// Tests the behavior of a change stream on a whole database in a sharded cluster. // @tags: [ // requires_majority_read_concern, // uses_change_streams, // ] (function() { "use strict"; load('jstests/replsets/libs/two_phase_drops.js'); // For TwoPhaseDropCollectionTest. load('jstests/aggregation/extras/utils.js'); // For assertErrorCode(). load('jstests/libs/change_stream_util.js'); // For ChangeStreamTest. load("jstests/libs/collection_drop_recreate.js"); // For assertDropCollection. const st = new ShardingTest({ shards: 2, rs: { nodes: 1, // Use a higher frequency for periodic noops to speed up the test. setParameter: {periodicNoopIntervalSecs: 1, writePeriodicNoops: true} } }); const mongosDB = st.s0.getDB("test"); const mongosColl = mongosDB[jsTestName()]; let cst = new ChangeStreamTest(mongosDB); let cursor = cst.startWatchingChanges({pipeline: [{$changeStream: {}}], collection: 1}); // Test that if there are no changes, we return an empty batch. assert.eq(0, cursor.firstBatch.length, "Cursor had changes: " + tojson(cursor)); // Test that the change stream returns operations on the unsharded test collection. assert.commandWorked(mongosColl.insert({_id: 0})); let expected = { documentKey: {_id: 0}, fullDocument: {_id: 0}, ns: {db: mongosDB.getName(), coll: mongosColl.getName()}, operationType: "insert", }; cst.assertNextChangesEqual({cursor: cursor, expectedChanges: [expected]}); // Create a new sharded collection. mongosDB.createCollection(jsTestName() + "_sharded_on_x"); const mongosCollShardedOnX = mongosDB[jsTestName() + "_sharded_on_x"]; // Shard, split, and move one chunk to shard1. st.shardColl(mongosCollShardedOnX.getName(), {x: 1}, {x: 0}, {x: 1}, mongosDB.getName()); // Write a document to each chunk. assert.commandWorked(mongosCollShardedOnX.insert({_id: 0, x: -1})); assert.commandWorked(mongosCollShardedOnX.insert({_id: 1, x: 1})); // Verify that the change stream returns both inserts. expected = [ { documentKey: {_id: 0, x: -1}, fullDocument: {_id: 0, x: -1}, ns: {db: mongosDB.getName(), coll: mongosCollShardedOnX.getName()}, operationType: "insert", }, { documentKey: {_id: 1, x: 1}, fullDocument: {_id: 1, x: 1}, ns: {db: mongosDB.getName(), coll: mongosCollShardedOnX.getName()}, operationType: "insert", } ]; cst.assertNextChangesEqual({cursor: cursor, expectedChanges: expected}); // Now send inserts to both the sharded and unsharded collections, and verify that the change // streams returns them in order. assert.commandWorked(mongosCollShardedOnX.insert({_id: 2, x: 2})); assert.commandWorked(mongosColl.insert({_id: 1})); // Verify that the change stream returns both inserts. expected = [ { documentKey: {_id: 2, x: 2}, fullDocument: {_id: 2, x: 2}, ns: {db: mongosDB.getName(), coll: mongosCollShardedOnX.getName()}, operationType: "insert", }, { documentKey: {_id: 1}, fullDocument: {_id: 1}, ns: {db: mongosDB.getName(), coll: mongosColl.getName()}, operationType: "insert", } ]; cst.assertNextChangesEqual({cursor: cursor, expectedChanges: expected}); // Create a third sharded collection with a compound shard key. mongosDB.createCollection(jsTestName() + "_sharded_compound"); const mongosCollShardedCompound = mongosDB[jsTestName() + "_sharded_compound"]; // Shard, split, and move one chunk to shard1. st.shardColl(mongosCollShardedCompound.getName(), {y: 1, x: 1}, {y: 1, x: MinKey}, {y: 1, x: MinKey}, mongosDB.getName()); // Write a document to each chunk. assert.commandWorked(mongosCollShardedCompound.insert({_id: 0, y: -1, x: 0})); assert.commandWorked(mongosCollShardedCompound.insert({_id: 1, y: 1, x: 0})); // Verify that the change stream returns both inserts. expected = [ { documentKey: {_id: 0, y: -1, x: 0}, fullDocument: {_id: 0, y: -1, x: 0}, ns: {db: mongosDB.getName(), coll: mongosCollShardedCompound.getName()}, operationType: "insert", }, { documentKey: {_id: 1, y: 1, x: 0}, fullDocument: {_id: 1, y: 1, x: 0}, ns: {db: mongosDB.getName(), coll: mongosCollShardedCompound.getName()}, operationType: "insert", } ]; cst.assertNextChangesEqual({cursor: cursor, expectedChanges: expected}); // Send inserts to all 3 collections and verify that the results contain the correct // documentKeys and are in the correct order. assert.commandWorked(mongosCollShardedOnX.insert({_id: 3, x: 3})); assert.commandWorked(mongosColl.insert({_id: 3})); assert.commandWorked(mongosCollShardedCompound.insert({_id: 2, x: 0, y: -2})); // Verify that the change stream returns both inserts. expected = [ { documentKey: {_id: 3, x: 3}, fullDocument: {_id: 3, x: 3}, ns: {db: mongosDB.getName(), coll: mongosCollShardedOnX.getName()}, operationType: "insert", }, { documentKey: {_id: 3}, fullDocument: {_id: 3}, ns: {db: mongosDB.getName(), coll: mongosColl.getName()}, operationType: "insert", }, { documentKey: {_id: 2, x: 0, y: -2}, fullDocument: {_id: 2, x: 0, y: -2}, ns: {db: mongosDB.getName(), coll: mongosCollShardedCompound.getName()}, operationType: "insert", }, ]; const results = cst.assertNextChangesEqual({cursor: cursor, expectedChanges: expected}); // Store the resume token of the first insert to use after dropping the collection. const resumeTokenBeforeDrop = results[0]._id; // Write one more document to the collection that will be dropped, to be returned after // resuming. assert.commandWorked(mongosCollShardedOnX.insert({_id: 4, x: 4})); // Drop the collection, invalidating the open change stream. assertDropCollection(mongosDB, mongosCollShardedOnX.getName()); // Resume the change stream from before the collection drop, and verify that the documentKey // field contains the extracted shard key from the resume token. cursor = cst.startWatchingChanges({ pipeline: [ {$changeStream: {resumeAfter: resumeTokenBeforeDrop}}, {$match: {"ns.coll": mongosCollShardedOnX.getName()}} ], collection: 1 }); cst.assertNextChangesEqual({ cursor: cursor, expectedChanges: [ { documentKey: {_id: 4, x: 4}, fullDocument: {_id: 4, x: 4}, ns: {db: mongosDB.getName(), coll: mongosCollShardedOnX.getName()}, operationType: "insert", }, ] }); cst.cleanUp(); st.stop(); })();