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gitea/modules/graceful/manager_unix.go
zeripath c88547ce71
Add Goroutine stack inspector to admin/monitor (#19207)
Continues on from #19202.

Following the addition of pprof labels we can now more easily understand the relationship between a goroutine and the requests that spawn them. 

This PR takes advantage of the labels and adds a few others, then provides a mechanism for the monitoring page to query the pprof goroutine profile.

The binary profile that results from this profile is immediately piped in to the google library for parsing this and then stack traces are formed for the goroutines.

If the goroutine is within a context or has been created from a goroutine within a process context it will acquire the process description labels for that process. 

The goroutines are mapped with there associate pids and any that do not have an associated pid are placed in a group at the bottom as unbound.

In this way we should be able to more easily examine goroutines that have been stuck.

A manager command `gitea manager processes` is also provided that can export the processes (with or without stacktraces) to the command line.

Signed-off-by: Andrew Thornton <art27@cantab.net>
2022-03-31 19:01:43 +02:00

216 lines
6.1 KiB
Go

// Copyright 2019 The Gitea Authors. All rights reserved.
// Use of this source code is governed by a MIT-style
// license that can be found in the LICENSE file.
//go:build !windows
// +build !windows
package graceful
import (
"context"
"errors"
"os"
"os/signal"
"runtime/pprof"
"sync"
"syscall"
"time"
"code.gitea.io/gitea/modules/log"
"code.gitea.io/gitea/modules/process"
"code.gitea.io/gitea/modules/setting"
)
// Manager manages the graceful shutdown process
type Manager struct {
isChild bool
forked bool
lock *sync.RWMutex
state state
shutdownCtx context.Context
hammerCtx context.Context
terminateCtx context.Context
managerCtx context.Context
shutdownCtxCancel context.CancelFunc
hammerCtxCancel context.CancelFunc
terminateCtxCancel context.CancelFunc
managerCtxCancel context.CancelFunc
runningServerWaitGroup sync.WaitGroup
createServerWaitGroup sync.WaitGroup
terminateWaitGroup sync.WaitGroup
toRunAtShutdown []func()
toRunAtHammer []func()
toRunAtTerminate []func()
}
func newGracefulManager(ctx context.Context) *Manager {
manager := &Manager{
isChild: len(os.Getenv(listenFDs)) > 0 && os.Getppid() > 1,
lock: &sync.RWMutex{},
}
manager.createServerWaitGroup.Add(numberOfServersToCreate)
manager.start(ctx)
return manager
}
func (g *Manager) start(ctx context.Context) {
// Make contexts
g.terminateCtx, g.terminateCtxCancel = context.WithCancel(ctx)
g.shutdownCtx, g.shutdownCtxCancel = context.WithCancel(ctx)
g.hammerCtx, g.hammerCtxCancel = context.WithCancel(ctx)
g.managerCtx, g.managerCtxCancel = context.WithCancel(ctx)
// Next add pprof labels to these contexts
g.terminateCtx = pprof.WithLabels(g.terminateCtx, pprof.Labels("graceful-lifecycle", "with-terminate"))
g.shutdownCtx = pprof.WithLabels(g.shutdownCtx, pprof.Labels("graceful-lifecycle", "with-shutdown"))
g.hammerCtx = pprof.WithLabels(g.hammerCtx, pprof.Labels("graceful-lifecycle", "with-hammer"))
g.managerCtx = pprof.WithLabels(g.managerCtx, pprof.Labels("graceful-lifecycle", "with-manager"))
// Now label this and all goroutines created by this goroutine with the graceful-lifecycle manager
pprof.SetGoroutineLabels(g.managerCtx)
defer pprof.SetGoroutineLabels(ctx)
// Set the running state & handle signals
g.setState(stateRunning)
