grafana/pkg/infra/log/log.go
Serge Zaitsev 6ddb8aeae3
Chore: Moving to slog (folders) (#87000)
* moving folders to slog

* trying to fix the tests

* fix per-logger filters in slog

* allow using slog.Default()

* bring cfg back to keep the pr small

* fix tests

* back to the roots
2024-05-02 09:14:12 +02:00

547 lines
14 KiB
Go

// Copyright 2014 The Gogs 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"
"io"
"log/slog"
"os"
"path/filepath"
"sort"
"strings"
"sync"
"time"
gokitlog "github.com/go-kit/log"
"github.com/go-kit/log/level"
"github.com/go-stack/stack"
"github.com/mattn/go-isatty"
"gopkg.in/ini.v1"
"github.com/grafana/grafana/pkg/infra/log/term"
"github.com/grafana/grafana/pkg/infra/log/text"
"github.com/grafana/grafana/pkg/util"
)
var (
loggersToClose []DisposableHandler
loggersToReload []ReloadableHandler
root *logManager
now = time.Now
logTimeFormat = time.RFC3339Nano
ctxLogProviders = []ContextualLogProviderFunc{}
)
const (
// top 7 calls in the stack are within logger
DefaultCallerDepth = 7
CallerContextKey = "caller"
)
func init() {
loggersToClose = make([]DisposableHandler, 0)
loggersToReload = make([]ReloadableHandler, 0)
// Use discard by default
format := func(w io.Writer) gokitlog.Logger {
return gokitlog.NewLogfmtLogger(gokitlog.NewSyncWriter(io.Discard))
}
logger := level.NewFilter(format(os.Stderr), level.AllowInfo())
root = newManager(logger)
RegisterContextualLogProvider(func(ctx context.Context) ([]any, bool) {
pFromCtx := ctx.Value(logParamsContextKey{})
if pFromCtx != nil {
return pFromCtx.([]any), true
}
return nil, false
})
}
// logManager manage loggers
type logManager struct {
*ConcreteLogger
loggersByName map[string]*ConcreteLogger
logFilters []logWithFilters
mutex sync.RWMutex
}
func newManager(logger gokitlog.Logger) *logManager {
return &logManager{
ConcreteLogger: newConcreteLogger(logger),
loggersByName: map[string]*ConcreteLogger{},
}
}
func (lm *logManager) initialize(loggers []logWithFilters) {
lm.mutex.Lock()
defer lm.mutex.Unlock()
defaultLoggers := make([]gokitlog.Logger, len(loggers))
for index, logger := range loggers {
defaultLoggers[index] = level.NewFilter(logger.val, logger.maxLevel)
}
lm.ConcreteLogger.Swap(&compositeLogger{loggers: defaultLoggers})
lm.logFilters = loggers
loggersByName := []string{}
for k := range lm.loggersByName {
loggersByName = append(loggersByName, k)
}
sort.Strings(loggersByName)
for _, name := range loggersByName {
ctxLoggers := make([]gokitlog.Logger, len(loggers))
for index, logger := range loggers {
ctxLogger := gokitlog.With(logger.val, lm.loggersByName[name].ctx...)
if filterLevel, exists := logger.filters[name]; !exists {
ctxLoggers[index] = level.NewFilter(ctxLogger, logger.maxLevel)
} else {
ctxLoggers[index] = level.NewFilter(ctxLogger, filterLevel)
}
}
lm.loggersByName[name].Swap(&compositeLogger{loggers: ctxLoggers})
}
}
func (lm *logManager) New(ctx ...any) *ConcreteLogger {
// First key-value could be "logger" and a logger name, that would be handled differently
// to allow per-logger filtering. Otherwise a simple concrete logger is returned.
if len(ctx) < 2 {
return lm.ConcreteLogger
}
if ctx[0] != "logger" {
return newConcreteLogger(lm.ConcreteLogger, ctx...)
}
lm.mutex.Lock()
defer lm.mutex.Unlock()
// Logger name could be a string variable or an slog.Value()
loggerName := ""
switch v := ctx[1].(type) {
case string:
loggerName = v
case slog.Value:
loggerName = v.String()
default:
return lm.ConcreteLogger
}
if logger, exists := lm.loggersByName[loggerName]; exists {
