1 # Python hooks for gdb for debugging GCC
2 # Copyright (C) 2013-2020 Free Software Foundation, Inc.
4 # Contributed by David Malcolm <dmalcolm@redhat.com>
6 # This file is part of GCC.
8 # GCC is free software; you can redistribute it and/or modify it under
9 # the terms of the GNU General Public License as published by the Free
10 # Software Foundation; either version 3, or (at your option) any later
13 # GCC is distributed in the hope that it will be useful, but WITHOUT
14 # ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
15 # FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
18 # You should have received a copy of the GNU General Public License
19 # along with GCC; see the file COPYING3. If not see
20 # <http://www.gnu.org/licenses/>.
23 Enabling the debugging hooks
24 ----------------------------
25 gcc/configure (from configure.ac) generates a .gdbinit within the "gcc"
26 subdirectory of the build directory, and when run by gdb, this imports
27 gcc/gdbhooks.py from the source directory, injecting useful Python code
30 You may see a message from gdb of the form:
31 "path-to-build/gcc/.gdbinit" auto-loading has been declined by your `auto-load safe-path'
32 as a protection against untrustworthy python scripts. See
33 http://sourceware.org/gdb/onlinedocs/gdb/Auto_002dloading-safe-path.html
35 The fix is to mark the paths of the build/gcc directory as trustworthy.
36 An easy way to do so is by adding the following to your ~/.gdbinit script:
37 add-auto-load-safe-path /absolute/path/to/build/gcc
38 for the build directories for your various checkouts of gcc.
40 If it's working, you should see the message:
41 Successfully loaded GDB hooks for GCC
44 During development, I've been manually invoking the code in this way, as a
45 precanned way of printing a variety of different kinds of value:
48 -ex "break expand_gimple_stmt" \
54 Examples of output using the pretty-printers
55 --------------------------------------------
56 Pointer values are generally shown in the form:
57 <type address extra_info>
59 For example, an opt_pass* might appear as:
61 $2 = <opt_pass* 0x188b600 "expand"(170)>
63 The name of the pass is given ("expand"), together with the
66 Note that you can dereference the pointer in the normal way:
68 $4 = {type = RTL_PASS, name = 0x120a312 "expand",
71 and you can suppress pretty-printers using /r (for "raw"):
73 $3 = (opt_pass *) 0x188b600
75 Basic blocks are shown with their index in parentheses, apart from the
76 CFG's entry and exit blocks, which are given as "ENTRY" and "EXIT":
78 $9 = <basic_block 0x7ffff041f1a0 (2)>
79 (gdb) p cfun->cfg->x_entry_block_ptr
80 $10 = <basic_block 0x7ffff041f0d0 (ENTRY)>
81 (gdb) p cfun->cfg->x_exit_block_ptr
82 $11 = <basic_block 0x7ffff041f138 (EXIT)>
84 CFG edges are shown with the src and dest blocks given in parentheses:
86 $1 = <edge 0x7ffff043f118 (ENTRY -> 6)>
88 Tree nodes are printed using Python code that emulates print_node_brief,
89 running in gdb, rather than in the inferior:
91 $1 = <function_decl 0x7ffff0420b00 foo>
92 For usability, the type is printed first (e.g. "function_decl"), rather
95 RTL expressions use a kludge: they are pretty-printed by injecting
96 calls into print-rtl.c into the inferior:
97 Value returned is $1 = (note 9 8 10 [bb 3] NOTE_INSN_BASIC_BLOCK)
99 $2 = (note 9 8 10 [bb 3] NOTE_INSN_BASIC_BLOCK)
101 $3 = (rtx_def *) 0x7ffff043e140
102 This won't work for coredumps, and probably in other circumstances, but
103 it's a quick way of getting lots of debuggability quickly.
