// 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 "chromeos/process_proxy/process_proxy.h" #include <fcntl.h> #include <stdlib.h> #include <sys/ioctl.h> #include "base/bind.h" #include "base/command_line.h" #include "base/file_util.h" #include "base/logging.h" #include "base/posix/eintr_wrapper.h" #include "base/process/kill.h" #include "base/process/launch.h" #include "base/threading/thread.h" #include "chromeos/process_proxy/process_output_watcher.h" namespace { enum PipeEnd { PIPE_END_READ, PIPE_END_WRITE }; enum PseudoTerminalFd { PT_MASTER_FD, PT_SLAVE_FD }; const int kInvalidFd = -1; } // namespace namespace chromeos { ProcessProxy::ProcessProxy(): process_launched_(false), callback_set_(false), watcher_started_(false) { // Set pipes to initial, invalid value so we can easily know if a pipe was // opened by us. ClearAllFdPairs(); }; bool ProcessProxy::Open(const std::string& command, pid_t* pid) { if (process_launched_) return false; if (!CreatePseudoTerminalPair(pt_pair_)) { return false; } process_launched_ = LaunchProcess(command, pt_pair_[PT_SLAVE_FD], &pid_); if (process_launched_) { // We won't need these anymore. These will be used by the launched process. CloseFd(&pt_pair_[PT_SLAVE_FD]); *pid = pid_; LOG(WARNING) << "Process launched: " << pid_; } else { CloseFdPair(pt_pair_); } return process_launched_; } bool ProcessProxy::StartWatchingOnThread( base::Thread* watch_thread, const ProcessOutputCallback& callback) { DCHECK(process_launched_); if (watcher_started_) return false; if (pipe(shutdown_pipe_)) return false; // We give ProcessOutputWatcher a copy of master to make life easier during // tear down. // TODO(tbarzic): improve fd managment. int master_copy = HANDLE_EINTR(dup(pt_pair_[PT_MASTER_FD])); if (master_copy == -1) return false; callback_set_ = true; callback_ = callback; callback_runner_ = base::MessageLoopProxy::current(); // This object will delete itself once watching is stopped. // It also takes ownership of the passed fds. ProcessOutputWatcher* output_watcher = new ProcessOutputWatcher(master_copy, shutdown_pipe_[PIPE_END_READ], base::Bind(&ProcessProxy::OnProcessOutput, this)); // Output watcher took ownership of the read end of shutdown pipe. shutdown_pipe_[PIPE_END_READ] = -1; // |watch| thread is blocked by |output_watcher| from now on. watch_thread->message_loop()->PostTask(FROM_HERE, base::Bind(&ProcessOutputWatcher::Start, base::Unretained(output_watcher))); watcher_started_ = true; return true; } void ProcessProxy::OnProcessOutput(ProcessOutputType type, const std::string& output) { if (!callback_runner_.get()) return; callback_runner_->PostTask( FROM_HERE, base::Bind(&ProcessProxy::CallOnProcessOutputCallback, this, type, output)); } void ProcessProxy::CallOnProcessOutputCallback(ProcessOutputType type, const std::string& output) { // We may receive some output even after Close was called (crosh process does // not have to quit instantly, or there may be some trailing data left in // output stream fds). In that case owner of the callback may be gone so we // don't want to send it anything. |callback_set_| is reset when this gets // closed. if (callback_set_) callback_.Run(type, output); } bool ProcessProxy::StopWatching() { if (!watcher_started_) return true; // Signal Watcher that we are done. We use self-pipe trick to unblock watcher. // Anything may be written to the pipe. const char message[] = "q"; return file_util::WriteFileDescriptor(shutdown_pipe_[PIPE_END_WRITE], message, sizeof(message)); } void ProcessProxy::Close() { if (!process_launched_) return; process_launched_ = false; callback_set_ = false; callback_ = ProcessOutputCallback(); callback_runner_ = NULL; base::KillProcess(pid_, 0, true /* wait */); // TODO(tbarzic): What if this fails? StopWatching(); CloseAllFdPairs(); } bool ProcessProxy::Write(const std::string& text) { if (!process_launched_) return false; // We don't want to write '\0' to the pipe. size_t data_size = text.length() * sizeof(*text.c_str()); int bytes_written = file_util::WriteFileDescriptor(pt_pair_[PT_MASTER_FD], text.c_str(), data_size); return (bytes_written == static_cast<int>(data_size)); } bool ProcessProxy::OnTerminalResize(int width, int height) { if (width < 0 || height < 0) return false; winsize ws; // Number of rows. ws.ws_row = height; // Number of columns. ws.ws_col = width; return (HANDLE_EINTR(ioctl(pt_pair_[PT_MASTER_FD], TIOCSWINSZ, &ws)) != -1); } ProcessProxy::~ProcessProxy() { // In case watcher did not started, we may get deleted without calling Close. // In that case we have to clean up created pipes. If watcher had been // started, there will be a callback with our reference owned by // process_output_watcher until Close is called, so we know Close has been // called by now (and pipes have been cleaned). if (!watcher_started_) CloseAllFdPairs(); } bool ProcessProxy::CreatePseudoTerminalPair(int *pt_pair) { ClearFdPair(pt_pair); // Open Master. pt_pair[PT_MASTER_FD] = HANDLE_EINTR(posix_openpt(O_RDWR | O_NOCTTY)); if (pt_pair[PT_MASTER_FD] == -1) return false; if (grantpt(pt_pair_[PT_MASTER_FD]) != 0 || unlockpt(pt_pair_[PT_MASTER_FD]) != 0) { CloseFd(&pt_pair[PT_MASTER_FD]); return false; } char* slave_name = NULL; // Per man page, slave_name must not be freed. slave_name = ptsname(pt_pair_[PT_MASTER_FD]); if (slave_name) pt_pair_[PT_SLAVE_FD] = HANDLE_EINTR(open(slave_name, O_RDWR | O_NOCTTY)); if (pt_pair_[PT_SLAVE_FD] == -1) { CloseFdPair(pt_pair); return false; } return true; } bool ProcessProxy::LaunchProcess(const std::string& command, int slave_fd, pid_t* pid) { // Redirect crosh process' output and input so we can read it. base::FileHandleMappingVector fds_mapping; fds_mapping.push_back(std::make_pair(slave_fd, STDIN_FILENO)); fds_mapping.push_back(std::make_pair(slave_fd, STDOUT_FILENO)); fds_mapping.push_back(std::make_pair(slave_fd, STDERR_FILENO)); base::LaunchOptions options; options.fds_to_remap = &fds_mapping; options.ctrl_terminal_fd = slave_fd; options.environ["TERM"] = "xterm"; // Launch the process. return base::LaunchProcess(CommandLine(base::FilePath(command)), options, pid); } void ProcessProxy::CloseAllFdPairs() { CloseFdPair(pt_pair_); CloseFdPair(shutdown_pipe_); } void ProcessProxy::CloseFdPair(int* pipe) { CloseFd(&(pipe[PIPE_END_READ])); CloseFd(&(pipe[PIPE_END_WRITE])); } void ProcessProxy::CloseFd(int* fd) { if (*fd != kInvalidFd) { if (IGNORE_EINTR(close(*fd)) != 0) DPLOG(WARNING) << "close fd failed."; } *fd = kInvalidFd; } void ProcessProxy::ClearAllFdPairs() { ClearFdPair(pt_pair_); ClearFdPair(shutdown_pipe_); } void ProcessProxy::ClearFdPair(int* pipe) { pipe[PIPE_END_READ] = kInvalidFd; pipe[PIPE_END_WRITE] = kInvalidFd; } } // namespace chromeos