Merge branch 'master' into not_exists_anti

pingcap · Oct 9, 2018 · 1a0d399 · 1a0d399 · eurekaka · Oct 9, 2018
2 parents 70463f0 + c19f8fb
commit 1a0d399
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Showing 6 changed files with 211 additions and 98 deletions.
diff --git a/executor/write_test.go b/executor/write_test.go
@@ -1815,8 +1815,7 @@ func (s *testBypassSuite) TestBypassLatch(c *C) {
 
 	// txn1 and txn2 data range do not overlap, but using latches result in txn conflict.
 	fn()
-	_, err = tk1.Exec("commit")
-	c.Assert(err, NotNil)
+	tk1.MustExec("commit")
 
 	tk1.MustExec("truncate table t")
 	fn()

diff --git a/store/tikv/latch/latch.go b/store/tikv/latch/latch.go
@@ -14,6 +14,7 @@
 package latch
 
 import (
+	"bytes"
 	"math/bits"
 	"sort"
 	"sync"
@@ -22,32 +23,26 @@ import (
 	"github.com/spaolacci/murmur3"
 )
 
-// latch stores a key's waiting transactions information.
-type latch struct {
-	// Whether there is any transaction in waitingQueue except head.
-	hasMoreWaiting bool
-	// The startTS of the transaction which is the head of waiting transactions.
-	waitingQueueHead uint64
-	maxCommitTS      uint64
-	sync.Mutex
-}
+type node struct {
+	slotID      int
+	key         []byte
+	maxCommitTS uint64
+	value       *Lock
 
-func (l *latch) isEmpty() bool {
-	return l.waitingQueueHead == 0 && !l.hasMoreWaiting
+	next *node
 }
 
-func (l *latch) free() {
-	l.waitingQueueHead = 0
-}
-
-func (l *latch) refreshCommitTS(commitTS uint64) {
-	l.Lock()
-	defer l.Unlock()
-	l.maxCommitTS = mathutil.MaxUint64(commitTS, l.maxCommitTS)
+// latch stores a key's waiting transactions information.
+type latch struct {
+	queue   *node
+	count   int
+	waiting []*Lock
+	sync.Mutex
 }
 
 // Lock is the locks' information required for a transaction.
 type Lock struct {
+	keys [][]byte
 	// The slot IDs of the latches(keys) that a startTS must acquire before being able to processed.
 	requiredSlots []int
 	// The number of latches that the transaction has acquired. For status is stale, it include the
@@ -96,9 +91,20 @@ func (l *Lock) SetCommitTS(commitTS uint64) {
 // but conceptually a latch is a queue, and a slot is an index to the queue
 type Latches struct {
 	slots []latch
-	// The waiting queue for each slot(slotID => slice of Lock).
-	waitingQueues map[int][]*Lock
-	sync.RWMutex
+}
+
+type bytesSlice [][]byte
+
+func (s bytesSlice) Len() int {
+	return len(s)
+}
+
+func (s bytesSlice) Swap(i, j int) {
+	s[i], s[j] = s[j], s[i]
+}
+
+func (s bytesSlice) Less(i, j int) bool {
+	return bytes.Compare(s[i], s[j]) < 0
 }
 
 // NewLatches create a Latches with fixed length,
@@ -107,14 +113,15 @@ func NewLatches(size uint) *Latches {
 	powerOfTwoSize := 1 << uint32(bits.Len32(uint32(size-1)))
 	slots := make([]latch, powerOfTwoSize)
 	return &Latches{
-		slots:         slots,
-		waitingQueues: make(map[int][]*Lock),
+		slots: slots,
 	}
 }
 
 // genLock generates Lock for the transaction with startTS and keys.
 func (latches *Latches) genLock(startTS uint64, keys [][]byte) *Lock {
+	sort.Sort(bytesSlice(keys))
 	return &Lock{
+		keys:          keys,
 		requiredSlots: latches.genSlotIDs(keys),
 		acquiredCount: 0,
 		startTS:       startTS,
@@ -126,17 +133,7 @@ func (latches *Latches) genSlotIDs(keys [][]byte) []int {
 	for _, key := range keys {
 		slots = append(slots, latches.slotID(key))
 	}
-	sort.Ints(slots)
-	if len(slots) <= 1 {
-		return slots
-	}
-	dedup := slots[:1]
-	for i := 1; i < len(slots); i++ {
-		if slots[i] != slots[i-1] {
-			dedup = append(dedup, slots[i])
-		}
-	}
-	return dedup
+	return slots
 }
 
 // slotID return slotID for current key.
@@ -150,8 +147,7 @@ func (latches *Latches) acquire(lock *Lock) acquireResult {
 		return acquireStale
 	}
 	for lock.acquiredCount < len(lock.requiredSlots) {
-		slotID := lock.requiredSlots[lock.acquiredCount]
-		status := latches.acquireSlot(slotID, lock)
+		status := latches.acquireSlot(lock)
 		if status != acquireSuccess {
 			return status
 		}
@@ -161,75 +157,129 @@ func (latches *Latches) acquire(lock *Lock) acquireResult {
 
 // release releases all latches owned by the `lock` and returns the wakeup list.
 // Preconditions: the caller must ensure the transaction's status is not locked.
-func (latches *Latches) release(lock *Lock, commitTS uint64, wakeupList []*Lock) []*Lock {
+func (latches *Latches) release(lock *Lock, wakeupList []*Lock) []*Lock {
 	wakeupList = wakeupList[:0]
-	for i := 0; i < lock.acquiredCount; i++ {
-		slotID := lock.requiredSlots[i]
-		if nextLock := latches.releaseSlot(slotID, commitTS); nextLock != nil {
+	for lock.acquiredCount > 0 {
+		if nextLock := latches.releaseSlot(lock); nextLock != nil {
 			wakeupList = append(wakeupList, nextLock)
 		}
 	}
 	return wakeupList
 }
 
