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matterbridge/vendor/github.com/mattermost/logr/logr.go
2020-10-19 23:40:00 +02:00

665 lines
18 KiB
Go

package logr
import (
"bytes"
"context"
"errors"
"fmt"
"os"
"sync"
"time"
"github.com/wiggin77/cfg"
"github.com/wiggin77/merror"
)
// Logr maintains a list of log targets and accepts incoming
// log records.
type Logr struct {
tmux sync.RWMutex // target mutex
targets []Target
mux sync.RWMutex
maxQueueSizeActual int
in chan *LogRec
done chan struct{}
once sync.Once
shutdown bool
lvlCache levelCache
metricsInitOnce sync.Once
metricsCloseOnce sync.Once
metricsDone chan struct{}
metrics MetricsCollector
queueSizeGauge Gauge
loggedCounter Counter
errorCounter Counter
bufferPool sync.Pool
// MaxQueueSize is the maximum number of log records that can be queued.
// If exceeded, `OnQueueFull` is called which determines if the log
// record will be dropped or block until add is successful.
// If this is modified, it must be done before `Configure` or
// `AddTarget`. Defaults to DefaultMaxQueueSize.
MaxQueueSize int
// OnLoggerError, when not nil, is called any time an internal
// logging error occurs. For example, this can happen when a
// target cannot connect to its data sink.
OnLoggerError func(error)
// OnQueueFull, when not nil, is called on an attempt to add
// a log record to a full Logr queue.
// `MaxQueueSize` can be used to modify the maximum queue size.
// This function should return quickly, with a bool indicating whether
// the log record should be dropped (true) or block until the log record
// is successfully added (false). If nil then blocking (false) is assumed.
OnQueueFull func(rec *LogRec, maxQueueSize int) bool
// OnTargetQueueFull, when not nil, is called on an attempt to add
// a log record to a full target queue provided the target supports reporting
// this condition.
// This function should return quickly, with a bool indicating whether
// the log record should be dropped (true) or block until the log record
// is successfully added (false). If nil then blocking (false) is assumed.
OnTargetQueueFull func(target Target, rec *LogRec, maxQueueSize int) bool
// OnExit, when not nil, is called when a FatalXXX style log API is called.
// When nil, then the default behavior is to cleanly shut down this Logr and
// call `os.Exit(code)`.
OnExit func(code int)
// OnPanic, when not nil, is called when a PanicXXX style log API is called.
// When nil, then the default behavior is to cleanly shut down this Logr and
// call `panic(err)`.
OnPanic func(err interface{})
// EnqueueTimeout is the amount of time a log record can take to be queued.
// This only applies to blocking enqueue which happen after `logr.OnQueueFull`
// is called and returns false.
EnqueueTimeout time.Duration
// ShutdownTimeout is the amount of time `logr.Shutdown` can execute before
// timing out.
ShutdownTimeout time.Duration
// FlushTimeout is the amount of time `logr.Flush` can execute before
// timing out.
FlushTimeout time.Duration
// UseSyncMapLevelCache can be set to true before the first target is added
// when high concurrency (e.g. >32 cores) is expected. This may improve
// performance with large numbers of cores - benchmark for your use case.
UseSyncMapLevelCache bool
// MaxPooledFormatBuffer determines the maximum size of a buffer that can be
// pooled. To reduce allocations, the buffers needed during formatting (etc)
// are pooled. A very large log item will grow a buffer that could stay in
// memory indefinitely. This settings lets you control how big a pooled buffer
// can be - anything larger will be garbage collected after use.
// Defaults to 1MB.
MaxPooledBuffer int
// DisableBufferPool when true disables the buffer pool. See MaxPooledBuffer.
DisableBufferPool bool
// MetricsUpdateFreqMillis determines how often polled metrics are updated
// when metrics are enabled.
