//===-- ScriptInterpreterPython.cpp -----------------------------*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // In order to guarantee correct working with Python, Python.h *MUST* be // the *FIRST* header file included here. #ifdef LLDB_DISABLE_PYTHON // Python is disabled in this build #else #include "lldb/lldb-python.h" #include "lldb/Interpreter/ScriptInterpreterPython.h" #include #include #include #include "lldb/API/SBValue.h" #include "lldb/Breakpoint/BreakpointLocation.h" #include "lldb/Breakpoint/StoppointCallbackContext.h" #include "lldb/Breakpoint/WatchpointOptions.h" #include "lldb/Core/Communication.h" #include "lldb/Core/ConnectionFileDescriptor.h" #include "lldb/Core/Debugger.h" #include "lldb/Core/Timer.h" #include "lldb/Host/Host.h" #include "lldb/Interpreter/CommandInterpreter.h" #include "lldb/Interpreter/CommandReturnObject.h" #include "lldb/Interpreter/PythonDataObjects.h" #include "lldb/Target/Thread.h" using namespace lldb; using namespace lldb_private; static ScriptInterpreter::SWIGInitCallback g_swig_init_callback = NULL; static ScriptInterpreter::SWIGBreakpointCallbackFunction g_swig_breakpoint_callback = NULL; static ScriptInterpreter::SWIGWatchpointCallbackFunction g_swig_watchpoint_callback = NULL; static ScriptInterpreter::SWIGPythonTypeScriptCallbackFunction g_swig_typescript_callback = NULL; static ScriptInterpreter::SWIGPythonCreateSyntheticProvider g_swig_synthetic_script = NULL; static ScriptInterpreter::SWIGPythonCalculateNumChildren g_swig_calc_children = NULL; static ScriptInterpreter::SWIGPythonGetChildAtIndex g_swig_get_child_index = NULL; static ScriptInterpreter::SWIGPythonGetIndexOfChildWithName g_swig_get_index_child = NULL; static ScriptInterpreter::SWIGPythonCastPyObjectToSBValue g_swig_cast_to_sbvalue = NULL; static ScriptInterpreter::SWIGPythonGetValueObjectSPFromSBValue g_swig_get_valobj_sp_from_sbvalue = NULL; static ScriptInterpreter::SWIGPythonUpdateSynthProviderInstance g_swig_update_provider = NULL; static ScriptInterpreter::SWIGPythonMightHaveChildrenSynthProviderInstance g_swig_mighthavechildren_provider = NULL; static ScriptInterpreter::SWIGPythonCallCommand g_swig_call_command = NULL; static ScriptInterpreter::SWIGPythonCallModuleInit g_swig_call_module_init = NULL; static ScriptInterpreter::SWIGPythonCreateOSPlugin g_swig_create_os_plugin = NULL; static ScriptInterpreter::SWIGPythonScriptKeyword_Process g_swig_run_script_keyword_process = NULL; static ScriptInterpreter::SWIGPythonScriptKeyword_Thread g_swig_run_script_keyword_thread = NULL; static ScriptInterpreter::SWIGPythonScriptKeyword_Target g_swig_run_script_keyword_target = NULL; static ScriptInterpreter::SWIGPythonScriptKeyword_Frame g_swig_run_script_keyword_frame = NULL; static ScriptInterpreter::SWIGPython_GetDynamicSetting g_swig_plugin_get = NULL; static int _check_and_flush (FILE *stream) { int prev_fail = ferror (stream); return fflush (stream) || prev_fail ? EOF : 0; } static std::string ReadPythonBacktrace (PyObject* py_backtrace); ScriptInterpreterPython::Locker::Locker (ScriptInterpreterPython *py_interpreter, uint16_t on_entry, uint16_t on_leave, FILE *in, FILE *out, FILE *err) : ScriptInterpreterLocker (), m_teardown_session( (on_leave & TearDownSession) == TearDownSession ), m_python_interpreter(py_interpreter) { DoAcquireLock(); if ((on_entry & InitSession) == InitSession) { if (DoInitSession(on_entry, in, out, err) == false) { // Don't teardown the session if we didn't init it. m_teardown_session = false; } } } bool ScriptInterpreterPython::Locker::DoAcquireLock() { Log *log (lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_SCRIPT | LIBLLDB_LOG_VERBOSE)); m_GILState = PyGILState_Ensure(); if (log) log->Printf("Ensured PyGILState. Previous state = %slocked\n", m_GILState == PyGILState_UNLOCKED ? "un" : ""); return true; } bool ScriptInterpreterPython::Locker::DoInitSession(uint16_t on_entry_flags, FILE *in, FILE *out, FILE *err) { if (!m_python_interpreter) return false; return m_python_interpreter->EnterSession (on_entry_flags, in, out, err); } bool ScriptInterpreterPython::Locker::DoFreeLock() { Log *log (lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_SCRIPT | LIBLLDB_LOG_VERBOSE)); if (log) log->Printf("Releasing PyGILState. Returning to state = %slocked\n", m_GILState == PyGILState_UNLOCKED ? "un" : ""); PyGILState_Release(m_GILState); return true; } bool ScriptInterpreterPython::Locker::DoTearDownSession() { if (!m_python_interpreter) return false; m_python_interpreter->LeaveSession (); return true; } ScriptInterpreterPython::Locker::~Locker() { if (m_teardown_session) DoTearDownSession(); DoFreeLock(); } ScriptInterpreterPython::ScriptInterpreterPython (CommandInterpreter &interpreter) : ScriptInterpreter (interpreter, eScriptLanguagePython), IOHandlerDelegateMultiline("DONE"), m_saved_stdin (), m_saved_stdout (), m_saved_stderr (), m_main_module (), m_lldb_module (), m_session_dict (false), // Don't create an empty dictionary, leave it invalid m_sys_module_dict (false), // Don't create an empty dictionary, leave it invalid m_run_one_line_function (), m_run_one_line_str_global (), m_dictionary_name (interpreter.GetDebugger().GetInstanceName().AsCString()), m_terminal_state (), m_active_io_handler (eIOHandlerNone), m_session_is_active (false), m_pty_slave_is_open (false), m_valid_session (true), m_command_thread_state (NULL) { ScriptInterpreterPython::InitializePrivate (); m_dictionary_name.append("_dict"); StreamString run_string; run_string.Printf ("%s = dict()", m_dictionary_name.c_str()); Locker locker(this, ScriptInterpreterPython::Locker::AcquireLock, ScriptInterpreterPython::Locker::FreeAcquiredLock); PyRun_SimpleString (run_string.GetData()); run_string.Clear(); // Importing 'lldb' module calls SBDebugger::Initialize, which calls Debugger::Initialize, which increments a // global debugger ref-count; therefore we need to check the ref-count before and after importing lldb, and if the // ref-count increased we need to call Debugger::Terminate here to decrement the ref-count so that when the final // call to Debugger::Terminate is made, the ref-count has the correct value. // // Bonus question: Why doesn't the ref-count always increase? Because sometimes lldb has already been imported, in // which case the code inside it, including the call to SBDebugger::Initialize(), does not get executed. int old_count = Debugger::TestDebuggerRefCount(); run_string.Printf ("run_one_line (%s, 'import copy, os, re, sys, uuid, lldb')", m_dictionary_name.c_str()); PyRun_SimpleString (run_string.GetData()); // WARNING: temporary code that loads Cocoa formatters - this should be done on a per-platform basis rather than loading the whole set // and letting the individual formatter classes exploit APIs to check whether they can/cannot do their task run_string.Clear(); run_string.Printf ("run_one_line (%s, 'import lldb.formatters, lldb.formatters.cpp, pydoc')", m_dictionary_name.c_str()); PyRun_SimpleString (run_string.GetData()); run_string.Clear(); int new_count = Debugger::TestDebuggerRefCount(); if (new_count > old_count) Debugger::Terminate(); run_string.Printf ("run_one_line (%s, 'import lldb.embedded_interpreter; from lldb.embedded_interpreter import run_python_interpreter; from lldb.embedded_interpreter import run_one_line')", m_dictionary_name.c_str()); PyRun_SimpleString (run_string.GetData()); run_string.Clear(); run_string.Printf ("run_one_line (%s, 'lldb.debugger_unique_id = %" PRIu64 "; pydoc.pager = pydoc.plainpager')", m_dictionary_name.c_str(), interpreter.GetDebugger().GetID()); PyRun_SimpleString (run_string.GetData()); } ScriptInterpreterPython::~ScriptInterpreterPython () { } void ScriptInterpreterPython::IOHandlerActivated (IOHandler &io_handler) { const char *instructions = NULL; switch (m_active_io_handler) { case eIOHandlerNone: break; case eIOHandlerBreakpoint: instructions = R"(Enter your Python command(s). Type 'DONE' to end. def function (frame, bp_loc, internal_dict): """frame: the lldb.SBFrame for the location at which you stopped bp_loc: an lldb.SBBreakpointLocation for the breakpoint location information internal_dict: an LLDB support object not to be used""" )"; break; case eIOHandlerWatchpoint: instructions = "Enter your Python command(s). Type 'DONE' to end.\n"; break; } if (instructions) { StreamFileSP output_sp(io_handler.GetOutputStreamFile()); if (output_sp) { output_sp->PutCString(instructions); output_sp->Flush(); } } } void ScriptInterpreterPython::IOHandlerInputComplete (IOHandler &io_handler, std::string &data) { io_handler.SetIsDone(true); bool batch_mode = m_interpreter.GetBatchCommandMode(); switch (m_active_io_handler) { case eIOHandlerNone: break; case eIOHandlerBreakpoint: { BreakpointOptions *bp_options = (BreakpointOptions *)io_handler.GetUserData(); std::unique_ptr data_ap(new BreakpointOptions::CommandData()); if (data_ap.get()) { data_ap->user_source.SplitIntoLines(data); if (GenerateBreakpointCommandCallbackData (data_ap->user_source, data_ap->script_source)) { BatonSP baton_sp (new BreakpointOptions::CommandBaton (data_ap.release())); bp_options->SetCallback (ScriptInterpreterPython::BreakpointCallbackFunction, baton_sp); } else if (!batch_mode) { StreamFileSP error_sp = io_handler.GetErrorStreamFile(); if (error_sp) { error_sp->Printf ("Warning: No command attached to breakpoint.