使用 GDB 调试 C API 扩展和 CPython 内部代码¶
本文档介绍了如何将 Python GDB 扩展 python-gdb.py
与 GDB 调试器一起使用以调试 CPython 扩展以及 CPython 解释器本身。
当调试低层级问题如崩溃或死锁时,低层级的调试器如 GDB 适合被用来诊断和修正错误。 在默认情况下,GDB(或其任一种前端)并不支持 CPython 解释器专属的高层级信息。
python-gdb.py
扩展可向 GDB 添加 CPython 解释器信息。 该扩展能协助对当前执行的 Python 函数栈进行内省。 当给定一个由 PyObject* 指针代表的 Python 对象时,该扩展将展示对象的类型和值。
开发 CPython 扩展或处理 CPython 中用 C 语言编写的部分的开发人员可以通过本文档学习如何将 python-gdb.py
扩展与 GDB 一起使用。
备注
本文档假定你已熟悉 GDB 和 CPython C API 的基础知识。 它对来自 devguide 和 Python wiki 的内容进行了整合。
前提条件¶
你需要有:
GDB 7 或更高的版本。 (对于较低版本的 GDB,请参阅 Python 3.11 或更低版本源代码中的
Misc/gdbinit
。)针对 Python 和你正在调试的任何扩展的 GDB 兼容调试信息。
python-gdb.py
扩展。
此扩展与 Python 一起构建,但可能单独发布或根本不发布。 下面,我们将以几个常见系统为例进行说明。 请注意即使这些说明与你的系统相匹配,它们也可能已经过时。
使用从源代码构建的 Python 进行设置¶
当你从源代码构建 CPython 时,调试信息应当是可用的,并且构建应当在你的代码库根目录中添加一个 python-gdb.py
文件。
要激活支持,你必须将包含 python-gdb.py
的目录添加到 GDB 的 "auto-load-safe-path" 中。如果你没有这样做,较新版本的 GDB 会打印一个警告来说明如何执行此操作。
备注
如果你没有看到针对你的 GDB 版本的说明,请将以下内容放到你的配置文件中 (~/.gdbinit
或 ~/.config/gdb/gdbinit
):
add-auto-load-safe-path /path/to/cpython
你还可以添加多个路径,以 :
分隔。
针对 Linux 发行版的 Python 设置¶
大多数 Linux 系统会在名为 python-debuginfo
、python-dbg
或类似的包中提供系统 Python 的调试信息。 例如:
Fedora:
sudo dnf install gdb sudo dnf debuginfo-install python3
Ubuntu:
sudo apt install gdb python3-dbg
在一些最新的 Linux 系统上,GDB 可以使用 debuginfod 自动下载调试符号。 不过,这并不会安装 python-gdb.py
扩展;你通常需要单独安装调试信息包。
使用调试构建和开发模式¶
为了方便调试,你可能需要:
使用 Python 的 调试构建版。 (当从源代码构建时,使用
configure --with-pydebug
。 在 Linux 发行版上,安装并运行python-debug
或python-dbg
之类的包,如果有的话。)使用运行时 开发模式 (
-X dev
)。
两者都将启用额外的断言并禁用某些优化。 有时这会隐藏你想要查找的程序错误,但大多数情况下它们都能使调试过程更简单。
使用 python-gdb
扩展¶
当该扩展被加载时,它将提供两个主要特性:Python 值的美化打印,以及附加的命令。
美化打印¶
这是当此扩展被启用时 GDB 回溯信息的显示效果(截取部分):
#0 0x000000000041a6b1 in PyObject_Malloc (nbytes=Cannot access memory at address 0x7fffff7fefe8
) at Objects/obmalloc.c:748
#1 0x000000000041b7c0 in _PyObject_DebugMallocApi (id=111 'o', nbytes=24) at Objects/obmalloc.c:1445
#2 0x000000000041b717 in _PyObject_DebugMalloc (nbytes=24) at Objects/obmalloc.c:1412
#3 0x000000000044060a in _PyUnicode_New (length=11) at Objects/unicodeobject.c:346
#4 0x00000000004466aa in PyUnicodeUCS2_DecodeUTF8Stateful (s=0x5c2b8d "__lltrace__", size=11, errors=0x0, consumed=
0x0) at Objects/unicodeobject.c:2531
#5 0x0000000000446647 in PyUnicodeUCS2_DecodeUTF8 (s=0x5c2b8d "__lltrace__", size=11, errors=0x0)
at Objects/unicodeobject.c:2495
#6 0x0000000000440d1b in PyUnicodeUCS2_FromStringAndSize (u=0x5c2b8d "__lltrace__", size=11)
at Objects/unicodeobject.c:551
#7 0x0000000000440d94 in PyUnicodeUCS2_FromString (u=0x5c2b8d "__lltrace__") at Objects/unicodeobject.c:569
#8 0x0000000000584abd in PyDict_GetItemString (v=
{'Yuck': <type at remote 0xad4730>, '__builtins__': <module at remote 0x7ffff7fd5ee8>, '__file__': 'Lib/test/crashers/nasty_eq_vs_dict.py', '__package__': None, 'y': <Yuck(i=0) at remote 0xaacd80>, 'dict': {0: 0, 1: 1, 2: 2, 3: 3}, '__cached__': None, '__name__': '__main__', 'z': <Yuck(i=0) at remote 0xaace60>, '__doc__': None}, key=
