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19.1.6.4 Binary Logging Options and Variables

You can use the mysqld options and system variables that are described in this section to affect the operation of the binary log as well as to control which statements are written to the binary log. For additional information about the binary log, see Section 7.4.4, “The Binary Log”. For additional information about using MySQL server options and system variables, see Section 7.1.7, “Server Command Options”, and Section 7.1.8, “Server System Variables”.

Startup Options Used with Binary Logging

The following list describes startup options for enabling and configuring the binary log. System variables used with binary logging are discussed later in this section.

  • --binlog-row-event-max-size=N

    Command-Line Format --binlog-row-event-max-size=#
    System Variable (≥ 8.0.14) binlog_row_event_max_size
    Scope (≥ 8.0.14) Global
    Dynamic (≥ 8.0.14) No
    SET_VAR Hint Applies (≥ 8.0.14) No
    Type Integer
    Default Value 8192
    Minimum Value 256
    Maximum Value (64-bit platforms) 18446744073709551615
    Maximum Value (32-bit platforms) 4294967295
    Unit bytes

    When row-based binary logging is used, this setting is a soft limit on the maximum size of a row-based binary log event, in bytes. Where possible, rows stored in the binary log are grouped into events with a size not exceeding the value of this setting. If an event cannot be split, the maximum size can be exceeded. The value must be (or else gets rounded down to) a multiple of 256. The default is 8192 bytes.

  • --log-bin[=base_name]

    Command-Line Format --log-bin=file_name
    Type File name

    Specifies the base name to use for binary log files. With binary logging enabled, the server logs all statements that change data to the binary log, which is used for backup and replication. The binary log is a sequence of files with a base name and numeric extension. The --log-bin option value is the base name for the log sequence. The server creates binary log files in sequence by adding a numeric suffix to the base name.

    If you do not supply the --log-bin option, MySQL uses binlog as the default base name for the binary log files. For compatibility with earlier releases, if you supply the --log-bin option with no string or with an empty string, the base name defaults to host_name-bin, using the name of the host machine.

    The default location for binary log files is the data directory. You can use the --log-bin option to specify an alternative location, by adding a leading absolute path name to the base name to specify a different directory. When the server reads an entry from the binary log index file, which tracks the binary log files that have been used, it checks whether the entry contains a relative path. If it does, the relative part of the path is replaced with the absolute path set using the --log-bin option. An absolute path recorded in the binary log index file remains unchanged; in such a case, the index file must be edited manually to enable a new path or paths to be used. The binary log file base name and any specified path are available as the log_bin_basename system variable.

    In earlier MySQL versions, binary logging was disabled by default, and was enabled if you specified the --log-bin option. From MySQL 8.0, binary logging is enabled by default, whether or not you specify the --log-bin option. The exception is if you use mysqld to initialize the data directory manually by invoking it with the --initialize or --initialize-insecure option, when binary logging is disabled by default. It is possible to enable binary logging in this case by specifying the --log-bin option. When binary logging is enabled, the log_bin system variable, which shows the status of binary logging on the server, is set to ON.

    To disable binary logging, you can specify the --skip-log-bin or --disable-log-bin option at startup. If either of these options is specified and --log-bin is also specified, the option specified later takes precedence. When binary logging is disabled, the log_bin system variable is set to OFF.

    When GTIDs are in use on the server, if you disable binary logging when restarting the server after an abnormal shutdown, some GTIDs are likely to be lost, causing replication to fail. In a normal shutdown, the set of GTIDs from the current binary log file is saved in the mysql.gtid_executed table. Following an abnormal shutdown where this did not happen, during recovery the GTIDs are added to the table from the binary log file, provided that binary logging is still enabled. If binary logging is disabled for the server restart, the server cannot access the binary log file to recover the GTIDs, so replication cannot be started. Binary logging can be disabled safely after a normal shutdown.

    The --log-slave-updates and --slave-preserve-commit-order options require binary logging. If you disable binary logging, either omit these options, or specify --log-slave-updates=OFF and --skip-slave-preserve-commit-order. MySQL disables these options by default when --skip-log-bin or --disable-log-bin is specified. If you specify --log-slave-updates or --slave-preserve-commit-order together with --skip-log-bin or --disable-log-bin, a warning or error message is issued.

    In MySQL 5.7, a server ID had to be specified when binary logging was enabled, or the server would not start. In MySQL 8.0, the server_id system variable is set to 1 by default. The server can now be started with this default server ID when binary logging is enabled, but an informational message is issued if you do not specify a server ID explicitly by setting the server_id system variable. For servers that are used in a replication topology, you must specify a unique nonzero server ID for each server.

    For information on the format and management of the binary log, see Section 7.4.4, “The Binary Log”.

  • --log-bin-index[=file_name]

    Command-Line Format --log-bin-index=file_name
    System Variable log_bin_index
    Scope Global
    Dynamic No
    SET_VAR Hint Applies No
    Type File name

    The name for the binary log index file, which contains the names of the binary log files. By default, it has the same location and base name as the value specified for the binary log files using the --log-bin option, plus the extension .index. If you do not specify --log-bin, the default binary log index file name is binlog.index. If you specify --log-bin option with no string or an empty string, the default binary log index file name is host_name-bin.index, using the name of the host machine.

    For information on the format and management of the binary log, see Section 7.4.4, “The Binary Log”.

Statement selection options.  The options in the following list affect which statements are written to the binary log, and thus sent by a replication source server to its replicas. There are also options for replicas that control which statements received from the source should be executed or ignored. For details, see Section 19.1.6.3, “Replica Server Options and Variables”.

  • --binlog-do-db=db_name

    Command-Line Format --binlog-do-db=name
    Type String

    This option affects binary logging in a manner similar to the way that --replicate-do-db affects replication.

    The effects of this option depend on whether the statement-based or row-based logging format is in use, in the same way that the effects of --replicate-do-db depend on whether statement-based or row-based replication is in use. You should keep in mind that the format used to log a given statement may not necessarily be the same as that indicated by the value of binlog_format. For example, DDL statements such as CREATE TABLE and ALTER TABLE are always logged as statements, without regard to the logging format in effect, so the following statement-based rules for --binlog-do-db always apply in determining whether or not the statement is logged.

    Statement-based logging.  Only those statements are written to the binary log where the default database (that is, the one selected by USE) is db_name. To specify more than one database, use this option multiple times, once for each database; however, doing so does not cause cross-database statements such as UPDATE some_db.some_table SET foo='bar' to be logged while a different database (or no database) is selected.

    Warning

    To specify multiple databases you must use multiple instances of this option. Because database names can contain commas, the list is treated as the name of a single database if you supply a comma-separated list.

    An example of what does not work as you might expect when using statement-based logging: If the server is started with --binlog-do-db=sales and you issue the following statements, the UPDATE statement is not logged:

    USE prices;
    UPDATE sales.january SET amount=amount+1000;

    The main reason for this just check the default database behavior is that it is difficult from the statement alone to know whether it should be replicated (for example, if you are using multiple-table DELETE statements or multiple-table UPDATE statements that act across multiple databases). It is also faster to check only the default database rather than all databases if there is no need.

    Another case which may not be self-evident occurs when a given database is replicated even though it was not specified when setting the option. If the server is started with --binlog-do-db=sales, the following UPDATE statement is logged even though prices was not included when setting --binlog-do-db:

    USE sales;
    UPDATE prices.discounts SET percentage = percentage + 10;

    Because sales is the default database when the UPDATE statement is issued, the UPDATE is logged.

    Row-based logging.  Logging is restricted to database db_name. Only changes to tables belonging to db_name are logged; the default database has no effect on this. Suppose that the server is started with --binlog-do-db=sales and row-based logging is in effect, and then the following statements are executed:

    USE prices;
    UPDATE sales.february SET amount=amount+100;

    The changes to the february table in the sales database are logged in accordance with the UPDATE statement; this occurs whether or not the USE statement was issued. However, when using the row-based logging format and --binlog-do-db=sales, changes made by the following UPDATE are not logged:

    USE prices;
    UPDATE prices.march SET amount=amount-25;

    Even if the USE prices statement were changed to USE sales, the UPDATE statement's effects would still not be written to the binary log.

