for extra columns in target tables.
  • An UPDATE resynchronizes values in target columns that have corresponding columns in the source table, but not the values in the extra columns.
  • A DELETE is not affected by extra columns in the target table, because the repair command selects rows based on column data in the matching columns.
Tables with a UNIQUE constraint

Columns defined with a UNIQUE constraint can cause the repair or repair using command to return unique-constraint violation errors. The following example shows source and target tables with two columns each. The first column is the primary key, and the second column has the UNIQUE constraint.

When SharePlex attempts to repair row 1 of the target table to match the source, the UNIQUE constraint on column 2 returns an error because the value 'ABC' already exists in row 2. The same thing happens for row 2 of the target table, because 'XYZ' already exists in row 1. Workarounds are:

  • Disable UNIQUE constraints on the target table before you run a repair command, then enable them again after the repair is finished.
  • Delete the target rows for which the unique constraint violations occurred, then run the repair again so that SharePlex inserts those rows with the correct data.
Tables with LOB columns

Repairs take longer if any target tables have LOB columns. For a faster repair, you can set the SP_DEQ_SKIP_LOB parameter to 0 so that the LOB columns are skipped in the comparison and repair. For more information, see SP_DEQ_SKIP_LOB .

How the repair works

A repair repairs out-of-sync conditions in a target table that are caused by DML operations:

  • extra or missing rows
  • rows whose values do not match

The conditions for a repair

The repair and repair using commands issue the following corrective SQL statements:

  • If a row exists on the source side but not the target side, SharePlex issues an INSERT statement.
  • If a row exists on the target side but not the source side, SharePlex issues a DELETE statement.
  • If a target row differs from the source row, and the key columns match, SharePlex issues an UPDATE statement based on the source values.

The process

A repair always includes a comparison to locate the out-of-sync conditions in a target table. When you run the repair or repair using command, SharePlex initiates the following sequence of events:

  1. The sp_cop process spawns a sp_xdesvr (server) process on the source system.
  2. The sp_xdesvr process returns control and use of the sp_ctrl interface to the user, and replication continues while the comparison proceeds.
  3. The sp_xdesvr process sends a message to the Post process to initiate a sp_xdeclt (client) process on the target system.
  4. The server and client processes establish direct communication with each other.
  5. The row selection and repair proceeds as follows:

    • If the repair command is being used, the sp_xdesvr selects the rows from the source tables, and sp_declt selects the rows from the target tables. The rows are sorted, compared and repaired.
    • If the repair using command is being used, the sp_xdesvr process creates a number of processing threads on the target system. The value set by the SP_DEQ_THREADS parameter controls the number of threads created. Each thread spawns an sp_xdeclt (client) process. The server and client processes establish direct communication with each other. The processing load is divided between the client processes. The rows from each source and target table are selected, sorted, compared, and repaired. The target tables are locked when it is their turn to be repaired, and then the lock is released.
    • Target tables are locked when it is their turn to be repaired, and then the lock is released.

  6. When finished, the processes write their log files, and you can view the results with the show repair command.

Error handling

If SharePlex encounters a database error when it applies a repair SQL statement, it stops the repair from that statement forward and commits only the previously applied valid statements. Thus, the table is partially repaired, but it still could be out of synchronization. The repair status command alerts you to this situation.

Manage the SQL log file

The compare and repair commands write the SQL that is needed to repair any out-of-sync rows to a SQL file in the same location as the log files. If only a compare command is issued, SharePlex does not execute these SQL statements. If a repair command is issued, the command works identically to the compare commands except that it executes the SQL statements to repair the out-of-sync rows.

You can suppress the output of the SQL log file. Some reasons to suppress this file are:

  • The data contains sensitive information. The SQL log file is written in clear text. By not producing a SQL log file, the sensitive data is not persisted to disk, which may satisfy security requirements for data at rest, such as those required to meet PCI compliance standards.
  • The compared or repaired tables have a very large number of out-of-sync rows. A log file of this size can consume a large amount of disk space.

To suppress the SQL log file, use the nosqllog option with the compare or repair command.

