// Package mlog is a generic logging library. The log methods come in different // severities: Debug, Info, Warn, Error, and Fatal. // // The log methods take in a string describing the error, and a set of key/value // pairs giving the specific context around the error. The string is intended to // always be the same no matter what, while the key/value pairs give information // like which userID the error happened to, or any other relevant contextual // information. // // Examples: // // log := mlog.NewLogger() // log.Info("Something important has occurred") // log.Error("Could not open file", mlog.KV{"filename": filename}, merr.KV(err)) // package mlog import ( "bufio" "fmt" "io" "os" "sort" "strconv" "sync" "github.com/mediocregopher/mediocre-go-lib/merr" ) // Truncate is a helper function to truncate a string to a given size. It will // add 3 trailing elipses, so the returned string will be at most size+3 // characters long func Truncate(s string, size int) string { if len(s) <= size { return s } return s[:size] + "..." } //////////////////////////////////////////////////////////////////////////////// // Level describes the severity of a particular log message, and can be compared // to the severity of any other Level type Level interface { // String gives the string form of the level, e.g. "INFO" or "ERROR" String() string // Uint gives an integer indicator of the severity of the level, with zero // being most severe. If a Level with Uint of zero is logged then the Logger // implementation provided by this package will exit the process (i.e. zero // is used as Fatal). Uint() uint } type level struct { s string i uint } func (l level) String() string { return l.s } func (l level) Uint() uint { return l.i } // All pre-defined log levels var ( DebugLevel Level = level{s: "DEBUG", i: 40} InfoLevel Level = level{s: "INFO", i: 30} WarnLevel Level = level{s: "WARN", i: 20} ErrorLevel Level = level{s: "ERROR", i: 10} FatalLevel Level = level{s: "FATAL", i: 0} ) //////////////////////////////////////////////////////////////////////////////// // KVer is used to provide context to a log entry in the form of a dynamic set // of key/value pairs which can be different for every entry. // // The returned map is read-only, and may be nil. type KVer interface { KV() map[string]interface{} } // KVerFunc is a function which implements the KVer interface by calling itself. type KVerFunc func() map[string]interface{} // KV implements the KVer interface by calling the KVerFunc itself. func (kvf KVerFunc) KV() map[string]interface{} { return kvf() } // KV is a KVer which returns a copy of itself when KV is called. type KV map[string]interface{} // KV implements the KVer method by returning a copy of itself. func (kv KV) KV() map[string]interface{} { return map[string]interface{}(kv) } // Set returns a copy of the KV being called on with the given key/val set on // it. The original KV is unaffected func (kv KV) Set(k string, v interface{}) KV { kvm := make(map[string]interface{}, len(kv)+1) copyM(kvm, kv.KV()) kvm[k] = v return KV(kvm) } // returns a key/value map which should not be written to. saves a map-cloning // if KVer is a KV func readOnlyKVM(kver KVer) map[string]interface{} { if kver == nil { return map[string]interface{}(nil) } else if kv, ok := kver.(KV); ok { return map[string]interface{}(kv) } return kver.KV() } func copyM(dst, src map[string]interface{}) { for k, v := range src { dst[k] = v } } // this may take in any amount of nil values, but should never return nil func mergeInto(kv KVer, kvs ...KVer) map[string]interface{} { kvm := map[string]interface{}{} if kv != nil { copyM(kvm, kv.KV()) } for _, innerKV := range kvs { if innerKV == nil { continue } copyM(kvm, innerKV.KV()) } return kvm } type merger struct { base KVer rest []KVer } // Merge takes in multiple KVers and returns a single KVer which is the union of // all the passed in ones. Key/Vals on the rightmost of the set take precedence // over conflicting ones to the left. // // The KVer returned will call KV() on each of the passed in KVers every time // its KV method is called. func Merge(kvs ...KVer) KVer { if len(kvs) == 0 { return merger{} } return merger{base: kvs[0], rest: kvs[1:]} } // MergeInto is a convenience function which acts similarly to Merge. func MergeInto(kv KVer, kvs ...KVer) KVer { return merger{base: kv, rest: kvs} } func (m merger) KV() map[string]interface{} { return mergeInto(m.base, m.rest...) } // Prefix prefixes all keys returned from the given KVer with the given prefix // string. func Prefix(kv KVer, prefix string) KVer { return KVerFunc(func() map[string]interface{} { kvm := readOnlyKVM(kv) newKVM := make(map[string]interface{}, len(kvm)) for k, v := range kvm { newKVM[prefix+k] = v } return newKVM }) } //////////////////////////////////////////////////////////////////////////////// // Stringer generates