shaka-packager/base/process/launch_win.cc

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// Copyright (c) 2012 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "base/process/launch.h"
#include <fcntl.h>
#include <io.h>
#include <windows.h>
#include <userenv.h>
#include <psapi.h>
#include <ios>
#include "base/bind.h"
#include "base/bind_helpers.h"
#include "base/command_line.h"
#include "base/debug/stack_trace.h"
#include "base/logging.h"
#include "base/memory/scoped_ptr.h"
#include "base/message_loop/message_loop.h"
#include "base/metrics/histogram.h"
#include "base/process/kill.h"
#include "base/sys_info.h"
#include "base/win/object_watcher.h"
#include "base/win/scoped_handle.h"
#include "base/win/scoped_process_information.h"
#include "base/win/windows_version.h"
// userenv.dll is required for CreateEnvironmentBlock().
#pragma comment(lib, "userenv.lib")
namespace base {
namespace {
// This exit code is used by the Windows task manager when it kills a
// process. It's value is obviously not that unique, and it's
// surprising to me that the task manager uses this value, but it
// seems to be common practice on Windows to test for it as an
// indication that the task manager has killed something if the
// process goes away.
const DWORD kProcessKilledExitCode = 1;
} // namespace
void RouteStdioToConsole() {
// Don't change anything if stdout or stderr already point to a
// valid stream.
//
// If we are running under Buildbot or under Cygwin's default
// terminal (mintty), stderr and stderr will be pipe handles. In
// that case, we don't want to open CONOUT$, because its output
// likely does not go anywhere.
//
// We don't use GetStdHandle() to check stdout/stderr here because
// it can return dangling IDs of handles that were never inherited
// by this process. These IDs could have been reused by the time
// this function is called. The CRT checks the validity of
// stdout/stderr on startup (before the handle IDs can be reused).
// _fileno(stdout) will return -2 (_NO_CONSOLE_FILENO) if stdout was
// invalid.
if (_fileno(stdout) >= 0 || _fileno(stderr) >= 0)
return;
if (!AttachConsole(ATTACH_PARENT_PROCESS)) {
unsigned int result = GetLastError();
// Was probably already attached.
if (result == ERROR_ACCESS_DENIED)
return;
// Don't bother creating a new console for each child process if the
// parent process is invalid (eg: crashed).
if (result == ERROR_GEN_FAILURE)
return;
// Make a new console if attaching to parent fails with any other error.
// It should be ERROR_INVALID_HANDLE at this point, which means the browser
// was likely not started from a console.
AllocConsole();
}
// Arbitrary byte count to use when buffering output lines. More
// means potential waste, less means more risk of interleaved
// log-lines in output.
enum { kOutputBufferSize = 64 * 1024 };
if (freopen("CONOUT$", "w", stdout)) {
setvbuf(stdout, NULL, _IOLBF, kOutputBufferSize);
// Overwrite FD 1 for the benefit of any code that uses this FD
// directly. This is safe because the CRT allocates FDs 0, 1 and
// 2 at startup even if they don't have valid underlying Windows
// handles. This means we won't be overwriting an FD created by
// _open() after startup.
_dup2(_fileno(stdout), 1);
}
if (freopen("CONOUT$", "w", stderr)) {
setvbuf(stderr, NULL, _IOLBF, kOutputBufferSize);
_dup2(_fileno(stderr), 2);
}
// Fix all cout, wcout, cin, wcin, cerr, wcerr, clog and wclog.
std::ios::sync_with_stdio();
}
bool LaunchProcess(const string16& cmdline,
const LaunchOptions& options,
ProcessHandle* process_handle) {
STARTUPINFO startup_info = {};
startup_info.cb = sizeof(startup_info);
if (options.empty_desktop_name)
startup_info.lpDesktop = L"";
startup_info.dwFlags = STARTF_USESHOWWINDOW;
startup_info.wShowWindow = options.start_hidden ? SW_HIDE : SW_SHOW;
if (options.stdin_handle || options.stdout_handle || options.stderr_handle) {
DCHECK(options.inherit_handles);
DCHECK(options.stdin_handle);
DCHECK(options.stdout_handle);
DCHECK(options.stderr_handle);
startup_info.dwFlags |= STARTF_USESTDHANDLES;
startup_info.hStdInput = options.stdin_handle;
startup_info.hStdOutput = options.stdout_handle;
startup_info.hStdError = options.stderr_handle;
}
DWORD flags = 0;
if (options.job_handle) {
flags |= CREATE_SUSPENDED;
// If this code is run under a debugger, the launched process is
// automatically associated with a job object created by the debugger.