To suppress the output of the SQL log file for all compare and repair runs while the current instance of SharePlex is running, set the SP_SYS_SECURE_MODE environment variable to 1. This variable must be set before starting SharePlex, so if the sp_cop process is running it must be restarted after setting this variable. When sp_cop is run with this environment variable, the compare and repair commands will not put data into SQL files and the Post process will not put data into the SharePlex error log.

Run multiple processes

All of the compare and repair commands enable you to run multiple processes concurrently.

  • Multiple compare and repair commands can operate concurrently, each processing a pair of source and target tables, or you can use one command with PostgreSQL wildcards to specify multiple sets of tables. See the SharePlex Administration Guide for more information about how SharePlex supports wildcards.
  • The compare using and repair using commands operate on an entire file. For example, you can compare or repair the tables in an entire configuration file, or you can create one or more compare files or repair files to affect a subset of the target tables, and then run one or more of them concurrently. See the command syntax for instructions.

A maximum of 20 SharePlex processes can use the post queue at the same time, including the replication processes and the comparison and repair processes. It is recommended that you allow a maximum of five comparison and repair processes to run at any given time. By using the compare using and repair using commands, you can work around the 20-process limit by comparing more tables per process.

If a comparison or repair fails because the limit is reached, SharePlex logs a message to the Event Log.

Note: You can run multiple commands more easily by using the edit command to edit a previous command to create a new one.

Repair a subset of a configuration

You can repair subsets of an active configuration in the following ways.

  • To repair all of the target tables in replication that belong to one schema, use the repair command with a wildcard:

    sp_ctrl> repair scott.%

  • To repair all of the target tables in a configuration file, use the repair using command:

    sp_ctrl> repair using myconfig

  • To repair all of the target tables in one target route, use the repair using command with the at option:

    sp_ctrl> repair using config.active at prodsys@r.dbid

  • To repair a custom subset of the tables in a configuration, specify them in a repair file. This is a plain text file that lists only the source tables whose targets you want to repair. The target tables are taken from the configuration file at the time that the command is issued. You can create a repair file by using the create config or copy config command. Make certain to give this file a name that makes it clear it is not a configuration file. See the command syntax for more information.

Control which rows are repaired

The compare and repair commands have where options that enable you to filter the rows that are selected for processing. By default, these commands affect all rows of a table and ignore columns in the target table that are not contained in the source table.

  • Use the where option to filter rows based on identically named columns in the source and target tables.

  • Use the where option for a table that uses vertically partitioned replication. The source and target columns can have different names. Base the where selection on the source columns. SharePlex reads the column mappings from the configuration file to build the correct WHERE clause for the target table.
  • Use the sourcewhere and targetwhere options if one or more extra columns exists in either the source or target table and those rows contain values that determine row uniqueness.

    • Use sourcewhere if the source table contains the extra columns.
    • Use targetwhere if the target table contains the extra columns.

    To use this option correctly:

    • Use a sourcewhere or targetwhere option only for the extra columns.
    • Use the standard where option for the other columns that have the same name on both source and target.

    • SharePlex combines the where option with the sourcewhere or targetwhere option to create the complete WHERE clause.

Important! If you plan to run both a comparison and repair for a target table that has extra rows, only use targetwhere to compare for UPDATEs and DELETEs. The repair command cannot determine the correct values for INSERTs. To work around this issue, set a default value for the extra columns or manually update the inserted rows.

Identify processes

Every time that a comparison or repair command is issued, the job ID is shown in the sp_ctrl display. If the sp_ctrl display is not available, you can view the job ID by running the compare status command.

View status and results in sp_ctrl

To view the status or results of a repair, use the repair status command in sp_ctrl.

  • The basic command displays the processing status of the most recently started repair job, as well as any other jobs that have not yet finished.
  • Additional options can be used to display a summary status for all repair jobs for which there is history, or to display detailed information about one job.

For more information, see Repair status.

View warnings and errors

The sp_xdesvr and sp_xdeclt processes write a log file on the system where they run. The logs are stored in the log sub-directory of the SharePlex variable-data directory.

The name of the log written by the sp_xdesvr process is xdesvr_<jobid>_r.<dbid>_p<process id>.log, where:

  • JobID is the SharePlex-assigned job ID.
  • DBID is the database ID of the PostgreSQL instance.
  • ProcessID is the process ID of the sp_xdesvr process.