0x5c2b8d "__lltrace__") at Objects/dictobject.c:2171
请注意传给 PyDict_GetItemString
的字典参数被显示为其 repr()
,而非不透明的 PyObject *
指针。
该扩展通过为类型 PyObject *
的值提供自定义的打印例程来发挥作用。 如果你需要访问一个对象的低层级细节,则要将原值投射为适当类型的指针。 例如:
(gdb) p globals
$1 = {'__builtins__': <module at remote 0x7ffff7fb1868>, '__name__':
'__main__', 'ctypes': <module at remote 0x7ffff7f14360>, '__doc__': None,
'__package__': None}
(gdb) p *(PyDictObject*)globals
$2 = {ob_refcnt = 3, ob_type = 0x3dbdf85820, ma_fill = 5, ma_used = 5,
ma_mask = 7, ma_table = 0x63d0f8, ma_lookup = 0x3dbdc7ea70
<lookdict_string>, ma_smalltable = {{me_hash = 7065186196740147912,
me_key = '__builtins__', me_value = <module at remote 0x7ffff7fb1868>},
{me_hash = -368181376027291943, me_key = '__name__',
me_value ='__main__'}, {me_hash = 0, me_key = 0x0, me_value = 0x0},
{me_hash = 0, me_key = 0x0, me_value = 0x0},
{me_hash = -9177857982131165996, me_key = 'ctypes',
me_value = <module at remote 0x7ffff7f14360>},
{me_hash = -8518757509529533123, me_key = '__doc__', me_value = None},
{me_hash = 0, me_key = 0x0, me_value = 0x0}, {
me_hash = 6614918939584953775, me_key = '__package__', me_value = None}}}
请注意美化打印并不会实际调用 repr()
。 对于基本类型,它将尝试尽量匹配其结果。
一个可能令人困惑的地方是某些类型的自定义打印效果很像是 GDB 针对标准类型的内置打印形式。 例如,针对 Python int
(PyLongObject*) 的美化打印表示形式与机器层级上常规的整数并无区别:
(gdb) p some_machine_integer
$3 = 42
(gdb) p some_python_integer
$4 = 42
内部结构可通过投射到 PyLongObject* 来揭示:
(gdb) p *(PyLongObject*)some_python_integer
$5 = {ob_base = {ob_base = {ob_refcnt = 8, ob_type = 0x3dad39f5e0}, ob_size = 1},
ob_digit = {42}}
类似的困惑也可能发生于 str
类型,这里的输出看起来很像 gdb 针对 char *
的内置打印形式:
(gdb) p ptr_to_python_str
$6 = '__builtins__'
针对 str
实例的美化打印默认使用单引号(就像 Python 字符串的 repr
一样)而针对 char *
值的标准打印形式使用双引号并且包含一个十六进制的地址:
(gdb) p ptr_to_char_star
$7 = 0x6d72c0 "hello world"
同样地,该实现细节可通过投射为 PyUnicodeObject* 来显示:
(gdb) p *(PyUnicodeObject*)$6
$8 = {ob_base = {ob_refcnt = 33, ob_type = 0x3dad3a95a0}, length = 12,
str = 0x7ffff2128500, hash = 7065186196740147912, state = 1, defenc = 0x0}
py-list
¶
该扩展添加了一个
py-list
命令,它将列出选定的线程中当前帧的 Python 源代码(如果存在)。 当前行将以一个 ">" 来标记:(gdb) py-list 901 if options.profile: 902 options.profile = False 903 profile_me() 904 return 905 >906 u = UI() 907 if not u.quit: 908 try: 909 gtk.main() 910 except KeyboardInterrupt: 911 # properly quit on a keyboard interrupt...使用
py-list START
从不同的行号开始列出 Python 源代码,而py-list START,END
则从列出指定行范围内的 Python 源代码。
py-up
和 py-down
¶
py-up
和py-down
命令类似于 GDB 的常规up
和down
命令,但会尝试在 CPython 帧而不是 C 帧的层级上移动。GDB 并不总是能够读取相关的帧信息,这取决于编译 CPython 时的优化级别。 在内部,这些命令会查找正在执行默认帧求值函数(即 CPython 内的的核心字节码解释器循环)的 C 帧并查找相关
PyFrameObject *
的值。它们将发出线程内的帧编号(在 C 层级上)。
例如:
