VictoriaMetrics/vendor/k8s.io/klog/v2/contextual.go
2024-02-24 03:22:39 +02:00

212 lines
7.1 KiB
Go

/*
Copyright 2021 The Kubernetes Authors.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
package klog
import (
"context"
"github.com/go-logr/logr"
)
// This file provides the implementation of
// https://github.com/kubernetes/enhancements/tree/master/keps/sig-instrumentation/1602-structured-logging
//
// SetLogger and ClearLogger were originally added to klog.go and got moved
// here. Contextual logging adds a way to retrieve a Logger for direct logging
// without the logging calls in klog.go.
//
// The global variables are expected to be modified only during sequential
// parts of a program (init, serial tests) and therefore are not protected by
// mutex locking.
var (
// klogLogger is used as fallback for logging through the normal klog code
// when no Logger is set.
klogLogger logr.Logger = logr.New(&klogger{})
)
// SetLogger sets a Logger implementation that will be used as backing
// implementation of the traditional klog log calls. klog will do its own
// verbosity checks before calling logger.V().Info. logger.Error is always
// called, regardless of the klog verbosity settings.
//
// If set, all log lines will be suppressed from the regular output, and
// redirected to the logr implementation.
// Use as:
//
// ...
// klog.SetLogger(zapr.NewLogger(zapLog))
//
// To remove a backing logr implemention, use ClearLogger. Setting an
// empty logger with SetLogger(logr.Logger{}) does not work.
//
// Modifying the logger is not thread-safe and should be done while no other
// goroutines invoke log calls, usually during program initialization.
func SetLogger(logger logr.Logger) {
SetLoggerWithOptions(logger)
}
// SetLoggerWithOptions is a more flexible version of SetLogger. Without
// additional options, it behaves exactly like SetLogger. By passing
// ContextualLogger(true) as option, it can be used to set a logger that then
// will also get called directly by applications which retrieve it via
// FromContext, Background, or TODO.
//
// Supporting direct calls is recommended because it avoids the overhead of
// routing log entries through klogr into klog and then into the actual Logger
// backend.
func SetLoggerWithOptions(logger logr.Logger, opts ...LoggerOption) {
logging.loggerOptions = loggerOptions{}
for _, opt := range opts {
opt(&logging.loggerOptions)
}
logging.logger = &logWriter{
Logger: logger,
writeKlogBuffer: logging.loggerOptions.writeKlogBuffer,
}
}
// ContextualLogger determines whether the logger passed to
// SetLoggerWithOptions may also get called directly. Such a logger cannot rely
// on verbosity checking in klog.
func ContextualLogger(enabled bool) LoggerOption {
return func(o *loggerOptions) {
o.contextualLogger = enabled
}
}
// FlushLogger provides a callback for flushing data buffered by the logger.
func FlushLogger(flush func()) LoggerOption {
return func(o *loggerOptions) {
o.flush = flush
}
}
// WriteKlogBuffer sets a callback that will be invoked by klog to write output
// produced by non-structured log calls like Infof.
//
// The buffer will contain exactly the same data that klog normally would write
// into its own output stream(s). In particular this includes the header, if
// klog is configured to write one. The callback then can divert that data into
// its own output streams. The buffer may or may not end in a line break.
//
// Without such a callback, klog will call the logger's Info or Error method
// with just the message string (i.e. no header).
func WriteKlogBuffer(write func([]byte)) LoggerOption {
return func(o *loggerOptions) {
o.writeKlogBuffer = write
}
}
// LoggerOption implements the functional parameter paradigm for
// SetLoggerWithOptions.
type LoggerOption func(o *loggerOptions)
type loggerOptions struct {
contextualLogger bool
flush func()
writeKlogBuffer func([]byte)
}
// logWriter combines a logger (always set) with a write callback (optional).
type logWriter struct {
Logger
writeKlogBuffer func([]byte)
}
// ClearLogger removes a backing Logger implementation if one was set earlier
// with SetLogger.
//
// Modifying the logger is not thread-safe and should be done while no other
// goroutines invoke log calls, usually during program initialization.
func ClearLogger() {
logging.logger = nil
logging.loggerOptions = loggerOptions{}
}
// EnableContextualLogging controls whether contextual logging is enabled.
// By default it is enabled. When disabled, FromContext avoids looking up
// the logger in the context and always returns the global logger.
// LoggerWithValues, LoggerWithName, and NewContext become no-ops
// and return their input logger respectively context. This may be useful
// to avoid the additional overhead for contextual logging.
//
// This must be called during initialization before goroutines are started.
func EnableContextualLogging(enabled bool) {
logging.contextualLoggingEnabled = enabled
}
// FromContext retrieves a logger set by the caller or, if not set,
// falls back to the program's global logger (a Logger instance or klog
// itself).
func FromContext(ctx context.Context) Logger {
if logging.contextualLoggingEnabled {
if logger, err := logr.FromContext(ctx); err == nil {
return logger
}
}
return Background()
}
// TODO can be used as a last resort by code that has no means of
// receiving a logger from its caller. FromContext or an explicit logger
// parameter should be used instead.
func TODO() Logger {
return Background()
}
// Background retrieves the fallback logger. It should not be called before
// that logger was initialized by the program and not by code that should
// better receive a logger via its parameters. TODO can be used as a temporary
// solution for such code.
func Background() Logger {
if logging.loggerOptions.contextualLogger {
// Is non-nil because logging.loggerOptions.contextualLogger is
// only true if a logger was set.
return logging.logger.Logger
}
return klogLogger
}
// LoggerWithValues returns logger.WithValues(...kv) when
// contextual logging is enabled, otherwise the logger.
func LoggerWithValues(logger Logger, kv ...interface{}) Logger {
if logging.contextualLoggingEnabled {
return logger.WithValues(kv...)
}
return logger
}
// LoggerWithName returns logger.WithName(name) when contextual logging is
// enabled, otherwise the logger.
func LoggerWithName(logger Logger, name string) Logger {
if logging.contextualLoggingEnabled {
return logger.WithName(name)
}
return logger
}
// NewContext returns logr.NewContext(ctx, logger) when
// contextual logging is enabled, otherwise ctx.
func NewContext(ctx context.Context, logger Logger) context.Context {
if logging.contextualLoggingEnabled {
return logr.NewContext(ctx, logger)
}
return ctx
}