A replica server creates two replication metadata repositories, the connection metadata repository and the applier metadata repository. The replication metadata repositories survive a replica server's shutdown. If binary log file position based replication is in use, when the replica restarts, it reads the two repositories to determine how far it previously proceeded in reading the binary log from the source and in processing its own relay log. If GTID-based replication is in use, the replica does not use the replication metadata repositories for that purpose, but does need them for the other metadata that they contain.
The replica's connection metadata repository contains information that the replication I/O (receiver) thread needs to connect to the replication source server and retrieve transactions from the source's binary log. The metadata in this repository includes the connection configuration, the replication user account details, the SSL settings for the connection, and the file name and position where the replication receiver thread is currently reading from the source's binary log.
The replica's applier metadata repository contains information that the replication SQL (applier) thread needs to read and apply transactions from the replica's relay log. The metadata in this repository includes the file name and position up to which the replication applier thread has executed the transactions in the relay log, and the equivalent position in the source's binary log. It also includes metadata for the process of applying transactions, such as the number of worker threads and the
PRIVILEGE_CHECKS_USER
account for the channel.
The connection metadata repository is written to the
slave_master_info
table in the
mysql
system schema, and the applier metadata
repository is written to the
slave_relay_log_info
table in the
mysql
system schema. A warning message is
issued if mysqld is unable to initialize the
tables for the replication metadata repositories, but the
replica is allowed to continue starting. This situation is most
likely to occur when upgrading from a version of MySQL that does
not support the use of tables for the repositories to one in
which they are supported.
Do not attempt to update or insert rows in the
mysql.slave_master_info
ormysql.slave_relay_log_info
tables manually. Doing so can cause undefined behavior, and is not supported. Execution of any statement requiring a write lock on either or both of theslave_master_info
andslave_relay_log_info
tables is disallowed while replication is ongoing (although statements that perform only reads are permitted at any time).Access privileges for the connection metadata repository table
mysql.slave_master_info
should be restricted to the database administrator, because it contains the replication user account name and password for connecting to the source. Use a restricted access mode to protect database backups that include this table. You can clear the replication user account credentials from the connection metadata repository, and instead always provide them using aSTART REPLICA
statement to start the replication channel. This approach means that the replication channel always needs operator intervention to restart, but the account name and password are not recorded in the replication metadata repositories.
RESET REPLICA
clears the data in
the replication metadata repositories, with the exception of the
replication connection parameters (depending on the MySQL Server
release). For details, see the description for
RESET REPLICA
.
You can set the GTID_ONLY
option of the
CHANGE REPLICATION SOURCE TO
statement to stop a replication channel from persisting file
names and file positions in the replication metadata
repositories. This avoids writes and reads to the tables in
situations where GTID-based replication does not actually
require them. With the GTID_ONLY
setting, the
connection metadata repository and the applier metadata
repository are not updated when the replica queues and applies
events in a transaction, or when the replication threads are
stopped and started. File positions are tracked in memory, and
can be viewed using SHOW REPLICA
STATUS
if they are needed. The replication metadata
repositories are only synchronized in the following situations:
When a
CHANGE REPLICATION SOURCE TO
statement is issued.When a
RESET REPLICA
statement is issued.RESET REPLICA ALL
deletes rather than updates the repositories, so they are synchronized implicitly.When a replication channel is initialized.
If the replication metadata repositories are moved from files to tables.
Creating the replication metadata repositories as tables is the default; the use of files is deprecated.
The mysql.slave_master_info
and
mysql.slave_relay_log_info
tables are created
using the InnoDB
transactional
storage engine. Updates to the applier metadata repository table
are committed together with the transactions, meaning that the
replica's progress information recorded in that repository is
always consistent with what has been applied to the database,
even in the event of an unexpected server halt. For information
on the combination of settings on a replica that is most
resilient to unexpected halts, see
Section 19.4.2, “Handling an Unexpected Halt of a Replica”.
When you back up the replica's data or transfer a snapshot of
its data to create a new replica, ensure that you include the
mysql.slave_master_info
and
mysql.slave_relay_log_info
tables containing
the replication metadata repositories. For cloning operations,
note that when the replication metadata repositories are created
as tables, they are copied to the recipient during a cloning
operation, but when they are created as files, they are not
copied. When binary log file position based replication is in
use, the replication metadata repositories are needed to resume
replication after restarting the restored, copied, or cloned
replica. If you do not have the relay log files, but still have
the applier metadata repository, you can check it to determine
how far the replication SQL thread has executed in the source's
binary log. Then you can use a CHANGE
REPLICATION SOURCE TO
statement with the
SOURCE_LOG_FILE
and
SOURCE_LOG_POS
options to tell the replica to
re-read the binary logs from the source from that point
(provided that the required binary logs still exist on the
source).
One additional repository, the applier worker metadata
repository, is created primarily for internal use, and holds
status information about worker threads on a multithreaded
replica. The applier worker metadata repository includes the
names and positions for the relay log file and the source's
binary log file for each worker thread. If the applier metadata
repository is created as a table, which is the default, the
applier worker metadata repository is written to the
mysql.slave_worker_info
table. If the applier
metadata repository is written to a file, the applier worker
metadata repository is written to the
worker-relay-log.info
file. For external
use, status information for worker threads is presented in the
Performance Schema
replication_applier_status_by_worker
table.
The replication metadata repositories originally contained
information similar to that shown in the output of the
SHOW REPLICA STATUS
statement,
which is discussed in
Section 15.4.2, “SQL Statements for Controlling Replica Servers”. Further
information has since been added to the replication metadata
repositories which is not displayed by the
SHOW REPLICA STATUS
statement.
