/** * Tests that if maxTimeMS is sent with a moveChunk command, the client thread that issued moveChunk * will be interrupted when maxTimeMS is exceeded, but moveChunk will eventually succeed in the * background. */ (function() { "use strict"; load("jstests/libs/fail_point_util.js"); load('jstests/libs/parallel_shell_helpers.js'); var st = new ShardingTest({shards: 2}); const dbName = "test"; const collName = "foo"; const ns = dbName + "." + collName; let testDB = st.s.getDB(dbName); let testColl = testDB.foo; // Create a sharded collection with one chunk on shard0. assert.commandWorked(st.s.adminCommand({enableSharding: dbName})); assert.commandWorked(st.s.adminCommand({movePrimary: dbName, to: st.shard0.shardName})); assert.commandWorked(st.s.adminCommand({shardCollection: ns, key: {x: 1}})); // Enable failpoint which will cause moveChunk to hang indefinitely. let step1Failpoint = configureFailPoint(st.shard0, "moveChunkHangAtStep1"); const awaitResult = startParallelShell( funWithArgs(function(ns, toShardName) { // Send moveChunk with maxTimeMS. We set it to 15 seconds to ensure that the moveChunk // command is run and the task to execute the moveChunk logic is launched before maxTimeMS // expires. That way we can check below that a maxTimeMS timeout won't fail the migration. assert.commandFailedWithCode( db.adminCommand({moveChunk: ns, find: {x: 0}, to: toShardName, maxTimeMS: 15000}), ErrorCodes.MaxTimeMSExpired); }, ns, st.shard1.shardName), st.s.port); awaitResult(); step1Failpoint.off(); jsTestLog("Waiting for moveChunk to succeed in the background"); // The moveChunk should eventually succeed in the background even though the client thread was // interrupted. assert.soon(() => { var numChunksOnShard0 = st.config.chunks.find({"ns": ns, "shard": st.shard0.shardName}).itcount(); var numChunksOnShard1 = st.config.chunks.find({"ns": ns, "shard": st.shard1.shardName}).itcount(); return numChunksOnShard0 == 0 && numChunksOnShard1 == 1; }); st.stop(); })();