1 // Copyright (c) 2006, Google Inc.
2 // All rights reserved.
4 // Redistribution and use in source and binary forms, with or without
5 // modification, are permitted provided that the following conditions are
8 // * Redistributions of source code must retain the above copyright
9 // notice, this list of conditions and the following disclaimer.
10 // * Redistributions in binary form must reproduce the above
11 // copyright notice, this list of conditions and the following disclaimer
12 // in the documentation and/or other materials provided with the
14 // * Neither the name of Google Inc. nor the names of its
15 // contributors may be used to endorse or promote products derived from
16 // this software without specific prior written permission.
18 // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
19 // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
20 // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
21 // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
22 // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
23 // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
24 // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
25 // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
26 // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
27 // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
28 // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
30 // Author: Satoru Takabayashi
31 // Stack-footprint reduction work done by Raksit Ashok
33 // Implementation note:
35 // We don't use heaps but only use stacks. We want to reduce the
36 // stack consumption so that the symbolizer can run on small stacks.
38 // Here are some numbers collected with GCC 4.1.0 on x86:
39 // - sizeof(Elf32_Sym) = 16
40 // - sizeof(Elf32_Shdr) = 40
41 // - sizeof(Elf64_Sym) = 24
42 // - sizeof(Elf64_Shdr) = 64
44 // This implementation is intended to be async-signal-safe but uses
45 // some functions which are not guaranteed to be so, such as memchr()
46 // and memmove(). We assume they are async-signal-safe.
48 // Additional header can be specified by the GLOG_BUILD_CONFIG_INCLUDE
49 // macro to add platform specific defines (e.g. OS_OPENBSD).
51 #ifdef GLOG_BUILD_CONFIG_INCLUDE
52 #include GLOG_BUILD_CONFIG_INCLUDE
53 #endif // GLOG_BUILD_CONFIG_INCLUDE
55 #include "utilities.h"
57 #if defined(HAVE_SYMBOLIZE)
61 #include "symbolize.h"
64 _START_GOOGLE_NAMESPACE_
66 // We don't use assert() since it's not guaranteed to be
67 // async-signal-safe. Instead we define a minimal assertion
68 // macro. So far, we don't need pretty printing for __FILE__, etc.
70 // A wrapper for abort() to make it callable in ? :.
71 static int AssertFail() {
73 return 0; // Should not reach.
76 #define SAFE_ASSERT(expr) ((expr) ? 0 : AssertFail())
78 static SymbolizeCallback g_symbolize_callback
= NULL
;
79 void InstallSymbolizeCallback(SymbolizeCallback callback
) {
80 g_symbolize_callback
= callback
;
83 static SymbolizeOpenObjectFileCallback g_symbolize_open_object_file_callback
=
85 void InstallSymbolizeOpenObjectFileCallback(
86 SymbolizeOpenObjectFileCallback callback
) {
87 g_symbolize_open_object_file_callback
= callback
;
90 // This function wraps the Demangle function to provide an interface
91 // where the input symbol is demangled in-place.
92 // To keep stack consumption low, we would like this function to not
94 static ATTRIBUTE_NOINLINE
void DemangleInplace(char *out
, int out_size
) {
95 char demangled
[256]; // Big enough for sane demangled symbols.
96 if (Demangle(out
, demangled
, sizeof(demangled
))) {
97 // Demangling succeeded. Copy to out if the space allows.
98 size_t len
= strlen(demangled
);
99 if (len
+ 1 <= (size_t)out_size
) { // +1 for '\0'.
100 SAFE_ASSERT(len
< sizeof(demangled
));
101 memmove(out
, demangled
, len
+ 1);
106 _END_GOOGLE_NAMESPACE_
111 #if defined(OS_OPENBSD)
112 #include <sys/exec_elf.h>
124 #include <sys/stat.h>
125 #include <sys/types.h>
128 #include "symbolize.h"
130 #include "glog/raw_logging.h"
132 // Re-runs fn until it doesn't cause EINTR.
133 #define NO_INTR(fn) do {} while ((fn) < 0 && errno == EINTR)
135 _START_GOOGLE_NAMESPACE_
137 // Read up to "count" bytes from file descriptor "fd" into the buffer
138 // starting at "buf" while handling short reads and EINTR. On
139 // success, return the number of bytes read. Otherwise, return -1.
140 static ssize_t
ReadPersistent(const int fd
, void *buf
, const size_t count
) {
141 SAFE_ASSERT(fd
>= 0);
142 SAFE_ASSERT(count
<= std::numeric_limits
<ssize_t
>::max());
143 char *buf0
= reinterpret_cast<char *>(buf
);
144 ssize_t num_bytes
= 0;
145 while (num_bytes
< count
) {
147 NO_INTR(len
= read(fd
, buf0
+ num_bytes
, count
- num_bytes
));
148 if (len
< 0) { // There was an error other than EINTR.
