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fe157166ca
Context timeout might race on each other when timeouts are lower i.e when two lock attempts happened very quickly on the same resource and the servers were yet trying to establish quorum. This situation can lead to locks held which wouldn't be unlocked and subsequent lock attempts would fail. This would require a complete server restart. A potential of this issue happening is when server is booting up and we are trying to hold a 'transaction.lock' in quick bursts of timeout.
423 lines
12 KiB
Go
423 lines
12 KiB
Go
/*
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* Minio Cloud Storage, (C) 2016 Minio, Inc.
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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package dsync
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import (
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"context"
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"errors"
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"math/rand"
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"os"
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"sync"
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"time"
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"github.com/minio/minio/pkg/console"
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"github.com/minio/minio/pkg/retry"
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)
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// Indicator if logging is enabled.
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var dsyncLog bool
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func init() {
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// Check for MINIO_DSYNC_TRACE env variable, if set logging will be enabled for failed REST operations.
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dsyncLog = os.Getenv("MINIO_DSYNC_TRACE") == "1"
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rand.Seed(time.Now().UnixNano())
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}
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func log(format string, data ...interface{}) {
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if dsyncLog {
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console.Printf(format, data...)
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}
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}
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// DRWMutexAcquireTimeout - tolerance limit to wait for lock acquisition before.
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const DRWMutexAcquireTimeout = 1 * time.Second // 1 second.
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const drwMutexInfinite = time.Duration(1<<63 - 1)
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// A DRWMutex is a distributed mutual exclusion lock.
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type DRWMutex struct {
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Names []string
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writeLocks []string // Array of nodes that granted a write lock
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readersLocks [][]string // Array of array of nodes that granted reader locks
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m sync.Mutex // Mutex to prevent multiple simultaneous locks from this node
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clnt *Dsync
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}
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// Granted - represents a structure of a granted lock.
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type Granted struct {
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index int
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lockUID string // Locked if set with UID string, unlocked if empty
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}
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func (g *Granted) isLocked() bool {
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return isLocked(g.lockUID)
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}
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func isLocked(uid string) bool {
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return len(uid) > 0
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}
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// NewDRWMutex - initializes a new dsync RW mutex.
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func NewDRWMutex(clnt *Dsync, names ...string) *DRWMutex {
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return &DRWMutex{
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writeLocks: make([]string, len(clnt.GetLockersFn())),
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Names: names,
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clnt: clnt,
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}
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}
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// Lock holds a write lock on dm.
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//
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// If the lock is already in use, the calling go routine
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// blocks until the mutex is available.
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func (dm *DRWMutex) Lock(id, source string) {
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isReadLock := false
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dm.lockBlocking(context.Background(), drwMutexInfinite, id, source, isReadLock)
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}
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// GetLock tries to get a write lock on dm before the timeout elapses.
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//
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// If the lock is already in use, the calling go routine
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// blocks until either the mutex becomes available and return success or
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// more time has passed than the timeout value and return false.
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func (dm *DRWMutex) GetLock(ctx context.Context, id, source string, timeout time.Duration) (locked bool) {
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isReadLock := false
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return dm.lockBlocking(ctx, timeout, id, source, isReadLock)
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}
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// RLock holds a read lock on dm.
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//
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// If one or more read locks are already in use, it will grant another lock.
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// Otherwise the calling go routine blocks until the mutex is available.
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func (dm *DRWMutex) RLock(id, source string) {
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isReadLock := true
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dm.lockBlocking(context.Background(), drwMutexInfinite, id, source, isReadLock)
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}
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// GetRLock tries to get a read lock on dm before the timeout elapses.
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//
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// If one or more read locks are already in use, it will grant another lock.
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// Otherwise the calling go routine blocks until either the mutex becomes
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// available and return success or more time has passed than the timeout
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// value and return false.
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func (dm *DRWMutex) GetRLock(ctx context.Context, id, source string, timeout time.Duration) (locked bool) {
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isReadLock := true
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return dm.lockBlocking(ctx, timeout, id, source, isReadLock)
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}
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// lockBlocking will try to acquire either a read or a write lock
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//
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// The function will loop using a built-in timing randomized back-off
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// algorithm until either the lock is acquired successfully or more
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// time has elapsed than the timeout value.
