ProcessMonitor::ProcessMonitor(ProcessPOSIX *process, lldb::pid_t pid, lldb_private::Error &error) : m_process(static_cast<ProcessFreeBSD *>(process)), m_operation_thread(LLDB_INVALID_HOST_THREAD), m_monitor_thread(LLDB_INVALID_HOST_THREAD), m_pid(pid), m_server_mutex(Mutex::eMutexTypeRecursive), m_terminal_fd(-1), m_client_fd(-1), m_server_fd(-1) { std::auto_ptr<AttachArgs> args; args.reset(new AttachArgs(this, pid)); // Server/client descriptors. if (!EnableIPC()) { error.SetErrorToGenericError(); error.SetErrorString("Monitor failed to initialize."); } StartAttachOpThread(args.get(), error); if (!error.Success()) return; WAIT_AGAIN: // Wait for the operation thread to initialize. if (sem_wait(&args->m_semaphore)) { if (errno == EINTR) goto WAIT_AGAIN; else { error.SetErrorToErrno(); return; } } // Check that the launch was a success. if (!args->m_error.Success()) { StopAttachOpThread(); error = args->m_error; return; } // Finally, start monitoring the child process for change in state. m_monitor_thread = Host::StartMonitoringChildProcess( ProcessMonitor::MonitorCallback, this, GetPID(), true); if (!IS_VALID_LLDB_HOST_THREAD(m_monitor_thread)) { error.SetErrorToGenericError(); error.SetErrorString("Process attach failed."); return; } }
//------------------------------------------------------------------------------ /// The basic design of the ProcessMonitor is built around two threads. /// /// One thread (@see SignalThread) simply blocks on a call to waitpid() looking /// for changes in the debugee state. When a change is detected a /// ProcessMessage is sent to the associated ProcessFreeBSD instance. This thread /// "drives" state changes in the debugger. /// /// The second thread (@see OperationThread) is responsible for two things 1) /// launching or attaching to the inferior process, and then 2) servicing /// operations such as register reads/writes, stepping, etc. See the comments /// on the Operation class for more info as to why this is needed. ProcessMonitor::ProcessMonitor(ProcessPOSIX *process, Module *module, const char *argv[], const char *envp[], const FileSpec &stdin_file_spec, const FileSpec &stdout_file_spec, const FileSpec &stderr_file_spec, const FileSpec &working_dir, const lldb_private::ProcessLaunchInfo & /* launch_info */, lldb_private::Error &error) : m_process(static_cast<ProcessFreeBSD *>(process)), m_pid(LLDB_INVALID_PROCESS_ID), m_terminal_fd(-1), m_operation(0) { std::unique_ptr<LaunchArgs> args(new LaunchArgs(this, module, argv, envp, stdin_file_spec, stdout_file_spec, stderr_file_spec, working_dir)); sem_init(&m_operation_pending, 0, 0); sem_init(&m_operation_done, 0, 0); StartLaunchOpThread(args.get(), error); if (!error.Success()) return; WAIT_AGAIN: // Wait for the operation thread to initialize. if (sem_wait(&args->m_semaphore)) { if (errno == EINTR) goto WAIT_AGAIN; else { error.SetErrorToErrno(); return; } } // Check that the launch was a success. if (!args->m_error.Success()) { StopOpThread(); error = args->m_error; return; } // Finally, start monitoring the child process for change in state. m_monitor_thread = Host::StartMonitoringChildProcess( ProcessMonitor::MonitorCallback, this, GetPID(), true); if (!m_monitor_thread.IsJoinable()) { error.SetErrorToGenericError(); error.SetErrorString("Process launch failed."); return; } }
ProcessMonitor::ProcessMonitor(ProcessPOSIX *process, lldb::pid_t pid, lldb_private::Error &error) : m_process(static_cast<ProcessFreeBSD *>(process)), m_operation_thread(LLDB_INVALID_HOST_THREAD), m_monitor_thread(LLDB_INVALID_HOST_THREAD), m_pid(pid), m_terminal_fd(-1), m_operation(0) { sem_init(&m_operation_pending, 0, 0); sem_init(&m_operation_done, 0, 0); std::unique_ptr<AttachArgs> args(new AttachArgs(this, pid)); StartAttachOpThread(args.get(), error); if (!error.Success()) return; WAIT_AGAIN: // Wait for the operation thread to initialize. if (sem_wait(&args->m_semaphore)) { if (errno == EINTR) goto WAIT_AGAIN; else { error.SetErrorToErrno(); return; } } // Check that the attach was a success. if (!args->m_error.Success()) { StopOpThread(); error = args->m_error; return; } // Finally, start monitoring the child process for change in state. m_monitor_thread = Host::StartMonitoringChildProcess( ProcessMonitor::MonitorCallback, this, GetPID(), true); if (!IS_VALID_LLDB_HOST_THREAD(m_monitor_thread)) { error.SetErrorToGenericError(); error.SetErrorString("Process attach failed."); return; } }