package zerolog import ( "fmt" "net" "os" "runtime" "strconv" "sync" "time" ) var eventPool = &sync.Pool{ New: func() interface{} { return &Event{ buf: make([]byte, 0, 500), } }, } // Event represents a log event. It is instanced by one of the level method of // Logger and finalized by the Msg or Msgf method. type Event struct { buf []byte w LevelWriter level Level done func(msg string) ch []Hook // hooks from context h []Hook } // LogObjectMarshaler provides a strongly-typed and encoding-agnostic interface // to be implemented by types used with Event/Context's Object methods. type LogObjectMarshaler interface { MarshalZerologObject(e *Event) } // LogArrayMarshaler provides a strongly-typed and encoding-agnostic interface // to be implemented by types used with Event/Context's Array methods. type LogArrayMarshaler interface { MarshalZerologArray(a *Array) } func newEvent(w LevelWriter, level Level) *Event { e := eventPool.Get().(*Event) e.buf = e.buf[:0] e.h = e.h[:0] e.buf = enc.AppendBeginMarker(e.buf) e.w = w e.level = level return e } func (e *Event) write() (err error) { if e == nil { return nil } e.buf = enc.AppendEndMarker(e.buf) e.buf = enc.AppendLineBreak(e.buf) if e.w != nil { _, err = e.w.WriteLevel(e.level, e.buf) } eventPool.Put(e) return } // Enabled return false if the *Event is going to be filtered out by // log level or sampling. func (e *Event) Enabled() bool { return e != nil } // Msg sends the *Event with msg added as the message field if not empty. // // NOTICE: once this method is called, the *Event should be disposed. // Calling Msg twice can have unexpected result. func (e *Event) Msg(msg string) { if e == nil { return } if len(e.ch) > 0 { e.ch[0].Run(e, e.level, msg) if len(e.ch) > 1 { for _, hook := range e.ch[1:] { hook.Run(e, e.level, msg) } } } if len(e.h) > 0 { e.h[0].Run(e, e.level, msg) if len(e.h) > 1 { for _, hook := range e.h[1:] { hook.Run(e, e.level, msg) } } } if msg != "" { e.buf = enc.AppendString(enc.AppendKey(e.buf, MessageFieldName), msg) } if e.done != nil { defer e.done(msg) } if err := e.write(); err != nil { fmt.Fprintf(os.Stderr, "zerolog: could not write event: %v", err) } } // Msgf sends the event with formated msg added as the message field if not empty. // // NOTICE: once this methid is called, the *Event should be disposed. // Calling Msg twice can have unexpected result. func (e *Event) Msgf(format string, v ...interface{}) { if e == nil { return } e.Msg(fmt.Sprintf(format, v...)) } // Fields is a helper function to use a map to set fields using type assertion. func (e *Event) Fields(fields map[string]interface{}) *Event { if e == nil { return e } e.buf = appendFields(e.buf, fields) return e } // Dict adds the field key with a dict to the event context. // Use zerolog.Dict() to create the dictionary. func (e *Event) Dict(key string, dict *Event) *Event { if e == nil { return e } dict.buf = enc.AppendEndMarker(dict.buf) e.buf = append(enc.AppendKey(e.buf, key), dict.buf...) eventPool.Put(dict) return e } // Dict creates an Event to be used with the *Event.Dict method. // Call usual field methods like Str, Int etc to add fields to this // event and give it as argument the *Event.Dict method. func Dict() *Event { return newEvent(nil, 0) } // Array adds the field key with an array to the event context. // Use zerolog.Arr() to create the array or pass a type that // implement the LogArrayMarshaler interface. func (e *Event) Array(key string, arr LogArrayMarshaler) *Event { if e == nil { return e } e.buf = enc.AppendKey(e.buf, key) var a *Array if aa, ok := arr.