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