1 /* dwarf.c -- Get file/line information from DWARF for backtraces.
2 Copyright (C) 2012-2015 Free Software Foundation, Inc.
3 Written by Ian Lance Taylor, Google.
5 Redistribution and use in source and binary forms, with or without
6 modification, are permitted provided that the following conditions are
9 (1) Redistributions of source code must retain the above copyright
10 notice, this list of conditions and the following disclaimer.
12 (2) Redistributions in binary form must reproduce the above copyright
13 notice, this list of conditions and the following disclaimer in
14 the documentation and/or other materials provided with the
17 (3) The name of the author may not be used to
18 endorse or promote products derived from this software without
19 specific prior written permission.
21 THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
22 IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
23 WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
24 DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT,
25 INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
26 (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
27 SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
28 HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
29 STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING
30 IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
31 POSSIBILITY OF SUCH DAMAGE. */
38 #include <sys/types.h>
41 #include "filenames.h"
43 #include "backtrace.h"
46 #if !defined(HAVE_DECL_STRNLEN) || !HAVE_DECL_STRNLEN
48 /* If strnlen is not declared, provide our own version. */
51 xstrnlen (const char *s
, size_t maxlen
)
55 for (i
= 0; i
< maxlen
; ++i
)
61 #define strnlen xstrnlen
65 /* A buffer to read DWARF info. */
69 /* Buffer name for error messages. */
71 /* Start of the buffer. */
72 const unsigned char *start
;
73 /* Next byte to read. */
74 const unsigned char *buf
;
75 /* The number of bytes remaining. */
77 /* Whether the data is big-endian. */
79 /* Error callback routine. */
80 backtrace_error_callback error_callback
;
81 /* Data for error_callback. */
83 /* Non-zero if we've reported an underflow error. */
84 int reported_underflow
;
87 /* A single attribute in a DWARF abbreviation. */
91 /* The attribute name. */
92 enum dwarf_attribute name
;
93 /* The attribute form. */
97 /* A single DWARF abbreviation. */
101 /* The abbrev code--the number used to refer to the abbrev. */
105 /* Non-zero if this abbrev has child entries. */
107 /* The number of attributes. */
109 /* The attributes. */
113 /* The DWARF abbreviations for a compilation unit. This structure
114 only exists while reading the compilation unit. Most DWARF readers
115 seem to a hash table to map abbrev ID's to abbrev entries.
116 However, we primarily care about GCC, and GCC simply issues ID's in
117 numerical order starting at 1. So we simply keep a sorted vector,
118 and try to just look up the code. */
122 /* The number of abbrevs in the vector. */
124 /* The abbrevs, sorted by the code field. */
125 struct abbrev
*abbrevs
;
128 /* The different kinds of attribute values. */
130 enum attr_val_encoding
134 /* A unsigned integer. */
136 /* A sigd integer. */
140 /* An offset to other data in the containing unit. */
142 /* An offset to other data within the .dwarf_info section. */
144 /* An offset to data in some other section. */
145 ATTR_VAL_REF_SECTION
,
146 /* A type signature. */
148 /* A block of data (not represented). */
150 /* An expression (not represented). */
154 /* An attribute value. */
158 /* How the value is stored in the field u. */
159 enum attr_val_encoding encoding
;
162 /* ATTR_VAL_ADDRESS, ATTR_VAL_UINT, ATTR_VAL_REF*. */
166 /* ATTR_VAL_STRING. */
168 /* ATTR_VAL_BLOCK not stored. */
172 /* The line number program header. */
176 /* The version of the line number information. */
178 /* The minimum instruction length. */
179 unsigned int min_insn_len
;
180 /* The maximum number of ops per instruction. */
181 unsigned int max_ops_per_insn
;
182 /* The line base for special opcodes. */
184 /* The line range for special opcodes. */
185 unsigned int line_range
;
186 /* The opcode base--the first special opcode. */
187 unsigned int opcode_base
;
188 /* Opcode lengths, indexed by opcode - 1. */
189 const unsigned char *opcode_lengths
;
190 /* The number of directory entries. */
192 /* The directory entries. */
194 /* The number of filenames. */
195 size_t filenames_count
;
197 const char **filenames
;
200 /* Map a single PC value to a file/line. We will keep a vector of
201 these sorted by PC value. Each file/line will be correct from the
202 PC up to the PC of the next entry if there is one. We allocate one
203 extra entry at the end so that we can use bsearch. */
209 /* File name. Many entries in the array are expected to point to
210 the same file name. */
211 const char *filename
;
214 /* Index of the object in the original array read from the DWARF
215 section, before it has been sorted. The index makes it possible
216 to use Quicksort and maintain stability. */
220 /* A growable vector of line number information. This is used while
221 reading the line numbers. */
225 /* Memory. This is an array of struct line. */
226 struct backtrace_vector vec
;
227 /* Number of valid mappings. */
231 /* A function described in the debug info. */
235 /* The name of the function. */
237 /* If this is an inlined function, the filename of the call
239 const char *caller_filename
;
240 /* If this is an inlined function, the line number of the call
243 /* Map PC ranges to inlined functions. */
244 struct function_addrs
*function_addrs
;
245 size_t function_addrs_count
;
248 /* An address range for a function. This maps a PC value to a
249 specific function. */
251 struct function_addrs
253 /* Range is LOW <= PC < HIGH. */
256 /* Function for this address range. */
257 struct function
*function
;
260 /* A growable vector of function address ranges. */
262 struct function_vector
264 /* Memory. This is an array of struct function_addrs. */
265 struct backtrace_vector vec
;
266 /* Number of address ranges present. */
270 /* A DWARF compilation unit. This only holds the information we need
271 to map a PC to a file and line. */
275 /* The first entry for this compilation unit. */
276 const unsigned char *unit_data
;
277 /* The length of the data for this compilation unit. */
278 size_t unit_data_len
;
279 /* The offset of UNIT_DATA from the start of the information for
280 this compilation unit. */
281 size_t unit_data_offset
;
284 /* Whether unit is DWARF64. */
288 /* Offset into line number information. */
290 /* Primary source file. */
291 const char *filename
;
292 /* Compilation command working directory. */
293 const char *comp_dir
;
294 /* Absolute file name, only set if needed. */
295 const char *abs_filename
;
296 /* The abbreviations for this unit. */
297 struct abbrevs abbrevs
;
299 /* The fields above this point are read in during initialization and
300 may be accessed freely. The fields below this point are read in
301 as needed, and therefore require care, as different threads may
302 try to initialize them simultaneously. */
304 /* PC to line number mapping. This is NULL if the values have not
305 been read. This is (struct line *) -1 if there was an error
306 reading the values. */
308 /* Number of entries in lines. */
310 /* PC ranges to function. */
311 struct function_addrs
*function_addrs
;
312 size_t function_addrs_count
;
315 /* An address range for a compilation unit. This maps a PC value to a
316 specific compilation unit. Note that we invert the representation
317 in DWARF: instead of listing the units and attaching a list of
318 ranges, we list the ranges and have each one point to the unit.
319 This lets us do a binary search to find the unit. */
323 /* Range is LOW <= PC < HIGH. */
326 /* Compilation unit for this address range. */
330 /* A growable vector of compilation unit address ranges. */
332 struct unit_addrs_vector
334 /* Memory. This is an array of struct unit_addrs. */
335 struct backtrace_vector vec
;
336 /* Number of address ranges present. */
340 /* The information we need to map a PC to a file and line. */
344 /* The data for the next file we know about. */
345 struct dwarf_data
*next
;
346 /* The base address for this file. */
347 uintptr_t base_address
;
348 /* A sorted list of address ranges. */
349 struct unit_addrs
*addrs
;