The names of the files written by the sp_xdeclt process are xdeclt_<jobid>-<tableid>_r.<dbid>_p<processid>.log appended with either .log or .sql, where:

  • JobID is the SharePlex-assigned job ID for the job.
  • TableID is the SharePlex-assigned table ID for the table in the job.
  • DBID is the database ID of the PostgreSQL instance.
  • SourceHost is the name or IP address of the source host.
  • ProcessID is the process ID of the sp_xdeclt process.

Example log file names:

xdesvr_7_r.aparopka_p4970.log

xdeclt_7-1_r.aparopka_p25095.log

xdeclt_7-1_r.aparopka_p25095_01.sql

To control disk usage, the logs are aged in a circular fashion. SharePlex generates a new log file when the current log reaches the size limit. New logs are created up to a maximum number of logs, and then SharePlex starts overwriting the oldest log.

Cancel a repair job

Use the cancel command to stop a running comparison or repair job.

sp_ctrl(sysA)>cancel JOBID

For more information, see Cancel.

Manage compare history and logs

SharePlex retains a history of each finished job in the database on the source system. The SP_SYS_JOB_HISTORY_RETENTION parameter controls how long history is retained.

To clear this history on demand, use the clear history command. When SharePlex removes the history of a job, it also removes the log file that was the source of the history.

To remove the log files from the source system without clearing the job history from the database, use the remove log command. You can also use this command to remove old log files from the target system.

To control the size of the log files, set the SP_DEQ_LOG_FILESIZE parameter.

Control the batch size

You can control the size of the block of rows that is fetched when the process makes its SELECT query. The block size is calculated based on the value set with the SP_DEQ_MALLOC parameter. The value is divided equally by the number of comparison threads to be used, and then it is recalculated based on the size of all of the columns added together.

Usage

Supported sources: PostgreSQL
Supported targets: PostgreSQL
Authorization level: Operator (2)
Issues on: source system
Related commands: Compare / compare using

Syntax

Basic commands Command options Remote options
repair owner.source_table[.partition]

[ at target_host@r.target_dbid ] |

[ for r.source_dbid ] |

[ {include | exclude} "column_list" ] |

[ insertonly ] |

[ key ] |

[ nosqllog ] |

[ not "exception_list" ] |

[ onepass ] |

[ orderby "column_list” ] |

[ parallelism degree ] |

[ sourcewhereclause” ] |

[ threads thread_count ] |

[ targetwhereclause” ] |

[ to target_owner.target_table[.partition] ] |

[ whereclause” ]

[ on host |

on host:portnumber |

on login/password@host |

on login/password@host:portnumber ]

repair using filename

[ key ] |

[ onepass ] |

[ port port_number ] |

[ threads threads_count ] |

[ parallelism degree ]

[ on host |

on host:portnumber |

on login/password@host |

on login/password@host:portnumber ]

Syntax description
Required command components
Component Description
repair owner.source_table[.partition]

The basic command repairs all of the source rows with all of the target rows.

owner.source_table is the owner and name of the source table. Use double quotes to enforce case-sensitivity or spaces within a name, for example “HR”.emp.

Wildcarded table names (but not owner names) are supported. To be repaired, tables that satisfy a wildcard in this command must be listed (explicitly or by wildcard) in the active replication configuration. For more information about how SharePlex handles wildcards, see the SharePlex Administration Guide.

Example

sp_ctrl(sysA)>repair scott.emp

repair using filename

The basic command repairs all of the out-of-sync rows in the target tables listed in filename.

filename is the name of the file that contains the names of the source tables whose targets you want to repair.

Example

sp_ctrl(sysA)>repair using sales

Optional command components
Component Description
at target_host@r.target_database_name

Valid for repair

Repairs only one of the target tables in a configuration where the source table replicates to multiple target systems.

target_host is the name of the target system.

target_db is the name of the target database name.

Example

sp_ctrl(SysA)>compare scott.emp at prod@r.database_name

for r.DBID

Valid for compare

Specifies the PostgreSQL instance that contains the source table. Use when the same source table is in multiple PostgreSQL instances on a system.