105 Callgraph nodes are printed with the name of the function decl, if
108 #5 0x00000000006c288a in expand_function (node=<cgraph_node* 0x7ffff0312720 "foo"/12345>) at ../../src/gcc/cgraphunit.c:1594
109 1594 execute_pass_list (g->get_passes ()->all_passes);
111 $1 = <cgraph_node* 0x7ffff0312720 "foo"/12345>
113 Similarly for symtab_node and varpool_node classes.
115 Cgraph edges are printed with the name of caller and callee:
116 (gdb) p this->callees
117 $4 = <cgraph_edge* 0x7fffe25aa000 (<cgraph_node * 0x7fffe62b22e0 "_GLOBAL__sub_I__ZN5Pooma5pinfoE"/19660> -> <cgraph_node * 0x7fffe620f730 "__static_initialization_and_destruction_1"/19575>)>
119 IPA reference follow very similar format:
120 (gdb) Value returned is $5 = <ipa_ref* 0x7fffefcb80c8 (<symtab_node * 0x7ffff562f000 "__dt_base "/875> -> <symtab_node * 0x7fffe795f000 "_ZTVN6Smarts8RunnableE"/16056>:IPA_REF_ADDR)>
122 vec<> pointers are printed as the address followed by the elements in
123 braces. Here's a length 2 vec:
125 $18 = 0x7ffff0428b68 = {<edge 0x7ffff044d380 (3 -> 5)>, <edge 0x7ffff044d3b8 (4 -> 5)>}
127 and here's a length 1 vec:
129 $19 = 0x7ffff0428bb8 = {<edge 0x7ffff044d3f0 (5 -> EXIT)>}
131 You cannot yet use array notation [] to access the elements within the
132 vector: attempting to do so instead gives you the vec itself (for vec[0]),
133 or a (probably) invalid cast to vec<> for the memory after the vec (for
136 Instead (for now) you must access m_vecdata:
137 (gdb) p bb->preds->m_vecdata[0]
138 $20 = <edge 0x7ffff044d380 (3 -> 5)>
139 (gdb) p bb->preds->m_vecdata[1]
140 $21 = <edge 0x7ffff044d3b8 (4 -> 5)>
151 # Convert "enum tree_code" (tree.def and tree.h) to a dict:
152 tree_code_dict
= gdb
.types
.make_enum_dict(gdb
.lookup_type('enum tree_code'))
154 # ...and look up specific values for use later:
155 IDENTIFIER_NODE
= tree_code_dict
['IDENTIFIER_NODE']
156 TYPE_DECL
= tree_code_dict
['TYPE_DECL']
157 SSA_NAME
= tree_code_dict
['SSA_NAME']
159 # Similarly for "enum tree_code_class" (tree.h):
160 tree_code_class_dict
= gdb
.types
.make_enum_dict(gdb
.lookup_type('enum tree_code_class'))
161 tcc_type
= tree_code_class_dict
['tcc_type']
162 tcc_declaration
= tree_code_class_dict
['tcc_declaration']
164 # Python3 has int() with arbitrary precision (bignum). Python2 int() is 32-bit
165 # on 32-bit hosts but remote targets may have 64-bit pointers there; Python2
166 # long() is always 64-bit but Python3 no longer has anything named long.
168 return long(gdbval
) if sys
.version_info
.major
== 2 else int(gdbval
)
172 Wrapper around a gdb.Value for a tree, with various methods
173 corresponding to macros in gcc/tree.h
175 def __init__(self
, gdbval
):
178 def is_nonnull(self
):
179 return intptr(self
.gdbval
)
183 Get gdb.Value corresponding to TREE_CODE (self)
185 #define TREE_CODE(NODE) ((enum tree_code) (NODE)->base.code)
187 return self
.gdbval
['base']['code']
191 Get Tree instance corresponding to DECL_NAME (self)
193 return Tree(self
.gdbval
['decl_minimal']['name'])
197 Get Tree instance corresponding to result of TYPE_NAME (self)
199 return Tree(self
.gdbval
['type_common']['name'])
201 def IDENTIFIER_POINTER(self
):
203 Get str correspoinding to result of IDENTIFIER_NODE (self)
205 return self
.gdbval
['identifier']['id']['str'].string()
210 def __init__ (self
, gdbval
):
212 self
.node
= Tree(gdbval
)
214 def to_string (self
):