MetricsUpdateFreqMillis int64
}
// Configure adds/removes targets via the supplied `Config`.
func (logr *Logr) Configure(config *cfg.Config) error {
// TODO
return fmt.Errorf("not implemented yet")
}
func (logr *Logr) ensureInit() {
logr.once.Do(func() {
defer func() {
go logr.start()
}()
logr.mux.Lock()
defer logr.mux.Unlock()
logr.maxQueueSizeActual = logr.MaxQueueSize
if logr.maxQueueSizeActual == 0 {
logr.maxQueueSizeActual = DefaultMaxQueueSize
}
if logr.maxQueueSizeActual < 0 {
logr.maxQueueSizeActual = 0
}
logr.in = make(chan *LogRec, logr.maxQueueSizeActual)
logr.done = make(chan struct{})
if logr.UseSyncMapLevelCache {
logr.lvlCache = &syncMapLevelCache{}
} else {
logr.lvlCache = &arrayLevelCache{}
}
if logr.MaxPooledBuffer == 0 {
logr.MaxPooledBuffer = DefaultMaxPooledBuffer
}
logr.bufferPool = sync.Pool{
New: func() interface{} {
return new(bytes.Buffer)
},
}
logr.lvlCache.setup()
})
}
// AddTarget adds one or more targets to the logger which will receive
// log records for outputting.
func (logr *Logr) AddTarget(targets ...Target) error {
if logr.IsShutdown() {
return fmt.Errorf("AddTarget called after Logr shut down")
}
logr.ensureInit()
metrics := logr.getMetricsCollector()
defer logr.ResetLevelCache() // call this after tmux is released
logr.tmux.Lock()
defer logr.tmux.Unlock()
errs := merror.New()
for _, t := range targets {
if t == nil {
continue
}
logr.targets = append(logr.targets, t)
if metrics != nil {
if tm, ok := t.(TargetWithMetrics); ok {
if err := tm.EnableMetrics(metrics, logr.MetricsUpdateFreqMillis); err != nil {
errs.Append(err)
}
}
}
}
return errs.ErrorOrNil()
}
// NewLogger creates a Logger using defaults. A `Logger` is light-weight
// enough to create on-demand, but typically one or more Loggers are
// created and re-used.
func (logr *Logr) NewLogger() Logger {
logger := Logger{logr: logr}
return logger
}
var levelStatusDisabled = LevelStatus{}
// IsLevelEnabled returns true if at least one target has the specified
// level enabled. The result is cached so that subsequent checks are fast.
func (logr *Logr) IsLevelEnabled(lvl Level) LevelStatus {
status, ok := logr.isLevelEnabledFromCache(lvl)
if ok {
return status
}
// Check each target.
logr.tmux.RLock()
for _, t := range logr.targets {
e, s := t.IsLevelEnabled(lvl)
if e {
status.Enabled = true
if s {
status.Stacktrace = true
break // if both enabled then no sense checking more targets
}
}
}
logr.tmux.RUnlock()
// Cache and return the result.
if err := logr.updateLevelCache(lvl.ID, status); err != nil {
logr.ReportError(err)
return LevelStatus{}
}
return status
}
func (logr *Logr) isLevelEnabledFromCache(lvl Level) (LevelStatus, bool) {
logr.mux.RLock()
defer logr.mux.RUnlock()
// Don't accept new log records after shutdown.
if logr.shutdown {
return levelStatusDisabled, true
}
// Check cache. lvlCache may still be nil if no targets added.
if logr.lvlCache == nil {
return levelStatusDisabled, true
}
status, ok := logr.lvlCache.get(lvl.ID)
if ok {
return status, true
}
return LevelStatus{}, false
}
func (logr *Logr) updateLevelCache(id LevelID, status LevelStatus) error {
logr.mux.RLock()
defer logr.mux.RUnlock()
if logr.lvlCache != nil {
return logr.lvlCache.put(id, status)
}
return nil
}
// HasTargets returns true only if at least one target exists within the Logr.
func (logr *Logr) HasTargets() bool {
logr.tmux.RLock()
defer logr.tmux.RUnlock()
return len(logr.targets) > 0
}
// TargetInfo provides name and type for a Target.
type TargetInfo struct {
Name string
Type string
}
// TargetInfos enumerates all the targets added to this Logr.