(gdb) py-up #37 Frame 0x9420b04, for file /usr/lib/python2.6/site-packages/ gnome_sudoku/main.py, line 906, in start_game () u = UI() (gdb) py-up #40 Frame 0x948e82c, for file /usr/lib/python2.6/site-packages/ gnome_sudoku/gnome_sudoku.py, line 22, in start_game(main=<module at remote 0xb771b7f4>) main.start_game() (gdb) py-up Unable to find an older python frame这样我们位于 Python 栈的顶部。
帧编号对应于 GDB 的
backtrace
命令所显示的内容。 该命令将跳过未在执行 Python 代码的 C 帧。向下回退:
(gdb) py-down #37 Frame 0x9420b04, for file /usr/lib/python2.6/site-packages/gnome_sudoku/main.py, line 906, in start_game () u = UI() (gdb) py-down #34 (unable to read python frame information) (gdb) py-down #23 (unable to read python frame information) (gdb) py-down #19 (unable to read python frame information) (gdb) py-down #14 Frame 0x99262ac, for file /usr/lib/python2.6/site-packages/gnome_sudoku/game_selector.py, line 201, in run_swallowed_dialog (self=<NewOrSavedGameSelector(new_game_model=<gtk.ListStore at remote 0x98fab44>, puzzle=None, saved_games=[{'gsd.auto_fills': 0, 'tracking': {}, 'trackers': {}, 'notes': [], 'saved_at': 1270084485, 'game': '7 8 0 0 0 0 0 5 6 0 0 9 0 8 0 1 0 0 0 4 6 0 0 0 0 7 0 6 5 0 0 0 4 7 9 2 0 0 0 9 0 1 0 0 0 3 9 7 6 0 0 0 1 8 0 6 0 0 0 0 2 8 0 0 0 5 0 4 0 6 0 0 2 1 0 0 0 0 0 4 5\n7 8 0 0 0 0 0 5 6 0 0 9 0 8 0 1 0 0 0 4 6 0 0 0 0 7 0 6 5 1 8 3 4 7 9 2 0 0 0 9 0 1 0 0 0 3 9 7 6 0 0 0 1 8 0 6 0 0 0 0 2 8 0 0 0 5 0 4 0 6 0 0 2 1 0 0 0 0 0 4 5', 'gsd.impossible_hints': 0, 'timer.__absolute_start_time__': <float at remote 0x984b474>, 'gsd.hints': 0, 'timer.active_time': <float at remote 0x984b494>, 'timer.total_time': <float at remote 0x984b464>}], dialog=<gtk.Dialog at remote 0x98faaa4>, saved_game_model=<gtk.ListStore at remote 0x98fad24>, sudoku_maker=<SudokuMaker(terminated=False, played=[], batch_siz...(truncated) swallower.run_dialog(self.dialog) (gdb) py-down #11 Frame 0x9aead74, for file /usr/lib/python2.6/site-packages/gnome_sudoku/dialog_swallower.py, line 48, in run_dialog (self=<SwappableArea(running=<gtk.Dialog at remote 0x98faaa4>, main_page=0) at remote 0x98fa6e4>, d=<gtk.Dialog at remote 0x98faaa4>) gtk.main() (gdb) py-down #8 (unable to read python frame information) (gdb) py-down Unable to find a newer python frame现在我们位于 Python 栈的底部。
请注意在 Python 3.12 及更新的版本中,同一个 C 栈帧可被用于多个 Python 栈帧。 这意味着
py-up
和py-down
可以同时移动多个 Python 帧。 例如:(gdb) py-up #6 Frame 0x7ffff7fb62b0, for file /tmp/rec.py, line 5, in recursive_function (n=0) time.sleep(5) #6 Frame 0x7ffff7fb6240, for file /tmp/rec.py, line 7, in recursive_function (n=1) recursive_function(n-1) #6 Frame 0x7ffff7fb61d0, for file /tmp/rec.py, line 7, in recursive_function (n=2) recursive_function(n-1) #6 Frame 0x7ffff7fb6160, for file /tmp/rec.py, line 7, in recursive_function (n=3) recursive_function(n-1) #6 Frame 0x7ffff7fb60f0, for file /tmp/rec.py, line 7, in recursive_function (n=4) recursive_function(n-1) #6 Frame 0x7ffff7fb6080, for file /tmp/rec.py, line 7, in recursive_function (n=5) recursive_function(n-1) #6 Frame 0x7ffff7fb6020, for file /tmp/rec.py, line 9, in <module> () recursive_function(5) (gdb) py-up Unable to find an older python frame
