1
0
Fork 0
mirror of https://codeberg.org/forgejo/forgejo.git synced 2024-11-22 08:42:32 -05:00
forgejo/modules/log/event.go
zeripath 8eefe2af45
Empty log queue on flush and close (#19994)
* Empty log queue on flush and close

It is possible for log events to remain in the buffer off the multichannelledlog
and thus not be logged despite close or flush.

This PR simply adds a function to empty the queue before closing or flushing.
(Except when the logger is paused.)

Reference #19982

Signed-off-by: Andrew Thornton <art27@cantab.net>

* and do similar for ChannelledLog

Signed-off-by: Andrew Thornton <art27@cantab.net>

Co-authored-by: Lunny Xiao <xiaolunwen@gmail.com>
2022-06-18 10:33:13 +08:00

463 lines
10 KiB
Go

// Copyright 2019 The Gitea Authors. All rights reserved.
// Use of this source code is governed by a MIT-style
// license that can be found in the LICENSE file.
package log
import (
"context"
"fmt"
"runtime/pprof"
"sync"
"time"
"code.gitea.io/gitea/modules/process"
)
// Event represents a logging event
type Event struct {
level Level
msg string
caller string
filename string
line int
time time.Time
stacktrace string
}
// EventLogger represents the behaviours of a logger
type EventLogger interface {
LogEvent(event *Event) error
Close()
Flush()
GetLevel() Level
GetStacktraceLevel() Level
GetName() string
ReleaseReopen() error
}
// ChannelledLog represents a cached channel to a LoggerProvider
type ChannelledLog struct {
ctx context.Context
finished context.CancelFunc
name string
provider string
queue chan *Event
loggerProvider LoggerProvider
flush chan bool
close chan bool
closed chan bool
}
// NewChannelledLog a new logger instance with given logger provider and config.
func NewChannelledLog(parent context.Context, name, provider, config string, bufferLength int64) (*ChannelledLog, error) {
if log, ok := providers[provider]; ok {
l := &ChannelledLog{
queue: make(chan *Event, bufferLength),
flush: make(chan bool),
close: make(chan bool),
closed: make(chan bool),
}
l.loggerProvider = log()
if err := l.loggerProvider.Init(config); err != nil {
return nil, err
}
l.name = name
l.provider = provider
l.ctx, _, l.finished = process.GetManager().AddTypedContext(parent, fmt.Sprintf("Logger: %s(%s)", l.name, l.provider), process.SystemProcessType, false)
go l.Start()
return l, nil
}
return nil, ErrUnknownProvider{provider}
}
// Start processing the ChannelledLog
func (l *ChannelledLog) Start() {
pprof.SetGoroutineLabels(l.ctx)
defer l.finished()
for {
select {
case event, ok := <-l.queue:
if !ok {
l.closeLogger()
return
}
l.loggerProvider.LogEvent(event)
case _, ok := <-l.flush:
if !ok {
l.closeLogger()
return
}
l.emptyQueue()
l.loggerProvider.Flush()
case <-l.close:
l.emptyQueue()
l.closeLogger()
return
}
}
}
// LogEvent logs an event to this ChannelledLog
func (l *ChannelledLog) LogEvent(event *Event) error {
select {
case l.queue <- event:
return nil
case <-time.After(60 * time.Second):
// We're blocked!
return ErrTimeout{
Name: l.name,
Provider: l.provider,
}
}
}
func (l *ChannelledLog) emptyQueue() bool {
for {
select {
case event, ok := <-l.queue:
if !ok {
return false
}
l.loggerProvider.LogEvent(event)
default:
return true
}
}
}
func (l *ChannelledLog) closeLogger() {
l.loggerProvider.Flush()
l.loggerProvider.Close()
l.closed <- true
}
// Close this ChannelledLog
func (l *ChannelledLog) Close() {
l.close <- true
<-l.closed
}
// Flush this ChannelledLog