DBID is the database name of the PostgreSQL source instance. It is case-sensitive and must be typed as it appears in the config file.

When used, this option must appear after the required command arguments, but it can appear in any order with other options.

Example

sp_ctrl (SysA)>compare scott.emp for r.database_name

{include | exclude} "(column_list)"

Valid for repair

Filters the columns to be repaired.

  • Use include to specify columns that you want to repair. No other columns are repaired. You must include all of the key columns in an include clause.
  • Use exclude to repair all columns except those specified with exclude. Do not exclude any key columns.

(column_list) is the list of columns to include or exclude.

  • Separate each name with a comma. No spaces are permitted in the list unless the name of a column contains spaces.
  • Enclose the column list within double quote marks.
  • List columns in any order. The sort is performed in ascending order.
  • Column names are not case-sensitive.
  • When used, this option must appear after the required arguments of the command, but it can appear in any order with other options.

Note: There could still be rows that are out-of-sync in the columns that were not repaired.

Example

sp_ctrl (SysA)>repair scott.emp exclude "color, weight"

insertonly

Valid for repair

Repairs the target table for INSERT statements only.

Example

sp_ctrl(SysA)>repair scott.emp insertonly

key

Valid for repair and repair using

Performs a fast compare and repair of large tables. This command does not compare all of the data values, but only compares one of the following:

  • Only the PRIMARY key or non-null UNIQUE key columns.

    Or...

  • The columns specified with the orderby option. Use this option if the tables have no keys.

If the key or orderby columns do not match, SharePlex repairs the entire row by deleting it and then inserting it again based on the source values.

Important! Use this option with caution. Even if key values match, it is possible for values in non-key columns to be out of synchronization.

When used, this option must appear after the required command arguments. It can appear in any order with other options.

Do not use this option to base a repair on a SharePlex key definition. For more information about SharePlex key definitions, see the SharePlex Administration Guide.

Example

sp_ctrl (SysA)>repair scott.emp key

sp_ctrl(sysA)>repair using sales key

nosqllog

Suppresses output of the SQL log file. This file contains the SQL that is needed to repair out-of-sync rows. Some reasons not to output this file include:

  • The data contains sensitive information. The SQL log file is written in clear text. By not producing a SQL log file, the sensitive data is not persisted to disk, which may satisfy security requirements for data at rest, such as those required to meet PCI compliance standards.
  • The compared or repaired tables have a very large number of out-of-sync rows. A log file of this size can consume a large amount of disk space.
notexception_list

Valid for repair

Specifies an exception list of tables not to repair when the table specification includes wildcards.

exception_list” is a list of names of the tables not to repair.

  • Use the owner.tablename format.
  • Separate each name with a comma. No spaces are permitted in the list.
  • Enclose the list within double quote marks.
  • List the tables in any order.
  • When used, this option must appear after the required arguments of the command, but it can appear in any order with other options.

Example

sp_ctrl(SysA)>repair scott.% not (%temp%)

onepass

Valid for repair and repair using

Use this option to run a compare and repair concurrently. Use it for large out-of-sync tables.

Normally, a repair runs in two passes: first a compare, then a repair, which locks the target table. Both passes require a consistent view. With onepass, the target table is locked and repaired as soon as the compare client receives the consistent view marker.

Example

sp_ctrl(SysA)>repair scott.emp onepass

Note: For PostgreSQL, if a table has more than one key defined, using the 'onepass' command option may result in a duplicate constraint violation error during the repair process. It is recommended not to use the 'onepass' command option for such tables, as repair will work correctly without it.

For tables with a single key defined, repairing with the 'onepass' option will also work correctly.

In the case of a table with no key defined, repairing with the 'onepass' option will work correctly if it doesn't have any duplicate records. This is because the target table can have multiple records with the same value, and the DELETE statement will operate on all or partial column values as keys in the WHERE clause. As a result, the expected corrections may not be performed.

orderbycolumn_list

Valid for repair

Use the ORDERBY clause command option in conjunction with the KEY command option to compare the columns specified with the ORDERBY option. If the key or ORDERBY columns do not match, SharePlex repairs the entire row by deleting it and then inserting it again based on the source values.