350 /* Number of address ranges in list. */
352 /* The unparsed .debug_info section. */
353 const unsigned char *dwarf_info
;
354 size_t dwarf_info_size
;
355 /* The unparsed .debug_line section. */
356 const unsigned char *dwarf_line
;
357 size_t dwarf_line_size
;
358 /* The unparsed .debug_ranges section. */
359 const unsigned char *dwarf_ranges
;
360 size_t dwarf_ranges_size
;
361 /* The unparsed .debug_str section. */
362 const unsigned char *dwarf_str
;
363 size_t dwarf_str_size
;
364 /* Whether the data is big-endian or not. */
366 /* A vector used for function addresses. We keep this here so that
367 we can grow the vector as we read more functions. */
368 struct function_vector fvec
;
371 /* Report an error for a DWARF buffer. */
374 dwarf_buf_error (struct dwarf_buf
*buf
, const char *msg
)
378 snprintf (b
, sizeof b
, "%s in %s at %d",
379 msg
, buf
->name
, (int) (buf
->buf
- buf
->start
));
380 buf
->error_callback (buf
->data
, b
, 0);
383 /* Require at least COUNT bytes in BUF. Return 1 if all is well, 0 on
387 require (struct dwarf_buf
*buf
, size_t count
)
389 if (buf
->left
>= count
)
392 if (!buf
->reported_underflow
)
394 dwarf_buf_error (buf
, "DWARF underflow");
395 buf
->reported_underflow
= 1;
401 /* Advance COUNT bytes in BUF. Return 1 if all is well, 0 on
405 advance (struct dwarf_buf
*buf
, size_t count
)
407 if (!require (buf
, count
))
414 /* Read one byte from BUF and advance 1 byte. */
417 read_byte (struct dwarf_buf
*buf
)
419 const unsigned char *p
= buf
->buf
;
421 if (!advance (buf
, 1))
426 /* Read a signed char from BUF and advance 1 byte. */
429 read_sbyte (struct dwarf_buf
*buf
)
431 const unsigned char *p
= buf
->buf
;
433 if (!advance (buf
, 1))
435 return (*p
^ 0x80) - 0x80;
438 /* Read a uint16 from BUF and advance 2 bytes. */
441 read_uint16 (struct dwarf_buf
*buf
)
443 const unsigned char *p
= buf
->buf
;
445 if (!advance (buf
, 2))
447 if (buf
->is_bigendian
)
448 return ((uint16_t) p
[0] << 8) | (uint16_t) p
[1];
450 return ((uint16_t) p
[1] << 8) | (uint16_t) p
[0];
453 /* Read a uint32 from BUF and advance 4 bytes. */
456 read_uint32 (struct dwarf_buf
*buf
)
458 const unsigned char *p
= buf
->buf
;
460 if (!advance (buf
, 4))
462 if (buf
->is_bigendian
)
463 return (((uint32_t) p
[0] << 24) | ((uint32_t) p
[1] << 16)
464 | ((uint32_t) p
[2] << 8) | (uint32_t) p
[3]);
466 return (((uint32_t) p
[3] << 24) | ((uint32_t) p
[2] << 16)
467 | ((uint32_t) p
[1] << 8) | (uint32_t) p
[0]);
470 /* Read a uint64 from BUF and advance 8 bytes. */
473 read_uint64 (struct dwarf_buf
*buf
)
475 const unsigned char *p
= buf
->buf
;
477 if (!advance (buf
, 8))
479 if (buf
->is_bigendian
)
480 return (((uint64_t) p
[0] << 56) | ((uint64_t) p
[1] << 48)
481 | ((uint64_t) p
[2] << 40) | ((uint64_t) p
[3] << 32)
482 | ((uint64_t) p
[4] << 24) | ((uint64_t) p
[5] << 16)
483 | ((uint64_t) p
[6] << 8) | (uint64_t) p
[7]);
485 return (((uint64_t) p
[7] << 56) | ((uint64_t) p
[6] << 48)
486 | ((uint64_t) p
[5] << 40) | ((uint64_t) p
[4] << 32)
487 | ((uint64_t) p
[3] << 24) | ((uint64_t) p
[2] << 16)
488 | ((uint64_t) p
[1] << 8) | (uint64_t) p
[0]);
491 /* Read an offset from BUF and advance the appropriate number of
495 read_offset (struct dwarf_buf
*buf
, int is_dwarf64
)
498 return read_uint64 (buf
);
500 return read_uint32 (buf
);
503 /* Read an address from BUF and advance the appropriate number of
507 read_address (struct dwarf_buf
*buf
, int addrsize
)
512 return read_byte (buf
);
514 return read_uint16 (buf
);
516 return read_uint32 (buf
);
518 return read_uint64 (buf
);
520 dwarf_buf_error (buf
, "unrecognized address size");
525 /* Return whether a value is the highest possible address, given the
529 is_highest_address (uint64_t address
, int addrsize
)
534 return address
== (unsigned char) -1;
536 return address
== (uint16_t) -1;
538 return address
== (uint32_t) -1;
540 return address
== (uint64_t) -1;
546 /* Read an unsigned LEB128 number. */
549 read_uleb128 (struct dwarf_buf
*buf
)
561 const unsigned char *p
;
564 if (!advance (buf
, 1))
568 ret
|= ((uint64_t) (b
& 0x7f)) << shift
;
571 dwarf_buf_error (buf
, "LEB128 overflows uint64_t");
576 while ((b
& 0x80) != 0);
581 /* Read a signed LEB128 number. */
584 read_sleb128 (struct dwarf_buf
*buf
)
596 const unsigned char *p
;
599 if (!advance (buf
, 1))
603 val
|= ((uint64_t) (b
& 0x7f)) << shift
;
606 dwarf_buf_error (buf
, "signed LEB128 overflows uint64_t");
611 while ((b
& 0x80) != 0);
613 if ((b
& 0x40) != 0 && shift
< 64)
614 val
|= ((uint64_t) -1) << shift
;
616 return (int64_t) val
;
619 /* Return the length of an LEB128 number. */
622 leb128_len (const unsigned char *p
)
627 while ((*p
& 0x80) != 0)
635 /* Free an abbreviations structure. */
638 free_abbrevs (struct backtrace_state
*state
, struct abbrevs
*abbrevs
,
639 backtrace_error_callback error_callback
, void *data
)
643 for (i
= 0; i
< abbrevs
->num_abbrevs
; ++i
)
644 backtrace_free (state
, abbrevs
->abbrevs
[i
].attrs
,
645 abbrevs
->abbrevs
[i
].num_attrs
* sizeof (struct attr
),
646 error_callback
, data
);
647 backtrace_free (state
, abbrevs
->abbrevs
,
648 abbrevs
->num_abbrevs
* sizeof (struct abbrev
),
649 error_callback
, data
);
650 abbrevs
->num_abbrevs
= 0;
651 abbrevs
->abbrevs
= NULL
;
654 /* Read an attribute value. Returns 1 on success, 0 on failure. If
655 the value can be represented as a uint64_t, sets *VAL and sets
656 *IS_VALID to 1. We don't try to store the value of other attribute
657 forms, because we don't care about them. */
660 read_attribute (enum dwarf_form form
, struct dwarf_buf
*buf
,
661 int is_dwarf64
, int version
, int addrsize
,
662 const unsigned char *dwarf_str
, size_t dwarf_str_size
,
663 struct attr_val
*val
)
665 /* Avoid warnings about val.u.FIELD may be used uninitialized if
666 this function is inlined. The warnings aren't valid but can
667 occur because the different fields are set and used
669 memset (val
, 0, sizeof *val
);
674 val
->encoding
= ATTR_VAL_ADDRESS
;
675 val
->u
.uint
= read_address (buf
, addrsize
);
678 val
->encoding
= ATTR_VAL_BLOCK
;
679 return advance (buf
, read_uint16 (buf
));
681 val
->encoding
= ATTR_VAL_BLOCK
;
682 return advance (buf
, read_uint32 (buf
));
684 val
->encoding
= ATTR_VAL_UINT
;
685 val
->u
.uint
= read_uint16 (buf
);
688 val
->encoding
= ATTR_VAL_UINT
;
689 val
->u
.uint
= read_uint32 (buf
);
692 val
->encoding
= ATTR_VAL_UINT
;
693 val
->u
.uint
= read_uint64 (buf
);
696 val
->encoding
= ATTR_VAL_STRING
;
697 val
->u
.string
= (const char *) buf
->buf
;
698 return advance (buf
, strnlen ((const char *) buf
->buf
, buf
->left
) + 1);
700 val
->encoding
= ATTR_VAL_BLOCK
;
701 return advance (buf
, read_uleb128 (buf
));
703 val
->encoding
= ATTR_VAL_BLOCK
;
704 return advance (buf
, read_byte (buf
));
706 val
->encoding
= ATTR_VAL_UINT
;
707 val
->u
.uint
= read_byte (buf
);
710 val
->encoding
= ATTR_VAL_UINT
;
711 val
->u
.uint
= read_byte (buf
);
714 val
->encoding
= ATTR_VAL_SINT
;
715 val
->u
.sint
= read_sleb128 (buf
);
721 offset
= read_offset (buf
, is_dwarf64
);
722 if (offset
>= dwarf_str_size
)
724 dwarf_buf_error (buf
, "DW_FORM_strp out of range");
727 val
->encoding
= ATTR_VAL_STRING
;
728 val
->u
.string
= (const char *) dwarf_str
+ offset
;
732 val
->encoding
= ATTR_VAL_UINT
;
733 val
->u
.uint
= read_uleb128 (buf
);
735 case DW_FORM_ref_addr
:
736 val
->encoding
= ATTR_VAL_REF_INFO
;
738 val
->u
.uint
= read_address (buf
, addrsize
);
740 val
->u
.uint
= read_offset (buf
, is_dwarf64
);
743 val
->encoding
= ATTR_VAL_REF_UNIT
;
744 val
->u
.uint
= read_byte (buf
);
747 val
->encoding
= ATTR_VAL_REF_UNIT
;
748 val
->u
.uint
= read_uint16 (buf
);
751 val
->encoding
= ATTR_VAL_REF_UNIT
;
752 val
->u
.uint
= read_uint32 (buf
);
755 val
->encoding
= ATTR_VAL_REF_UNIT
;
756 val
->u
.uint
= read_uint64 (buf
);
758 case DW_FORM_ref_udata
:
759 val
->encoding
= ATTR_VAL_REF_UNIT
;
760 val
->u
.uint
= read_uleb128 (buf
);
762 case DW_FORM_indirect
:
766 form
= read_uleb128 (buf
);
767 return read_attribute ((enum dwarf_form
) form
, buf
, is_dwarf64
,
768 version
, addrsize
, dwarf_str
, dwarf_str_size
,
771 case DW_FORM_sec_offset
:
772 val
->encoding
= ATTR_VAL_REF_SECTION
;
773 val
->u
.uint
= read_offset (buf
, is_dwarf64
);
775 case DW_FORM_exprloc
:
776 val
->encoding
= ATTR_VAL_EXPR
;
777 return advance (buf
, read_uleb128 (buf
));
778 case DW_FORM_flag_present
:
779 val
->encoding
= ATTR_VAL_UINT
;
