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llvm / llvm-project / eb1c2bdc1f55fbc5d1e7bb86e9f0e038b0f5adb7 / . / lldb / source / Interpreter / ScriptInterpreterPython.cpp
blob: 39c111704fefa1ac88587d80a692da8d1bb07956 [file] [log] [blame]
//===-- 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
#if defined (__APPLE__)
#include <Python/Python.h>
#else
#include <Python.h>
#endif
#include "lldb/Interpreter/ScriptInterpreterPython.h"
#include <stdlib.h>
#include <stdio.h>
#include <string>
#include "lldb/API/SBValue.h"
#include "lldb/Breakpoint/BreakpointLocation.h"
#include "lldb/Breakpoint/StoppointCallbackContext.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/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::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::SWIGPythonUpdateSynthProviderInstance g_swig_update_provider = NULL;
static ScriptInterpreter::SWIGPythonCallCommand g_swig_call_command = NULL;
static ScriptInterpreter::SWIGPythonCallModuleInit g_swig_call_module_init = NULL;
// these are the Pythonic implementations of the required callbacks
// these are scripting-language specific, which is why they belong here
// we still need to use function pointers to them instead of relying
// on linkage-time resolution because the SWIG stuff and this file
// get built at different times
extern "C" bool
LLDBSwigPythonBreakpointCallbackFunction
(
const char *python_function_name,
const char *session_dictionary_name,
const lldb::StackFrameSP& sb_frame,
const lldb::BreakpointLocationSP& sb_bp_loc
);
extern "C" bool
LLDBSwigPythonCallTypeScript
(
const char *python_function_name,
void *session_dictionary,
const lldb::ValueObjectSP& valobj_sp,
void** pyfunct_wrapper,
std::string& retval
);
extern "C" void*
LLDBSwigPythonCreateSyntheticProvider
(
const std::string python_class_name,
const char *session_dictionary_name,
const lldb::ValueObjectSP& valobj_sp
);
extern "C" uint32_t LLDBSwigPython_CalculateNumChildren (void *implementor);
extern "C" void* LLDBSwigPython_GetChildAtIndex (void *implementor, uint32_t idx);
extern "C" int LLDBSwigPython_GetIndexOfChildWithName (void *implementor, const char* child_name);
extern "C" void* LLDBSWIGPython_CastPyObjectToSBValue (void* data);
extern "C" bool LLDBSwigPython_UpdateSynthProviderInstance (void* implementor);
extern "C" bool LLDBSwigPythonCallCommand
(
const char *python_function_name,
const char *session_dictionary_name,
lldb::DebuggerSP& debugger,
const char* args,
std::string& err_msg,
lldb_private::CommandReturnObject& cmd_retobj
);
extern "C" bool LLDBSwigPythonCallModuleInit
(
const std::string python_module_name,
const char *session_dictionary_name,
lldb::DebuggerSP& debugger
);
static int
_check_and_flush (FILE *stream)
{
int prev_fail = ferror (stream);
return fflush (stream) || prev_fail ? EOF : 0;
}
static Predicate<lldb::tid_t> &
PythonMutexPredicate ()
{
static lldb_private::Predicate<lldb::tid_t> g_interpreter_is_running (LLDB_INVALID_THREAD_ID);
return g_interpreter_is_running;
}
bool
ScriptInterpreterPython::Locker::CurrentThreadHasPythonLock ()
{
TimeValue timeout;
timeout = TimeValue::Now(); // Don't wait any time.