-// refreshCommitTS refreshes commitTS for keys.
-func (latches *Latches) refreshCommitTS(keys [][]byte, commitTS uint64) {
-	slotIDs := latches.genSlotIDs(keys)
-	for _, slotID := range slotIDs {
-		latches.slots[slotID].refreshCommitTS(commitTS)
-	}
-}
-
-func (latches *Latches) releaseSlot(slotID int, commitTS uint64) (nextLock *Lock) {
+func (latches *Latches) releaseSlot(lock *Lock) (nextLock *Lock) {
+	key := lock.keys[lock.acquiredCount-1]
+	slotID := lock.requiredSlots[lock.acquiredCount-1]
 	latch := &latches.slots[slotID]
+	lock.acquiredCount--
 	latch.Lock()
 	defer latch.Unlock()
-	latch.maxCommitTS = mathutil.MaxUint64(latch.maxCommitTS, commitTS)
-	if !latch.hasMoreWaiting {
-		latch.free()
+
+	find := findNode(latch.queue, key)
+	if find.value != lock {
+		panic("releaseSlot wrong")
+	}
+	find.maxCommitTS = mathutil.MaxUint64(find.maxCommitTS, lock.commitTS)
+	find.value = nil
+	if len(latch.waiting) == 0 {
 		return nil
 	}
-	nextLock, latch.hasMoreWaiting = latches.popFromWaitingQueue(slotID)
-	latch.waitingQueueHead = nextLock.startTS
-	nextLock.acquiredCount++
-	if latch.maxCommitTS > nextLock.startTS {
-		nextLock.isStale = true
+
+	var idx int
+	for idx = 0; idx < len(latch.waiting); idx++ {
+		waiting := latch.waiting[idx]
+		if bytes.Compare(waiting.keys[waiting.acquiredCount], key) == 0 {
+			break
+		}
 	}
-	return nextLock
-}
+	// Wake up the first one in waiting queue.
+	if idx < len(latch.waiting) {
+		nextLock = latch.waiting[idx]
+		// Delete element latch.waiting[idx] from the array.
+		copy(latch.waiting[idx:], latch.waiting[idx+1:])
+		latch.waiting[len(latch.waiting)-1] = nil
+		latch.waiting = latch.waiting[:len(latch.waiting)-1]
 
-func (latches *Latches) popFromWaitingQueue(slotID int) (front *Lock, hasMoreWaiting bool) {
-	latches.Lock()
-	defer latches.Unlock()
-	waiting := latches.waitingQueues[slotID]
-	front = waiting[0]
-	if len(waiting) == 1 {
-		delete(latches.waitingQueues, slotID)
-	} else {
-		latches.waitingQueues[slotID] = waiting[1:]
-		hasMoreWaiting = true
+		if find.maxCommitTS > nextLock.startTS {
+			nextLock.isStale = true
+		}
 	}
+
 	return
 }
 
-func (latches *Latches) acquireSlot(slotID int, lock *Lock) acquireResult {
+func (latches *Latches) acquireSlot(lock *Lock) acquireResult {
+	key := lock.keys[lock.acquiredCount]
+	slotID := lock.requiredSlots[lock.acquiredCount]
 	latch := &latches.slots[slotID]
 	latch.Lock()
 	defer latch.Unlock()
-	if latch.maxCommitTS > lock.startTS {
+
+	// Try to recycle to limit the memory usage.
+	if latch.count >= latchListCount {
+		latch.recycle(lock.startTS)
+	}
+
+	find := findNode(latch.queue, key)
+	if find == nil {
+		tmp := &node{
+			slotID: slotID,
+			key:    key,
+			value:  lock,
+		}
+		tmp.next = latch.queue
+		latch.queue = tmp
+		latch.count++
+
+		lock.acquiredCount++
+		return acquireSuccess
+	}
+
+	if find.maxCommitTS > lock.startTS {
 		lock.isStale = true
 		return acquireStale
 	}
 
-	if latch.isEmpty() {
-		latch.waitingQueueHead = lock.startTS
+	if find.value == nil {
+		find.value = lock
 		lock.acquiredCount++
 		return acquireSuccess
 	}
+
 	// Push the current transaction into waitingQueue.
-	latch.hasMoreWaiting = true
-	latches.Lock()
-	defer latches.Unlock()
-	latches.waitingQueues[slotID] = append(latches.waitingQueues[slotID], lock)
+	latch.waiting = append(latch.waiting, lock)
 	return acquireLocked
 }
+
+// recycle is not thread safe, the latch should acquire its lock before executing this function.
+func (l *latch) recycle(currentTS uint64) {
+	fakeHead := node{next: l.queue}
+	prev := &fakeHead
+	for curr := prev.next; curr != nil; curr = curr.next {
+		if tsoSub(currentTS, curr.maxCommitTS) >= expireDuration && curr.value == nil {
+			l.count--
+			prev.next = curr.next
+		} else {
+			prev = curr
+		}
+	}
+	l.queue = fakeHead.next
+}
+
+func (latches *Latches) recycle(currentTS uint64) {
+	for i := 0; i < len(latches.slots); i++ {
+		latch := &latches.slots[i]
+		latch.Lock()
+		latch.recycle(currentTS)
+		latch.Unlock()
+	}
+}
+
+func findNode(list *node, key []byte) *node {
+	for n := list; n != nil; n = n.next {
+		if bytes.Compare(n.key, key) == 0 {
+			return n
+		}
+	}
+	return nil
+}