782 case DW_FORM_ref_sig8
:
783 val
->encoding
= ATTR_VAL_REF_TYPE
;
784 val
->u
.uint
= read_uint64 (buf
);
786 case DW_FORM_GNU_addr_index
:
787 val
->encoding
= ATTR_VAL_REF_SECTION
;
788 val
->u
.uint
= read_uleb128 (buf
);
790 case DW_FORM_GNU_str_index
:
791 val
->encoding
= ATTR_VAL_REF_SECTION
;
792 val
->u
.uint
= read_uleb128 (buf
);
794 case DW_FORM_GNU_ref_alt
:
795 val
->encoding
= ATTR_VAL_REF_SECTION
;
796 val
->u
.uint
= read_offset (buf
, is_dwarf64
);
798 case DW_FORM_GNU_strp_alt
:
799 val
->encoding
= ATTR_VAL_REF_SECTION
;
800 val
->u
.uint
= read_offset (buf
, is_dwarf64
);
803 dwarf_buf_error (buf
, "unrecognized DWARF form");
808 /* Compare function_addrs for qsort. When ranges are nested, make the
809 smallest one sort last. */
812 function_addrs_compare (const void *v1
, const void *v2
)
814 const struct function_addrs
*a1
= (const struct function_addrs
*) v1
;
815 const struct function_addrs
*a2
= (const struct function_addrs
*) v2
;
817 if (a1
->low
< a2
->low
)
819 if (a1
->low
> a2
->low
)
821 if (a1
->high
< a2
->high
)
823 if (a1
->high
> a2
->high
)
825 return strcmp (a1
->function
->name
, a2
->function
->name
);
828 /* Compare a PC against a function_addrs for bsearch. Note that if
829 there are multiple ranges containing PC, which one will be returned
830 is unpredictable. We compensate for that in dwarf_fileline. */
833 function_addrs_search (const void *vkey
, const void *ventry
)
835 const uintptr_t *key
= (const uintptr_t *) vkey
;
836 const struct function_addrs
*entry
= (const struct function_addrs
*) ventry
;
842 else if (pc
>= entry
->high
)
848 /* Add a new compilation unit address range to a vector. Returns 1 on
849 success, 0 on failure. */
852 add_unit_addr (struct backtrace_state
*state
, uintptr_t base_address
,
853 struct unit_addrs addrs
,
854 backtrace_error_callback error_callback
, void *data
,
855 struct unit_addrs_vector
*vec
)
857 struct unit_addrs
*p
;
859 /* Add in the base address of the module here, so that we can look
860 up the PC directly. */
861 addrs
.low
+= base_address
;
862 addrs
.high
+= base_address
;
864 /* Try to merge with the last entry. */
867 p
= (struct unit_addrs
*) vec
->vec
.base
+ (vec
->count
- 1);
868 if ((addrs
.low
== p
->high
|| addrs
.low
== p
->high
+ 1)
871 if (addrs
.high
> p
->high
)
872 p
->high
= addrs
.high
;
877 p
= ((struct unit_addrs
*)
878 backtrace_vector_grow (state
, sizeof (struct unit_addrs
),
879 error_callback
, data
, &vec
->vec
));
888 /* Free a unit address vector. */
891 free_unit_addrs_vector (struct backtrace_state
*state
,
892 struct unit_addrs_vector
*vec
,
893 backtrace_error_callback error_callback
, void *data
)
895 struct unit_addrs
*addrs
;
898 addrs
= (struct unit_addrs
*) vec
->vec
.base
;
899 for (i
= 0; i
< vec
->count
; ++i
)
900 free_abbrevs (state
, &addrs
[i
].u
->abbrevs
, error_callback
, data
);
903 /* Compare unit_addrs for qsort. When ranges are nested, make the
904 smallest one sort last. */
907 unit_addrs_compare (const void *v1
, const void *v2
)
909 const struct unit_addrs
*a1
= (const struct unit_addrs
*) v1
;
910 const struct unit_addrs
*a2
= (const struct unit_addrs
*) v2
;
912 if (a1
->low
< a2
->low
)
914 if (a1
->low
> a2
->low
)
916 if (a1
->high
< a2
->high
)
918 if (a1
->high
> a2
->high
)
920 if (a1
->u
->lineoff
< a2
->u
->lineoff
)
922 if (a1
->u
->lineoff
> a2
->u
->lineoff
)
927 /* Compare a PC against a unit_addrs for bsearch. Note that if there
928 are multiple ranges containing PC, which one will be returned is
929 unpredictable. We compensate for that in dwarf_fileline. */
932 unit_addrs_search (const void *vkey
, const void *ventry
)
934 const uintptr_t *key
= (const uintptr_t *) vkey
;
935 const struct unit_addrs
*entry
= (const struct unit_addrs
*) ventry
;
941 else if (pc
>= entry
->high
)
947 /* Sort the line vector by PC. We want a stable sort here to maintain
948 the order of lines for the same PC values. Since the sequence is
949 being sorted in place, their addresses cannot be relied on to
950 maintain stability. That is the purpose of the index member. */
953 line_compare (const void *v1
, const void *v2
)
955 const struct line
*ln1
= (const struct line
*) v1
;
956 const struct line
*ln2
= (const struct line
*) v2
;
958 if (ln1
->pc
< ln2
->pc
)
960 else if (ln1
->pc
> ln2
->pc
)
962 else if (ln1
->idx
< ln2
->idx
)
964 else if (ln1
->idx
> ln2
->idx
)
970 /* Find a PC in a line vector. We always allocate an extra entry at
971 the end of the lines vector, so that this routine can safely look
972 at the next entry. Note that when there are multiple mappings for
973 the same PC value, this will return the last one. */
976 line_search (const void *vkey
, const void *ventry
)
978 const uintptr_t *key
= (const uintptr_t *) vkey
;
979 const struct line
*entry
= (const struct line
*) ventry
;
985 else if (pc
>= (entry
+ 1)->pc
)
991 /* Sort the abbrevs by the abbrev code. This function is passed to
992 both qsort and bsearch. */
995 abbrev_compare (const void *v1
, const void *v2
)
997 const struct abbrev
*a1
= (const struct abbrev
*) v1
;
998 const struct abbrev
*a2
= (const struct abbrev
*) v2
;
1000 if (a1
->code
< a2
->code
)
1002 else if (a1
->code
> a2
->code
)
1006 /* This really shouldn't happen. It means there are two
1007 different abbrevs with the same code, and that means we don't
1008 know which one lookup_abbrev should return. */
1013 /* Read the abbreviation table for a compilation unit. Returns 1 on
1014 success, 0 on failure. */
1017 read_abbrevs (struct backtrace_state
*state
, uint64_t abbrev_offset
,
1018 const unsigned char *dwarf_abbrev
, size_t dwarf_abbrev_size
,
1019 int is_bigendian
, backtrace_error_callback error_callback
,
1020 void *data
, struct abbrevs
*abbrevs
)
1022 struct dwarf_buf abbrev_buf
;
1023 struct dwarf_buf count_buf
;
1026 abbrevs
->num_abbrevs
= 0;
1027 abbrevs
->abbrevs
= NULL
;
1029 if (abbrev_offset
>= dwarf_abbrev_size
)
1031 error_callback (data
, "abbrev offset out of range", 0);
1035 abbrev_buf
.name
= ".debug_abbrev";
1036 abbrev_buf
.start
= dwarf_abbrev
;
1037 abbrev_buf
.buf
= dwarf_abbrev
+ abbrev_offset
;
1038 abbrev_buf
.left
= dwarf_abbrev_size
- abbrev_offset
;
1039 abbrev_buf
.is_bigendian
= is_bigendian
;
1040 abbrev_buf
.error_callback
= error_callback
;
1041 abbrev_buf
.data
= data
;
1042 abbrev_buf
.reported_underflow
= 0;
1044 /* Count the number of abbrevs in this list. */
1046 count_buf
= abbrev_buf
;
1048 while (read_uleb128 (&count_buf
) != 0)
1050 if (count_buf
.reported_underflow
)
1054 read_uleb128 (&count_buf
);
1055 // Skip has_children.
1056 read_byte (&count_buf
);
1058 while (read_uleb128 (&count_buf
) != 0)
1059 read_uleb128 (&count_buf
);
1060 // Skip form of last attribute.
1061 read_uleb128 (&count_buf
);
1064 if (count_buf
.reported_underflow
)
1067 if (num_abbrevs
== 0)
1070 abbrevs
->num_abbrevs
= num_abbrevs
;
1071 abbrevs
->abbrevs
= ((struct abbrev
*)
1072 backtrace_alloc (state
,
1073 num_abbrevs
* sizeof (struct abbrev
),
1074 error_callback
, data
));
1075 if (abbrevs
->abbrevs
== NULL
)
1077 memset (abbrevs
->abbrevs
, 0, num_abbrevs
* sizeof (struct abbrev
));
1087 if (abbrev_buf
.reported_underflow
)
1090 code
= read_uleb128 (&abbrev_buf
);
1095 a
.tag
= (enum dwarf_tag
) read_uleb128 (&abbrev_buf
);
1096 a
.has_children
= read_byte (&abbrev_buf
);
1098 count_buf
= abbrev_buf
;
1100 while (read_uleb128 (&count_buf
) != 0)
1103 read_uleb128 (&count_buf
);
1109 read_uleb128 (&abbrev_buf
);
1110 read_uleb128 (&abbrev_buf
);
1114 attrs
= ((struct attr
*)
1115 backtrace_alloc (state
, num_attrs
* sizeof *attrs
,
1116 error_callback
, data
));
1125 name
= read_uleb128 (&abbrev_buf
);
1126 form
= read_uleb128 (&abbrev_buf
);
1129 attrs
[num_attrs
].name
= (enum dwarf_attribute
) name
;
1130 attrs
[num_attrs
].form
= (enum dwarf_form
) form
;
1135 a
.num_attrs
= num_attrs
;
1138 abbrevs
->abbrevs
[num_abbrevs
] = a
;
1142 backtrace_qsort (abbrevs
->abbrevs
, abbrevs
->num_abbrevs
,
1143 sizeof (struct abbrev
), abbrev_compare
);
1148 free_abbrevs (state
, abbrevs
, error_callback
, data
);
1152 /* Return the abbrev information for an abbrev code. */
1154 static const struct abbrev
*
1155 lookup_abbrev (struct abbrevs
*abbrevs
, uint64_t code
,
1156 backtrace_error_callback error_callback
, void *data
)
1161 /* With GCC, where abbrevs are simply numbered in order, we should
1162 be able to just look up the entry. */