return PythonMutexPredicate().WaitForValueEqualTo (Host::GetCurrentThreadID(), &timeout, NULL);
}
bool
ScriptInterpreterPython::Locker::TryGetPythonLock (uint32_t seconds_to_wait)
{
TimeValue timeout;
if (seconds_to_wait != UINT32_MAX)
{
timeout = TimeValue::Now();
timeout.OffsetWithSeconds (seconds_to_wait);
}
return PythonMutexPredicate().WaitForValueEqualToAndSetValueTo (LLDB_INVALID_THREAD_ID,
Host::GetCurrentThreadID(), &timeout, NULL);
}
void
ScriptInterpreterPython::Locker::ReleasePythonLock ()
{
PythonMutexPredicate().SetValue (LLDB_INVALID_THREAD_ID, eBroadcastAlways);
}
ScriptInterpreterPython::Locker::Locker (ScriptInterpreterPython *py_interpreter,
uint16_t on_entry,
uint16_t on_leave,
FILE* wait_msg_handle) :
m_need_session( (on_leave & TearDownSession) == TearDownSession ),
m_release_lock ( false ), // decide in constructor body
m_python_interpreter(py_interpreter),
m_tmp_fh(wait_msg_handle)
{
if (m_python_interpreter && !m_tmp_fh)
m_tmp_fh = (m_python_interpreter->m_dbg_stdout ? m_python_interpreter->m_dbg_stdout : stdout);
if ( (on_entry & AcquireLock) == AcquireLock )
{
if (CurrentThreadHasPythonLock())
{
if ( (on_leave & FreeLock) == FreeLock )
m_release_lock = true;
}
else
{
DoAcquireLock();
if ( (on_leave & FreeLock) == FreeLock )
m_release_lock = true;
if ( (on_leave & FreeAcquiredLock) == FreeAcquiredLock )
m_release_lock = true;
}
}
if ( (on_entry & InitSession) == InitSession )
DoInitSession();
}
bool
ScriptInterpreterPython::Locker::DoAcquireLock()
{
if (!CurrentThreadHasPythonLock())
{
while (!TryGetPythonLock (1))
if (m_tmp_fh)
fprintf (m_tmp_fh,
"Python interpreter locked on another thread; waiting to acquire lock...\n");
}
return true;
}
bool
ScriptInterpreterPython::Locker::DoInitSession()
{
if (!m_python_interpreter)
return false;
m_python_interpreter->EnterSession ();
return true;
}
bool
ScriptInterpreterPython::Locker::DoFreeLock()
{
ReleasePythonLock ();
return true;
}
bool
ScriptInterpreterPython::Locker::DoTearDownSession()
{
if (!m_python_interpreter)
return false;
m_python_interpreter->LeaveSession ();
return true;
}
ScriptInterpreterPython::Locker::~Locker()
{
if (m_need_session)
DoTearDownSession();
if (m_release_lock)
DoFreeLock();
}
class ForceDisableSyntheticChildren
{
public:
ForceDisableSyntheticChildren (Target* target) :
m_target(target)
{
m_old_value = target->GetSuppressSyntheticValue();
target->SetSuppressSyntheticValue(true);
}
~ForceDisableSyntheticChildren ()
{
m_target->SetSuppressSyntheticValue(m_old_value);
}
private:
Target* m_target;
bool m_old_value;
};
ScriptInterpreterPython::ScriptInterpreterPython (CommandInterpreter &interpreter) :
ScriptInterpreter (interpreter, eScriptLanguagePython),
m_embedded_python_pty (),
m_embedded_thread_input_reader_sp (),
m_dbg_stdout (interpreter.GetDebugger().GetOutputFile().GetStream()),
m_new_sysout (NULL),
m_old_sysout (NULL),
m_old_syserr (NULL),
m_run_one_line (NULL),
m_dictionary_name (interpreter.GetDebugger().GetInstanceName().AsCString()),
m_terminal_state (),
m_session_is_active (false),
m_valid_session (true)
{
static int g_initialized = false;
if (!g_initialized)
{
g_initialized = true;
ScriptInterpreterPython::InitializePrivate ();
}
Locker locker(this,
ScriptInterpreterPython::Locker::AcquireLock,
ScriptInterpreterPython::Locker::FreeAcquiredLock);
m_dictionary_name.append("_dict");
StreamString run_string;
run_string.Printf ("%s = dict()", m_dictionary_name.c_str());
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, gnu_libstdcpp, libcxx, objc, Logger')", 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 CFString, CFArray, CFDictionary, NSData, NSMachPort, NSSet, NSNotification, NSException, CFBag, CFBinaryHeap, NSURL, NSBundle, NSNumber, NSDate, NSIndexSet, Selector, Class, CFBitVector')", m_dictionary_name.c_str());
PyRun_SimpleString (run_string.GetData());
int new_count = Debugger::TestDebuggerRefCount();
if (new_count > old_count)
Debugger::Terminate();
run_string.Clear();
run_string.Printf ("run_one_line (%s, 'lldb.debugger_unique_id = %llu')", m_dictionary_name.c_str(),
interpreter.GetDebugger().GetID());
PyRun_SimpleString (run_string.GetData());
if (m_dbg_stdout != NULL)
{
m_new_sysout = PyFile_FromFile (m_dbg_stdout, (char *) "", (char *) "w", _check_and_flush);
}
}
ScriptInterpreterPython::~ScriptInterpreterPython ()
{
Debugger &debugger = GetCommandInterpreter().GetDebugger();
if (m_embedded_thread_input_reader_sp.get() != NULL)
{
m_embedded_thread_input_reader_sp->SetIsDone (true);
m_embedded_python_pty.CloseSlaveFileDescriptor();
const InputReaderSP reader_sp = m_embedded_thread_input_reader_sp;
m_embedded_thread_input_reader_sp.reset();
debugger.PopInputReader (reader_sp);
}
if (m_new_sysout)
{
Locker locker(this,
ScriptInterpreterPython::Locker::AcquireLock,
ScriptInterpreterPython::Locker::FreeLock);
Py_DECREF ((PyObject*)m_new_sysout);
}
}
void
ScriptInterpreterPython::ResetOutputFileHandle (FILE *fh)
{
if (fh == NULL)
return;
m_dbg_stdout = fh;
Locker locker(this,
ScriptInterpreterPython::Locker::AcquireLock,
ScriptInterpreterPython::Locker::FreeAcquiredLock);
m_new_sysout = PyFile_FromFile (m_dbg_stdout, (char *) "", (char *) "w", _check_and_flush);
}
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 ()
{
// 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
if (PyThreadState_Get())
{
PyObject *sysmod = PyImport_AddModule ("sys");
PyObject *sysdict = PyModule_GetDict (sysmod);
if (m_new_sysout && sysmod && sysdict)
{
if (m_old_sysout)
PyDict_SetItemString (sysdict, "stdout", (PyObject*)m_old_sysout);
if (m_old_syserr)
PyDict_SetItemString (sysdict, "stderr", (PyObject*)m_old_syserr);
}
}
m_session_is_active = false;
}
void
ScriptInterpreterPython::EnterSession ()
{
// If we have already entered the session, without having officially 'left' it, then there is no need to
// 'enter' it again.