\n"); error_sp->Flush(); } } } m_active_io_handler = eIOHandlerNone; } break; case eIOHandlerWatchpoint: { WatchpointOptions *wp_options = (WatchpointOptions *)io_handler.GetUserData(); std::unique_ptr data_ap(new WatchpointOptions::CommandData()); if (data_ap.get()) { data_ap->user_source.SplitIntoLines(data); if (GenerateWatchpointCommandCallbackData (data_ap->user_source, data_ap->script_source)) { BatonSP baton_sp (new WatchpointOptions::CommandBaton (data_ap.release())); wp_options->SetCallback (ScriptInterpreterPython::WatchpointCallbackFunction, baton_sp); } else if (!batch_mode) { StreamFileSP error_sp = io_handler.GetErrorStreamFile(); if (error_sp) { error_sp->Printf ("Warning: No command attached to breakpoint.\n"); error_sp->Flush(); } } } m_active_io_handler = eIOHandlerNone; } break; } } void ScriptInterpreterPython::ResetOutputFileHandle (FILE *fh) { } void ScriptInterpreterPython::SaveTerminalState (int fd) { // Python mucks with the terminal state of STDIN. If we can possibly avoid // this by setting the file handles up correctly prior to entering the // interpreter we should. For now we save and restore the terminal state // on the input file handle. m_terminal_state.Save (fd, false); } void ScriptInterpreterPython::RestoreTerminalState () { // Python mucks with the terminal state of STDIN. If we can possibly avoid // this by setting the file handles up correctly prior to entering the // interpreter we should. For now we save and restore the terminal state // on the input file handle. m_terminal_state.Restore(); } void ScriptInterpreterPython::LeaveSession () { Log *log (lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_SCRIPT)); if (log) log->PutCString("ScriptInterpreterPython::LeaveSession()"); // checking that we have a valid thread state - since we use our own threading and locking // in some (rare) cases during cleanup Python may end up believing we have no thread state // and PyImport_AddModule will crash if that is the case - since that seems to only happen // when destroying the SBDebugger, we can make do without clearing up stdout and stderr // rdar://problem/11292882 // When the current thread state is NULL, PyThreadState_Get() issues a fatal error. if (PyThreadState_GetDict()) { PythonDictionary &sys_module_dict = GetSysModuleDictionary (); if (sys_module_dict) { if (m_saved_stdin) { sys_module_dict.SetItemForKey("stdin", m_saved_stdin); m_saved_stdin.Reset (); } if (m_saved_stdout) { sys_module_dict.SetItemForKey("stdout", m_saved_stdout); m_saved_stdout.Reset (); } if (m_saved_stderr) { sys_module_dict.SetItemForKey("stderr", m_saved_stderr); m_saved_stderr.Reset (); } } } m_session_is_active = false; } bool ScriptInterpreterPython::EnterSession (uint16_t on_entry_flags, FILE *in, FILE *out, FILE *err) { // If we have already entered the session, without having officially 'left' it, then there is no need to // 'enter' it again. Log *log (lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_SCRIPT)); if (m_session_is_active) { if (log) log->Printf("ScriptInterpreterPython::EnterSession(on_entry_flags=0x%" PRIx16 ") session is already active, returning without doing anything", on_entry_flags); return false; } if (log) log->Printf("ScriptInterpreterPython::EnterSession(on_entry_flags=0x%" PRIx16 ")", on_entry_flags); m_session_is_active = true; StreamString run_string; if (on_entry_flags & Locker::InitGlobals) { run_string.Printf ( "run_one_line (%s, 'lldb.debugger_unique_id = %" PRIu64, m_dictionary_name.c_str(), GetCommandInterpreter().GetDebugger().GetID()); run_string.Printf ( "; lldb.debugger = lldb.SBDebugger.FindDebuggerWithID (%" PRIu64 ")", GetCommandInterpreter().GetDebugger().GetID()); run_string.PutCString ("; lldb.target = lldb.debugger.GetSelectedTarget()"); run_string.PutCString ("; lldb.process = lldb.target.GetProcess()"); run_string.PutCString ("; lldb.thread = lldb.process.GetSelectedThread ()"); run_string.PutCString ("; lldb.frame = lldb.thread.GetSelectedFrame ()"); run_string.PutCString ("')"); } else { // If we aren't initing the globals, we should still always set the debugger (since that is always unique.) run_string.Printf ( "run_one_line (%s, 'lldb.debugger_unique_id = %" PRIu64, m_dictionary_name.c_str(), GetCommandInterpreter().GetDebugger().GetID()); run_string.Printf ( "; lldb.debugger = lldb.SBDebugger.FindDebuggerWithID (%" PRIu64 ")", GetCommandInterpreter().GetDebugger().GetID()); run_string.PutCString ("')"); } PyRun_SimpleString (run_string.GetData()); run_string.Clear(); PythonDictionary &sys_module_dict = GetSysModuleDictionary (); if (sys_module_dict) { lldb::StreamFileSP in_sp; lldb::StreamFileSP out_sp; lldb::StreamFileSP err_sp; if (in == NULL || out == NULL || err == NULL) m_interpreter.GetDebugger().AdoptTopIOHandlerFilesIfInvalid (in_sp, out_sp, err_sp); if (in == NULL && in_sp && (on_entry_flags & Locker::NoSTDIN) == 0) in = in_sp->GetFile().GetStream(); if (in) { m_saved_stdin.Reset(sys_module_dict.GetItemForKey("stdin")); PyObject *new_file = PyFile_FromFile (in, (char *) "", (char *) "r", 0); sys_module_dict.SetItemForKey ("stdin", new_file); Py_DECREF (new_file); } else m_saved_stdin.Reset(); if (out == NULL && out_sp) out = out_sp->GetFile().GetStream(); if (out) { m_saved_stdout.Reset(sys_module_dict.GetItemForKey("stdout")); PyObject *new_file = PyFile_FromFile (out, (char *) "", (char *) "w", 0); sys_module_dict.SetItemForKey ("stdout", new_file); Py_DECREF (new_file); } else m_saved_stdout.Reset(); if (err == NULL && err_sp) err = err_sp->GetFile().GetStream(); if (err) { m_saved_stderr.Reset(sys_module_dict.GetItemForKey("stderr")); PyObject *new_file = PyFile_FromFile (err, (char *) "", (char *) "w", 0); sys_module_dict.SetItemForKey ("stderr", new_file); Py_DECREF (new_file); } else m_saved_stderr.Reset(); } if (PyErr_Occurred()) PyErr_Clear (); return true; } PythonObject & ScriptInterpreterPython::GetMainModule () { if (!m_main_module) m_main_module.Reset(PyImport_AddModule ("__main__")); return m_main_module; } PythonDictionary & ScriptInterpreterPython::GetSessionDictionary () { if (!m_session_dict) { PythonObject &main_module = GetMainModule (); if (main_module) { PythonDictionary main_dict(PyModule_GetDict (main_module.get())); if (main_dict) { m_session_dict = main_dict.GetItemForKey(m_dictionary_name.c_str()); } } } return m_session_dict; } PythonDictionary & ScriptInterpreterPython::GetSysModuleDictionary () { if (!m_sys_module_dict) { PyObject *sys_module = PyImport_AddModule ("sys"); if (sys_module) m_sys_module_dict.Reset(PyModule_GetDict (sys_module)); } return m_sys_module_dict; } static std::string GenerateUniqueName (const char* base_name_wanted, uint32_t& functions_counter, void* name_token = NULL) { StreamString sstr; if (!base_name_wanted) return std::string(); if (!name_token) sstr.Printf ("%s_%d", base_name_wanted, functions_counter++); else sstr.Printf ("%s_%p", base_name_wanted, name_token); return sstr.GetString(); } bool ScriptInterpreterPython::GetEmbeddedInterpreterModuleObjects () { if (!m_run_one_line_function) { PyObject *module = PyImport_AddModule ("lldb.embedded_interpreter"); if (module != NULL) { PythonDictionary module_dict (PyModule_GetDict (module)); if (module_dict) { m_run_one_line_function = module_dict.GetItemForKey("run_one_line"); m_run_one_line_str_global = module_dict.GetItemForKey("g_run_one_line_str"); } } } return (bool)m_run_one_line_function; } static void ReadThreadBytesReceived(void *baton, const void *src, size_t src_len) { if (src && src_len) { Stream *strm = (Stream *)baton; strm->Write(src, src_len); strm->Flush(); } } bool ScriptInterpreterPython::ExecuteOneLine (const char *command, CommandReturnObject *result, const ExecuteScriptOptions &options) { if (!m_valid_session) return false; if (command && command[0]) { // We want to call run_one_line, passing in the dictionary and the command string. We cannot do this through // PyRun_SimpleString here because the command string may contain escaped characters, and putting it inside // another string to pass to PyRun_SimpleString messes up the escaping. So we use the following more complicated // method to pass the command string directly down to Python. Debugger &debugger = m_interpreter.GetDebugger(); StreamFileSP input_file_sp; StreamFileSP output_file_sp; StreamFileSP error_file_sp; Communication output_comm ("lldb.ScriptInterpreterPython.ExecuteOneLine.comm"); int pipe_fds[2] = { -1, -1 }; if (options.GetEnableIO()) { if (result) { input_file_sp = debugger.GetInputFile(); // Set output to a temporary file so we can forward the results on to the result object int err = pipe(pipe_fds); if (err == 0) { std::unique_ptr conn_ap(new ConnectionFileDescriptor(pipe_fds[0], true)); if (conn_ap->IsConnected()) { output_comm.SetConnection(conn_ap.release()); output_comm.SetReadThreadBytesReceivedCallback(ReadThreadBytesReceived, &result->GetOutputStream()); output_comm.StartReadThread(); FILE *outfile_handle = fdopen (pipe_fds[1], "w"); output_file_sp.reset(new StreamFile(outfile_handle, true)); error_file_sp = output_file_sp; if (outfile_handle) ::setbuf (outfile_handle, NULL); result->SetImmediateOutputFile(debugger.GetOutputFile()->GetFile().GetStream()); result->SetImmediateErrorFile(debugger.GetErrorFile()->GetFile().GetStream()); } } } if (!input_file_sp || !output_file_sp || !error_file_sp) debugger.AdoptTopIOHandlerFilesIfInvalid(input_file_sp, output_file_sp, error_file_sp); } else { input_file_sp.reset (new StreamFile ()); input_file_sp->GetFile().Open("/dev/null", File::eOpenOptionRead); output_file_sp.reset (new StreamFile ()); output_file_sp->GetFile().Open("/dev/null", File::eOpenOptionWrite); error_file_sp = output_file_sp; } FILE *in_file = input_file_sp->GetFile().GetStream(); FILE *out_file = output_file_sp->GetFile().GetStream(); FILE *err_file = error_file_sp->GetFile().GetStream(); Locker locker(this, ScriptInterpreterPython::Locker::AcquireLock | ScriptInterpreterPython::Locker::InitSession | (options.GetSetLLDBGlobals() ? ScriptInterpreterPython::Locker::InitGlobals : 0), ScriptInterpreterPython::Locker::FreeAcquiredLock | ScriptInterpreterPython::Locker::TearDownSession, in_file, out_file, err_file); bool success = false; // Find the correct script interpreter dictionary in the main module. PythonDictionary &session_dict = GetSessionDictionary (); if (session_dict) { if (GetEmbeddedInterpreterModuleObjects ()) { PyObject *pfunc = m_run_one_line_function.get(); if (pfunc && PyCallable_Check (pfunc)) { PythonObject pargs (Py_BuildValue("(Os)", session_dict.get(), command)); if (pargs) { PythonObject return_value(PyObject_CallObject (pfunc, pargs.get())); if (return_value) success = true; else if (options.GetMaskoutErrors() && PyErr_Occurred ()) { PyErr_Print(); PyErr_Clear(); } } } } } // Flush our output and error file handles ::fflush (out_file); if (out_file != err_file) ::fflush (err_file); if (pipe_fds[0] != -1) { // Close the write end of the pipe since we are done with our // one line script. This should cause the read thread that // output_comm is using to exit output_file_sp->GetFile().Close(); // The close above should cause this thread to exit when it gets // to the end of file, so let it get all its data output_comm.JoinReadThread(); // Now we can close the read end of the pipe output_comm.Disconnect(); } if (success) return true; // The one-liner failed. Append the error message. if (result) result->AppendErrorWithFormat ("python failed attempting to evaluate '%s'\n", command); return false; } if (result) result->AppendError ("empty command passed to python\n"); return false; } class IOHandlerPythonInterpreter : public IOHandler { public: IOHandlerPythonInterpreter (Debugger &debugger, ScriptInterpreterPython *python) : IOHandler (debugger), m_python(python) { } virtual ~IOHandlerPythonInterpreter() { } virtual ConstString GetControlSequence (char ch) { if (ch == 'd') return ConstString("quit()\n"); return ConstString(); } virtual void Run () { if (m_python) { int stdin_fd = GetInputFD(); if (stdin_fd >= 0) { Terminal terminal(stdin_fd); TerminalState terminal_state; const bool is_a_tty = terminal.IsATerminal(); if (is_a_tty) { terminal_state.Save (stdin_fd, false); terminal.SetCanonical(false); terminal.SetEcho(true); } ScriptInterpreterPython::Locker locker (m_python, ScriptInterpreterPython::Locker::AcquireLock | ScriptInterpreterPython::Locker::InitSession | ScriptInterpreterPython::Locker::InitGlobals, ScriptInterpreterPython::Locker::FreeAcquiredLock | ScriptInterpreterPython::Locker::TearDownSession); // The following call drops into the embedded interpreter loop and stays there until the // user chooses to exit from the Python interpreter. // This embedded interpreter will, as any Python code that performs I/O, unlock the GIL before // a system call that can hang, and lock it when the syscall has returned. // We need to surround the call to the embedded interpreter with calls to PyGILState_Ensure and // PyGILState_Release (using the Locker above). This is because Python has a global lock which must be held whenever we want // to touch any Python objects. Otherwise, if the user calls Python code, the interpreter state will be off, // and things could hang (it's happened before). StreamString run_string; run_string.Printf ("run_python_interpreter (%s)", m_python->GetDictionaryName ()); PyRun_SimpleString (run_string.GetData()); if (is_a_tty) terminal_state.Restore(); } } SetIsDone(true); } virtual void Hide () { } virtual void Refresh () { } virtual void Cancel () { } virtual void Interrupt () { } virtual void GotEOF() { } protected: ScriptInterpreterPython *m_python; }; void ScriptInterpreterPython::ExecuteInterpreterLoop () { Timer scoped_timer (__PRETTY_FUNCTION__, __PRETTY_FUNCTION__); Debugger &debugger = GetCommandInterpreter().GetDebugger(); // At the moment, the only time the debugger does not have an input file handle is when this is called // directly from Python, in which case it is both dangerous and unnecessary (not to mention confusing) to // try to embed a running interpreter loop inside the already running Python interpreter loop, so we won't // do it. if (!debugger.GetInputFile()->GetFile().IsValid()) return; IOHandlerSP io_handler_sp (new IOHandlerPythonInterpreter (debugger, this)); if (io_handler_sp) { debugger.PushIOHandler(io_handler_sp); } } bool ScriptInterpreterPython::ExecuteOneLineWithReturn (const char *in_string, ScriptInterpreter::ScriptReturnType return_type, void *ret_value, const ExecuteScriptOptions &options) { Locker locker(this, ScriptInterpreterPython::Locker::AcquireLock | ScriptInterpreterPython::Locker::InitSession | (options.GetSetLLDBGlobals() ? ScriptInterpreterPython::Locker::InitGlobals : 0), ScriptInterpreterPython::Locker::FreeAcquiredLock | ScriptInterpreterPython::Locker::TearDownSession); PyObject *py_return = NULL; PythonObject &main_module = GetMainModule (); PythonDictionary globals (PyModule_GetDict(main_module.get())); PyObject *py_error = NULL; bool ret_success = false; int success; PythonDictionary locals = GetSessionDictionary (); if (!locals) { locals = PyObject_GetAttrString (globals.get(), m_dictionary_name.c_str()); } if (!locals) locals = globals; py_error = PyErr_Occurred(); if (py_error != NULL) PyErr_Clear(); if (in_string != NULL) { { // scope for PythonInputReaderManager //PythonInputReaderManager py_input(options.GetEnableIO() ? this : NULL); py_return = PyRun_String (in_string, Py_eval_input, globals.get(), locals.get()); if (py_return == NULL) { py_error = PyErr_Occurred (); if (py_error != NULL) PyErr_Clear (); py_return = PyRun_String (in_string, Py_single_input, globals.get(), locals.get()); } } if (py_return != NULL) { switch (return_type) { case eScriptReturnTypeCharPtr: // "char *" { const char format[3] = "s#"; success = PyArg_Parse (py_return, format, (char **) ret_value); break; } case eScriptReturnTypeCharStrOrNone: // char* or NULL if py_return == Py_None { const char format[3] = "z"; success = PyArg_Parse (py_return, format, (char **) ret_value); break; } case eScriptReturnTypeBool: { const char format[2] = "b"; success = PyArg_Parse (py_return, format, (bool *) ret_value); break; } case eScriptReturnTypeShortInt: { const char format[2] = "h"; success = PyArg_Parse (py_return, format, (short *) ret_value); break; } case eScriptReturnTypeShortIntUnsigned: { const char format[2] = "H"; success = PyArg_Parse (py_return, format, (unsigned short *) ret_value); break; } case eScriptReturnTypeInt: { const char format[2] = "i"; success = PyArg_Parse (py_return, format, (int *) ret_value); break; } case eScriptReturnTypeIntUnsigned: { const char format[2] = "I"; success = PyArg_Parse (py_return, format, (unsigned int *) ret_value); break; } case eScriptReturnTypeLongInt: { const char format[2] = "l"; success = PyArg_Parse (py_return, format, (long *) ret_value); break; } case eScriptReturnTypeLongIntUnsigned: { const char format[2] = "k"; success = PyArg_Parse (py_return, format, (unsigned long *) ret_value); break; } case eScriptReturnTypeLongLong: { const char format[2] = "L"; success = PyArg_Parse (py_return, format, (long long *) ret_value); break; } case eScriptReturnTypeLongLongUnsigned: { const char format[2] = "K"; success = PyArg_Parse (py_return, format, (unsigned long long *) ret_value); break; } case eScriptReturnTypeFloat: { const char format[2] = "f"; success = PyArg_Parse (py_return, format, (float *) ret_value); break; } case eScriptReturnTypeDouble: { const char format[2] = "d"; success = PyArg_Parse (py_return, format, (double *) ret_value); break; } case eScriptReturnTypeChar: { const char format[2] = "c"; success = PyArg_Parse (py_return, format, (char *) ret_value); break; } case eScriptReturnTypeOpaqueObject: { success = true; Py_XINCREF(py_return); *((PyObject**)ret_value) = py_return; break; } } Py_XDECREF (py_return); if (success) ret_success = true; else ret_success = false; } } py_error = PyErr_Occurred(); if (py_error != NULL) { ret_success = false; if (options.GetMaskoutErrors()) { if (PyErr_GivenExceptionMatches (py_error, PyExc_SyntaxError)) PyErr_Print (); PyErr_Clear(); } } return ret_success; } Error ScriptInterpreterPython::ExecuteMultipleLines (const char *in_string, const ExecuteScriptOptions &options) { Error error; Locker locker(this, ScriptInterpreterPython::Locker::AcquireLock | ScriptInterpreterPython::Locker::InitSession | (options.GetSetLLDBGlobals() ? ScriptInterpreterPython::Locker::InitGlobals : 0), ScriptInterpreterPython::Locker::FreeAcquiredLock | ScriptInterpreterPython::Locker::TearDownSession); bool success = false; PythonObject return_value; PythonObject &main_module = GetMainModule (); PythonDictionary globals (PyModule_GetDict(main_module.get())); PyObject *py_error = NULL; PythonDictionary locals = GetSessionDictionary (); if (!locals) { locals = PyObject_GetAttrString (globals.get(), m_dictionary_name.c_str()); } if (!locals) { locals = globals; } py_error = PyErr_Occurred(); if (py_error != NULL) PyErr_Clear(); if (in_string != NULL) { struct _node *compiled_node = PyParser_SimpleParseString (in_string, Py_file_input); if (compiled_node) { PyCodeObject *compiled_code = PyNode_Compile (compiled_node, "temp.py"); if (compiled_code) { { // scope for PythonInputReaderManager //PythonInputReaderManager py_input(options.GetEnableIO() ? this : NULL); return_value.Reset(PyEval_EvalCode (compiled_code, globals.get(), locals.get())); } if (return_value) success = true; } } } py_error = PyErr_Occurred (); if (py_error != NULL) { // puts(in_string); // _PyObject_Dump (py_error); // PyErr_Print(); // success = false; PyObject *type = NULL; PyObject *value = NULL; PyObject *traceback = NULL; PyErr_Fetch (&type,&value,&traceback); // get the backtrace std::string bt = ReadPythonBacktrace(traceback); if (value && value != Py_None) error.SetErrorStringWithFormat("%s\n%s", PyString_AsString(PyObject_Str(value)),bt.c_str()); else error.SetErrorStringWithFormat("%s",bt.c_str()); Py_XDECREF(type); Py_XDECREF(value); Py_XDECREF(traceback); if (options.GetMaskoutErrors()) { PyErr_Clear(); } } return error; } void ScriptInterpreterPython::CollectDataForBreakpointCommandCallback (BreakpointOptions *bp_options, CommandReturnObject &result) { m_active_io_handler = eIOHandlerBreakpoint; m_interpreter.GetPythonCommandsFromIOHandler (" ", *this, true, bp_options); } void ScriptInterpreterPython::CollectDataForWatchpointCommandCallback (WatchpointOptions *wp_options, CommandReturnObject &result) { m_active_io_handler = eIOHandlerWatchpoint; m_interpreter.GetPythonCommandsFromIOHandler (" ", *this, true, wp_options); } // Set a Python one-liner as the callback for the breakpoint. void ScriptInterpreterPython::SetBreakpointCommandCallback (BreakpointOptions *bp_options, const char *oneliner) { std::unique_ptr data_ap(new BreakpointOptions::CommandData()); // It's necessary to set both user_source and script_source to the oneliner. // The former is used to generate callback description (as in breakpoint command list) // while the latter is used for Python to interpret during the actual callback. data_ap->user_source.AppendString (oneliner); data_ap->script_source.assign (oneliner); if (GenerateBreakpointCommandCallbackData (data_ap->user_source, data_ap->script_source)) { BatonSP baton_sp (new BreakpointOptions::CommandBaton (data_ap.release())); bp_options->SetCallback (ScriptInterpreterPython::BreakpointCallbackFunction, baton_sp); } return; } // Set a Python one-liner as the callback for the watchpoint. void ScriptInterpreterPython::SetWatchpointCommandCallback (WatchpointOptions *wp_options, const char *oneliner) { std::unique_ptr data_ap(new WatchpointOptions::CommandData()); // It's necessary to set both user_source and script_source to the oneliner. // The former is used to generate callback description (as in watchpoint command list) // while the latter is used for Python to interpret during the actual callback. data_ap->user_source.AppendString (oneliner); data_ap->script_source.assign (oneliner); if (GenerateWatchpointCommandCallbackData (data_ap->user_source, data_ap->script_source)) { BatonSP baton_sp (new WatchpointOptions::CommandBaton (data_ap.release())); wp_options->SetCallback (ScriptInterpreterPython::WatchpointCallbackFunction, baton_sp); } return; } bool ScriptInterpreterPython::ExportFunctionDefinitionToInterpreter (StringList &function_def) { // Convert StringList to one long, newline delimited, const char *. std::string function_def_string(function_def.CopyList()); return ExecuteMultipleLines (function_def_string.c_str(), ScriptInterpreter::ExecuteScriptOptions().SetEnableIO(false)).Success(); } bool ScriptInterpreterPython::GenerateFunction(const char *signature, const StringList &input) { int num_lines = input.GetSize (); if (num_lines == 0) return false; if (!signature || *signature == 0) return false; StreamString sstr; StringList auto_generated_function; auto_generated_function.AppendString (signature); auto_generated_function.AppendString (" global_dict = globals()"); // Grab the global dictionary auto_generated_function.AppendString (" new_keys = internal_dict.keys()"); // Make a list of keys in the session dict auto_generated_function.AppendString (" old_keys = global_dict.keys()"); // Save list of keys in global dict auto_generated_function.AppendString (" global_dict.update (internal_dict)"); // Add the session dictionary to the // global dictionary. // Wrap everything up inside the function, increasing the indentation. auto_generated_function.AppendString(" if True:"); for (int i = 0; i < num_lines; ++i) { sstr.Clear (); sstr.Printf (" %s", input.GetStringAtIndex (i)); auto_generated_function.AppendString (sstr.GetData()); } auto_generated_function.AppendString (" for key in new_keys:"); // Iterate over all the keys from session dict auto_generated_function.AppendString (" internal_dict[key] = global_dict[key]"); // Update session dict values auto_generated_function.AppendString (" if key not in old_keys:"); // If key was not originally in global dict auto_generated_function.AppendString (" del global_dict[key]"); // ...then remove key/value from global dict // Verify that the results are valid Python. if (!ExportFunctionDefinitionToInterpreter (auto_generated_function)) return false; return true; } bool ScriptInterpreterPython::GenerateTypeScriptFunction (StringList &user_input, std::string& output, void* name_token) { static uint32_t num_created_functions = 0; user_input.RemoveBlankLines (); StreamString sstr; // Check to see if we have any data; if not, just return. if (user_input.GetSize() == 0) return false; // Take what the user wrote, wrap it all up inside one big auto-generated Python function, passing in the // ValueObject as parameter to the function. std::string auto_generated_function_name(GenerateUniqueName("lldb_autogen_python_type_print_func", num_created_functions, name_token)); sstr.Printf ("def %s (valobj, internal_dict):", auto_generated_function_name.c_str()); if (!GenerateFunction(sstr.GetData(), user_input)) return false; // Store the name of the auto-generated function to be called. output.assign(auto_generated_function_name); return true; } bool ScriptInterpreterPython::GenerateScriptAliasFunction (StringList &user_input, std::string &output) { static uint32_t num_created_functions = 0; user_input.RemoveBlankLines (); StreamString sstr; // Check to see if we have any data; if not, just return. if (user_input.GetSize() == 0) return false; std::string auto_generated_function_name(GenerateUniqueName("lldb_autogen_python_cmd_alias_func", num_created_functions)); sstr.Printf ("def %s (debugger, args, result, internal_dict):", auto_generated_function_name.c_str()); if (!GenerateFunction(sstr.GetData(),user_input)) return false; // Store the name of the auto-generated function to be called. output.assign(auto_generated_function_name); return true; } bool ScriptInterpreterPython::GenerateTypeSynthClass (StringList &user_input, std::string &output, void* name_token) { static uint32_t num_created_classes = 0; user_input.RemoveBlankLines (); int num_lines = user_input.GetSize (); StreamString sstr; // Check to see if we have any data; if not, just return. if (user_input.GetSize() == 0) return false; // Wrap all user input into a Python class std::string auto_generated_class_name(GenerateUniqueName("lldb_autogen_python_type_synth_class",num_created_classes,name_token)); StringList auto_generated_class; // Create the function name & definition string. sstr.Printf ("class %s:", auto_generated_class_name.c_str()); auto_generated_class.AppendString (sstr.GetData()); // Wrap everything up inside the class, increasing the indentation. // we don't need to play any fancy indentation tricks here because there is no // surrounding code whose indentation we need to honor for (int i = 0; i < num_lines; ++i) { sstr.Clear (); sstr.Printf (" %s", user_input.GetStringAtIndex (i)); auto_generated_class.AppendString (sstr.GetData()); } // Verify that the results are valid Python. // (even though the method is ExportFunctionDefinitionToInterpreter, a class will actually be exported) // (TODO: rename