    Another important difference in --binlog-do-db handling for statement-based logging as opposed to the row-based logging occurs with regard to statements that refer to multiple databases. Suppose that the server is started with --binlog-do-db=db1, and the following statements are executed:

    USE db1;
    UPDATE db1.table1, db2.table2 SET db1.table1.col1 = 10, db2.table2.col2 = 20;

    If you are using statement-based logging, the updates to both tables are written to the binary log. However, when using the row-based format, only the changes to table1 are logged; table2 is in a different database, so it is not changed by the UPDATE. Now suppose that, instead of the USE db1 statement, a USE db4 statement had been used:

    USE db4;
    UPDATE db1.table1, db2.table2 SET db1.table1.col1 = 10, db2.table2.col2 = 20;

    In this case, the UPDATE statement is not written to the binary log when using statement-based logging. However, when using row-based logging, the change to table1 is logged, but not that to table2—in other words, only changes to tables in the database named by --binlog-do-db are logged, and the choice of default database has no effect on this behavior.

  • --binlog-ignore-db=db_name

    Command-Line Format --binlog-ignore-db=name
    Type String

    This option affects binary logging in a manner similar to the way that --replicate-ignore-db affects replication.

    The effects of this option depend on whether the statement-based or row-based logging format is in use, in the same way that the effects of --replicate-ignore-db depend on whether statement-based or row-based replication is in use. You should keep in mind that the format used to log a given statement may not necessarily be the same as that indicated by the value of binlog_format. For example, DDL statements such as CREATE TABLE and ALTER TABLE are always logged as statements, without regard to the logging format in effect, so the following statement-based rules for --binlog-ignore-db always apply in determining whether or not the statement is logged.

    Statement-based logging.  Tells the server to not log any statement where the default database (that is, the one selected by USE) is db_name.

    When there is no default database, no --binlog-ignore-db options are applied, and such statements are always logged. (Bug #11829838, Bug #60188)

    Row-based format.  Tells the server not to log updates to any tables in the database db_name. The current database has no effect.

    When using statement-based logging, the following example does not work as you might expect. Suppose that the server is started with --binlog-ignore-db=sales and you issue the following statements:

    USE prices;
    UPDATE sales.january SET amount=amount+1000;

    The UPDATE statement is logged in such a case because --binlog-ignore-db applies only to the default database (determined by the USE statement). Because the sales database was specified explicitly in the statement, the statement has not been filtered. However, when using row-based logging, the UPDATE statement's effects are not written to the binary log, which means that no changes to the sales.january table are logged; in this instance, --binlog-ignore-db=sales causes all changes made to tables in the source's copy of the sales database to be ignored for purposes of binary logging.

    To specify more than one database to ignore, use this option multiple times, once for each database. Because database names can contain commas, the list is treated as the name of a single database if you supply a comma-separated list.

    You should not use this option if you are using cross-database updates and you do not want these updates to be logged.

Checksum options.  MySQL supports reading and writing of binary log checksums. These are enabled using the two options listed here:

  • --binlog-checksum={NONE|CRC32}

    Command-Line Format --binlog-checksum=type
    Type String
    Default Value CRC32
    Valid Values

    NONE

    CRC32

    Enabling this option causes the source to write checksums for events written to the binary log. Set to NONE to disable, or the name of the algorithm to be used for generating checksums; currently, only CRC32 checksums are supported, and CRC32 is the default. You cannot change the setting for this option within a transaction.

To control reading of checksums by the replica (from the relay log), use the --slave-sql-verify-checksum option.

Testing and debugging options.  The following binary log options are used in replication testing and debugging. They are not intended for use in normal operations.

  • --max-binlog-dump-events=N

    Command-Line Format --max-binlog-dump-events=#
    Type Integer
    Default Value 0

    This option is used internally by the MySQL test suite for replication testing and debugging.

  • --sporadic-binlog-dump-fail

    Command-Line Format --sporadic-binlog-dump-fail[={OFF|ON}]
    Type Boolean
    Default Value OFF

    This option is used internally by the MySQL test suite for replication testing and debugging.

System Variables Used with Binary Logging

The following list describes system variables for controlling binary logging. They can be set at server startup and some of them can be changed at runtime using SET. Server options used to control binary logging are listed earlier in this section.

  • binlog_cache_size

    Command-Line Format --binlog-cache-size=#
    System Variable binlog_cache_size
    Scope Global
    Dynamic Yes
    SET_VAR Hint Applies No
    Type Integer
    Default Value 32768
    Minimum Value 4096
    Maximum Value (64-bit platforms) 18446744073709547520
    Maximum Value (32-bit platforms) 4294963200
    Unit bytes
    Block Size 4096

    The size of the memory buffer to hold changes to the binary log during a transaction.

    When binary logging is enabled on the server (with the log_bin system variable set to ON), a binary log cache is allocated for each client if the server supports any transactional storage engines. If the data for the transaction exceeds the space in the memory buffer, the excess data is stored in a temporary file. When binary log encryption is active on the server, the memory buffer is not encrypted, but (from MySQL 8.0.17) any temporary file used to hold the binary log cache is encrypted. After each transaction is committed, the binary log cache is reset by clearing the memory buffer and truncating the temporary file if used.

    If you often use large transactions, you can increase this cache size to get better performance by reducing or eliminating the need to write to temporary files. The Binlog_cache_use and Binlog_cache_disk_use status variables can be useful for tuning the size of this variable. See Section 7.4.4, “The Binary Log”.

    binlog_cache_size sets the size for the transaction cache only; the size of the statement cache is governed by the binlog_stmt_cache_size system variable.

  • binlog_checksum

    Command-Line Format --binlog-checksum=type
    System Variable binlog_checksum
    Scope Global
    Dynamic Yes
    SET_VAR Hint Applies No
    Type String
    Default Value CRC32
    Valid Values

    NONE

    CRC32

    When enabled, this variable causes the source to write a checksum for each event in the binary log. binlog_checksum supports the values NONE (which disables checksums) and CRC32. The default is CRC32. When binlog_checksum is disabled (value NONE), the server verifies that it is writing only complete events to the binary log by writing and checking the event length (rather than a checksum) for each event.

    Setting this variable on the source to a value unrecognized by the replica causes the replica to set its own binlog_checksum value to NONE, and to stop replication with an error. If backward compatibility with older replicas is a concern, you may want to set the value explicitly to NONE.

    Up to and including MySQL 8.0.20, Group Replication cannot make use of checksums and does not support their presence in the binary log, so you must set binlog_checksum=NONE when configuring a server instance to become a group member. From MySQL 8.0.21, Group Replication supports checksums, so group members may use the default setting.

    Changing the value of binlog_checksum causes the binary log to be rotated, because checksums must be written for an entire binary log file, and never for only part of one. You cannot change the value of binlog_checksum within a transaction.

    When binary log transaction compression is enabled using the binlog_transaction_compression system variable, checksums are not written for individual events in a compressed transaction payload. Instead a checksum is written for the GTID event, and a checksum for the compressed Transaction_payload_event.

  • binlog_direct_non_transactional_updates

    Command-Line Format --binlog-direct-non-transactional-updates[={OFF|ON}]
    System Variable binlog_direct_non_transactional_updates
    Scope Global, Session
    Dynamic Yes
    SET_VAR Hint Applies No
    Type Boolean
    Default Value OFF

    Due to concurrency issues, a replica can become inconsistent when a transaction contains updates to both transactional and nontransactional tables. MySQL tries to preserve causality among these statements by writing nontransactional statements to the transaction cache, which is flushed upon commit. However, problems arise when modifications done to nontransactional tables on behalf of a transaction become immediately visible to other connections because these changes may not be written immediately into the binary log.

    The binlog_direct_non_transactional_updates variable offers one possible workaround to this issue. By default, this variable is disabled. Enabling binlog_direct_non_transactional_updates causes updates to nontransactional tables to be written directly to the binary log, rather than to the transaction cache.

    As of MySQL 8.0.14, setting the session value of this system variable is a restricted operation. The session user must have privileges sufficient to set restricted session variables. See Section 7.1.9.1, “System Variable Privileges”.

    binlog_direct_non_transactional_updates works only for statements that are replicated using the statement-based binary logging format; that is, it works only when the value of binlog_format is STATEMENT, or when binlog_format is MIXED and a given statement is being replicated using the statement-based format. This variable has no effect when the binary log format is ROW, or when binlog_format is set to MIXED and a given statement is replicated using the row-based format.

    Important

    Before enabling this variable, you must make certain that there are no dependencies between transactional and nontransactional tables; an example of such a dependency would be the statement INSERT INTO myisam_table SELECT * FROM innodb_table. Otherwise, such statements are likely to cause the replica to diverge from the source.

    This variable has no effect when the binary log format is ROW or MIXED.

