mirror
/
electron
mirror of https://github.com/electron/electron
1
0
Fork 0
Code Issues Releases Activity
electron/shell/browser/electron_browser_main_parts...

244 lines
8.2 KiB
C++
Raw Permalink Blame History

// Copyright (c) 2015 GitHub, Inc.
// Use of this source code is governed by the MIT license that can be
// found in the LICENSE file.
// Most code came from: chrome/browser/chrome_browser_main_posix.cc.
#include "base/notreached.h"
#include "shell/browser/electron_browser_main_parts.h"
#include <errno.h>
#include <limits.h>
#include <pthread.h>
#include <signal.h>
#include <sys/resource.h>
#include <unistd.h>
#include "base/compiler_specific.h"
#include "base/debug/leak_annotations.h"
#include "base/posix/eintr_wrapper.h"
#include "base/threading/platform_thread.h"
#include "content/public/browser/browser_task_traits.h"
#include "shell/browser/browser.h"
namespace electron {
namespace {
// See comment in |PreEarlyInitialization()|, where sigaction is called.
void SIGCHLDHandler(int signal) {}
// The OSX fork() implementation can crash in the child process before
// fork() returns. In that case, the shutdown pipe will still be
// shared with the parent process. To prevent child crashes from
// causing parent shutdowns, |g_pipe_pid| is the pid for the process
// which registered |g_shutdown_pipe_write_fd|.
// See <http://crbug.com/175341>.
pid_t g_pipe_pid = -1;
int g_shutdown_pipe_write_fd = -1;
int g_shutdown_pipe_read_fd = -1;
// Common code between SIG{HUP, INT, TERM}Handler.
void GracefulShutdownHandler(int signal) {
// Reinstall the default handler. We had one shot at graceful shutdown.
struct sigaction action;
memset(&action, 0, sizeof(action));
action.sa_handler = SIG_DFL;
RAW_CHECK(sigaction(signal, &action, nullptr) == 0);
RAW_CHECK(g_pipe_pid == getpid());
RAW_CHECK(g_shutdown_pipe_write_fd != -1);
RAW_CHECK(g_shutdown_pipe_read_fd != -1);
size_t bytes_written = 0;
do {
int rv = HANDLE_EINTR(
write(g_shutdown_pipe_write_fd,
reinterpret_cast<const char*>(&signal) + bytes_written,
sizeof(signal) - bytes_written));
RAW_CHECK(rv >= 0);
bytes_written += rv;
} while (bytes_written < sizeof(signal));
}
// See comment in |PostCreateMainMessageLoop()|, where sigaction is called.
void SIGHUPHandler(int signal) {
RAW_CHECK(signal == SIGHUP);
GracefulShutdownHandler(signal);
}
// See comment in |PostCreateMainMessageLoop()|, where sigaction is called.
void SIGINTHandler(int signal) {
RAW_CHECK(signal == SIGINT);
GracefulShutdownHandler(signal);
}
// See comment in |PostCreateMainMessageLoop()|, where sigaction is called.
void SIGTERMHandler(int signal) {
RAW_CHECK(signal == SIGTERM);
GracefulShutdownHandler(signal);
}
class ShutdownDetector : public base::PlatformThread::Delegate {
public:
explicit ShutdownDetector(
int shutdown_fd,
base::OnceCallback<void()> shutdown_callback,
const scoped_refptr<base::SingleThreadTaskRunner>& task_runner);
// disable copy
ShutdownDetector(const ShutdownDetector&) = delete;
ShutdownDetector& operator=(const ShutdownDetector&) = delete;
// base::PlatformThread::Delegate:
void ThreadMain() override;
private:
const int shutdown_fd_;
base::OnceCallback<void()> shutdown_callback_;
const scoped_refptr<base::SingleThreadTaskRunner> task_runner_;
};
ShutdownDetector::ShutdownDetector(
int shutdown_fd,
base::OnceCallback<void()> shutdown_callback,
const scoped_refptr<base::SingleThreadTaskRunner>& task_runner)
: shutdown_fd_(shutdown_fd),
shutdown_callback_(std::move(shutdown_callback)),
task_runner_(task_runner) {
CHECK_NE(shutdown_fd_, -1);
CHECK(!shutdown_callback_.is_null());
CHECK(task_runner_);
}
// These functions are used to help us diagnose crash dumps that happen
// during the shutdown process.