215 # like gcc/print-tree.c:print_node_brief
216 # #define TREE_CODE(NODE) ((enum tree_code) (NODE)->base.code)
217 # tree_code_name[(int) TREE_CODE (node)])
218 if intptr(self
.gdbval
) == 0:
221 val_TREE_CODE
= self
.node
.TREE_CODE()
223 # extern const enum tree_code_class tree_code_type[];
224 # #define TREE_CODE_CLASS(CODE) tree_code_type[(int) (CODE)]
226 if val_TREE_CODE
== 0xa5a5:
227 return '<ggc_freed 0x%x>' % intptr(self
.gdbval
)
229 val_tree_code_type
= gdb
.parse_and_eval('tree_code_type')
230 val_tclass
= val_tree_code_type
[val_TREE_CODE
]
232 val_tree_code_name
= gdb
.parse_and_eval('tree_code_name')
233 val_code_name
= val_tree_code_name
[intptr(val_TREE_CODE
)]
234 #print(val_code_name.string())
237 result
= '<%s 0x%x' % (val_code_name
.string(), intptr(self
.gdbval
))
239 return '<tree 0x%x>' % intptr(self
.gdbval
)
240 if intptr(val_tclass
) == tcc_declaration
:
241 tree_DECL_NAME
= self
.node
.DECL_NAME()
242 if tree_DECL_NAME
.is_nonnull():
243 result
+= ' %s' % tree_DECL_NAME
.IDENTIFIER_POINTER()
245 pass # TODO: labels etc
246 elif intptr(val_tclass
) == tcc_type
:
247 tree_TYPE_NAME
= Tree(self
.gdbval
['type_common']['name'])
248 if tree_TYPE_NAME
.is_nonnull():
249 if tree_TYPE_NAME
.TREE_CODE() == IDENTIFIER_NODE
:
250 result
+= ' %s' % tree_TYPE_NAME
.IDENTIFIER_POINTER()
251 elif tree_TYPE_NAME
.TREE_CODE() == TYPE_DECL
:
252 if tree_TYPE_NAME
.DECL_NAME().is_nonnull():
253 result
+= ' %s' % tree_TYPE_NAME
.DECL_NAME().IDENTIFIER_POINTER()
254 if self
.node
.TREE_CODE() == IDENTIFIER_NODE
:
255 result
+= ' %s' % self
.node
.IDENTIFIER_POINTER()
256 elif self
.node
.TREE_CODE() == SSA_NAME
:
257 result
+= ' %u' % self
.gdbval
['base']['u']['version']
262 ######################################################################
263 # Callgraph pretty-printers
264 ######################################################################
266 class SymtabNodePrinter
:
267 def __init__(self
, gdbval
):
270 def to_string (self
):
271 t
= str(self
.gdbval
.type)
272 result
= '<%s 0x%x' % (t
, intptr(self
.gdbval
))
273 if intptr(self
.gdbval
):
274 # symtab_node::name calls lang_hooks.decl_printable_name
275 # default implementation (lhd_decl_printable_name) is:
276 # return IDENTIFIER_POINTER (DECL_NAME (decl));
277 tree_decl
= Tree(self
.gdbval
['decl'])
278 result
+= ' "%s"/%d' % (tree_decl
.DECL_NAME().IDENTIFIER_POINTER(), self
.gdbval
['order'])
282 class CgraphEdgePrinter
:
283 def __init__(self
, gdbval
):
286 def to_string (self
):
287 result
= '<cgraph_edge* 0x%x' % intptr(self
.gdbval
)
288 if intptr(self
.gdbval
):
289 src
= SymtabNodePrinter(self
.gdbval
['caller']).to_string()
290 dest
= SymtabNodePrinter(self
.gdbval
['callee']).to_string()
291 result
+= ' (%s -> %s)' % (src
, dest
)
295 class IpaReferencePrinter
:
296 def __init__(self
, gdbval
):
299 def to_string (self
):
300 result
= '<ipa_ref* 0x%x' % intptr(self
.gdbval
)
301 if intptr(self
.gdbval
):
302 src
= SymtabNodePrinter(self
.gdbval
['referring']).to_string()
303 dest
= SymtabNodePrinter(self
.gdbval
['referred']).to_string()
304 result
+= ' (%s -> %s:%s)' % (src
, dest
, str(self
.gdbval
['use']))
308 ######################################################################
309 # Dwarf DIE pretty-printers
310 ######################################################################
312 class DWDieRefPrinter
:
313 def __init__(self
, gdbval
):
