platform_build_soong/ui/terminal/smart_status.go
Jeongik Cha adbdbc33f8 Remove not-used field in smart_status
Bug: 292304818
Test: m nothing
Change-Id: Icd05ee3af49063a01447fef9e9c3daf705f0cc4b
2023-11-30 08:58:26 +09:00

468 lines
11 KiB
Go

// Copyright 2019 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.
package terminal
import (
"fmt"
"io"
"os"
"os/signal"
"strconv"
"strings"
"sync"
"syscall"
"time"
"android/soong/ui/status"
)
const tableHeightEnVar = "SOONG_UI_TABLE_HEIGHT"
type actionTableEntry struct {
action *status.Action
startTime time.Time
}
type smartStatusOutput struct {
writer io.Writer
formatter formatter
lock sync.Mutex
haveBlankLine bool
tableMode bool
tableHeight int
requestedTableHeight int
termWidth, termHeight int
runningActions []actionTableEntry
ticker *time.Ticker
done chan bool
sigwinch chan os.Signal
sigwinchHandled chan bool
// Once there is a failure, we stop printing command output so the error
// is easier to find
haveFailures bool
// If we are dropping errors, then at the end, we report a message to go
// look in the verbose log if you want that command output.
postFailureActionCount int
}
// NewSmartStatusOutput returns a StatusOutput that represents the
// current build status similarly to Ninja's built-in terminal
// output.
func NewSmartStatusOutput(w io.Writer, formatter formatter) status.StatusOutput {
s := &smartStatusOutput{
writer: w,
formatter: formatter,
haveBlankLine: true,
tableMode: true,
done: make(chan bool),
sigwinch: make(chan os.Signal),
}
if env, ok := os.LookupEnv(tableHeightEnVar); ok {
h, _ := strconv.Atoi(env)
s.tableMode = h > 0
s.requestedTableHeight = h
}
if w, h, ok := termSize(s.writer); ok {
s.termWidth, s.termHeight = w, h
s.computeTableHeight()
} else {
s.tableMode = false
}
if s.tableMode {
// Add empty lines at the bottom of the screen to scroll back the existing history
// and make room for the action table.
// TODO: read the cursor position to see if the empty lines are necessary?
for i := 0; i < s.tableHeight; i++ {
fmt.Fprintln(w)
}
// Hide the cursor to prevent seeing it bouncing around
fmt.Fprintf(s.writer, ansi.hideCursor())
// Configure the empty action table
s.actionTable()
// Start a tick to update the action table periodically
s.startActionTableTick()
}
s.startSigwinch()
return s
}
func (s *smartStatusOutput) Message(level status.MsgLevel, message string) {
if level < status.StatusLvl {
return
}
str := s.formatter.message(level, message)
s.lock.Lock()
defer s.lock.Unlock()
if level > status.StatusLvl {
s.print(str)
} else {
s.statusLine(str)
}
}
func (s *smartStatusOutput) StartAction(action *status.Action, counts status.Counts) {
startTime := time.Now()
str := action.Description
if str == "" {
str = action.Command
}
progress := s.formatter.progress(counts)
s.lock.Lock()
defer s.lock.Unlock()
s.runningActions = append(s.runningActions, actionTableEntry{
action: action,
startTime: startTime,
})
s.statusLine(progress + str)
}
func (s *smartStatusOutput) FinishAction(result status.ActionResult, counts status.Counts) {
str := result.Description
if str == "" {
str = result.Command
}
progress := s.formatter.progress(counts) + str
output := s.formatter.result(result)
s.lock.Lock()
defer s.lock.Unlock()
for i, runningAction := range s.runningActions {
if runningAction.action == result.Action {
s.runningActions = append(s.runningActions[:i], s.runningActions[i+1:]...)
break
}
}
s.statusLine(progress)
// Stop printing when there are failures, but don't skip actions that also have their own errors.
