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semaphore.go
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semaphore.go
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package api
import (
"encoding/json"
"fmt"
"path"
"sync"
"time"
)
const (
// DefaultSemaphoreSessionName is the Session Name we assign if none is provided
DefaultSemaphoreSessionName = "Consul API Semaphore"
// DefaultSemaphoreSessionTTL is the default session TTL if no Session is provided
// when creating a new Semaphore. This is used because we do not have another
// other check to depend upon.
DefaultSemaphoreSessionTTL = "15s"
// DefaultSemaphoreWaitTime is how long we block for at a time to check if semaphore
// acquisition is possible. This affects the minimum time it takes to cancel
// a Semaphore acquisition.
DefaultSemaphoreWaitTime = 15 * time.Second
// DefaultSemaphoreKey is the key used within the prefix to
// use for coordination between all the contenders.
DefaultSemaphoreKey = ".lock"
// SemaphoreFlagValue is a magic flag we set to indicate a key
// is being used for a semaphore. It is used to detect a potential
// conflict with a lock.
SemaphoreFlagValue = 0xe0f69a2baa414de0
)
var (
// ErrSemaphoreHeld is returned if we attempt to double lock
ErrSemaphoreHeld = fmt.Errorf("Semaphore already held")
// ErrSemaphoreNotHeld is returned if we attempt to unlock a semaphore
// that we do not hold.
ErrSemaphoreNotHeld = fmt.Errorf("Semaphore not held")
// ErrSemaphoreInUse is returned if we attempt to destroy a semaphore
// that is in use.
ErrSemaphoreInUse = fmt.Errorf("Semaphore in use")
// ErrSemaphoreConflict is returned if the flags on a key
// used for a semaphore do not match expectation
ErrSemaphoreConflict = fmt.Errorf("Existing key does not match semaphore use")
)
// Semaphore is used to implement a distributed semaphore
// using the Consul KV primitives.
type Semaphore struct {
c *Client
opts *SemaphoreOptions
isHeld bool
sessionRenew chan struct{}
lockSession string
l sync.Mutex
}
// SemaphoreOptions is used to parameterize the Semaphore
type SemaphoreOptions struct {
Prefix string // Must be set and have write permissions
Limit int // Must be set, and be positive
Value []byte // Optional, value to associate with the contender entry
Session string // Optional, created if not specified
SessionName string // Optional, defaults to DefaultLockSessionName
SessionTTL string // Optional, defaults to DefaultLockSessionTTL
MonitorRetries int // Optional, defaults to 0 which means no retries
MonitorRetryTime time.Duration // Optional, defaults to DefaultMonitorRetryTime
SemaphoreWaitTime time.Duration // Optional, defaults to DefaultSemaphoreWaitTime
SemaphoreTryOnce bool // Optional, defaults to false which means try forever
}
// semaphoreLock is written under the DefaultSemaphoreKey and
// is used to coordinate between all the contenders.
type semaphoreLock struct {
// Limit is the integer limit of holders. This is used to
// verify that all the holders agree on the value.
Limit int
// Holders is a list of all the semaphore holders.
// It maps the session ID to true. It is used as a set effectively.
Holders map[string]bool
}
// SemaphorePrefix is used to created a Semaphore which will operate
// at the given KV prefix and uses the given limit for the semaphore.
// The prefix must have write privileges, and the limit must be agreed
// upon by all contenders.
func (c *Client) SemaphorePrefix(prefix string, limit int) (*Semaphore, error) {
opts := &SemaphoreOptions{
Prefix: prefix,
Limit: limit,
}
return c.SemaphoreOpts(opts)
}
// SemaphoreOpts is used to create a Semaphore with the given options.
// The prefix must have write privileges, and the limit must be agreed
// upon by all contenders. If a Session is not provided, one will be created.
func (c *Client) SemaphoreOpts(opts *SemaphoreOptions) (*Semaphore, error) {
if opts.Prefix == "" {
return nil, fmt.Errorf("missing prefix")
}
if opts.Limit <= 0 {
return nil, fmt.Errorf("semaphore limit must be positive")
}
if opts.SessionName == "" {
opts.SessionName = DefaultSemaphoreSessionName
}
if opts.SessionTTL == "" {
opts.SessionTTL = DefaultSemaphoreSessionTTL
} else {
if _, err := time.ParseDuration(opts.SessionTTL); err != nil {
return nil, fmt.Errorf("invalid SessionTTL: %v", err)
}
}
if opts.MonitorRetryTime == 0 {
opts.MonitorRetryTime = DefaultMonitorRetryTime
}
if opts.SemaphoreWaitTime == 0 {
opts.SemaphoreWaitTime = DefaultSemaphoreWaitTime
}
s := &Semaphore{
c: c,
opts: opts,
}
return s, nil
}
// Acquire attempts to reserve a slot in the semaphore, blocking until
// success, interrupted via the stopCh or an error is encountered.
// Providing a non-nil stopCh can be used to abort the attempt.
// On success, a channel is returned that represents our slot.
