From f0422f148e13bfb54070287fb031dc0ca274046c Mon Sep 17 00:00:00 2001 From: Josh Earlenbaugh Date: Thu, 29 Aug 2024 16:42:21 -0400 Subject: [PATCH] removed eager.mdx --- product_docs/docs/pgd/5/consistency/eager.mdx | 82 ------------------- 1 file changed, 82 deletions(-) delete mode 100644 product_docs/docs/pgd/5/consistency/eager.mdx diff --git a/product_docs/docs/pgd/5/consistency/eager.mdx b/product_docs/docs/pgd/5/consistency/eager.mdx deleted file mode 100644 index 2519faa1dfc..00000000000 --- a/product_docs/docs/pgd/5/consistency/eager.mdx +++ /dev/null @@ -1,82 +0,0 @@ ---- -title: Eager conflict resolution -redirects: - - /pgd/latest/bdr/eager/ ---- - -Eager conflict resolution (also known as Eager Replication) prevents conflicts by aborting transactions that conflict with each other with serializable errors during the COMMIT decision process. - -You configure it using [commit scopes](../durability/commit-scopes) as one of the conflict resolution options for [Group Commit](../durability/group-commit). - -## Usage - -To enable Eager conflict resolution, the client needs to switch to a commit scope, which uses it at session level or for individual transactions as shown here: - -```sql -BEGIN; - -SET LOCAL bdr.commit_scope = 'eager_scope'; - -... other commands possible... -``` - -The client can continue to issue a `COMMIT` at the end of the transaction and let PGD manage the two phases: - -```sql -COMMIT; -``` - -In this case, the `eager_scope` commit scope is defined something like this: - -```sql -SELECT bdr.add_commit_scope( - commit_scope_name := 'eager_scope', - origin_node_group := 'top_group', - rule := 'ALL (top_group) GROUP COMMIT (conflict_resolution = eager, commit_decision = raft) ABORT ON (timeout = 60s)', - wait_for_ready := true -); -``` - -!!! note Upgrading? - The old `global` commit scope doesn't exist anymore. The above command creates a scope that's the same as the old `global` scope with `bdr.global_commit_timeout` set to `60s`. - -The commit scope group for the Eager conflict resolution rule can only be `ALL` or `MAJORITY`. Where `ALL` is used, the `commit_decision` setting must also be set to `raft`. - -## Error handling - -Given that PGD manages the transaction, the client needs to check only the result of the `COMMIT`. This is advisable in any case, including single-node Postgres. - -In case of an origin node failure, the remaining nodes eventually (after at least `ABORT ON timeout`) decide to roll back the globally prepared transaction. Raft prevents inconsistent commit versus rollback decisions. However, this requires a majority of connected nodes. Disconnected nodes keep the transactions prepared to eventually commit them (or roll back) as needed to reconcile with the majority of nodes that might have decided and made further progress. - -## Effects of Eager Replication in general - -#### Increased abort rate - -With single-node Postgres, or even with PGD in its default asynchronous -replication mode, errors at `COMMIT` time are rare. The added synchronization -step due to the use of a commit scope using `eager` -for conflict resolution also adds a source of errors. Applications need to be -prepared to properly handle such errors, usually by applying a retry loop. - -The rate of aborts depends solely on the workload. Large transactions changing many rows are much more likely to conflict with other concurrent transactions. - -## Effects of MAJORITY and ALL node replication in general - -### Increased commit latency - -Adding a synchronization step due to the use of a commit scope means more -communication between the nodes, resulting in more latency at commit time. When -`ALL` is used in the commit scope, this also means that the availability of the -system is reduced, since any node going down causes transactions to fail. - -If one or more nodes are lagging behind, the round-trip delay in getting -confirmations can be large, causing high latencies. ALL or MAJORITY node replication adds -roughly two network round trips (to the furthest peer node in the worst case). -Logical standby nodes and nodes still in the process of joining or catching up -aren't included but eventually receive changes. - -Before a peer node can confirm its local preparation of the transaction, it also -needs to apply it locally. This further adds to the commit latency, depending on -the size of the transaction. This setting is independent of the -`synchronous_commit` setting. -