if output != "" {
if !s.haveFailures || result.Error != nil {
s.requestLine()
s.print(output)
} else {
s.postFailureActionCount++
}
}
if result.Error != nil {
s.haveFailures = true
}
}
func (s *smartStatusOutput) Flush() {
if s.tableMode {
// Stop the action table tick outside of the lock to avoid lock ordering issues between s.done and
// s.lock, the goroutine in startActionTableTick can get blocked on the lock and be unable to read
// from the channel.
s.stopActionTableTick()
}
s.lock.Lock()
defer s.lock.Unlock()
s.stopSigwinch()
if s.postFailureActionCount > 0 {
s.requestLine()
if s.postFailureActionCount == 1 {
s.print(fmt.Sprintf("There was 1 action that completed after the action that failed. See verbose.log.gz for its output."))
} else {
s.print(fmt.Sprintf("There were %d actions that completed after the action that failed. See verbose.log.gz for their output.", s.postFailureActionCount))
}
}
s.requestLine()
s.runningActions = nil
if s.tableMode {
// Update the table after clearing runningActions to clear it
s.actionTable()
// Reset the scrolling region to the whole terminal
fmt.Fprintf(s.writer, ansi.resetScrollingMargins())
_, height, _ := termSize(s.writer)
// Move the cursor to the top of the now-blank, previously non-scrolling region
fmt.Fprintf(s.writer, ansi.setCursor(height-s.tableHeight, 1))
// Turn the cursor back on
fmt.Fprintf(s.writer, ansi.showCursor())
}
}
func (s *smartStatusOutput) Write(p []byte) (int, error) {
s.lock.Lock()
defer s.lock.Unlock()
s.print(string(p))
return len(p), nil
}
func (s *smartStatusOutput) requestLine() {
if !s.haveBlankLine {
fmt.Fprintln(s.writer)
s.haveBlankLine = true
}
}
func (s *smartStatusOutput) print(str string) {
if !s.haveBlankLine {
fmt.Fprint(s.writer, "\r", ansi.clearToEndOfLine())
s.haveBlankLine = true
}
fmt.Fprint(s.writer, str)
if len(str) == 0 || str[len(str)-1] != '\n' {
fmt.Fprint(s.writer, "\n")
}
}
func (s *smartStatusOutput) statusLine(str string) {
idx := strings.IndexRune(str, '\n')
if idx != -1 {
str = str[0:idx]
}
// Limit line width to the terminal width, otherwise we'll wrap onto
// another line and we won't delete the previous line.
str = elide(str, s.termWidth)
// Move to the beginning on the line, turn on bold, print the output,
// turn off bold, then clear the rest of the line.
start := "\r" + ansi.bold()
end := ansi.regular() + ansi.clearToEndOfLine()
fmt.Fprint(s.writer, start, str, end)
s.haveBlankLine = false
}
func elide(str string, width int) string {
if width > 0 && len(str) > width {
// TODO: Just do a max. Ninja elides the middle, but that's
// more complicated and these lines aren't that important.
str = str[:width]
}
return str
}
func (s *smartStatusOutput) startActionTableTick() {
s.ticker = time.NewTicker(time.Second)
go func() {
for {
select {
case <-s.ticker.C:
s.lock.Lock()
s.actionTable()
s.lock.Unlock()
case <-s.done:
return
}
}
}()
}
func (s *smartStatusOutput) stopActionTableTick() {
s.ticker.Stop()
s.done <- true
}
func (s *smartStatusOutput) startSigwinch() {
signal.Notify(s.sigwinch, syscall.SIGWINCH)
go func() {
for _ = range s.sigwinch {
s.lock.Lock()
s.updateTermSize()
if s.tableMode {
s.actionTable()
}
s.lock.Unlock()
if s.sigwinchHandled != nil {
s.sigwinchHandled <- true
}
}
}()
}
func (s *smartStatusOutput) stopSigwinch() {
signal.Stop(s.sigwinch)
close(s.sigwinch)
}
// computeTableHeight recomputes s.tableHeight based on s.termHeight and s.requestedTableHeight.