316 def to_string (self
):
317 if intptr(self
.gdbval
) == 0:
318 return '<dw_die_ref 0x0>'
319 result
= '<dw_die_ref 0x%x' % intptr(self
.gdbval
)
320 result
+= ' %s' % self
.gdbval
['die_tag']
321 if intptr(self
.gdbval
['die_parent']) != 0:
322 result
+= ' <parent=0x%x %s>' % (intptr(self
.gdbval
['die_parent']),
323 self
.gdbval
['die_parent']['die_tag'])
328 ######################################################################
331 def __init__(self
, gdbval
):
334 def to_string (self
):
335 if intptr(self
.gdbval
) == 0:
336 return '<gimple 0x0>'
337 val_gimple_code
= self
.gdbval
['code']
338 val_gimple_code_name
= gdb
.parse_and_eval('gimple_code_name')
339 val_code_name
= val_gimple_code_name
[intptr(val_gimple_code
)]
340 result
= '<%s 0x%x' % (val_code_name
.string(),
345 ######################################################################
346 # CFG pretty-printers
347 ######################################################################
349 def bb_index_to_str(index
):
357 class BasicBlockPrinter
:
358 def __init__(self
, gdbval
):
361 def to_string (self
):
362 result
= '<basic_block 0x%x' % intptr(self
.gdbval
)
363 if intptr(self
.gdbval
):
364 result
+= ' (%s)' % bb_index_to_str(intptr(self
.gdbval
['index']))
368 class CfgEdgePrinter
:
369 def __init__(self
, gdbval
):
372 def to_string (self
):
373 result
= '<edge 0x%x' % intptr(self
.gdbval
)
374 if intptr(self
.gdbval
):
375 src
= bb_index_to_str(intptr(self
.gdbval
['src']['index']))
376 dest
= bb_index_to_str(intptr(self
.gdbval
['dest']['index']))
377 result
+= ' (%s -> %s)' % (src
, dest
)
381 ######################################################################
384 def __init__(self
, gdbval
):
388 return self
.gdbval
['code']
390 def GET_RTX_LENGTH(code
):
391 val_rtx_length
= gdb
.parse_and_eval('rtx_length')
392 return intptr(val_rtx_length
[code
])
394 def GET_RTX_NAME(code
):
395 val_rtx_name
= gdb
.parse_and_eval('rtx_name')
396 return val_rtx_name
[code
].string()
398 def GET_RTX_FORMAT(code
):
399 val_rtx_format
= gdb
.parse_and_eval('rtx_format')
400 return val_rtx_format
[code
].string()
403 def __init__(self
, gdbval
):
405 self
.rtx
= Rtx(gdbval
)
407 def to_string (self
):
409 For now, a cheap kludge: invoke the inferior's print
410 function to get a string to use the user, and return an empty
413 # We use print_inline_rtx to avoid a trailing newline
414 gdb
.execute('call print_inline_rtx (stderr, (const_rtx) %s, 0)'
415 % intptr(self
.gdbval
))
418 # or by hand; based on gcc/print-rtl.c:print_rtx
419 result
= ('<rtx_def 0x%x'
420 % (intptr(self
.gdbval
)))
421 code
= self
.rtx
.GET_CODE()
422 result
+= ' (%s' % GET_RTX_NAME(code
)
423 format_
= GET_RTX_FORMAT(code
)
424 for i
in range(GET_RTX_LENGTH(code
)):
429 ######################################################################
432 def __init__(self
, gdbval
):
435 def to_string (self
):
436 result
= '<opt_pass* 0x%x' % intptr(self
.gdbval
)
437 if intptr(self
.gdbval
):
438 result
+= (' "%s"(%i)'
439 % (self
.gdbval
['name'].string(),
440 intptr(self
.gdbval
['static_pass_number'])))
444 ######################################################################
447 # -ex "up" -ex "p bb->preds"
448 def __init__(self
, gdbval
):
451 def display_hint (self
):
454 def to_string (self
):
455 # A trivial implementation; prettyprinting the contents is done
456 # by gdb calling the "children" method below.
