166 lines
8.3 KiB
JavaScript
166 lines
8.3 KiB
JavaScript
/**
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* Test to confirm that mongoS's special handling of replacement updates with an exact query on _id
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* behaves as expected in the case where a collection's shard key includes _id:
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*
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* - For update replacements, mongoS combines the _id from the query with the replacement document
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* to target the query towards a single shard, rather than scattering to all shards.
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* - For upsert replacements, which always require an exact shard key match, mongoS combines the _id
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* from the query with the replacement document to produce a complete shard key.
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*
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* These special cases are allowed because mongoD always propagates the _id of an existing document
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* into its replacement, and in the case of an upsert will use the value of _id from the query
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* filter.
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*/
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(function() {
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load("jstests/libs/profiler.js"); // For profilerHas*OrThrow helper functions.
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const st = new ShardingTest({shards: 2, mongos: 1, config: 1, other: {enableBalancer: false}});
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const mongosDB = st.s0.getDB(jsTestName());
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const mongosColl = mongosDB.test;
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const shard0DB = st.shard0.getDB(jsTestName());
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const shard1DB = st.shard1.getDB(jsTestName());
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assert.commandWorked(mongosDB.dropDatabase());
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// Enable sharding on the test DB and ensure its primary is shard0.
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assert.commandWorked(mongosDB.adminCommand({enableSharding: mongosDB.getName()}));
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st.ensurePrimaryShard(mongosDB.getName(), st.shard0.shardName);
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// Enables profiling on both shards so that we can verify the targeting behaviour.
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function restartProfiling() {
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for (let shardDB of[shard0DB, shard1DB]) {
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shardDB.setProfilingLevel(0);
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shardDB.system.profile.drop();
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shardDB.setProfilingLevel(2);
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}
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}
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// Run the set of tests relevant to the given shardKey.
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function runReplacementUpdateTests(shardKey) {
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// Write a single document to shard0 and verify that it is present.
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mongosColl.insert({_id: -100, a: -100, msg: "not_updated"});
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assert.docEq(shard0DB.test.find({_id: -100}).toArray(),
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[{_id: -100, a: -100, msg: "not_updated"}]);
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// Write a document with the same key directly to shard1. This simulates an orphaned
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// document, or the duplicate document which temporarily exists during a chunk migration.
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shard1DB.test.insert({_id: -100, a: -100, msg: "not_updated"});
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// Clear and restart the profiler on both shards.
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restartProfiling();
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// Perform a replacement update whose query is an exact match on _id and whose replacement
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// document contains the remainder of the shard key. Despite the fact that the replacement
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// document does not contain the entire shard key, we expect that mongoS will extract the
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// _id from the query and combine it with the replacement doc to target a single shard.
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let writeRes = assert.commandWorked(
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mongosColl.update({_id: -100}, {a: -100, msg: "update_extracted_id_from_query"}));
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// Verify that the update did not modify the orphan document.
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assert.docEq(shard1DB.test.find({_id: -100}).toArray(),
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[{_id: -100, a: -100, msg: "not_updated"}]);
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assert.eq(writeRes.nMatched, 1);
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assert.eq(writeRes.nModified, 1);
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// Verify that the update only targeted shard0 and that the resulting document appears as
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// expected.
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assert.docEq(mongosColl.find({_id: -100}).toArray(),
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[{_id: -100, a: -100, msg: "update_extracted_id_from_query"}]);
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profilerHasSingleMatchingEntryOrThrow({
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profileDB: shard0DB,
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filter: {op: "update", "command.u.msg": "update_extracted_id_from_query"}
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});
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profilerHasZeroMatchingEntriesOrThrow({
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profileDB: shard1DB,
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filter: {op: "update", "command.u.msg": "update_extracted_id_from_query"}
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});
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// Perform an upsert replacement whose query is an exact match on _id and whose replacement
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// doc contains the remainder of the shard key. The _id taken from the query should be used
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// both in targeting the update and in generating the new document.
