rclone/vendor/github.com/pengsrc/go-shared/log/event.go
2018-01-16 13:20:59 +00:00

460 lines
10 KiB
Go

package log
import (
"context"
"fmt"
"os"
"runtime"
"strconv"
"strings"
"sync"
"time"
"github.com/pengsrc/go-shared/buffer"
"github.com/pengsrc/go-shared/convert"
)
// A EventCallerPool is a type-safe wrapper around a sync.BytesBufferPool.
type EventCallerPool struct {
p *sync.Pool
}
// NewEventCallerPool constructs a new BytesBufferPool.
func NewEventCallerPool() EventCallerPool {
return EventCallerPool{
p: &sync.Pool{
New: func() interface{} {
return &EventCaller{}
},
},
}
}
// Get retrieves a EventCaller from the pool, creating one if necessary.
func (p EventCallerPool) Get() *EventCaller {
e := p.p.Get().(*EventCaller)
e.pool = p
e.Defined = false
e.PC = 0
e.File = ""
e.Line = 0
return e
}
func (p EventCallerPool) put(caller *EventCaller) {
p.p.Put(caller)
}
// EventCaller represents the caller of a logging function.
type EventCaller struct {
pool EventCallerPool
Defined bool
PC uintptr
File string
Line int
}
// Free returns the EventCaller to its EventCallerPool.
// Callers must not retain references to the EventCaller after calling Free.
func (ec *EventCaller) Free() {
ec.pool.put(ec)
}
// String returns the full path and line number of the caller.
func (ec EventCaller) String() string {
return ec.FullPath()
}
// FullPath returns a /full/path/to/package/file:line description of the
// caller.
func (ec EventCaller) FullPath() string {
if !ec.Defined {
return "undefined"
}
buf := buffer.GlobalBytesPool().Get()
defer buf.Free()
buf.AppendString(ec.File)
buf.AppendByte(':')
buf.AppendInt(int64(ec.Line))
return buf.String()
}
// TrimmedPath returns a package/file:line description of the caller,
// preserving only the leaf directory name and file name.
func (ec EventCaller) TrimmedPath() string {
if !ec.Defined {
return "undefined"
}
// nb. To make sure we trim the path correctly on Windows too, we
// counter-intuitively need to use '/' and *not* os.PathSeparator here,
// because the path given originates from Go stdlib, specifically
// runtime.Caller() which (as of Mar/17) returns forward slashes even on
// Windows.
//
// See https://github.com/golang/go/issues/3335
// and https://github.com/golang/go/issues/18151
//
// for discussion on the issue on Go side.
//
// Find the last separator.
//
idx := strings.LastIndexByte(ec.File, '/')
if idx == -1 {
return ec.FullPath()
}
// Find the penultimate separator.
idx = strings.LastIndexByte(ec.File[:idx], '/')
if idx == -1 {
return ec.FullPath()
}
buf := buffer.GlobalBytesPool().Get()
defer buf.Free()
// Keep everything after the penultimate separator.
buf.AppendString(ec.File[idx+1:])
buf.AppendByte(':')
buf.AppendInt(int64(ec.Line))
return buf.String()
}
// A EventPool is a type-safe wrapper around a sync.BytesBufferPool.
type EventPool struct {
p *sync.Pool
}
// NewEventPool constructs a new BytesBufferPool.
func NewEventPool() EventPool {
return EventPool{
p: &sync.Pool{
New: func() interface{} {
return &Event{}
},
},
}
}
// Get retrieves a Event from the pool, creating one if necessary.
func (p EventPool) Get() *Event {
e := p.p.Get().(*Event)
e.buffer = buffer.GlobalBytesPool().Get()
e.pool = p
e.level = MuteLevel
e.lw = nil
e.ctx = nil
e.ctxKeys = nil
e.isEnabled = false
e.isCallerEnabled = false
return e
}
func (p EventPool) put(event *Event) {
event.buffer.Free()
event.ctx = nil
event.ctxKeys = nil
p.p.Put(event)
}
// Event represents a log event. It is instanced by one of the with method of
// logger and finalized by the log method such as Debug().
type Event struct {
buffer *buffer.BytesBuffer
pool EventPool
level Level
lw LevelWriter
ctx context.Context
ctxKeys *[]interface{}
ctxKeysMap *map[interface{}]string
isEnabled bool
isCallerEnabled bool
}
// Free returns the Event to its EventPool.
// Callers must not retain references to the Event after calling Free.
func (e *Event) Free() {
e.pool.put(e)
}
// Message writes the *Event to level writer.
//
// NOTICE: Once this method is called, the *Event should be disposed.
// Calling twice can have unexpected result.
func (e *Event) Message(message string) {
if !e.isEnabled {
return
}
e.write(message)
}
// Messagef writes the *Event to level writer.
//
// NOTICE: Once this method is called, the *Event should be disposed.
// Calling twice can have unexpected result.
func (e *Event) Messagef(format string, v ...interface{}) {
if !e.isEnabled {
return
}
e.write(format, v...)
