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mirror of https://github.com/ergochat/ergo.git synced 2024-11-25 21:39:25 +01:00
ergo/irc/logger/logger.go
Shivaram Lingamneni 35128bfc23 use new aligned atomic types everywhere
See 69448b13a1 / #1969; the compiler can now ensure that a uint64
intended for atomic access is always aligned to a 64-bit boundary.
Convert atomic operations on uint32s and pointers as well.
2022-08-10 02:47:39 -04:00

275 lines
7.4 KiB
Go

// Copyright (c) 2017 Daniel Oaks <daniel@danieloaks.net>
// released under the MIT license
package logger
import (
"bufio"
"bytes"
"fmt"
"os"
"time"
"sync"
"sync/atomic"
)
// Level represents the level to log messages at.
type Level int
const (
// LogDebug represents debug messages.
LogDebug Level = iota
// LogInfo represents informational messages.
LogInfo
// LogWarning represents warnings.
LogWarning
// LogError represents errors.
LogError
)
var (
// LogLevelNames takes a config name and gives the real log level.
LogLevelNames = map[string]Level{
"debug": LogDebug,
"info": LogInfo,
"warn": LogWarning,
"warning": LogWarning,
"warnings": LogWarning,
"error": LogError,
"errors": LogError,
}
// LogLevelDisplayNames gives the display name to use for our log levels.
LogLevelDisplayNames = map[Level]string{
LogDebug: "debug",
LogInfo: "info",
LogWarning: "warn",
LogError: "error",
}
// these are old names for log types that might still appear in yaml configs,
// but have been replaced in the code. this is used for canonicalization when
// loading configs, but not during logging.
typeAliases = map[string]string{
"localconnect": "connect",
"localconnect-ip": "connect-ip",
}
)
func resolveTypeAlias(typeName string) (result string) {
if canonicalized, ok := typeAliases[typeName]; ok {
return canonicalized
}
return typeName
}
// Manager is the main interface used to log debug/info/error messages.
type Manager struct {
configMutex sync.RWMutex
loggers []singleLogger
stdoutWriteLock sync.Mutex // use one lock for both stdout and stderr
fileWriteLock sync.Mutex
loggingRawIO atomic.Uint32
}
// LoggingConfig represents the configuration of a single logger.
type LoggingConfig struct {
Method string
MethodStdout bool
MethodStderr bool
MethodFile bool
Filename string
TypeString string `yaml:"type"`
Types []string `yaml:"real-types"`
ExcludedTypes []string `yaml:"real-excluded-types"`
LevelString string `yaml:"level"`
Level Level `yaml:"level-real"`
}
// NewManager returns a new log manager.
func NewManager(config []LoggingConfig) (*Manager, error) {
var logger Manager
if err := logger.ApplyConfig(config); err != nil {
return nil, err
}
return &logger, nil
}
// ApplyConfig applies the given config to this logger (rehashes the config, in other words).
func (logger *Manager) ApplyConfig(config []LoggingConfig) error {
logger.configMutex.Lock()
defer logger.configMutex.Unlock()
for _, logger := range logger.loggers {
logger.Close()
}
logger.loggers = nil
logger.loggingRawIO.Store(0)
// for safety, this deep-copies all mutable data in `config`
// XXX let's keep it that way
var lastErr error
for _, logConfig := range config {
typeMap := make(map[string]bool)
for _, name := range logConfig.Types {
typeMap[resolveTypeAlias(name)] = true
}
excludedTypeMap := make(map[string]bool)
for _, name := range logConfig.ExcludedTypes {
excludedTypeMap[resolveTypeAlias(name)] = true
}
sLogger := singleLogger{
MethodSTDOUT: logConfig.MethodStdout,
MethodSTDERR: logConfig.MethodStderr,
MethodFile: fileMethod{
Enabled: logConfig.MethodFile,
Filename: logConfig.Filename,
},
Level: logConfig.Level,
Types: typeMap,
ExcludedTypes: excludedTypeMap,
stdoutWriteLock: &logger.stdoutWriteLock,
fileWriteLock: &logger.fileWriteLock,
}
ioEnabled := typeMap["userinput"] || typeMap["useroutput"] || (typeMap["*"] && !(excludedTypeMap["userinput"] && excludedTypeMap["useroutput"]))
// raw I/O is only logged at level debug;
if ioEnabled && logConfig.Level == LogDebug {
logger.loggingRawIO.Store(1)
}
if sLogger.MethodFile.Enabled {
file, err := os.OpenFile(sLogger.MethodFile.Filename, os.O_CREATE|os.O_APPEND|os.O_WRONLY, 0666)
if err != nil {
lastErr = fmt.Errorf("Could not open log file %s [%s]", sLogger.MethodFile.Filename, err.Error())
}
writer := bufio.NewWriter(file)
sLogger.MethodFile.File = file
sLogger.MethodFile.Writer = writer
}
logger.loggers = append(logger.loggers, sLogger)
}
return lastErr
}
// IsLoggingRawIO returns true if raw user input and output is being logged.
