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path: root/jstests/noPassthrough/out_merge_majority_read.js
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/**
 * Tests that $out and $merge with readConcern majority will only see committed data.
 *
 * Each operation is tested on a single node, and (if supported) through mongos on both sharded and
 * unsharded collections. Mongos doesn't directly handle readConcern majority, but these tests
 * should ensure that it correctly propagates the setting to the shards when running commands.
 * @tags: [requires_sharding, requires_majority_read_concern]
 */

(function() {
'use strict';

// Skip this test if running with --nojournal and WiredTiger.
if (jsTest.options().noJournal &&
    (!jsTest.options().storageEngine || jsTest.options().storageEngine === "wiredTiger")) {
    print("Skipping test because running WiredTiger without journaling isn't a valid" +
          " replica set configuration");
    return;
}

const testServer = MongoRunner.runMongod();
const db = testServer.getDB("test");
if (!db.serverStatus().storageEngine.supportsCommittedReads) {
    print("Skipping read_majority.js since storageEngine doesn't support it.");
    MongoRunner.stopMongod(testServer);
    return;
}
MongoRunner.stopMongod(testServer);

function runTests(sourceColl, mongodConnection) {
    function makeSnapshot() {
        return assert.commandWorked(mongodConnection.adminCommand("makeSnapshot")).name;
    }
    function setCommittedSnapshot(snapshot) {
        assert.commandWorked(mongodConnection.adminCommand({"setCommittedSnapshot": snapshot}));
    }
    const db = sourceColl.getDB();
    const targetColl = db.targetColl;
    const targetReplaceDocsColl = db.targetReplaceDocsColl;

    assert.commandWorked(sourceColl.remove({}));
    assert.commandWorked(targetColl.remove({}));
    assert.commandWorked(targetReplaceDocsColl.remove({}));
    setCommittedSnapshot(makeSnapshot());

    // Insert a single document and make it visible by advancing the snapshot.
    assert.commandWorked(sourceColl.insert({_id: 1, state: 'before'}));
    assert.commandWorked(targetReplaceDocsColl.insert({_id: 1, state: 'before'}));
    setCommittedSnapshot(makeSnapshot());

    // This insert will not be visible to $merge.
    assert.commandWorked(sourceColl.insert({_id: 2, state: 'before'}));
    assert.commandWorked(targetReplaceDocsColl.insert({_id: 2, state: 'before'}));
    // Similarly this update will not be visible.
    assert.commandWorked(sourceColl.update({_id: 1}, {state: 'after'}));
    assert.commandWorked(targetReplaceDocsColl.update({_id: 1}, {state: 'after'}));

    // Make sure we see only the first document.
    let res = sourceColl.aggregate([], {readConcern: {level: 'majority'}});
    assert.eq(res.itcount(), 1);

    // Run $merge with whenNotMatched set to "insert". It will pick only the first document.
    // Also it will not see the update ('after').
    res = sourceColl.aggregate(
        [
            {$match: {state: 'before'}},
            {$project: {state: 'merge'}},
            {
                $merge: {
                    into: {db: targetColl.getDB().getName(), coll: targetColl.getName()},
                    whenMatched: "fail",
                    whenNotMatched: "insert"
                }
            }
        ],
        {readConcern: {level: 'majority'}});

    assert.eq(res.itcount(), 0);

    res = targetColl.find().sort({_id: 1});
    // Only a single document is visible ($merge did not see the second insert).
    assert.docEq(res.next(), {_id: 1, state: 'merge'});
    assert(res.isExhausted());

    // The same $merge but with whenMatched set to "replace".
    res = sourceColl.aggregate(
        [
            {$match: {state: 'before'}},
            {$project: {state: 'merge'}},
            {
                $merge: {
                    into: {
                        db: targetReplaceDocsColl.getDB().getName(),
                        coll: targetReplaceDocsColl.getName()
                    },
                    whenMatched: "replace",
                    whenNotMatched: "insert"
                }
            }
        ],
        {readConcern: {level: 'majority'}});
    assert.eq(res.itcount(), 0);

    setCommittedSnapshot(makeSnapshot());

    res = targetReplaceDocsColl.find().sort({_id: 1});
    // The first document must overwrite the update that the read portion of $merge did not see.
    assert.docEq(res.next(), {_id: 1, state: 'merge'});
    // The second document is the result of the independent insert that $merge did not see.
    assert.docEq(res.next(), {_id: 2, state: 'before'});
    assert(res.isExhausted());

    assert.commandWorked(targetColl.remove({}));
    setCommittedSnapshot(makeSnapshot());