}
// Byte appends string key and byte value to event.
func (e *Event) Byte(key string, value byte) *Event {
return e.appendField(key, func() { e.buffer.AppendByte(value) })
}
// Bytes appends string key and bytes value to event.
func (e *Event) Bytes(key string, value []byte) *Event {
return e.appendField(key, func() {
if needsQuote(string(value)) {
e.buffer.AppendString(strconv.Quote(string(value)))
} else {
e.buffer.AppendBytes(value)
}
})
}
// String appends string key and string value to event.
func (e *Event) String(key string, value string) *Event {
return e.appendField(key, func() {
if needsQuote(string(value)) {
e.buffer.AppendString(strconv.Quote(value))
} else {
e.buffer.AppendString(value)
}
})
}
// Int appends string key and int value to event.
func (e *Event) Int(key string, value int) *Event {
return e.appendField(key, func() { e.buffer.AppendInt(int64(value)) })
}
// Int32 appends string key and int32 value to event.
func (e *Event) Int32(key string, value int32) *Event {
return e.appendField(key, func() { e.buffer.AppendInt(int64(value)) })
}
// Int64 appends string key and int64 value to event.
func (e *Event) Int64(key string, value int64) *Event {
return e.appendField(key, func() { e.buffer.AppendInt(value) })
}
// Uint appends string key and uint value to event.
func (e *Event) Uint(key string, value uint) *Event {
return e.appendField(key, func() { e.buffer.AppendUint(uint64(value)) })
}
// Uint32 appends string key and uint32 value to event.
func (e *Event) Uint32(key string, value uint32) *Event {
return e.appendField(key, func() { e.buffer.AppendUint(uint64(value)) })
}
// Uint64 appends string key and uint64 value to event.
func (e *Event) Uint64(key string, value uint64) *Event {
return e.appendField(key, func() { e.buffer.AppendUint(value) })
}
// Float32 appends string key and float32 value to event.
func (e *Event) Float32(key string, value float32) *Event {
return e.appendField(key, func() { e.buffer.AppendFloat(float64(value), 32) })
}
// Float64 appends string key and float value to event.
func (e *Event) Float64(key string, value float64) *Event {
return e.appendField(key, func() { e.buffer.AppendFloat(value, 64) })
}
// Bool appends string key and bool value to event.
func (e *Event) Bool(key string, value bool) *Event {
return e.appendField(key, func() { e.buffer.AppendBool(value) })
}
// Time appends string key and time value to event.
func (e *Event) Time(key string, value time.Time, format string) *Event {
buf := buffer.GlobalBytesPool().Get()
defer buf.Free()
buf.AppendTime(value, format)
return e.Bytes(key, buf.Bytes())
}
// Error appends string key and error value to event.
func (e *Event) Error(key string, err error) *Event {
return e.String(key, err.Error())
}
// Interface appends string key and interface value to event.
func (e *Event) Interface(key string, value interface{}) *Event {
switch v := value.(type) {
case byte:
e.Byte(key, v)
case []byte:
e.Bytes(key, v)
case string:
e.String(key, v)
case int:
e.Int(key, v)
case int32:
e.Int32(key, v)
case int64:
e.Int64(key, v)
case uint:
e.Uint(key, v)
case uint32:
e.Uint32(key, v)
case uint64:
e.Uint64(key, v)
case float32:
e.Float32(key, v)
case float64:
e.Float64(key, v)
case bool:
e.Bool(key, v)
case time.Time:
e.Time(key, v, convert.ISO8601Milli)
case error:
e.Error(key, v)
case nil:
e.String(key, "nil")
default:
panic(fmt.Sprintf("unknown field type: %v", value))
}
return e
}
func (e *Event) appendField(key string, appendFunc func()) *Event {
if !e.isEnabled {
return e
}
// Ignore field with empty key.
if len(key) <= 0 {
return e
}
// Append space if event field not empty.
if e.buffer.Len() != 0 {
e.buffer.AppendByte(' ')
}
e.buffer.AppendString(key)
e.buffer.AppendString("=")
appendFunc()
return e
}
func (e *Event) write(format string, v ...interface{}) {
defer e.Free()
if !e.isEnabled {
return
}
// Append interested contexts.
if e.ctx != nil && e.ctxKeys != nil && e.ctxKeysMap != nil {
for _, key := range *e.ctxKeys {
if value := e.ctx.Value(key); value != nil {
e.Interface((*e.ctxKeysMap)[key], e.ctx.Value(key))
}
}
}
// Append caller.
if e.isCallerEnabled {
ec := newEventCaller(runtime.Caller(callerSkipOffset))
e.String("source", ec.TrimmedPath())
}
// Compose and store current log.
buf := buffer.GlobalBytesPool().Get()
defer buf.Free()
// Format print message.
if format != "" {
if len(v) == 0 {
fmt.Fprint(buf, format)
} else {
fmt.Fprintf(buf, format, v...)
}
} else {
fmt.Fprint(buf, v...)
}
// Append filed.
buf.AppendByte(' ')
buf.AppendBytes(e.buffer.Bytes())
// Finally write.
if _, err := e.lw.WriteLevel(e.level, buf.Bytes()); err != nil {
fmt.Fprintf(os.Stderr, "log: could not write event: %v", err)
}
switch e.level {
case PanicLevel:
panic(buf.String())
case FatalLevel:
os.Exit(1)
}
}
func newEventCaller(pc uintptr, file string, line int, ok bool) (ec *EventCaller) {
ec = eventCallerPool.Get()
if ok {
ec.PC = pc
ec.File = file
ec.Line = line
ec.Defined = true
}
return
}
func newEvent(
ctx context.Context,
ctxKeys *[]interface{}, ctxKeysMap *map[interface{}]string,
level Level, lw LevelWriter,
isEnabled bool, isCallerEnabled bool,
) (e *Event) {
e = eventPool.Get()
e.level = level
e.lw = lw
e.ctx = ctx
e.ctxKeys = ctxKeys
e.ctxKeysMap = ctxKeysMap
e.isEnabled = isEnabled
e.isCallerEnabled = isCallerEnabled
return
}
func needsQuote(s string) bool {
for i := range s {
if s[i] < 0x20 || s[i] > 0x7e || s[i] == ' ' || s[i] == '\\' || s[i] == '"' {
return true
}
}
return false
}
const callerSkipOffset = 2
// eventCallerPool is a pool of newEvent callers.
var eventCallerPool = NewEventCallerPool()
// eventPool is a pool of events.
var eventPool = NewEventPool()