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Also, with gcc 4.5.2 on Ubuntu (at least) the macros fail because the '''call_function''' routine appears to be between '''PyEval_EvalFrameEx''' and '''PyEval_EvalCodeEx''' so the macro fails with '''No symbol "co" in current context.'''. Recompiling python with '''make "CFLAGS=-g -fno-inline -fno-strict-aliasing"''' solves this problem.

Some types of bugs can be difficult to debug from within Python. Some include:

  • segfaults (not uncaught Python exceptions)
  • hung processes (in cases where you can't get a Python traceback or debug with pdb)

  • out of control daemon processes

In these cases, C level debugging with gdb can be helpful (it may be the only way to find out what is going on in some cases). To gather the information, the following steps need to be performed:

  1. get a Python interpreter with debugging symbols
  2. install Python specific GDB macros (*)
  3. run the program under GDB / attach to already running process.
  4. obtain backtrace.

(*) If you have gdb 7 it includes the ability to debug Python without the need for python gdb macros. See EasierPythonDebugging and issue8032 for instructions.

Even if the information obtained doesn't make sense to you, it may be able to help someone else track down the problem. If you are trying to track down an intermittent problem, perform steps 1 and 2 right away and the last steps when the problem occurs.

Debugging Interpreter

Ubuntu Dapper provides detached debugging symbols in the python2.4-dbg package:

  • sudo apt-get install python2.4-dbg

GDB Macros

A set of GDB macros are distributed with Python that aid in debugging the Python process. You can install them by adding the contents of Misc/gdbinit in the Python sources to ~/.gdbinit -- or copy it from Subversion. Be sure to use the correct version for your version of Python or some features will not work.

Note that the new GDB commands this file adds will only work correctly if debugging symbols are available.

Also, with gcc 4.5.2 on Ubuntu (at least) the macros fail because the call_function routine appears to be between PyEval_EvalFrameEx and PyEval_EvalCodeEx so the macro fails with No symbol "co" in current context.. Recompiling python with make "CFLAGS=-g -fno-inline -fno-strict-aliasing" solves this problem.

Attaching GDB To Python

There are two ways to attach gdb to a Python process:

  1. run the program under gdb from the start, wait for the problem
  2. attach to the running Python process.

To run under gdb from the start, run the following commands:

  • $ gdb python
    ...
    (gdb) run <programname>.py <arguments>

This will run the program til it exits, segfaults or you manually stop execution (using ctrl+C).

If the process is already running, you can attach to it provided you know the process ID.

  • $ gdb python <pid of running process>

Attaching to a running process like this will cause it to stop. You can tell it to continue running

Getting a Stack Trace

If you are debugging a segfault, this is probably the first thing you want to do.

At the (gdb) prompt, just run the following command:

  • (gdb) bt
    #0  0x0000002a95b3b705 in raise () from /lib/libc.so.6
    #1  0x0000002a95b3ce8e in abort () from /lib/libc.so.6
    #2  0x00000000004c164f in posix_abort (self=0x0, noargs=0x0)
        at ../Modules/posixmodule.c:7158
    #3  0x0000000000489fac in call_function (pp_stack=0x7fbffff110, oparg=0)
        at ../Python/ceval.c:3531
    #4  0x0000000000485fc2 in PyEval_EvalFrame (f=0x66ccd8)
        at ../Python/ceval.c:2163
    ...

With luck, this will give some idea of where the problem is occurring and if it doesn't help you fix the problem, it can help someone else track down the problem.

The quality of the results will depend greatly on the amount of debug information available.

Working With Hung Processes

If a process appears hung, it will either be waiting on something (a lock, IO, etc), or be in a busy loop somewhere. In either case, attaching to the process and getting a back trace can help.

If the process is in a busy loop, you may want to continue execution for a bit (using the cont command), then break (ctrl+C) again and bring up a stack trace.

Getting Python Stack Traces From GDB

At the gdb prompt, you can get a Python stack trace:

  • (gdb) pystack

Alternatively, you can get a list of the Python locals along with each stack frame:

  • (gdb) pystackv

More useful macros not in python's gdbinit file

See http://web.archive.org/web/20070915134837/http://www.mashebali.com/?Python_GDB_macros:The_Macros for some more handy python gdb macros.

DebuggingWithGdb (last edited 2017-08-07 20:12:04 by MaximilianFuxjaeger)

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