py-bt
¶
py-bt
命令会尝试显示当前线程的 Python 层级回溯。例如:
(gdb) py-bt #8 (unable to read python frame information) #11 Frame 0x9aead74, for file /usr/lib/python2.6/site-packages/gnome_sudoku/dialog_swallower.py, line 48, in run_dialog (self=<SwappableArea(running=<gtk.Dialog at remote 0x98faaa4>, main_page=0) at remote 0x98fa6e4>, d=<gtk.Dialog at remote 0x98faaa4>) gtk.main() #14 Frame 0x99262ac, for file /usr/lib/python2.6/site-packages/gnome_sudoku/game_selector.py, line 201, in run_swallowed_dialog (self=<NewOrSavedGameSelector(new_game_model=<gtk.ListStore at remote 0x98fab44>, puzzle=None, saved_games=[{'gsd.auto_fills': 0, 'tracking': {}, 'trackers': {}, 'notes': [], 'saved_at': 1270084485, 'game': '7 8 0 0 0 0 0 5 6 0 0 9 0 8 0 1 0 0 0 4 6 0 0 0 0 7 0 6 5 0 0 0 4 7 9 2 0 0 0 9 0 1 0 0 0 3 9 7 6 0 0 0 1 8 0 6 0 0 0 0 2 8 0 0 0 5 0 4 0 6 0 0 2 1 0 0 0 0 0 4 5\n7 8 0 0 0 0 0 5 6 0 0 9 0 8 0 1 0 0 0 4 6 0 0 0 0 7 0 6 5 1 8 3 4 7 9 2 0 0 0 9 0 1 0 0 0 3 9 7 6 0 0 0 1 8 0 6 0 0 0 0 2 8 0 0 0 5 0 4 0 6 0 0 2 1 0 0 0 0 0 4 5', 'gsd.impossible_hints': 0, 'timer.__absolute_start_time__': <float at remote 0x984b474>, 'gsd.hints': 0, 'timer.active_time': <float at remote 0x984b494>, 'timer.total_time': <float at remote 0x984b464>}], dialog=<gtk.Dialog at remote 0x98faaa4>, saved_game_model=<gtk.ListStore at remote 0x98fad24>, sudoku_maker=<SudokuMaker(terminated=False, played=[], batch_siz...(truncated) swallower.run_dialog(self.dialog) #19 (unable to read python frame information) #23 (unable to read python frame information) #34 (unable to read python frame information) #37 Frame 0x9420b04, for file /usr/lib/python2.6/site-packages/gnome_sudoku/main.py, line 906, in start_game () u = UI() #40 Frame 0x948e82c, for file /usr/lib/python2.6/site-packages/gnome_sudoku/gnome_sudoku.py, line 22, in start_game (main=<module at remote 0xb771b7f4>) main.start_game()帧编号对应于 GDB 的
backtrace
命令所显示的内容。
py-print
¶
py-print
命令会查找一个 Python 名称并尝试打印它。 它将先在当前线程的 locals 中查找,然后是 globals,最后是 builtins:(gdb) py-print self local 'self' = <SwappableArea(running=<gtk.Dialog at remote 0x98faaa4>, main_page=0) at remote 0x98fa6e4> (gdb) py-print __name__ global '__name__' = 'gnome_sudoku.dialog_swallower' (gdb) py-print len builtin 'len' = <built-in function len> (gdb) py-print scarlet_pimpernel 'scarlet_pimpernel' not found如果当前 C 帧对应多个 Python 帧,则
py-print
只会考虑其中第一个。
py-locals
¶
py-locals
命令会在选定的线程中查找当前 Python 帧内的所有 Python 的 locals,并打印它们的表示形式:(gdb) py-locals self = <SwappableArea(running=<gtk.Dialog at remote 0x98faaa4>, main_page=0) at remote 0x98fa6e4> d = <gtk.Dialog at remote 0x98faaa4>如果当前 C 帧对应多个 Python 帧,同它们的所有 locals 都会被显示:
(gdb) py-locals Locals for recursive_function n = 0 Locals for recursive_function n = 1 Locals for recursive_function n = 2 Locals for recursive_function n = 3 Locals for recursive_function n = 4 Locals for recursive_function n = 5 Locals for <module>
与 GDB 命令一起使用¶
这些扩展命令是对 GDB 的内置命令的补充。 例如,你可以使用 py-bt
显示的帧编号与 frame
命令一起使用以转到所选线程中的特定帧,如下所示:
(gdb) py-bt
(output snipped)
#68 Frame 0xaa4560, for file Lib/test/regrtest.py, line 1548, in <module> ()
main()
(gdb) frame 68
#68 0x00000000004cd1e6 in PyEval_EvalFrameEx (f=Frame 0xaa4560, for file Lib/test/regrtest.py, line 1548, in <module> (), throwflag=0) at Python/ceval.c:2665
2665 x = call_function(&sp, oparg);
(gdb) py-list
1543 # Run the tests in a context manager that temporary changes the CWD to a
1544 # temporary and writable directory. If it's not possible to create or
1545 # change the CWD, the original CWD will be used. The original CWD is
1546 # available from test_support.SAVEDCWD.
1547 with test_support.temp_cwd(TESTCWD, quiet=True):
>1548 main()
info threads
命令将向你提供进程内的线程列表,您还可以使用 thread
命令来选择不同的线程:
(gdb) info threads
105 Thread 0x7fffefa18710 (LWP 10260) sem_wait () at ../nptl/sysdeps/unix/sysv/linux/x86_64/sem_wait.S:86
104 Thread 0x7fffdf5fe710 (LWP 10259) sem_wait () at ../nptl/sysdeps/unix/sysv/linux/x86_64/sem_wait.S:86
* 1 Thread 0x7ffff7fe2700 (LWP 10145) 0x00000038e46d73e3 in select () at ../sysdeps/unix/syscall-template.S:82
你可以使用 thread apply all COMMAND
或 (简短写法 t a a COMMAND
) 在所有线程上运行一个命令。 配合 py-bt
,这将让你在 Python 层级上查看看到每个线程在做什么:
(gdb) t a a py-bt
Thread 105 (Thread 0x7fffefa18710 (LWP 10260)):
#5 Frame 0x7fffd00019d0, for file /home/david/coding/python-svn/Lib/threading.py, line 155, in _acquire_restore (self=<_RLock(_Verbose__verbose=False, _RLock__owner=140737354016512, _RLock__block=<thread.lock at remote 0x858770>, _RLock__count=1) at remote 0xd7ff40>, count_owner=(1, 140737213728528), count=1, owner=140737213728528)
self.__block.acquire()
#8 Frame 0x7fffac001640, for file /home/david/coding/python-svn/Lib/threading.py, line 269, in wait (self=<_Condition(_Condition__lock=<_RLock(_Verbose__verbose=False, _RLock__owner=140737354016512, _RLock__block=<thread.lock at remote 0x858770>, _RLock__count=1) at remote 0xd7ff40>, acquire=<instancemethod at remote 0xd80260>, _is_owned=<instancemethod at remote 0xd80160>, _release_save=<instancemethod at remote 0xd803e0>, release=<instancemethod at remote 0xd802e0>, _acquire_restore=<instancemethod at remote 0xd7ee60>, _Verbose__verbose=False, _Condition__waiters=[]) at remote 0xd7fd10>, timeout=None, waiter=<thread.lock at remote 0x858a90>, saved_state=(1, 140737213728528))
self._acquire_restore(saved_state)
