platform_build_soong/ui/tracer/tracer.go

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// Copyright 2017 Google Inc. All rights reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
// This package implements a trace file writer, whose files can be opened in
// chrome://tracing.
//
// It implements the JSON Array Format defined here:
// https://docs.google.com/document/d/1CvAClvFfyA5R-PhYUmn5OOQtYMH4h6I0nSsKchNAySU/edit
package tracer
import (
"bytes"
"compress/gzip"
"encoding/json"
"fmt"
"io"
"os"
"strings"
"sync"
"time"
"android/soong/ui/logger"
Add a unified status reporting UI This adds a new status package that merges the running of "actions" (ninja calls them edges) of multiple tools into one view of the current state, and gives that to a number of different outputs. For inputs: Kati's output parser has been rewritten (and moved) to map onto the StartAction/FinishAction API. A byproduct of this is that the build servers should be able to extract errors from Kati better, since they look like the errors that Ninja used to write. Ninja is no longer directly connected to the terminal, but its output is read via the protobuf frontend API, so it's just another tool whose output becomes merged together. multiproduct_kati loses its custom status routines, and uses the common one instead. For outputs: The primary output is the ui/terminal.Status type, which along with ui/terminal.Writer now controls everything about the terminal output. Today, this doesn't really change any behaviors, but having all terminal output going through here allows a more complicated (multi-line / full window) status display in the future. The tracer acts as an output of the status package, tracing all the action start / finish events. This replaces reading the .ninja_log file, so it now properly handles multiple output files from a single action. A new rotated log file (out/error.log, or out/dist/logs/error.log) just contains a description of all of the errors that happened during the current build. Another new compressed and rotated log file (out/verbose.log.gz, or out/dist/logs/verbose.log.gz) contains the full verbose (showcommands) log of every execution run by the build. Since this is now written on every build, the showcommands argument is now ignored -- if you want to get the commands run, look at the log file after the build. Test: m Test: <built-in tests> Test: NINJA_ARGS="-t list" m Test: check the build.trace.gz Test: check the new log files Change-Id: If1d8994890d43ef68f65aa10ddd8e6e06dc7013a
2018-05-18 01:37:09 +02:00
"android/soong/ui/status"
)
type Thread uint64
const (
MainThread = Thread(iota)
MaxInitThreads = Thread(iota)
)
type Tracer interface {
Begin(name string, thread Thread)
End(thread Thread)
Complete(name string, thread Thread, begin, end uint64)
ImportMicrofactoryLog(filename string)
Add a unified status reporting UI This adds a new status package that merges the running of "actions" (ninja calls them edges) of multiple tools into one view of the current state, and gives that to a number of different outputs. For inputs: Kati's output parser has been rewritten (and moved) to map onto the StartAction/FinishAction API. A byproduct of this is that the build servers should be able to extract errors from Kati better, since they look like the errors that Ninja used to write. Ninja is no longer directly connected to the terminal, but its output is read via the protobuf frontend API, so it's just another tool whose output becomes merged together. multiproduct_kati loses its custom status routines, and uses the common one instead. For outputs: The primary output is the ui/terminal.Status type, which along with ui/terminal.Writer now controls everything about the terminal output. Today, this doesn't really change any behaviors, but having all terminal output going through here allows a more complicated (multi-line / full window) status display in the future. The tracer acts as an output of the status package, tracing all the action start / finish events. This replaces reading the .ninja_log file, so it now properly handles multiple output files from a single action. A new rotated log file (out/error.log, or out/dist/logs/error.log) just contains a description of all of the errors that happened during the current build. Another new compressed and rotated log file (out/verbose.log.gz, or out/dist/logs/verbose.log.gz) contains the full verbose (showcommands) log of every execution run by the build. Since this is now written on every build, the showcommands argument is now ignored -- if you want to get the commands run, look at the log file after the build. Test: m Test: <built-in tests> Test: NINJA_ARGS="-t list" m Test: check the build.trace.gz Test: check the new log files Change-Id: If1d8994890d43ef68f65aa10ddd8e6e06dc7013a
2018-05-18 01:37:09 +02:00
StatusTracer() status.StatusOutput
NewThread(name string) Thread
}
type tracerImpl struct {
lock sync.Mutex
log logger.Logger
buf bytes.Buffer
file *os.File
w io.WriteCloser
firstEvent bool
nextTid uint64
}
var _ Tracer = &tracerImpl{}
type viewerEvent struct {
Name string `json:"name,omitempty"`
Phase string `json:"ph"`
Scope string `json:"s,omitempty"`
Time uint64 `json:"ts"`
Dur uint64 `json:"dur,omitempty"`
Pid uint64 `json:"pid"`
Tid uint64 `json:"tid"`
ID uint64 `json:"id,omitempty"`
Arg interface{} `json:"args,omitempty"`
}
type nameArg struct {
Name string `json:"name"`
}
type nopCloser struct{ io.Writer }
func (nopCloser) Close() error { return nil }
// New creates a new Tracer, storing log in order to log errors later.
