status-go/vendor/github.com/ipfs/go-log/v2/setup.go

401 lines
9.4 KiB
Go

package log
import (
"errors"
"fmt"
"os"
"regexp"
"strings"
"sync"
"github.com/mattn/go-isatty"
"go.uber.org/zap"
"go.uber.org/zap/zapcore"
)
var config Config
func init() {
SetupLogging(configFromEnv())
}
// Logging environment variables
const (
// IPFS_* prefixed env vars kept for backwards compatibility
// for this release. They will not be available in the next
// release.
//
// GOLOG_* env vars take precedences over IPFS_* env vars.
envIPFSLogging = "IPFS_LOGGING"
envIPFSLoggingFmt = "IPFS_LOGGING_FMT"
envLogging = "GOLOG_LOG_LEVEL"
envLoggingFmt = "GOLOG_LOG_FMT"
envLoggingFile = "GOLOG_FILE" // /path/to/file
envLoggingURL = "GOLOG_URL" // url that will be processed by sink in the zap
envLoggingOutput = "GOLOG_OUTPUT" // possible values: stdout|stderr|file combine multiple values with '+'
envLoggingLabels = "GOLOG_LOG_LABELS" // comma-separated key-value pairs, i.e. "app=example_app,dc=sjc-1"
)
type LogFormat int
const (
ColorizedOutput LogFormat = iota
PlaintextOutput
JSONOutput
)
type Config struct {
// Format overrides the format of the log output. Defaults to ColorizedOutput
Format LogFormat
// Level is the default minimum enabled logging level.
Level LogLevel
// SubsystemLevels are the default levels per-subsystem. When unspecified, defaults to Level.
SubsystemLevels map[string]LogLevel
// Stderr indicates whether logs should be written to stderr.
Stderr bool
// Stdout indicates whether logs should be written to stdout.
Stdout bool
// File is a path to a file that logs will be written to.
File string
// URL with schema supported by zap. Use zap.RegisterSink
URL string
// Labels is a set of key-values to apply to all loggers
Labels map[string]string
}
// ErrNoSuchLogger is returned when the util pkg is asked for a non existant logger
var ErrNoSuchLogger = errors.New("error: No such logger")
var loggerMutex sync.RWMutex // guards access to global logger state
// loggers is the set of loggers in the system
var loggers = make(map[string]*zap.SugaredLogger)
var levels = make(map[string]zap.AtomicLevel)
// primaryFormat is the format of the primary core used for logging
var primaryFormat LogFormat = ColorizedOutput
// defaultLevel is the default log level
var defaultLevel LogLevel = LevelError
// primaryCore is the primary logging core
var primaryCore zapcore.Core
// loggerCore is the base for all loggers created by this package
var loggerCore = &lockedMultiCore{}
// GetConfig returns a copy of the saved config. It can be inspected, modified,
// and re-applied using a subsequent call to SetupLogging().
func GetConfig() Config {
return config
}
// SetupLogging will initialize the logger backend and set the flags.
// TODO calling this in `init` pushes all configuration to env variables
// - move it out of `init`? then we need to change all the code (js-ipfs, go-ipfs) to call this explicitly
// - have it look for a config file? need to define what that is
func SetupLogging(cfg Config) {
loggerMutex.Lock()
defer loggerMutex.Unlock()
config = cfg
primaryFormat = cfg.Format
defaultLevel = cfg.Level
outputPaths := []string{}
if cfg.Stderr {
outputPaths = append(outputPaths, "stderr")
}
if cfg.Stdout {
outputPaths = append(outputPaths, "stdout")
}
// check if we log to a file
if len(cfg.File) > 0 {
if path, err := normalizePath(cfg.File); err != nil {
fmt.Fprintf(os.Stderr, "failed to resolve log path '%q', logging to %s\n", cfg.File, outputPaths)
} else {
outputPaths = append(outputPaths, path)
}
}
if len(cfg.URL) > 0 {
outputPaths = append(outputPaths, cfg.URL)
}
ws, _, err := zap.Open(outputPaths...)
if err != nil {
panic(fmt.Sprintf("unable to open logging output: %v", err))
}
newPrimaryCore := newCore(primaryFormat, ws, LevelDebug) // the main core needs to log everything.
for k, v := range cfg.Labels {
newPrimaryCore = newPrimaryCore.With([]zap.Field{zap.String(k, v)})
}
setPrimaryCore(newPrimaryCore)
setAllLoggers(defaultLevel)
for name, level := range cfg.SubsystemLevels {
if leveler, ok := levels[name]; ok {
leveler.SetLevel(zapcore.Level(level))
} else {
levels[name] = zap.NewAtomicLevelAt(zapcore.Level(level))
}
}
}
// SetPrimaryCore changes the primary logging core. If the SetupLogging was
// called then the previously configured core will be replaced.