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func (dm *DRWMutex) lockBlocking(ctx context.Context, timeout time.Duration, id, source string, isReadLock bool) (locked bool) {
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restClnts := dm.clnt.GetLockersFn()
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retryCtx, cancel := context.WithTimeout(ctx, timeout)
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defer cancel()
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// Use incremental back-off algorithm for repeated attempts to acquire the lock
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for range retry.NewTimer(retryCtx) {
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// Create temp array on stack.
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locks := make([]string, len(restClnts))
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// Try to acquire the lock.
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locked = lock(retryCtx, dm.clnt, &locks, id, source, isReadLock, dm.Names...)
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if !locked {
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continue
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}
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dm.m.Lock()
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// If success, copy array to object
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if isReadLock {
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// Append new array of strings at the end
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dm.readersLocks = append(dm.readersLocks, make([]string, len(restClnts)))
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// and copy stack array into last spot
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copy(dm.readersLocks[len(dm.readersLocks)-1], locks[:])
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} else {
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copy(dm.writeLocks, locks[:])
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}
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dm.m.Unlock()
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return locked
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}
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// Failed to acquire the lock on this attempt, incrementally wait
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// for a longer back-off time and try again afterwards.
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return locked
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}
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// lock tries to acquire the distributed lock, returning true or false.
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func lock(ctx context.Context, ds *Dsync, locks *[]string, id, source string, isReadLock bool, lockNames ...string) bool {
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restClnts := ds.GetLockersFn()
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// Create buffered channel of size equal to total number of nodes.
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ch := make(chan Granted, len(restClnts))
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defer close(ch)
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var wg sync.WaitGroup
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for index, c := range restClnts {
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wg.Add(1)
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// broadcast lock request to all nodes
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go func(index int, isReadLock bool, c NetLocker) {
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defer wg.Done()
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g := Granted{index: index}
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if c == nil {
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log("dsync: nil locker")
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ch <- g
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return
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}
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args := LockArgs{
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UID: id,
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Resources: lockNames,
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Source: source,
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}
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var locked bool
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var err error
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if isReadLock {
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if locked, err = c.RLock(ctx, args); err != nil {
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log("dsync: Unable to call RLock failed with %s for %#v at %s\n", err, args, c)
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}
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} else {
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if locked, err = c.Lock(ctx, args); err != nil {
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log("dsync: Unable to call Lock failed with %s for %#v at %s\n", err, args, c)
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}
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}
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if locked {
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g.lockUID = args.UID
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}
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ch <- g
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}(index, isReadLock, c)
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}
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quorum := false
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wg.Add(1)
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go func(isReadLock bool) {
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// Wait until we have either
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//
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// a) received all lock responses
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// b) received too many 'non-'locks for quorum to be still possible
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// c) timedout
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//
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i, locksFailed := 0, 0
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done := false
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timeout := time.After(DRWMutexAcquireTimeout)
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dquorumReads := (len(restClnts) + 1) / 2
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dquorum := dquorumReads + 1
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for ; i < len(restClnts); i++ { // Loop until we acquired all locks
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select {
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case grant := <-ch:
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if grant.isLocked() {
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// Mark that this node has acquired the lock
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(*locks)[grant.index] = grant.lockUID
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} else {
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locksFailed++
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if !isReadLock && locksFailed > len(restClnts)-dquorum ||
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isReadLock && locksFailed > len(restClnts)-dquorumReads {
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// We know that we are not going to get the lock anymore,
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// so exit out and release any locks that did get acquired
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done = true
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// Increment the number of grants received from the buffered channel.
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i++
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releaseAll(ds, locks, isReadLock, restClnts, lockNames...)
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}
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}
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case <-timeout:
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done = true
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// timeout happened, maybe one of the nodes is slow, count
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// number of locks to check whether we have quorum or not
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if !quorumMet(locks, isReadLock, dquorum, dquorumReads) {
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log("Quorum not met after timeout\n")
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releaseAll(ds, locks, isReadLock, restClnts, lockNames...)
