PostgreSQL 9.6.24 Documentation | |||
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To initiate streaming replication, the frontend sends the replication parameter in the startup message. A Boolean value of true tells the backend to go into walsender mode, wherein a small set of replication commands can be issued instead of SQL statements. Only the simple query protocol can be used in walsender mode. Replication commands are logged in the server log when log_replication_commands is enabled. Passing database as the value instructs walsender to connect to the database specified in the dbname parameter, which will allow the connection to be used for logical replication from that database.
For the purpose of testing replication commands, you can make a replication connection via psql or any other libpq-using tool with a connection string including the replication option, e.g.:
psql "dbname=postgres replication=database" -c "IDENTIFY_SYSTEM;"
However, it is often more useful to use pg_receivexlog (for physical replication) or pg_recvlogical (for logical replication).
The commands accepted in walsender mode are:
Requests the server to identify itself. Server replies with a result set of a single row, containing four fields:
The unique system identifier identifying the cluster. This can be used to check that the base backup used to initialize the standby came from the same cluster.
Current timeline ID. Also useful to check that the standby is consistent with the master.
Current xlog flush location. Useful to get a known location in the transaction log where streaming can start.
Database connected to or null.
Requests the server to send over the timeline history file for timeline tli. Server replies with a result set of a single row, containing two fields. While the fields are labeled as text and bytea, they effectively return raw bytes, with no escaping or encoding conversion:
File name of the timeline history file, e.g., 00000002.history.
Contents of the timeline history file.
Create a physical or logical replication slot. See Section 26.2.6 for more about replication slots.
The name of the slot to create. Must be a valid replication slot name (see Section 26.2.6.1).
The name of the output plugin used for logical decoding (see Section 47.6).
Specify that this physical replication slot reserves WAL immediately. Otherwise, WAL is only reserved upon connection from a streaming replication client.
Instructs server to start streaming WAL, starting at WAL position XXX/XXX. If TIMELINE option is specified, streaming starts on timeline tli; otherwise, the server's current timeline is selected. The server can reply with an error, for example if the requested section of WAL has already been recycled. On success, server responds with a CopyBothResponse message, and then starts to stream WAL to the frontend.
If a slot's name is provided via slot_name, it will be updated as replication progresses so that the server knows which WAL segments, and if hot_standby_feedback is on which transactions, are still needed by the standby.
If the client requests a timeline that's not the latest but is part of the history of the server, the server will stream all the WAL on that timeline starting from the requested start point up to the point where the server switched to another timeline. If the client requests streaming at exactly the end of an old timeline, the server responds immediately with CommandComplete without entering COPY mode.
After streaming all the WAL on a timeline that is not the latest one, the server will end streaming by exiting the COPY mode. When the client acknowledges this by also exiting COPY mode, the server sends a result set with one row and two columns, indicating the next timeline in this server's history. The first column is the next timeline's ID (type int8), and the second column is the WAL position where the switch happened (type text). Usually, the switch position is the end of the WAL that was streamed, but there are corner cases where the server can send some WAL from the old timeline that it has not itself replayed before promoting. Finally, the server sends CommandComplete message, and is ready to accept a new command.
WAL data is sent as a series of CopyData messages. (This allows other information to be intermixed; in particular the server can send an ErrorResponse message if it encounters a failure after beginning to stream.) The payload of each CopyData message from server to the client contains a message of one of the following formats:
Identifies the message as WAL data.
The starting point of the WAL data in this message.
The current end of WAL on the server.
The server's system clock at the time of transmission, as microseconds since midnight on 2000-01-01.
A section of the WAL data stream.
A single WAL record is never split across two XLogData messages. When a WAL record crosses a WAL page boundary, and is therefore already split using continuation records, it can be split at the page boundary. In other words, the first main WAL record and its continuation records can be sent in different XLogData messages.
Identifies the message as a sender keepalive.
The current end of WAL on the server.
The server's system clock at the time of transmission, as microseconds since midnight on 2000-01-01.
1 means that the client should reply to this message as soon as possible, to avoid a timeout disconnect. 0 otherwise.
The receiving process can send replies back to the sender at any time, using one of the following message formats (also in the payload of a CopyData message):
Identifies the message as a receiver status update.
The location of the last WAL byte + 1 received and written to disk in the standby.
The location of the last WAL byte + 1 flushed to disk in the standby.
The location of the last WAL byte + 1 applied in the standby.
The client's system clock at the time of transmission, as microseconds since midnight on 2000-01-01.