Specifies columns for the repair process to use in its ORDERBY clause when it sorts rows to be compared. This option enables repairs to be performed on tables that have no primary or unique key.

column_list” is the names of the columns to use in the ORDERBY clause.

  • Separate each name with a comma. No spaces are permitted in the list unless the name of a column contains spaces.
  • Enclose the column list within double quote marks.
  • List columns in any order. The sort is performed in ascending order.
  • Column names are not case-sensitive.
  • When used, this option must appear after the required arguments of the command, but it can appear in any order with other options.
  • When running a repair from the command line of the operating system, quoted strings must have an extra set of escaped double quotes:

    /productdir/bin/sp_ctrl repair scott.emp orderby “\“Last Name,Division\””

Example

sp_ctrl(SysA)>repair scott.emp where “file >001005” orderby “Last Name,Division”

parallelism degree

Valid for repair and repair using

Adds a parallel hint to the SELECT statement. For degree, set the degree of parallelism.

Example

sp_ctrl(sysA)>repair scott.emp parallelism 4

sp_ctrl(sysA)>repair using sales parallelism 4

sourcewhereclause

Valid for repair

Bases the repair on one or more columns in the source table when those columns do not exist in the target table. Rows filtered by this condition on the source table will be locked.

  • Enclose clause within double quote marks and refer to tables by their fully qualified names, for example scott.emp.
  • Use double quote marks to enforce case sensitivity or spaces within a table name.
  • Dates must be in the format of 'YYYYSMMDDHH24MISS'. To convert a date to that format, use the PostgreSQL TO_DATE function. For example if c1 is a DATE column, the WHERE clause "c1 > '10-SEP-2001'" will not work, but "c1 > to_date('10- SEP-2001', 'DD-MON-YYYY')" will work.
  • When running a repair from the command line of the operating system, quoted strings must have an extra set of escaped double quotes, like the following example:

    sp_ctrl>repair scott.emp sourcewhere “\“file >001005\””

  • When used, this option must appear after the required command arguments, but it can appear in any order with other options.

Example #1:

sp_ctrl(sysA)>repair scott.emp sourcewhere “file >001005”

Example #2:

The following example shows how the sourcewhere and where options are combined to get the desired result. Only the source repair process uses the sourcewhere clause, but both the source and target repair processes use the where clause.

sp_ctrl(SysA)>repair scott.emp sourcewhere “deptno = 200” where “mgr = ‘SMITH’”

targetwhere "clause"

Valid for repair

Bases the repair on one or more columns in the target table when those columns do not exist in the source table. Rows filtered by this condition on the target table will be locked.

  • Enclose the clause within double quote marks and refer to tables by their fully qualified names, for example scott.emp.
  • Use double quote marks to enforce case sensitivity or spaces within a table name.
  • Dates must be in the format of 'YYYYSMMDDHH24MISS'. To convert a date to that format, use the PostgreSQL TO_DATE function. For example if c1 is a DATE column, the WHERE clause "c1 > '10-SEP-2001'" will not work, but "c1 > to_date('10- SEP-2001', 'DD-MON-YYYY')" will work.
  • When running a comparison from the command line of the operating system, quoted strings must have an extra set of escaped double quotes:

    /productdir/bin/sp_ctrl repair scott.emp targetwhere “\“file >001005\””

  • When used, this option must appear after the required command arguments, but it can appear in any order with other options.

Example #1:

sp_ctrl(SysA)> repair scott.emp targetwhere “file >001005”

Example #2:

The following example shows how the targetwhere and where options are combined to get the desired result. Only the target repair process will use the targetwhere clause, but both the source and target repair processes will use the where clause.

sp_ctrl(SysA)>repair scott.emp where “deptno = 200” targetwhere “mgr = ‘SMITH’” repair

threads thread_count

Valid for repair and repair using

Sets the number of processing threads that are used by the repair process.

Example

sp_ctrl(sysA)>repair scott.emp threads 4

sp_ctrl(sysA)>repair using sales threads 4

to target_owner.target_table [.partition]

Valid for repair

Repairs only one of the targets of a source table. Use when the source table replicates to multiple target systems and the target tables have different names.