// Events are buffered in memory until SetOutput is called.
func New(log logger.Logger) *tracerImpl {
ret := &tracerImpl{
log: log,
firstEvent: true,
nextTid: uint64(MaxInitThreads),
}
ret.startBuffer()
return ret
}
func (t *tracerImpl) startBuffer() {
t.w = nopCloser{&t.buf}
fmt.Fprintln(t.w, "[")
t.defineThread(MainThread, "main")
}
func (t *tracerImpl) close() {
if t.file != nil {
fmt.Fprintln(t.w, "]")
if err := t.w.Close(); err != nil {
t.log.Println("Error closing trace writer:", err)
}
if err := t.file.Close(); err != nil {
t.log.Println("Error closing trace file:", err)
}
t.file = nil
t.startBuffer()
}
}
// SetOutput creates the output file (rotating old files).
func (t *tracerImpl) SetOutput(filename string) {
t.lock.Lock()
defer t.lock.Unlock()
t.close()
// chrome://tracing requires that compressed trace files end in .gz
if !strings.HasSuffix(filename, ".gz") {
filename += ".gz"
}
f, err := logger.CreateFileWithRotation(filename, 5)
if err != nil {
t.log.Println("Failed to create trace file:", err)
return
}
// Save the file, since closing the gzip Writer doesn't close the
// underlying file.
t.file = f
t.w = gzip.NewWriter(f)
// Write out everything that happened since the start
if _, err := io.Copy(t.w, &t.buf); err != nil {
t.log.Println("Failed to write trace buffer to file:", err)
}
t.buf = bytes.Buffer{}
}
// Close closes the output file. Any future events will be buffered until the
// next call to SetOutput.
func (t *tracerImpl) Close() {
t.lock.Lock()
defer t.lock.Unlock()
t.close()
}
func (t *tracerImpl) writeEvent(event *viewerEvent) {
t.lock.Lock()
defer t.lock.Unlock()
t.writeEventLocked(event)
}
func (t *tracerImpl) writeEventLocked(event *viewerEvent) {
bytes, err := json.Marshal(event)
if err != nil {
t.log.Println("Failed to marshal event:", err)
t.log.Verbosef("Event: %#v", event)
return
}
if !t.firstEvent {
fmt.Fprintln(t.w, ",")
} else {
t.firstEvent = false
}
if _, err = t.w.Write(bytes); err != nil {
t.log.Println("Trace write error:", err)
}
}
func (t *tracerImpl) defineThread(thread Thread, name string) {
t.writeEventLocked(&viewerEvent{
Name: "thread_name",
Phase: "M",
Pid: 0,
Tid: uint64(thread),
Arg: &nameArg{
Name: name,
},
})
}
// NewThread returns a new Thread with an unused tid, writing the name out to
// the trace file.
func (t *tracerImpl) NewThread(name string) Thread {
t.lock.Lock()
defer t.lock.Unlock()
ret := Thread(t.nextTid)
t.nextTid += 1
t.defineThread(ret, name)
return ret
}
// Begin starts a new Duration Event. More than one Duration Event may be active
// at a time on each Thread, but they're nested.
func (t *tracerImpl) Begin(name string, thread Thread) {
t.writeEvent(&viewerEvent{
Name: name,
Phase: "B",
Time: uint64(time.Now().UnixNano()) / 1000,
Pid: 0,
Tid: uint64(thread),
})
}
// End finishes the most recent active Duration Event on the thread.
func (t *tracerImpl) End(thread Thread) {
t.writeEvent(&viewerEvent{
Phase: "E",
Time: uint64(time.Now().UnixNano()) / 1000,
Pid: 0,
Tid: uint64(thread),
})
}
// Complete writes a Complete Event, which are like Duration Events, but include
// a begin and end timestamp in the same event.
func (t *tracerImpl) Complete(name string, thread Thread, begin, end uint64) {
t.writeEvent(&viewerEvent{
Name: name,
Phase: "X",
Time: begin / 1000,
Dur: (end - begin) / 1000,
Pid: 0,
Tid: uint64(thread),
})
}