if (m_session_is_active)
return;
m_session_is_active = true;
StreamString run_string;
run_string.Printf ( "run_one_line (%s, 'lldb.debugger_unique_id = %llu", m_dictionary_name.c_str(), GetCommandInterpreter().GetDebugger().GetID());
run_string.Printf ( "; lldb.debugger = lldb.SBDebugger.FindDebuggerWithID (%llu)", 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 ()");
// Make sure STDIN is closed since when we run this as an embedded
// interpreter we don't want someone to call "line = sys.stdin.readline()"
// and lock up. We don't have multiple windows and when the interpreter is
// embedded we don't know we should be feeding input to the embedded
// interpreter or to the python sys.stdin. We also don't want to let python
// play with the real stdin from this process, so we need to close it...
//run_string.PutCString ("; sys.stdin.close()");
run_string.PutCString ("')");
PyRun_SimpleString (run_string.GetData());
run_string.Clear();
PyObject *sysmod = PyImport_AddModule ("sys");
PyObject *sysdict = PyModule_GetDict (sysmod);
if (m_new_sysout && sysmod && sysdict)
{
m_old_sysout = PyDict_GetItemString(sysdict, "stdout");
m_old_syserr = PyDict_GetItemString(sysdict, "stderr");
if (m_new_sysout)
{
PyDict_SetItemString (sysdict, "stdout", (PyObject*)m_new_sysout);
PyDict_SetItemString (sysdict, "stderr", (PyObject*)m_new_sysout);
}
}
if (PyErr_Occurred())
PyErr_Clear ();
}
static PyObject*
FindSessionDictionary (const char* dict_name)
{
static std::map<ConstString,PyObject*> g_dict_map;
ConstString dict(dict_name);
std::map<ConstString,PyObject*>::iterator iter = g_dict_map.find(dict);
if (iter != g_dict_map.end())
return iter->second;
PyObject *main_mod = PyImport_AddModule ("__main__");
if (main_mod != NULL)
{
PyObject *main_dict = PyModule_GetDict (main_mod);
if ((main_dict != NULL)
&& PyDict_Check (main_dict))
{
// Go through the main dictionary looking for the correct python script interpreter dictionary
PyObject *key, *value;
Py_ssize_t pos = 0;
while (PyDict_Next (main_dict, &pos, &key, &value))
{
// We have stolen references to the key and value objects in the dictionary; we need to increment
// them now so that Python's garbage collector doesn't collect them out from under us.
Py_INCREF (key);
Py_INCREF (value);
if (strcmp (PyString_AsString (key), dict_name) == 0)
{
g_dict_map[dict] = value;
return value;
}
}
}
}
return NULL;
}
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::ExecuteOneLine (const char *command, CommandReturnObject *result)
{
if (!m_valid_session)
return false;
// 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.
Locker locker(this,
ScriptInterpreterPython::Locker::AcquireLock | ScriptInterpreterPython::Locker::InitSession,
ScriptInterpreterPython::Locker::FreeAcquiredLock | ScriptInterpreterPython::Locker::TearDownSession);
bool success = false;
if (command)
{
// Find the correct script interpreter dictionary in the main module.