This option can also be used to specify a target partition.

compare source_owner.source_table.[source_partition] to target_owner.target_table.[target_partition]

Example

(Repairs a partition)

sp_ctrl(SysA)>repair scott.emp.east to scott.allemp.alleast

whereclause

Valid for repair

Include a WHERE clause in the SELECT statement on both the source and target systems. The WHERE clause acts as a filter to repair specific rows. Rows filtered by this condition will be locked.

For “clause” specify a standard WHERE clause that does not include subqueries.

  • Enclose the clause within double quote marks and refer to tables by their fully qualified names, for example scott.emp.
  • Use double quote marks to enforce case sensitivity or spaces within a table name.
  • Dates must be in the format of 'YYYYSMMDDHH24MISS'. To convert a date to that format, use the PostgreSQL TO_DATE function. For example if c1 is a DATE column, the WHERE clause "c1 > '10-SEP-2001'" will not work, but "c1 > to_date('10- SEP-2001', 'DD-MON-YYYY')" will work.
  • When used, this option must appear after the required command arguments, but it can appear in any order with other options.

Example

sp_ctrl (SysA)>repair scott.emp where “region=4”

Remote options

These options enable you to issue the command on a remote machine and to script commands that include a login name, password, port number, or combination of those items.

Option Description
on host

Execute the command on a remote system (one other than the one where the current sp_ctrl session is running). You are prompted for login credentials for the remote system. If used, must be the last component of the command syntax.

Example:sp_ctrl(sysB)>status on SysA

on host:portnumber

Execute the command on a remote system when a remote login and port number must be provided. If used, must be the last component of the command syntax.

Example:sp_ctrl(sysB)>status on SysA:8304

on login/password@host

Execute the command on a remote system when a remote login, password, and host name must be provided. If used, must be the last component of the command syntax.

Example:sp_ctrl(sysB)>status on john/spot5489@SysA

on login/password@host:portnumber

Execute the command on a remote system when a remote login, password, host name, and port number must be provided. If used, must be the last component of the command syntax.

Example:sp_ctrl(sysB)>status on john/spot5489@SysA:8304

Repair status command for PostgreSQL

Use the repair status command to view the status of the last compare or repair job run. The repair status command can be used to view detailed status on a compare or repair job or a portion of a compare or repair job, or to view status on all compare and repair jobs for which SharePlex has history.

For details and examples about using the repair status command, see the job status command

Usage

Supported sources: PostgreSQL
Supported targets: PostgreSQL
Authorization level: Operator (2)
Issued for: source system
Related commands: compare status, job status

Syntax

Basic command Command options Remote options
repair status

[job_id]

[job_id.table_id]

[all]

[full]

[detail]

[status]

[ on host |

on host:portnumber |

on login/password@host |

on login/password@host:portnumber ]

Syntax description
Component Description
job_id

Displays status history for the job with the specified SharePlex-assigned job ID.

Example: sp_ctrl(sysA)> repair status 2828.2

job_id.table_id

Displays status history for the job with the specified SharePlex-assigned job ID and table.

Example: sp_ctrl(sysA)> repair status 2828.HR.SRC_TEST3

all

Displays a summary line for every job with history in the database.

Example: sp_ctrl(sysA)> repair status all

full

Displays the status of every object in the job. By default, the job status command displays the status of those objects not completed, or completed with an exceptional status.

Example: sp_ctrl(sysA)> repair status2828 full

detail

Displays detail information for every object reported upon. By default, the job status command displays a summary line for every object reported upon. Note that the detail information is the same as is displayed for the job_id.table_id option.

Example: sp_ctrl(sysA)> repair status detail

status

Displays status history for previous jobs with the specified status.

Example: sp_ctrl(SysA)> repair status “Error”

Remote options

These options enable you to issue the command on a remote machine and to script commands that include a login name, password, port number, or combination of those items.

Option Description
on host

Execute the command on a remote system (one other than the one where the current sp_ctrl session is running). You are prompted for login credentials for the remote system. If used, must be the last component of the command syntax.