// The CREATE_BREAKAWAY_FROM_JOB flag is used to prevent this.
flags |= CREATE_BREAKAWAY_FROM_JOB;
}
if (options.force_breakaway_from_job_)
flags |= CREATE_BREAKAWAY_FROM_JOB;
base::win::ScopedProcessInformation process_info;
if (options.as_user) {
flags |= CREATE_UNICODE_ENVIRONMENT;
void* enviroment_block = NULL;
if (!CreateEnvironmentBlock(&enviroment_block, options.as_user, FALSE)) {
DPLOG(ERROR);
return false;
}
BOOL launched =
CreateProcessAsUser(options.as_user, NULL,
const_cast<wchar_t*>(cmdline.c_str()),
NULL, NULL, options.inherit_handles, flags,
enviroment_block, NULL, &startup_info,
process_info.Receive());
DestroyEnvironmentBlock(enviroment_block);
if (!launched) {
DPLOG(ERROR);
return false;
}
} else {
if (!CreateProcess(NULL,
const_cast<wchar_t*>(cmdline.c_str()), NULL, NULL,
options.inherit_handles, flags, NULL, NULL,
&startup_info, process_info.Receive())) {
DPLOG(ERROR);
return false;
}
}
if (options.job_handle) {
if (0 == AssignProcessToJobObject(options.job_handle,
process_info.process_handle())) {
DLOG(ERROR) << "Could not AssignProcessToObject.";
KillProcess(process_info.process_handle(), kProcessKilledExitCode, true);
return false;
}
ResumeThread(process_info.thread_handle());
}
if (options.wait)
WaitForSingleObject(process_info.process_handle(), INFINITE);
// If the caller wants the process handle, we won't close it.
if (process_handle)
*process_handle = process_info.TakeProcessHandle();
return true;
}
bool LaunchProcess(const CommandLine& cmdline,
const LaunchOptions& options,
ProcessHandle* process_handle) {
return LaunchProcess(cmdline.GetCommandLineString(), options, process_handle);
}
bool SetJobObjectAsKillOnJobClose(HANDLE job_object) {
JOBOBJECT_EXTENDED_LIMIT_INFORMATION limit_info = {0};
limit_info.BasicLimitInformation.LimitFlags =
JOB_OBJECT_LIMIT_KILL_ON_JOB_CLOSE;
return 0 != SetInformationJobObject(
job_object,
JobObjectExtendedLimitInformation,
&limit_info,
sizeof(limit_info));
}
bool GetAppOutput(const CommandLine& cl, std::string* output) {
HANDLE out_read = NULL;
HANDLE out_write = NULL;
SECURITY_ATTRIBUTES sa_attr;
// Set the bInheritHandle flag so pipe handles are inherited.
sa_attr.nLength = sizeof(SECURITY_ATTRIBUTES);
sa_attr.bInheritHandle = TRUE;
sa_attr.lpSecurityDescriptor = NULL;
// Create the pipe for the child process's STDOUT.
if (!CreatePipe(&out_read, &out_write, &sa_attr, 0)) {
NOTREACHED() << "Failed to create pipe";
return false;
}
// Ensure we don't leak the handles.
win::ScopedHandle scoped_out_read(out_read);
win::ScopedHandle scoped_out_write(out_write);
// Ensure the read handle to the pipe for STDOUT is not inherited.
if (!SetHandleInformation(out_read, HANDLE_FLAG_INHERIT, 0)) {
NOTREACHED() << "Failed to disabled pipe inheritance";
return false;
}
FilePath::StringType writable_command_line_string(cl.GetCommandLineString());
base::win::ScopedProcessInformation proc_info;
STARTUPINFO start_info = { 0 };
start_info.cb = sizeof(STARTUPINFO);
start_info.hStdOutput = out_write;
// Keep the normal stdin and stderr.
start_info.hStdInput = GetStdHandle(STD_INPUT_HANDLE);
start_info.hStdError = GetStdHandle(STD_ERROR_HANDLE);
start_info.dwFlags |= STARTF_USESTDHANDLES;
// Create the child process.
if (!CreateProcess(NULL,
&writable_command_line_string[0],
NULL, NULL,
TRUE, // Handles are inherited.
0, NULL, NULL, &start_info, proc_info.Receive())) {
NOTREACHED() << "Failed to start process";
return false;
}
// Close our writing end of pipe now. Otherwise later read would not be able
// to detect end of child's output.
scoped_out_write.Close();
// Read output from the child process's pipe for STDOUT
const int kBufferSize = 1024;
char buffer[kBufferSize];
for (;;) {
DWORD bytes_read = 0;
BOOL success = ReadFile(out_read, buffer, kBufferSize, &bytes_read, NULL);
if (!success || bytes_read == 0)
break;
output->append(buffer, bytes_read);
}
// Let's wait for the process to finish.
WaitForSingleObject(proc_info.process_handle(), INFINITE);
return true;
}
void RaiseProcessToHighPriority() {
SetPriorityClass(GetCurrentProcess(), HIGH_PRIORITY_CLASS);
}
} // namespace base