PyObject *script_interpreter_dict = FindSessionDictionary(m_dictionary_name.c_str());
if (script_interpreter_dict != NULL)
{
PyObject *pfunc = (PyObject*)m_run_one_line;
PyObject *pmod = PyImport_AddModule ("embedded_interpreter");
if (pmod != NULL)
{
PyObject *pmod_dict = PyModule_GetDict (pmod);
if ((pmod_dict != NULL)
&& PyDict_Check (pmod_dict))
{
if (!pfunc)
{
PyObject *key, *value;
Py_ssize_t pos = 0;
while (PyDict_Next (pmod_dict, &pos, &key, &value))
{
Py_INCREF (key);
Py_INCREF (value);
if (strcmp (PyString_AsString (key), "run_one_line") == 0)
{
pfunc = value;
break;
}
}
m_run_one_line = pfunc;
}
if (pfunc && PyCallable_Check (pfunc))
{
PyObject *pargs = Py_BuildValue("(Os)",script_interpreter_dict,command);
if (pargs != NULL)
{
PyObject *pvalue = PyObject_CallObject (pfunc, pargs);
Py_DECREF (pargs);
if (pvalue != NULL)
{
Py_DECREF (pvalue);
success = true;
}
else if (PyErr_Occurred ())
{
PyErr_Print();
PyErr_Clear();
}
}
}
}
}
Py_INCREF (script_interpreter_dict);
}
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;
}
size_t
ScriptInterpreterPython::InputReaderCallback
(
void *baton,
InputReader &reader,
InputReaderAction notification,
const char *bytes,
size_t bytes_len
)
{
lldb::thread_t embedded_interpreter_thread;
LogSP log (lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_SCRIPT));
if (baton == NULL)
return 0;
ScriptInterpreterPython *script_interpreter = (ScriptInterpreterPython *) baton;
if (script_interpreter->m_script_lang != eScriptLanguagePython)
return 0;
StreamSP out_stream = reader.GetDebugger().GetAsyncOutputStream();
bool batch_mode = reader.GetDebugger().GetCommandInterpreter().GetBatchCommandMode();
switch (notification)
{
case eInputReaderActivate:
{
if (!batch_mode)
{
out_stream->Printf ("Python Interactive Interpreter. To exit, type 'quit()', 'exit()' or Ctrl-D.\n");
out_stream->Flush();
}
// Save terminal settings if we can
int input_fd = reader.GetDebugger().GetInputFile().GetDescriptor();
if (input_fd == File::kInvalidDescriptor)
input_fd = STDIN_FILENO;
script_interpreter->SaveTerminalState(input_fd);
{
ScriptInterpreterPython::Locker locker(script_interpreter,
ScriptInterpreterPython::Locker::AcquireLock | ScriptInterpreterPython::Locker::InitSession,
ScriptInterpreterPython::Locker::FreeAcquiredLock);
}
char error_str[1024];
if (script_interpreter->m_embedded_python_pty.OpenFirstAvailableMaster (O_RDWR|O_NOCTTY, error_str,
sizeof(error_str)))
{
if (log)
log->Printf ("ScriptInterpreterPython::InputReaderCallback, Activate, succeeded in opening master pty (fd = %d).",
script_interpreter->m_embedded_python_pty.GetMasterFileDescriptor());
embedded_interpreter_thread = Host::ThreadCreate ("<lldb.script-interpreter.embedded-python-loop>",
ScriptInterpreterPython::RunEmbeddedPythonInterpreter,
script_interpreter, NULL);
if (IS_VALID_LLDB_HOST_THREAD(embedded_interpreter_thread))
{
if (log)
log->Printf ("ScriptInterpreterPython::InputReaderCallback, Activate, succeeded in creating thread (thread_t = %p)", embedded_interpreter_thread);
Error detach_error;
Host::ThreadDetach (embedded_interpreter_thread, &detach_error);
}
else
{
if (log)
log->Printf ("ScriptInterpreterPython::InputReaderCallback, Activate, failed in creating thread");
reader.SetIsDone (true);
}
}
else
{
if (log)
log->Printf ("ScriptInterpreterPython::InputReaderCallback, Activate, failed to open master pty ");
reader.SetIsDone (true);
}
}
break;
case eInputReaderDeactivate:
// When another input reader is pushed, don't leave the session...
//script_interpreter->LeaveSession ();
break;
case eInputReaderReactivate:
{
// Don't try and acquire the interpreter lock here because code like
// this:
//
// (lldb) script
// >>> v = lldb.frame.EvaluateExpression("collection->get_at_index(12)")
//
// This will cause the process to run. The interpreter lock is taken
// by the input reader for the "script" command. If we try and acquire
// the lock here, when the process runs it might deactivate this input
// reader (if STDIN is hooked up to the inferior process) and
// reactivate it when the process stops which will deadlock.