func (l *ChannelledLog) Flush() {
l.flush <- true
}
// ReleaseReopen this ChannelledLog
func (l *ChannelledLog) ReleaseReopen() error {
return l.loggerProvider.ReleaseReopen()
}
// GetLevel gets the level of this ChannelledLog
func (l *ChannelledLog) GetLevel() Level {
return l.loggerProvider.GetLevel()
}
// GetStacktraceLevel gets the level of this ChannelledLog
func (l *ChannelledLog) GetStacktraceLevel() Level {
return l.loggerProvider.GetStacktraceLevel()
}
// GetName returns the name of this ChannelledLog
func (l *ChannelledLog) GetName() string {
return l.name
}
// MultiChannelledLog represents a cached channel to a LoggerProvider
type MultiChannelledLog struct {
ctx context.Context
finished context.CancelFunc
name string
bufferLength int64
queue chan *Event
rwmutex sync.RWMutex
loggers map[string]EventLogger
flush chan bool
close chan bool
started bool
level Level
stacktraceLevel Level
closed chan bool
paused chan bool
}
// NewMultiChannelledLog a new logger instance with given logger provider and config.
func NewMultiChannelledLog(name string, bufferLength int64) *MultiChannelledLog {
ctx, _, finished := process.GetManager().AddTypedContext(context.Background(), fmt.Sprintf("Logger: %s", name), process.SystemProcessType, false)
m := &MultiChannelledLog{
ctx: ctx,
finished: finished,
name: name,
queue: make(chan *Event, bufferLength),
flush: make(chan bool),
bufferLength: bufferLength,
loggers: make(map[string]EventLogger),
level: NONE,
stacktraceLevel: NONE,
close: make(chan bool),
closed: make(chan bool),
paused: make(chan bool),
}
return m
}
// AddLogger adds a logger to this MultiChannelledLog
func (m *MultiChannelledLog) AddLogger(logger EventLogger) error {
m.rwmutex.Lock()
name := logger.GetName()
if _, has := m.loggers[name]; has {
m.rwmutex.Unlock()
return ErrDuplicateName{name}
}
m.loggers[name] = logger
if logger.GetLevel() < m.level {
m.level = logger.GetLevel()
}
if logger.GetStacktraceLevel() < m.stacktraceLevel {
m.stacktraceLevel = logger.GetStacktraceLevel()
}
m.rwmutex.Unlock()
go m.Start()
return nil
}
// DelLogger removes a sub logger from this MultiChannelledLog
// NB: If you delete the last sublogger this logger will simply drop
// log events
func (m *MultiChannelledLog) DelLogger(name string) bool {
m.rwmutex.Lock()
logger, has := m.loggers[name]
if !has {
m.rwmutex.Unlock()
return false
}
delete(m.loggers, name)
m.internalResetLevel()
m.rwmutex.Unlock()
logger.Flush()
logger.Close()
return true
}
// GetEventLogger returns a sub logger from this MultiChannelledLog
func (m *MultiChannelledLog) GetEventLogger(name string) EventLogger {
m.rwmutex.RLock()
defer m.rwmutex.RUnlock()
return m.loggers[name]
}
// GetEventProvider returns a sub logger provider content from this MultiChannelledLog
func (m *MultiChannelledLog) GetLoggerProviderContent(name string) (string, error) {
channelledLogger := m.GetEventLogger(name).(*ChannelledLog)
return channelledLogger.loggerProvider.Content()
}
// GetEventLoggerNames returns a list of names
func (m *MultiChannelledLog) GetEventLoggerNames() []string {
m.rwmutex.RLock()
defer m.rwmutex.RUnlock()
var keys []string
for k := range m.loggers {
keys = append(keys, k)
}
return keys
}
func (m *MultiChannelledLog) closeLoggers() {
m.rwmutex.Lock()
for _, logger := range m.loggers {
logger.Flush()
logger.Close()
}
m.rwmutex.Unlock()
m.closed <- true
}
// Pause pauses this Logger
func (m *MultiChannelledLog) Pause() {
