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My multi-threaded app segfaults on a call to PyImport_ImportModule("my_module").

The BT will be posted at the bottom.

Some background:

  1. My app creates multiple instances of many derived C++ classes and runs the base class's Run() function which uses a virtual method to determine what to do.
  2. One derived class uses a Python Class, Grasp_Behavior(class) in grasp_behavior(module)
  3. After extensive reading I have used the Python API to achieve (2) (exerpts below)
  4. I generate 2 instances of said class, and run them in "parallel" (python interpr doesn't really run parallel)
  5. I attempt to generate another instance of said class, segfault at PyImport_ImportModule

My thoughts are that perhaps I cannot import a module twice in the same interpreter. But I can't figure out how to check it. I assume I need to see if grasp_behavior is in a dictionary but I don't know which one, perhaps I get __main__ module's dictionary?

But I might be wrong, any advice would be incredibly helpful!

In the constructor:

//Check if Python is Initialized, otherwise initialize it
if(!Py_IsInitialized())
{
    std::cout << "[GraspBehavior] InitPython: Initializing the Python Interpreter" << std::endl;
    Py_Initialize();
    PyEval_InitThreads(); //Initialize Python thread ability
    PyEval_ReleaseLock(); //Release the implicit lock on the Python GIL
}

// --- Handle Imports ----

PyObject * pModule = PyImport_ImportModule("grasp_behavior");
if(pModule == NULL)
{
    std::cout << "[GraspBehavior] InitPython: Unable to import grasp_behavior module: ";
    PyErr_Print();
}
 // --- Get our Class Pointer From the Module ...
PyObject * pClass = PyObject_GetAttrString(pModule, "Grasp_Behavior");
if(pClass == NULL)
{
    std::cout << "[GraspBehavior] InitPython: Unable to get Class from Module: ";
    PyErr_Print();
}
Py_DECREF(pModule); //clean up, this is a new reference

behavior_instance_ = PyObject_Call(pClass, pArguments_Tuple, pArguments_Dict);
if(behavior_instance_ == NULL)
{
    std::cout << "[GraspBehavior] InitPython: Couldn't generate instance: ";
    PyErr_Print();
}
Py_DECREF(pArguments_Tuple);
Py_DECREF(pArguments_Dict);
Py_DECREF(pClass);

Here, note that I only initialize the Python interpreter if it has not been initialized. I assume it gets initialized for the entire process.

In the Run() method (ran from a boost thread):

std::cout << "[GraspBehavior] PerformBehavior: Acquiring Python GIL Lock ..." << std::endl;
PyGILState_STATE py_gilstate;
py_gilstate = PyGILState_Ensure();

/* ---- Perform Behavior Below ----- */

std::vector<std::pair<double, double> > desired_body_offsets;
//desired_body_offsets.push_back( std::pair<double, double>(0.6, 0));
PyObject * base_positions = GetTrialBasePositions(my_env_, desired_body_offsets);

PyObject * grasps = EvaluateBasePositions(my_env_, base_positions);

//Did we get any grasps? What do we do with them? [TODO]
if(grasps != NULL)
{
    std::cout << grasps->ob_type->tp_name << std::endl;
    std::cout << "Number of grasps: " << PyList_Size(grasps) << std::endl;
    successful_ = true;
}

/* --------------------------------- */

std::cout << "[GraspBehavior] PerformBehavior: Releasing Python GIL Lock ..." << std::endl;
PyGILState_Release(py_gilstate);

Here, I have gone with PyGILState lock. I read for a while and it seemed the some of the articles that many people are link use an older style of locking in Python ... perhaps I may have to switch this.


Backtrace:

Program received signal SIGSEGV, Segmentation fault.
0x00007fffee9c4330 in ?? () from /usr/lib/libpython2.6.so.1.0
(gdb) bt
#0  0x00007fffee9c4330 in ?? () from /usr/lib/libpython2.6.so.1.0
#1  0x00007fffee99ff09 in PyEval_GetGlobals ()
   from /usr/lib/libpython2.6.so.1.0
#2  0x00007fffee9bd993 in PyImport_Import () from /usr/lib/libpython2.6.so.1.0
#3  0x00007fffee9bdbec in PyImport_ImportModule ()
   from /usr/lib/libpython2.6.so.1.0
#4  0x000000000042d6f0 in GraspBehavior::InitPython (this=0x7948690)
    at grasp_behavior.cpp:241
4

First of all, you must not call any Python API functions when the GIL is released (except the GIL acquiring calls).