1163 if (code
- 1 < abbrevs
->num_abbrevs
1164 && abbrevs
->abbrevs
[code
- 1].code
== code
)
1165 return &abbrevs
->abbrevs
[code
- 1];
1167 /* Otherwise we have to search. */
1168 memset (&key
, 0, sizeof key
);
1170 p
= bsearch (&key
, abbrevs
->abbrevs
, abbrevs
->num_abbrevs
,
1171 sizeof (struct abbrev
), abbrev_compare
);
1174 error_callback (data
, "invalid abbreviation code", 0);
1177 return (const struct abbrev
*) p
;
1180 /* Add non-contiguous address ranges for a compilation unit. Returns
1181 1 on success, 0 on failure. */
1184 add_unit_ranges (struct backtrace_state
*state
, uintptr_t base_address
,
1185 struct unit
*u
, uint64_t ranges
, uint64_t base
,
1186 int is_bigendian
, const unsigned char *dwarf_ranges
,
1187 size_t dwarf_ranges_size
,
1188 backtrace_error_callback error_callback
, void *data
,
1189 struct unit_addrs_vector
*addrs
)
1191 struct dwarf_buf ranges_buf
;
1193 if (ranges
>= dwarf_ranges_size
)
1195 error_callback (data
, "ranges offset out of range", 0);
1199 ranges_buf
.name
= ".debug_ranges";
1200 ranges_buf
.start
= dwarf_ranges
;
1201 ranges_buf
.buf
= dwarf_ranges
+ ranges
;
1202 ranges_buf
.left
= dwarf_ranges_size
- ranges
;
1203 ranges_buf
.is_bigendian
= is_bigendian
;
1204 ranges_buf
.error_callback
= error_callback
;
1205 ranges_buf
.data
= data
;
1206 ranges_buf
.reported_underflow
= 0;
1213 if (ranges_buf
.reported_underflow
)
1216 low
= read_address (&ranges_buf
, u
->addrsize
);
1217 high
= read_address (&ranges_buf
, u
->addrsize
);
1219 if (low
== 0 && high
== 0)
1222 if (is_highest_address (low
, u
->addrsize
))
1226 struct unit_addrs a
;
1229 a
.high
= high
+ base
;
1231 if (!add_unit_addr (state
, base_address
, a
, error_callback
, data
,
1237 if (ranges_buf
.reported_underflow
)
1243 /* Find the address range covered by a compilation unit, reading from
1244 UNIT_BUF and adding values to U. Returns 1 if all data could be
1245 read, 0 if there is some error. */
1248 find_address_ranges (struct backtrace_state
*state
, uintptr_t base_address
,
1249 struct dwarf_buf
*unit_buf
,
1250 const unsigned char *dwarf_str
, size_t dwarf_str_size
,
1251 const unsigned char *dwarf_ranges
,
1252 size_t dwarf_ranges_size
,
1253 int is_bigendian
, backtrace_error_callback error_callback
,
1254 void *data
, struct unit
*u
,
1255 struct unit_addrs_vector
*addrs
)
1257 while (unit_buf
->left
> 0)
1260 const struct abbrev
*abbrev
;
1265 int highpc_is_relative
;
1270 code
= read_uleb128 (unit_buf
);
1274 abbrev
= lookup_abbrev (&u
->abbrevs
, code
, error_callback
, data
);
1282 highpc_is_relative
= 0;
1285 for (i
= 0; i
< abbrev
->num_attrs
; ++i
)
1287 struct attr_val val
;
1289 if (!read_attribute (abbrev
->attrs
[i
].form
, unit_buf
,
1290 u
->is_dwarf64
, u
->version
, u
->addrsize
,
1291 dwarf_str
, dwarf_str_size
, &val
))
1294 switch (abbrev
->attrs
[i
].name
)
1297 if (val
.encoding
== ATTR_VAL_ADDRESS
)
1305 if (val
.encoding
== ATTR_VAL_ADDRESS
)
1307 highpc
= val
.u
.uint
;
1310 else if (val
.encoding
== ATTR_VAL_UINT
)
1312 highpc
= val
.u
.uint
;
1314 highpc_is_relative
= 1;
1319 if (val
.encoding
== ATTR_VAL_UINT
1320 || val
.encoding
== ATTR_VAL_REF_SECTION
)
1322 ranges
= val
.u
.uint
;
1327 case DW_AT_stmt_list
:
1328 if (abbrev
->tag
== DW_TAG_compile_unit
1329 && (val
.encoding
== ATTR_VAL_UINT
1330 || val
.encoding
== ATTR_VAL_REF_SECTION
))
1331 u
->lineoff
= val
.u
.uint
;
1335 if (abbrev
->tag
== DW_TAG_compile_unit
1336 && val
.encoding
== ATTR_VAL_STRING
)
1337 u
->filename
= val
.u
.string
;
1340 case DW_AT_comp_dir
:
1341 if (abbrev
->tag
== DW_TAG_compile_unit
1342 && val
.encoding
== ATTR_VAL_STRING
)
1343 u
->comp_dir
= val
.u
.string
;
1351 if (abbrev
->tag
== DW_TAG_compile_unit
1352 || abbrev
->tag
== DW_TAG_subprogram
)
1356 if (!add_unit_ranges (state
, base_address
, u
, ranges
, lowpc
,
1357 is_bigendian
, dwarf_ranges
,
1358 dwarf_ranges_size
, error_callback
,
1362 else if (have_lowpc
&& have_highpc
)
1364 struct unit_addrs a
;
1366 if (highpc_is_relative
)
1372 if (!add_unit_addr (state
, base_address
, a
, error_callback
, data
,
1377 /* If we found the PC range in the DW_TAG_compile_unit, we
1379 if (abbrev
->tag
== DW_TAG_compile_unit
1380 && (have_ranges
|| (have_lowpc
&& have_highpc
)))
1384 if (abbrev
->has_children
)
1386 if (!find_address_ranges (state
, base_address
, unit_buf
,
1387 dwarf_str
, dwarf_str_size
,
1388 dwarf_ranges
, dwarf_ranges_size
,
1389 is_bigendian
, error_callback
, data
,
1398 /* Build a mapping from address ranges to the compilation units where
1399 the line number information for that range can be found. Returns 1
1400 on success, 0 on failure. */
1403 build_address_map (struct backtrace_state
*state
, uintptr_t base_address
,
1404 const unsigned char *dwarf_info
, size_t dwarf_info_size
,
1405 const unsigned char *dwarf_abbrev
, size_t dwarf_abbrev_size
,
1406 const unsigned char *dwarf_ranges
, size_t dwarf_ranges_size
,
1407 const unsigned char *dwarf_str
, size_t dwarf_str_size
,
1408 int is_bigendian
, backtrace_error_callback error_callback
,
1409 void *data
, struct unit_addrs_vector
*addrs
)
1411 struct dwarf_buf info
;
1412 struct abbrevs abbrevs
;
1414 memset (&addrs
->vec
, 0, sizeof addrs
->vec
);
1417 /* Read through the .debug_info section. FIXME: Should we use the
1418 .debug_aranges section? gdb and addr2line don't use it, but I'm
1421 info
.name
= ".debug_info";
1422 info
.start
= dwarf_info
;
1423 info
.buf
= dwarf_info
;
1424 info
.left
= dwarf_info_size
;
1425 info
.is_bigendian
= is_bigendian
;
1426 info
.error_callback
= error_callback
;
1428 info
.reported_underflow
= 0;
1430 memset (&abbrevs
, 0, sizeof abbrevs
);
1431 while (info
.left
> 0)
1433 const unsigned char *unit_data_start
;
1436 struct dwarf_buf unit_buf
;
1438 uint64_t abbrev_offset
;
1442 if (info
.reported_underflow
)
1445 unit_data_start
= info
.buf
;
1448 len
= read_uint32 (&info
);
1449 if (len
== 0xffffffff)
1451 len
= read_uint64 (&info
);
1456 unit_buf
.left
= len
;
1458 if (!advance (&info
, len
))
1461 version
= read_uint16 (&unit_buf
);
1462 if (version
< 2 || version
> 4)
1464 dwarf_buf_error (&unit_buf
, "unrecognized DWARF version");
1468 abbrev_offset
= read_offset (&unit_buf
, is_dwarf64
);
1469 if (!read_abbrevs (state
, abbrev_offset
, dwarf_abbrev
, dwarf_abbrev_size
,
1470 is_bigendian
, error_callback
, data
, &abbrevs
))
1473 addrsize
= read_byte (&unit_buf
);
1475 u
= ((struct unit
*)
1476 backtrace_alloc (state
, sizeof *u
, error_callback
, data
));
1479 u
->unit_data
= unit_buf
.buf
;
1480 u
->unit_data_len
= unit_buf
.left
;
1481 u
->unit_data_offset
= unit_buf
.buf
- unit_data_start
;
1482 u
->version
= version
;
1483 u
->is_dwarf64
= is_dwarf64
;
1484 u
->addrsize
= addrsize
;
1487 u
->abs_filename
= NULL
;
1489 u
->abbrevs
= abbrevs
;
1490 memset (&abbrevs
, 0, sizeof abbrevs
);
1492 /* The actual line number mappings will be read as needed. */
1495 u
->function_addrs
= NULL
;
1496 u
->function_addrs_count
= 0;
1498 if (!find_address_ranges (state
, base_address
, &unit_buf
,
1499 dwarf_str
, dwarf_str_size
,
1500 dwarf_ranges
, dwarf_ranges_size
,
1501 is_bigendian
, error_callback
, data
,
1504 free_abbrevs (state
, &u
->abbrevs
, error_callback
, data
);
1505 backtrace_free (state
, u
, sizeof *u
, error_callback
, data
);
1509 if (unit_buf
.reported_underflow
)
1511 free_abbrevs (state
, &u
->abbrevs
, error_callback
, data
);
1512 backtrace_free (state
, u
, sizeof *u
, error_callback
, data
);
1516 if (info
.reported_underflow
)
1522 free_abbrevs (state
, &abbrevs
, error_callback
, data
);
1523 free_unit_addrs_vector (state
, addrs
, error_callback
, data
);
1527 /* Add a new mapping to the vector of line mappings that we are
1528 building. Returns 1 on success, 0 on failure. */
1531 add_line (struct backtrace_state
*state
, struct dwarf_data
*ddata
,
1532 uintptr_t pc
, const char *filename
, int lineno
,
1533 backtrace_error_callback error_callback
, void *data
,
1534 struct line_vector
*vec
)
1538 /* If we are adding the same mapping, ignore it. This can happen
1539 when using discriminators. */
1542 ln
= (struct line
*) vec
->vec
.base
+ (vec
->count
- 1);
1543 if (pc
== ln
->pc
&& filename
== ln
->filename
&& lineno
== ln
->lineno
)
1547 ln
= ((struct line
*)
1548 backtrace_vector_grow (state
, sizeof (struct line
), error_callback
,
1553 /* Add in the base address here, so that we can look up the PC
1555 ln
->pc
= pc
+ ddata
