// Copyright 2013 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package singleflight import ( "bytes" "errors" "fmt" "runtime" "runtime/debug" "sync" ) // errGoexit indicates the runtime.Goexit was called in // the user given function. var errGoexit = errors.New("runtime.Goexit was called") // A panicError is an arbitrary value recovered from a panic // with the stack trace during the execution of given function. type panicError struct { value interface{} stack []byte } // Error implements error interface. func (p *panicError) Error() string { return fmt.Sprintf("%v\n\n%s", p.value, p.stack) } func newPanicError(v interface{}) error { stack := debug.Stack() // The first line of the stack trace is of the form "goroutine N [status]:" // but by the time the panic reaches Do the goroutine may no longer exist // and its status will have changed. Trim out the misleading line. if line := bytes.IndexByte(stack[:], '\n'); line >= 0 { stack = stack[line+1:] } return &panicError{value: v, stack: stack} } // call is an in-flight or completed singleflight.Do call type call struct { wg sync.WaitGroup // These fields are written once before the WaitGroup is done // and are only read after the WaitGroup is done. val interface{} err error // forgotten indicates whether Forget was called with this call's key // while the call was still in flight. forgotten bool // These fields are read and written with the singleflight // mutex held before the WaitGroup is done, and are read but // not written after the WaitGroup is done. dups int chans []chan<- Result } // Group represents a class of work and forms a namespace in // which units of work can be executed with duplicate suppression. type Group struct { mu sync.Mutex // protects m m map[string]*call // lazily initialized } // Result holds the results of Do, so they can be passed // on a channel. type Result struct { Val interface{} Err error Shared bool } // Do executes and returns the results of the given function, making // sure that only one execution is in-flight for a given key at a // time. If a duplicate comes in, the duplicate caller waits for the // original to complete and receives the same results. // The return value shared indicates whether v was given to multiple callers. func (g *Group) Do(key string, fn func() (interface{}, error)) (v interface{}, err error, shared bool) { g.mu.Lock() if g.m == nil { g.m = make(map[string]*call) } if c, ok := g.m[key]; ok { c.dups++ g.mu.Unlock() c.wg.Wait() if e, ok := c.err.(*panicError); ok { panic(e) } else if c.err == errGoexit { runtime.Goexit() } return c.val, c.err, true } c := new(call) c.wg.Add(1) g.m[key] = c g.mu.Unlock() g.doCall(c, key, fn) return c.val, c.err, c.dups > 0 } // DoChan is like Do but returns a channel that will receive the // results when they are ready. // // The returned channel will not be closed. func (g *Group) DoChan(key string, fn func() (interface{}, error)) <-chan Result { ch := make(chan Result, 1) g.mu.Lock() if g.m == nil { g.m = make(map[string]*call) } if c, ok := g.m[key]; ok { c.dups++ c.chans = append(c.chans, ch) g.mu.Unlock() return ch } c := &call{chans: []chan<- Result{ch}} c.wg.Add(1) g.m[key] = c g.mu.Unlock() go g.doCall(c, key, fn) return ch } // doCall handles the single call for a key. func (g *Group) doCall(c *call, key string, fn func() (interface{}, error)) { normalReturn := false recovered := false // use double-defer to distinguish panic from runtime.Goexit, // more details see https://golang.org/cl/134395 defer func() { // the given function invoked runtime.Goexit if !normalReturn && !recovered { c.err = errGoexit } c.wg.Done() g.mu.Lock() defer g.mu.Unlock() if !c.forgotten { delete(g.m, key) } if e, ok := c.err.(*panicError); ok { // In order to prevent the waiting channels from being blocked forever, // needs to ensure that this panic cannot be recovered. if len(c.chans) > 0 { go panic(e) select {} // Keep this goroutine around so that it will appear in the crash dump. } else { panic(e) } } else if c.err == errGoexit { // Already in the process of goexit, no need to call again } else { // Normal return for _, ch := range c.chans { ch <- Result{c.val, c.err, c.dups > 0} } } }() func() { defer func() { if !normalReturn { // Ideally, we would wait to take a stack trace until we've determined // whether this is a panic or a runtime.Goexit. // // Unfortunately, the only way we can distinguish the two is to see // whether the recover stopped the goroutine from terminating, and by // the time we know that, the part of the stack trace relevant to the // panic has been discarded. if r := recover(); r != nil { c.err = newPanicError(r) } } }() c.val, c.err = fn() normalReturn = true }() if !normalReturn { recovered = true } } // Forget tells the singleflight to forget about a key. Future calls // to Do for this key will call the function rather than waiting for // an earlier call to complete. func (g *Group) Forget(key string) { g.mu.Lock() if c, ok := g.m[key]; ok { c.forgotten = true } delete(g.m, key) g.mu.Unlock() }