Commit scopes v5.6
Commit scopes are rules that determine how transaction commits and conflicts are handled within a PGD system. You can read more about them in Durability.
You can manipulate commit scopes using the following functions:
Commit scope syntax
The overall grammar for commit scope rules is composed as follows:
Where node_group
is the name of a PGD data node group.
Commit scope groups
ANY
Example: ANY 2 (left_dc)
A transaction under this commit scope group will be considered committed after any two nodes in the left_dc
group confirm they processed the transaction.
ANY NOT
Example: ANY 2 NOT (left_dc)
A transaction under this commit scope group will be considered committed if any two nodes that aren't in the left_dc
group confirm they processed the transaction.
MAJORITY
Example: MAJORITY (left_dc)
A transaction under this commit scope group will be considered committed if a majority of the nodes in the left_dc
group confirm they processed the transaction.
MAJORITY NOT
Example: MAJORITY NOT (left_dc)
A transaction under this commit scope group will be considered committed if a majority of the nodes that aren't in the left_dc
group confirm they processed the transaction.
ALL
Example: ALL (left_dc)
A transaction under this commit scope group will be considered committed if all of the nodes in the left_dc
group confirm they processed the transaction.
When ALL
is used with GROUP COMMIT
, the commit_decision
setting must be set to raft
to avoid reconciliation issues.
ALL NOT
Example: ALL NOT (left_dc)
A transaction under this commit scope group will be considered committed if all of the nodes that aren't in the left_dc
group confirm they processed the transaction.
Confirmation level
The confirmation level sets the point in time when a remote PGD node confirms that it reached a particular point in processing a transaction.
ON received
A transaction is confirmed immediately after receiving it, prior to starting the local application.
ON replicated
A transaction is confirmed after applying changes of the transaction but before flushing them to disk.
ON durable
A transaction is confirmed after all of its changes are flushed to disk.
ON visible
This is the default visibility. A transaction is confirmed after all of its changes are flushed to disk and it's visible to concurrent transactions.
Commit Scope kinds
More details of the commit scope kinds and details of their parameters:
Parameter values
Specify Boolean, enum, int, and interval values using the Postgres GUC parameter value conventions.
GROUP COMMIT
Allows commits to be confirmed by a consensus of nodes and controls conflict resolution settings.
GROUP COMMIT parameters
Parameter | Type | Default | Description |
---|---|---|---|
transaction_tracking | Boolean | Off/False | Specifies whether to track status of transaction. See transaction_tracking settings. |
conflict_resolution | enum | async | Specifies how to handle conflicts. (async |eager ). See conflict_resolution settings. |
commit_decision | enum | group | Specifies how the COMMIT decision is made. (group |partner |raft ). See commit_decision settings. |
ABORT ON parameters
Parameter | Type | Default | Description |
---|---|---|---|
timeout | interval | 0 | Timeout in milliseconds (accepts other units). (0 means not set.) |
require_write_lead | bool | false | CAMO only. If set, then for a transaction to switch to local (async) mode, a consensus request is required. |
transaction_tracking settings
When set to true, two-phase commit transactions:
- Look up commit decisions when a writer is processing a PREPARE message.
- When recovering from an interruption, look up the transactions prepared before the interruption. When found, it then looks up the commit scope of the transaction and any corresponding RAFT commit decision. Suppose the node is the origin of the transaction and doesn't have a RAFT commit decision, and
transaction_tracking
is on in the commit scope. In that case, it periodically looks for a RAFT commit decision for this unresolved transaction until it's committed or aborted.
conflict_resolution settings
The value async
means resolve conflicts asynchronously during replication using the conflict resolution policy.
The value eager
means that conflicts are resolved eagerly during COMMIT by aborting one of the conflicting transactions.
Eager is only available with MAJORITY
or ALL
commit scope groups.
When used with the ALL
commit scope group, the commit_decision
must be set to raft
to avoid reconcilation issue.
See "Conflict resolution" in Group Commit.
commit_decision settings
The value group
means the preceding commit_scope_group
specification also affects the COMMIT decision, not just durability.
The value partner
means the partner node decides whether transactions can be committed. This value is allowed only on groups with 2 data nodes.
The value raft
means the decision makes use of PGD's built-in Raft consensus. Once all the nodes in the selected commit scope group have confirmed the transaction, to ensure that all the nodes in the PGD cluster have noted the transaction, it is noted with the all-node Raft.
This option must be used when the ALL
commit scope group is being used to ensure no divergence between the nodes over the decision. This option may have low performance.
See "Commit decisions" in Group Commit.
CAMO
With the client's cooperation, enables protection to prevent multiple insertions of the same transaction in failover scenarios.
See "CAMO" in Durability for more details.
Degrade On parameters
Allows degrading to asynchronous operation on timeout.
Parameter | Type | Default | Description |
---|---|---|---|
timeout | interval | 0 | Timeout in milliseconds (accepts other units) after which operation becomes asynchronous. (0 means not set.) |
require_write_lead | Boolean | False | Specifies whether the node must be a write lead to be able to switch to asynchronous mode. |
LAG CONTROL
Allows the configuration of dynamic rate-limiting controlled by replication lag.
See "Lag Control" in Durability for more details.
LAG CONTROL parameters
Parameter | Type | Default | Description |
---|---|---|---|
max_lag_size | int | 0 | The maximum lag in kB that a given node can have in the replication connection to another node. When the lag exceeds this maximum scaled by max_commit_delay , lag control adjusts the commit delay. |
max_lag_time | interval | 0 | The maximum replication lag in milliseconds that the given origin can have with regard to a replication connection to a given downstream node. |
max_commit_delay | interval | 0 | Configures the maximum delay each commit can take, in fractional milliseconds. If set to 0, it disables Lag Control. After each commit delay adjustment (for example, if the replication is lagging more than max_lag_size or max_lag_time ), the commit delay is recalculated with the weight of the bdr.lag_control_commit_delay_adjust GUC. The max_commit_delay is a ceiling for the commit delay. |
- If
max_lag_size
andmax_lag_time
are set to 0, the LAG CONTROL is disabled. - If
max_commit_delay
is not set or set to 0, the LAG CONTROL is disabled.
The lag size is derived from the delta of the send_ptr
of the walsender to the apply_ptr
of the receiver.
The lag time is calculated according to the following formula:
Where lag_size
is the delta between the send_ptr
and apply_ptr
(as used for
max_lag_size
), and apply_rate
is a weighted exponential moving average,
following the simplified formula:
Where:
prev_apply_rate
was the previously configuredapply_rate
, before recalculating the new rate.apply_rate_weight
is the value of the GUCbdr.lag_tracker_apply_rate_weight
.apply_ptr_diff
is the difference between the currentapply_ptr
and theapply_ptr
at the point in time when the apply rate was last computed.diff_secs
is the delta in seconds from the last time the apply rate was calculated.
SYNCHRONOUS_COMMIT
The SYNCHRONOUS_COMMIT
commit scope kind has no parameters. It's effectively configured only by the commit scope group and commit scope visibility.