  • binlog_encryption

    Command-Line Format --binlog-encryption[={OFF|ON}]
    Introduced 8.0.14
    System Variable binlog_encryption
    Scope Global
    Dynamic Yes
    SET_VAR Hint Applies No
    Type Boolean
    Default Value OFF

    Enables encryption for binary log files and relay log files on this server. OFF is the default. ON sets encryption on for binary log files and relay log files. Binary logging does not need to be enabled on the server to enable encryption, so you can encrypt the relay log files on a replica that has no binary log. To use encryption, a keyring plugin must be installed and configured to supply MySQL Server's keyring service. For instructions to do this, see Section 8.4.4, “The MySQL Keyring”. Any supported keyring plugin can be used to store binary log encryption keys.

    When you first start the server with binary log encryption enabled, a new binary log encryption key is generated before the binary log and relay logs are initialized. This key is used to encrypt a file password for each binary log file (if the server has binary logging enabled) and relay log file (if the server has replication channels), and further keys generated from the file passwords are used to encrypt the data in the files. Relay log files are encrypted for all channels, including Group Replication applier channels and new channels that are created after encryption is activated. The binary log index file and relay log index file are never encrypted.

    If you activate encryption while the server is running, a new binary log encryption key is generated at that time. The exception is if encryption was active previously on the server and was then disabled, in which case the binary log encryption key that was in use before is used again. The binary log file and relay log files are rotated immediately, and file passwords for the new files and all subsequent binary log files and relay log files are encrypted using this binary log encryption key. Existing binary log files and relay log files still present on the server are not automatically encrypted, but you can purge them if they are no longer needed.

    If you deactivate encryption by changing the binlog_encryption system variable to OFF, the binary log file and relay log files are rotated immediately and all subsequent logging is unencrypted. Previously encrypted files are not automatically decrypted, but the server is still able to read them. The BINLOG_ENCRYPTION_ADMIN privilege (or the deprecated SUPER privilege) is required to activate or deactivate encryption while the server is running. Group Replication applier channels are not included in the relay log rotation request, so unencrypted logging for these channels does not start until their logs are rotated in normal use.

    For more information on binary log file and relay log file encryption, see Section 19.3.2, “Encrypting Binary Log Files and Relay Log Files”.

  • binlog_error_action

    Command-Line Format --binlog-error-action[=value]
    System Variable binlog_error_action
    Scope Global
    Dynamic Yes
    SET_VAR Hint Applies No
    Type Enumeration
    Default Value ABORT_SERVER
    Valid Values

    IGNORE_ERROR

    ABORT_SERVER

    Controls what happens when the server encounters an error such as not being able to write to, flush or synchronize the binary log, which can cause the source's binary log to become inconsistent and replicas to lose synchronization.

    This variable defaults to ABORT_SERVER, which makes the server halt logging and shut down whenever it encounters such an error with the binary log. On restart, recovery proceeds as in the case of an unexpected server halt (see Section 19.4.2, “Handling an Unexpected Halt of a Replica”).

    When binlog_error_action is set to IGNORE_ERROR, if the server encounters such an error it continues the ongoing transaction, logs the error then halts logging, and continues performing updates. To resume binary logging log_bin must be enabled again, which requires a server restart. This setting provides backward compatibility with older versions of MySQL.

  • binlog_expire_logs_seconds

    Command-Line Format --binlog-expire-logs-seconds=#
    System Variable binlog_expire_logs_seconds
    Scope Global
    Dynamic Yes
    SET_VAR Hint Applies No
    Type Integer
    Default Value 2592000
    Minimum Value 0
    Maximum Value 4294967295
    Unit seconds

    Sets the binary log expiration period in seconds. After their expiration period ends, binary log files can be automatically removed. Possible removals happen at startup and when the binary log is flushed. Log flushing occurs as indicated in Section 7.4, “MySQL Server Logs”.

    The default binary log expiration period is 2592000 seconds, which equals 30 days (30*24*60*60 seconds). The default applies if neither binlog_expire_logs_seconds nor the deprecated system variable expire_logs_days has a value set at startup. If a non-zero value for one of the variables binlog_expire_logs_seconds or expire_logs_days is set at startup, this value is used as the binary log expiration period. If a non-zero value for both of those variables is set at startup, the value for binlog_expire_logs_seconds is used as the binary log expiration period, and the value for expire_logs_days is ignored with a warning message.

    At runtime, you cannot set binlog_expire_logs_seconds or expire_logs_days to a non-zero value if the other is currently set to a non-zero value. Because the default value for binlog_expire_logs_seconds is non-zero, you must explicitly set binlog_expire_logs_seconds to zero before you can set or change the value of expire_logs_days.

    Beginning with MySQL 8.0.29, automatic purging of the binary log can be disabled by setting the binlog_expire_logs_auto_purge system variable to OFF. This takes precedence over any setting for binlog_expire_logs_seconds.

    In MySQL 8.0.28 and earlier, to disable automatic purging of the binary log, specify a value of 0 explicitly for binlog_expire_logs_seconds, and do not specify a value for expire_logs_days. For compatibility with earlier releases, automatic purging is also disabled if you specify a value of 0 explicitly for expire_logs_days and do not specify a value for binlog_expire_logs_seconds. In that case, the default for binlog_expire_logs_seconds is not applied.

    To remove binary log files manually, use the PURGE BINARY LOGS statement. See Section 15.4.1.1, “PURGE BINARY LOGS Statement”.

  • binlog_expire_logs_auto_purge

    Command-Line Format --binlog-expire-logs-auto-purge={ON|OFF}
    Introduced 8.0.29
    System Variable binlog_expire_logs_auto_purge
    Scope Global
    Dynamic Yes
    SET_VAR Hint Applies No
    Type Boolean
    Default Value ON

    Enables or disables automatic purging of binary log files. Setting this variable to ON (the default) enables automatic purging; setting it to OFF disables automatic purging. The interval to wait before purging is controlled by binlog_expire_logs_seconds and expire_logs_days.

    Note

    Even if binlog_expire_logs_auto_purge is ON, setting both binlog_expire_logs_seconds and expire_logs_days to 0 stops automatic purging from taking place.

    This variable has no effect on PURGE BINARY LOGS.

  • binlog_format

    Command-Line Format --binlog-format=format
    Deprecated 8.0.34
    System Variable binlog_format
    Scope Global, Session
    Dynamic Yes
    SET_VAR Hint Applies No
    Type Enumeration
    Default Value ROW
    Valid Values

    MIXED

    STATEMENT

    ROW

    This system variable sets the binary logging format, and can be any one of STATEMENT, ROW, or MIXED. (See Section 19.2.1, “Replication Formats”.) The setting takes effect when binary logging is enabled on the server, which is the case when the log_bin system variable is set to ON. In MySQL 8.0, binary logging is enabled by default, and by default uses the row-based format.

    Note

    binlog_format is deprecated as of MySQL 8.0.34, and is subject to removal in a future version of MySQL. This implies that support for logging formats other than row-based is also subject to removal in a future release. Thus, only row-based logging should be employed for any new MySQL Replication setups.

    binlog_format can be set at startup or at runtime, except that under some conditions, changing this variable at runtime is not possible or causes replication to fail, as described later.

    The default is ROW. Exception: In NDB Cluster, the default is MIXED; statement-based replication is not supported for NDB Cluster.

    Setting the session value of this system variable is a restricted operation. The session user must have privileges sufficient to set restricted session variables. See Section 7.1.9.1, “System Variable Privileges”.

    The rules governing when changes to this variable take effect and how long the effect lasts are the same as for other MySQL server system variables. For more information, see Section 15.7.6.1, “SET Syntax for Variable Assignment”.

    When MIXED is specified, statement-based replication is used, except for cases where only row-based replication is guaranteed to lead to proper results. For example, this happens when statements contain loadable functions or the UUID() function.

    For details of how stored programs (stored procedures and functions, triggers, and events) are handled when each binary logging format is set, see Section 27.7, “Stored Program Binary Logging”.

    There are exceptions when you cannot switch the replication format at runtime:

    • The replication format cannot be changed from within a stored function or a trigger.

    • If a session has open temporary tables, the replication format cannot be changed for the session (SET @@SESSION.binlog_format).

    • If any replication channel has open temporary tables, the replication format cannot be changed globally (SET @@GLOBAL.binlog_format or SET @@PERSIST.binlog_format).

    • If any replication channel applier thread is currently running, the replication format cannot be changed globally (SET @@GLOBAL.binlog_format or SET @@PERSIST.binlog_format).

    Trying to switch the replication format in any of these cases (or attempting to set the current replication format) results in an error. You can, however, use PERSIST_ONLY (SET @@PERSIST_ONLY.binlog_format) to change the replication format at any time, because this action does not modify the runtime global system variable value, and takes effect only after a server restart.

    Switching the replication format at runtime is not recommended when any temporary tables exist, because temporary tables are logged only when using statement-based replication, whereas with row-based replication and mixed replication, they are not logged.

