63 lines
3.4 KiB
Ruby
63 lines
3.4 KiB
Ruby
# Test decoding only the commit record of the transaction that have
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# modified catalogs.
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setup
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{
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DROP TABLE IF EXISTS tbl1;
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CREATE TABLE tbl1 (val1 integer, val2 integer);
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CREATE TABLE user_cat (val1 integer) WITH (user_catalog_table = true);
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}
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teardown
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{
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DROP TABLE tbl1;
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DROP TABLE user_cat;
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SELECT 'stop' FROM pg_drop_replication_slot('isolation_slot');
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}
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session "s0"
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setup { SET synchronous_commit=on; }
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step "s0_init" { SELECT 'init' FROM pg_create_logical_replication_slot('isolation_slot', 'test_decoding'); }
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step "s0_begin" { BEGIN; }
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step "s0_savepoint" { SAVEPOINT sp1; }
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step "s0_truncate" { TRUNCATE tbl1; }
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step "s0_insert" { INSERT INTO tbl1 VALUES (1); }
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step "s0_insert2" { INSERT INTO user_cat VALUES (1); }
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step "s0_commit" { COMMIT; }
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session "s1"
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setup { SET synchronous_commit=on; }
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step "s1_checkpoint" { CHECKPOINT; }
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step "s1_get_changes" { SELECT data FROM pg_logical_slot_get_changes('isolation_slot', NULL, NULL, 'skip-empty-xacts', '1', 'include-xids', '0'); }
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# For the transaction that TRUNCATEd the table tbl1, the last decoding decodes
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# only its COMMIT record, because it starts from the RUNNING_XACTS record emitted
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# during the first checkpoint execution. This transaction must be marked as
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# containing catalog changes while decoding the COMMIT record and the decoding
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# of the INSERT record must read the pg_class with the correct historic snapshot.
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#
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# Note that in a case where bgwriter wrote the RUNNING_XACTS record between "s0_commit"
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# and "s0_begin", this doesn't happen as the decoding starts from the RUNNING_XACTS
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# record written by bgwriter. One might think we can either stop the bgwriter or
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# increase LOG_SNAPSHOT_INTERVAL_MS but it's not practical via tests.
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permutation "s0_init" "s0_begin" "s0_savepoint" "s0_truncate" "s1_checkpoint" "s1_get_changes" "s0_commit" "s0_begin" "s0_insert" "s1_checkpoint" "s1_get_changes" "s0_commit" "s1_get_changes"
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# Test that we can handle the case where there is no association between top-level
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# transaction and its subtransactions. The last decoding restarts from the first
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# checkpoint, decodes NEW_CID generated by "s0_insert2", and marks the subtransaction
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# as containing catalog changes while adding tuple cids to its top-level transaction.
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# During that, both transaction entries are created in ReorderBuffer as top-level
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# transactions and have the same LSN. We check if the assertion check for the order
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# of transaction LSNs in AssertTXNLsnOrder() is skipped since we are still before the
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# LSN at which we start replaying the contents of transactions. Besides, when decoding
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# the commit record of the top-level transaction, we must force the top-level
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# transaction to do timetravel since one of its subtransactions has been marked as
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# containing catalog changes.
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permutation "s0_init" "s0_begin" "s0_savepoint" "s0_insert" "s1_checkpoint" "s1_get_changes" "s0_insert2" "s0_commit" "s0_begin" "s0_insert" "s1_checkpoint" "s1_get_changes" "s0_commit" "s1_get_changes"
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# The last decoding restarts from the first checkpoint and adds invalidation
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# messages generated by "s0_truncate" to the subtransaction. While
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# processing the commit record for the top-level transaction, we decide
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# to skip this xact but ensure that corresponding invalidation messages
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# get processed.
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permutation "s0_init" "s0_begin" "s0_savepoint" "s0_insert" "s1_checkpoint" "s1_get_changes" "s0_truncate" "s0_commit" "s0_begin" "s0_insert" "s1_checkpoint" "s1_get_changes" "s0_commit" "s1_get_changes"
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