matterbridge/vendor/github.com/mattermost/logr/v2/options.go

193 lines
6.1 KiB
Go

package logr
import (
"errors"
"time"
)
type Option func(*Logr) error
type options struct {
maxQueueSize int
onLoggerError func(error)
onQueueFull func(rec *LogRec, maxQueueSize int) bool
onTargetQueueFull func(target Target, rec *LogRec, maxQueueSize int) bool
onExit func(code int)
onPanic func(err interface{})
enqueueTimeout time.Duration
shutdownTimeout time.Duration
flushTimeout time.Duration
useSyncMapLevelCache bool
maxPooledBuffer int
disableBufferPool bool
metricsCollector MetricsCollector
metricsUpdateFreqMillis int64
stackFilter map[string]struct{}
}
// 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.
// Defaults to DefaultMaxQueueSize.
func MaxQueueSize(size int) Option {
return func(l *Logr) error {
if size < 0 {
return errors.New("size cannot be less than zero")
}
l.options.maxQueueSize = size
return nil
}
}
// 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.
func OnLoggerError(f func(error)) Option {
return func(l *Logr) error {
l.options.onLoggerError = f
return nil
}
}
// 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.
func OnQueueFull(f func(rec *LogRec, maxQueueSize int) bool) Option {
return func(l *Logr) error {
l.options.onQueueFull = f
return nil
}
}
// 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.
func OnTargetQueueFull(f func(target Target, rec *LogRec, maxQueueSize int) bool) Option {
return func(l *Logr) error {
l.options.onTargetQueueFull = f
return nil
}
}
// 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)`.
func OnExit(f func(code int)) Option {
return func(l *Logr) error {
l.options.onExit = f
return nil
}
}
// 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)`.
func OnPanic(f func(err interface{})) Option {
return func(l *Logr) error {
l.options.onPanic = f
return nil
}
}
// 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.
func EnqueueTimeout(dur time.Duration) Option {
return func(l *Logr) error {
l.options.enqueueTimeout = dur
return nil
}
}
// ShutdownTimeout is the amount of time `logr.Shutdown` can execute before
// timing out. An alternative is to use `logr.ShutdownWithContext` and supply
// a timeout.
func ShutdownTimeout(dur time.Duration) Option {
return func(l *Logr) error {
l.options.shutdownTimeout = dur
return nil
}
}
// FlushTimeout is the amount of time `logr.Flush` can execute before
// timing out. An alternative is to use `logr.FlushWithContext` and supply
// a timeout.
func FlushTimeout(dur time.Duration) Option {
return func(l *Logr) error {
l.options.flushTimeout = dur
return nil
}
}
// UseSyncMapLevelCache can be set to true when high concurrency (e.g. >32 cores)
// is expected. This may improve performance with large numbers of cores - benchmark
// for your use case.
func UseSyncMapLevelCache(use bool) Option {
return func(l *Logr) error {
l.options.useSyncMapLevelCache = use
return nil
}
}
// MaxPooledBufferSize 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 setting lets you control how big a pooled buffer
// can be - anything larger will be garbage collected after use.
// Defaults to 1MB.
func MaxPooledBufferSize(size int) Option {
return func(l *Logr) error {
l.options.maxPooledBuffer = size
return nil
}
}
// DisableBufferPool when true disables the buffer pool. See MaxPooledBuffer.
func DisableBufferPool(disable bool) Option {
return func(l *Logr) error {
l.options.disableBufferPool = disable
return nil
}
}
// SetMetricsCollector enables metrics collection by supplying a MetricsCollector.
// The MetricsCollector provides counters and gauges that are updated by log targets.
// `updateFreqMillis` determines how often polled metrics are updated. Defaults to 15000 (15 seconds)
// and must be at least 250 so we don't peg the CPU.
func SetMetricsCollector(collector MetricsCollector, updateFreqMillis int64) Option {
return func(l *Logr) error {
if collector == nil {
return errors.New("collector cannot be nil")
}
if updateFreqMillis < 250 {
return errors.New("updateFreqMillis cannot be less than 250")
}
l.options.metricsCollector = collector
l.options.metricsUpdateFreqMillis = updateFreqMillis
return nil
}
}
// StackFilter provides a list of package names to exclude from the top of
// stack traces. The Logr packages are automatically filtered.
func StackFilter(pkg ...string) Option {
return func(l *Logr) error {
if l.options.stackFilter == nil {
l.options.stackFilter = make(map[string]struct{})
}
for _, p := range pkg {
if p != "" {
l.options.stackFilter[p] = struct{}{}
}
}
return nil
}
}