//ScriptInterpreterPython::Locker locker(script_interpreter,
// ScriptInterpreterPython::Locker::AcquireLock | ScriptInterpreterPython::Locker::InitSession,
// ScriptInterpreterPython::Locker::FreeAcquiredLock);
}
break;
case eInputReaderAsynchronousOutputWritten:
break;
case eInputReaderInterrupt:
::write (script_interpreter->m_embedded_python_pty.GetMasterFileDescriptor(), "raise KeyboardInterrupt\n", 24);
break;
case eInputReaderEndOfFile:
::write (script_interpreter->m_embedded_python_pty.GetMasterFileDescriptor(), "quit()\n", 7);
break;
case eInputReaderGotToken:
if (script_interpreter->m_embedded_python_pty.GetMasterFileDescriptor() != -1)
{
if (log)
log->Printf ("ScriptInterpreterPython::InputReaderCallback, GotToken, bytes='%s', byte_len = %lu", bytes,
bytes_len);
if (bytes && bytes_len)
{
if ((int) bytes[0] == 4)
::write (script_interpreter->m_embedded_python_pty.GetMasterFileDescriptor(), "quit()", 6);
else
::write (script_interpreter->m_embedded_python_pty.GetMasterFileDescriptor(), bytes, bytes_len);
}
::write (script_interpreter->m_embedded_python_pty.GetMasterFileDescriptor(), "\n", 1);
}
else
{
if (log)
log->Printf ("ScriptInterpreterPython::InputReaderCallback, GotToken, bytes='%s', byte_len = %lu, Master File Descriptor is bad.",
bytes,
bytes_len);
reader.SetIsDone (true);
}
break;
case eInputReaderDone:
script_interpreter->LeaveSession ();
// Restore terminal settings if they were validly saved
if (log)
log->Printf ("ScriptInterpreterPython::InputReaderCallback, Done, closing down input reader.");
script_interpreter->RestoreTerminalState ();
script_interpreter->m_embedded_python_pty.CloseMasterFileDescriptor();
break;
}
return bytes_len;
}
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().IsValid())
return;
InputReaderSP reader_sp (new InputReader(debugger));
if (reader_sp)
{
Error error (reader_sp->Initialize (ScriptInterpreterPython::InputReaderCallback,
this, // baton
eInputReaderGranularityLine, // token size, to pass to callback function
NULL, // end token
NULL, // prompt
true)); // echo input
if (error.Success())
{
debugger.PushInputReader (reader_sp);
m_embedded_thread_input_reader_sp = reader_sp;
}
}
}
bool
ScriptInterpreterPython::ExecuteOneLineWithReturn (const char *in_string,
ScriptInterpreter::ScriptReturnType return_type,
void *ret_value)
{
Locker locker(this,
ScriptInterpreterPython::Locker::AcquireLock | ScriptInterpreterPython::Locker::InitSession,
ScriptInterpreterPython::Locker::FreeAcquiredLock | ScriptInterpreterPython::Locker::TearDownSession);
PyObject *py_return = NULL;
PyObject *mainmod = PyImport_AddModule ("__main__");
PyObject *globals = PyModule_GetDict (mainmod);
PyObject *locals = NULL;
PyObject *py_error = NULL;
bool ret_success = false;
bool should_decrement_locals = false;
int success;
locals = FindSessionDictionary(m_dictionary_name.c_str());
if (locals == NULL)
{
locals = PyObject_GetAttrString (globals, m_dictionary_name.c_str());
should_decrement_locals = true;
}
if (locals == NULL)
{
locals = globals;
should_decrement_locals = false;
}
py_error = PyErr_Occurred();
if (py_error != NULL)
PyErr_Clear();
if (in_string != NULL)
{
py_return = PyRun_String (in_string, Py_eval_input, globals, locals);
if (py_return == NULL)
{
py_error = PyErr_Occurred ();
if (py_error != NULL)
PyErr_Clear ();
py_return = PyRun_String (in_string, Py_single_input, globals, locals);
}
if (locals != NULL
&& should_decrement_locals)
Py_DECREF (locals);
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;
}
default:
{}
}
Py_DECREF (py_return);
if (success)
ret_success = true;
else
ret_success = false;
}
}
py_error = PyErr_Occurred();
if (py_error != NULL)
{
if (PyErr_GivenExceptionMatches (py_error, PyExc_SyntaxError))
PyErr_Print ();
PyErr_Clear();
ret_success = false;
}
return ret_success;
}
bool
ScriptInterpreterPython::ExecuteMultipleLines (const char *in_string)
{
Locker locker(this,
ScriptInterpreterPython::Locker::AcquireLock | ScriptInterpreterPython::Locker::InitSession,
ScriptInterpreterPython::Locker::FreeAcquiredLock | ScriptInterpreterPython::Locker::TearDownSession);
bool success = false;
PyObject *py_return = NULL;
PyObject *mainmod = PyImport_AddModule ("__main__");
PyObject *globals = PyModule_GetDict (mainmod);
PyObject *locals = NULL;
PyObject *py_error = NULL;
bool should_decrement_locals = false;
locals = FindSessionDictionary(m_dictionary_name.c_str());
if (locals == NULL)
{
locals = PyObject_GetAttrString (globals, m_dictionary_name.c_str());
