Exemplo n.º 1
0
func (s *S) TestErrors(c *C) {
	doc := bson.M{"foo": 1}
	tests := []txn.Op{{
		C:  "c",
		Id: 0,
	}, {
		C:      "c",
		Id:     0,
		Insert: doc,
		Remove: true,
	}, {
		C:      "c",
		Id:     0,
		Insert: doc,
		Update: doc,
	}, {
		C:      "c",
		Id:     0,
		Update: doc,
		Remove: true,
	}, {
		C:      "c",
		Assert: doc,
	}, {
		Id:     0,
		Assert: doc,
	}}

	txn.SetChaos(txn.Chaos{KillChance: 1.0})
	for _, op := range tests {
		c.Logf("op: %v", op)
		err := s.runner.Run([]txn.Op{op}, "", nil)
		c.Assert(err, ErrorMatches, "error in transaction op 0: .*")
	}
}
Exemplo n.º 2
0
func (s *S) TestTxnQueueStashStressTest(c *C) {
	txn.SetChaos(txn.Chaos{
		SlowdownChance: 0.3,
		Slowdown:       50 * time.Millisecond,
	})
	defer txn.SetChaos(txn.Chaos{})

	// So we can run more iterations of the test in less time.
	txn.SetDebug(false)

	const runners = 10
	const inserts = 10
	const repeat = 100

	for r := 0; r < repeat; r++ {
		var wg sync.WaitGroup
		wg.Add(runners)
		for i := 0; i < runners; i++ {
			go func(i, r int) {
				defer wg.Done()

				session := s.session.New()
				defer session.Close()
				runner := txn.NewRunner(s.tc.With(session))

				for j := 0; j < inserts; j++ {
					ops := []txn.Op{{
						C:  "accounts",
						Id: fmt.Sprintf("insert-%d-%d", r, j),
						Insert: bson.M{
							"added-by": i,
						},
					}}
					err := runner.Run(ops, "", nil)
					if err != txn.ErrAborted {
						c.Check(err, IsNil)
					}
				}
			}(i, r)
		}
		wg.Wait()
	}
}
Exemplo n.º 3
0
func (s *S) SetUpTest(c *C) {
	txn.SetChaos(txn.Chaos{})
	txn.SetLogger(c)
	txn.SetDebug(true)
	s.MgoSuite.SetUpTest(c)

	s.db = s.session.DB("test")
	s.tc = s.db.C("tc")
	s.sc = s.db.C("tc.stash")
	s.accounts = s.db.C("accounts")
	s.runner = txn.NewRunner(s.tc)
}
Exemplo n.º 4
0
func (s *S) TestQueueStashing(c *C) {
	txn.SetChaos(txn.Chaos{
		KillChance: 1,
		Breakpoint: "set-applying",
	})

	opses := [][]txn.Op{{{
		C:      "accounts",
		Id:     0,
		Insert: M{"balance": 100},
	}}, {{
		C:      "accounts",
		Id:     0,
		Remove: true,
	}}, {{
		C:      "accounts",
		Id:     0,
		Insert: M{"balance": 200},
	}}, {{
		C:      "accounts",
		Id:     0,
		Update: M{"$inc": M{"balance": 100}},
	}}}

	var last bson.ObjectId
	for _, ops := range opses {
		last = bson.NewObjectId()
		err := s.runner.Run(ops, last, nil)
		c.Assert(err, Equals, txn.ErrChaos)
	}

	txn.SetChaos(txn.Chaos{})
	err := s.runner.Resume(last)
	c.Assert(err, IsNil)

	var account Account
	err = s.accounts.FindId(0).One(&account)
	c.Assert(err, IsNil)
	c.Assert(account.Balance, Equals, 300)
}
Exemplo n.º 5
0
func (s *S) TestTxnQueueStressTest(c *C) {
	txn.SetChaos(txn.Chaos{
		SlowdownChance: 0.3,
		Slowdown:       50 * time.Millisecond,
	})
	defer txn.SetChaos(txn.Chaos{})

	// So we can run more iterations of the test in less time.
	txn.SetDebug(false)

	err := s.accounts.Insert(M{"_id": 0, "balance": 0}, M{"_id": 1, "balance": 0})
	c.Assert(err, IsNil)

	// Run half of the operations changing account 0 and then 1,
	// and the other half in the opposite order.
	ops01 := []txn.Op{{
		C:      "accounts",
		Id:     0,
		Update: M{"$inc": M{"balance": 1}},
	}, {
		C:      "accounts",
		Id:     1,
		Update: M{"$inc": M{"balance": 1}},
	}}

	ops10 := []txn.Op{{
		C:      "accounts",
		Id:     1,
		Update: M{"$inc": M{"balance": 1}},
	}, {
		C:      "accounts",
		Id:     0,
		Update: M{"$inc": M{"balance": 1}},
	}}

	ops := [][]txn.Op{ops01, ops10}

	const runners = 4
	const changes = 1000

	var wg sync.WaitGroup
	wg.Add(runners)
	for n := 0; n < runners; n++ {
		n := n
		go func() {
			defer wg.Done()
			for i := 0; i < changes; i++ {
				err = s.runner.Run(ops[n%2], "", nil)
				c.Assert(err, IsNil)
			}
		}()
	}
	wg.Wait()