    Changing the logging format on a replication source server does not cause a replica to change its logging format to match. Switching the replication format while replication is ongoing can cause issues if a replica has binary logging enabled, and the change results in the replica using STATEMENT format logging while the source is using ROW or MIXED format logging. A replica is not able to convert binary log entries received in ROW logging format to STATEMENT format for use in its own binary log, so this situation can cause replication to fail. For more information, see Section 7.4.4.2, “Setting The Binary Log Format”.

    The binary log format affects the behavior of the following server options:

    These effects are discussed in detail in the descriptions of the individual options.

  • binlog_group_commit_sync_delay

    Command-Line Format --binlog-group-commit-sync-delay=#
    System Variable binlog_group_commit_sync_delay
    Scope Global
    Dynamic Yes
    SET_VAR Hint Applies No
    Type Integer
    Default Value 0
    Minimum Value 0
    Maximum Value 1000000
    Unit microseconds

    Controls how many microseconds the binary log commit waits before synchronizing the binary log file to disk. By default binlog_group_commit_sync_delay is set to 0, meaning that there is no delay. Setting binlog_group_commit_sync_delay to a microsecond delay enables more transactions to be synchronized together to disk at once, reducing the overall time to commit a group of transactions because the larger groups require fewer time units per group.

    When sync_binlog=0 or sync_binlog=1 is set, the delay specified by binlog_group_commit_sync_delay is applied for every binary log commit group before synchronization (or in the case of sync_binlog=0, before proceeding). When sync_binlog is set to a value n greater than 1, the delay is applied after every n binary log commit groups.

    Setting binlog_group_commit_sync_delay can increase the number of parallel committing transactions on any server that has (or might have after a failover) a replica, and therefore can increase parallel execution on the replicas. To benefit from this effect, the replica servers must have replica_parallel_type=LOGICAL_CLOCK (from MySQL 8.0.26) or slave_parallel_type=LOGICAL_CLOCK set, and the effect is more significant when binlog_transaction_dependency_tracking=COMMIT_ORDER is also set. It is important to take into account both the source's throughput and the replicas' throughput when you are tuning the setting for binlog_group_commit_sync_delay.

    Setting binlog_group_commit_sync_delay can also reduce the number of fsync() calls to the binary log on any server (source or replica) that has a binary log.

    Note that setting binlog_group_commit_sync_delay increases the latency of transactions on the server, which might affect client applications. Also, on highly concurrent workloads, it is possible for the delay to increase contention and therefore reduce throughput. Typically, the benefits of setting a delay outweigh the drawbacks, but tuning should always be carried out to determine the optimal setting.

  • binlog_group_commit_sync_no_delay_count

    Command-Line Format --binlog-group-commit-sync-no-delay-count=#
    System Variable binlog_group_commit_sync_no_delay_count
    Scope Global
    Dynamic Yes
    SET_VAR Hint Applies No
    Type Integer
    Default Value 0
    Minimum Value 0
    Maximum Value 100000

    The maximum number of transactions to wait for before aborting the current delay as specified by binlog_group_commit_sync_delay. If binlog_group_commit_sync_delay is set to 0, then this option has no effect.

  • binlog_max_flush_queue_time

    Command-Line Format --binlog-max-flush-queue-time=#
    Deprecated Yes
    System Variable binlog_max_flush_queue_time
    Scope Global
    Dynamic Yes
    SET_VAR Hint Applies No
    Type Integer
    Default Value 0
    Minimum Value 0
    Maximum Value 100000
    Unit microseconds

    binlog_max_flush_queue_time is deprecated, and is marked for eventual removal in a future MySQL release. Formerly, this system variable controlled the time in microseconds to continue reading transactions from the flush queue before proceeding with group commit. It no longer has any effect.

  • binlog_order_commits

    Command-Line Format --binlog-order-commits[={OFF|ON}]
    System Variable binlog_order_commits
    Scope Global
    Dynamic Yes
    SET_VAR Hint Applies No
    Type Boolean
    Default Value ON

    When this variable is enabled on a replication source server (which is the default), transaction commit instructions issued to storage engines are serialized on a single thread, so that transactions are always committed in the same order as they are written to the binary log. Disabling this variable permits transaction commit instructions to be issued using multiple threads. Used in combination with binary log group commit, this prevents the commit rate of a single transaction being a bottleneck to throughput, and might therefore produce a performance improvement.

    Transactions are written to the binary log at the point when all the storage engines involved have confirmed that the transaction is prepared to commit. The binary log group commit logic then commits a group of transactions after their binary log write has taken place. When binlog_order_commits is disabled, because multiple threads are used for this process, transactions in a commit group might be committed in a different order from their order in the binary log. (Transactions from a single client always commit in chronological order.) In many cases this does not matter, as operations carried out in separate transactions should produce consistent results, and if that is not the case, a single transaction ought to be used instead.

    If you want to ensure that the transaction history on the source and on a multithreaded replica remains identical, set slave_preserve_commit_order=1 on the replica.

  • binlog_rotate_encryption_master_key_at_startup

    Command-Line Format --binlog-rotate-encryption-master-key-at-startup[={OFF|ON}]
    Introduced 8.0.14
    System Variable binlog_rotate_encryption_master_key_at_startup
    Scope Global
    Dynamic No
    SET_VAR Hint Applies No
    Type Boolean
    Default Value OFF

    Specifies whether or not the binary log master key is rotated at server startup. The binary log master key is the binary log encryption key that is used to encrypt file passwords for the binary log files and relay log files on the server. When a server is started for the first time with binary log encryption enabled (binlog_encryption=ON), a new binary log encryption key is generated and used as the binary log master key. If the binlog_rotate_encryption_master_key_at_startup system variable is also set to ON, whenever the server is restarted, a further binary log encryption key is generated and used as the binary log master key for all subsequent binary log files and relay log files. If the binlog_rotate_encryption_master_key_at_startup system variable is set to OFF, which is the default, the existing binary log master key is used again after the server restarts. For more information on binary log encryption keys and the binary log master key, see Section 19.3.2, “Encrypting Binary Log Files and Relay Log Files”.

  • binlog_row_event_max_size

    Command-Line Format --binlog-row-event-max-size=#
    System Variable (≥ 8.0.14) binlog_row_event_max_size
    Scope (≥ 8.0.14) Global
    Dynamic (≥ 8.0.14) No
    SET_VAR Hint Applies (≥ 8.0.14) No
    Type Integer
    Default Value 8192
    Minimum Value 256
    Maximum Value (64-bit platforms) 18446744073709551615
    Maximum Value (32-bit platforms) 4294967295
    Unit bytes

    When row-based binary logging is used, this setting is a soft limit on the maximum size of a row-based binary log event, in bytes. Where possible, rows stored in the binary log are grouped into events with a size not exceeding the value of this setting. If an event cannot be split, the maximum size can be exceeded. The default is 8192 bytes.

    This global system variable is read-only and can be set only at server startup. Its value can therefore only be modified by using the PERSIST_ONLY keyword or the @@persist_only qualifier with the SET statement.

  • binlog_row_image

    Command-Line Format --binlog-row-image=image_type
    System Variable binlog_row_image
    Scope Global, Session
    Dynamic Yes
    SET_VAR Hint Applies No
    Type Enumeration
    Default Value full
    Valid Values

    full (Log all columns)

    minimal (Log only changed columns, and columns needed to identify rows)

    noblob (Log all columns, except for unneeded BLOB and TEXT columns)

    For MySQL row-based replication, this variable determines how row images are written to the binary log.

    Setting the session value of this system variable is a restricted operation. The session user must have privileges sufficient to set restricted session variables. See Section 7.1.9.1, “System Variable Privileges”.

    In MySQL row-based replication, each row change event contains two images, a before image whose columns are matched against when searching for the row to be updated, and an after image containing the changes. Normally, MySQL logs full rows (that is, all columns) for both the before and after images. However, it is not strictly necessary to include every column in both images, and we can often save disk, memory, and network usage by logging only those columns which are actually required.

    Note

    When deleting a row, only the before image is logged, since there are no changed values to propagate following the deletion. When inserting a row, only the after image is logged, since there is no existing row to be matched. Only when updating a row are both the before and after images required, and both written to the binary log.

    For the before image, it is necessary only that the minimum set of columns required to uniquely identify rows is logged. If the table containing the row has a primary key, then only the primary key column or columns are written to the binary log. Otherwise, if the table has a unique key all of whose columns are NOT NULL, then only the columns in the unique key need be logged. (If the table has neither a primary key nor a unique key without any NULL columns, then all columns must be used in the before image, and logged.) In the after image, it is necessary to log only the columns which have actually changed.