go g.handleSignals(g.managerCtx)
// Handle clean up of unused provided listeners and delayed start-up
startupDone := make(chan struct{})
go func() {
defer close(startupDone)
// Wait till we're done getting all of the listeners and then close
// the unused ones
g.createServerWaitGroup.Wait()
// Ignore the error here there's not much we can do with it
// They're logged in the CloseProvidedListeners function
_ = CloseProvidedListeners()
}()
if setting.StartupTimeout > 0 {
go func() {
select {
case <-startupDone:
return
case <-g.IsShutdown():
func() {
// When waitgroup counter goes negative it will panic - we don't care about this so we can just ignore it.
defer func() {
_ = recover()
}()
// Ensure that the createServerWaitGroup stops waiting
for {
g.createServerWaitGroup.Done()
}
}()
return
case <-time.After(setting.StartupTimeout):
log.Error("Startup took too long! Shutting down")
g.doShutdown()
}
}()
}
}
func (g *Manager) handleSignals(ctx context.Context) {
ctx, _, finished := process.GetManager().AddTypedContext(ctx, "Graceful: HandleSignals", process.SystemProcessType, true)
defer finished()
signalChannel := make(chan os.Signal, 1)
signal.Notify(
signalChannel,
syscall.SIGHUP,
syscall.SIGUSR1,
syscall.SIGUSR2,
syscall.SIGINT,
syscall.SIGTERM,
syscall.SIGTSTP,
)
pid := syscall.Getpid()
for {
select {
case sig := <-signalChannel:
switch sig {
case syscall.SIGHUP:
log.Info("PID: %d. Received SIGHUP. Attempting GracefulRestart...", pid)
g.DoGracefulRestart()
case syscall.SIGUSR1:
log.Warn("PID %d. Received SIGUSR1. Releasing and reopening logs", pid)
if err := log.ReleaseReopen(); err != nil {
log.Error("Error whilst releasing and reopening logs: %v", err)
}
case syscall.SIGUSR2:
log.Warn("PID %d. Received SIGUSR2. Hammering...", pid)
g.DoImmediateHammer()
case syscall.SIGINT:
log.Warn("PID %d. Received SIGINT. Shutting down...", pid)
g.DoGracefulShutdown()
case syscall.SIGTERM:
log.Warn("PID %d. Received SIGTERM. Shutting down...", pid)
g.DoGracefulShutdown()
case syscall.SIGTSTP:
log.Info("PID %d. Received SIGTSTP.", pid)
default:
log.Info("PID %d. Received %v.", pid, sig)
}
case <-ctx.Done():
log.Warn("PID: %d. Background context for manager closed - %v - Shutting down...", pid, ctx.Err())
g.DoGracefulShutdown()
}
}
}
func (g *Manager) doFork() error {
g.lock.Lock()
if g.forked {
g.lock.Unlock()
return errors.New("another process already forked. Ignoring this one")
}
g.forked = true
g.lock.Unlock()
// We need to move the file logs to append pids
setting.RestartLogsWithPIDSuffix()
_, err := RestartProcess()
return err
}
// DoGracefulRestart causes a graceful restart
func (g *Manager) DoGracefulRestart() {
if setting.GracefulRestartable {
log.Info("PID: %d. Forking...", os.Getpid())
err := g.doFork()
if err != nil {
if err.Error() == "another process already forked. Ignoring this one" {
g.DoImmediateHammer()
} else {
log.Error("Error whilst forking from PID: %d : %v", os.Getpid(), err)
}
}
} else {
log.Info("PID: %d. Not set restartable. Shutting down...", os.Getpid())
g.doShutdown()
}
}
// DoImmediateHammer causes an immediate hammer
func (g *Manager) DoImmediateHammer() {
g.doHammerTime(0 * time.Second)
}
// DoGracefulShutdown causes a graceful shutdown
func (g *Manager) DoGracefulShutdown() {
g.doShutdown()
}
// RegisterServer registers the running of a listening server, in the case of unix this means that the parent process can now die.
// Any call to RegisterServer must be matched by a call to ServerDone
func (g *Manager) RegisterServer() {
KillParent()
g.runningServerWaitGroup.Add(1)
}