For the connection metadata repository, the following table
shows the correspondence between the columns in the
mysql.slave_master_info
table, the columns
displayed by SHOW REPLICA STATUS
,
and the lines in the deprecated master.info
file.
slave_master_info Table Column |
SHOW REPLICA STATUS Column |
master.info File Line |
Description |
---|---|---|---|
Number_of_lines |
[None] | 1 | Number of columns in the table (or lines in the file) |
Master_log_name |
Source_Log_File |
2 | The name of the binary log currently being read from the source |
Master_log_pos |
Read_Source_Log_Pos |
3 | The current position within the binary log that has been read from the source |
Host |
Source_Host |
4 | The host name of the replication source server |
User_name |
Source_User |
5 | The replication user account name used to connect to the source |
User_password |
Password (not shown by SHOW REPLICA
STATUS ) |
6 | The replication user account password used to connect to the source |
Port |
Source_Port |
7 | The network port used to connect to the replication source server |
Connect_retry |
Connect_Retry |
8 | The period (in seconds) that the replica waits before trying to reconnect to the source |
Enabled_ssl |
Source_SSL_Allowed |
9 | Whether the replica supports SSL connections |
Ssl_ca |
Source_SSL_CA_File |
10 | The file used for the Certificate Authority (CA) certificate |
Ssl_capath |
Source_SSL_CA_Path |
11 | The path to the Certificate Authority (CA) certificate |
Ssl_cert |
Source_SSL_Cert |
12 | The name of the SSL certificate file |
Ssl_cipher |
Source_SSL_Cipher |
13 | The list of possible ciphers used in the handshake for the SSL connection |
Ssl_key |
Source_SSL_Key |
14 | The name of the SSL key file |
Ssl_verify_server_cert |
Source_SSL_Verify_Server_Cert |
15 | Whether to verify the server certificate |
Heartbeat |
[None] | 16 | Interval between replication heartbeats, in seconds |
Bind |
Source_Bind |
17 | Which of the replica's network interfaces should be used for connecting to the source |
Ignored_server_ids |
Replicate_Ignore_Server_Ids |
18 | The list of server IDs to be ignored. Note that for
Ignored_server_ids the list of server
IDs is preceded by the total number of server IDs to
ignore. |
Uuid |
Source_UUID |
19 | The source's unique ID |
Retry_count |
Source_Retry_Count |
20 | Maximum number of reconnection attempts permitted |
Ssl_crl |
[None] | 21 | Path to an SSL certificate revocation-list file |
Ssl_crlpath |
[None] | 22 | Path to a directory containing SSL certificate revocation-list files |
Enabled_auto_position |
Auto_position |
23 | Whether GTID auto-positioning is in use or not |
Channel_name |
Channel_name |
24 | The name of the replication channel |
Tls_version |
Source_TLS_Version |
25 | TLS version on the source |
Public_key_path |
Source_public_key_path |
26 | Name of the RSA public key file |
Get_public_key |
Get_source_public_key |
27 | Whether to request RSA public key from source |
Network_namespace |
Network_namespace |
28 | Network namespace |
Master_compression_algorithm |
[None] | 29 | Permitted compression algorithms for the connection to the source |
Master_zstd_compression_level |
[None] | 30 | zstd compression level |
Tls_ciphersuites |
[None] | 31 | Permitted ciphersuites for TLSv1.3 |
Source_connection_auto_failover |
[None] | 32 | Whether the asynchronous connection failover mechanism is activated |
Gtid_only |
[None] | 33 | Whether the channel uses only GTIDs and does not persist positions |
For the applier metadata repository, the following table shows
the correspondence between the columns in the
mysql.slave_relay_log_info
table, the columns
displayed by SHOW REPLICA STATUS
,
and the lines in the deprecated
relay-log.info
file.
slave_relay_log_info Table Column |
SHOW REPLICA STATUS Column |
Line in relay-log.info File |
Description |
---|---|---|---|
Number_of_lines |
[None] | 1 | Number of columns in the table or lines in the file |
Relay_log_name |
Relay_Log_File |
2 | The name of the current relay log file |
Relay_log_pos |
Relay_Log_Pos |
3 | The current position within the relay log file; events up to this position have been executed on the replica database |
Master_log_name |
Relay_Source_Log_File |
4 | The name of the source's binary log file from which the events in the relay log file were read |
Master_log_pos |
Exec_Source_Log_Pos |
5 | The equivalent position within the source's binary log file of the events that have been executed on the replica |
Sql_delay |
SQL_Delay |
6 | The number of seconds that the replica must lag the source |
Number_of_workers |
[None] | 7 | The number of worker threads for applying replication transactions in parallel |
Id |
[None] | 8 | ID used for internal purposes; currently this is always 1 |
Channel_name |
Channel_name |
9 | The name of the replication channel |
Privilege_checks_username |
[None] | 10 | The user name for the PRIVILEGE_CHECKS_USER account
for the channel |
Privilege_checks_hostname |
[None] | 11 | The host name for the PRIVILEGE_CHECKS_USER account
for the channel |
Require_row_format |
[None] | 12 | Whether the channel accepts only row-based events |
Require_table_primary_key_check |
[None] | 13 | The channel's policy on whether tables must have primary keys for
CREATE TABLE and ALTER
TABLE operations |
Assign_gtids_to_anonymous_transactions_type |
[None] | 14 | If the channel assigns a GTID to replicated transactions that do not
already have one, using the replica's local UUID,
this value is LOCAL ; if the channel
does so using instead a UUID which has been set manually,
the value is UUID . If the channel does
not assign a GTID in such cases, the value is
OFF . |
Assign_gtids_to_anonymous_transactions_value |
[None] | 15 | The UUID used in the GTIDs assigned to anonymous transactions |