151 if (len
== 0) { // Reached EOF.
156 SAFE_ASSERT(num_bytes
<= count
);
160 // Read up to "count" bytes from "offset" in the file pointed by file
161 // descriptor "fd" into the buffer starting at "buf". On success,
162 // return the number of bytes read. Otherwise, return -1.
163 static ssize_t
ReadFromOffset(const int fd
, void *buf
,
164 const size_t count
, const off_t offset
) {
165 off_t off
= lseek(fd
, offset
, SEEK_SET
);
166 if (off
== (off_t
)-1) {
169 return ReadPersistent(fd
, buf
, count
);
172 // Try reading exactly "count" bytes from "offset" bytes in a file
173 // pointed by "fd" into the buffer starting at "buf" while handling
174 // short reads and EINTR. On success, return true. Otherwise, return
176 static bool ReadFromOffsetExact(const int fd
, void *buf
,
177 const size_t count
, const off_t offset
) {
178 ssize_t len
= ReadFromOffset(fd
, buf
, count
, offset
);
182 // Returns elf_header.e_type if the file pointed by fd is an ELF binary.
183 static int FileGetElfType(const int fd
) {
184 ElfW(Ehdr
) elf_header
;
185 if (!ReadFromOffsetExact(fd
, &elf_header
, sizeof(elf_header
), 0)) {
188 if (memcmp(elf_header
.e_ident
, ELFMAG
, SELFMAG
) != 0) {
191 return elf_header
.e_type
;
194 // Read the section headers in the given ELF binary, and if a section
195 // of the specified type is found, set the output to this section header
196 // and return true. Otherwise, return false.
197 // To keep stack consumption low, we would like this function to not get
199 static ATTRIBUTE_NOINLINE
bool
200 GetSectionHeaderByType(const int fd
, ElfW(Half
) sh_num
, const off_t sh_offset
,
201 ElfW(Word
) type
, ElfW(Shdr
) *out
) {
202 // Read at most 16 section headers at a time to save read calls.
204 for (int i
= 0; i
< sh_num
;) {
205 const ssize_t num_bytes_left
= (sh_num
- i
) * sizeof(buf
[0]);
206 const ssize_t num_bytes_to_read
=
207 (sizeof(buf
) > num_bytes_left
) ? num_bytes_left
: sizeof(buf
);
208 const ssize_t len
= ReadFromOffset(fd
, buf
, num_bytes_to_read
,
209 sh_offset
+ i
* sizeof(buf
[0]));
210 SAFE_ASSERT(len
% sizeof(buf
[0]) == 0);
211 const ssize_t num_headers_in_buf
= len
/ sizeof(buf
[0]);
212 SAFE_ASSERT(num_headers_in_buf
<= sizeof(buf
) / sizeof(buf
[0]));
213 for (int j
= 0; j
< num_headers_in_buf
; ++j
) {
214 if (buf
[j
].sh_type
== type
) {
219 i
+= num_headers_in_buf
;
224 // There is no particular reason to limit section name to 63 characters,
225 // but there has (as yet) been no need for anything longer either.
226 const int kMaxSectionNameLen
= 64;
228 // name_len should include terminating '\0'.
229 bool GetSectionHeaderByName(int fd
, const char *name
, size_t name_len
,
231 ElfW(Ehdr
) elf_header
;
232 if (!ReadFromOffsetExact(fd
, &elf_header
, sizeof(elf_header
), 0)) {
237 off_t shstrtab_offset
= (elf_header
.e_shoff
+
238 elf_header
.e_shentsize
* elf_header
.e_shstrndx
);
239 if (!ReadFromOffsetExact(fd
, &shstrtab
, sizeof(shstrtab
), shstrtab_offset
)) {
243 for (int i
= 0; i
< elf_header
.e_shnum
; ++i
) {
244 off_t section_header_offset
= (elf_header
.e_shoff
+
245 elf_header
.e_shentsize
* i
);
246 if (!ReadFromOffsetExact(fd
, out
, sizeof(*out
), section_header_offset
)) {
249 char header_name
[kMaxSectionNameLen
];
250 if (sizeof(header_name
) < name_len
) {
251 RAW_LOG(WARNING
, "Section name '%s' is too long (%" PRIuS
"); "
252 "section will not be found (even if present).", name
, name_len
);
253 // No point in even trying.
256 off_t name_offset
= shstrtab
.sh_offset
+ out
->sh_name
;
257 ssize_t n_read
= ReadFromOffset(fd
, &header_name
, name_len
, name_offset
);
260 } else if (n_read
!= name_len
) {
261 // Short read -- name could be at end of file.
264 if (memcmp(header_name
, name
, name_len
) == 0) {
271 // Read a symbol table and look for the symbol containing the
272 // pc. Iterate over symbols in a symbol table and look for the symbol
273 // containing "pc". On success, return true and write the symbol name
274 // to out. Otherwise, return false.
