memory.go - external/github.com/op/go-logging - Git at Google

 // Copyright 2013, Örjan Persson. All rights reserved.
 // Use of this source code is governed by a BSD-style
 // license that can be found in the LICENSE file.

 // +build !appengine

 package logging

 import (
 	"sync"
 	"sync/atomic"
 	"time"
 	"unsafe"
 )

 // TODO pick one of the memory backends and stick with it or share interface.

 // InitForTesting is a convenient method when using logging in a test. Once
 // called, the time will be frozen to January 1, 1970 UTC.
 func InitForTesting(level Level) *MemoryBackend {
 	Reset()

 	memoryBackend := NewMemoryBackend(10240)

 	leveledBackend := AddModuleLevel(memoryBackend)
 	leveledBackend.SetLevel(level, "")
 	SetBackend(leveledBackend)

 	timeNow = func() time.Time {
 		return time.Unix(0, 0).UTC()
 	}
 	return memoryBackend
 }

 // Node is a record node pointing to an optional next node.
 type node struct {
 	next   *node
 	Record *Record
 }

 // Next returns the next record node. If there's no node available, it will
 // return nil.
 func (n *node) Next() *node {
 	return n.next
 }

 // MemoryBackend is a simple memory based logging backend that will not produce
 // any output but merly keep records, up to the given size, in memory.
 type MemoryBackend struct {
 	size       int32
 	maxSize    int32
 	head, tail unsafe.Pointer
 }

 // NewMemoryBackend creates a simple in-memory logging backend.
 func NewMemoryBackend(size int) *MemoryBackend {
 	return &MemoryBackend{maxSize: int32(size)}
 }

 // Log implements the Log method required by Backend.
 func (b *MemoryBackend) Log(level Level, calldepth int, rec *Record) error {
 	var size int32

 	n := &node{Record: rec}
 	np := unsafe.Pointer(n)

 	// Add the record to the tail. If there's no records available, tail and
 	// head will both be nil. When we successfully set the tail and the previous
 	// value was nil, it's safe to set the head to the current value too.
 	for {
 		tailp := b.tail
 		swapped := atomic.CompareAndSwapPointer(
 			&b.tail,
 			tailp,
 			np,
 		)
 		if swapped == true {
 			if tailp == nil {
 				b.head = np
 			} else {
 				(*node)(tailp).next = n
 			}
 			size = atomic.AddInt32(&b.size, 1)
 			break
 		}
 	}

 	// Since one record was added, we might have overflowed the list. Remove
 	// a record if that is the case. The size will fluctate a bit, but
 	// eventual consistent.
 	if b.maxSize > 0 && size > b.maxSize {
 		for {
 			headp := b.head
 			head := (*node)(b.head)
 			if head.next == nil {
 				break
 			}
 			swapped := atomic.CompareAndSwapPointer(
 				&b.head,
 				headp,
 				unsafe.Pointer(head.next),
 			)
 			if swapped == true {
 				atomic.AddInt32(&b.size, -1)
 				break
 			}
 		}
 	}
 	return nil
 }

 // Head returns the oldest record node kept in memory. It can be used to
 // iterate over records, one by one, up to the last record.
 //
 // Note: new records can get added while iterating. Hence the number of records
 // iterated over might be larger than the maximum size.
 func (b *MemoryBackend) Head() *node {
 	return (*node)(b.head)
 }

 type event int

 const (
 	eventFlush event = iota
 	eventStop
 )

 // ChannelMemoryBackend is very similar to the MemoryBackend, except that it
 // internally utilizes a channel.
 type ChannelMemoryBackend struct {
 	maxSize    int
 	size       int
 	incoming   chan *Record
 	events     chan event
 	mu         sync.Mutex
 	running    bool
 	flushWg    sync.WaitGroup
 	stopWg     sync.WaitGroup
 	head, tail *node
 }

 // NewChannelMemoryBackend creates a simple in-memory logging backend which
 // utilizes a go channel for communication.
 //
 // Start will automatically be called by this function.
 func NewChannelMemoryBackend(size int) *ChannelMemoryBackend {
 	backend := &ChannelMemoryBackend{
 		maxSize:  size,
 		incoming: make(chan *Record, 1024),
 		events:   make(chan event),
 	}
 	backend.Start()
 	return backend
 }