return logger
}
if len(lm.logFilters) == 0 {
ctxLogger := newConcreteLogger(&lm.SwapLogger, ctx...)
lm.loggersByName[loggerName] = ctxLogger
return ctxLogger
}
compositeLogger := newCompositeLogger()
for _, logWithFilter := range lm.logFilters {
filterLevel, ok := logWithFilter.filters[loggerName]
if ok {
logWithFilter.val = level.NewFilter(logWithFilter.val, filterLevel)
} else {
logWithFilter.val = level.NewFilter(logWithFilter.val, logWithFilter.maxLevel)
}
compositeLogger.loggers = append(compositeLogger.loggers, logWithFilter.val)
}
ctxLogger := newConcreteLogger(compositeLogger, ctx...)
lm.loggersByName[loggerName] = ctxLogger
return ctxLogger
}
type ConcreteLogger struct {
ctx []any
gokitlog.SwapLogger
}
func newConcreteLogger(logger gokitlog.Logger, ctx ...any) *ConcreteLogger {
var swapLogger gokitlog.SwapLogger
if len(ctx) == 0 {
ctx = []any{}
swapLogger.Swap(logger)
} else {
swapLogger.Swap(gokitlog.With(logger, ctx...))
}
return &ConcreteLogger{
ctx: ctx,
SwapLogger: swapLogger,
}
}
func (cl ConcreteLogger) GetLogger() gokitlog.Logger {
return &cl.SwapLogger
}
func (cl *ConcreteLogger) Warn(msg string, args ...any) {
_ = cl.log(msg, level.WarnValue(), args...)
}
func (cl *ConcreteLogger) Debug(msg string, args ...any) {
_ = cl.log(msg, level.DebugValue(), args...)
}
func (cl *ConcreteLogger) Log(ctx ...any) error {
logger := gokitlog.With(&cl.SwapLogger, "t", gokitlog.TimestampFormat(now, logTimeFormat))
return logger.Log(ctx...)
}
func (cl *ConcreteLogger) Error(msg string, args ...any) {
_ = cl.log(msg, level.ErrorValue(), args...)
}
func (cl *ConcreteLogger) Info(msg string, args ...any) {
_ = cl.log(msg, level.InfoValue(), args...)
}
func (cl *ConcreteLogger) log(msg string, logLevel level.Value, args ...any) error {
return cl.Log(append([]any{level.Key(), logLevel, "msg", msg}, args...)...)
}
func FromContext(ctx context.Context) []any {
args := []any{}
for _, p := range ctxLogProviders {
if pArgs, exists := p(ctx); exists {
args = append(args, pArgs...)
}
}
return args
}
func (cl *ConcreteLogger) FromContext(ctx context.Context) Logger {
args := FromContext(ctx)
if len(args) > 0 {
return cl.New(args...)
}
return cl
}
func (cl *ConcreteLogger) New(ctx ...any) *ConcreteLogger {
if len(cl.ctx) == 0 {
return root.New(ctx...)
}
return newConcreteLogger(gokitlog.With(&cl.SwapLogger), ctx...)
}
// New creates a new logger.
// First ctx argument is expected to be the name of the logger.
// Note: For a contextual logger, i.e. a logger with a shared
// name plus additional contextual information, you must use the
// Logger interface New method for it to work as expected.
// Example creating a shared logger:
//
// requestLogger := log.New("request-logger")
//
// Example creating a contextual logger:
//
// contextualLogger := requestLogger.New("username", "user123")
func New(ctx ...any) *ConcreteLogger {
if len(ctx) == 0 {
return root.New()
}
ctx = append([]any{"logger"}, ctx...)
return root.New(ctx...)
}
// NewNopLogger returns a logger that doesn't do anything.
func NewNopLogger() *ConcreteLogger {
return newConcreteLogger(gokitlog.NewNopLogger())
}
func with(ctxLogger *ConcreteLogger, withFunc func(gokitlog.Logger, ...any) gokitlog.Logger, ctx []any) *ConcreteLogger {
if len(ctx) == 0 {
return ctxLogger
}
ctxLogger.Swap(withFunc(ctxLogger.GetLogger(), ctx...))
return ctxLogger
}
// WithPrefix adds context that will be added to the log message
func WithPrefix(ctxLogger *ConcreteLogger, ctx ...any) *ConcreteLogger {
return with(ctxLogger, gokitlog.WithPrefix, ctx)
}
