go-ethereum/log/handler.go

376 lines
10 KiB
Go

package log
import (
"fmt"
"io"
"net"
"os"
"reflect"
"sync"
"sync/atomic"
"github.com/go-stack/stack"
)
// Handler defines where and how log records are written.
// A Logger prints its log records by writing to a Handler.
// Handlers are composable, providing you great flexibility in combining
// them to achieve the logging structure that suits your applications.
type Handler interface {
Log(r *Record) error
}
// FuncHandler returns a Handler that logs records with the given
// function.
func FuncHandler(fn func(r *Record) error) Handler {
return funcHandler(fn)
}
type funcHandler func(r *Record) error
func (h funcHandler) Log(r *Record) error {
return h(r)
}
// StreamHandler writes log records to an io.Writer
// with the given format. StreamHandler can be used
// to easily begin writing log records to other
// outputs.
//
// StreamHandler wraps itself with LazyHandler and SyncHandler
// to evaluate Lazy objects and perform safe concurrent writes.
func StreamHandler(wr io.Writer, fmtr Format) Handler {
h := FuncHandler(func(r *Record) error {
_, err := wr.Write(fmtr.Format(r))
return err
})
return LazyHandler(SyncHandler(h))
}
// SyncHandler can be wrapped around a handler to guarantee that
// only a single Log operation can proceed at a time. It's necessary
// for thread-safe concurrent writes.
func SyncHandler(h Handler) Handler {
var mu sync.Mutex
return FuncHandler(func(r *Record) error {
mu.Lock()
defer mu.Unlock()
return h.Log(r)
})
}
// FileHandler returns a handler which writes log records to the give file
// using the given format. If the path
// already exists, FileHandler will append to the given file. If it does not,
// FileHandler will create the file with mode 0644.
func FileHandler(path string, fmtr Format) (Handler, error) {
f, err := os.OpenFile(path, os.O_CREATE|os.O_APPEND|os.O_WRONLY, 0644)
if err != nil {
return nil, err
}
return closingHandler{f, StreamHandler(f, fmtr)}, nil
}
// NetHandler opens a socket to the given address and writes records
// over the connection.
func NetHandler(network, addr string, fmtr Format) (Handler, error) {
conn, err := net.Dial(network, addr)
if err != nil {
return nil, err
}
return closingHandler{conn, StreamHandler(conn, fmtr)}, nil
}
// XXX: closingHandler is essentially unused at the moment
// it's meant for a future time when the Handler interface supports
// a possible Close() operation
type closingHandler struct {
io.WriteCloser
Handler
}
func (h *closingHandler) Close() error {
return h.WriteCloser.Close()
}
// CallerFileHandler returns a Handler that adds the line number and file of
// the calling function to the context with key "caller".
func CallerFileHandler(h Handler) Handler {
return FuncHandler(func(r *Record) error {
r.Ctx = append(r.Ctx, "caller", fmt.Sprint(r.Call))
return h.Log(r)
})
}
// CallerFuncHandler returns a Handler that adds the calling function name to
// the context with key "fn".
func CallerFuncHandler(h Handler) Handler {
return FuncHandler(func(r *Record) error {
r.Ctx = append(r.Ctx, "fn", formatCall("%+n", r.Call))
return h.Log(r)
})
}
// This function is here to please go vet on Go < 1.8.
func formatCall(format string, c stack.Call) string {
return fmt.Sprintf(format, c)
}
// CallerStackHandler returns a Handler that adds a stack trace to the context
// with key "stack". The stack trace is formatted as a space separated list of
// call sites inside matching []'s. The most recent call site is listed first.
// Each call site is formatted according to format. See the documentation of
// package github.com/go-stack/stack for the list of supported formats.
func CallerStackHandler(format string, h Handler) Handler {
return FuncHandler(func(r *Record) error {
s := stack.Trace().TrimBelow(r.Call).TrimRuntime()
if len(s) > 0 {
r.Ctx = append(r.Ctx, "stack", fmt.Sprintf(format, s))
}
return h.Log(r)
})
}
// FilterHandler returns a Handler that only writes records to the
// wrapped Handler if the given function evaluates true. For example,
// to only log records where the 'err' key is not nil:
//
// logger.SetHandler(FilterHandler(func(r *Record) bool {
// for i := 0; i < len(r.Ctx); i += 2 {
// if r.Ctx[i] == "err" {
// return r.Ctx[i+1] != nil
// }
// }
// return false
// }, h))
func FilterHandler(fn func(r *Record) bool, h Handler) Handler {
return FuncHandler(func(r *Record) error {
if fn(r) {
return h.Log(r)
}
return nil
})
}
// MatchFilterHandler returns a Handler that only writes records
// to the wrapped Handler if the given key in the logged
// context matches the value. For example, to only log records
// from your ui package:
//
// log.MatchFilterHandler("pkg", "app/ui", log.StdoutHandler)
func MatchFilterHandler(key string, value interface{}, h Handler) Handler {
return FilterHandler(func(r *Record) (pass bool) {
switch key {
case r.KeyNames.Lvl:
return r.Lvl == value
case r.KeyNames.Time:
return r.Time == value
case r.KeyNames.Msg:
return r.Msg == value
}
for i := 0; i < len(r.Ctx); i += 2 {
if r.Ctx[i] == key {
return r.Ctx[i+1] == value
}
}
return false
}, h)
}
// LvlFilterHandler returns a Handler that only writes
// records which are less than the given verbosity
// level to the wrapped Handler. For example, to only
// log Error/Crit records:
//
// log.LvlFilterHandler(log.LvlError, log.StdoutHandler)
func LvlFilterHandler(maxLvl Lvl, h Handler) Handler {
return FilterHandler(func(r *Record) (pass bool) {
return r.Lvl <= maxLvl
}, h)
}
// MultiHandler dispatches any write to each of its handlers.