    You can cause the server to log full or minimal rows using the binlog_row_image system variable. This variable actually takes one of three possible values, as shown in the following list:

    • full: Log all columns in both the before image and the after image.

    • minimal: Log only those columns in the before image that are required to identify the row to be changed; log only those columns in the after image where a value was specified by the SQL statement, or generated by auto-increment.

    • noblob: Log all columns (same as full), except for BLOB and TEXT columns that are not required to identify rows, or that have not changed.

    Note

    This variable is not supported by NDB Cluster; setting it has no effect on the logging of NDB tables.

    The default value is full.

    When using minimal or noblob, deletes and updates are guaranteed to work correctly for a given table if and only if the following conditions are true for both the source and destination tables:

    • All columns must be present and in the same order; each column must use the same data type as its counterpart in the other table.

    • The tables must have identical primary key definitions.

    (In other words, the tables must be identical with the possible exception of indexes that are not part of the tables' primary keys.)

    If these conditions are not met, it is possible that the primary key column values in the destination table may prove insufficient to provide a unique match for a delete or update. In this event, no warning or error is issued; the source and replica silently diverge, thus breaking consistency.

    Setting this variable has no effect when the binary logging format is STATEMENT. When binlog_format is MIXED, the setting for binlog_row_image is applied to changes that are logged using row-based format, but this setting has no effect on changes logged as statements.

    Setting binlog_row_image on either the global or session level does not cause an implicit commit; this means that this variable can be changed while a transaction is in progress without affecting the transaction.

  • binlog_row_metadata

    Command-Line Format --binlog-row-metadata=metadata_type
    System Variable binlog_row_metadata
    Scope Global
    Dynamic Yes
    SET_VAR Hint Applies No
    Type Enumeration
    Default Value MINIMAL
    Valid Values

    FULL (All metadata is included)

    MINIMAL (Limit included metadata)

    Configures the amount of table metadata added to the binary log when using row-based logging. When set to MINIMAL, the default, only metadata related to SIGNED flags, column character set and geometry types are logged. When set to FULL complete metadata for tables is logged, such as column name, ENUM or SET string values, PRIMARY KEY information, and so on.

    The extended metadata serves the following purposes:

    • Replicas use the metadata to transfer data when its table structure is different from the source's.

    • External software can use the metadata to decode row events and store the data into external databases, such as a data warehouse.

  • binlog_row_value_options

    Command-Line Format --binlog-row-value-options=#
    System Variable binlog_row_value_options
    Scope Global, Session
    Dynamic Yes
    SET_VAR Hint Applies No
    Type Set
    Default Value
    Valid Values PARTIAL_JSON

    When set to PARTIAL_JSON, this enables use of a space-efficient binary log format for updates that modify only a small portion of a JSON document, which causes row-based replication to write only the modified parts of the JSON document to the after-image for the update in the binary log, rather than writing the full document (see Partial Updates of JSON Values). This works for an UPDATE statement which modifies a JSON column using any sequence of JSON_SET(), JSON_REPLACE(), and JSON_REMOVE(). If the server is unable to generate a partial update, the full document is used instead.

    The default value is an empty string, which disables use of the format. To unset binlog_row_value_options and revert to writing the full JSON document, set its value to the empty string.

    Setting the session value of this system variable is a restricted operation. The session user must have privileges sufficient to set restricted session variables. See Section 7.1.9.1, “System Variable Privileges”.

    binlog_row_value_options=PARTIAL_JSON takes effect only when binary logging is enabled and binlog_format is set to ROW or MIXED. Statement-based replication always logs only the modified parts of the JSON document, regardless of any value set for binlog_row_value_options. To maximize the amount of space saved, use binlog_row_image=NOBLOB or binlog_row_image=MINIMAL together with this option. binlog_row_image=FULL saves less space than either of these, since the full JSON document is stored in the before-image, and the partial update is stored only in the after-image.

    mysqlbinlog output includes partial JSON updates in the form of events encoded as base-64 strings using BINLOG statements. If the --verbose option is specified, mysqlbinlog displays the partial JSON updates as readable JSON using pseudo-SQL statements.

    MySQL Replication generates an error if a modification cannot be applied to the JSON document on the replica. This includes a failure to find the path. Be aware that, even with this and other safety checks, if a JSON document on a replica has diverged from that on the source and a partial update is applied, it remains theoretically possible to produce a valid but unexpected JSON document on the replica.

  • binlog_rows_query_log_events

    Command-Line Format --binlog-rows-query-log-events[={OFF|ON}]
    System Variable binlog_rows_query_log_events
    Scope Global, Session
    Dynamic Yes
    SET_VAR Hint Applies No
    Type Boolean
    Default Value OFF

    This system variable affects row-based logging only. When enabled, it causes the server to write informational log events such as row query log events into its binary log. This information can be used for debugging and related purposes, such as obtaining the original query issued on the source when it cannot be reconstructed from the row updates.

    Setting the session value of this system variable is a restricted operation. The session user must have privileges sufficient to set restricted session variables. See Section 7.1.9.1, “System Variable Privileges”.

    These informational events are normally ignored by MySQL programs reading the binary log and so cause no issues when replicating or restoring from backup. To view them, increase the verbosity level by using mysqlbinlog's --verbose option twice, either as -vv or --verbose --verbose.

  • binlog_stmt_cache_size

    Command-Line Format --binlog-stmt-cache-size=#
    System Variable binlog_stmt_cache_size
    Scope Global
    Dynamic Yes
    SET_VAR Hint Applies No
    Type Integer
    Default Value 32768
    Minimum Value 4096
    Maximum Value (64-bit platforms) 18446744073709547520
    Maximum Value (32-bit platforms) 4294963200
    Unit bytes
    Block Size 4096

    The size of the memory buffer for the binary log to hold nontransactional statements issued during a transaction.

    When binary logging is enabled on the server (with the log_bin system variable set to ON), separate binary log transaction and statement caches are allocated for each client if the server supports any transactional storage engines. If the data for the nontransactional statements used in the transaction exceeds the space in the memory buffer, the excess data is stored in a temporary file. When binary log encryption is active on the server, the memory buffer is not encrypted, but (from MySQL 8.0.17) any temporary file used to hold the binary log cache is encrypted. After each transaction is committed, the binary log statement cache is reset by clearing the memory buffer and truncating the temporary file if used.

    If you often use large nontransactional statements during transactions, you can increase this cache size to get better performance by reducing or eliminating the need to write to temporary files. The Binlog_stmt_cache_use and Binlog_stmt_cache_disk_use status variables can be useful for tuning the size of this variable. See Section 7.4.4, “The Binary Log”.

    The binlog_cache_size system variable sets the size for the transaction cache.

  • binlog_transaction_compression

    Command-Line Format --binlog-transaction-compression[={OFF|ON}]
    Introduced 8.0.20
    System Variable binlog_transaction_compression
    Scope Global, Session
    Dynamic Yes
    SET_VAR Hint Applies No
    Type Boolean
    Default Value OFF

    Enables compression for transactions that are written to binary log files on this server. OFF is the default. Use the binlog_transaction_compression_level_zstd system variable to set the level for the zstd algorithm that is used for compression.

    Setting binlog_transaction_compression has no immediate effect but rather applies to all subsequent START REPLICA (START SLAVE) statements.

    When binary log transaction compression is enabled, transaction payloads are compressed and then written to the binary log file as a single event (Transaction_payload_event). Compressed transaction payloads remain in a compressed state while they are sent in the replication stream to replicas, other Group Replication group members, or clients such as mysqlbinlog, and are written to the relay log still in their compressed state. Binary log transaction compression therefore saves storage space both on the originator of the transaction and on the recipient (and for their backups), and saves network bandwidth when the transactions are sent between server instances.

    For binlog_transaction_compression=ON to have a direct effect, binary logging must be enabled on the server. When a MySQL server instance has no binary log, if it is at a release from MySQL 8.0.20, it can receive, handle, and display compressed transaction payloads regardless of its value for binlog_transaction_compression. Compressed transaction payloads received by such server instances are written in their compressed state to the relay log, so they benefit indirectly from compression carried out by other servers in the replication topology.

    This system variable cannot be changed within the context of a transaction. Setting the session value of this system variable is a restricted operation. The session user must have privileges sufficient to set restricted session variables. See Section 7.1.9.1, “System Variable Privileges”.

    For more information on binary log transaction compression, including details of what events are and are not compressed, and changes in behavior when transaction compression is in use, see Section 7.4.4.5, “Binary Log Transaction Compression”.

    Prior to NDB 8.0.31: Setting this variable when the server is running has no effect on logging of transactions on NDB tables. Binary log transaction compression can be enabled for NDB tables by starting MySQL with --binlog-transaction-compression=ON on the command line or in an option file but cannot be enabled or disabled while the server is running.