 // Start launches the internal goroutine which starts processing data from the
 // input channel.
 func (b *ChannelMemoryBackend) Start() {
 	b.mu.Lock()
 	defer b.mu.Unlock()

 	// Launch the goroutine unless it's already running.
 	if b.running != true {
 		b.running = true
 		b.stopWg.Add(1)
 		go b.process()
 	}
 }

 func (b *ChannelMemoryBackend) process() {
 	defer b.stopWg.Done()
 	for {
 		select {
 		case rec := <-b.incoming:
 			b.insertRecord(rec)
 		case e := <-b.events:
 			switch e {
 			case eventStop:
 				return
 			case eventFlush:
 				for len(b.incoming) > 0 {
 					b.insertRecord(<-b.incoming)
 				}
 				b.flushWg.Done()
 			}
 		}
 	}
 }

 func (b *ChannelMemoryBackend) insertRecord(rec *Record) {
 	prev := b.tail
 	b.tail = &node{Record: rec}
 	if prev == nil {
 		b.head = b.tail
 	} else {
 		prev.next = b.tail
 	}

 	if b.maxSize > 0 && b.size >= b.maxSize {
 		b.head = b.head.next
 	} else {
 		b.size++
 	}
 }

 // Flush waits until all records in the buffered channel have been processed.
 func (b *ChannelMemoryBackend) Flush() {
 	b.flushWg.Add(1)
 	b.events <- eventFlush
 	b.flushWg.Wait()
 }

 // Stop signals the internal goroutine to exit and waits until it have.
 func (b *ChannelMemoryBackend) Stop() {
 	b.mu.Lock()
 	if b.running == true {
 		b.running = false
 		b.events <- eventStop
 	}
 	b.mu.Unlock()
 	b.stopWg.Wait()
 }

 // Log implements the Log method required by Backend.
 func (b *ChannelMemoryBackend) Log(level Level, calldepth int, rec *Record) error {
 	b.incoming <- rec
 	return nil
 }

 // Head returns the oldest record node kept in memory. It can be used to
 // iterate over records, one by one, up to the last record.
 //
 // Note: new records can get added while iterating. Hence the number of records
 // iterated over might be larger than the maximum size.
 func (b *ChannelMemoryBackend) Head() *node {
 	return b.head
 }
	// Copyright 2013, Örjan Persson. All rights reserved.
	// Use of this source code is governed by a BSD-style
	// license that can be found in the LICENSE file.

	// +build !appengine

	package logging

	import (
	"sync"
	"sync/atomic"
	"time"
	"unsafe"
	)

	// TODO pick one of the memory backends and stick with it or share interface.

	// InitForTesting is a convenient method when using logging in a test. Once
	// called, the time will be frozen to January 1, 1970 UTC.
	func InitForTesting(level Level) *MemoryBackend {
	Reset()

	memoryBackend := NewMemoryBackend(10240)

	leveledBackend := AddModuleLevel(memoryBackend)
	leveledBackend.SetLevel(level, "")
	SetBackend(leveledBackend)

	timeNow = func() time.Time {
	return time.Unix(0, 0).UTC()
	}
	return memoryBackend
	}

	// Node is a record node pointing to an optional next node.
	type node struct {
	next *node
	Record *Record
	}

	// Next returns the next record node. If there's no node available, it will
	// return nil.
	func (n node) Next() node {
	return n.next
	}

	// MemoryBackend is a simple memory based logging backend that will not produce
	// any output but merly keep records, up to the given size, in memory.
	type MemoryBackend struct {
	size int32
	maxSize int32
	head, tail unsafe.Pointer
	}

	// NewMemoryBackend creates a simple in-memory logging backend.
	func NewMemoryBackend(size int) *MemoryBackend {
	return &MemoryBackend{maxSize: int32(size)}
	}

	// Log implements the Log method required by Backend.
	func (b MemoryBackend) Log(level Level, calldepth int, rec Record) error {
	var size int32

	n := &node{Record: rec}
	np := unsafe.Pointer(n)