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} else {
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log("Quorum met after timeout\n")
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}
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}
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if done {
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break
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}
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}
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// Count locks in order to determine whether we have quorum or not
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quorum = quorumMet(locks, isReadLock, dquorum, dquorumReads)
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// Signal that we have the quorum
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wg.Done()
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// Wait for the other responses and immediately release the locks
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// (do not add them to the locks array because the DRWMutex could
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// already has been unlocked again by the original calling thread)
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for ; i < len(restClnts); i++ {
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grantToBeReleased := <-ch
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if grantToBeReleased.isLocked() {
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// release lock
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sendRelease(ds, restClnts[grantToBeReleased.index],
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grantToBeReleased.lockUID, isReadLock, lockNames...)
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}
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}
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}(isReadLock)
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wg.Wait()
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return quorum
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}
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// quorumMet determines whether we have acquired the required quorum of underlying locks or not
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func quorumMet(locks *[]string, isReadLock bool, quorum, quorumReads int) bool {
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count := 0
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for _, uid := range *locks {
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if isLocked(uid) {
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count++
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}
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}
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var metQuorum bool
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if isReadLock {
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metQuorum = count >= quorumReads
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} else {
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metQuorum = count >= quorum
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}
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return metQuorum
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}
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// releaseAll releases all locks that are marked as locked
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func releaseAll(ds *Dsync, locks *[]string, isReadLock bool, restClnts []NetLocker, lockNames ...string) {
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for lock := range restClnts {
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if isLocked((*locks)[lock]) {
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sendRelease(ds, restClnts[lock], (*locks)[lock], isReadLock, lockNames...)
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(*locks)[lock] = ""
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}
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}
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}
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// Unlock unlocks the write lock.
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//
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// It is a run-time error if dm is not locked on entry to Unlock.
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func (dm *DRWMutex) Unlock() {
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restClnts := dm.clnt.GetLockersFn()
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// create temp array on stack
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locks := make([]string, len(restClnts))
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{
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dm.m.Lock()
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defer dm.m.Unlock()
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// Check if minimally a single bool is set in the writeLocks array
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lockFound := false
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for _, uid := range dm.writeLocks {
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if isLocked(uid) {
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lockFound = true
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break
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}
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}
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if !lockFound {
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panic("Trying to Unlock() while no Lock() is active")
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}
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// Copy write locks to stack array
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copy(locks, dm.writeLocks[:])
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// Clear write locks array
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dm.writeLocks = make([]string, len(restClnts))
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}
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isReadLock := false
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unlock(dm.clnt, locks, isReadLock, restClnts, dm.Names...)
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}
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// RUnlock releases a read lock held on dm.
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//
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// It is a run-time error if dm is not locked on entry to RUnlock.
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func (dm *DRWMutex) RUnlock() {
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// create temp array on stack
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restClnts := dm.clnt.GetLockersFn()
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locks := make([]string, len(restClnts))
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{
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dm.m.Lock()
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defer dm.m.Unlock()
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if len(dm.readersLocks) == 0 {
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panic("Trying to RUnlock() while no RLock() is active")
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}
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// Copy out first element to release it first (FIFO)
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copy(locks, dm.readersLocks[0][:])
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// Drop first element from array
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dm.readersLocks = dm.readersLocks[1:]
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}
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isReadLock := true
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unlock(dm.clnt, locks, isReadLock, restClnts, dm.Names...)
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}
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func unlock(ds *Dsync, locks []string, isReadLock bool, restClnts []NetLocker, names ...string) {
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// We don't need to synchronously wait until we have released all the locks (or the quorum)
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// (a subsequent lock will retry automatically in case it would fail to get quorum)
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for index, c := range restClnts {
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if isLocked(locks[index]) {
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// broadcast lock release to all nodes that granted the lock
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sendRelease(ds, c, locks[index], isReadLock, names...)
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}
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}
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}
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// sendRelease sends a release message to a node that previously granted a lock
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func sendRelease(ds *Dsync, c NetLocker, uid string, isReadLock bool, names ...string) {
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if c == nil {
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log("Unable to call RUnlock failed with %s\n", errors.New("netLocker is offline"))
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return
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}
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args := LockArgs{
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UID: uid,
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Resources: names,
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}
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if isReadLock {
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if _, err := c.RUnlock(args); err != nil {
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log("dsync: Unable to call RUnlock failed with %s for %#v at %s\n", err, args, c)
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}
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} else {
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if _, err := c.Unlock(args); err != nil {
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log("dsync: Unable to call Unlock failed with %s for %#v at %s\n", err, args, c)
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}
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}
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}
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