// The resulting slice represents a snapshot at time of calling.
func (logr *Logr) TargetInfos() []TargetInfo {
logr.tmux.RLock()
defer logr.tmux.RUnlock()
infos := make([]TargetInfo, 0)
for _, t := range logr.targets {
inf := TargetInfo{
Name: fmt.Sprintf("%v", t),
Type: fmt.Sprintf("%T", t),
}
infos = append(infos, inf)
}
return infos
}
// RemoveTargets safely removes one or more targets based on the filtering method.
// f should return true to delete the target, false to keep it.
// When removing a target, best effort is made to write any queued log records before
// closing, with cxt determining how much time can be spent in total.
// Note, keep the timeout short since this method blocks certain logging operations.
func (logr *Logr) RemoveTargets(cxt context.Context, f func(ti TargetInfo) bool) error {
var removed bool
defer func() {
if removed {
// call this after tmux is released since
// it will lock mux and we don't want to
// introduce possible deadlock.
logr.ResetLevelCache()
}
}()
errs := merror.New()
logr.tmux.Lock()
defer logr.tmux.Unlock()
cp := make([]Target, 0)
for _, t := range logr.targets {
inf := TargetInfo{
Name: fmt.Sprintf("%v", t),
Type: fmt.Sprintf("%T", t),
}
if f(inf) {
if err := t.Shutdown(cxt); err != nil {
errs.Append(err)
}
removed = true
} else {
cp = append(cp, t)
}
}
logr.targets = cp
return errs.ErrorOrNil()
}
// ResetLevelCache resets the cached results of `IsLevelEnabled`. This is
// called any time a Target is added or a target's level is changed.
func (logr *Logr) ResetLevelCache() {
// Write lock so that new cache entries cannot be stored while we
// clear the cache.
logr.mux.Lock()
defer logr.mux.Unlock()
logr.resetLevelCache()
}
// resetLevelCache empties the level cache without locking.
// mux.Lock must be held before calling this function.
func (logr *Logr) resetLevelCache() {
// lvlCache may still be nil if no targets added.
if logr.lvlCache != nil {
logr.lvlCache.clear()
}
}
// enqueue adds a log record to the logr queue. If the queue is full then
// this function either blocks or the log record is dropped, depending on
// the result of calling `OnQueueFull`.
func (logr *Logr) enqueue(rec *LogRec) {
if logr.in == nil {
logr.ReportError(fmt.Errorf("AddTarget or Configure must be called before enqueue"))
}
select {
case logr.in <- rec:
default:
if logr.OnQueueFull != nil && logr.OnQueueFull(rec, logr.maxQueueSizeActual) {
return // drop the record
}
select {
case <-time.After(logr.enqueueTimeout()):
logr.ReportError(fmt.Errorf("enqueue timed out for log rec [%v]", rec))
case logr.in <- rec: // block until success or timeout
}
}
}
// exit is called by one of the FatalXXX style APIS. If `logr.OnExit` is not nil
// then that method is called, otherwise the default behavior is to shut down this
// Logr cleanly then call `os.Exit(code)`.
func (logr *Logr) exit(code int) {
if logr.OnExit != nil {
logr.OnExit(code)
return
}
if err := logr.Shutdown(); err != nil {
logr.ReportError(err)
}
os.Exit(code)
}
// panic is called by one of the PanicXXX style APIS. If `logr.OnPanic` is not nil
// then that method is called, otherwise the default behavior is to shut down this
// Logr cleanly then call `panic(err)`.
func (logr *Logr) panic(err interface{}) {
if logr.OnPanic != nil {
logr.OnPanic(err)
return
}
if err := logr.Shutdown(); err != nil {
logr.ReportError(err)
}
panic(err)
}
// Flush blocks while flushing the logr queue and all target queues, by
// writing existing log records to valid targets.