// WithSuffix adds context that will be appended at the end of the log message
func WithSuffix(ctxLogger *ConcreteLogger, ctx ...any) *ConcreteLogger {
return with(ctxLogger, gokitlog.WithSuffix, ctx)
}
// ContextualLogProviderFunc contextual log provider function definition.
type ContextualLogProviderFunc func(ctx context.Context) ([]any, bool)
// RegisterContextualLogProvider registers a ContextualLogProviderFunc
// that will be used to provide context when Logger.FromContext is called.
func RegisterContextualLogProvider(mw ContextualLogProviderFunc) {
ctxLogProviders = append(ctxLogProviders, mw)
}
type logParamsContextKey struct{}
// WithContextualAttributes adds contextual attributes to the logger based on the given context.
// That allows loggers further down the chain to automatically log those attributes.
func WithContextualAttributes(ctx context.Context, logParams []any) context.Context {
p := logParams
if ctx.Value(logParamsContextKey{}) != nil {
p = append(ctx.Value(logParamsContextKey{}).([]any), logParams...)
}
return context.WithValue(ctx, logParamsContextKey{}, p)
}
var logLevels = map[string]level.Option{
"trace": level.AllowDebug(),
"debug": level.AllowDebug(),
"info": level.AllowInfo(),
"warn": level.AllowWarn(),
"error": level.AllowError(),
"critical": level.AllowError(),
}
func getLogLevelFromConfig(key string, defaultName string, cfg *ini.File) (string, level.Option) {
levelName := cfg.Section(key).Key("level").MustString(defaultName)
levelName = strings.ToLower(levelName)
level := getLogLevelFromString(levelName)
return levelName, level
}
func getLogLevelFromString(levelName string) level.Option {
loglevel, ok := logLevels[levelName]
if !ok {
_ = level.Error(root).Log("Unknown log level", "level", levelName)
return level.AllowError()
}
return loglevel
}
// the filter is composed with logger name and level
func getFilters(filterStrArray []string) map[string]level.Option {
filterMap := make(map[string]level.Option)
for i := 0; i < len(filterStrArray); i++ {
filterStr := strings.TrimSpace(filterStrArray[i])
if strings.HasPrefix(filterStr, ";") || strings.HasPrefix(filterStr, "#") {
if len(filterStr) == 1 {
i++
}
continue
}
parts := strings.Split(filterStr, ":")
if len(parts) > 1 {
filterMap[parts[0]] = getLogLevelFromString(parts[1])
}
}
return filterMap
}
func Stack(skip int) string {
call := stack.Caller(skip)
s := stack.Trace().TrimBelow(call).TrimRuntime()
return s.String()
}
// StackCaller returns a go-kit Valuer function that returns the stack trace from the place it is called. Argument `skip` allows skipping top n lines from the stack.
func StackCaller(skip int) gokitlog.Valuer {
return func() any {
return Stack(skip + 1)
}
}
// Caller proxies go-kit/log Caller and returns a Valuer function that returns a file and line from a specified depth
// in the callstack
func Caller(depth int) gokitlog.Valuer {
return gokitlog.Caller(depth)
}
type Formatedlogger func(w io.Writer) gokitlog.Logger
func getLogFormat(format string) Formatedlogger {
switch format {
case "console":
if isatty.IsTerminal(os.Stdout.Fd()) {
return func(w io.Writer) gokitlog.Logger {
return term.NewTerminalLogger(w)
}
}
return func(w io.Writer) gokitlog.Logger {
return text.NewTextLogger(w)
}
case "text":
return func(w io.Writer) gokitlog.Logger {
return text.NewTextLogger(w)
}
case "json":
return func(w io.Writer) gokitlog.Logger {
return gokitlog.NewJSONLogger(gokitlog.NewSyncWriter(w))
}
default:
return func(w io.Writer) gokitlog.Logger {
return text.NewTextLogger(w)
}
}
}