->base_address
;
1557 ln
->filename
= filename
;
1558 ln
->lineno
= lineno
;
1559 ln
->idx
= vec
->count
;
1566 /* Free the line header information. If FREE_FILENAMES is true we
1567 free the file names themselves, otherwise we leave them, as there
1568 may be line structures pointing to them. */
1571 free_line_header (struct backtrace_state
*state
, struct line_header
*hdr
,
1572 backtrace_error_callback error_callback
, void *data
)
1574 backtrace_free (state
, hdr
->dirs
, hdr
->dirs_count
* sizeof (const char *),
1575 error_callback
, data
);
1576 backtrace_free (state
, hdr
->filenames
,
1577 hdr
->filenames_count
* sizeof (char *),
1578 error_callback
, data
);
1581 /* Read the line header. Return 1 on success, 0 on failure. */
1584 read_line_header (struct backtrace_state
*state
, struct unit
*u
,
1585 int is_dwarf64
, struct dwarf_buf
*line_buf
,
1586 struct line_header
*hdr
)
1589 struct dwarf_buf hdr_buf
;
1590 const unsigned char *p
;
1591 const unsigned char *pend
;
1594 hdr
->version
= read_uint16 (line_buf
);
1595 if (hdr
->version
< 2 || hdr
->version
> 4)
1597 dwarf_buf_error (line_buf
, "unsupported line number version");
1601 hdrlen
= read_offset (line_buf
, is_dwarf64
);
1603 hdr_buf
= *line_buf
;
1604 hdr_buf
.left
= hdrlen
;
1606 if (!advance (line_buf
, hdrlen
))
1609 hdr
->min_insn_len
= read_byte (&hdr_buf
);
1610 if (hdr
->version
< 4)
1611 hdr
->max_ops_per_insn
= 1;
1613 hdr
->max_ops_per_insn
= read_byte (&hdr_buf
);
1615 /* We don't care about default_is_stmt. */
1616 read_byte (&hdr_buf
);
1618 hdr
->line_base
= read_sbyte (&hdr_buf
);
1619 hdr
->line_range
= read_byte (&hdr_buf
);
1621 hdr
->opcode_base
= read_byte (&hdr_buf
);
1622 hdr
->opcode_lengths
= hdr_buf
.buf
;
1623 if (!advance (&hdr_buf
, hdr
->opcode_base
- 1))
1626 /* Count the number of directory entries. */
1627 hdr
->dirs_count
= 0;
1629 pend
= p
+ hdr_buf
.left
;
1630 while (p
< pend
&& *p
!= '\0')
1632 p
+= strnlen((const char *) p
, pend
- p
) + 1;
1636 hdr
->dirs
= ((const char **)
1637 backtrace_alloc (state
,
1638 hdr
->dirs_count
* sizeof (const char *),
1639 line_buf
->error_callback
, line_buf
->data
));
1640 if (hdr
->dirs
== NULL
)
1644 while (*hdr_buf
.buf
!= '\0')
1646 if (hdr_buf
.reported_underflow
)
1649 hdr
->dirs
[i
] = (const char *) hdr_buf
.buf
;
1651 if (!advance (&hdr_buf
,
1652 strnlen ((const char *) hdr_buf
.buf
, hdr_buf
.left
) + 1))
1655 if (!advance (&hdr_buf
, 1))
1658 /* Count the number of file entries. */
1659 hdr
->filenames_count
= 0;
1661 pend
= p
+ hdr_buf
.left
;
1662 while (p
< pend
&& *p
!= '\0')
1664 p
+= strnlen ((const char *) p
, pend
- p
) + 1;
1665 p
+= leb128_len (p
);
1666 p
+= leb128_len (p
);
1667 p
+= leb128_len (p
);
1668 ++hdr
->filenames_count
;
1671 hdr
->filenames
= ((const char **)
1672 backtrace_alloc (state
,
1673 hdr
->filenames_count
* sizeof (char *),
1674 line_buf
->error_callback
,
1676 if (hdr
->filenames
== NULL
)
1679 while (*hdr_buf
.buf
!= '\0')
1681 const char *filename
;
1684 if (hdr_buf
.reported_underflow
)
1687 filename
= (const char *) hdr_buf
.buf
;
1688 if (!advance (&hdr_buf
,
1689 strnlen ((const char *) hdr_buf
.buf
, hdr_buf
.left
) + 1))
1691 dir_index
= read_uleb128 (&hdr_buf
);
1692 if (IS_ABSOLUTE_PATH (filename
)
1693 || (dir_index
== 0 && u
->comp_dir
== NULL
))
1694 hdr
->filenames
[i
] = filename
;
1699 size_t filename_len
;
1704 else if (dir_index
- 1 < hdr
->dirs_count
)
1705 dir
= hdr
->dirs
[dir_index
- 1];
1708 dwarf_buf_error (line_buf
,
1709 ("invalid directory index in "
1710 "line number program header"));
1713 dir_len
= strlen (dir
);
1714 filename_len
= strlen (filename
);
1716 backtrace_alloc (state
, dir_len
+ filename_len
+ 2,
1717 line_buf
->error_callback
, line_buf
->data
));
1720 memcpy (s
, dir
, dir_len
);
1721 /* FIXME: If we are on a DOS-based file system, and the
1722 directory or the file name use backslashes, then we
1723 should use a backslash here. */
1725 memcpy (s
+ dir_len
+ 1, filename
, filename_len
+ 1);
1726 hdr
->filenames
[i
] = s
;
1729 /* Ignore the modification time and size. */
1730 read_uleb128 (&hdr_buf
);
1731 read_uleb128 (&hdr_buf
);
1736 if (hdr_buf
.reported_underflow
)
1742 /* Read the line program, adding line mappings to VEC. Return 1 on
1743 success, 0 on failure. */
1746 read_line_program (struct backtrace_state
*state
, struct dwarf_data
*ddata
,
1747 struct unit
*u
, const struct line_header
*hdr
,
1748 struct dwarf_buf
*line_buf
, struct line_vector
*vec
)
1751 unsigned int op_index
;
1752 const char *reset_filename
;
1753 const char *filename
;
1758 if (hdr
->filenames_count
> 0)
1759 reset_filename
= hdr
->filenames
[0];
1761 reset_filename
= "";
1762 filename
= reset_filename
;
1764 while (line_buf
->left
> 0)
1768 op
= read_byte (line_buf
);
1769 if (op
>= hdr
->opcode_base
)
1771 unsigned int advance
;
1773 /* Special opcode. */
1774 op
-= hdr
->opcode_base
;
1775 advance
= op
/ hdr
->line_range
;
1776 address
+= (hdr
->min_insn_len
* (op_index
+ advance
)
1777 / hdr
->max_ops_per_insn
);
1778 op_index
= (op_index
+ advance
) % hdr
->max_ops_per_insn
;
1779 lineno
+= hdr
->line_base
+ (int) (op
% hdr
->line_range
);
1780 add_line (state
, ddata
, address
, filename
, lineno
,
1781 line_buf
->error_callback
, line_buf
->data
, vec
);
1783 else if (op
== DW_LNS_extended_op
)
1787 len
= read_uleb128 (line_buf
);
1788 op
= read_byte (line_buf
);
1791 case DW_LNE_end_sequence
:
1792 /* FIXME: Should we mark the high PC here? It seems
1793 that we already have that information from the
1794 compilation unit. */
1797 filename
= reset_filename
;
1800 case DW_LNE_set_address
:
1801 address
= read_address (line_buf
, u
->addrsize
);
1803 case DW_LNE_define_file
:
1806 unsigned int dir_index
;
1808 f
= (const char *) line_buf
->buf
;
1809 if (!advance (line_buf
, strnlen (f
, line_buf
->left
) + 1))
1811 dir_index
= read_uleb128 (line_buf
);
1812 /* Ignore that time and length. */
1813 read_uleb128 (line_buf
);
1814 read_uleb128 (line_buf
);
1815 if (IS_ABSOLUTE_PATH (f
))
1826 else if (dir_index
- 1 < hdr
->dirs_count
)
1827 dir
= hdr
->dirs
[dir_index
- 1];
1830 dwarf_buf_error (line_buf
,
1831 ("invalid directory index "
1832 "in line number program"));
1835 dir_len
= strlen (dir
);
1838 backtrace_alloc (state
, dir_len
+ f_len
+ 2,
1839 line_buf
->error_callback
,
1843 memcpy (p
, dir
, dir_len
);
1844 /* FIXME: If we are on a DOS-based file system,
1845 and the directory or the file name use
1846 backslashes, then we should use a backslash
1849 memcpy (p
+ dir_len
+ 1, f
, f_len
+ 1);
1854 case DW_LNE_set_discriminator
:
1855 /* We don't care about discriminators. */
1856 read_uleb128 (line_buf
);
1859 if (!advance (line_buf
, len
- 1))
1869 add_line (state
, ddata
, address
, filename
, lineno
,
1870 line_buf
->error_callback
, line_buf
->data
, vec
);
1872 case DW_LNS_advance_pc
:
1876 advance
= read_uleb128 (line_buf
);
1877 address
+= (hdr
->min_insn_len
* (op_index
+ advance
)
1878 / hdr
->max_ops_per_insn
);
1879 op_index
= (op_index
+ advance
) % hdr
->max_ops_per_insn
;
1882 case DW_LNS_advance_line
:
1883 lineno
+= (int) read_sleb128 (line_buf
);
1885 case DW_LNS_set_file
:
1889 fileno
= read_uleb128 (line_buf
);
1894 if (fileno
- 1 >= hdr
->filenames_count
)
1896 dwarf_buf_error (line_buf
,
1897 ("invalid file number in "
1898 "line number program"));
1901 filename
= hdr
->filenames
[fileno
- 1];
1905 case DW_LNS_set_column
:
1906 read_uleb128 (line_buf
);
1908 case DW_LNS_negate_stmt
:
1910 case DW_LNS_set_basic_block
:
1912 case DW_LNS_const_add_pc
:
1914 unsigned int advance
;
1916 op
= 255 - hdr
->opcode_base
;
1917 advance
= op
/ hdr
->line_range
;
1918 address
+= (hdr
->min_insn_len
* (op_index
+ advance
)
1919 / hdr
->max_ops_per_insn
);
1920 op_index
= (op_index
+ advance
) % hdr
->max_ops_per_insn
;
1923 case DW_LNS_fixed_advance_pc
:
1924 address
+= read_uint16 (line_buf
);
1927 case DW_LNS_set_prologue_end
:
1929 case DW_LNS_set_epilogue_begin
:
1931 case DW_LNS_set_isa
:
1932 read_uleb128 (line_buf
);
1938 for (i
= hdr
->opcode_lengths
[op
- 1]; i
> 0; --i
)
1939 read_uleb128 (line_buf
);
1949 /* Read the line number information for a compilation unit. Returns 1
1950 on success, 0 on failure. */
1953 read_line_info (struct backtrace_state
*state
, struct dwarf_data
*ddata
,
1954 backtrace_error_callback error_callback
, void *data
,
1955 struct unit
*u
, struct line_header
*hdr
, struct line
**lines
,