// Any attempts to add new log records will block until flush is complete.
// `logr.FlushTimeout` determines how long flush can execute before
// timing out. Use `IsTimeoutError` to determine if the returned error is
// due to a timeout.
func (logr *Logr) Flush() error {
ctx, cancel := context.WithTimeout(context.Background(), logr.flushTimeout())
defer cancel()
return logr.FlushWithTimeout(ctx)
}
// Flush blocks while flushing the logr queue and all target queues, by
// writing existing log records to valid targets.
// Any attempts to add new log records will block until flush is complete.
// Use `IsTimeoutError` to determine if the returned error is
// due to a timeout.
func (logr *Logr) FlushWithTimeout(ctx context.Context) error {
if !logr.HasTargets() {
return nil
}
if logr.IsShutdown() {
return errors.New("Flush called on shut down Logr")
}
rec := newFlushLogRec(logr.NewLogger())
logr.enqueue(rec)
select {
case <-ctx.Done():
return newTimeoutError("logr queue shutdown timeout")
case <-rec.flush:
}
return nil
}
// IsShutdown returns true if this Logr instance has been shut down.
// No further log records can be enqueued and no targets added after
// shutdown.
func (logr *Logr) IsShutdown() bool {
logr.mux.Lock()
defer logr.mux.Unlock()
return logr.shutdown
}
// Shutdown cleanly stops the logging engine after making best efforts
// to flush all targets. Call this function right before application
// exit - logr cannot be restarted once shut down.
// `logr.ShutdownTimeout` determines how long shutdown can execute before
// timing out. Use `IsTimeoutError` to determine if the returned error is
// due to a timeout.
func (logr *Logr) Shutdown() error {
ctx, cancel := context.WithTimeout(context.Background(), logr.shutdownTimeout())
defer cancel()
return logr.ShutdownWithTimeout(ctx)
}
// Shutdown cleanly stops the logging engine after making best efforts
// to flush all targets. Call this function right before application
// exit - logr cannot be restarted once shut down.
// Use `IsTimeoutError` to determine if the returned error is due to a
// timeout.
func (logr *Logr) ShutdownWithTimeout(ctx context.Context) error {
logr.mux.Lock()
if logr.shutdown {
logr.mux.Unlock()
return errors.New("Shutdown called again after shut down")
}
logr.shutdown = true
logr.resetLevelCache()
logr.mux.Unlock()
logr.metricsCloseOnce.Do(func() {
if logr.metricsDone != nil {
close(logr.metricsDone)
}
})
errs := merror.New()
// close the incoming channel and wait for read loop to exit.
if logr.in != nil {
close(logr.in)
select {
case <-ctx.Done():
errs.Append(newTimeoutError("logr queue shutdown timeout"))
case <-logr.done:
}
}
// logr.in channel should now be drained to targets and no more log records
// can be added.
logr.tmux.RLock()
defer logr.tmux.RUnlock()
for _, t := range logr.targets {
err := t.Shutdown(ctx)
if err != nil {
errs.Append(err)
}
}
return errs.ErrorOrNil()
}
// ReportError is used to notify the host application of any internal logging errors.