This code will crash:

PyEval_ReleaseLock();

PyObject * pModule = PyImport_ImportModule("grasp_behavior");

Release the GIL after you're done setting up and then re-acquire as needed (in your Run()).

Also, PyEval_ReleaseLock is deprecated, you should use PyEval_SaveThread in this case instead.

PyThreadState* tstate = PyEval_SaveThread();

This will save the thread state and release the GIL.

Then, right before you start finalizing the interpreter, do this:

PyEval_RestoreThread(tstate);

passing the return value of the PyEval_SaveThread call.

In Run(), you should use PyGILState_Ensure and PyGILState_Release, as you do now, but you should think about C++ exceptions. Right now PyGILState_Release will not be called if Run() throws.

One nice property of the PyGILState calls is that you can use them no matter if the GIL is acquired or not and they will do the right thing, unlike older APIs.

Also, you should initialize the interpreter once at startup in the main thread (before other threads are started) and finalize after shutting down all threads but the main one.

| improve this answer | |
  • Hey yak, thank you so much for the response! I just wanted to clear up somethings and get your input: 1) Note that I only release the lock ONCE, when Py_InitThreads is called. I read that that activates the lock. I could not find any specific examples of releasing the implicit lock your way, could you rephrase it for my application (described next). (2) My classes are instantiated in the main thread. Their run method is called in boost threads (using boost::bind). The run thread calls Py_Ensure and Py_ReleaseGIL. Then exits to the main thread where more classes are instantiated. – Constantin Jan 17 '12 at 2:10
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    PyEval_InitThreads creates (and acquires) the GIL. It should be called from the main thread. After you're done with all setup Py* calls, you should release the GIL by calling PyEval_SaveThread (ignore the return value if you're not doing cleanup on exit). You can start your threads before that if you want, the PyGILState_Ensure calls in their Run methods will block until the main thread releases the GIL. When that happens, one of the blocked threads will continue (and that thread will own the GIL now) until it calls PyGILState_Release at which point another thread may enter. – yak Jan 17 '12 at 2:51
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    Of course, the main thread is no different at that point and also has to use PyGILState_Ensure before calling any Python APIs. Keep in mind that this doesn't mean that there will be no two Run methods running simultaneously. If you start executing Python code in one of the threads, the interpreter will repeatedly release and re-acquire the GIL letting other threads to run. Python IO calls like file.read() also release the GIL. For best results, never keep the GIL acquired for any longer than needed. – yak Jan 17 '12 at 2:58
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    Yes, replace PyEval_ReleaseLock with PyEval_SaveThread. What I didn't realize is that this is in the constructor of your "classes" so this will run multiple times. This means you have to call PyGILState_Ensure right before the PyImport_ImportModule("grasp_behavior") call (and PyGILState_Release when you're done). For the first call, it will initialize Python, create the GIL (InitThreads), release it (SaveThread), re-acquire it (Ensure), do the stuff (ImportModule, etc.) and release it again (Release) at which point Run will be free to acquire it using PyGILState_Ensure. – yak Jan 17 '12 at 3:10
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    For future calls it will start with acquiring the GIL (PyGILState_Ensure). In fact, I would move the initializing code (the if-block) to main or some other function run at the startup of the entire program. – yak Jan 17 '12 at 3:13
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Does Boost provide a moral equivalent to the pthread_once() function that allows some initialization task to be run exactly once, no matter how many threads try to run it simultaneously? If this were my problem to debug I'd try to guard PyImport_ImportModule against multiple calls in multiple threads and using a standard tool for that would be my first attempt.

| improve this answer | |
  • That's a great idea, I will add a static flag to the class tomorrow. – Constantin Jan 17 '12 at 2:17

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