	for id := 0; id < 2; id++ {
		var account Account
		err = s.accounts.FindId(id).One(&account)
		if account.Balance != runners*changes {
			c.Errorf("Account should have balance of %d, got %d", runners*changes, account.Balance)
		}
	}
}
Exemplo n.º 6
0
func (s *S) TestPurgeMissing(c *C) {
	txn.SetChaos(txn.Chaos{
		KillChance: 1,
		Breakpoint: "set-applying",
	})

	err := s.accounts.Insert(M{"_id": 0, "balance": 100})
	c.Assert(err, IsNil)
	err = s.accounts.Insert(M{"_id": 1, "balance": 100})
	c.Assert(err, IsNil)

	ops1 := []txn.Op{{
		C:      "accounts",
		Id:     3,
		Insert: M{"balance": 100},
	}}

	ops2 := []txn.Op{{
		C:      "accounts",
		Id:     0,
		Remove: true,
	}, {
		C:      "accounts",
		Id:     1,
		Update: M{"$inc": M{"balance": 100}},
	}, {
		C:      "accounts",
		Id:     2,
		Insert: M{"balance": 100},
	}}

	first := bson.NewObjectId()
	c.Logf("---- Running ops1 under transaction %q, to be canceled by chaos", first.Hex())
	err = s.runner.Run(ops1, first, nil)
	c.Assert(err, Equals, txn.ErrChaos)

	last := bson.NewObjectId()
	c.Logf("---- Running ops2 under transaction %q, to be canceled by chaos", last.Hex())
	err = s.runner.Run(ops2, last, nil)
	c.Assert(err, Equals, txn.ErrChaos)

	c.Logf("---- Removing transaction %q", last.Hex())
	err = s.tc.RemoveId(last)
	c.Assert(err, IsNil)

	c.Logf("---- Disabling chaos and attempting to resume all")
	txn.SetChaos(txn.Chaos{})
	err = s.runner.ResumeAll()
	c.Assert(err, IsNil)

	again := bson.NewObjectId()
	c.Logf("---- Running ops2 again under transaction %q, to fail for missing transaction", again.Hex())
	err = s.runner.Run(ops2, again, nil)
	c.Assert(err, ErrorMatches, "cannot find transaction .*")

	c.Logf("---- Purging missing transactions")
	err = s.runner.PurgeMissing("accounts")
	c.Assert(err, IsNil)

	c.Logf("---- Resuming pending transactions")
	err = s.runner.ResumeAll()
	c.Assert(err, IsNil)

	expect := []struct{ Id, Balance int }{
		{0, -1},
		{1, 200},
		{2, 100},
		{3, 100},
	}
	var got Account
	for _, want := range expect {
		err = s.accounts.FindId(want.Id).One(&got)
		if want.Balance == -1 {
			if err != mgo.ErrNotFound {
				c.Errorf("Account %d should not exist, find got err=%#v", err)
			}
		} else if err != nil {
			c.Errorf("Account %d should have balance of %d, but wasn't found", want.Id, want.Balance)
		} else if got.Balance != want.Balance {
			c.Errorf("Account %d should have balance of %d, got %d", want.Id, want.Balance, got.Balance)
		}
	}
}
Exemplo n.º 7
0
func simulate(c *C, params params) {
	seed := *seed
	if seed == 0 {
		seed = time.Now().UnixNano()
	}
	rand.Seed(seed)
	c.Logf("Seed: %v", seed)

	txn.SetChaos(txn.Chaos{
		KillChance:     params.killChance,
		SlowdownChance: params.slowdownChance,
		Slowdown:       params.slowdown,
	})
	defer txn.SetChaos(txn.Chaos{})

	session, err := mgo.Dial(mgoaddr)
	c.Assert(err, IsNil)
	defer session.Close()

	db := session.DB("test")
	tc := db.C("tc")

	runner := txn.NewRunner(tc)

	tclog := db.C("tc.log")
	if params.changelog {
		info := mgo.CollectionInfo{
			Capped:   true,
			MaxBytes: 1000000,
		}
		err := tclog.Create(&info)
		c.Assert(err, IsNil)
		runner.ChangeLog(tclog)
	}

	accounts := db.C("accounts")
	for i := 0; i < params.accounts; i++ {
		err := accounts.Insert(M{"_id": i, "balance": 300})
		c.Assert(err, IsNil)
	}
	var stop time.Time
	if params.changes <= 0 {
		stop = time.Now().Add(*duration)
	}

	max := params.accounts
	if params.reinsertCopy || params.reinsertZeroed {
		max = int(float64(params.accounts) * 1.5)
	}

	changes := make(chan balanceChange, 1024)