1956 size_t *lines_count
)
1958 struct line_vector vec
;
1959 struct dwarf_buf line_buf
;
1964 memset (&vec
.vec
, 0, sizeof vec
.vec
);
1967 memset (hdr
, 0, sizeof *hdr
);
1969 if (u
->lineoff
!= (off_t
) (size_t) u
->lineoff
1970 || (size_t) u
->lineoff
>= ddata
->dwarf_line_size
)
1972 error_callback (data
, "unit line offset out of range", 0);
1976 line_buf
.name
= ".debug_line";
1977 line_buf
.start
= ddata
->dwarf_line
;
1978 line_buf
.buf
= ddata
->dwarf_line
+ u
->lineoff
;
1979 line_buf
.left
= ddata
->dwarf_line_size
- u
->lineoff
;
1980 line_buf
.is_bigendian
= ddata
->is_bigendian
;
1981 line_buf
.error_callback
= error_callback
;
1982 line_buf
.data
= data
;
1983 line_buf
.reported_underflow
= 0;
1986 len
= read_uint32 (&line_buf
);
1987 if (len
== 0xffffffff)
1989 len
= read_uint64 (&line_buf
);
1992 line_buf
.left
= len
;
1994 if (!read_line_header (state
, u
, is_dwarf64
, &line_buf
, hdr
))
1997 if (!read_line_program (state
, ddata
, u
, hdr
, &line_buf
, &vec
))
2000 if (line_buf
.reported_underflow
)
2005 /* This is not a failure in the sense of a generating an error,
2006 but it is a failure in that sense that we have no useful
2011 /* Allocate one extra entry at the end. */
2012 ln
= ((struct line
*)
2013 backtrace_vector_grow (state
, sizeof (struct line
), error_callback
,
2017 ln
->pc
= (uintptr_t) -1;
2018 ln
->filename
= NULL
;
2022 if (!backtrace_vector_release (state
, &vec
.vec
, error_callback
, data
))
2025 ln
= (struct line
*) vec
.vec
.base
;
2026 backtrace_qsort (ln
, vec
.count
, sizeof (struct line
), line_compare
);
2029 *lines_count
= vec
.count
;
2034 vec
.vec
.alc
+= vec
.vec
.size
;
2036 backtrace_vector_release (state
, &vec
.vec
, error_callback
, data
);
2037 free_line_header (state
, hdr
, error_callback
, data
);
2038 *lines
= (struct line
*) (uintptr_t) -1;
2043 /* Read the name of a function from a DIE referenced by a
2044 DW_AT_abstract_origin or DW_AT_specification tag. OFFSET is within
2045 the same compilation unit. */
2048 read_referenced_name (struct dwarf_data
*ddata
, struct unit
*u
,
2049 uint64_t offset
, backtrace_error_callback error_callback
,
2052 struct dwarf_buf unit_buf
;
2054 const struct abbrev
*abbrev
;
2058 /* OFFSET is from the start of the data for this compilation unit.
2059 U->unit_data is the data, but it starts U->unit_data_offset bytes
2060 from the beginning. */
2062 if (offset
< u
->unit_data_offset
2063 || offset
- u
->unit_data_offset
>= u
->unit_data_len
)
2065 error_callback (data
,
2066 "abstract origin or specification out of range",
2071 offset
-= u
->unit_data_offset
;
2073 unit_buf
.name
= ".debug_info";
2074 unit_buf
.start
= ddata
->dwarf_info
;
2075 unit_buf
.buf
= u
->unit_data
+ offset
;
2076 unit_buf
.left
= u
->unit_data_len
- offset
;
2077 unit_buf
.is_bigendian
= ddata
->is_bigendian
;
2078 unit_buf
.error_callback
= error_callback
;
2079 unit_buf
.data
= data
;
2080 unit_buf
.reported_underflow
= 0;
2082 code
= read_uleb128 (&unit_buf
);
2085 dwarf_buf_error (&unit_buf
, "invalid abstract origin or specification");
2089 abbrev
= lookup_abbrev (&u
->abbrevs
, code
, error_callback
, data
);
2094 for (i
= 0; i
< abbrev
->num_attrs
; ++i
)
2096 struct attr_val val
;
2098 if (!read_attribute (abbrev
->attrs
[i
].form
, &unit_buf
,
2099 u
->is_dwarf64
, u
->version
, u
->addrsize
,
2100 ddata
->dwarf_str
, ddata
->dwarf_str_size
,
2104 switch (abbrev
->attrs
[i
].name
)
2107 /* We prefer the linkage name if get one. */
2108 if (val
.encoding
== ATTR_VAL_STRING
)
2112 case DW_AT_linkage_name
:
2113 case DW_AT_MIPS_linkage_name
:
2114 if (val
.encoding
== ATTR_VAL_STRING
)
2115 return val
.u
.string
;
2118 case DW_AT_specification
:
2119 if (abbrev
->attrs
[i
].form
== DW_FORM_ref_addr
2120 || abbrev
->attrs
[i
].form
== DW_FORM_ref_sig8
)
2122 /* This refers to a specification defined in some other
2123 compilation unit. We can handle this case if we
2124 must, but it's harder. */
2127 if (val
.encoding
== ATTR_VAL_UINT
2128 || val
.encoding
== ATTR_VAL_REF_UNIT
)
2132 name
= read_referenced_name (ddata
, u
, val
.u
.uint
,
2133 error_callback
, data
);
2147 /* Add a single range to U that maps to function. Returns 1 on
2148 success, 0 on error. */
2151 add_function_range (struct backtrace_state
*state
, struct dwarf_data
*ddata
,
2152 struct function
*function
, uint64_t lowpc
, uint64_t highpc
,
2153 backtrace_error_callback error_callback
,
2154 void *data
, struct function_vector
*vec
)
2156 struct function_addrs
*p
;
2158 /* Add in the base address here, so that we can look up the PC
2160 lowpc
+= ddata
->base_address
;
2161 highpc
+= ddata
->base_address
;
2165 p
= (struct function_addrs
*) vec
->vec
.base
+ vec
->count
- 1;
2166 if ((lowpc
== p
->high
|| lowpc
== p
->high
+ 1)
2167 && function
== p
->function
)
2169 if (highpc
> p
->high
)
2175 p
= ((struct function_addrs
*)
2176 backtrace_vector_grow (state
, sizeof (struct function_addrs
),
2177 error_callback
, data
, &vec
->vec
));
2183 p
->function
= function
;
2188 /* Add PC ranges to U that map to FUNCTION. Returns 1 on success, 0
2192 add_function_ranges (struct backtrace_state
*state
, struct dwarf_data
*ddata
,
2193 struct unit
*u
, struct function
*function
,
2194 uint64_t ranges
, uint64_t base
,
2195 backtrace_error_callback error_callback
, void *data
,
2196 struct function_vector
*vec
)
2198 struct dwarf_buf ranges_buf
;
2200 if (ranges
>= ddata
->dwarf_ranges_size
)
2202 error_callback (data
, "function ranges offset out of range", 0);
2206 ranges_buf
.name
= ".debug_ranges";
2207 ranges_buf
.start
= ddata
->dwarf_ranges
;
2208 ranges_buf
.buf
= ddata
->dwarf_ranges
+ ranges
;
2209 ranges_buf
.left
= ddata
->dwarf_ranges_size
- ranges
;
2210 ranges_buf
.is_bigendian
= ddata
->is_bigendian
;
2211 ranges_buf
.error_callback
= error_callback
;
2212 ranges_buf
.data
= data
;
2213 ranges_buf
.reported_underflow
= 0;
2220 if (ranges_buf
.reported_underflow
)
2223 low
= read_address (&ranges_buf
, u
->addrsize
);
2224 high
= read_address (&ranges_buf
, u
->addrsize
);
2226 if (low
== 0 && high
== 0)
2229 if (is_highest_address (low
, u
->addrsize
))
2233 if (!add_function_range (state
, ddata
, function
, low
+ base
,
2234 high
+ base
, error_callback
, data
, vec
))
2239 if (ranges_buf
.reported_underflow
)
2245 /* Read one entry plus all its children. Add function addresses to
2246 VEC. Returns 1 on success, 0 on error. */
2249 read_function_entry (struct backtrace_state
*state
, struct dwarf_data
*ddata
,
2250 struct unit
*u
, uint64_t base
, struct dwarf_buf
*unit_buf
,
2251 const struct line_header
*lhdr
,
2252 backtrace_error_callback error_callback
, void *data
,
2253 struct function_vector
*vec_function
,
2254 struct function_vector
*vec_inlined
)
2256 while (unit_buf
->left
> 0)
2259 const struct abbrev
*abbrev
;
2261 struct function
*function
;
2262 struct function_vector
*vec
;
2268 int highpc_is_relative
;
2272 code
= read_uleb128 (unit_buf
);
2276 abbrev
= lookup_abbrev (&u
->abbrevs
, code
, error_callback
, data
);
2280 is_function
= (abbrev
->tag
== DW_TAG_subprogram
2281 || abbrev
->tag
== DW_TAG_entry_point
2282 || abbrev
->tag
== DW_TAG_inlined_subroutine
);
2284 if (abbrev
->tag
== DW_TAG_inlined_subroutine
)
2292 function
= ((struct function
*)
2293 backtrace_alloc (state
, sizeof *function
,
2294 error_callback
, data
));
2295 if (function
== NULL
)
2297 memset (function
, 0, sizeof *function
);
2304 highpc_is_relative
= 0;
2307 for (i
= 0; i
< abbrev
->num_attrs
; ++i
)
2309 struct attr_val val
;
2311 if (!read_attribute (abbrev
->attrs
[i
].form
, unit_buf
,
2312 u
->is_dwarf64
, u
->version
, u
->addrsize
,
2313 ddata
->dwarf_str
, ddata
->dwarf_str_size
,
2317 /* The compile unit sets the base address for any address
2318 ranges in the function entries. */
2319 if (abbrev
->tag
== DW_TAG_compile_unit
2320 && abbrev
->attrs
[i
].name
== DW_AT_low_pc
2321 && val
.encoding
== ATTR_VAL_ADDRESS
)
2326 switch (abbrev
->attrs
[i
].name
)
2328 case DW_AT_call_file
:
2329 if (val
.encoding
== ATTR_VAL_UINT
)
2331 if (val
.u
.uint
== 0)
2332 function
->caller_filename
= "";
2335 if (val
.u
.uint
- 1 >= lhdr
->filenames_count
)
2337 dwarf_buf_error (unit_buf
,
2338 ("invalid file number in "
2339 "DW_AT_call_file attribute"));
2342 function
->caller_filename
=
2343 lhdr
->filenames
[val
.u
.uint
- 1];
2348 case DW_AT_call_line
:
2349 if (val
.encoding
== ATTR_VAL_UINT
)
2350 function