    In NDB 8.0.31 and later: You can use the ndb_log_transaction_compression system variable to enable this feature for NDB. In addition, setting --binlog-transaction-compression=ON on the command line or in a my.cnf file causes ndb_log_transaction_compression to be enabled on server startup. See the description of the variable for further information.

  • binlog_transaction_compression_level_zstd

    Command-Line Format --binlog-transaction-compression-level-zstd=#
    Introduced 8.0.20
    System Variable binlog_transaction_compression_level_zstd
    Scope Global, Session
    Dynamic Yes
    SET_VAR Hint Applies No
    Type Integer
    Default Value 3
    Minimum Value 1
    Maximum Value 22

    Sets the compression level for binary log transaction compression on this server, which is enabled by the binlog_transaction_compression system variable. The value is an integer that determines the compression effort, from 1 (the lowest effort) to 22 (the highest effort). If you do not specify this system variable, the compression level is set to 3.

    Setting binlog_transaction_compression_level_zstd has no immediate effect but rather applies to all subsequent START REPLICA (START SLAVE) statements.

    As the compression level increases, the data compression ratio increases, which reduces the storage space and network bandwidth required for the transaction payload. However, the effort required for data compression also increases, taking time and CPU and memory resources on the originating server. Increases in the compression effort do not have a linear relationship to increases in the data compression ratio.

    This system variable cannot be changed within the context of a transaction. Setting the session value of this system variable is a restricted operation. The session user must have privileges sufficient to set restricted session variables. See Section 7.1.9.1, “System Variable Privileges”.

    This variable has no effect on logging of transactions on NDB tables; in NDB Cluster 8.0.31 and later, you can use ndb_log_transaction_compression_level_zstd instead.

  • binlog_transaction_dependency_tracking

    Command-Line Format --binlog-transaction-dependency-tracking=value
    Deprecated 8.0.35
    System Variable binlog_transaction_dependency_tracking
    Scope Global
    Dynamic Yes
    SET_VAR Hint Applies No
    Type Enumeration
    Default Value COMMIT_ORDER
    Valid Values

    COMMIT_ORDER

    WRITESET

    WRITESET_SESSION

    For a replication source server that has multithreaded replicas (replicas on which replica_parallel_workers or slave_parallel_workers is is greater than 0), binlog_transaction_dependency_tracking specifies how the source mysqld generates the dependency information that it writes in the binary log to help replicas determine which transactions can be executed in parallel.

    The dependency information written by the replication source is represented using logical timestamps. (Thus, setting this variable requires that replica_parallel_type or slave_parallel_type already be set to LOGICAL_CLOCK.) There are two logical timestamps, listed here, for each transaction:

    • sequence_number: This is 1 for the first transaction in a given binary log, 2 for the second transaction, and so on. The numbering restarts with 1 in each binary log file.

    • last_committed: This refers to the sequence_number of the most recently committed transaction found to conflict with the current transaction. This value is always less than sequence_number.

    binlog_transaction_dependency_tracking controls the choice of scheme used to compute these logical timestamps. Available choices are listed here:

    • COMMIT_ORDER: Two transactions are considered to be independent if the commit-time window of the first transaction overlaps with the commit-time window of the second transaction. This the default.

      The commit-time window begins immediately following the execution of the last statement of the transaction, and ends immediately before the storage engine commit ends. Since transactions hold all row locks between these two points in time, we know that they cannot update the same rows.

    • WRITESET: Logical timestamps are computed based on COMMIT_ORDER in combination with a second scheme based on write sets for the transaction. Each row in the transaction adds a set of one or more hashes to the transaction's write set, one of each unique key in the row. (If there are no unique, nonnullable keys, a hash of the row is used.) This includes both deleted and inserted rows; for updated rows, both the old and the new row are also included.

      Two transactions are considered conflicting if their write sets overlap—that is, if there is some number (hash) that occurs in the write sets of both transactions. In addition, due to the way the write sets are computed, there are periodic serialization points, such that the write set computation process regards every transaction after a serialization point as conflicting with every transaction before the serialization point. Serialization points affect only dependencies computed by the WRITESET algorithm; transactions on opposite sides of the serialization point may have overlapping commit-time windows, and so can be parallelized on replica in spite of this. Serialization points occur for DDL statements, for transactions updating a table having a foreign key, and for transactions where the session value of transaction_write_set_extraction is not the same as the global value. A serialization point is also imposed if the transactions committed since the previous serialization point have generated a total of at least binlog_transaction_dependency_history_size unique hashes.

      For multithreaded replicas to work with NDB Cluster replication (supported in NDB 8.0.33 and later), this variable must be set to WRITESET on the source. See Section 25.7.11, “NDB Cluster Replication Using the Multithreaded Applier”, for more information.

    • WRITESET_SESSION: Two transactions are considered dependent if either of the following statements is true:

      • The transactions are dependent according to WRITESET.

      • The transactions were committed in the same user session.

    In WRITESET or WRITESET_SESSION mode, the source uses COMMIT_ORDER to generate dependency information for transactions that have empty or partial write sets, transactions that update tables without primary or unique keys, and transactions that update parent tables in a foreign key relationship.

    To set binlog_transaction_dependency_tracking to WRITESET or WRITESET_SESSION, transaction_write_set_extraction must be set to a value other than OFF; the default value (XXHASH64) is sufficient for this. transaction_write_set_extraction cannot be changed whenever the value of binlog_transaction_dependency_tracking is WRITESET or WRITESET_SESSION. Any change in the value does not take effect for replicated transactions until after the replica has been stopped and restarted with STOP REPLICA and START REPLICA.

    The number of row hashes to be kept and checked for the latest transaction to have changed a given row is determined by the value of binlog_transaction_dependency_history_size.

    Group Replication carries out its own parallelization after certification when applying transactions from the relay log, independently of any value set for binlog_transaction_dependency_tracking, but this variable does affect how transactions are written to the binary logs on Group Replication members. The dependency information in those logs is used to assist the process of state transfer from a donor's binary log for distributed recovery, which takes place whenever a member joins or rejoins the group. For that process, setting binlog_transaction_dependency_tracking to WRITESET can improve performance for a group member, depending on the group's workload.

  • binlog_transaction_dependency_history_size

    Command-Line Format --binlog-transaction-dependency-history-size=#
    System Variable binlog_transaction_dependency_history_size
    Scope Global
    Dynamic Yes
    SET_VAR Hint Applies No
    Type Integer
    Default Value 25000
    Minimum Value 1
    Maximum Value 1000000

    Sets an upper limit on the number of row hashes which are kept in memory and used for looking up the transaction that last modified a given row. Once this number of hashes has been reached, the history is purged.

  • expire_logs_days

    Command-Line Format --expire-logs-days=#
    Deprecated Yes
    System Variable expire_logs_days
    Scope Global
    Dynamic Yes
    SET_VAR Hint Applies No
    Type Integer
    Default Value 0
    Minimum Value 0
    Maximum Value 99
    Unit days

    Specifies the number of days before automatic removal of binary log files. expire_logs_days is deprecated, and you should expect it to be removed in a future release. Instead, use binlog_expire_logs_seconds, which sets the binary log expiration period in seconds. If you do not set a value for either system variable, the default expiration period is 30 days. Possible removals happen at startup and when the binary log is flushed. Log flushing occurs as indicated in Section 7.4, “MySQL Server Logs”.

    Any non-zero value that you specify at startup for expire_logs_days is ignored if binlog_expire_logs_seconds is also specified, and the value of binlog_expire_logs_seconds is used instead as the binary log expiration period. A warning message is issued in this situation. A non-zero startup value for expire_logs_days is only applied as the binary log expiration period if binlog_expire_logs_seconds is not specified or is specified as 0.

    At runtime, you cannot set binlog_expire_logs_seconds or expire_logs_days to a non-zero value if the other is currently set to a non-zero value. Because the default value for binlog_expire_logs_seconds is non-zero, you must explicitly set binlog_expire_logs_seconds to zero before you can set or change the value of expire_logs_days.

    To disable automatic purging of the binary log, specify a value of 0 explicitly for binlog_expire_logs_seconds, and do not specify a value for expire_logs_days. For compatibility with earlier releases, automatic purging is also disabled if you specify a value of 0 explicitly for expire_logs_days and do not specify a value for binlog_expire_logs_seconds. In that case, the default for binlog_expire_logs_seconds is not applied.

    To remove binary log files manually, use the PURGE BINARY LOGS statement. See Section 15.4.1.1, “PURGE BINARY LOGS Statement”.

