Postgres-XC 1.2devel Documentation | ||||
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Note: XCONLY: The following description applies only to Postgres-XC.
Its important to ensure that any global transaction in the cluster must either be committed on all the nodes or none of the nodes. If the global recovery is done in a way such that on one node the WAL recovery stops after a commit record of some global transaction is processed, but stops before the commit record for the same transaction is processed on some other node, the cluster may be left in an inconsistent state. Since the commit messages of global transactions can arrive out-of-order on different nodes, its very hard to find a common synchronization point. For example, for two global transactions T1 and T2, the commit messages for these transactions can arrive on nodes N1 and N2 such that N1 receives commit message for T1 first and N2 receives commit message T2 first. In this case, during PITR, irrespective of whether we stop at T1 or T2, the cluster would lose its consistency since at least one transaction will be marked as committed on one node and as aborted on the other node.
During recovery, it can be hard and even impossible to find cluster-wide consistent synchronization points. In fact, such synchronization points may not exists at all. Postgres-XC provides a mechanism to create such synchronization points, called barriers, during normal operation. A barrier can be created by using a SQL command BARRIER
User must connect to one of the Coordinators and issue the BARRIER command, optionally followed by an identifier. If user does not specify an identifier, an unique identifier will be generated and returned to the caller. Upon receiving the BARRIER command, the Coordinator temporarily pauses any new two-phase commits. It also communicates with other Coordinators to ensure that there are no in-progress two-phase commits in the cluster. At that point, a barrier WAL record along with the user-given or system-generated BARRIER identifier is writtent to the WAL stream of all Datanodes and the Coordinators.
User can create as many barriers as she wants to. At the time of point-in-time-recovery, same barrier id must be specified in the recovery.conf files of all the Coordinators and Datanodes. When every node in the cluster recovers to the same barrier id, a cluster-wide consistent state is reached. Its important that the recovery must be started from a backup taken before the barrier was generated. If no matching barrier record is found, either because the barrier was created before the base backup used for the recovery or the said barrier was never created, the recovery is run to the end.
Note that in the current release, Postgres-XC has no means to detect if another barrier with the same name already exists. So the user must be careful while choosing a barrier identifier and ensure that an unique identifier is used for every barrier. Similarly, at the time of recovery, user must specify the same barrier id in the recovery.conf file on all the nodes. Otherwise, the cluster would not recover to a global consistent image.