// this is for file logger only
func Close() error {
var err error
for _, logger := range loggersToClose {
if e := logger.Close(); e != nil && err == nil {
err = e
}
}
loggersToClose = make([]DisposableHandler, 0)
return err
}
// Reload reloads all loggers.
func Reload() error {
for _, logger := range loggersToReload {
if err := logger.Reload(); err != nil {
return err
}
}
return nil
}
type logWithFilters struct {
val gokitlog.Logger
filters map[string]level.Option
maxLevel level.Option
}
func ReadLoggingConfig(modes []string, logsPath string, cfg *ini.File) error {
if err := Close(); err != nil {
return err
}
logEnabled := cfg.Section("log").Key("enabled").MustBool(true)
if !logEnabled {
return nil
}
defaultLevelName, _ := getLogLevelFromConfig("log", "info", cfg)
defaultFilters := getFilters(util.SplitString(cfg.Section("log").Key("filters").String()))
var configLoggers []logWithFilters
for _, mode := range modes {
mode = strings.TrimSpace(mode)
sec, err := cfg.GetSection("log." + mode)
if err != nil {
_ = level.Error(root).Log("Unknown log mode", "mode", mode)
return fmt.Errorf("failed to get config section log. %s: %w", mode, err)
}
// Log level.
_, leveloption := getLogLevelFromConfig("log."+mode, defaultLevelName, cfg)
modeFilters := getFilters(util.SplitString(sec.Key("filters").String()))
format := getLogFormat(sec.Key("format").MustString(""))
var handler logWithFilters
switch mode {
case "console":
handler.val = format(os.Stdout)
case "file":
fileName := sec.Key("file_name").MustString(filepath.Join(logsPath, "grafana.log"))
dpath := filepath.Dir(fileName)
if err := os.MkdirAll(dpath, os.ModePerm); err != nil {
_ = level.Error(root).Log("Failed to create directory", "dpath", dpath, "err", err)
continue
}
fileHandler := NewFileWriter()
fileHandler.Filename = fileName
fileHandler.Format = format
fileHandler.Rotate = sec.Key("log_rotate").MustBool(true)
fileHandler.Maxlines = sec.Key("max_lines").MustInt(1000000)
fileHandler.Maxsize = 1 << uint(sec.Key("max_size_shift").MustInt(28))
fileHandler.Daily = sec.Key("daily_rotate").MustBool(true)
fileHandler.Maxdays = sec.Key("max_days").MustInt64(7)
if err := fileHandler.Init(); err != nil {
_ = level.Error(root).Log("Failed to initialize file handler", "dpath", dpath, "err", err)
continue
}
loggersToClose = append(loggersToClose, fileHandler)
loggersToReload = append(loggersToReload, fileHandler)
handler.val = fileHandler
case "syslog":
sysLogHandler := NewSyslog(sec, format)
loggersToClose = append(loggersToClose, sysLogHandler)
handler.val = sysLogHandler.logger
}
if handler.val == nil {
panic(fmt.Sprintf("Handler is uninitialized for mode %q", mode))
}
// join default filters and mode filters together
for key, value := range defaultFilters {
if _, exist := modeFilters[key]; !exist {
modeFilters[key] = value
}
}
handler.filters = modeFilters
handler.maxLevel = leveloption
configLoggers = append(configLoggers, handler)
}
if len(configLoggers) > 0 {
root.initialize(configLoggers)
}
return nil
}
// SetupConsoleLogger setup Grafana console logger with provided level.
func SetupConsoleLogger(level string) error {
iniFile := ini.Empty()
sLog, err := iniFile.NewSection("log")
if err != nil {
return err
}
_, err = sLog.NewKey("level", level)
if err != nil {
return err
}
sLogConsole, err := iniFile.NewSection("log.console")
if err != nil {
return err
}
_, err = sLogConsole.NewKey("format", "console")
if err != nil {
return err
}
err = ReadLoggingConfig([]string{"console"}, "", iniFile)
if err != nil {
return err
}
return nil
}