should_decrement_locals = true;
}
if (locals == NULL)
{
locals = globals;
should_decrement_locals = false;
}
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)
{
py_return = PyEval_EvalCode (compiled_code, globals, locals);
if (py_return != NULL)
{
success = true;
Py_DECREF (py_return);
}
if (locals && should_decrement_locals)
Py_DECREF (locals);
}
}
}
py_error = PyErr_Occurred ();
if (py_error != NULL)
{
if (PyErr_GivenExceptionMatches (py_error, PyExc_SyntaxError))
PyErr_Print ();
PyErr_Clear();
success = false;
}
return success;
}
static const char *g_reader_instructions = "Enter your Python command(s). Type 'DONE' to end.";
size_t
ScriptInterpreterPython::GenerateBreakpointOptionsCommandCallback
(
void *baton,
InputReader &reader,
InputReaderAction notification,
const char *bytes,
size_t bytes_len
)
{
static StringList commands_in_progress;
StreamSP out_stream = reader.GetDebugger().GetAsyncOutputStream();
bool batch_mode = reader.GetDebugger().GetCommandInterpreter().GetBatchCommandMode();
switch (notification)
{
case eInputReaderActivate:
{
commands_in_progress.Clear();
if (!batch_mode)
{
out_stream->Printf ("%s\n", g_reader_instructions);
if (reader.GetPrompt())
out_stream->Printf ("%s", reader.GetPrompt());
out_stream->Flush ();
}
}
break;
case eInputReaderDeactivate:
break;
case eInputReaderReactivate:
if (reader.GetPrompt() && !batch_mode)
{
out_stream->Printf ("%s", reader.GetPrompt());
out_stream->Flush ();
}
break;
case eInputReaderAsynchronousOutputWritten:
break;
case eInputReaderGotToken:
{
std::string temp_string (bytes, bytes_len);
commands_in_progress.AppendString (temp_string.c_str());
if (!reader.IsDone() && reader.GetPrompt() && !batch_mode)
{
out_stream->Printf ("%s", reader.GetPrompt());
out_stream->Flush ();
}
}
break;
case eInputReaderEndOfFile:
case eInputReaderInterrupt:
// Control-c (SIGINT) & control-d both mean finish & exit.
reader.SetIsDone(true);
// Control-c (SIGINT) ALSO means cancel; do NOT create a breakpoint command.
if (notification == eInputReaderInterrupt)
commands_in_progress.Clear();
// Fall through here...
case eInputReaderDone:
{
BreakpointOptions *bp_options = (BreakpointOptions *)baton;
std::auto_ptr<BreakpointOptions::CommandData> data_ap(new BreakpointOptions::CommandData());
data_ap->user_source.AppendList (commands_in_progress);
if (data_ap.get())
{
ScriptInterpreter *interpreter = reader.GetDebugger().GetCommandInterpreter().GetScriptInterpreter();
if (interpreter)
{
if (interpreter->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)
{
out_stream->Printf ("Warning: No command attached to breakpoint.\n");
out_stream->Flush();
}
}
else
{
if (!batch_mode)
{
out_stream->Printf ("Warning: Unable to find script intepreter; no command attached to breakpoint.\n");
out_stream->Flush();
}
}
}
}
break;
}
return bytes_len;
}
void
ScriptInterpreterPython::CollectDataForBreakpointCommandCallback (BreakpointOptions *bp_options,
CommandReturnObject &result)
{
Debugger &debugger = GetCommandInterpreter().GetDebugger();
InputReaderSP reader_sp (new InputReader (debugger));
if (reader_sp)
{
Error err = reader_sp->Initialize (
ScriptInterpreterPython::GenerateBreakpointOptionsCommandCallback,
bp_options, // baton
eInputReaderGranularityLine, // token size, for feeding data to callback function
"DONE", // end token
"> ", // prompt
true); // echo input
if (err.Success())
debugger.PushInputReader (reader_sp);
else
{
result.AppendError (err.AsCString());
result.SetStatus (eReturnStatusFailed);
}
}
else
{
result.AppendError("out of memory");
result.SetStatus (eReturnStatusFailed);
}
}
// Set a Python one-liner as the callback for the breakpoint.
void
ScriptInterpreterPython::SetBreakpointCommandCallback (BreakpointOptions *bp_options,
const char *oneliner)
{
std::auto_ptr<BreakpointOptions::CommandData> 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);
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;
}
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());
}
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 = 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 (dict)"); // Add the session dictionary to the
// global dictionary.
// Wrap everything up inside the function, increasing the indentation.
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 (" 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, 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, 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.