	// Add the record to the tail. If there's no records available, tail and
	// head will both be nil. When we successfully set the tail and the previous
	// value was nil, it's safe to set the head to the current value too.
	for {
	tailp := b.tail
	swapped := atomic.CompareAndSwapPointer(
	&b.tail,
	tailp,
	np,
	)
	if swapped == true {
	if tailp == nil {
	b.head = np
	} else {
	(*node)(tailp).next = n
	}
	size = atomic.AddInt32(&b.size, 1)
	break
	}
	}

	// Since one record was added, we might have overflowed the list. Remove
	// a record if that is the case. The size will fluctate a bit, but
	// eventual consistent.
	if b.maxSize > 0 && size > b.maxSize {
	for {
	headp := b.head
	head := (*node)(b.head)
	if head.next == nil {
	break
	}
	swapped := atomic.CompareAndSwapPointer(
	&b.head,
	headp,
	unsafe.Pointer(head.next),
	)
	if swapped == true {
	atomic.AddInt32(&b.size, -1)
	break
	}
	}
	}
	return nil
	}

	// Head returns the oldest record node kept in memory. It can be used to
	// iterate over records, one by one, up to the last record.
	//
	// Note: new records can get added while iterating. Hence the number of records
	// iterated over might be larger than the maximum size.
	func (b MemoryBackend) Head() node {
	return (*node)(b.head)
	}

	type event int

	const (
	eventFlush event = iota
	eventStop
	)

	// ChannelMemoryBackend is very similar to the MemoryBackend, except that it
	// internally utilizes a channel.
	type ChannelMemoryBackend struct {
	maxSize int
	size int
	incoming chan *Record
	events chan event
	mu sync.Mutex
	running bool
	flushWg sync.WaitGroup
	stopWg sync.WaitGroup
	head, tail *node
	}

	// NewChannelMemoryBackend creates a simple in-memory logging backend which
	// utilizes a go channel for communication.
	//
	// Start will automatically be called by this function.
	func NewChannelMemoryBackend(size int) *ChannelMemoryBackend {
	backend := &ChannelMemoryBackend{
	maxSize: size,
	incoming: make(chan *Record, 1024),
	events: make(chan event),
	}
	backend.Start()
	return backend
	}

	// Start launches the internal goroutine which starts processing data from the
	// input channel.
	func (b *ChannelMemoryBackend) Start() {
	b.mu.Lock()
	defer b.mu.Unlock()

	// Launch the goroutine unless it's already running.
	if b.running != true {
	b.running = true
	b.stopWg.Add(1)
	go b.process()
	}
	}

	func (b *ChannelMemoryBackend) process() {
	defer b.stopWg.Done()
	for {
	select {
	case rec := <-b.incoming:
	b.insertRecord(rec)
	case e := <-b.events:
	switch e {
	case eventStop:
	return
	case eventFlush:
	for len(b.incoming) > 0 {
	b.insertRecord(<-b.incoming)
	}
	b.flushWg.Done()
	}
	}
	}
	}

	func (b ChannelMemoryBackend) insertRecord(rec Record) {
	prev := b.tail
	b.tail = &node{Record: rec}
	if prev == nil {
	b.head = b.tail
	} else {
	prev.next = b.tail
	}

	if b.maxSize > 0 && b.size >= b.maxSize {
	b.head = b.head.next
	} else {
	b.size++
	}
	}

	// Flush waits until all records in the buffered channel have been processed.
	func (b *ChannelMemoryBackend) Flush() {
	b.flushWg.Add(1)
	b.events <- eventFlush
	b.flushWg.Wait()
	}

	// Stop signals the internal goroutine to exit and waits until it have.
	func (b *ChannelMemoryBackend) Stop() {
	b.mu.Lock()
	if b.running == true {
	b.running = false
	b.events <- eventStop
	}
	b.mu.Unlock()
	b.stopWg.Wait()
	}

	// Log implements the Log method required by Backend.
	func (b ChannelMemoryBackend) Log(level Level, calldepth int, rec Record) error {
	b.incoming <- rec
	return nil
	}

	// Head returns the oldest record node kept in memory. It can be used to
	// iterate over records, one by one, up to the last record.
	//
	// Note: new records can get added while iterating. Hence the number of records
	// iterated over might be larger than the maximum size.
	func (b ChannelMemoryBackend) Head() node {
	return b.head
	}