  • log_bin

    System Variable log_bin
    Scope Global
    Dynamic No
    SET_VAR Hint Applies No
    Type Boolean

    Shows the status of binary logging on the server, either enabled (ON) or disabled (OFF). With binary logging enabled, the server logs all statements that change data to the binary log, which is used for backup and replication. ON means that the binary log is available, OFF means that it is not in use. The --log-bin option can be used to specify a base name and location for the binary log.

    In earlier MySQL versions, binary logging was disabled by default, and was enabled if you specified the --log-bin option. From MySQL 8.0, binary logging is enabled by default, with the log_bin system variable set to ON, whether or not you specify the --log-bin option. The exception is if you use mysqld to initialize the data directory manually by invoking it with the --initialize or --initialize-insecure option, when binary logging is disabled by default. It is possible to enable binary logging in this case by specifying the --log-bin option.

    If the --skip-log-bin or --disable-log-bin option is specified at startup, binary logging is disabled, with the log_bin system variable set to OFF. If either of these options is specified and --log-bin is also specified, the option specified later takes precedence.

    For information on the format and management of the binary log, see Section 7.4.4, “The Binary Log”.

  • log_bin_basename

    System Variable log_bin_basename
    Scope Global
    Dynamic No
    SET_VAR Hint Applies No
    Type File name

    Holds the base name and path for the binary log files, which can be set with the --log-bin server option. The maximum variable length is 256. In MySQL 8.0, if the --log-bin option is not supplied, the default base name is binlog. For compatibility with MySQL 5.7, if the --log-bin option is supplied with no string or with an empty string, the default base name is host_name-bin, using the name of the host machine. The default location is the data directory.

  • log_bin_index

    Command-Line Format --log-bin-index=file_name
    System Variable log_bin_index
    Scope Global
    Dynamic No
    SET_VAR Hint Applies No
    Type File name

    Holds the base name and path for the binary log index file, which can be set with the --log-bin-index server option. The maximum variable length is 256.

  • log_bin_trust_function_creators

    Command-Line Format --log-bin-trust-function-creators[={OFF|ON}]
    Deprecated 8.0.34
    System Variable log_bin_trust_function_creators
    Scope Global
    Dynamic Yes
    SET_VAR Hint Applies No
    Type Boolean
    Default Value OFF

    This variable applies when binary logging is enabled. It controls whether stored function creators can be trusted not to create stored functions that may cause unsafe events to be written to the binary log. If set to 0 (the default), users are not permitted to create or alter stored functions unless they have the SUPER privilege in addition to the CREATE ROUTINE or ALTER ROUTINE privilege. A setting of 0 also enforces the restriction that a function must be declared with the DETERMINISTIC characteristic, or with the READS SQL DATA or NO SQL characteristic. If the variable is set to 1, MySQL does not enforce these restrictions on stored function creation. This variable also applies to trigger creation. See Section 27.7, “Stored Program Binary Logging”.

  • log_bin_use_v1_row_events

    Command-Line Format --log-bin-use-v1-row-events[={OFF|ON}]
    Deprecated 8.0.18
    System Variable log_bin_use_v1_row_events
    Scope Global
    Dynamic Yes
    SET_VAR Hint Applies No
    Type Boolean
    Default Value OFF

    This read-only system variable is deprecated. Setting the system variable to ON at server startup enabled row-based replication with replicas running MySQL Server 5.5 and earlier by writing the binary log using Version 1 binary log row events, instead of Version 2 binary log row events which are the default as of MySQL 5.6.

  • log_replica_updates

    Command-Line Format --log-replica-updates[={OFF|ON}]
    Introduced 8.0.26
    System Variable log_replica_updates
    Scope Global
    Dynamic No
    SET_VAR Hint Applies No
    Type Boolean
    Default Value ON

    From MySQL 8.0.26, use log_replica_updates in place of log_slave_updates, which is deprecated from that release. In releases before MySQL 8.0.26, use log_slave_updates.

    log_replica_updates specifies whether updates received by a replica server from a replication source server should be logged to the replica's own binary log.

    Enabling this variable causes the replica to write the updates that are received from a source and performed by the replication SQL thread to the replica's own binary log. Binary logging, which is controlled by the --log-bin option and is enabled by default, must also be enabled on the replica for updates to be logged. See Section 19.1.6, “Replication and Binary Logging Options and Variables”. log_replica_updates is enabled by default, unless you specify --skip-log-bin to disable binary logging, in which case MySQL also disables replica update logging by default. If you need to disable replica update logging when binary logging is enabled, specify --log-replica-updates=OFF at replica server startup.

    Enabling log_replica_updates enables replication servers to be chained. For example, you might want to set up replication servers using this arrangement:

    A -> B -> C

    Here, A serves as the source for the replica B, and B serves as the source for the replica C. For this to work, B must be both a source and a replica. With binary logging enabled and log_replica_updates enabled, which are the default settings, updates received from A are logged by B to its binary log, and can therefore be passed on to C.

  • log_slave_updates

    Command-Line Format --log-slave-updates[={OFF|ON}]
    Deprecated 8.0.26
    System Variable log_slave_updates
    Scope Global
    Dynamic No
    SET_VAR Hint Applies No
    Type Boolean
    Default Value ON

    From MySQL 8.0.26, log_slave_updates is deprecated and the alias log_replica_updates should be used instead. In releases before MySQL 8.0.26, use log_slave_updates.

    log_slave_updates specifies whether updates received by a replica server from a replication source server should be logged to the replica's own binary log.

    Enabling this variable causes the replica to write the updates that are received from a source and performed by the replication SQL thread to the replica's own binary log. Binary logging, which is controlled by the --log-bin option and is enabled by default, must also be enabled on the replica for updates to be logged. See Section 19.1.6, “Replication and Binary Logging Options and Variables”. log_slave_updates is enabled by default, unless you specify --skip-log-bin to disable binary logging, in which case MySQL also disables replica update logging by default. If you need to disable replica update logging when binary logging is enabled, specify --log-slave-updates=OFF at replica server startup.

    Enabling log_slave_updates enables replication servers to be chained. For example, you might want to set up replication servers using this arrangement:

    A -> B -> C

    Here, A serves as the source for the replica B, and B serves as the source for the replica C. For this to work, B must be both a source and a replica. With binary logging enabled and log_slave_updates enabled, which are the default settings, updates received from A are logged by B to its binary log, and can therefore be passed on to C.

  • log_statements_unsafe_for_binlog

    Command-Line Format --log-statements-unsafe-for-binlog[={OFF|ON}]
    Deprecated 8.0.34
    System Variable log_statements_unsafe_for_binlog
    Scope Global
    Dynamic Yes
    SET_VAR Hint Applies No
    Type Boolean
    Default Value ON

    If error 1592 is encountered, controls whether the generated warnings are added to the error log or not.

  • master_verify_checksum

    Command-Line Format --master-verify-checksum[={OFF|ON}]
    Deprecated 8.0.26
    System Variable master_verify_checksum
    Scope Global
    Dynamic Yes
    SET_VAR Hint Applies No
    Type Boolean
    Default Value OFF

    From MySQL 8.0.26, master_verify_checksum is deprecated and the alias source_verify_checksum should be used instead. In releases before MySQL 8.0.26, use master_verify_checksum.

    Enabling master_verify_checksum causes the source to verify events read from the binary log by examining checksums, and to stop with an error in the event of a mismatch. master_verify_checksum is disabled by default; in this case, the source uses the event length from the binary log to verify events, so that only complete events are read from the binary log.

  • max_binlog_cache_size

    Command-Line Format --max-binlog-cache-size=#
    System Variable max_binlog_cache_size
    Scope Global
    Dynamic Yes
    SET_VAR Hint Applies No
    Type Integer
    Default Value (64-bit platforms) 18446744073709547520
    Default Value (32-bit platforms) 4294967295
    Minimum Value 4096
    Maximum Value (64-bit platforms) 18446744073709547520
    Maximum Value (32-bit platforms) 4294967295
    Unit bytes
    Block Size 4096

    If a transaction requires more than this many bytes, the server generates a Multi-statement transaction required more than 'max_binlog_cache_size' bytes of storage error. When gtid_mode is not ON, the maximum recommended value is 4GB, due to the fact that, in this case, MySQL cannot work with binary log positions greater than 4GB; when gtid_mode is ON, this limitation does not apply, and the server can work with binary log positions of arbitrary size.

    If, because gtid_mode is not ON, or for some other reason, you need to guarantee that the binary log does not exceed a given size maxsize, you should set this variable according to the formula shown here:

    max_binlog_cache_size < 
      (((maxsize - max_binlog_size) / max_connections) - 1000) / 1.2

    This calculation takes into account the following conditions:

    • The server writes to the binary log as long as the size before it begins to write is less than max_binlog_size.