457 return '0x%x' % intptr(self
.gdbval
)
460 if intptr(self
.gdbval
) == 0:
462 m_vecpfx
= self
.gdbval
['m_vecpfx']
463 m_num
= m_vecpfx
['m_num']
464 m_vecdata
= self
.gdbval
['m_vecdata']
465 for i
in range(m_num
):
466 yield ('[%d]' % i
, m_vecdata
[i
])
468 ######################################################################
470 class MachineModePrinter
:
471 def __init__(self
, gdbval
):
474 def to_string (self
):
475 name
= str(self
.gdbval
['m_mode'])
476 return name
[2:] if name
.startswith('E_') else name
478 ######################################################################
480 class OptMachineModePrinter
:
481 def __init__(self
, gdbval
):
484 def to_string (self
):
485 name
= str(self
.gdbval
['m_mode'])
486 if name
== 'E_VOIDmode':
488 return name
[2:] if name
.startswith('E_') else name
490 ######################################################################
496 class GdbSubprinter(gdb
.printing
.SubPrettyPrinter
):
497 def __init__(self
, name
, class_
):
498 super(GdbSubprinter
, self
).__init
__(name
)
501 def handles_type(self
, str_type
):
502 raise NotImplementedError
504 class GdbSubprinterTypeList(GdbSubprinter
):
506 A GdbSubprinter that handles a specific set of types
508 def __init__(self
, str_types
, name
, class_
):
509 super(GdbSubprinterTypeList
, self
).__init
__(name
, class_
)
510 self
.str_types
= frozenset(str_types
)
512 def handles_type(self
, str_type
):
513 return str_type
in self
.str_types
515 class GdbSubprinterRegex(GdbSubprinter
):
517 A GdbSubprinter that handles types that match a regex
519 def __init__(self
, regex
, name
, class_
):
520 super(GdbSubprinterRegex
, self
).__init
__(name
, class_
)
521 self
.regex
= re
.compile(regex
)
523 def handles_type(self
, str_type
):
524 return self
.regex
.match(str_type
)
526 class GdbPrettyPrinters(gdb
.printing
.PrettyPrinter
):
527 def __init__(self
, name
):
528 super(GdbPrettyPrinters
, self
).__init
__(name
, [])
530 def add_printer_for_types(self
, types
, name
, class_
):
531 self
.subprinters
.append(GdbSubprinterTypeList(types
, name
, class_
))
533 def add_printer_for_regex(self
, regex
, name
, class_
):
534 self
.subprinters
.append(GdbSubprinterRegex(regex
, name
, class_
))
536 def __call__(self
, gdbval
):
537 type_
= gdbval
.type.unqualified()
538 str_type
= str(type_
)
539 for printer
in self
.subprinters
:
540 if printer
.enabled
and printer
.handles_type(str_type
):
541 return printer
.class_(gdbval
)
543 # Couldn't find a pretty printer (or it was disabled):
547 def build_pretty_printer():
548 pp
= GdbPrettyPrinters('gcc')
549 pp
.add_printer_for_types(['tree', 'const_tree'],
551 pp
.add_printer_for_types(['cgraph_node *', 'varpool_node *', 'symtab_node *'],
552 'symtab_node', SymtabNodePrinter
)
553 pp
.add_printer_for_types(['cgraph_edge *'],
554 'cgraph_edge', CgraphEdgePrinter
)
555 pp
.add_printer_for_types(['ipa_ref *'],
556 'ipa_ref', IpaReferencePrinter
)
557 pp
.add_printer_for_types(['dw_die_ref'],
558 'dw_die_ref', DWDieRefPrinter
)
559 pp
.add_printer_for_types(['gimple', 'gimple *',
561 # Keep this in the same order as gimple.def:
562 'gimple_cond', 'const_gimple_cond',
563 'gimple_statement_cond *',
564 'gimple_debug', 'const_gimple_debug',
565 'gimple_statement_debug *',
566 'gimple_label', 'const_gimple_label',
567 'gimple_statement_label *',
568 'gimple_switch', 'const_gimple_switch',
569 'gimple_statement_switch *',
570 'gimple_assign', 'const_gimple_assign',
571 'gimple_statement_assign *',
572 'gimple_bind', 'const_gimple_bind',