->caller_lineno
= val
.u
.uint
;
2353 case DW_AT_abstract_origin
:
2354 case DW_AT_specification
:
2355 if (abbrev
->attrs
[i
].form
== DW_FORM_ref_addr
2356 || abbrev
->attrs
[i
].form
== DW_FORM_ref_sig8
)
2358 /* This refers to an abstract origin defined in
2359 some other compilation unit. We can handle
2360 this case if we must, but it's harder. */
2363 if (val
.encoding
== ATTR_VAL_UINT
2364 || val
.encoding
== ATTR_VAL_REF_UNIT
)
2368 name
= read_referenced_name (ddata
, u
, val
.u
.uint
,
2369 error_callback
, data
);
2371 function
->name
= name
;
2376 if (val
.encoding
== ATTR_VAL_STRING
)
2378 /* Don't override a name we found in some other
2379 way, as it will normally be more
2380 useful--e.g., this name is normally not
2382 if (function
->name
== NULL
)
2383 function
->name
= val
.u
.string
;
2387 case DW_AT_linkage_name
:
2388 case DW_AT_MIPS_linkage_name
:
2389 if (val
.encoding
== ATTR_VAL_STRING
)
2390 function
->name
= val
.u
.string
;
2394 if (val
.encoding
== ATTR_VAL_ADDRESS
)
2402 if (val
.encoding
== ATTR_VAL_ADDRESS
)
2404 highpc
= val
.u
.uint
;
2407 else if (val
.encoding
== ATTR_VAL_UINT
)
2409 highpc
= val
.u
.uint
;
2411 highpc_is_relative
= 1;
2416 if (val
.encoding
== ATTR_VAL_UINT
2417 || val
.encoding
== ATTR_VAL_REF_SECTION
)
2419 ranges
= val
.u
.uint
;
2430 /* If we couldn't find a name for the function, we have no use
2432 if (is_function
&& function
->name
== NULL
)
2434 backtrace_free (state
, function
, sizeof *function
,
2435 error_callback
, data
);
2443 if (!add_function_ranges (state
, ddata
, u
, function
, ranges
,
2444 base
, error_callback
, data
, vec
))
2447 else if (have_lowpc
&& have_highpc
)
2449 if (highpc_is_relative
)
2451 if (!add_function_range (state
, ddata
, function
, lowpc
, highpc
,
2452 error_callback
, data
, vec
))
2457 backtrace_free (state
, function
, sizeof *function
,
2458 error_callback
, data
);
2463 if (abbrev
->has_children
)
2467 if (!read_function_entry (state
, ddata
, u
, base
, unit_buf
, lhdr
,
2468 error_callback
, data
, vec_function
,
2474 struct function_vector fvec
;
2476 /* Gather any information for inlined functions in
2479 memset (&fvec
, 0, sizeof fvec
);
2481 if (!read_function_entry (state
, ddata
, u
, base
, unit_buf
, lhdr
,
2482 error_callback
, data
, vec_function
,
2488 struct function_addrs
*faddrs
;
2490 if (!backtrace_vector_release (state
, &fvec
.vec
,
2491 error_callback
, data
))
2494 faddrs
= (struct function_addrs
*) fvec
.vec
.base
;
2495 backtrace_qsort (faddrs
, fvec
.count
,
2496 sizeof (struct function_addrs
),
2497 function_addrs_compare
);
2499 function
->function_addrs
= faddrs
;
2500 function
->function_addrs_count
= fvec
.count
;
2509 /* Read function name information for a compilation unit. We look
2510 through the whole unit looking for function tags. */
2513 read_function_info (struct backtrace_state
*state
, struct dwarf_data
*ddata
,
2514 const struct line_header
*lhdr
,
2515 backtrace_error_callback error_callback
, void *data
,
2516 struct unit
*u
, struct function_vector
*fvec
,
2517 struct function_addrs
**ret_addrs
,
2518 size_t *ret_addrs_count
)
2520 struct function_vector lvec
;
2521 struct function_vector
*pfvec
;
2522 struct dwarf_buf unit_buf
;
2523 struct function_addrs
*addrs
;
2526 /* Use FVEC if it is not NULL. Otherwise use our own vector. */
2531 memset (&lvec
, 0, sizeof lvec
);
2535 unit_buf
.name
= ".debug_info";
2536 unit_buf
.start
= ddata
->dwarf_info
;
2537 unit_buf
.buf
= u
->unit_data
;
2538 unit_buf
.left
= u
->unit_data_len
;
2539 unit_buf
.is_bigendian
= ddata
->is_bigendian
;
2540 unit_buf
.error_callback
= error_callback
;
2541 unit_buf
.data
= data
;
2542 unit_buf
.reported_underflow
= 0;
2544 while (unit_buf
.left
> 0)
2546 if (!read_function_entry (state
, ddata
, u
, 0, &unit_buf
, lhdr
,
2547 error_callback
, data
, pfvec
, pfvec
))
2551 if (pfvec
->count
== 0)
2554 addrs_count
= pfvec
->count
;
2558 if (!backtrace_vector_release (state
, &lvec
.vec
, error_callback
, data
))
2560 addrs
= (struct function_addrs
*) pfvec
->vec
.base
;
2564 /* Finish this list of addresses, but leave the remaining space in
2565 the vector available for the next function unit. */
2566 addrs
= ((struct function_addrs
*)
2567 backtrace_vector_finish (state
, &fvec
->vec
,
2568 error_callback
, data
));
2574 backtrace_qsort (addrs
, addrs_count
, sizeof (struct function_addrs
),
2575 function_addrs_compare
);
2578 *ret_addrs_count
= addrs_count
;
2581 /* See if PC is inlined in FUNCTION. If it is, print out the inlined
2582 information, and update FILENAME and LINENO for the caller.
2583 Returns whatever CALLBACK returns, or 0 to keep going. */
2586 report_inlined_functions (uintptr_t pc
, struct function
*function
,
2587 backtrace_full_callback callback
, void *data
,
2588 const char **filename
, int *lineno
)
2590 struct function_addrs
*function_addrs
;
2591 struct function
*inlined
;
2594 if (function
->function_addrs_count
== 0)
2597 function_addrs
= ((struct function_addrs
*)
2598 bsearch (&pc
, function
->function_addrs
,
2599 function
->function_addrs_count
,
2600 sizeof (struct function_addrs
),
2601 function_addrs_search
));
2602 if (function_addrs
== NULL
)
2605 while (((size_t) (function_addrs
- function
->function_addrs
) + 1
2606 < function
->function_addrs_count
)
2607 && pc
>= (function_addrs
+ 1)->low
2608 && pc
< (function_addrs
+ 1)->high
)
2611 /* We found an inlined call. */
2613 inlined
= function_addrs
->function
;
2615 /* Report any calls inlined into this one. */
2616 ret
= report_inlined_functions (pc
, inlined
, callback
, data
,
2621 /* Report this inlined call. */
2622 ret
= callback (data
, pc
, *filename
, *lineno
, inlined
->name
);
2626 /* Our caller will report the caller of the inlined function; tell
2627 it the appropriate filename and line number. */
2628 *filename
= inlined
->caller_filename
;
2629 *lineno
= inlined
->caller_lineno
;
2634 /* Look for a PC in the DWARF mapping for one module. On success,
2635 call CALLBACK and return whatever it returns. On error, call
2636 ERROR_CALLBACK and return 0. Sets *FOUND to 1 if the PC is found,
2640 dwarf_lookup_pc (struct backtrace_state
*state
, struct dwarf_data
*ddata
,
2641 uintptr_t pc
, backtrace_full_callback callback
,
2642 backtrace_error_callback error_callback
, void *data
,
2645 struct unit_addrs
*entry
;
2650 struct function_addrs
*function_addrs
;
2651 struct function
*function
;
2652 const char *filename
;
2658 /* Find an address range that includes PC. */
2659 entry
= bsearch (&pc
, ddata
->addrs
, ddata
->addrs_count
,
2660 sizeof (struct unit_addrs
), unit_addrs_search
);
2668 /* If there are multiple ranges that contain PC, use the last one,
2669 in order to produce predictable results. If we assume that all
2670 ranges are properly nested, then the last range will be the
2672 while ((size_t) (entry
- ddata
->addrs
) + 1 < ddata
->addrs_count
2673 && pc
>= (entry
+ 1)->low
2674 && pc
< (entry
+ 1)->high
)
2677 /* We need the lines, lines_count, function_addrs,
2678 function_addrs_count fields of u. If they are not set, we need
2679 to set them. When running in threaded mode, we need to allow for
2680 the possibility that some other thread is setting them
2686 /* Skip units with no useful line number information by walking
2687 backward. Useless line number information is marked by setting
2689 while (entry
> ddata
->addrs
2690 && pc
>= (entry
- 1)->low
2691 && pc
< (entry
- 1)->high
)
2693 if (state
->threaded
)
2694 lines
= (struct line
*) backtrace_atomic_load_pointer (&u
->lines
);
2696 if (lines
!= (struct line
*) (uintptr_t) -1)
2705 if (state
->threaded
)
2706 lines
= backtrace_atomic_load_pointer (&u
->lines
);
2711 size_t function_addrs_count
;
2712 struct line_header lhdr
;
2715 /* We have never read the line information for this unit. Read
2718 function_addrs
= NULL
;
2719 function_addrs_count
= 0;
2720 if (read_line_info (state
, ddata
, error_callback
, data
, entry
->u
, &lhdr
,
2723 struct function_vector
*pfvec
;
2725 /* If not threaded, reuse DDATA->FVEC for better memory
2727 if (state
->threaded
)
2730 pfvec
= &ddata
->fvec
;
2731 read_function_info (state
, ddata
, &lhdr
, error_callback
, data
,
2732 entry
->u
, pfvec
, &function_addrs
,
2733 &function_addrs_count
);
2734 free_line_header (state
, &lhdr
, error_callback
, data
);
2738 /* Atomically store the information we just read into the unit.