// This is useful for writing different types of log information
// to different locations. For example, to log to a file and
// standard error:
//
// log.MultiHandler(
// log.Must.FileHandler("/var/log/app.log", log.LogfmtFormat()),
// log.StderrHandler)
func MultiHandler(hs ...Handler) Handler {
return FuncHandler(func(r *Record) error {
for _, h := range hs {
// what to do about failures?
h.Log(r)
}
return nil
})
}
// FailoverHandler writes all log records to the first handler
// specified, but will failover and write to the second handler if
// the first handler has failed, and so on for all handlers specified.
// For example you might want to log to a network socket, but failover
// to writing to a file if the network fails, and then to
// standard out if the file write fails:
//
// log.FailoverHandler(
// log.Must.NetHandler("tcp", ":9090", log.JSONFormat()),
// log.Must.FileHandler("/var/log/app.log", log.LogfmtFormat()),
// log.StdoutHandler)
//
// All writes that do not go to the first handler will add context with keys of
// the form "failover_err_{idx}" which explain the error encountered while
// trying to write to the handlers before them in the list.
func FailoverHandler(hs ...Handler) Handler {
return FuncHandler(func(r *Record) error {
var err error
for i, h := range hs {
err = h.Log(r)
if err == nil {
return nil
}
r.Ctx = append(r.Ctx, fmt.Sprintf("failover_err_%d", i), err)
}
return err
})
}
// ChannelHandler writes all records to the given channel.
// It blocks if the channel is full. Useful for async processing
// of log messages, it's used by BufferedHandler.
func ChannelHandler(recs chan<- *Record) Handler {
return FuncHandler(func(r *Record) error {
recs <- r
return nil
})
}
// BufferedHandler writes all records to a buffered
// channel of the given size which flushes into the wrapped
// handler whenever it is available for writing. Since these
// writes happen asynchronously, all writes to a BufferedHandler
// never return an error and any errors from the wrapped handler are ignored.
func BufferedHandler(bufSize int, h Handler) Handler {
recs := make(chan *Record, bufSize)
go func() {
for m := range recs {
_ = h.Log(m)
}
}()
return ChannelHandler(recs)
}
// LazyHandler writes all values to the wrapped handler after evaluating
// any lazy functions in the record's context. It is already wrapped
// around StreamHandler and SyslogHandler in this library, you'll only need
// it if you write your own Handler.
func LazyHandler(h Handler) Handler {
return FuncHandler(func(r *Record) error {
// go through the values (odd indices) and reassign
// the values of any lazy fn to the result of its execution
hadErr := false
for i := 1; i < len(r.Ctx); i += 2 {
lz, ok := r.Ctx[i].(Lazy)
if ok {
v, err := evaluateLazy(lz)
if err != nil {
hadErr = true
r.Ctx[i] = err
} else {
if cs, ok := v.(stack.CallStack); ok {
v = cs.TrimBelow(r.Call).TrimRuntime()
}
r.Ctx[i] = v
}
}
}
if hadErr {
r.Ctx = append(r.Ctx, errorKey, "bad lazy")
}
return h.Log(r)
})
}
func evaluateLazy(lz Lazy) (interface{}, error) {
t := reflect.TypeOf(lz.Fn)
if t.Kind() != reflect.Func {
return nil, fmt.Errorf("INVALID_LAZY, not func: %+v", lz.Fn)
}
if t.NumIn() > 0 {
return nil, fmt.Errorf("INVALID_LAZY, func takes args: %+v", lz.Fn)
}
if t.NumOut() == 0 {
return nil, fmt.Errorf("INVALID_LAZY, no func return val: %+v", lz.Fn)
}
value := reflect.ValueOf(lz.Fn)
results := value.Call([]reflect.Value{})
if len(results) == 1 {
return results[0].Interface(), nil
}
values := make([]interface{}, len(results))
for i, v := range results {
values[i] = v.Interface()
}
return values, nil
}
// DiscardHandler reports success for all writes but does nothing.
// It is useful for dynamically disabling logging at runtime via
// a Logger's SetHandler method.
func DiscardHandler() Handler {
return FuncHandler(func(r *Record) error {
return nil
})
}
// Must provides the following Handler creation functions
// which instead of returning an error parameter only return a Handler
// and panic on failure: FileHandler, NetHandler, SyslogHandler, SyslogNetHandler
var Must muster
func must(h Handler, err error) Handler {
if err != nil {
panic(err)
}
return h
}
type muster struct{}
func (m muster) FileHandler(path string, fmtr Format) Handler {
return must(FileHandler(path, fmtr))
}
func (m muster) NetHandler(network, addr string, fmtr Format) Handler {
return must(NetHandler(network, addr, fmtr))
}
// swapHandler wraps another handler that may be swapped out
// dynamically at runtime in a thread-safe fashion.
type swapHandler struct {
handler atomic.Value
}
func (h *swapHandler) Log(r *Record) error {
return (*h.handler.Load().(*Handler)).Log(r)
}
func (h *swapHandler) Swap(newHandler Handler) {
h.handler.Store(&newHandler)
}
func (h *swapHandler) Get() Handler {
return *h.handler.Load().(*Handler)
}