289 lines
10 KiB
C++
289 lines
10 KiB
C++
// Copyright 2017 The Chromium Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#include "base/process/launch.h"
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#include <lib/fdio/limits.h>
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#include <lib/fdio/namespace.h>
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#include <lib/fdio/spawn.h>
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#include <lib/zx/job.h>
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#include <stdint.h>
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#include <unistd.h>
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#include <zircon/processargs.h>
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#include "base/command_line.h"
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#include "base/files/file_util.h"
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#include "base/fuchsia/default_job.h"
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#include "base/fuchsia/file_utils.h"
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#include "base/fuchsia/fuchsia_logging.h"
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#include "base/logging.h"
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#include "base/memory/ptr_util.h"
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#include "base/process/environment_internal.h"
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#include "base/scoped_generic.h"
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namespace base {
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namespace {
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bool GetAppOutputInternal(const CommandLine& cmd_line,
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bool include_stderr,
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std::string* output,
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int* exit_code) {
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DCHECK(exit_code);
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LaunchOptions options;
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// LaunchProcess will automatically clone any stdio fd we do not explicitly
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// map.
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int pipe_fd[2];
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if (pipe(pipe_fd) < 0)
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return false;
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options.fds_to_remap.emplace_back(pipe_fd[1], STDOUT_FILENO);
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if (include_stderr)
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options.fds_to_remap.emplace_back(pipe_fd[1], STDERR_FILENO);
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Process process = LaunchProcess(cmd_line, options);
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close(pipe_fd[1]);
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if (!process.IsValid()) {
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close(pipe_fd[0]);
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return false;
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}
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output->clear();
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for (;;) {
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char buffer[256];
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ssize_t bytes_read = read(pipe_fd[0], buffer, sizeof(buffer));
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if (bytes_read <= 0)
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break;
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output->append(buffer, bytes_read);
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}
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close(pipe_fd[0]);
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return process.WaitForExit(exit_code);
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}
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fdio_spawn_action_t FdioSpawnAction(uint32_t action) {
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fdio_spawn_action_t new_action = {};
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new_action.action = action;
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return new_action;
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}
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fdio_spawn_action_t FdioSpawnActionCloneFd(int local_fd, int target_fd) {
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fdio_spawn_action_t action = FdioSpawnAction(FDIO_SPAWN_ACTION_CLONE_FD);
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action.fd.local_fd = local_fd;
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action.fd.target_fd = target_fd;
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return action;
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}
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fdio_spawn_action_t FdioSpawnActionAddNamespaceEntry(const char* prefix,
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zx_handle_t handle) {
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fdio_spawn_action_t action = FdioSpawnAction(FDIO_SPAWN_ACTION_ADD_NS_ENTRY);
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action.ns.prefix = prefix;
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action.ns.handle = handle;
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return action;
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}
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fdio_spawn_action_t FdioSpawnActionAddHandle(uint32_t id, zx_handle_t handle) {
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fdio_spawn_action_t action = FdioSpawnAction(FDIO_SPAWN_ACTION_ADD_HANDLE);
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action.h.id = id;
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action.h.handle = handle;
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return action;
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}
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fdio_spawn_action_t FdioSpawnActionSetName(const char* name) {
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fdio_spawn_action_t action = FdioSpawnAction(FDIO_SPAWN_ACTION_SET_NAME);
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action.name.data = name;
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return action;
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}
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} // namespace
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// static
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uint32_t LaunchOptions::AddHandleToTransfer(
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HandlesToTransferVector* handles_to_transfer,
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zx_handle_t handle) {
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uint32_t handle_id = PA_HND(PA_USER1, handles_to_transfer->size());
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handles_to_transfer->push_back({handle_id, handle});
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return handle_id;
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}
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Process LaunchProcess(const CommandLine& cmdline,
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const LaunchOptions& options) {
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return LaunchProcess(cmdline.argv(), options);
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}
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// TODO(768416): Investigate whether we can make LaunchProcess() create
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// unprivileged processes by default (no implicit capabilities are granted).
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Process LaunchProcess(const std::vector<std::string>& argv,
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const LaunchOptions& options) {
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// fdio_spawn_etc() accepts an array of |fdio_spawn_action_t|, describing
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// namespace entries, descriptors and handles to launch the child process
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// with.
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std::vector<fdio_spawn_action_t> spawn_actions;
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// Handles to be transferred to the child are owned by this vector, so that
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// they they are closed on early-exit, and can be release()d otherwise.
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std::vector<zx::handle> transferred_handles;
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// Add caller-supplied handles for transfer. We must do this first to ensure
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// that the handles are consumed even if some later step fails.
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for (const auto& id_and_handle : options.handles_to_transfer) {
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spawn_actions.push_back(
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FdioSpawnActionAddHandle(id_and_handle.id, id_and_handle.handle));
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transferred_handles.emplace_back(id_and_handle.handle);
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}
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// Determine the job under which to launch the new process.
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zx::unowned_job job = options.job_handle != ZX_HANDLE_INVALID
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? zx::unowned_job(options.job_handle)
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: GetDefaultJob();
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DCHECK(job->is_valid());
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// Construct an |argv| array of C-strings from the supplied std::strings.
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std::vector<const char*> argv_cstr;
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argv_cstr.reserve(argv.size() + 1);
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for (const auto& arg : argv)
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argv_cstr.push_back(arg.c_str());
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argv_cstr.push_back(nullptr);
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// Determine the environment to pass to the new process. If
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// |clear_environment|, |environment| or |current_directory| are set then we
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// construct a new (possibly empty) environment, otherwise we let fdio_spawn()
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// clone the caller's environment into the new process.