m.paused <- true
}
// Resume resumes this Logger
func (m *MultiChannelledLog) Resume() {
m.paused <- false
}
// ReleaseReopen causes this logger to tell its subloggers to release and reopen
func (m *MultiChannelledLog) ReleaseReopen() error {
m.rwmutex.Lock()
defer m.rwmutex.Unlock()
var accumulatedErr error
for _, logger := range m.loggers {
if err := logger.ReleaseReopen(); err != nil {
if accumulatedErr == nil {
accumulatedErr = fmt.Errorf("Error whilst reopening: %s Error: %v", logger.GetName(), err)
} else {
accumulatedErr = fmt.Errorf("Error whilst reopening: %s Error: %v & %v", logger.GetName(), err, accumulatedErr)
}
}
}
return accumulatedErr
}
// Start processing the MultiChannelledLog
func (m *MultiChannelledLog) Start() {
m.rwmutex.Lock()
if m.started {
m.rwmutex.Unlock()
return
}
pprof.SetGoroutineLabels(m.ctx)
defer m.finished()
m.started = true
m.rwmutex.Unlock()
paused := false
for {
if paused {
select {
case paused = <-m.paused:
if !paused {
m.ResetLevel()
}
case _, ok := <-m.flush:
if !ok {
m.closeLoggers()
return
}
m.rwmutex.RLock()
for _, logger := range m.loggers {
logger.Flush()
}
m.rwmutex.RUnlock()
case <-m.close:
m.closeLoggers()
return
}
continue
}
select {
case paused = <-m.paused:
if paused && m.level < INFO {
m.level = INFO
}
case event, ok := <-m.queue:
if !ok {
m.closeLoggers()
return
}
m.rwmutex.RLock()
for _, logger := range m.loggers {
err := logger.LogEvent(event)
if err != nil {
fmt.Println(err)
}
}
m.rwmutex.RUnlock()
case _, ok := <-m.flush:
if !ok {
m.closeLoggers()
return
}
m.emptyQueue()
m.rwmutex.RLock()
for _, logger := range m.loggers {
logger.Flush()
}
m.rwmutex.RUnlock()
case <-m.close:
m.emptyQueue()
m.closeLoggers()
return
}
}
}
func (m *MultiChannelledLog) emptyQueue() bool {
for {
select {
case event, ok := <-m.queue:
if !ok {
return false
}
m.rwmutex.RLock()
for _, logger := range m.loggers {
err := logger.LogEvent(event)
if err != nil {
fmt.Println(err)
}
}
m.rwmutex.RUnlock()
default:
return true
}
}
}
// LogEvent logs an event to this MultiChannelledLog
func (m *MultiChannelledLog) LogEvent(event *Event) error {
select {
case m.queue <- event:
return nil
case <-time.After(100 * time.Millisecond):
// We're blocked!
return ErrTimeout{
Name: m.name,
Provider: "MultiChannelledLog",
}
}
}
// Close this MultiChannelledLog
func (m *MultiChannelledLog) Close() {
m.close <- true
<-m.closed
}
// Flush this ChannelledLog
func (m *MultiChannelledLog) Flush() {
m.flush <- true
}
// GetLevel gets the level of this MultiChannelledLog
func (m *MultiChannelledLog) GetLevel() Level {
m.rwmutex.RLock()
defer m.rwmutex.RUnlock()
return m.level
}
// GetStacktraceLevel gets the level of this MultiChannelledLog
func (m *MultiChannelledLog) GetStacktraceLevel() Level {
m.rwmutex.RLock()
defer m.rwmutex.RUnlock()
return m.stacktraceLevel
}
func (m *MultiChannelledLog) internalResetLevel() Level {
m.level = NONE
for _, logger := range m.loggers {
level := logger.GetLevel()
if level < m.level {
m.level = level
}
level = logger.GetStacktraceLevel()
if level < m.stacktraceLevel {
m.stacktraceLevel = level
}
}
return m.level
}
// ResetLevel will reset the level of this MultiChannelledLog
func (m *MultiChannelledLog) ResetLevel() Level {
m.rwmutex.Lock()
defer m.rwmutex.Unlock()
return m.internalResetLevel()
}
// GetName gets the name of this MultiChannelledLog
func (m *MultiChannelledLog) GetName() string {
return m.name
}