func SetPrimaryCore(core zapcore.Core) {
loggerMutex.Lock()
defer loggerMutex.Unlock()
setPrimaryCore(core)
}
func setPrimaryCore(core zapcore.Core) {
if primaryCore != nil {
loggerCore.ReplaceCore(primaryCore, core)
} else {
loggerCore.AddCore(core)
}
primaryCore = core
}
// SetDebugLogging calls SetAllLoggers with logging.DEBUG
func SetDebugLogging() {
SetAllLoggers(LevelDebug)
}
// SetAllLoggers changes the logging level of all loggers to lvl
func SetAllLoggers(lvl LogLevel) {
loggerMutex.RLock()
defer loggerMutex.RUnlock()
setAllLoggers(lvl)
}
func setAllLoggers(lvl LogLevel) {
for _, l := range levels {
l.SetLevel(zapcore.Level(lvl))
}
}
// SetLogLevel changes the log level of a specific subsystem
// name=="*" changes all subsystems
func SetLogLevel(name, level string) error {
lvl, err := LevelFromString(level)
if err != nil {
return err
}
// wildcard, change all
if name == "*" {
SetAllLoggers(lvl)
return nil
}
loggerMutex.RLock()
defer loggerMutex.RUnlock()
// Check if we have a logger by that name
if _, ok := levels[name]; !ok {
return ErrNoSuchLogger
}
levels[name].SetLevel(zapcore.Level(lvl))
return nil
}
// SetLogLevelRegex sets all loggers to level `l` that match expression `e`.
// An error is returned if `e` fails to compile.
func SetLogLevelRegex(e, l string) error {
lvl, err := LevelFromString(l)
if err != nil {
return err
}
rem, err := regexp.Compile(e)
if err != nil {
return err
}
loggerMutex.Lock()
defer loggerMutex.Unlock()
for name := range loggers {
if rem.MatchString(name) {
levels[name].SetLevel(zapcore.Level(lvl))
}
}
return nil
}
// GetSubsystems returns a slice containing the
// names of the current loggers
func GetSubsystems() []string {
loggerMutex.RLock()
defer loggerMutex.RUnlock()
subs := make([]string, 0, len(loggers))
for k := range loggers {
subs = append(subs, k)
}
return subs
}
func getLogger(name string) *zap.SugaredLogger {
loggerMutex.Lock()
defer loggerMutex.Unlock()
log, ok := loggers[name]
if !ok {
level, ok := levels[name]
if !ok {
level = zap.NewAtomicLevelAt(zapcore.Level(defaultLevel))
levels[name] = level
}
log = zap.New(loggerCore).
WithOptions(
zap.IncreaseLevel(level),
zap.AddCaller(),
).
Named(name).
Sugar()
loggers[name] = log
}
return log
}
// configFromEnv returns a Config with defaults populated using environment variables.
func configFromEnv() Config {
cfg := Config{
Format: ColorizedOutput,
Stderr: true,
Level: LevelError,
SubsystemLevels: map[string]LogLevel{},
Labels: map[string]string{},
}
format := os.Getenv(envLoggingFmt)
if format == "" {
format = os.Getenv(envIPFSLoggingFmt)
}
var noExplicitFormat bool
switch format {
case "color":
cfg.Format = ColorizedOutput
case "nocolor":
cfg.Format = PlaintextOutput
case "json":
cfg.Format = JSONOutput
default:
if format != "" {
fmt.Fprintf(os.Stderr, "ignoring unrecognized log format '%s'\n", format)
}
noExplicitFormat = true
}
lvl := os.Getenv(envLogging)
if lvl == "" {
lvl = os.Getenv(envIPFSLogging)
}
if lvl != "" {
for _, kvs := range strings.Split(lvl, ",") {
kv := strings.SplitN(kvs, "=", 2)
lvl, err := LevelFromString(kv[len(kv)-1])
if err != nil {
fmt.Fprintf(os.Stderr, "error setting log level %q: %s\n", kvs, err)
continue
}
switch len(kv) {
case 1:
cfg.Level = lvl
case 2:
cfg.SubsystemLevels[kv[0]] = lvl
}
}
}
cfg.File = os.Getenv(envLoggingFile)
// Disable stderr logging when a file is specified
// https://github.com/ipfs/go-log/issues/83
if cfg.File != "" {
cfg.Stderr = false
}
cfg.URL = os.Getenv(envLoggingURL)
output := os.Getenv(envLoggingOutput)
outputOptions := strings.Split(output, "+")
for _, opt := range outputOptions {
switch opt {
case "stdout":
cfg.Stdout = true
case "stderr":
cfg.Stderr = true
case "file":
if cfg.File == "" {
fmt.Fprint(os.Stderr, "please specify a GOLOG_FILE value to write to")
}
case "url":
if cfg.URL == "" {
fmt.Fprint(os.Stderr, "please specify a GOLOG_URL value to write to")
}
}
}
// Check that neither of the requested Std* nor the file are TTYs
// At this stage (configFromEnv) we do not have a uniform list to examine yet
if noExplicitFormat &&
!(cfg.Stdout && isTerm(os.Stdout)) &&
!(cfg.Stderr && isTerm(os.Stderr)) &&
// check this last: expensive
!(cfg.File != "" && pathIsTerm(cfg.File)) {
cfg.Format = PlaintextOutput
}
labels := os.Getenv(envLoggingLabels)
if labels != "" {
labelKVs := strings.Split(labels, ",")
for _, label := range labelKVs {
kv := strings.Split(label, "=")
if len(kv) != 2 {
fmt.Fprint(os.Stderr, "invalid label k=v: ", label)
continue
}
cfg.Labels[kv[0]] = kv[1]
}
}
return cfg
}
func isTerm(f *os.File) bool {
return isatty.IsTerminal(f.Fd()) || isatty.IsCygwinTerminal(f.Fd())
}
func pathIsTerm(p string) bool {
// !!!no!!! O_CREAT, if we fail - we fail
f, err := os.OpenFile(p, os.O_WRONLY, 0)
if f != nil {
defer f.Close() // nolint:errcheck
}
return err == nil && isTerm(f)
}