func (s *smartStatusOutput) computeTableHeight() {
tableHeight := s.requestedTableHeight
if tableHeight == 0 {
tableHeight = s.termHeight / 4
if tableHeight < 1 {
tableHeight = 1
} else if tableHeight > 10 {
tableHeight = 10
}
}
if tableHeight > s.termHeight-1 {
tableHeight = s.termHeight - 1
}
s.tableHeight = tableHeight
}
// updateTermSize recomputes the table height after a SIGWINCH and pans any existing text if
// necessary.
func (s *smartStatusOutput) updateTermSize() {
if w, h, ok := termSize(s.writer); ok {
oldScrollingHeight := s.termHeight - s.tableHeight
s.termWidth, s.termHeight = w, h
if s.tableMode {
s.computeTableHeight()
scrollingHeight := s.termHeight - s.tableHeight
// If the scrolling region has changed, attempt to pan the existing text so that it is
// not overwritten by the table.
if scrollingHeight < oldScrollingHeight {
pan := oldScrollingHeight - scrollingHeight
if pan > s.tableHeight {
pan = s.tableHeight
}
fmt.Fprint(s.writer, ansi.panDown(pan))
}
}
}
}
func (s *smartStatusOutput) actionTable() {
scrollingHeight := s.termHeight - s.tableHeight
// Update the scrolling region in case the height of the terminal changed
fmt.Fprint(s.writer, ansi.setScrollingMargins(1, scrollingHeight))
// Write as many status lines as fit in the table
for tableLine := 0; tableLine < s.tableHeight; tableLine++ {
if tableLine >= s.tableHeight {
break
}
// Move the cursor to the correct line of the non-scrolling region
fmt.Fprint(s.writer, ansi.setCursor(scrollingHeight+1+tableLine, 1))
if tableLine < len(s.runningActions) {
runningAction := s.runningActions[tableLine]
seconds := int(time.Since(runningAction.startTime).Round(time.Second).Seconds())
desc := runningAction.action.Description
if desc == "" {
desc = runningAction.action.Command
}
color := ""
if seconds >= 60 {
color = ansi.red() + ansi.bold()
} else if seconds >= 30 {
color = ansi.yellow() + ansi.bold()
}
durationStr := fmt.Sprintf(" %2d:%02d ", seconds/60, seconds%60)
desc = elide(desc, s.termWidth-len(durationStr))
durationStr = color + durationStr + ansi.regular()
fmt.Fprint(s.writer, durationStr, desc)
}
fmt.Fprint(s.writer, ansi.clearToEndOfLine())
}
// Move the cursor back to the last line of the scrolling region
fmt.Fprint(s.writer, ansi.setCursor(scrollingHeight, 1))
}
var ansi = ansiImpl{}
type ansiImpl struct{}
func (ansiImpl) clearToEndOfLine() string {
return "\x1b[K"
}
func (ansiImpl) setCursor(row, column int) string {
// Direct cursor address
return fmt.Sprintf("\x1b[%d;%dH", row, column)
}
func (ansiImpl) setScrollingMargins(top, bottom int) string {
// Set Top and Bottom Margins DECSTBM
return fmt.Sprintf("\x1b[%d;%dr", top, bottom)
}
func (ansiImpl) resetScrollingMargins() string {
// Set Top and Bottom Margins DECSTBM
return fmt.Sprintf("\x1b[r")
}
func (ansiImpl) red() string {
return "\x1b[31m"
}
func (ansiImpl) yellow() string {
return "\x1b[33m"
}
func (ansiImpl) bold() string {
return "\x1b[1m"
}
func (ansiImpl) regular() string {
return "\x1b[0m"
}
func (ansiImpl) showCursor() string {
return "\x1b[?25h"
}
func (ansiImpl) hideCursor() string {
return "\x1b[?25l"
}
func (ansiImpl) panDown(lines int) string {
return fmt.Sprintf("\x1b[%dS", lines)
}
func (ansiImpl) panUp(lines int) string {
return fmt.Sprintf("\x1b[%dT", lines)
}