(*Array); ok { a = aa } else { a = Arr() arr.MarshalZerologArray(a) } e.buf = a.write(e.buf) return e } func (e *Event) appendObject(obj LogObjectMarshaler) { e.buf = enc.AppendBeginMarker(e.buf) obj.MarshalZerologObject(e) e.buf = enc.AppendEndMarker(e.buf) } // Object marshals an object that implement the LogObjectMarshaler interface. func (e *Event) Object(key string, obj LogObjectMarshaler) *Event { if e == nil { return e } e.buf = enc.AppendKey(e.buf, key) e.appendObject(obj) return e } // Str adds the field key with val as a string to the *Event context. func (e *Event) Str(key, val string) *Event { if e == nil { return e } e.buf = enc.AppendString(enc.AppendKey(e.buf, key), val) return e } // Strs adds the field key with vals as a []string to the *Event context. func (e *Event) Strs(key string, vals []string) *Event { if e == nil { return e } e.buf = enc.AppendStrings(enc.AppendKey(e.buf, key), vals) return e } // Bytes adds the field key with val as a string to the *Event context. // // Runes outside of normal ASCII ranges will be hex-encoded in the resulting // JSON. func (e *Event) Bytes(key string, val []byte) *Event { if e == nil { return e } e.buf = enc.AppendBytes(enc.AppendKey(e.buf, key), val) return e } // Hex adds the field key with val as a hex string to the *Event context. func (e *Event) Hex(key string, val []byte) *Event { if e == nil { return e } e.buf = enc.AppendHex(enc.AppendKey(e.buf, key), val) return e } // RawJSON adds already encoded JSON to the log line under key. // // No sanity check is performed on b; it must not contain carriage returns and // be valid JSON. func (e *Event) RawJSON(key string, b []byte) *Event { if e == nil { return e } e.buf = appendJSON(enc.AppendKey(e.buf, key), b) return e } // AnErr adds the field key with err as a string to the *Event context. // If err is nil, no field is added. func (e *Event) AnErr(key string, err error) *Event { if e == nil { return e } if err != nil { e.buf = enc.AppendError(enc.AppendKey(e.buf, key), err) } return e } // Errs adds the field key with errs as an array of strings to the *Event context. // If err is nil, no field is added. func (e *Event) Errs(key string, errs []error) *Event { if e == nil { return e } e.buf = enc.AppendErrors(enc.AppendKey(e.buf, key), errs) return e } // Err adds the field "error" with err as a string to the *Event context. // If err is nil, no field is added. // To customize the key name, change zerolog.ErrorFieldName. func (e *Event) Err(err error) *Event { if e == nil { return e } if err != nil { e.buf = enc.AppendError(enc.AppendKey(e.buf, ErrorFieldName), err) } return e } // Bool adds the field key with val as a bool to the *Event context. func (e *Event) Bool(key string, b bool) *Event { if e == nil { return e } e.buf = enc.AppendBool(enc.AppendKey(e.buf, key), b) return e } // Bools adds the field key with val as a []bool to the *Event context. func (e *Event) Bools(key string, b []bool) *Event { if e == nil { return e } e.buf = enc.AppendBools(enc.AppendKey(e.buf, key), b) return e } // Int adds the field key with i as a int to the *Event context. func (e *Event) Int(key string, i int) *Event { if e == nil { return e } e.buf = enc.AppendInt(enc.AppendKey(e.buf, key), i) return e } // Ints adds the field key with i as a []int to the *Event context. func (e *Event) Ints(key string, i []int) *Event { if e == nil { return e } e.buf = enc.AppendInts(enc.AppendKey(e.buf, key), i) return e } // Int8 adds the field key with i as a int8 to the *Event context. func (e *Event) Int8(key string, i int8) *Event { if e == nil { return e } e.buf = enc.AppendInt8(enc.AppendKey(e.buf, key), i) return e } // Ints8 adds the field key with i as a []int8 to the *Event context. func (e *Event) Ints8(key string, i []int8) *Event { if e == nil { return e } e.buf = enc.AppendInts8(enc.AppendKey(e.buf, key), i) return e } // Int16 adds the field key with i as a int16 to the *Event context. func (e *Event) Int16(key string, i int16) *Event { if e == nil { return e } e.buf = enc.AppendInt16(enc.AppendKey(e.buf, key), i) return e } // Ints16 adds the field key with i as a []int16 to the *Event context. func (e *Event) Ints16(key string, i []int16) *Event { if e == nil { return e } e.buf = enc.AppendInts16(enc.AppendKey(e.buf, key), i) return e } // Int32 adds the field key with i as a int32 to the *Event context. func (e *Event) Int32(key string, i int32) *Event { if e == nil { return e } e.buf = enc.AppendInt32(enc.AppendKey(e.buf, key), i) return e } // Ints32 adds the field key with i as a []int32 to the *Event context. func (e *Event) Ints32(key string, i []int32) *Event { if e == nil { return e } e.buf = enc.AppendInts32(enc.AppendKey(e.buf, key), i) return e } // Int64 adds the field key with i as a int64 to the *Event context. func (e *Event) Int64(key string, i int64) *Event { if e == nil { return e } e.buf = enc.AppendInt64(enc.AppendKey(e.buf, key), i) return e } // Ints64 adds the field key with i as a []int64 to the *Event context. func (e *Event) Ints64(key string, i []int64) *Event { if e == nil { return e } e.buf = enc.AppendInts64(enc.AppendKey(e.buf, key), i) return e } // Uint adds the field key with i as a uint to the *Event context. func (e *Event) Uint(key string, i uint) *Event { if e == nil { return e } e.buf = enc.AppendUint(enc.AppendKey(e.buf, key), i) return e } // Uints adds the field key with i as a []int to the *Event context. func (e *Event) Uints(key string, i []uint) *Event { if e == nil { return e } e.buf = enc.AppendUints(enc.AppendKey(e.buf, key), i) return e } // Uint8 adds the field key with i as a uint8 to the *Event context. func (e *Event) Uint8(key string, i uint8) *Event { if e == nil { return e } e.buf = enc.AppendUint8(enc.AppendKey(e.buf, key), i) return e } // Uints8 adds the field key with i as a []int8 to the *Event context. func (e *Event) Uints8(key string, i []uint8) *Event { if e == nil { return e } e.buf = enc.AppendUints8(enc.AppendKey(e.buf, key), i) return e } // Uint16 adds the field key with i as a uint16 to the *Event context. func (e *Event) Uint16(key string, i uint16) *Event { if e == nil { return e } e.buf = enc.AppendUint16(enc.AppendKey(e.buf, key), i) return e } // Uints16 adds the field key with i as a []int16 to the *Event context. func (e *Event) Uints16(key string, i []uint16) *Event { if e == nil { return e } e.buf = enc.AppendUints16(enc.AppendKey(e.buf, key), i) return e } // Uint32 adds the field key with i as a uint32 to the *Event context. func (e *Event) Uint32(key string, i uint32) *Event { if e == nil { return e } e.buf = enc.AppendUint32(enc.AppendKey(e.buf, key), i) return e } // Uints32 adds the field key with i as a []int32 to the *Event context. func (e *Event) Uints32(key string, i []uint32) *Event { if e == nil { return e } e.buf = enc.AppendUints32(enc.AppendKey(e.buf, key), i) return e } // Uint64 adds the field key with i as a uint64 to the *Event context. func (e *Event) Uint64(key string, i uint64) *Event { if e == nil { return e } e.buf = enc.AppendUint64(enc.AppendKey(e.buf, key), i) return e } // Uints64 adds the field key with i as a []int64 to the *Event context. func (e *Event) Uints64(key string, i []uint64) *Event { if e == nil { return e } e.buf = enc.AppendUints64(enc.AppendKey(e.buf, key), i) return e } // Float32 adds the field key with f as a float32 to the *Event context. func (e *Event) Float32(key string, f float32) *Event { if e == nil { return e } e.buf = enc.AppendFloat32(enc.AppendKey(e.buf, key), f) return e } // Floats32 adds the field key with f as a []float32 to the *Event context. func (e *Event) Floats32(key string, f []float32) *Event { if e == nil { return e } e.buf = enc.AppendFloats32(enc.AppendKey(e.buf, key), f) return e } // Float64 adds the field key with f as a float64 to the *Event context. func (e *Event) Float64(key string, f float64) *Event { if e == nil { return e } e.buf = enc.AppendFloat64(enc.AppendKey(e.buf, key), f) return e } // Floats64 adds the field key with f as a []float64 to the *Event context. func (e *Event) Floats64(key string, f []float64) *Event { if e == nil { return e } e.buf = enc.AppendFloats64(enc.AppendKey(e.buf, key), f) return e } // Timestamp adds the current local time as UNIX timestamp to the *Event context with the "time" key. // To customize the key name, change zerolog.TimestampFieldName. // // NOTE: It won't dedupe the "time" key if the *Event (or *Context) has one // already. func (e *Event) Timestamp() *Event { if e == nil { return e } e.buf = enc.AppendTime(enc.AppendKey(e.buf, TimestampFieldName), TimestampFunc(), TimeFieldFormat) return e } // Time adds the field key with t formated as string using zerolog.TimeFieldFormat. func (e *Event) Time(key string, t time.Time) *Event { if e == nil { return e } e.buf = enc.AppendTime(enc.AppendKey(e.buf, key), t, TimeFieldFormat) return e } // Times adds the field key with t formated as string using zerolog.TimeFieldFormat. func (e *Event) Times(key string, t []time.Time) *Event { if e == nil { return e } e.buf = enc.AppendTimes(enc.AppendKey(e.buf, key), t, TimeFieldFormat) return e } // Dur adds the field key with duration d stored as zerolog.DurationFieldUnit. // If zerolog.DurationFieldInteger is true, durations are rendered as integer // instead of float. func (e *Event) Dur(key string, d time.Duration) *Event { if e == nil { return e } e.buf = enc.AppendDuration(enc.AppendKey(e.buf, key), d, DurationFieldUnit, DurationFieldInteger) return e } // Durs adds the field key with duration d stored as zerolog.DurationFieldUnit. // If zerolog.DurationFieldInteger is true, durations are rendered as integer // instead of float. func (e *Event) Durs(key string, d []time.Duration) *Event { if e == nil { return e } e.buf = enc.AppendDurations(enc.AppendKey(e.buf, key), d, DurationFieldUnit, DurationFieldInteger) return e } // TimeDiff adds the field key with positive duration between time t and start. // If time t is not greater than start, duration will be 0. // Duration format follows the same principle as Dur(). func (e *Event) TimeDiff(key string, t time.Time, start time.Time) *Event { if e == nil { return e } var d time.Duration if t.After(start) { d = t.Sub(start) } e.buf = enc.AppendDuration(enc.AppendKey(e.buf, key), d, DurationFieldUnit, DurationFieldInteger) return e } // Interface adds the field key with i marshaled using reflection. func (e *Event) Interface(key string, i interface{}) *Event { if e == nil { return e } if obj, ok := i.(LogObjectMarshaler); ok { return e.Object(key, obj) } e.buf = enc.AppendInterface(enc.AppendKey(e.buf, key), i) return e } // Caller adds the file:line of the caller with the zerolog.CallerFieldName key. func (e *Event) Caller() *Event { return e.caller(2) } func (e *Event) caller(skip int) *Event { if e == nil { return e } _, file, line, ok := runtime.Caller(skip) if !ok { return e } e.buf = enc.AppendString(enc.AppendKey(e.buf, CallerFieldName), file+":"+strconv.Itoa(line)) return e } // IPAddr adds IPv4 or IPv6 Address to the event func (e *Event) IPAddr(key string, ip net.IP) *Event { if e == nil { return e } e.buf = enc.AppendIPAddr(enc.AppendKey(e.buf, key), ip) return e } // IPPrefix adds IPv4 or IPv6 Prefix (address and mask) to the event func (e *Event) IPPrefix(key string, pfx net.IPNet) *Event { if e == nil { return e } e.buf = enc.AppendIPPrefix(enc.AppendKey(e.buf, key), pfx) return e } // MACAddr adds MAC address to the event func (e *Event) MACAddr(key string, ha net.HardwareAddr) *Event { if e == nil { return e } e.buf = enc.AppendMACAddr(enc.AppendKey(e.buf, key), ha) return e }