package mutexes
import (
"sync"
"time"
)
// TimeoutMutex defines a Mutex with timeouts on locks
type TimeoutMutex interface {
Mutex
// LockFunc is functionally the same as Lock(), but allows setting a custom hook called on timeout
LockFunc(func()) func()
}
// TimeoutRWMutex defines a RWMutex with timeouts on locks
type TimeoutRWMutex interface {
RWMutex
// LockFunc is functionally the same as Lock(), but allows setting a custom hook called on timeout
LockFunc(func()) func()
// RLockFunc is functionally the same as RLock(), but allows setting a custom hook called on timeout
RLockFunc(func()) func()
}
// WithTimeout wraps the supplied Mutex to add a timeout
func WithTimeout(mu Mutex, d time.Duration) TimeoutMutex {
return &timeoutMutex{mu: mu, d: d}
}
// WithTimeoutRW wraps the supplied RWMutex to add read/write timeouts
func WithTimeoutRW(mu RWMutex, rd, wd time.Duration) TimeoutRWMutex {
return &timeoutRWMutex{mu: mu, rd: rd, wd: wd}
}
// timeoutMutex wraps a Mutex with timeout
type timeoutMutex struct {
mu Mutex // mu is the wrapped mutex
d time.Duration // d is the timeout duration
}
func (mu *timeoutMutex) Lock() func() {
return mu.LockFunc(func() { panic("lock timed out") })
}
func (mu *timeoutMutex) LockFunc(fn func()) func() {
return mutexTimeout(mu.d, mu.mu.Lock(), fn)
}
// TimeoutRWMutex wraps a RWMutex with timeouts
type timeoutRWMutex struct {
mu RWMutex // mu is the wrapped rwmutex
rd time.Duration // rd is the rlock timeout duration
wd time.Duration // wd is the lock timeout duration
}
func (mu *timeoutRWMutex) Lock() func() {
return mu.LockFunc(func() { panic("lock timed out") })
}
func (mu *timeoutRWMutex) LockFunc(fn func()) func() {
return mutexTimeout(mu.wd, mu.mu.Lock(), fn)
}
func (mu *timeoutRWMutex) RLock() func() {
return mu.RLockFunc(func() { panic("rlock timed out") })
}
func (mu *timeoutRWMutex) RLockFunc(fn func()) func() {
return mutexTimeout(mu.rd, mu.mu.RLock(), fn)
}
// mutexTimeout performs a timed unlock, calling supplied fn if timeout is reached
func mutexTimeout(d time.Duration, unlock func(), fn func()) func() {
if d < 1 {
// No timeout, just unlock
return unlock
}
// Acquire timer from pool
t := timerPool.Get().(*timer)
// Start the timer
go t.Start(d, fn)
// Return func cancelling timeout,
// replacing Timeout in pool and
// finally unlocking mutex
return func() {
defer timerPool.Put(t)
t.Cancel()
unlock()
}
}
// timerPool is the global &timer{} pool.
var timerPool = sync.Pool{
New: func() interface{} {
t := time.NewTimer(time.Minute)
t.Stop()
return &timer{t: t, c: make(chan struct{})}
},
}
// timer represents a reusable cancellable timer.
type timer struct {
t *time.Timer
c chan struct{}
}
// Start will start the timer with duration 'd', performing 'fn' on timeout.
func (t *timer) Start(d time.Duration, fn func()) {
t.t.Reset(d)
select {
// Timed out
case <-t.t.C:
fn()
// Cancelled
case <-t.c:
}
}
// Cancel will attempt to cancel the running timer.
func (t *timer) Cancel() {
select {
// cancel successful
case t.c <- struct{}{}:
if !t.t.Stop() {
<-t.t.C
} // stop timer
// already stopped
default:
}
}