2739 If another thread is simultaneously writing, it presumably
2740 read the same information, and we don't care which one we
2741 wind up with; we just leak the other one. We do have to
2742 write the lines field last, so that the acquire-loads above
2743 ensure that the other fields are set. */
2745 if (!state
->threaded
)
2747 u
->lines_count
= count
;
2748 u
->function_addrs
= function_addrs
;
2749 u
->function_addrs_count
= function_addrs_count
;
2754 backtrace_atomic_store_size_t (&u
->lines_count
, count
);
2755 backtrace_atomic_store_pointer (&u
->function_addrs
, function_addrs
);
2756 backtrace_atomic_store_size_t (&u
->function_addrs_count
,
2757 function_addrs_count
);
2758 backtrace_atomic_store_pointer (&u
->lines
, lines
);
2762 /* Now all fields of U have been initialized. */
2764 if (lines
== (struct line
*) (uintptr_t) -1)
2766 /* If reading the line number information failed in some way,
2767 try again to see if there is a better compilation unit for
2770 return dwarf_lookup_pc (state
, ddata
, pc
, callback
, error_callback
,
2772 return callback (data
, pc
, NULL
, 0, NULL
);
2775 /* Search for PC within this unit. */
2777 ln
= (struct line
*) bsearch (&pc
, lines
, entry
->u
->lines_count
,
2778 sizeof (struct line
), line_search
);
2781 /* The PC is between the low_pc and high_pc attributes of the
2782 compilation unit, but no entry in the line table covers it.
2783 This implies that the start of the compilation unit has no
2784 line number information. */
2786 if (entry
->u
->abs_filename
== NULL
)
2788 const char *filename
;
2790 filename
= entry
->u
->filename
;
2791 if (filename
!= NULL
2792 && !IS_ABSOLUTE_PATH (filename
)
2793 && entry
->u
->comp_dir
!= NULL
)
2795 size_t filename_len
;
2800 filename_len
= strlen (filename
);
2801 dir
= entry
->u
->comp_dir
;
2802 dir_len
= strlen (dir
);
2803 s
= (char *) backtrace_alloc (state
, dir_len
+ filename_len
+ 2,
2804 error_callback
, data
);
2810 memcpy (s
, dir
, dir_len
);
2811 /* FIXME: Should use backslash if DOS file system. */
2813 memcpy (s
+ dir_len
+ 1, filename
, filename_len
+ 1);
2816 entry
->u
->abs_filename
= filename
;
2819 return callback (data
, pc
, entry
->u
->abs_filename
, 0, NULL
);
2822 /* Search for function name within this unit. */
2824 if (entry
->u
->function_addrs_count
== 0)
2825 return callback (data
, pc
, ln
->filename
, ln
->lineno
, NULL
);
2827 function_addrs
= ((struct function_addrs
*)
2828 bsearch (&pc
, entry
->u
->function_addrs
,
2829 entry
->u
->function_addrs_count
,
2830 sizeof (struct function_addrs
),
2831 function_addrs_search
));
2832 if (function_addrs
== NULL
)
2833 return callback (data
, pc
, ln
->filename
, ln
->lineno
, NULL
);
2835 /* If there are multiple function ranges that contain PC, use the
2836 last one, in order to produce predictable results. */
2838 while (((size_t) (function_addrs
- entry
->u
->function_addrs
+ 1)
2839 < entry
->u
->function_addrs_count
)
2840 && pc
>= (function_addrs
+ 1)->low
2841 && pc
< (function_addrs
+ 1)->high
)
2844 function
= function_addrs
->function
;
2846 filename
= ln
->filename
;
2847 lineno
= ln
->lineno
;
2849 ret
= report_inlined_functions (pc
, function
, callback
, data
,
2850 &filename
, &lineno
);
2854 return callback (data
, pc
, filename
, lineno
, function
->name
);
2858 /* Return the file/line information for a PC using the DWARF mapping
2859 we built earlier. */
2862 dwarf_fileline (struct backtrace_state
*state
, uintptr_t pc
,
2863 backtrace_full_callback callback
,
2864 backtrace_error_callback error_callback
, void *data
)
2866 struct dwarf_data
*ddata
;
2870 if (!state
->threaded
)
2872 for (ddata
= (struct dwarf_data
*) state
->fileline_data
;
2874 ddata
= ddata
->next
)
2876 ret
= dwarf_lookup_pc (state
, ddata
, pc
, callback
, error_callback
,
2878 if (ret
!= 0 || found
)
2884 struct dwarf_data
**pp
;
2886 pp
= (struct dwarf_data
**) (void *) &state
->fileline_data
;
2889 ddata
= backtrace_atomic_load_pointer (pp
);
2893 ret
= dwarf_lookup_pc (state
, ddata
, pc
, callback
, error_callback
,
2895 if (ret
!= 0 || found
)
2902 /* FIXME: See if any libraries have been dlopen'ed. */
2904 return callback (data
, pc
, NULL
, 0, NULL
);
2907 /* Initialize our data structures from the DWARF debug info for a
2908 file. Return NULL on failure. */
2910 static struct dwarf_data
*
2911 build_dwarf_data (struct backtrace_state
*state
,
2912 uintptr_t base_address
,
2913 const unsigned char *dwarf_info
,
2914 size_t dwarf_info_size
,
2915 const unsigned char *dwarf_line
,
2916 size_t dwarf_line_size
,
2917 const unsigned char *dwarf_abbrev
,
2918 size_t dwarf_abbrev_size
,
2919 const unsigned char *dwarf_ranges
,
2920 size_t dwarf_ranges_size
,
2921 const unsigned char *dwarf_str
,
2922 size_t dwarf_str_size
,
2924 backtrace_error_callback error_callback
,
2927 struct unit_addrs_vector addrs_vec
;
2928 struct unit_addrs
*addrs
;
2930 struct dwarf_data
*fdata
;
2932 if (!build_address_map (state
, base_address
, dwarf_info
, dwarf_info_size
,
2933 dwarf_abbrev
, dwarf_abbrev_size
, dwarf_ranges
,
2934 dwarf_ranges_size
, dwarf_str
, dwarf_str_size
,
2935 is_bigendian
, error_callback
, data
, &addrs_vec
))
2938 if (!backtrace_vector_release (state
, &addrs_vec
.vec
, error_callback
, data
))
2940 addrs
= (struct unit_addrs
*) addrs_vec
.vec
.base
;
2941 addrs_count
= addrs_vec
.count
;
2942 backtrace_qsort (addrs
, addrs_count
, sizeof (struct unit_addrs
),
2943 unit_addrs_compare
);
2945 fdata
= ((struct dwarf_data
*)
2946 backtrace_alloc (state
, sizeof (struct dwarf_data
),
2947 error_callback
, data
));
2952 fdata
->base_address
= base_address
;
2953 fdata
->addrs
= addrs
;
2954 fdata
->addrs_count
= addrs_count
;
2955 fdata
->dwarf_info
= dwarf_info
;
2956 fdata
->dwarf_info_size
= dwarf_info_size
;
2957 fdata
->dwarf_line
= dwarf_line
;
2958 fdata
->dwarf_line_size
= dwarf_line_size
;
2959 fdata
->dwarf_ranges
= dwarf_ranges
;
2960 fdata
->dwarf_ranges_size
= dwarf_ranges_size
;
2961 fdata
->dwarf_str
= dwarf_str
;
2962 fdata
->dwarf_str_size
= dwarf_str_size
;
2963 fdata
->is_bigendian
= is_bigendian
;
2964 memset (&fdata
->fvec
, 0, sizeof fdata
->fvec
);
2969 /* Build our data structures from the DWARF sections for a module.
2970 Set FILELINE_FN and STATE->FILELINE_DATA. Return 1 on success, 0
2974 backtrace_dwarf_add (struct backtrace_state
*state
,
2975 uintptr_t base_address
,
2976 const unsigned char *dwarf_info
,
2977 size_t dwarf_info_size
,
2978 const unsigned char *dwarf_line
,
2979 size_t dwarf_line_size
,
2980 const unsigned char *dwarf_abbrev
,
2981 size_t dwarf_abbrev_size
,
2982 const unsigned char *dwarf_ranges
,
2983 size_t dwarf_ranges_size
,
2984 const unsigned char *dwarf_str
,
2985 size_t dwarf_str_size
,
2987 backtrace_error_callback error_callback
,
2988 void *data
, fileline
*fileline_fn
)
2990 struct dwarf_data
*fdata
;
2992 fdata
= build_dwarf_data (state
, base_address
, dwarf_info
, dwarf_info_size
,
2993 dwarf_line
, dwarf_line_size
, dwarf_abbrev
,
2994 dwarf_abbrev_size
, dwarf_ranges
, dwarf_ranges_size
,
2995 dwarf_str
, dwarf_str_size
, is_bigendian
,
2996 error_callback
, data
);
3000 if (!state
->threaded
)
3002 struct dwarf_data
**pp
;
3004 for (pp
= (struct dwarf_data
**) (void *) &state
->fileline_data
;
3014 struct dwarf_data
**pp
;
3016 pp
= (struct dwarf_data
**) (void *) &state
->fileline_data
;
3020 struct dwarf_data
*p
;
3022 p
= backtrace_atomic_load_pointer (pp
);
3030 if (__sync_bool_compare_and_swap (pp
, NULL
, fdata
))
3035 *fileline_fn
= dwarf_fileline
;