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writeRes = assert.commandWorked(mongosColl.update(
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{_id: 101}, {a: 101, msg: "upsert_extracted_id_from_query"}, {upsert: true}));
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assert.eq(writeRes.nUpserted, 1);
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// Verify that the update only targeted shard1, and that the resulting document appears as
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// expected. At this point in the test we expect shard1 to be stale, because it was the
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// destination shard for the first moveChunk; we therefore explicitly check the profiler for
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// a successful update, i.e. one which did not report a stale config exception.
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assert.docEq(mongosColl.find({_id: 101}).toArray(),
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[{_id: 101, a: 101, msg: "upsert_extracted_id_from_query"}]);
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assert.docEq(shard1DB.test.find({_id: 101}).toArray(),
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[{_id: 101, a: 101, msg: "upsert_extracted_id_from_query"}]);
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profilerHasZeroMatchingEntriesOrThrow({
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profileDB: shard0DB,
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filter: {op: "update", "command.u.msg": "upsert_extracted_id_from_query"}
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});
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profilerHasSingleMatchingEntryOrThrow({
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profileDB: shard1DB,
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filter: {
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op: "update",
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"command.u.msg": "upsert_extracted_id_from_query",
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errName: {$exists: false}
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}
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});
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// The remainder of the tests are only relevant for a compound shard key. If the key is
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// {_id: 'hashed'}, we stop at this point.
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if (shardKey._id === "hashed") {
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return;
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}
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// Verify that an update whose query contains an exact match on _id but whose replacement
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// doc does not contain all other shard key fields will be rejected by mongoS.
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writeRes = assert.commandFailedWithCode(
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mongosColl.update({_id: -100, a: -100}, {msg: "update_failed_missing_shard_key_field"}),
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ErrorCodes.ShardKeyNotFound);
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// Check that the existing document remains unchanged, and that the update did not reach
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// either shard per their respective profilers.
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assert.docEq(mongosColl.find({_id: -100, a: -100}).toArray(),
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[{_id: -100, a: -100, msg: "update_extracted_id_from_query"}]);
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profilerHasZeroMatchingEntriesOrThrow({
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profileDB: shard0DB,
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filter: {op: "update", "command.u.msg": "update_failed_missing_shard_key_field"}
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});
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profilerHasZeroMatchingEntriesOrThrow({
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profileDB: shard1DB,
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filter: {op: "update", "command.u.msg": "update_failed_missing_shard_key_field"}
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});
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// Verify that an upsert whose query contains an exact match on _id but whose replacement
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// document does not contain all other shard key fields will be rejected by mongoS, since it
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// does not contain an exact shard key match.
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writeRes = assert.commandFailedWithCode(
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mongosColl.update({_id: 200, a: 200}, {msg: "upsert_targeting_failed"}, {upsert: true}),
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ErrorCodes.ShardKeyNotFound);
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profilerHasZeroMatchingEntriesOrThrow({
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profileDB: shard0DB,
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filter: {op: "update", "command.u.msg": "upsert_targeting_failed"}
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});
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profilerHasZeroMatchingEntriesOrThrow({
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profileDB: shard1DB,
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filter: {op: "update", "command.u.msg": "upsert_targeting_failed"}
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});
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assert.eq(mongosColl.find({_id: 200, a: 200}).itcount(), 0);
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}
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// Shard the test collection on {_id: 1, a: 1}, split it into two chunks, and migrate one of
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// these to the second shard.
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st.shardColl(
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mongosColl, {_id: 1, a: 1}, {_id: 0, a: 0}, {_id: 1, a: 1}, mongosDB.getName(), true);
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// Run the replacement behaviour tests that are relevant to a compound key that includes _id.
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runReplacementUpdateTests({_id: 1, a: 1});
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// Drop and reshard the collection on {_id: "hashed"}, which will autosplit across both shards.
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assert(mongosColl.drop());
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mongosDB.adminCommand({shardCollection: mongosColl.getFullName(), key: {_id: "hashed"}});
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// Run the replacement behaviour tests relevant to a collection sharded on {_id: "hashed"}.
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runReplacementUpdateTests({_id: "hashed"});
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st.stop();
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})(); |