// This channel could be closed at any time due to session invalidation,
// communication errors, operator intervention, etc. It is NOT safe to
// assume that the slot is held until Release() unless the Session is specifically
// created without any associated health checks. By default Consul sessions
// prefer liveness over safety and an application must be able to handle
// the session being lost.
func (s *Semaphore) Acquire(stopCh <-chan struct{}) (<-chan struct{}, error) {
// Hold the lock as we try to acquire
s.l.Lock()
defer s.l.Unlock()
// Check if we already hold the semaphore
if s.isHeld {
return nil, ErrSemaphoreHeld
}
// Check if we need to create a session first
s.lockSession = s.opts.Session
if s.lockSession == "" {
sess, err := s.createSession()
if err != nil {
return nil, fmt.Errorf("failed to create session: %v", err)
}
s.sessionRenew = make(chan struct{})
s.lockSession = sess
session := s.c.Session()
go session.RenewPeriodic(s.opts.SessionTTL, sess, nil, s.sessionRenew)
// If we fail to acquire the lock, cleanup the session
defer func() {
if !s.isHeld {
close(s.sessionRenew)
s.sessionRenew = nil
}
}()
}
// Create the contender entry
kv := s.c.KV()
made, _, err := kv.Acquire(s.contenderEntry(s.lockSession), nil)
if err != nil || !made {
return nil, fmt.Errorf("failed to make contender entry: %v", err)
}
// Setup the query options
qOpts := &QueryOptions{
WaitTime: s.opts.SemaphoreWaitTime,
}
start := time.Now()
attempts := 0
WAIT:
// Check if we should quit
select {
case <-stopCh:
return nil, nil
default:
}
// Handle the one-shot mode.
if s.opts.SemaphoreTryOnce && attempts > 0 {
elapsed := time.Now().Sub(start)
if elapsed > qOpts.WaitTime {
return nil, nil
}
qOpts.WaitTime -= elapsed
}
attempts++
// Read the prefix
pairs, meta, err := kv.List(s.opts.Prefix, qOpts)
if err != nil {
return nil, fmt.Errorf("failed to read prefix: %v", err)
}
// Decode the lock
lockPair := s.findLock(pairs)
if lockPair.Flags != SemaphoreFlagValue {
return nil, ErrSemaphoreConflict
}
lock, err := s.decodeLock(lockPair)
if err != nil {
return nil, err
}
// Verify we agree with the limit
if lock.Limit != s.opts.Limit {
return nil, fmt.Errorf("semaphore limit conflict (lock: %d, local: %d)",
lock.Limit, s.opts.Limit)
}
// Prune the dead holders
s.pruneDeadHolders(lock, pairs)
// Check if the lock is held
if len(lock.Holders) >= lock.Limit {
qOpts.WaitIndex = meta.LastIndex
goto WAIT
}
// Create a new lock with us as a holder
lock.Holders[s.lockSession] = true
newLock, err := s.encodeLock(lock, lockPair.ModifyIndex)
if err != nil {
return nil, err
}
// Attempt the acquisition
didSet, _, err := kv.CAS(newLock, nil)
if err != nil {
return nil, fmt.Errorf("failed to update lock: %v", err)
}
if !didSet {
// Update failed, could have been a race with another contender,
// retry the operation
goto WAIT
}
// Watch to ensure we maintain ownership of the slot
lockCh := make(chan struct{})
go s.monitorLock(s.lockSession, lockCh)
// Set that we own the lock
s.isHeld = true
// Acquired! All done
return lockCh, nil
}
// Release is used to voluntarily give up our semaphore slot. It is
// an error to call this if the semaphore has not been acquired.
func (s *Semaphore) Release() error {
// Hold the lock as we try to release
s.l.Lock()
defer s.l.Unlock()
// Ensure the lock is actually held
if !s.isHeld {
return ErrSemaphoreNotHeld
}
// Set that we no longer own the lock
s.isHeld = false
// Stop the session renew
if s.sessionRenew != nil {
defer func() {
close(s.sessionRenew)
s.sessionRenew = nil
}()
}
// Get and clear the lock session
lockSession := s.lockSession
s.lockSession = ""
// Remove ourselves as a lock holder
kv := s.c.KV()
key := path.Join(s.opts.Prefix, DefaultSemaphoreKey)
READ:
pair, _, err := kv.Get(key, nil)
if err != nil {
return err
}
if pair == nil {
pair = &KVPair{}
}
lock, err := s.decodeLock(pair)
if err != nil {
return err
}
// Create a new lock without us as a holder
if _, ok := lock.Holders[lockSession]; ok {
delete(lock.Holders, lockSession)
newLock, err := s.encodeLock(lock, pair.ModifyIndex)
if err != nil {
return err
}
// Swap the locks
didSet, _, err := kv.CAS(newLock, nil)
if err != nil {
return fmt.Errorf("failed to update lock: %v", err)
}
if !didSet {
goto READ
}
}
// Destroy the contender entry
contenderKey := path.Join(s.opts.Prefix, lockSession)
if _, err := kv.Delete(contenderKey, nil); err != nil {
return err
}
return nil
}
// Destroy is used to cleanup the semaphore entry. It is not necessary
// to invoke. It will fail if the semaphore is in use.