that method to ExportDefinitionToInterpreter) if (!ExportFunctionDefinitionToInterpreter (auto_generated_class)) return false; // Store the name of the auto-generated class output.assign(auto_generated_class_name); return true; } lldb::ScriptInterpreterObjectSP ScriptInterpreterPython::OSPlugin_CreatePluginObject (const char *class_name, lldb::ProcessSP process_sp) { if (class_name == NULL || class_name[0] == '\0') return lldb::ScriptInterpreterObjectSP(); if (!process_sp) return lldb::ScriptInterpreterObjectSP(); void* ret_val; { Locker py_lock (this, Locker::AcquireLock | Locker::NoSTDIN, Locker::FreeLock); ret_val = g_swig_create_os_plugin (class_name, m_dictionary_name.c_str(), process_sp); } return MakeScriptObject(ret_val); } lldb::ScriptInterpreterObjectSP ScriptInterpreterPython::OSPlugin_RegisterInfo (lldb::ScriptInterpreterObjectSP os_plugin_object_sp) { Locker py_lock(this, Locker::AcquireLock | Locker::NoSTDIN, Locker::FreeLock); static char callee_name[] = "get_register_info"; if (!os_plugin_object_sp) return lldb::ScriptInterpreterObjectSP(); PyObject* implementor = (PyObject*)os_plugin_object_sp->GetObject(); if (implementor == NULL || implementor == Py_None) return lldb::ScriptInterpreterObjectSP(); PyObject* pmeth = PyObject_GetAttrString(implementor, callee_name); if (PyErr_Occurred()) { PyErr_Clear(); } if (pmeth == NULL || pmeth == Py_None) { Py_XDECREF(pmeth); return lldb::ScriptInterpreterObjectSP(); } if (PyCallable_Check(pmeth) == 0) { if (PyErr_Occurred()) { PyErr_Clear(); } Py_XDECREF(pmeth); return lldb::ScriptInterpreterObjectSP(); } if (PyErr_Occurred()) { PyErr_Clear(); } Py_XDECREF(pmeth); // right now we know this function exists and is callable.. PyObject* py_return = PyObject_CallMethod(implementor, callee_name, NULL); // if it fails, print the error but otherwise go on if (PyErr_Occurred()) { PyErr_Print(); PyErr_Clear(); } return MakeScriptObject(py_return); } lldb::ScriptInterpreterObjectSP ScriptInterpreterPython::OSPlugin_ThreadsInfo (lldb::ScriptInterpreterObjectSP os_plugin_object_sp) { Locker py_lock (this, Locker::AcquireLock | Locker::NoSTDIN, Locker::FreeLock); static char callee_name[] = "get_thread_info"; if (!os_plugin_object_sp) return lldb::ScriptInterpreterObjectSP(); PyObject* implementor = (PyObject*)os_plugin_object_sp->GetObject(); if (implementor == NULL || implementor == Py_None) return lldb::ScriptInterpreterObjectSP(); PyObject* pmeth = PyObject_GetAttrString(implementor, callee_name); if (PyErr_Occurred()) { PyErr_Clear(); } if (pmeth == NULL || pmeth == Py_None) { Py_XDECREF(pmeth); return lldb::ScriptInterpreterObjectSP(); } if (PyCallable_Check(pmeth) == 0) { if (PyErr_Occurred()) { PyErr_Clear(); } Py_XDECREF(pmeth); return lldb::ScriptInterpreterObjectSP(); } if (PyErr_Occurred()) { PyErr_Clear(); } Py_XDECREF(pmeth); // right now we know this function exists and is callable.. PyObject* py_return = PyObject_CallMethod(implementor, callee_name, NULL); // if it fails, print the error but otherwise go on if (PyErr_Occurred()) { PyErr_Print(); PyErr_Clear(); } return MakeScriptObject(py_return); } // GetPythonValueFormatString provides a system independent type safe way to // convert a variable's type into a python value format. Python value formats // are defined in terms of builtin C types and could change from system to // as the underlying typedef for uint* types, size_t, off_t and other values // change. template const char *GetPythonValueFormatString(T t) { assert(!"Unhandled type passed to GetPythonValueFormatString(T), make a specialization of GetPythonValueFormatString() to support this type."); return NULL; } template <> const char *GetPythonValueFormatString (char *) { return "s"; } template <> const char *GetPythonValueFormatString (char) { return "b"; } template <> const char *GetPythonValueFormatString (unsigned char) { return "B"; } template <> const char *GetPythonValueFormatString (short) { return "h"; } template <> const char *GetPythonValueFormatString (unsigned short) { return "H"; } template <> const char *GetPythonValueFormatString (int) { return "i"; } template <> const char *GetPythonValueFormatString (unsigned int) { return "I"; } template <> const char *GetPythonValueFormatString (long) { return "l"; } template <> const char *GetPythonValueFormatString (unsigned long) { return "k"; } template <> const char *GetPythonValueFormatString (long long) { return "L"; } template <> const char *GetPythonValueFormatString (unsigned long long) { return "K"; } template <> const char *GetPythonValueFormatString (float t) { return "f"; } template <> const char *GetPythonValueFormatString (double t) { return "d"; } lldb::ScriptInterpreterObjectSP ScriptInterpreterPython::OSPlugin_RegisterContextData (lldb::ScriptInterpreterObjectSP os_plugin_object_sp, lldb::tid_t tid) { Locker py_lock (this, Locker::AcquireLock | Locker::NoSTDIN, Locker::FreeLock); static char callee_name[] = "get_register_data"; static char *param_format = const_cast(GetPythonValueFormatString(tid)); if (!os_plugin_object_sp) return lldb::ScriptInterpreterObjectSP(); PyObject* implementor = (PyObject*)os_plugin_object_sp->GetObject(); if (implementor == NULL || implementor == Py_None) return lldb::ScriptInterpreterObjectSP(); PyObject* pmeth = PyObject_GetAttrString(implementor, callee_name); if (PyErr_Occurred()) { PyErr_Clear(); } if (pmeth == NULL || pmeth == Py_None) { Py_XDECREF(pmeth); return lldb::ScriptInterpreterObjectSP(); } if (PyCallable_Check(pmeth) == 0) { if (PyErr_Occurred()) { PyErr_Clear(); } Py_XDECREF(pmeth); return lldb::ScriptInterpreterObjectSP(); } if (PyErr_Occurred()) { PyErr_Clear(); } Py_XDECREF(pmeth); // right now we know this function exists and is callable.. PyObject* py_return = PyObject_CallMethod(implementor, callee_name, param_format, tid); // if it fails, print the error but otherwise go on if (PyErr_Occurred()) { PyErr_Print(); PyErr_Clear(); } return MakeScriptObject(py_return); } lldb::ScriptInterpreterObjectSP ScriptInterpreterPython::OSPlugin_CreateThread (lldb::ScriptInterpreterObjectSP os_plugin_object_sp, lldb::tid_t tid, lldb::addr_t context) { Locker py_lock(this, Locker::AcquireLock | Locker::NoSTDIN, Locker::FreeLock); static char callee_name[] = "create_thread"; std::string param_format; param_format += GetPythonValueFormatString(tid); param_format += GetPythonValueFormatString(context); if (!os_plugin_object_sp) return lldb::ScriptInterpreterObjectSP(); PyObject* implementor = (PyObject*)os_plugin_object_sp->GetObject(); if (implementor == NULL || implementor == Py_None) return lldb::ScriptInterpreterObjectSP(); PyObject* pmeth = PyObject_GetAttrString(implementor, callee_name); if (PyErr_Occurred()) { PyErr_Clear(); } if (pmeth == NULL || pmeth == Py_None) { Py_XDECREF(pmeth); return lldb::ScriptInterpreterObjectSP(); } if (PyCallable_Check(pmeth) == 0) { if (PyErr_Occurred()) { PyErr_Clear(); } Py_XDECREF(pmeth); return lldb::ScriptInterpreterObjectSP(); } if (PyErr_Occurred()) { PyErr_Clear(); } Py_XDECREF(pmeth); // right now we know this function exists and is callable.. PyObject* py_return = PyObject_CallMethod(implementor, callee_name, ¶m_format[0], tid, context); // if it fails, print the error but otherwise go on if (PyErr_Occurred()) { PyErr_Print(); PyErr_Clear(); } return MakeScriptObject(py_return); } lldb::ScriptInterpreterObjectSP ScriptInterpreterPython::LoadPluginModule (const FileSpec& file_spec, lldb_private::Error& error) { if (!file_spec.Exists()) { error.SetErrorString("no such file"); return lldb::ScriptInterpreterObjectSP(); } ScriptInterpreterObjectSP module_sp; if (LoadScriptingModule(file_spec.GetPath().c_str(),true,true,error,&module_sp)) return module_sp; return lldb::ScriptInterpreterObjectSP(); } lldb::ScriptInterpreterObjectSP ScriptInterpreterPython::GetDynamicSettings (lldb::ScriptInterpreterObjectSP plugin_module_sp, Target* target, const char* setting_name, lldb_private::Error& error) { if (!plugin_module_sp || !target || !setting_name || !setting_name[0]) return lldb::ScriptInterpreterObjectSP(); if (!g_swig_plugin_get) return lldb::ScriptInterpreterObjectSP(); PyObject *reply_pyobj = nullptr; { Locker py_lock(this, Locker::AcquireLock | Locker::InitSession | Locker::NoSTDIN); TargetSP target_sp(target->shared_from_this()); reply_pyobj = (PyObject*)g_swig_plugin_get(plugin_module_sp->GetObject(),setting_name,target_sp); } return MakeScriptObject(reply_pyobj); } lldb::ScriptInterpreterObjectSP ScriptInterpreterPython::CreateSyntheticScriptedProvider (const char *class_name, lldb::ValueObjectSP valobj) { if (class_name == NULL || class_name[0] == '\0') return lldb::ScriptInterpreterObjectSP(); if (!valobj.get()) return lldb::ScriptInterpreterObjectSP(); ExecutionContext exe_ctx (valobj->GetExecutionContextRef()); Target *target = exe_ctx.GetTargetPtr(); if (!target) return lldb::ScriptInterpreterObjectSP(); Debugger &debugger = target->GetDebugger(); ScriptInterpreter *script_interpreter = debugger.GetCommandInterpreter().GetScriptInterpreter(); ScriptInterpreterPython *python_interpreter = (ScriptInterpreterPython *) script_interpreter; if (!script_interpreter) return lldb::ScriptInterpreterObjectSP(); void* ret_val; { Locker py_lock(this, Locker::AcquireLock | Locker::InitSession | Locker::NoSTDIN); ret_val = g_swig_synthetic_script (class_name, python_interpreter->m_dictionary_name.c_str(), valobj); } return MakeScriptObject(ret_val); } bool ScriptInterpreterPython::GenerateTypeScriptFunction (const char* oneliner, std::string& output, void* name_token) { StringList input; input.SplitIntoLines(oneliner, strlen(oneliner)); return GenerateTypeScriptFunction(input, output, name_token); } bool ScriptInterpreterPython::GenerateTypeSynthClass (const char* oneliner, std::string& output, void* name_token) { StringList input; input.SplitIntoLines(oneliner, strlen(oneliner)); return GenerateTypeSynthClass(input, output, name_token); } bool ScriptInterpreterPython::GenerateBreakpointCommandCallbackData (StringList &user_input, std::string& output) { static uint32_t num_created_functions = 0; user_input.RemoveBlankLines (); StreamString sstr; if (user_input.GetSize() == 0) return false; std::string auto_generated_function_name(GenerateUniqueName("lldb_autogen_python_bp_callback_func_",num_created_functions)); sstr.Printf ("def %s (frame, bp_loc, internal_dict):", auto_generated_function_name.c_str()); if (!GenerateFunction(sstr.GetData(), user_input)) return false; // Store the name of the auto-generated function to be called. output.assign(auto_generated_function_name); return true; } bool ScriptInterpreterPython::GenerateWatchpointCommandCallbackData (StringList &user_input, std::string& output) { static uint32_t num_created_functions = 0; user_input.RemoveBlankLines (); StreamString sstr; if (user_input.GetSize() == 0) return false; std::string auto_generated_function_name(GenerateUniqueName("lldb_autogen_python_wp_callback_func_",num_created_functions)); sstr.Printf ("def %s (frame, wp, internal_dict):", auto_generated_function_name.c_str()); if (!GenerateFunction(sstr.GetData(), user_input)) return false; // Store the name of the auto-generated function to be called. output.assign(auto_generated_function_name); return true; } bool ScriptInterpreterPython::GetScriptedSummary (const char *python_function_name, lldb::ValueObjectSP valobj, lldb::ScriptInterpreterObjectSP& callee_wrapper_sp, std::string& retval) { Timer scoped_timer (__PRETTY_FUNCTION__, __PRETTY_FUNCTION__); if (!valobj.get()) { retval.assign(""); return false; } void* old_callee = (callee_wrapper_sp ? callee_wrapper_sp->GetObject() : NULL); void* new_callee = old_callee; bool ret_val; if (python_function_name && *python_function_name) { { Locker py_lock(this, Locker::AcquireLock | Locker::InitSession | Locker::NoSTDIN); { Timer scoped_timer ("g_swig_typescript_callback","g_swig_typescript_callback"); ret_val = g_swig_typescript_callback (python_function_name, GetSessionDictionary().get(), valobj, &new_callee, retval); } } } else { retval.assign(""); return false; } if (new_callee && old_callee != new_callee) callee_wrapper_sp = MakeScriptObject(new_callee); return ret_val; } bool ScriptInterpreterPython::BreakpointCallbackFunction ( void *baton, StoppointCallbackContext *context, user_id_t break_id, user_id_t break_loc_id ) { BreakpointOptions::CommandData *bp_option_data = (BreakpointOptions::CommandData *) baton; const char *python_function_name = bp_option_data->script_source.c_str(); if (!context) return true; ExecutionContext exe_ctx (context->exe_ctx_ref); Target *target = exe_ctx.GetTargetPtr(); if (!target) return true; Debugger &debugger = target->GetDebugger(); ScriptInterpreter *script_interpreter = debugger.GetCommandInterpreter().GetScriptInterpreter(); ScriptInterpreterPython *python_interpreter = (ScriptInterpreterPython *) script_interpreter; if (!script_interpreter) return true; if (python_function_name && python_function_name[0]) { const StackFrameSP stop_frame_sp (exe_ctx.GetFrameSP()); BreakpointSP breakpoint_sp = target->GetBreakpointByID (break_id); if (breakpoint_sp) { const BreakpointLocationSP bp_loc_sp (breakpoint_sp->FindLocationByID (break_loc_id)); if (stop_frame_sp && bp_loc_sp) { bool ret_val = true; { Locker py_lock(python_interpreter, Locker::AcquireLock | Locker::InitSession | Locker::NoSTDIN); ret_val = g_swig_breakpoint_callback (python_function_name, python_interpreter->m_dictionary_name.c_str(), stop_frame_sp, bp_loc_sp); } return ret_val; } } } // We currently always true so we stop in case anything goes wrong when // trying to call the script function return true; } bool ScriptInterpreterPython::WatchpointCallbackFunction ( void *baton, StoppointCallbackContext *context, user_id_t watch_id ) { WatchpointOptions::CommandData *wp_option_data = (WatchpointOptions::CommandData *) baton; const char *python_function_name = wp_option_data->script_source.c_str(); if (!context) return true; ExecutionContext exe_ctx (context->exe_ctx_ref); Target *target = exe_ctx.GetTargetPtr(); if (!target) return true; Debugger &debugger = target->GetDebugger(); ScriptInterpreter *script_interpreter = debugger.GetCommandInterpreter().GetScriptInterpreter(); ScriptInterpreterPython *python_interpreter = (ScriptInterpreterPython *) script_interpreter; if (!script_interpreter) return true; if (python_function_name && python_function_name[0]) { const StackFrameSP stop_frame_sp (exe_ctx.GetFrameSP()); WatchpointSP wp_sp = target->GetWatchpointList().FindByID (watch_id); if (wp_sp) { if (stop_frame_sp && wp_sp) { bool ret_val = true; { Locker py_lock(python_interpreter, Locker::AcquireLock | Locker::InitSession | Locker::NoSTDIN); ret_val = g_swig_watchpoint_callback (python_function_name, python_interpreter->m_dictionary_name.c_str(), stop_frame_sp, wp_sp); } return ret_val; } } } // We currently always true so we stop in case anything goes wrong when // trying to call the script function return true; } size_t ScriptInterpreterPython::CalculateNumChildren (const lldb::ScriptInterpreterObjectSP& implementor_sp) { if (!implementor_sp) return 0; void* implementor = implementor_sp->GetObject(); if (!implementor) return 0; if (!g_swig_calc_children) return 0; uint32_t ret_val = 0; { Locker py_lock(this, Locker::AcquireLock | Locker::InitSession | Locker::NoSTDIN); ret_val = g_swig_calc_children (implementor); } return ret_val; } lldb::ValueObjectSP ScriptInterpreterPython::GetChildAtIndex (const lldb::ScriptInterpreterObjectSP& implementor_sp, uint32_t idx) { if (!implementor_sp) return lldb::ValueObjectSP(); void* implementor = implementor_sp->GetObject(); if (!implementor) return lldb::ValueObjectSP(); if (!g_swig_get_child_index || !g_swig_cast_to_sbvalue) return lldb::ValueObjectSP(); lldb::ValueObjectSP ret_val; { Locker py_lock(this, Locker::AcquireLock | Locker::InitSession | Locker::NoSTDIN); void* child_ptr = g_swig_get_child_index (implementor,idx); if (child_ptr != NULL && child_ptr != Py_None) { lldb::SBValue* sb_value_ptr = (lldb::SBValue*)g_swig_cast_to_sbvalue(child_ptr); if (sb_value_ptr == NULL) Py_XDECREF(child_ptr); else ret_val = g_swig_get_valobj_sp_from_sbvalue (sb_value_ptr); } else { Py_XDECREF(child_ptr); } } return ret_val; } int ScriptInterpreterPython::GetIndexOfChildWithName (const lldb::ScriptInterpreterObjectSP& implementor_sp, const char* child_name) { if (!implementor_sp) return UINT32_MAX; void* implementor = implementor_sp->GetObject(); if (!implementor) return UINT32_MAX; if (!g_swig_get_index_child) return UINT32_MAX; int ret_val = UINT32_MAX; { Locker py_lock(this, Locker::AcquireLock | Locker::InitSession | Locker::NoSTDIN); ret_val = g_swig_get_index_child (implementor, child_name); } return ret_val; } bool ScriptInterpreterPython::UpdateSynthProviderInstance (const lldb::ScriptInterpreterObjectSP& implementor_sp) { bool ret_val = false; if (!implementor_sp) return ret_val; void* implementor = implementor_sp->GetObject(); if (!implementor) return ret_val; if (!g_swig_update_provider) return ret_val; { Locker py_lock(this, Locker::AcquireLock | Locker::InitSession | Locker::NoSTDIN); ret_val = g_swig_update_provider (implementor); } return ret_val; } bool ScriptInterpreterPython::MightHaveChildrenSynthProviderInstance (const lldb::ScriptInterpreterObjectSP& implementor_sp) { bool ret_val = false; if (!implementor_sp) return ret_val; void* implementor = implementor_sp->GetObject(); if (!implementor) return ret_val; if (!g_swig_mighthavechildren_provider) return ret_val; { Locker py_lock(this, Locker::AcquireLock | Locker::InitSession | Locker::NoSTDIN); ret_val = g_swig_mighthavechildren_provider (implementor); } return ret_val; } static std::string ReadPythonBacktrace (PyObject* py_backtrace) { PyObject* traceback_module = NULL, *stringIO_module = NULL, *stringIO_builder = NULL, *stringIO_buffer = NULL, *printTB = NULL, *printTB_args = NULL, *printTB_result = NULL, *stringIO_getvalue = NULL, *printTB_string = NULL; std::string retval("backtrace unavailable"); if (py_backtrace && py_backtrace != Py_None) { traceback_module = PyImport_ImportModule("traceback"); stringIO_module = PyImport_ImportModule("StringIO"); if (traceback_module && traceback_module != Py_None && stringIO_module && stringIO_module != Py_None) { stringIO_builder = PyObject_GetAttrString(stringIO_module, "StringIO"); if (stringIO_builder && stringIO_builder != Py_None) { stringIO_buffer = PyObject_CallObject(stringIO_builder, NULL); if (stringIO_buffer && stringIO_buffer != Py_None) { printTB = PyObject_GetAttrString(traceback_module, "print_tb"); if (printTB && printTB != Py_None) { printTB_args = Py_BuildValue("OOO",py_backtrace,Py_None,stringIO_buffer); printTB_result = PyObject_CallObject(printTB, printTB_args); stringIO_getvalue = PyObject_GetAttrString(stringIO_buffer, "getvalue"); if (stringIO_getvalue && stringIO_getvalue != Py_None) { printTB_string = PyObject_CallObject (stringIO_getvalue,NULL); if (printTB_string && printTB_string != Py_None && PyString_Check(printTB_string)) retval.assign(PyString_AsString(printTB_string)); } } } } } } Py_XDECREF(traceback_module); Py_XDECREF(stringIO_module); Py_XDECREF(stringIO_builder); Py_XDECREF(stringIO_buffer); Py_XDECREF(printTB); Py_XDECREF(printTB_args); Py_XDECREF(printTB_result); Py_XDECREF(stringIO_getvalue); Py_XDECREF(printTB_string); return retval; } bool ScriptInterpreterPython::RunScriptFormatKeyword (const char* impl_function, Process* process, std::string& output, Error& error) { bool ret_val; if (!process) { error.SetErrorString("no process"); return false; } if (!impl_function || !impl_function[0]) { error.SetErrorString("no function to execute"); return false; } if (!g_swig_run_script_keyword_process) { error.SetErrorString("internal helper function missing"); return false; } { ProcessSP process_sp(process->shared_from_this()); Locker py_lock(this, Locker::AcquireLock | Locker::InitSession | Locker::NoSTDIN); ret_val = g_swig_run_script_keyword_process (impl_function, m_dictionary_name.c_str(), process_sp, output); if (!ret_val) error.SetErrorString("python script evaluation failed"); } return ret_val; } bool ScriptInterpreterPython::RunScriptFormatKeyword (const char* impl_function, Thread* thread, std::string& output, Error& error) { bool ret_val; if (!thread) { error.SetErrorString("no thread"); return false; } if (!impl_function || !impl_function[0]) { error.SetErrorString("no function to execute"); return false; } if (!g_swig_run_script_keyword_thread) { error.SetErrorString("internal helper function missing"); return false; } { ThreadSP thread_sp(thread->shared_from_this()); Locker py_lock(this, Locker::AcquireLock | Locker::InitSession | Locker::NoSTDIN); ret_val = g_swig_run_script_keyword_thread (impl_function, m_dictionary_name.c_str(), thread_sp, output); if (!ret_val) error.SetErrorString("python script evaluation failed"); } return ret_val; } bool ScriptInterpreterPython::RunScriptFormatKeyword (const char* impl_function, Target* target, std::string& output, Error& error) { bool ret_val; if (!target) { error.SetErrorString("no thread"); return false; } if (!impl_function || !impl_function[0]) { error.SetErrorString("no function to execute"); return false; } if (!g_swig_run_script_keyword_target) { error.SetErrorString("internal helper function missing"); return false; } { TargetSP target_sp(target->shared_from_this()); Locker py_lock(this, Locker::AcquireLock | Locker::InitSession | Locker::NoSTDIN); ret_val = g_swig_run_script_keyword_target (impl_function, m_dictionary_name.c_str(), target_sp, output); if (!ret_val) error.SetErrorString("python script evaluation failed"); } return ret_val; } bool ScriptInterpreterPython::RunScriptFormatKeyword (const char* impl_function, StackFrame* frame, std::string& output, Error& error) { bool ret_val; if (!frame) { error.SetErrorString("no frame"); return false; } if (!impl_function || !impl_function[0]) { error.SetErrorString("no function to execute"); return false; } if (!g_swig_run_script_keyword_frame) { error.SetErrorString("internal helper function missing"); return false; } { StackFrameSP frame_sp(frame->shared_from_this()); Locker py_lock(this, Locker::AcquireLock | Locker::InitSession | Locker::NoSTDIN); ret_val = g_swig_run_script_keyword_frame (impl_function, m_dictionary_name.c_str(), frame_sp, output); if (!ret_val) error.SetErrorString("python script evaluation failed"); } return ret_val; } uint64_t replace_all(std::string& str, const std::string& oldStr, const std::string& newStr) { size_t pos = 0; uint64_t matches = 0; while((pos = str.find(oldStr, pos)) != std::string::npos) { matches++; str.replace(pos, oldStr.length(), newStr); pos += newStr.length(); } return matches; } bool ScriptInterpreterPython::LoadScriptingModule (const char* pathname, bool can_reload, bool init_session, lldb_private::Error& error, lldb::ScriptInterpreterObjectSP* module_sp) { if (!pathname || !pathname[0]) { error.SetErrorString("invalid pathname"); return false; } if (!g_swig_call_module_init) { error.SetErrorString("internal helper function missing"); return false; } lldb::DebuggerSP debugger_sp = m_interpreter.GetDebugger().shared_from_this(); { FileSpec target_file(pathname, true); std::string basename(target_file.GetFilename().GetCString()); StreamString command_stream; // Before executing Pyton code, lock the GIL. Locker py_lock (this, Locker::AcquireLock | (init_session ? Locker::InitSession : 0) | Locker::NoSTDIN, Locker::FreeAcquiredLock | (init_session ? Locker::TearDownSession : 0)); if (target_file.GetFileType() == FileSpec::eFileTypeInvalid || target_file.GetFileType() == FileSpec::eFileTypeUnknown) { // if not a valid file of any sort, check if it might be a filename still // dot can't be used but / and \ can, and if either is found, reject if (strchr(pathname,'\\') || strchr(pathname,'/')) { error.SetErrorString("invalid pathname"); return false; } basename = pathname; // not a filename, probably a package of some sort, let it go through } else if (target_file.GetFileType() == FileSpec::eFileTypeDirectory || target_file.GetFileType() == FileSpec::eFileTypeRegular || target_file.GetFileType() == FileSpec::eFileTypeSymbolicLink) { std::string directory(target_file.GetDirectory().GetCString()); replace_all(directory,"'","\\'"); // now make sure that Python has "directory" in the search path StreamString command_stream; command_stream.Printf("if not (sys.path.__contains__('%s')):\n sys.path.insert(1,'%s');\n\n", directory.c_str(), directory.c_str()); bool syspath_retval = ExecuteMultipleLines(command_stream.GetData(), ScriptInterpreter::ExecuteScriptOptions().SetEnableIO(false).SetSetLLDBGlobals(false)).Success(); if (!syspath_retval) { error.SetErrorString("Python sys.path handling failed"); return false; } // strip .py or .pyc extension ConstString extension = target_file.GetFileNameExtension(); if (extension) { if (::strcmp(extension.GetCString(), "py") == 0) basename.resize(basename.length()-3); else if(::strcmp(extension.GetCString(), "pyc") == 0) basename.resize(basename.length()-4); } } else { error.SetErrorString("no known way to import this module specification"); return false; } // check if the module is already import-ed command_stream.Clear(); command_stream.Printf("sys.modules.__contains__('%s')",basename.c_str()); bool does_contain = false; // this call will succeed if the module was ever imported in any Debugger in the lifetime of the process // in which this LLDB framework is living bool was_imported_globally = (ExecuteOneLineWithReturn(command_stream.GetData(), ScriptInterpreterPython::eScriptReturnTypeBool, &does_contain, ScriptInterpreter::ExecuteScriptOptions().SetEnableIO(false).SetSetLLDBGlobals(false)) && does_contain); // this call will fail if the module was not imported in this Debugger before command_stream.Clear(); command_stream.Printf("sys.getrefcount(%s)",basename.c_str()); bool was_imported_locally = !(GetSessionDictionary().GetItemForKey(basename.c_str()).IsNULLOrNone()); bool was_imported = (was_imported_globally || was_imported_locally); if (was_imported == true && can_reload == false) { error.SetErrorString("module already imported"); return false; } // now actually do the import command_stream.Clear(); if (was_imported) { if (!was_imported_locally) command_stream.Printf("import %s ; reload(%s)",basename.c_str(),basename.c_str()); else command_stream.Printf("reload(%s)",basename.c_str()); } else command_stream.Printf("import %s",basename.c_str()); error = ExecuteMultipleLines(command_stream.GetData(), ScriptInterpreter::ExecuteScriptOptions().SetEnableIO(false).SetSetLLDBGlobals(false)); if (error.Fail()) return false; // if we are here, everything worked // call __lldb_init_module(debugger,dict) if (!g_swig_call_module_init (basename.c_str(), m_dictionary_name.c_str(), debugger_sp)) { error.SetErrorString("calling __lldb_init_module failed"); return false; } if (module_sp) { // everything went just great, now set the module object command_stream.Clear(); command_stream.Printf("%s",basename.c_str()); void* module_pyobj = nullptr; if (ExecuteOneLineWithReturn(command_stream.GetData(),ScriptInterpreter::eScriptReturnTypeOpaqueObject,&module_pyobj) && module_pyobj) *module_sp = MakeScriptObject(module_pyobj); } return true; } } lldb::ScriptInterpreterObjectSP ScriptInterpreterPython::MakeScriptObject (void* object) { return