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::CreateSyntheticScriptedProvider (std::string class_name,
lldb::ValueObjectSP valobj)
{
if (class_name.empty())
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);
ForceDisableSyntheticChildren no_synthetics(target);
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, 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("<no object>");
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);
{
Timer scoped_timer ("g_swig_typescript_callback","g_swig_typescript_callback");
ret_val = g_swig_typescript_callback (python_function_name,
FindSessionDictionary(m_dictionary_name.c_str()),
valobj,
&new_callee,
retval);
}
}
}
else
{
retval.assign("<no function name>");
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 != NULL
&& python_function_name[0] != '\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);
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;
}
lldb::thread_result_t
ScriptInterpreterPython::RunEmbeddedPythonInterpreter (lldb::thread_arg_t baton)
{
ScriptInterpreterPython *script_interpreter = (ScriptInterpreterPython *) baton;
LogSP log (lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_SCRIPT));
if (log)
log->Printf ("%p ScriptInterpreterPython::RunEmbeddedPythonInterpreter () thread starting...", baton);
char error_str[1024];
const char *pty_slave_name = script_interpreter->m_embedded_python_pty.GetSlaveName (error_str, sizeof (error_str));
Locker locker(script_interpreter,
ScriptInterpreterPython::Locker::AcquireLock | ScriptInterpreterPython::Locker::InitSession,
ScriptInterpreterPython::Locker::FreeAcquiredLock | ScriptInterpreterPython::Locker::TearDownSession);
if (pty_slave_name != NULL)
{
StreamString run_string;
run_string.Printf ("run_one_line (%s, 'save_stderr = sys.stderr')", script_interpreter->m_dictionary_name.c_str());
PyRun_SimpleString (run_string.GetData());
run_string.Clear ();
run_string.Printf ("run_one_line (%s, 'sys.stderr = sys.stdout')", script_interpreter->m_dictionary_name.c_str());
PyRun_SimpleString (run_string.GetData());
run_string.Clear ();
run_string.Printf ("run_one_line (%s, 'save_stdin = sys.stdin')", script_interpreter->m_dictionary_name.c_str());
PyRun_SimpleString (run_string.GetData());
run_string.Clear ();
run_string.Printf ("run_one_line (%s, \"sys.stdin = open ('%s', 'r')\")", script_interpreter->m_dictionary_name.c_str(),
pty_slave_name);
PyRun_SimpleString (run_string.GetData());
run_string.Clear ();
// The following call drops into the embedded interpreter loop and stays there until the
// user chooses to exit from the Python interpreter.
// When in the embedded interpreter, the user can call arbitrary system and Python stuff, which may require
// the ability to run multi-threaded stuff, so we need to surround the call to the embedded interpreter with
// calls to Py_BEGIN_ALLOW_THREADS and Py_END_ALLOW_THREADS.
// We ALSO need to surround the call to the embedded interpreter with calls to PyGILState_Ensure and
// PyGILState_Release. This is because this embedded interpreter is being run on a DIFFERENT THREAD than
// the thread on which the call to Py_Initialize (and PyEval_InitThreads) was called. Those initializations
// called PyGILState_Ensure on *that* thread, but it also needs to be called on *this* thread. Otherwise,
// if the user calls Python code that does threading stuff, the interpreter state will be off, and things could
// hang (it's happened before).
Py_BEGIN_ALLOW_THREADS
PyGILState_STATE gstate = PyGILState_Ensure();
run_string.Printf ("run_python_interpreter (%s)", script_interpreter->m_dictionary_name.c_str());
PyRun_SimpleString (run_string.GetData());
run_string.Clear ();
PyGILState_Release (gstate);
Py_END_ALLOW_THREADS
run_string.Printf ("run_one_line (%s, 'sys.stdin = save_stdin')", script_interpreter->m_dictionary_name.c_str());
PyRun_SimpleString (run_string.GetData());
run_string.Clear();
run_string.Printf ("run_one_line (%s, 'sys.stderr = save_stderr')", script_interpreter->m_dictionary_name.c_str());
PyRun_SimpleString (run_string.GetData());
run_string.Clear();
}
if (script_interpreter->m_embedded_thread_input_reader_sp)
script_interpreter->m_embedded_thread_input_reader_sp->SetIsDone (true);
script_interpreter->m_embedded_python_pty.CloseSlaveFileDescriptor();
log = lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_SCRIPT);
if (log)
log->Printf ("%p ScriptInterpreterPython::RunEmbeddedPythonInterpreter () thread exiting...", baton);
// Clean up the input reader and make the debugger pop it off the stack.