Example: sp_ctrl(sysB)>status on SysA

on host:portnumber

Execute the command on a remote system when a remote login and port number must be provided. If used, must be the last component of the command syntax.

Example: sp_ctrl(sysB)>status on SysA:8304

on login/password@host

Execute the command on a remote system when a remote login, password, and host name must be provided. If used, must be the last component of the command syntax.

Example:sp_ctrl(sysB)>status on john/spot5489@SysA

on login/password@host:portnumber

Execute the command on a remote system when a remote login, password, host name, and port number must be provided. If used, must be the last component of the command syntax.

Example: sp_ctrl(sysB)>status on john/spot5489@SysA:8304

Verify config for PostgreSQL

The verify config command is intended for use as a preventive measure to avoid certain activation and replication problems. It is intended to be used to test activation to ensure that it will complete successfully.

The verify config command verifies tables only.

This command can be used to:

  • Verify the syntax of the entries in the configuration file.
  • Report an error if the source object is not supported for replication by SharePlex.
  • Report if a host name specified in a route is unreachable.
  • Report if there are duplicate specifications for a single object.
  • Report if an object specification will be skipped and the reason why.
What the verify config command does not support

The verify config command does not:

  • Verify activation time.
  • Verify target objects or the target database name.
Verifying added or changed objects in an active configuration

To verify objects that you want to add to an active configuration or objects that you want to change (such as routing changes), it is suggested that you copy and modify the active configuration and then run the verify command against that copy.

Viewing the results of the verification

The verify config command retains control of the sp_ctrl interface until the verification is completed.

The command will read the entire config file and logging errors.

The results of the verify are displayed to the screen within sp_ctrl. If you would like to view detailed results you may:

  • Issue the verify config command in sp_ctrl using the detail option
  • Navigate to the results file directly using the path displayed to the screen after issuing the verify config command.

Usage

Supported sources: PostgreSQL (on-prem), Amazon RDS for PostgreSQL, Amazon Aurora for PostgreSQL, Azure Database for PostgreSQL Flexible Server, and Google Cloud SQL for PostgreSQL
Supported targets: PostgreSQL, Oracle, SQL Server, Kafka, Amazon RDS for PostgreSQL, Amazon Aurora for PostgreSQL, Azure Database for PostgreSQL Flexible Server, and Google Cloud SQL for PostgreSQL
Authorization level: Viewer (3)
Issued for: source system
Related commands: activate config

Syntax

Basic command Command options
verify config filename detail
Supported wildcard syntax

SharePlex supports the following SQL wildcards for tablename

  • Percent (%) wildcard to specify a string.
  • Underscore (_) wildcard to specify a single-character.

For more information on supported wildcard syntax, see Use Wildcards to Specify Multiple Tables.

Syntax description
Component Description
filename

filename is the name of the configuration to be verified.

detail

This option will display a greater level of detail to the screen.

Example:

sp_ctrl(sysA)> verify config myconfig detail

In this example, the myconfig file will be verified and the results will be displayed with a higher level of detail.

View Partitions for PostgreSQL

Use the view partitions command to view the row partitions in one partition scheme or all partition schemes in a horizontally partitioned replication configuration.

For more information about how to configure horizontally partitioned replication, see the SharePlex Administration Guide.

Usage

Supported source:

PostgreSQL (on-prem), Amazon RDS for PostgreSQL, Amazon Aurora for PostgreSQL, Azure Database for PostgreSQL Flexible Server, and Google Cloud SQL for PostgreSQL

Supported targets: PostgreSQL, Oracle, SQL Server, Kafka, Amazon RDS for PostgreSQL, Amazon Aurora for PostgreSQL, Azure Database for PostgreSQL Flexible Server, and Google Cloud SQL for PostgreSQL
Issues on: source system
Related commands: add partition, drop partition, drop partition scheme, modify partition

Syntax

Basic command

view partitions for {scheme_name | all}

Syntax description
Component Description
scheme_name Show the row partitions for the specified partition scheme.
all

Show all row partitions, grouped according to the names of their partition schemes.

Examples

sp_ctrl> view partitions for scheme1

sp_ctrl> view partitions all

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