lldb::ScriptInterpreterObjectSP(new ScriptInterpreterPythonObject(object)); } ScriptInterpreterPython::SynchronicityHandler::SynchronicityHandler (lldb::DebuggerSP debugger_sp, ScriptedCommandSynchronicity synchro) : m_debugger_sp(debugger_sp), m_synch_wanted(synchro), m_old_asynch(debugger_sp->GetAsyncExecution()) { if (m_synch_wanted == eScriptedCommandSynchronicitySynchronous) m_debugger_sp->SetAsyncExecution(false); else if (m_synch_wanted == eScriptedCommandSynchronicityAsynchronous) m_debugger_sp->SetAsyncExecution(true); } ScriptInterpreterPython::SynchronicityHandler::~SynchronicityHandler() { if (m_synch_wanted != eScriptedCommandSynchronicityCurrentValue) m_debugger_sp->SetAsyncExecution(m_old_asynch); } bool ScriptInterpreterPython::RunScriptBasedCommand(const char* impl_function, const char* args, ScriptedCommandSynchronicity synchronicity, lldb_private::CommandReturnObject& cmd_retobj, Error& error) { if (!impl_function) { error.SetErrorString("no function to execute"); return false; } if (!g_swig_call_command) { error.SetErrorString("no helper function to run scripted commands"); return false; } lldb::DebuggerSP debugger_sp = m_interpreter.GetDebugger().shared_from_this(); if (!debugger_sp.get()) { error.SetErrorString("invalid Debugger pointer"); return false; } bool ret_val = false; std::string err_msg; { Locker py_lock(this, Locker::AcquireLock | Locker::InitSession, Locker::FreeLock | Locker::TearDownSession); SynchronicityHandler synch_handler(debugger_sp, synchronicity); // we need to save the thread state when we first start the command // because we might decide to interrupt it while some action is taking // place outside of Python (e.g. printing to screen, waiting for the network, ...) // in that case, _PyThreadState_Current will be NULL - and we would be unable // to set the asynchronous exception - not a desirable situation m_command_thread_state = _PyThreadState_Current; //PythonInputReaderManager py_input(this); ret_val = g_swig_call_command (impl_function, m_dictionary_name.c_str(), debugger_sp, args, cmd_retobj); } if (!ret_val) error.SetErrorString("unable to execute script function"); else error.Clear(); return ret_val; } // in Python, a special attribute __doc__ contains the docstring // for an object (function, method, class, ...) if any is defined // Otherwise, the attribute's value is None bool ScriptInterpreterPython::GetDocumentationForItem(const char* item, std::string& dest) { dest.clear(); if (!item || !*item) return false; std::string command(item); command += ".__doc__"; char* result_ptr = NULL; // Python is going to point this to valid data if ExecuteOneLineWithReturn returns successfully if (ExecuteOneLineWithReturn (command.c_str(), ScriptInterpreter::eScriptReturnTypeCharStrOrNone, &result_ptr, ScriptInterpreter::ExecuteScriptOptions().SetEnableIO(false))) { if (result_ptr) dest.assign(result_ptr); return true; } else { StreamString str_stream; str_stream.Printf("Function %s was not found. Containing module might be missing.",item); dest.assign(str_stream.GetData()); return false; } } std::unique_ptr ScriptInterpreterPython::AcquireInterpreterLock () { std::unique_ptr py_lock(new Locker(this, Locker::AcquireLock | Locker::InitSession | Locker::NoSTDIN, Locker::FreeLock | Locker::TearDownSession)); return py_lock; } void ScriptInterpreterPython::InitializeInterpreter (SWIGInitCallback swig_init_callback, SWIGBreakpointCallbackFunction swig_breakpoint_callback, SWIGWatchpointCallbackFunction swig_watchpoint_callback, SWIGPythonTypeScriptCallbackFunction swig_typescript_callback, SWIGPythonCreateSyntheticProvider swig_synthetic_script, SWIGPythonCalculateNumChildren swig_calc_children, SWIGPythonGetChildAtIndex swig_get_child_index, SWIGPythonGetIndexOfChildWithName swig_get_index_child, SWIGPythonCastPyObjectToSBValue swig_cast_to_sbvalue , SWIGPythonGetValueObjectSPFromSBValue swig_get_valobj_sp_from_sbvalue, SWIGPythonUpdateSynthProviderInstance swig_update_provider, SWIGPythonMightHaveChildrenSynthProviderInstance swig_mighthavechildren_provider, SWIGPythonCallCommand swig_call_command, SWIGPythonCallModuleInit swig_call_module_init, SWIGPythonCreateOSPlugin swig_create_os_plugin, SWIGPythonScriptKeyword_Process swig_run_script_keyword_process, SWIGPythonScriptKeyword_Thread swig_run_script_keyword_thread, SWIGPythonScriptKeyword_Target swig_run_script_keyword_target, SWIGPythonScriptKeyword_Frame swig_run_script_keyword_frame, SWIGPython_GetDynamicSetting swig_plugin_get) { g_swig_init_callback = swig_init_callback; g_swig_breakpoint_callback = swig_breakpoint_callback; g_swig_watchpoint_callback = swig_watchpoint_callback; g_swig_typescript_callback = swig_typescript_callback; g_swig_synthetic_script = swig_synthetic_script; g_swig_calc_children = swig_calc_children; g_swig_get_child_index = swig_get_child_index; g_swig_get_index_child = swig_get_index_child; g_swig_cast_to_sbvalue = swig_cast_to_sbvalue; g_swig_get_valobj_sp_from_sbvalue = swig_get_valobj_sp_from_sbvalue; g_swig_update_provider = swig_update_provider; g_swig_mighthavechildren_provider = swig_mighthavechildren_provider; g_swig_call_command = swig_call_command; g_swig_call_module_init = swig_call_module_init; g_swig_create_os_plugin = swig_create_os_plugin; g_swig_run_script_keyword_process = swig_run_script_keyword_process; g_swig_run_script_keyword_thread = swig_run_script_keyword_thread; g_swig_run_script_keyword_target = swig_run_script_keyword_target; g_swig_run_script_keyword_frame = swig_run_script_keyword_frame; g_swig_plugin_get = swig_plugin_get; } void ScriptInterpreterPython::InitializePrivate () { static int g_initialized = false; if (g_initialized) return; g_initialized = true; Timer scoped_timer (__PRETTY_FUNCTION__, __PRETTY_FUNCTION__); // Python will muck with STDIN terminal state, so save off any current TTY // settings so we can restore them. TerminalState stdin_tty_state; stdin_tty_state.Save(STDIN_FILENO, false); PyGILState_STATE gstate; Log *log (lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_SCRIPT | LIBLLDB_LOG_VERBOSE)); bool threads_already_initialized = false; if (PyEval_ThreadsInitialized ()) { gstate = PyGILState_Ensure (); if (log) log->Printf("Ensured PyGILState. Previous state = %slocked\n", gstate == PyGILState_UNLOCKED ? "un" : ""); threads_already_initialized = true; } else { // InitThreads acquires the GIL if it hasn't been called before. PyEval_InitThreads (); } Py_InitializeEx (0); // Initialize SWIG after setting up python if (g_swig_init_callback) g_swig_init_callback (); // Update the path python uses to search for modules to include the current directory. PyRun_SimpleString ("import sys"); PyRun_SimpleString ("sys.path.append ('.')"); // Find the module that owns this code and use that path we get to // set the sys.path appropriately. FileSpec file_spec; char python_dir_path[PATH_MAX]; if (Host::GetLLDBPath (ePathTypePythonDir, file_spec)) { std::string python_path("sys.path.insert(0,\""); size_t orig_len = python_path.length(); if (file_spec.GetPath(python_dir_path, sizeof (python_dir_path))) { python_path.append (python_dir_path); python_path.append ("\")"); PyRun_SimpleString (python_path.c_str()); python_path.resize (orig_len); } if (Host::GetLLDBPath (ePathTypeLLDBShlibDir, file_spec)) { if (file_spec.GetPath(python_dir_path, sizeof (python_dir_path))) { python_path.append (python_dir_path); python_path.append ("\")"); PyRun_SimpleString (python_path.c_str()); python_path.resize (orig_len); } } } PyRun_SimpleString ("sys.dont_write_bytecode = 1; import lldb.embedded_interpreter; from lldb.embedded_interpreter import run_python_interpreter; from lldb.embedded_interpreter import run_one_line; from termios import *"); if (threads_already_initialized) { if (log) log->Printf("Releasing PyGILState. Returning to state = %slocked\n", gstate == PyGILState_UNLOCKED ? "un" : ""); PyGILState_Release (gstate); } else { // We initialized the threads in this function, just unlock the GIL. PyEval_SaveThread(); } stdin_tty_state.Restore(); } //void //ScriptInterpreterPython::Terminate () //{ // // We are intentionally NOT calling Py_Finalize here (this would be the logical place to call it). Calling // // Py_Finalize here causes test suite runs to seg fault: The test suite runs in Python. It registers // // SBDebugger::Terminate to be called 'at_exit'. When the test suite Python harness finishes up, it calls // // Py_Finalize, which calls all the 'at_exit' registered functions. SBDebugger::Terminate calls Debugger::Terminate, // // which calls lldb::Terminate, which calls ScriptInterpreter::Terminate, which calls // // ScriptInterpreterPython::Terminate. So if we call Py_Finalize here, we end up with Py_Finalize being called from // // within Py_Finalize, which results in a seg fault. // // // // Since this function only gets called when lldb is shutting down and going away anyway, the fact that we don't // // actually call Py_Finalize should not cause any problems (everything should shut down/go away anyway when the // // process exits). // // //// Py_Finalize (); //} #endif // #ifdef LLDB_DISABLE_PYTHON