func (logger *Manager) IsLoggingRawIO() bool {
return logger.loggingRawIO.Load() == 1
}
// Log logs the given message with the given details.
func (logger *Manager) Log(level Level, logType string, messageParts ...string) {
logger.configMutex.RLock()
defer logger.configMutex.RUnlock()
for _, singleLogger := range logger.loggers {
singleLogger.Log(level, logType, messageParts...)
}
}
// Debug logs the given message as a debug message.
func (logger *Manager) Debug(logType string, messageParts ...string) {
logger.Log(LogDebug, logType, messageParts...)
}
// Info logs the given message as an info message.
func (logger *Manager) Info(logType string, messageParts ...string) {
logger.Log(LogInfo, logType, messageParts...)
}
// Warning logs the given message as a warning message.
func (logger *Manager) Warning(logType string, messageParts ...string) {
logger.Log(LogWarning, logType, messageParts...)
}
// Error logs the given message as an error message.
func (logger *Manager) Error(logType string, messageParts ...string) {
logger.Log(LogError, logType, messageParts...)
}
type fileMethod struct {
Enabled bool
Filename string
File *os.File
Writer *bufio.Writer
}
// singleLogger represents a single logger instance.
type singleLogger struct {
stdoutWriteLock *sync.Mutex
fileWriteLock *sync.Mutex
MethodSTDOUT bool
MethodSTDERR bool
MethodFile fileMethod
Level Level
Types map[string]bool
ExcludedTypes map[string]bool
}
func (logger *singleLogger) Close() error {
if logger.MethodFile.Enabled {
flushErr := logger.MethodFile.Writer.Flush()
closeErr := logger.MethodFile.File.Close()
if flushErr != nil {
return flushErr
}
return closeErr
}
return nil
}
// Log logs the given message with the given details.
func (logger *singleLogger) Log(level Level, logType string, messageParts ...string) {
// no logging enabled
if !(logger.MethodSTDOUT || logger.MethodSTDERR || logger.MethodFile.Enabled) {
return
}
// ensure we're logging to the given level
if level < logger.Level {
return
}
// ensure we're capturing this logType
capturing := (logger.Types["*"] || logger.Types[logType]) && !logger.ExcludedTypes["*"] && !logger.ExcludedTypes[logType]
if !capturing {
return
}
// assemble full line
var rawBuf bytes.Buffer
// XXX magic number here: 10 is len("connect-ip"), the longest log category name
// in current use. it's not a big deal if this number gets out of date.
fmt.Fprintf(&rawBuf, "%s : %-5s : %-10s : ", time.Now().UTC().Format("2006-01-02T15:04:05.000Z"), LogLevelDisplayNames[level], logType)
for i, p := range messageParts {
rawBuf.WriteString(p)
if i != len(messageParts)-1 {
rawBuf.WriteString(" : ")
}
}
rawBuf.WriteRune('\n')
// output
if logger.MethodSTDOUT {
logger.stdoutWriteLock.Lock()
os.Stdout.Write(rawBuf.Bytes())
logger.stdoutWriteLock.Unlock()
}
if logger.MethodSTDERR {
logger.stdoutWriteLock.Lock()
os.Stderr.Write(rawBuf.Bytes())
logger.stdoutWriteLock.Unlock()
}
if logger.MethodFile.Enabled {
logger.fileWriteLock.Lock()
logger.MethodFile.Writer.Write(rawBuf.Bytes())
logger.MethodFile.Writer.Flush()
logger.fileWriteLock.Unlock()
}
}