NOINLINE void ShutdownFDReadError() {
// Ensure function isn't optimized away.
asm("");
sleep(UINT_MAX);
}
NOINLINE void ShutdownFDClosedError() {
// Ensure function isn't optimized away.
asm("");
sleep(UINT_MAX);
}
NOINLINE void ExitPosted() {
// Ensure function isn't optimized away.
asm("");
sleep(UINT_MAX);
}
void ShutdownDetector::ThreadMain() {
base::PlatformThread::SetName("CrShutdownDetector");
int signal;
size_t bytes_read = 0;
do {
const ssize_t ret = HANDLE_EINTR(
read(shutdown_fd_, reinterpret_cast<char*>(&signal) + bytes_read,
sizeof(signal) - bytes_read));
if (ret < 0) {
NOTREACHED_IN_MIGRATION() << "Unexpected error: " << strerror(errno);
ShutdownFDReadError();
break;
} else if (ret == 0) {
NOTREACHED_IN_MIGRATION() << "Unexpected closure of shutdown pipe.";
ShutdownFDClosedError();
break;
}
bytes_read += ret;
} while (bytes_read < sizeof(signal));
VLOG(1) << "Handling shutdown for signal " << signal << ".";
if (!task_runner_->PostTask(FROM_HERE,
base::BindOnce(std::move(shutdown_callback_)))) {
// Without a valid task runner to post the exit task to, there aren't many
// options. Raise the signal again. The default handler will pick it up
// and cause an ungraceful exit.
RAW_LOG(WARNING, "No valid task runner, exiting ungracefully.");
kill(getpid(), signal);
// The signal may be handled on another thread. Give that a chance to
// happen.
sleep(3);
// We really should be dead by now. For whatever reason, we're not. Exit
// immediately, with the exit status set to the signal number with bit 8
// set. On the systems that we care about, this exit status is what is
// normally used to indicate an exit by this signal's default handler.
// This mechanism isn't a de jure standard, but even in the worst case, it
// should at least result in an immediate exit.
RAW_LOG(WARNING, "Still here, exiting really ungracefully.");
_exit(signal | (1 << 7));
}
ExitPosted();
}
} // namespace
void ElectronBrowserMainParts::HandleSIGCHLD() {
// We need to accept SIGCHLD, even though our handler is a no-op because
// otherwise we cannot wait on children. (According to POSIX 2001.)
struct sigaction action;
memset(&action, 0, sizeof(action));
action.sa_handler = SIGCHLDHandler;
CHECK_EQ(sigaction(SIGCHLD, &action, nullptr), 0);
}
void ElectronBrowserMainParts::InstallShutdownSignalHandlers(
base::OnceCallback<void()> shutdown_callback,
const scoped_refptr<base::SingleThreadTaskRunner>& task_runner) {
int pipefd[2];
int ret = pipe(pipefd);
if (ret < 0) {
PLOG(DFATAL) << "Failed to create pipe";
return;
}
g_pipe_pid = getpid();
g_shutdown_pipe_read_fd = pipefd[0];
g_shutdown_pipe_write_fd = pipefd[1];
#if !defined(ADDRESS_SANITIZER)
const size_t kShutdownDetectorThreadStackSize = PTHREAD_STACK_MIN * 2;
#else
// ASan instrumentation bloats the stack frames, so we need to increase the
// stack size to avoid hitting the guard page.
const size_t kShutdownDetectorThreadStackSize = PTHREAD_STACK_MIN * 4;
#endif
ShutdownDetector* detector = new ShutdownDetector(
g_shutdown_pipe_read_fd, std::move(shutdown_callback), task_runner);
// PlatformThread does not delete its delegate.
ANNOTATE_LEAKING_OBJECT_PTR(detector);
if (!base::PlatformThread::CreateNonJoinable(kShutdownDetectorThreadStackSize,
detector)) {
LOG(DFATAL) << "Failed to create shutdown detector task.";
}
// Setup signal handlers for shutdown AFTER shutdown pipe is setup because
// it may be called right away after handler is set.
// If adding to this list of signal handlers, note the new signal probably
// needs to be reset in child processes. See
// base/process_util_posix.cc:LaunchProcess.
// We need to handle SIGTERM, because that is how many POSIX-based distros
// ask processes to quit gracefully at shutdown time.
struct sigaction action;
memset(&action, 0, sizeof(action));
action.sa_handler = SIGTERMHandler;
CHECK_EQ(sigaction(SIGTERM, &action, nullptr), 0);
// Also handle SIGINT - when the user terminates the browser via Ctrl+C. If
// the browser process is being debugged, GDB will catch the SIGINT first.
action.sa_handler = SIGINTHandler;
CHECK_EQ(sigaction(SIGINT, &action, nullptr), 0);
// And SIGHUP, for when the terminal disappears. On shutdown, many Linux
// distros send SIGHUP, SIGTERM, and then SIGKILL.
action.sa_handler = SIGHUPHandler;
CHECK_EQ(sigaction(SIGHUP, &action, nullptr), 0);
}
} // namespace electron
View Git Blame Copy Permalink