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