// Package memory provides a sync.Mutex implementation of the lock for local use package memory import ( gosync "sync" "time" "github.com/unistack-org/micro/v3/sync" ) type memorySync struct { options sync.Options mtx gosync.RWMutex locks map[string]*memoryLock } type memoryLock struct { id string time time.Time ttl time.Duration release chan bool } type memoryLeader struct { opts sync.LeaderOptions id string resign func(id string) error status chan bool } func (m *memoryLeader) Resign() error { return m.resign(m.id) } func (m *memoryLeader) Status() chan bool { return m.status } func (m *memorySync) Leader(id string, opts ...sync.LeaderOption) (sync.Leader, error) { var once gosync.Once var options sync.LeaderOptions for _, o := range opts { o(&options) } // acquire a lock for the id if err := m.Lock(id); err != nil { return nil, err } // return the leader return &memoryLeader{ opts: options, id: id, resign: func(id string) error { once.Do(func() { m.Unlock(id) }) return nil }, // TODO: signal when Unlock is called status: make(chan bool, 1), }, nil } func (m *memorySync) Init(opts ...sync.Option) error { for _, o := range opts { o(&m.options) } return nil } func (m *memorySync) Options() sync.Options { return m.options } func (m *memorySync) Lock(id string, opts ...sync.LockOption) error { // lock our access m.mtx.Lock() var options sync.LockOptions for _, o := range opts { o(&options) } lk, ok := m.locks[id] if !ok { m.locks[id] = &memoryLock{ id: id, time: time.Now(), ttl: options.TTL, release: make(chan bool), } // unlock m.mtx.Unlock() return nil } m.mtx.Unlock() // set wait time var wait <-chan time.Time var ttl <-chan time.Time // decide if we should wait if options.Wait > time.Duration(0) { wait = time.After(options.Wait) } // check the ttl of the lock if lk.ttl > time.Duration(0) { // time lived for the lock live := time.Since(lk.time) // set a timer for the leftover ttl if live > lk.ttl { // release the lock if it expired _ = m.Unlock(id) } else { ttl = time.After(live) } } lockLoop: for { // wait for the lock to be released select { case <-lk.release: m.mtx.Lock() // someone locked before us lk, ok = m.locks[id] if ok { m.mtx.Unlock() continue } // got chance to lock m.locks[id] = &memoryLock{ id: id, time: time.Now(), ttl: options.TTL, release: make(chan bool), } m.mtx.Unlock() break lockLoop case <-ttl: // ttl exceeded _ = m.Unlock(id) // TODO: check the ttl again above ttl = nil // try acquire continue case <-wait: return sync.ErrLockTimeout } } return nil } func (m *memorySync) Unlock(id string) error { m.mtx.Lock() defer m.mtx.Unlock() lk, ok := m.locks[id] // no lock exists if !ok { return nil } // delete the lock delete(m.locks, id) select { case <-lk.release: return nil default: close(lk.release) } return nil } func (m *memorySync) String() string { return "memory" } func NewSync(opts ...sync.Option) sync.Sync { var options sync.Options for _, o := range opts { o(&options) } return &memorySync{ options: options, locks: make(map[string]*memoryLock), } }