#12 Frame 0x7fffb8001a10, for file /home/david/coding/python-svn/Lib/test/lock_tests.py, line 348, in f ()
cond.wait()
#16 Frame 0x7fffb8001c40, for file /home/david/coding/python-svn/Lib/test/lock_tests.py, line 37, in task (tid=140737213728528)
f()
Thread 104 (Thread 0x7fffdf5fe710 (LWP 10259)):
#5 Frame 0x7fffe4001580, for file /home/david/coding/python-svn/Lib/threading.py, line 155, in _acquire_restore (self=<_RLock(_Verbose__verbose=False, _RLock__owner=140737354016512, _RLock__block=<thread.lock at remote 0x858770>, _RLock__count=1) at remote 0xd7ff40>, count_owner=(1, 140736940992272), count=1, owner=140736940992272)
self.__block.acquire()
#8 Frame 0x7fffc8002090, for file /home/david/coding/python-svn/Lib/threading.py, line 269, in wait (self=<_Condition(_Condition__lock=<_RLock(_Verbose__verbose=False, _RLock__owner=140737354016512, _RLock__block=<thread.lock at remote 0x858770>, _RLock__count=1) at remote 0xd7ff40>, acquire=<instancemethod at remote 0xd80260>, _is_owned=<instancemethod at remote 0xd80160>, _release_save=<instancemethod at remote 0xd803e0>, release=<instancemethod at remote 0xd802e0>, _acquire_restore=<instancemethod at remote 0xd7ee60>, _Verbose__verbose=False, _Condition__waiters=[]) at remote 0xd7fd10>, timeout=None, waiter=<thread.lock at remote 0x858860>, saved_state=(1, 140736940992272))
self._acquire_restore(saved_state)
#12 Frame 0x7fffac001c90, for file /home/david/coding/python-svn/Lib/test/lock_tests.py, line 348, in f ()
cond.wait()
#16 Frame 0x7fffac0011c0, for file /home/david/coding/python-svn/Lib/test/lock_tests.py, line 37, in task (tid=140736940992272)
f()
Thread 1 (Thread 0x7ffff7fe2700 (LWP 10145)):
#5 Frame 0xcb5380, for file /home/david/coding/python-svn/Lib/test/lock_tests.py, line 16, in _wait ()
time.sleep(0.01)
#8 Frame 0x7fffd00024a0, for file /home/david/coding/python-svn/Lib/test/lock_tests.py, line 378, in _check_notify (self=<ConditionTests(_testMethodName='test_notify', _resultForDoCleanups=<TestResult(_original_stdout=<cStringIO.StringO at remote 0xc191e0>, skipped=[], _mirrorOutput=False, testsRun=39, buffer=False, _original_stderr=<file at remote 0x7ffff7fc6340>, _stdout_buffer=<cStringIO.StringO at remote 0xc9c7f8>, _stderr_buffer=<cStringIO.StringO at remote 0xc9c790>, _moduleSetUpFailed=False, expectedFailures=[], errors=[], _previousTestClass=<type at remote 0x928310>, unexpectedSuccesses=[], failures=[], shouldStop=False, failfast=False) at remote 0xc185a0>, _threads=(0,), _cleanups=[], _type_equality_funcs={<type at remote 0x7eba00>: <instancemethod at remote 0xd750e0>, <type at remote 0x7e7820>: <instancemethod at remote 0xd75160>, <type at remote 0x7e30e0>: <instancemethod at remote 0xd75060>, <type at remote 0x7e7d20>: <instancemethod at remote 0xd751e0>, <type at remote 0x7f19e0...(truncated)
_wait()