Debugger &debugger = script_interpreter->GetCommandInterpreter().GetDebugger();
const InputReaderSP reader_sp = script_interpreter->m_embedded_thread_input_reader_sp;
script_interpreter->m_embedded_thread_input_reader_sp.reset();
debugger.PopInputReader (reader_sp);
return NULL;
}
uint32_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);
ForceDisableSyntheticChildren no_synthetics(GetCommandInterpreter().GetDebugger().GetSelectedTarget().get());
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();
void* child_ptr = NULL;
lldb::SBValue* value_sb = NULL;
lldb::ValueObjectSP ret_val;
{
Locker py_lock(this);
ForceDisableSyntheticChildren no_synthetics(GetCommandInterpreter().GetDebugger().GetSelectedTarget().get());
child_ptr = g_swig_get_child_index (implementor,idx);
if (child_ptr != NULL && child_ptr != Py_None)
{
value_sb = (lldb::SBValue*)g_swig_cast_to_sbvalue(child_ptr);
if (value_sb == NULL)
Py_XDECREF(child_ptr);
else
ret_val = value_sb->get_sp();
}
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);
ForceDisableSyntheticChildren no_synthetics(GetCommandInterpreter().GetDebugger().GetSelectedTarget().get());
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);
ForceDisableSyntheticChildren no_synthetics(GetCommandInterpreter().GetDebugger().GetSelectedTarget().get());
ret_val = g_swig_update_provider (implementor);
}
return ret_val;
}
bool
ScriptInterpreterPython::LoadScriptingModule (const char* pathname,
bool can_reload,
lldb_private::Error& error)
{
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();
{
Locker py_lock(this);
FileSpec target_file(pathname, true);
// TODO: would we want to reject any other value?
if (target_file.GetFileType() == FileSpec::eFileTypeInvalid ||
target_file.GetFileType() == FileSpec::eFileTypeUnknown)
{
error.SetErrorString("invalid pathname");
return false;
}
const char* directory = target_file.GetDirectory().GetCString();
std::string basename(target_file.GetFilename().GetCString());
// 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.append('%s');\n\n",
directory,
directory);
bool syspath_retval = ExecuteMultipleLines(command_stream.GetData());
if (!syspath_retval)
{
error.SetErrorString("Python sys.path handling failed");
return false;
}
// strip .py or .pyc extension
ConstString extension = target_file.GetFileNameExtension();
if (::strcmp(extension.GetCString(), "py") == 0)
basename.resize(basename.length()-3);
else if(::strcmp(extension.GetCString(), "pyc") == 0)
basename.resize(basename.length()-4);
// check if the module is already import-ed
command_stream.Clear();
command_stream.Printf("sys.getrefcount(%s)",basename.c_str());
int refcount = 0;
// this call will fail if the module does not exist (because the parameter to it is not a string
// but an actual Python module object, which is non-existant if the module was not imported before)
bool was_imported = (ExecuteOneLineWithReturn(command_stream.GetData(),
ScriptInterpreterPython::eScriptReturnTypeInt, &refcount) && refcount > 0);
if (was_imported == true && can_reload == false)
{
error.SetErrorString("module already imported");
return false;
}
// now actually do the import
command_stream.Clear();
command_stream.Printf("import %s",basename.c_str());
bool import_retval = ExecuteOneLine(command_stream.GetData(), NULL);
if (!import_retval)
{
error.SetErrorString("Python import statement failed");
return false;
}
// call __lldb_init_module(debugger,dict)
if (!g_swig_call_module_init (basename,
m_dictionary_name.c_str(),
debugger_sp))
{
error.SetErrorString("calling __lldb_init_module failed");
return false;
}
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;
std::string err_msg;
{
Locker py_lock(this);
SynchronicityHandler synch_handler(debugger_sp,
synchronicity);
ret_val = g_swig_call_command (impl_function,
m_dictionary_name.c_str(),
debugger_sp,
args,
err_msg,
cmd_retobj);
}
if (!ret_val)
error.SetErrorString(err_msg.c_str());
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
std::string
ScriptInterpreterPython::GetDocumentationForItem(const char* item)
{
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) && result_ptr)
{
return std::string(result_ptr);
}
else
return std::string("");
}
void
ScriptInterpreterPython::InitializeInterpreter (SWIGInitCallback python_swig_init_callback)
{
g_swig_init_callback = python_swig_init_callback;
g_swig_breakpoint_callback = LLDBSwigPythonBreakpointCallbackFunction;
g_swig_typescript_callback = LLDBSwigPythonCallTypeScript;
g_swig_synthetic_script = LLDBSwigPythonCreateSyntheticProvider;
g_swig_calc_children = LLDBSwigPython_CalculateNumChildren;
g_swig_get_child_index = LLDBSwigPython_GetChildAtIndex;
g_swig_get_index_child = LLDBSwigPython_GetIndexOfChildWithName;
g_swig_cast_to_sbvalue = LLDBSWIGPython_CastPyObjectToSBValue;
g_swig_update_provider = LLDBSwigPython_UpdateSynthProviderInstance;
g_swig_call_command = LLDBSwigPythonCallCommand;
g_swig_call_module_init = LLDBSwigPythonCallModuleInit;
}
void
ScriptInterpreterPython::InitializePrivate ()
{
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);
PyEval_InitThreads ();
Py_InitializeEx (0);
// Initialize SWIG after setting up python
assert (g_swig_init_callback != NULL);
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");
PyRun_SimpleString ("import embedded_interpreter");
PyRun_SimpleString ("from embedded_interpreter import run_python_interpreter");
PyRun_SimpleString ("from embedded_interpreter import run_one_line");
PyRun_SimpleString ("from termios import *");
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