    // Insert a document that will collide with $merge insert. The insert is not majority
    // commited.
    assert.commandWorked(targetColl.insert({_id: 1, state: 'collision'}));

    res = db.runCommand({
        aggregate: sourceColl.getName(),
        pipeline: [
            {$project: {state: 'merge'}},
            {
                $merge: {
                    into: {db: targetColl.getDB().getName(), coll: targetColl.getName()},
                    whenMatched: "fail",
                    whenNotMatched: "insert"
                }
            }
        ],
        cursor: {},
        readConcern: {level: 'majority'}
    });

    assert.commandFailedWithCode(res, ErrorCodes.DuplicateKey);

    // Remove the documents (not majority).
    assert.commandWorked(targetColl.remove({_id: 1}));
    assert.commandWorked(targetColl.remove({_id: 2}));

    // $merge should successfuly 'overwrite' the collection as it is 'empty' (not majority).
    res = targetReplaceDocsColl.aggregate(
        [
            {$match: {state: 'before'}},
            {$project: {state: 'merge'}},
            {
                $merge: {
                    into: {db: targetColl.getDB().getName(), coll: targetColl.getName()},
                    whenMatched: "fail",
                    whenNotMatched: "insert"
                }
            }
        ],
        {readConcern: {level: 'majority'}});

    assert.eq(res.itcount(), 0);

    setCommittedSnapshot(makeSnapshot());

    res = targetColl.find().sort({_id: 1});
    // Only a single document is visible ($merge did not see the second insert).
    assert.docEq(res.next(), {_id: 2, state: 'merge'});
    assert(res.isExhausted());
}

const replTest = new ReplSetTest({
    nodes: 1,
    oplogSize: 2,
    nodeOptions: {
        setParameter: 'testingSnapshotBehaviorInIsolation=true',
        enableMajorityReadConcern: '',
        shardsvr: ''
    }
});
replTest.startSet();
// Cannot wait for a stable recovery timestamp with 'testingSnapshotBehaviorInIsolation' set.
replTest.initiateWithAnyNodeAsPrimary(
    null, "replSetInitiate", {doNotWaitForStableRecoveryTimestamp: true});

const mongod = replTest.getPrimary();

// When a replica set is started with --shardsvr nodes, the FCV for the new shard is initialized
// to the last-stable FCV. This is done so that the shard can be safely added to a cluster which
// has the previous FCV. When the shard is actually added to a cluster with 'latestFCV', the
// config servers will run the setFCV command explicitly against the new shard. In this context,
// however, all nodes are the latest binary version and so we want them to have the latest FCV.
mongod.getDB("admin").adminCommand({setFeatureCompatibilityVersion: latestFCV});

(function testSingleNode() {
    const db = mongod.getDB("singleNode");
    runTests(db.collection, mongod);
})();

const shardingTest = new ShardingTest({
    shards: 0,
    mongos: 1,
});
assert(shardingTest.adminCommand({addShard: replTest.getURL()}));

(function testUnshardedDBThroughMongos() {
    const db = shardingTest.getDB("throughMongos");
    runTests(db.unshardedDB, mongod);
})();

shardingTest.adminCommand({enableSharding: 'throughMongos'});

(function testUnshardedCollectionThroughMongos() {
    const db = shardingTest.getDB("throughMongos");
    runTests(db.unshardedCollection, mongod);
})();

(function testShardedCollectionThroughMongos() {
    const db = shardingTest.getDB("throughMongos");
    const collection = db.shardedCollection;
    shardingTest.adminCommand({shardCollection: collection.getFullName(), key: {_id: 1}});
    runTests(collection, mongod);
})();

shardingTest.stop();
replTest.stopSet();
})();