	//session.SetMode(mgo.Eventual, true)
	for i := 0; i < params.workers; i++ {
		go func() {
			n := 0
			for {
				if n > 0 && n == params.changes {
					break
				}
				if !stop.IsZero() && time.Now().After(stop) {
					break
				}

				change := balanceChange{
					id:     bson.NewObjectId(),
					origin: rand.Intn(max),
					target: rand.Intn(max),
					amount: 100,
				}

				var old Account
				var oldExists bool
				if params.reinsertCopy || params.reinsertZeroed {
					if err := accounts.FindId(change.origin).One(&old); err != mgo.ErrNotFound {
						c.Check(err, IsNil)
						change.amount = old.Balance
						oldExists = true
					}
				}

				var ops []txn.Op
				switch {
				case params.reinsertCopy && oldExists:
					ops = []txn.Op{{
						C:      "accounts",
						Id:     change.origin,
						Assert: M{"balance": change.amount},
						Remove: true,
					}, {
						C:      "accounts",
						Id:     change.target,
						Assert: txn.DocMissing,
						Insert: M{"balance": change.amount},
					}}
				case params.reinsertZeroed && oldExists:
					ops = []txn.Op{{
						C:      "accounts",
						Id:     change.target,
						Assert: txn.DocMissing,
						Insert: M{"balance": 0},
					}, {
						C:      "accounts",
						Id:     change.origin,
						Assert: M{"balance": change.amount},
						Remove: true,
					}, {
						C:      "accounts",
						Id:     change.target,
						Assert: txn.DocExists,
						Update: M{"$inc": M{"balance": change.amount}},
					}}
				case params.changeHalf:
					ops = []txn.Op{{
						C:      "accounts",
						Id:     change.origin,
						Assert: M{"balance": M{"$gte": change.amount}},
						Update: M{"$inc": M{"balance": -change.amount / 2}},
					}, {
						C:      "accounts",
						Id:     change.target,
						Assert: txn.DocExists,
						Update: M{"$inc": M{"balance": change.amount / 2}},
					}, {
						C:      "accounts",
						Id:     change.origin,
						Update: M{"$inc": M{"balance": -change.amount / 2}},
					}, {
						C:      "accounts",
						Id:     change.target,
						Update: M{"$inc": M{"balance": change.amount / 2}},
					}}
				default:
					ops = []txn.Op{{
						C:      "accounts",
						Id:     change.origin,
						Assert: M{"balance": M{"$gte": change.amount}},
						Update: M{"$inc": M{"balance": -change.amount}},
					}, {
						C:      "accounts",
						Id:     change.target,
						Assert: txn.DocExists,
						Update: M{"$inc": M{"balance": change.amount}},
					}}
				}

				err = runner.Run(ops, change.id, nil)
				if err != nil && err != txn.ErrAborted && err != txn.ErrChaos {
					c.Check(err, IsNil)
				}
				n++
				changes <- change
			}
			changes <- balanceChange{}
		}()
	}

	alive := params.workers
	changeLog := make([]balanceChange, 0, 1024)
	for alive > 0 {
		change := <-changes
		if change.id == "" {
			alive--
		} else {
			changeLog = append(changeLog, change)
		}
	}
	c.Check(len(changeLog), Not(Equals), 0, Commentf("No operations were even attempted."))

	txn.SetChaos(txn.Chaos{})
	err = runner.ResumeAll()
	c.Assert(err, IsNil)

	n, err := accounts.Count()
	c.Check(err, IsNil)
	c.Check(n, Equals, params.accounts, Commentf("Number of accounts has changed."))

	n, err = accounts.Find(M{"balance": M{"$lt": 0}}).Count()
	c.Check(err, IsNil)
	c.Check(n, Equals, 0, Commentf("There are %d accounts with negative balance.", n))

	globalBalance := 0
	iter := accounts.Find(nil).Iter()
	account := Account{}
	for iter.Next(&account) {
		globalBalance += account.Balance
	}
	c.Check(iter.Close(), IsNil)
	c.Check(globalBalance, Equals, params.accounts*300, Commentf("Total amount of money should be constant."))

	// Compute and verify the exact final state of all accounts.
	balance := make(map[int]int)
	for i := 0; i < params.accounts; i++ {
		balance[i] += 300
	}
	var applied, aborted int
	for _, change := range changeLog {
		err := runner.Resume(change.id)
		if err == txn.ErrAborted {
			aborted++
			continue
		} else if err != nil {
			c.Fatalf("resuming %s failed: %v", change.id, err)
		}
		balance[change.origin] -= change.amount
		balance[change.target] += change.amount
		applied++
	}
	iter = accounts.Find(nil).Iter()
	for iter.Next(&account) {
		c.Assert(account.Balance, Equals, balance[account.Id])
	}
	c.Check(iter.Close(), IsNil)
	c.Logf("Total transactions: %d (%d applied, %d aborted)", len(changeLog), applied, aborted)

	if params.changelog {
		n, err := tclog.Count()
		c.Assert(err, IsNil)
		// Check if the capped collection is full.
		dummy := make([]byte, 1024)
		tclog.Insert(M{"_id": bson.NewObjectId(), "dummy": dummy})
		m, err := tclog.Count()
		c.Assert(err, IsNil)
		if m == n+1 {
			// Wasn't full, so it must have seen it all.
			c.Assert(err, IsNil)
			c.Assert(n, Equals, applied)
		}
	}
}