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tailscale/syncs/syncs.go

272 lines
6.6 KiB
Go

// Copyright (c) Tailscale Inc & AUTHORS
// SPDX-License-Identifier: BSD-3-Clause
// Package syncs contains additional sync types and functionality.
package syncs
import (
"context"
"sync"
"sync/atomic"
"tailscale.com/util/mak"
)
// ClosedChan returns a channel that's already closed.
func ClosedChan() <-chan struct{} { return closedChan }
var closedChan = initClosedChan()
func initClosedChan() <-chan struct{} {
ch := make(chan struct{})
close(ch)
return ch
}
// AtomicValue is the generic version of atomic.Value.
type AtomicValue[T any] struct {
v atomic.Value
}
// Load returns the value set by the most recent Store.
// It returns the zero value for T if the value is empty.
func (v *AtomicValue[T]) Load() T {
x, _ := v.LoadOk()
return x
}
// LoadOk is like Load but returns a boolean indicating whether the value was
// loaded.
func (v *AtomicValue[T]) LoadOk() (_ T, ok bool) {
x := v.v.Load()
if x != nil {
return x.(T), true
}
var zero T
return zero, false
}
// Store sets the value of the Value to x.
func (v *AtomicValue[T]) Store(x T) {
v.v.Store(x)
}
// Swap stores new into Value and returns the previous value.
// It returns the zero value for T if the value is empty.
func (v *AtomicValue[T]) Swap(x T) (old T) {
oldV := v.v.Swap(x)
if oldV != nil {
return oldV.(T)
}
return old
}
// CompareAndSwap executes the compare-and-swap operation for the Value.
func (v *AtomicValue[T]) CompareAndSwap(oldV, newV T) (swapped bool) {
return v.v.CompareAndSwap(oldV, newV)
}
// WaitGroupChan is like a sync.WaitGroup, but has a chan that closes
// on completion that you can wait on. (This, you can only use the
// value once)
// Also, its zero value is not usable. Use the constructor.
type WaitGroupChan struct {
n int64 // atomic
done chan struct{} // closed on transition to zero
}
// NewWaitGroupChan returns a new single-use WaitGroupChan.
func NewWaitGroupChan() *WaitGroupChan {
return &WaitGroupChan{done: make(chan struct{})}
}
// DoneChan returns a channel that's closed on completion.
func (wg *WaitGroupChan) DoneChan() <-chan struct{} { return wg.done }
// Add adds delta, which may be negative, to the WaitGroupChan
// counter. If the counter becomes zero, all goroutines blocked on
// Wait or the Done chan are released. If the counter goes negative,
// Add panics.
//
// Note that calls with a positive delta that occur when the counter
// is zero must happen before a Wait. Calls with a negative delta, or
// calls with a positive delta that start when the counter is greater
// than zero, may happen at any time. Typically this means the calls
// to Add should execute before the statement creating the goroutine
// or other event to be waited for.
func (wg *WaitGroupChan) Add(delta int) {
n := atomic.AddInt64(&wg.n, int64(delta))
if n == 0 {
close(wg.done)
}
}
// Decr decrements the WaitGroup counter by one.
//
// (It is like sync.WaitGroup's Done method, but we don't use Done in
// this type, because it's ambiguous between Context.Done and
// WaitGroup.Done. So we use DoneChan and Decr instead.)
func (wg *WaitGroupChan) Decr() {
wg.Add(-1)
}
// Wait blocks until the WaitGroupChan counter is zero.
func (wg *WaitGroupChan) Wait() { <-wg.done }
// Semaphore is a counting semaphore.
//
// Use NewSemaphore to create one.
type Semaphore struct {
c chan struct{}
}
// NewSemaphore returns a semaphore with resource count n.
func NewSemaphore(n int) Semaphore {
return Semaphore{c: make(chan struct{}, n)}
}
// Acquire blocks until a resource is acquired.
func (s Semaphore) Acquire() {
s.c <- struct{}{}
}
// AcquireContext reports whether the resource was acquired before the ctx was done.
func (s Semaphore) AcquireContext(ctx context.Context) bool {
select {
case s.c <- struct{}{}:
return true
case <-ctx.Done():
return false
}
}
// TryAcquire reports, without blocking, whether the resource was acquired.
func (s Semaphore) TryAcquire() bool {
select {
case s.c <- struct{}{}:
return true
default:
return false
}
}
// Release releases a resource.
func (s Semaphore) Release() {
<-s.c
}
// Map is a Go map protected by a [sync.RWMutex].
// It is preferred over [sync.Map] for maps with entries that change
// at a relatively high frequency.
// This must not be shallow copied.
type Map[K comparable, V any] struct {
mu sync.RWMutex
m map[K]V
}
func (m *Map[K, V]) Load(key K) (value V, ok bool) {
m.mu.RLock()
defer m.mu.RUnlock()
value, ok = m.m[key]
return value, ok
}
func (m *Map[K, V]) Store(key K, value V) {
m.mu.Lock()
defer m.mu.Unlock()
mak.Set(&m.m, key, value)
}
func (m *Map[K, V]) LoadOrStore(key K, value V) (actual V, loaded bool) {
if actual, loaded = m.Load(key); loaded {
return actual, loaded
}
m.mu.Lock()
defer m.mu.Unlock()
actual, loaded = m.m[key]
if !loaded {
actual = value
mak.Set(&m.m, key, value)
}
return actual, loaded
}
// LoadOrInit returns the value for the given key if it exists
// otherwise f is called to construct the value to be set.
// The lock is held for the duration to prevent duplicate initialization.
func (m *Map[K, V]) LoadOrInit(key K, f func() V) (actual V, loaded bool) {
if actual, loaded := m.Load(key); loaded {
return actual, loaded
}
m.mu.Lock()
defer m.mu.Unlock()
if actual, loaded = m.m[key]; loaded {
return actual, loaded
}
loaded = false
actual = f()
mak.Set(&m.m, key, actual)
return actual, loaded
}
func (m *Map[K, V]) LoadAndDelete(key K) (value V, loaded bool) {
m.mu.Lock()
defer m.mu.Unlock()
value, loaded = m.m[key]
if loaded {
delete(m.m, key)
}
return value, loaded
}
func (m *Map[K, V]) Delete(key K) {
m.mu.Lock()
defer m.mu.Unlock()
delete(m.m, key)
}
// Range iterates over the map in undefined order calling f for each entry.
// Iteration stops if f returns false. Map changes are blocked during iteration.
func (m *Map[K, V]) Range(f func(key K, value V) bool) {
m.mu.RLock()
defer m.mu.RUnlock()
for k, v := range m.m {
if !f(k, v) {
return
}
}
}
// Len returns the length of the map.
func (m *Map[K, V]) Len() int {
m.mu.RLock()
defer m.mu.RUnlock()
return len(m.m)
}
// Clear removes all entries from the map.
func (m *Map[K, V]) Clear() {
m.mu.Lock()
defer m.mu.Unlock()
clear(m.m)
}
// WaitGroup is identical to [sync.WaitGroup],
// but provides a Go method to start a goroutine.
type WaitGroup struct{ sync.WaitGroup }
// Go calls the given function in a new goroutine.
// It automatically increments the counter before execution and
// automatically decrements the counter after execution.
// It must not be called concurrently with Wait.
func (wg *WaitGroup) Go(f func()) {
wg.Add(1)
go func() {
defer wg.Done()
f()
}()
}