and returns a string. type Stringer interface { String() string } // String is simply a string which implements Stringer. type String string func (str String) String() string { return string(str) } // Message describes a message to be logged, after having already resolved the // KVer type Message struct { Level Description Stringer KVer } func stringSlice(kv KV) [][2]string { slice := make([][2]string, 0, len(kv)) for k, v := range kv { slice = append(slice, [2]string{ k, strconv.QuoteToGraphic(fmt.Sprint(v)), }) } sort.Slice(slice, func(i, j int) bool { return slice[i][0] < slice[j][0] }) return slice } // Handler is a function which can process Messages in some way. // // NOTE that Logger does not handle thread-safety, that must be done inside the // Handler if necessary. type Handler func(msg Message) error // DefaultFormat formats and writes the Message to the given Writer using mlog's // default format. func DefaultFormat(w io.Writer, msg Message) error { var err error write := func(s string, args ...interface{}) { if err == nil { _, err = fmt.Fprintf(w, s, args...) } } write("~ %s -- %s", msg.Level.String(), msg.Description.String()) if msg.KVer != nil { if kv := msg.KV(); len(kv) > 0 { write(" --") for _, kve := range stringSlice(kv) { write(" %s=%s", kve[0], kve[1]) } } } write("\n") return err } // DefaultHandler initializes and returns a Handler which will write all // messages to os.Stderr in a thread-safe way. This is the Handler which // NewLogger will use automatically. func DefaultHandler() Handler { l := new(sync.Mutex) bw := bufio.NewWriter(os.Stderr) return func(msg Message) error { l.Lock() defer l.Unlock() err := DefaultFormat(bw, msg) if err == nil { err = bw.Flush() } return err } } // Logger directs Messages to an internal Handler and provides convenient // methods for creating and modifying its own behavior. All methods are // thread-safe. type Logger struct { l *sync.RWMutex h Handler maxLevel uint kv KVer testMsgWrittenCh chan struct{} // only initialized/used in tests } // NewLogger initializes and returns a new instance of Logger which will write // to the DefaultHandler. func NewLogger() *Logger { return &Logger{ l: new(sync.RWMutex), h: DefaultHandler(), maxLevel: InfoLevel.Uint(), } } // Clone returns an identical instance of the Logger which can be modified // independently of the original. func (l *Logger) Clone() *Logger { l2 := *l l2.l = new(sync.RWMutex) return &l2 } // SetMaxLevel sets the Logger to not log any messages with a higher Level.Uint // value than of the one given. func (l *Logger) SetMaxLevel(lvl Level) { l.l.Lock() defer l.l.Unlock() l.maxLevel = lvl.Uint() } // SetHandler sets the Logger to use the given Handler in order to process // Messages. func (l *Logger) SetHandler(h Handler) { l.l.Lock() defer l.l.Unlock() l.h = h } // Handler returns the Handler currently in use by the Logger. func (l *Logger) Handler() Handler { l.l.RLock() defer l.l.RUnlock() return l.h } // SetKV sets the Logger to use the merging of the given KVers as a base KVer // for all Messages. If the Logger already had a base KVer (via a previous SetKV // call) then this set will be merged onto that one. func (l *Logger) SetKV(kvs ...KVer) { l.l.Lock() defer l.l.Unlock() l.kv = MergeInto(l.kv, kvs...) } // Log can be used to manually log a message of some custom defined Level. // // If the Level is a fatal (Uint() == 0) then calling this will never return, // and the process will have os.Exit(1) called. func (l *Logger) Log(msg Message) { l.l.RLock() defer l.l.RUnlock() if l.maxLevel < msg.Level.Uint() { return } if l.kv != nil { msg.KVer = MergeInto(l.kv, msg.KVer) } if err := l.h(msg); err != nil { go l.Error("Logger.Handler returned error", merr.KV(err)) return } if l.testMsgWrittenCh != nil { l.testMsgWrittenCh <- struct{}{} } if msg.Level.Uint() == 0 { os.Exit(1) } } func mkMsg(lvl Level, descr string, kvs ...KVer) Message { return Message{ Level: lvl, Description: String(descr), KVer: Merge(kvs...), } } // Debug logs a DebugLevel message, merging the KVers together first func (l *Logger) Debug(descr string, kvs ...KVer) { l.Log(mkMsg(DebugLevel, descr, kvs...)) } // Info logs a InfoLevel message, merging the KVers together first func (l *Logger) Info(descr string, kvs ...KVer) { l.Log(mkMsg(InfoLevel, descr, kvs...)) } // Warn logs a WarnLevel message, merging the KVers together first func (l *Logger) Warn(descr string, kvs ...KVer) { l.Log(mkMsg(WarnLevel, descr, kvs...)) } // Error logs a ErrorLevel message, merging the KVers together first func (l *Logger) Error(descr string, kvs ...KVer) { l.Log(mkMsg(ErrorLevel, descr, kvs...)) } // Fatal logs a FatalLevel message, merging the KVers together first. A Fatal // message automatically stops the process with an os.Exit(1) func (l *Logger) Fatal(descr string, kvs ...KVer) { l.Log(mkMsg(FatalLevel, descr, kvs...)) }