// If `OnLoggerError` is not nil, it is called with the error, otherwise the error is
// output to `os.Stderr`.
func (logr *Logr) ReportError(err interface{}) {
logr.incErrorCounter()
if logr.OnLoggerError == nil {
fmt.Fprintln(os.Stderr, err)
return
}
logr.OnLoggerError(fmt.Errorf("%v", err))
}
// BorrowBuffer borrows a buffer from the pool. Release the buffer to reduce garbage collection.
func (logr *Logr) BorrowBuffer() *bytes.Buffer {
if logr.DisableBufferPool {
return &bytes.Buffer{}
}
return logr.bufferPool.Get().(*bytes.Buffer)
}
// ReleaseBuffer returns a buffer to the pool to reduce garbage collection. The buffer is only
// retained if less than MaxPooledBuffer.
func (logr *Logr) ReleaseBuffer(buf *bytes.Buffer) {
if !logr.DisableBufferPool && buf.Cap() < logr.MaxPooledBuffer {
buf.Reset()
logr.bufferPool.Put(buf)
}
}
// enqueueTimeout returns amount of time a log record can take to be queued.
// This only applies to blocking enqueue which happen after `logr.OnQueueFull` is called
// and returns false.
func (logr *Logr) enqueueTimeout() time.Duration {
if logr.EnqueueTimeout == 0 {
return DefaultEnqueueTimeout
}
return logr.EnqueueTimeout
}
// shutdownTimeout returns the timeout duration for `logr.Shutdown`.
func (logr *Logr) shutdownTimeout() time.Duration {
if logr.ShutdownTimeout == 0 {
return DefaultShutdownTimeout
}
return logr.ShutdownTimeout
}
// flushTimeout returns the timeout duration for `logr.Flush`.
func (logr *Logr) flushTimeout() time.Duration {
if logr.FlushTimeout == 0 {
return DefaultFlushTimeout
}
return logr.FlushTimeout
}
// start selects on incoming log records until done channel signals.
// Incoming log records are fanned out to all log targets.
func (logr *Logr) start() {
defer func() {
if r := recover(); r != nil {
logr.ReportError(r)
go logr.start()
}
}()
for rec := range logr.in {
if rec.flush != nil {
logr.flush(rec.flush)
} else {
rec.prep()
logr.fanout(rec)
}
}
close(logr.done)
}
// startMetricsUpdater updates the metrics for any polled values every `MetricsUpdateFreqSecs` seconds until
// logr is closed.
func (logr *Logr) startMetricsUpdater() {
for {
updateFreq := logr.getMetricsUpdateFreqMillis()
if updateFreq == 0 {
updateFreq = DefMetricsUpdateFreqMillis
}
if updateFreq < 250 {
updateFreq = 250 // don't peg the CPU
}
select {
case <-logr.metricsDone:
return
case <-time.After(time.Duration(updateFreq) * time.Millisecond):
logr.setQueueSizeGauge(float64(len(logr.in)))
}
}
}
func (logr *Logr) getMetricsUpdateFreqMillis() int64 {
logr.mux.RLock()
defer logr.mux.RUnlock()
return logr.MetricsUpdateFreqMillis
}
// fanout pushes a LogRec to all targets.
func (logr *Logr) fanout(rec *LogRec) {
var target Target
defer func() {
if r := recover(); r != nil {
logr.ReportError(fmt.Errorf("fanout failed for target %s, %v", target, r))
}
}()
var logged bool
defer func() {
if logged {
logr.incLoggedCounter() // call this after tmux is released
}
}()
logr.tmux.RLock()
defer logr.tmux.RUnlock()
for _, target = range logr.targets {
if enabled, _ := target.IsLevelEnabled(rec.Level()); enabled {
target.Log(rec)
logged = true
}
}
}
// flush drains the queue and notifies when done.
func (logr *Logr) flush(done chan<- struct{}) {
// first drain the logr queue.
loop:
for {
var rec *LogRec
select {
case rec = <-logr.in:
if rec.flush == nil {
rec.prep()
logr.fanout(rec)
}
default:
break loop
}
}
logger := logr.NewLogger()
// drain all the targets; block until finished.
logr.tmux.RLock()
defer logr.tmux.RUnlock()
for _, target := range logr.targets {
rec := newFlushLogRec(logger)
target.Log(rec)
<-rec.flush
}
done <- struct{}{}
}