    • The server does not write single transactions, but rather groups of transactions. The maximum possible number of transactions in a group is equal to max_connections.

    • The server writes data that is not included in the cache. This includes a 4-byte checksum for each event; while this adds less than 20% to the transaction size, this amount is non-negible. In addition, the server writes a Gtid_log_event for each transaction; each of these events can add another 1 KB to what is written to the binary log.

    max_binlog_cache_size sets the size for the transaction cache only; the upper limit for the statement cache is governed by the max_binlog_stmt_cache_size system variable.

    The visibility to sessions of max_binlog_cache_size matches that of the binlog_cache_size system variable; in other words, changing its value affects only new sessions that are started after the value is changed.

  • max_binlog_size

    Command-Line Format --max-binlog-size=#
    System Variable max_binlog_size
    Scope Global
    Dynamic Yes
    SET_VAR Hint Applies No
    Type Integer
    Default Value 1073741824
    Minimum Value 4096
    Maximum Value 1073741824
    Unit bytes
    Block Size 4096

    If a write to the binary log causes the current log file size to exceed the value of this variable, the server rotates the binary logs (closes the current file and opens the next one). The minimum value is 4096 bytes. The maximum and default value is 1GB. Encrypted binary log files have an additional 512-byte header, which is included in max_binlog_size.

    A transaction is written in one chunk to the binary log, so it is never split between several binary logs. Therefore, if you have big transactions, you might see binary log files larger than max_binlog_size.

    If max_relay_log_size is 0, the value of max_binlog_size applies to relay logs as well.

    With GTIDs in use on the server, when max_binlog_size is reached, if the system table mysql.gtid_executed cannot be accessed to write the GTIDs from the current binary log file, the binary log cannot be rotated. In this situation, the server responds according to its binlog_error_action setting. If IGNORE_ERROR is set, an error is logged on the server and binary logging is halted, or if ABORT_SERVER is set, the server shuts down.

  • max_binlog_stmt_cache_size

    Command-Line Format --max-binlog-stmt-cache-size=#
    System Variable max_binlog_stmt_cache_size
    Scope Global
    Dynamic Yes
    SET_VAR Hint Applies No
    Type Integer
    Default Value 18446744073709547520
    Minimum Value 4096
    Maximum Value 18446744073709547520
    Unit bytes
    Block Size 4096

    If nontransactional statements within a transaction require more than this many bytes of memory, the server generates an error. The minimum value is 4096. The maximum and default values are 4GB on 32-bit platforms and 16EB (exabytes) on 64-bit platforms.

    max_binlog_stmt_cache_size sets the size for the statement cache only; the upper limit for the transaction cache is governed exclusively by the max_binlog_cache_size system variable.

  • original_commit_timestamp

    System Variable original_commit_timestamp
    Scope Session
    Dynamic Yes
    SET_VAR Hint Applies No
    Type Numeric

    For internal use by replication. When re-executing a transaction on a replica, this is set to the time when the transaction was committed on the original source, measured in microseconds since the epoch. This allows the original commit timestamp to be propagated throughout a replication topology.

    Setting the session value of this system variable is a restricted operation. The session user must have either the REPLICATION_APPLIER privilege (see Section 19.3.3, “Replication Privilege Checks”), or privileges sufficient to set restricted session variables (see Section 7.1.9.1, “System Variable Privileges”). However, note that the variable is not intended for users to set; it is set automatically by the replication infrastructure.

  • source_verify_checksum

    Command-Line Format --source-verify-checksum[={OFF|ON}]
    Introduced 8.0.26
    System Variable source_verify_checksum
    Scope Global
    Dynamic Yes
    SET_VAR Hint Applies No
    Type Boolean
    Default Value OFF

    From MySQL 8.0.26, use source_verify_checksum in place of master_verify_checksum, which is deprecated from that release. In releases before MySQL 8.0.26, use master_verify_checksum.

    Enabling source_verify_checksum causes the source to verify events read from the binary log by examining checksums, and to stop with an error in the event of a mismatch. source_verify_checksum is disabled by default; in this case, the source uses the event length from the binary log to verify events, so that only complete events are read from the binary log.

  • sql_log_bin

    System Variable sql_log_bin
    Scope Session
    Dynamic Yes
    SET_VAR Hint Applies No
    Type Boolean
    Default Value ON

    This variable controls whether logging to the binary log is enabled for the current session (assuming that the binary log itself is enabled). The default value is ON. To disable or enable binary logging for the current session, set the session sql_log_bin variable to OFF or ON.

    Set this variable to OFF for a session to temporarily disable binary logging while making changes to the source you do not want replicated to the replica.

    Setting the session value of this system variable is a restricted operation. The session user must have privileges sufficient to set restricted session variables. See Section 7.1.9.1, “System Variable Privileges”.

    It is not possible to set the session value of sql_log_bin within a transaction or subquery.

    Setting this variable to OFF prevents GTIDs from being assigned to transactions in the binary log. If you are using GTIDs for replication, this means that even when binary logging is later enabled again, the GTIDs written into the log from this point do not account for any transactions that occurred in the meantime, so in effect those transactions are lost.

  • sync_binlog

    Command-Line Format --sync-binlog=#
    System Variable sync_binlog
    Scope Global
    Dynamic Yes
    SET_VAR Hint Applies No
    Type Integer
    Default Value 1
    Minimum Value 0
    Maximum Value 4294967295

    Controls how often the MySQL server synchronizes the binary log to disk.

    • sync_binlog=0: Disables synchronization of the binary log to disk by the MySQL server. Instead, the MySQL server relies on the operating system to flush the binary log to disk from time to time as it does for any other file. This setting provides the best performance, but in the event of a power failure or operating system crash, it is possible that the server has committed transactions that have not been synchronized to the binary log.

    • sync_binlog=1: Enables synchronization of the binary log to disk before transactions are committed. This is the safest setting but can have a negative impact on performance due to the increased number of disk writes. In the event of a power failure or operating system crash, transactions that are missing from the binary log are only in a prepared state. This permits the automatic recovery routine to roll back the transactions, which guarantees that no transaction is lost from the binary log.

    • sync_binlog=N, where N is a value other than 0 or 1: The binary log is synchronized to disk after N binary log commit groups have been collected. In the event of a power failure or operating system crash, it is possible that the server has committed transactions that have not been flushed to the binary log. This setting can have a negative impact on performance due to the increased number of disk writes. A higher value improves performance, but with an increased risk of data loss.

    For the greatest possible durability and consistency in a replication setup that uses InnoDB with transactions, use these settings:

    Caution

    Many operating systems and some disk hardware fool the flush-to-disk operation. They may tell mysqld that the flush has taken place, even though it has not. In this case, the durability of transactions is not guaranteed even with the recommended settings, and in the worst case, a power outage can corrupt InnoDB data. Using a battery-backed disk cache in the SCSI disk controller or in the disk itself speeds up file flushes, and makes the operation safer. You can also try to disable the caching of disk writes in hardware caches.

  • transaction_write_set_extraction

    Command-Line Format --transaction-write-set-extraction[=value]
    Deprecated 8.0.26
    System Variable transaction_write_set_extraction
    Scope Global, Session
    Dynamic Yes
    SET_VAR Hint Applies No
    Type Enumeration
    Default Value XXHASH64
    Valid Values

    OFF

    MURMUR32

    XXHASH64

    This system variable specifies the algorithm used to hash the writes extracted during a transaction. The default is XXHASH64. OFF means that write sets are not collected.

    transaction_write_set_extraction is deprecated as of MySQL 8.0.26; expect it to be removed in a future MySQL release.

    The XXHASH64 setting is required for Group Replication, where the process of extracting the writes from a transaction is used for conflict detection and certification on all group members (see Section 20.3.1, “Group Replication Requirements”). For a replication source server that has multithreaded replicas (replicas on which replica_parallel_workers or slave_parallel_workers is set to a value greater than 0), where binlog_transaction_dependency_tracking is set to WRITESET or WRITESET_SESSION, transaction_write_set_extraction must not be OFF. While the current value of binlog_transaction_dependency_tracking is WRITESET or WRITESET_SESSION, you cannot change the value of transaction_write_set_extraction.

    As of MySQL 8.0.14, setting the session value of this system variable is a restricted operation; the session user must have privileges sufficient to set restricted session variables (see Section 7.1.9.1, “System Variable Privileges”). binlog_format must be set to ROW to change the value of transaction_write_set_extraction. If you change the value, the new value does not take effect on replicated transactions until after the replica has been stopped and restarted with STOP REPLICA and START REPLICA.