573 'gimple_statement_bind *',
574 'gimple_phi', 'const_gimple_phi',
575 'gimple_statement_phi *'],
579 pp
.add_printer_for_types(['basic_block', 'basic_block_def *'],
582 pp
.add_printer_for_types(['edge', 'edge_def *'],
585 pp
.add_printer_for_types(['rtx_def *'], 'rtx_def', RtxPrinter
)
586 pp
.add_printer_for_types(['opt_pass *'], 'opt_pass', PassPrinter
)
588 pp
.add_printer_for_regex(r
'vec<(\S+), (\S+), (\S+)> \*',
592 pp
.add_printer_for_regex(r
'opt_mode<(\S+)>',
593 'opt_mode', OptMachineModePrinter
)
594 pp
.add_printer_for_types(['opt_scalar_int_mode',
595 'opt_scalar_float_mode',
597 'opt_mode', OptMachineModePrinter
)
598 pp
.add_printer_for_regex(r
'pod_mode<(\S+)>',
599 'pod_mode', MachineModePrinter
)
600 pp
.add_printer_for_types(['scalar_int_mode_pod',
602 'pod_mode', MachineModePrinter
)
603 for mode
in ('scalar_mode', 'scalar_int_mode', 'scalar_float_mode',
605 pp
.add_printer_for_types([mode
], mode
, MachineModePrinter
)
609 gdb
.printing
.register_pretty_printer(
610 gdb
.current_objfile(),
611 build_pretty_printer(),
614 def find_gcc_source_dir():
615 # Use location of global "g" to locate the source tree
616 sym_g
= gdb
.lookup_global_symbol('g')
617 path
= sym_g
.symtab
.filename
# e.g. '../../src/gcc/context.h'
618 srcdir
= os
.path
.split(path
)[0] # e.g. '../../src/gcc'
622 """Parse passes.def, gathering a list of pass class names"""
624 srcdir
= find_gcc_source_dir()
626 with
open(os
.path
.join(srcdir
, 'passes.def')) as f
:
628 m
= re
.match('\s*NEXT_PASS \(([^,]+).*\);', line
)
630 self
.names
.append(m
.group(1))
632 class BreakOnPass(gdb
.Command
):
634 A custom command for putting breakpoints on the execute hook of passes.
635 This is largely a workaround for issues with tab-completion in gdb when
636 setting breakpoints on methods on classes within anonymous namespaces.
638 Example of use: putting a breakpoint on "final"
640 Press <TAB>; it autocompletes to "pass_":
641 (gdb) break-on-pass pass_
643 Display all 219 possibilities? (y or n)
644 Press "n"; then type "f":
645 (gdb) break-on-pass pass_f
646 Press <TAB> to autocomplete to pass classnames beginning with "pass_f":
647 pass_fast_rtl_dce pass_fold_builtins
648 pass_feedback_split_functions pass_forwprop
650 pass_fixup_cfg pass_free_cfg
651 Type "in<TAB>" to complete to "pass_final":
652 (gdb) break-on-pass pass_final
654 Breakpoint 6 at 0x8396ba: file ../../src/gcc/final.c, line 4526.
655 ...and we have a breakpoint set; continue execution:
658 Breakpoint 6, (anonymous namespace)::pass_final::execute (this=0x17fb990) at ../../src/gcc/final.c:4526
659 4526 virtual unsigned int execute (function *) { return rest_of_handle_final (); }
662 gdb
.Command
.__init
__(self
, 'break-on-pass', gdb
.COMMAND_BREAKPOINTS
)
663 self
.pass_names
= None
665 def complete(self
, text
, word
):
666 # Lazily load pass names:
667 if not self
.pass_names
:
668 self
.pass_names
= PassNames()
671 for name
in sorted(self
.pass_names
.names
)
672 if name
.startswith(text
)]
674 def invoke(self
, arg
, from_tty
):
675 sym
= '(anonymous namespace)::%s::execute' % arg
676 breakpoint
= gdb
.Breakpoint(sym
)
680 class DumpFn(gdb
.Command
):
682 A custom command to dump a gimple/rtl function to file. By default, it
683 dumps the current function using 0 as dump_flags, but the function and flags
684 can also be specified. If /f <file> are passed as the first two arguments,
685 the dump is written to that file. Otherwise, a temporary file is created
686 and opened in the text editor specified in the EDITOR environment variable.