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uint32_t spawn_flags = FDIO_SPAWN_CLONE_LDSVC | options.spawn_flags;
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EnvironmentMap environ_modifications = options.environment;
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if (!options.current_directory.empty()) {
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environ_modifications["PWD"] = options.current_directory.value();
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} else {
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FilePath cwd;
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GetCurrentDirectory(&cwd);
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environ_modifications["PWD"] = cwd.value();
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}
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std::unique_ptr<char* []> new_environ;
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if (!environ_modifications.empty()) {
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char* const empty_environ = nullptr;
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char* const* old_environ =
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options.clear_environment ? &empty_environ : environ;
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new_environ =
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internal::AlterEnvironment(old_environ, environ_modifications);
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} else if (!options.clear_environment) {
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spawn_flags |= FDIO_SPAWN_CLONE_ENVIRON;
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}
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// Add actions to clone handles for any specified paths into the new process'
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// namespace.
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if (!options.paths_to_clone.empty() || !options.paths_to_transfer.empty()) {
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DCHECK((options.spawn_flags & FDIO_SPAWN_CLONE_NAMESPACE) == 0);
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transferred_handles.reserve(transferred_handles.size() +
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options.paths_to_clone.size() +
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options.paths_to_transfer.size());
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for (const auto& path_to_transfer : options.paths_to_transfer) {
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zx::handle handle(path_to_transfer.handle);
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spawn_actions.push_back(FdioSpawnActionAddNamespaceEntry(
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path_to_transfer.path.value().c_str(), handle.get()));
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transferred_handles.push_back(std::move(handle));
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}
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for (const auto& path_to_clone : options.paths_to_clone) {
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fidl::InterfaceHandle<::fuchsia::io::Directory> directory =
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base::fuchsia::OpenDirectory(path_to_clone);
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if (!directory) {
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LOG(WARNING) << "Could not open handle for path: " << path_to_clone;
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return base::Process();
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}
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zx::handle handle = directory.TakeChannel();
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spawn_actions.push_back(FdioSpawnActionAddNamespaceEntry(
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path_to_clone.value().c_str(), handle.get()));
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transferred_handles.push_back(std::move(handle));
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}
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}
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// Add any file-descriptors to be cloned into the new process.
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// Note that if FDIO_SPAWN_CLONE_STDIO is set, then any stdio entries in
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// |fds_to_remap| will be used in place of the parent process' descriptors.
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for (const auto& src_target : options.fds_to_remap) {
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spawn_actions.push_back(
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FdioSpawnActionCloneFd(src_target.first, src_target.second));
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}
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// If |process_name_suffix| is specified then set process name as
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// "<file_name><suffix>", otherwise leave the default value.
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std::string process_name;
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if (!options.process_name_suffix.empty()) {
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process_name = base::FilePath(argv[0]).BaseName().value() +
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options.process_name_suffix;
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spawn_actions.push_back(FdioSpawnActionSetName(process_name.c_str()));
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}
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zx::process process_handle;
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// fdio_spawn_etc() will write a null-terminated scring to |error_message| in
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// case of failure, so we avoid unnecessarily initializing it here.
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char error_message[FDIO_SPAWN_ERR_MSG_MAX_LENGTH];
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zx_status_t status = fdio_spawn_etc(
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job->get(), spawn_flags, argv_cstr[0], argv_cstr.data(),
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new_environ.get(), spawn_actions.size(), spawn_actions.data(),
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process_handle.reset_and_get_address(), error_message);
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// fdio_spawn_etc() will close all handles specified in add-handle actions,
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// regardless of whether it succeeds or fails, so release our copies.
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for (auto& transferred_handle : transferred_handles)
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ignore_result(transferred_handle.release());
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if (status != ZX_OK) {
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ZX_LOG(ERROR, status) << "fdio_spawn: " << error_message;
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return Process();
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}
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// Wrap the handle into a Process, and wait for it to terminate, if requested.
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Process process(process_handle.release());
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if (options.wait) {
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status = zx_object_wait_one(process.Handle(), ZX_TASK_TERMINATED,
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ZX_TIME_INFINITE, nullptr);
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ZX_DCHECK(status == ZX_OK, status) << "zx_object_wait_one";
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}
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return process;
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}
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bool GetAppOutput(const CommandLine& cl, std::string* output) {
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int exit_code;
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bool result = GetAppOutputInternal(cl, false, output, &exit_code);
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return result && exit_code == EXIT_SUCCESS;
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}
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bool GetAppOutput(const std::vector<std::string>& argv, std::string* output) {
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return GetAppOutput(CommandLine(argv), output);
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}
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bool GetAppOutputAndError(const CommandLine& cl, std::string* output) {
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int exit_code;
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bool result = GetAppOutputInternal(cl, true, output, &exit_code);
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return result && exit_code == EXIT_SUCCESS;
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}
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bool GetAppOutputAndError(const std::vector<std::string>& argv,
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std::string* output) {
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return GetAppOutputAndError(CommandLine(argv), output);
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}
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bool GetAppOutputWithExitCode(const CommandLine& cl,
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std::string* output,
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int* exit_code) {
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// Contrary to GetAppOutput(), |true| return here means that the process was
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// launched and the exit code was waited upon successfully, but not
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// necessarily that the exit code was EXIT_SUCCESS.
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return GetAppOutputInternal(cl, false, output, exit_code);
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}
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void RaiseProcessToHighPriority() {
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// Fuchsia doesn't provide an API to change process priority.
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}
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} // namespace base
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