func (s *Semaphore) Destroy() error {
// Hold the lock as we try to acquire
s.l.Lock()
defer s.l.Unlock()
// Check if we already hold the semaphore
if s.isHeld {
return ErrSemaphoreHeld
}
// List for the semaphore
kv := s.c.KV()
pairs, _, err := kv.List(s.opts.Prefix, nil)
if err != nil {
return fmt.Errorf("failed to read prefix: %v", err)
}
// Find the lock pair, bail if it doesn't exist
lockPair := s.findLock(pairs)
if lockPair.ModifyIndex == 0 {
return nil
}
if lockPair.Flags != SemaphoreFlagValue {
return ErrSemaphoreConflict
}
// Decode the lock
lock, err := s.decodeLock(lockPair)
if err != nil {
return err
}
// Prune the dead holders
s.pruneDeadHolders(lock, pairs)
// Check if there are any holders
if len(lock.Holders) > 0 {
return ErrSemaphoreInUse
}
// Attempt the delete
didRemove, _, err := kv.DeleteCAS(lockPair, nil)
if err != nil {
return fmt.Errorf("failed to remove semaphore: %v", err)
}
if !didRemove {
return ErrSemaphoreInUse
}
return nil
}
// createSession is used to create a new managed session
func (s *Semaphore) createSession() (string, error) {
session := s.c.Session()
se := &SessionEntry{
Name: s.opts.SessionName,
TTL: s.opts.SessionTTL,
Behavior: SessionBehaviorDelete,
}
id, _, err := session.Create(se, nil)
if err != nil {
return "", err
}
return id, nil
}
// contenderEntry returns a formatted KVPair for the contender
func (s *Semaphore) contenderEntry(session string) *KVPair {
return &KVPair{
Key: path.Join(s.opts.Prefix, session),
Value: s.opts.Value,
Session: session,
Flags: SemaphoreFlagValue,
}
}
// findLock is used to find the KV Pair which is used for coordination
func (s *Semaphore) findLock(pairs KVPairs) *KVPair {
key := path.Join(s.opts.Prefix, DefaultSemaphoreKey)
for _, pair := range pairs {
if pair.Key == key {
return pair
}
}
return &KVPair{Flags: SemaphoreFlagValue}
}
// decodeLock is used to decode a semaphoreLock from an
// entry in Consul
func (s *Semaphore) decodeLock(pair *KVPair) (*semaphoreLock, error) {
// Handle if there is no lock
if pair == nil || pair.Value == nil {
return &semaphoreLock{
Limit: s.opts.Limit,
Holders: make(map[string]bool),
}, nil
}
l := &semaphoreLock{}
if err := json.Unmarshal(pair.Value, l); err != nil {
return nil, fmt.Errorf("lock decoding failed: %v", err)
}
return l, nil
}
// encodeLock is used to encode a semaphoreLock into a KVPair
// that can be PUT
func (s *Semaphore) encodeLock(l *semaphoreLock, oldIndex uint64) (*KVPair, error) {
enc, err := json.Marshal(l)
if err != nil {
return nil, fmt.Errorf("lock encoding failed: %v", err)
}
pair := &KVPair{
Key: path.Join(s.opts.Prefix, DefaultSemaphoreKey),
Value: enc,
Flags: SemaphoreFlagValue,
ModifyIndex: oldIndex,
}
return pair, nil
}
// pruneDeadHolders is used to remove all the dead lock holders
func (s *Semaphore) pruneDeadHolders(lock *semaphoreLock, pairs KVPairs) {
// Gather all the live holders
alive := make(map[string]struct{}, len(pairs))
for _, pair := range pairs {
if pair.Session != "" {
alive[pair.Session] = struct{}{}
}
}
// Remove any holders that are dead
for holder := range lock.Holders {
if _, ok := alive[holder]; !ok {
delete(lock.Holders, holder)
}
}
}
// monitorLock is a long running routine to monitor a semaphore ownership
// It closes the stopCh if we lose our slot.
func (s *Semaphore) monitorLock(session string, stopCh chan struct{}) {
defer close(stopCh)
kv := s.c.KV()
opts := &QueryOptions{RequireConsistent: true}
WAIT:
retries := s.opts.MonitorRetries
RETRY:
pairs, meta, err := kv.List(s.opts.Prefix, opts)
if err != nil {
// If configured we can try to ride out a brief Consul unavailability
// by doing retries. Note that we have to attempt the retry in a non-
// blocking fashion so that we have a clean place to reset the retry
// counter if service is restored.
if retries > 0 && IsRetryableError(err) {
time.Sleep(s.opts.MonitorRetryTime)
retries--
opts.WaitIndex = 0
goto RETRY
}
return
}
lockPair := s.findLock(pairs)
lock, err := s.decodeLock(lockPair)
if err != nil {
return
}
s.pruneDeadHolders(lock, pairs)
if _, ok := lock.Holders[session]; ok {
opts.WaitIndex = meta.LastIndex
goto WAIT
}
}