If 1, the client requests the server to reply to this message immediately. This can be used to ping the server, to test if the connection is still healthy.
Identifies the message as a Hot Standby feedback message.
The client's system clock at the time of transmission, as microseconds since midnight on 2000-01-01.
The standby's current xmin. This may be 0, if the standby is sending notification that Hot Standby feedback will no longer be sent on this connection. Later non-zero messages may reinitiate the feedback mechanism.
The standby's current epoch.
Instructs server to start streaming WAL for logical replication, starting at WAL position XXX/XXX. The server can reply with an error, for example if the requested section of WAL has already been recycled. On success, server responds with a CopyBothResponse message, and then starts to stream WAL to the frontend.
The messages inside the CopyBothResponse messages are of the same format documented for START_REPLICATION ... PHYSICAL.
The output plugin associated with the selected slot is used to process the output for streaming.
The name of the slot to stream changes from. This parameter is required, and must correspond to an existing logical replication slot created with CREATE_REPLICATION_SLOT in LOGICAL mode.
The WAL position to begin streaming at.
The name of an option passed to the slot's logical decoding plugin.
Optional value, in the form of a string constant, associated with the specified option.
Drops a replication slot, freeing any reserved server-side resources. If the slot is currently in use by an active connection, this command fails.
The name of the slot to drop.
Instructs the server to start streaming a base backup. The system will automatically be put in backup mode before the backup is started, and taken out of it when the backup is complete. The following options are accepted:
Sets the label of the backup. If none is specified, a backup label of base backup will be used. The quoting rules for the label are the same as a standard SQL string with standard_conforming_strings turned on.
Request information required to generate a progress report. This will send back an approximate size in the header of each tablespace, which can be used to calculate how far along the stream is done. This is calculated by enumerating all the file sizes once before the transfer is even started, and might as such have a negative impact on the performance. In particular, it might take longer before the first data is streamed. Since the database files can change during the backup, the size is only approximate and might both grow and shrink between the time of approximation and the sending of the actual files.
Request a fast checkpoint.
Include the necessary WAL segments in the backup. This will include all the files between start and stop backup in the pg_xlog directory of the base directory tar file.
By default, the backup will wait until the last required WAL segment has been archived, or emit a warning if log archiving is not enabled. Specifying NOWAIT disables both the waiting and the warning, leaving the client responsible for ensuring the required log is available.
Limit (throttle) the maximum amount of data transferred from server to client per unit of time. The expected unit is kilobytes per second. If this option is specified, the value must either be equal to zero or it must fall within the range from 32 kB through 1 GB (inclusive). If zero is passed or the option is not specified, no restriction is imposed on the transfer.
Include information about symbolic links present in the directory pg_tblspc in a file named tablespace_map. The tablespace map file includes each symbolic link name as it exists in the directory pg_tblspc/ and the full path of that symbolic link.
When the backup is started, the server will first send two ordinary result sets, followed by one or more CopyResponse results.
The first ordinary result set contains the starting position of the backup, in a single row with two columns. The first column contains the start position given in XLogRecPtr format, and the second column contains the corresponding timeline ID.
The second ordinary result set has one row for each tablespace. The fields in this row are:
The OID of the tablespace, or null if it's the base directory.
The full path of the tablespace directory, or null if it's the base directory.
The approximate size of the tablespace, if progress report has been requested; otherwise it's null.
After the second regular result set, one or more CopyResponse results will be sent, one for the main data directory and one for each additional tablespace other than pg_default and pg_global. The data in the CopyResponse results will be a tar format (following the "ustar interchange format" specified in the POSIX 1003.1-2008 standard) dump of the tablespace contents, except that the two trailing blocks of zeroes specified in the standard are omitted. After the tar data is complete, a final ordinary result set will be sent, containing the WAL end position of the backup, in the same format as the start position.
The tar archive for the data directory and each tablespace will contain all files in the directories, regardless of whether they are PostgreSQL files or other files added to the same directory. The only excluded files are:
postmaster.pid
postmaster.opts
various temporary files created during the operation of the PostgreSQL server
pg_xlog, including subdirectories. If the backup is run with WAL files included, a synthesized version of pg_xlog will be included, but it will only contain the files necessary for the backup to work, not the rest of the contents.
pg_replslot is copied as an empty directory.
Files other than regular files and directories, such as symbolic links and special device files, are skipped. (Symbolic links in pg_tblspc are maintained.)
Owner, group, and file mode are set if the underlying file system on the server supports it.