690 (gdb) dump-fn /f foo.1.txt
691 (gdb) dump-fn cfun->decl
692 (gdb) dump-fn /f foo.1.txt cfun->decl
693 (gdb) dump-fn cfun->decl 0
694 (gdb) dump-fn cfun->decl dump_flags
698 gdb
.Command
.__init
__(self
, 'dump-fn', gdb
.COMMAND_USER
)
700 def invoke(self
, arg
, from_tty
):
701 # Parse args, check number of args
702 args
= gdb
.string_to_argv(arg
)
703 if len(args
) >= 1 and args
[0] == "/f":
705 print ("Missing file argument")
711 editor
= os
.getenv("EDITOR", "")
713 print ("EDITOR environment variable not defined")
717 if len(args
) - base_arg
> 2:
718 print ("Too many arguments")
722 if len(args
) - base_arg
>= 1:
723 funcname
= args
[base_arg
]
724 printfuncname
= "function %s" % funcname
726 funcname
= "cfun ? cfun->decl : current_function_decl"
727 printfuncname
= "current function"
728 func
= gdb
.parse_and_eval(funcname
)
730 print ("Could not find %s" % printfuncname
)
732 func
= "(tree)%u" % func
735 if len(args
) - base_arg
>= 2:
736 flags
= gdb
.parse_and_eval(args
[base_arg
+ 1])
740 # Get tempory file, if necessary
742 f
= tempfile
.NamedTemporaryFile(delete
=False, suffix
=".txt")
747 fp
= gdb
.parse_and_eval("(FILE *) fopen (\"%s\", \"w\")" % filename
)
749 print ("Could not open file: %s" % filename
)
752 # Dump function to file
753 _
= gdb
.parse_and_eval("dump_function_to_file (%s, %s, %u)" %
757 ret
= gdb
.parse_and_eval("(int) fclose (%s)" % fp
)
759 print ("Could not close file: %s" % filename
)
762 # Open file in editor, if necessary
764 os
.system("( %s \"%s\"; rm \"%s\" ) &" %
765 (editor
, filename
, filename
))
769 class DotFn(gdb
.Command
):
771 A custom command to show a gimple/rtl function control flow graph.
772 By default, it show the current function, but the function can also be
779 (gdb) dot-fn cfun dump_flags
782 gdb
.Command
.__init
__(self
, 'dot-fn', gdb
.COMMAND_USER
)
784 def invoke(self
, arg
, from_tty
):
785 # Parse args, check number of args
786 args
= gdb
.string_to_argv(arg
)
788 print("Too many arguments")
794 printfuncname
= "function %s" % funcname
797 printfuncname
= "current function"
798 func
= gdb
.parse_and_eval(funcname
)
800 print("Could not find %s" % printfuncname
)
802 func
= "(struct function *)%s" % func
806 flags
= gdb
.parse_and_eval(args
[1])
811 f
= tempfile
.NamedTemporaryFile(delete
=False)
814 # Close and reopen temp file to get C FILE*
816 fp
= gdb
.parse_and_eval("(FILE *) fopen (\"%s\", \"w\")" % filename
)
818 print("Cannot open temp file")
821 # Write graph to temp file
822 _
= gdb
.parse_and_eval("start_graph_dump (%s, \"<debug>\")" % fp
)
823 _
= gdb
.parse_and_eval("print_graph_cfg (%s, %s, %u)"
825 _
= gdb
.parse_and_eval("end_graph_dump (%s)" % fp
)
828 ret
= gdb
.parse_and_eval("(int) fclose (%s)" % fp
)
830 print("Could not close temp file: %s" % filename
)
833 # Show graph in temp file
834 os
.system("( dot -Tx11 \"%s\"; rm \"%s\" ) &" % (filename
, filename
))
838 print('Successfully loaded GDB hooks for GCC')