electron/shell/browser/relauncher.cc

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// Copyright (c) 2016 GitHub, Inc.
// Use of this source code is governed by the MIT license that can be
// found in the LICENSE file.
#include "shell/browser/relauncher.h"
#include <utility>
#include "base/files/file_util.h"
#include "base/logging.h"
#include "base/path_service.h"
#include "base/process/launch.h"
#include "content/public/common/content_paths.h"
#include "content/public/common/content_switches.h"
#include "content/public/common/main_function_params.h"
#include "shell/common/electron_command_line.h"
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#if defined(OS_POSIX)
#include "base/posix/eintr_wrapper.h"
#endif
namespace relauncher {
namespace internal {
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#if defined(OS_POSIX)
const int kRelauncherSyncFD = STDERR_FILENO + 1;
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#endif
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const CharType* kRelauncherTypeArg = FILE_PATH_LITERAL("--type=relauncher");
const CharType* kRelauncherArgSeparator = FILE_PATH_LITERAL("---");
} // namespace internal
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bool RelaunchApp(const StringVector& argv) {
// Use the currently-running application's helper process. The automatic
// update feature is careful to leave the currently-running version alone,
// so this is safe even if the relaunch is the result of an update having
// been applied. In fact, it's safer than using the updated version of the
// helper process, because there's no guarantee that the updated version's
// relauncher implementation will be compatible with the running version's.
base::FilePath child_path;
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if (!base::PathService::Get(content::CHILD_PROCESS_EXE, &child_path)) {
LOG(ERROR) << "No CHILD_PROCESS_EXE";
return false;
}
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StringVector relauncher_args;
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return RelaunchAppWithHelper(child_path, relauncher_args, argv);
}
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bool RelaunchAppWithHelper(const base::FilePath& helper,
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const StringVector& relauncher_args,
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const StringVector& argv) {
StringVector relaunch_argv;
relaunch_argv.push_back(helper.value());
relaunch_argv.push_back(internal::kRelauncherTypeArg);
// Relauncher process has its own --type=relauncher which
// is not recognized by the service_manager, explicitly set
// the sandbox type to avoid CHECK failure in
// service_manager::SandboxTypeFromCommandLine
relaunch_argv.push_back(FILE_PATH_LITERAL("--no-sandbox"));
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relaunch_argv.insert(relaunch_argv.end(), relauncher_args.begin(),
relauncher_args.end());
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relaunch_argv.push_back(internal::kRelauncherArgSeparator);
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relaunch_argv.insert(relaunch_argv.end(), argv.begin(), argv.end());
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#if defined(OS_POSIX)
int pipe_fds[2];
if (HANDLE_EINTR(pipe(pipe_fds)) != 0) {
PLOG(ERROR) << "pipe";
return false;
}
// The parent process will only use pipe_read_fd as the read side of the
// pipe. It can close the write side as soon as the relauncher process has
// forked off. The relauncher process will only use pipe_write_fd as the
// write side of the pipe. In that process, the read side will be closed by
// base::LaunchApp because it won't be present in fd_map, and the write side
// will be remapped to kRelauncherSyncFD by fd_map.
base::ScopedFD pipe_read_fd(pipe_fds[0]);
base::ScopedFD pipe_write_fd(pipe_fds[1]);
// Make sure kRelauncherSyncFD is a safe value. base::LaunchProcess will
// preserve these three FDs in forked processes, so kRelauncherSyncFD should
// not conflict with them.
static_assert(internal::kRelauncherSyncFD != STDIN_FILENO &&
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internal::kRelauncherSyncFD != STDOUT_FILENO &&
internal::kRelauncherSyncFD != STDERR_FILENO,
"kRelauncherSyncFD must not conflict with stdio fds");
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#endif
base::LaunchOptions options;
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#if defined(OS_POSIX)
options.fds_to_remap.push_back(
std::make_pair(pipe_write_fd.get(), internal::kRelauncherSyncFD));
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base::Process process = base::LaunchProcess(relaunch_argv, options);
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#elif defined(OS_WIN)
base::Process process = base::LaunchProcess(
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internal::ArgvToCommandLineString(relaunch_argv), options);
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#endif
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if (!process.IsValid()) {
LOG(ERROR) << "base::LaunchProcess failed";
return false;
}
// The relauncher process is now starting up, or has started up. The
// original parent process continues.
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#if defined(OS_WIN)
// Synchronize with the relauncher process.
StringType name = internal::GetWaitEventName(process.Pid());
HANDLE wait_event = ::CreateEventW(NULL, TRUE, FALSE, name.c_str());
if (wait_event != NULL) {
WaitForSingleObject(wait_event, 1000);
CloseHandle(wait_event);
}
#elif defined(OS_POSIX)
pipe_write_fd.reset(); // close(pipe_fds[1]);
// Synchronize with the relauncher process.
char read_char;
int read_result = HANDLE_EINTR(read(pipe_read_fd.get(), &read_char, 1));
if (read_result != 1) {
if (read_result < 0) {
PLOG(ERROR) << "read";
} else {
LOG(ERROR) << "read: unexpected result " << read_result;
}
return false;
}
// Since a byte has been successfully read from the relauncher process, it's
// guaranteed to have set up its kqueue monitoring this process for exit.
// It's safe to exit now.
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#endif
return true;
}
int RelauncherMain(const content::MainFunctionParams& main_parameters) {
const StringVector& argv = electron::ElectronCommandLine::argv();
if (argv.size() < 4 || argv[1] != internal::kRelauncherTypeArg) {
LOG(ERROR) << "relauncher process invoked with unexpected arguments";
return 1;
}
internal::RelauncherSynchronizeWithParent();
// Figure out what to execute, what arguments to pass it, and whether to
// start it in the background.
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bool in_relauncher_args = false;
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StringType relaunch_executable;
StringVector relauncher_args;
StringVector launch_argv;
for (size_t argv_index = 2; argv_index < argv.size(); ++argv_index) {
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const StringType& arg(argv[argv_index]);
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if (!in_relauncher_args) {
if (arg == internal::kRelauncherArgSeparator) {
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in_relauncher_args = true;
} else {
relauncher_args.push_back(arg);
}
} else {
launch_argv.push_back(arg);
}
}
if (launch_argv.empty()) {
LOG(ERROR) << "nothing to relaunch";
return 1;
}
if (internal::LaunchProgram(relauncher_args, launch_argv) != 0) {
LOG(ERROR) << "failed to launch program";
return 1;
}
// The application should have relaunched (or is in the process of
// relaunching). From this point on, only clean-up tasks should occur, and
// failures are tolerable.
return 0;
}
} // namespace relauncher