275 // To keep stack consumption low, we would like this function to not get
277 static ATTRIBUTE_NOINLINE
bool
278 FindSymbol(uint64_t pc
, const int fd
, char *out
, int out_size
,
279 uint64_t symbol_offset
, const ElfW(Shdr
) *strtab
,
280 const ElfW(Shdr
) *symtab
) {
281 if (symtab
== NULL
) {
284 const int num_symbols
= symtab
->sh_size
/ symtab
->sh_entsize
;
285 for (int i
= 0; i
< num_symbols
;) {
286 off_t offset
= symtab
->sh_offset
+ i
* symtab
->sh_entsize
;
288 // If we are reading Elf64_Sym's, we want to limit this array to
289 // 32 elements (to keep stack consumption low), otherwise we can
290 // have a 64 element Elf32_Sym array.
292 #define NUM_SYMBOLS 32
294 #define NUM_SYMBOLS 64
297 // Read at most NUM_SYMBOLS symbols at once to save read() calls.
298 ElfW(Sym
) buf
[NUM_SYMBOLS
];
299 const ssize_t len
= ReadFromOffset(fd
, &buf
, sizeof(buf
), offset
);
300 SAFE_ASSERT(len
% sizeof(buf
[0]) == 0);
301 const ssize_t num_symbols_in_buf
= len
/ sizeof(buf
[0]);
302 SAFE_ASSERT(num_symbols_in_buf
<= sizeof(buf
)/sizeof(buf
[0]));
303 for (int j
= 0; j
< num_symbols_in_buf
; ++j
) {
304 const ElfW(Sym
)& symbol
= buf
[j
];
305 uint64_t start_address
= symbol
.st_value
;
306 start_address
+= symbol_offset
;
307 uint64_t end_address
= start_address
+ symbol
.st_size
;
308 if (symbol
.st_value
!= 0 && // Skip null value symbols.
309 symbol
.st_shndx
!= 0 && // Skip undefined symbols.
310 start_address
<= pc
&& pc
< end_address
) {
311 ssize_t len1
= ReadFromOffset(fd
, out
, out_size
,
312 strtab
->sh_offset
+ symbol
.st_name
);
313 if (len1
<= 0 || memchr(out
, '\0', out_size
) == NULL
) {
316 return true; // Obtained the symbol name.
319 i
+= num_symbols_in_buf
;
324 // Get the symbol name of "pc" from the file pointed by "fd". Process
325 // both regular and dynamic symbol tables if necessary. On success,
326 // write the symbol name to "out" and return true. Otherwise, return
328 static bool GetSymbolFromObjectFile(const int fd
, uint64_t pc
,
329 char *out
, int out_size
,
330 uint64_t map_start_address
) {
331 // Read the ELF header.
332 ElfW(Ehdr
) elf_header
;
333 if (!ReadFromOffsetExact(fd
, &elf_header
, sizeof(elf_header
), 0)) {
337 uint64_t symbol_offset
= 0;
338 if (elf_header
.e_type
== ET_DYN
) { // DSO needs offset adjustment.
339 symbol_offset
= map_start_address
;
342 ElfW(Shdr
) symtab
, strtab
;
344 // Consult a regular symbol table first.
345 if (GetSectionHeaderByType(fd
, elf_header
.e_shnum
, elf_header
.e_shoff
,
346 SHT_SYMTAB
, &symtab
)) {
347 if (!ReadFromOffsetExact(fd
, &strtab
, sizeof(strtab
), elf_header
.e_shoff
+
348 symtab
.sh_link
* sizeof(symtab
))) {
351 if (FindSymbol(pc
, fd
, out
, out_size
, symbol_offset
,
353 return true; // Found the symbol in a regular symbol table.
357 // If the symbol is not found, then consult a dynamic symbol table.
358 if (GetSectionHeaderByType(fd
, elf_header
.e_shnum
, elf_header
.e_shoff
,
359 SHT_DYNSYM
, &symtab
)) {
360 if (!ReadFromOffsetExact(fd
, &strtab
, sizeof(strtab
), elf_header
.e_shoff
+
361 symtab
.sh_link
* sizeof(symtab
))) {
364 if (FindSymbol(pc
, fd
, out
, out_size
, symbol_offset
,
366 return true; // Found the symbol in a dynamic symbol table.
374 // Thin wrapper around a file descriptor so that the file descriptor
375 // gets closed for sure.
376 struct FileDescriptor
{
378 explicit FileDescriptor(int fd
) : fd_(fd
) {}
384 int get() { return fd_
; }
387 explicit FileDescriptor(const FileDescriptor
&);
388 void operator=(const FileDescriptor
&);
391 // Helper class for reading lines from file.
393 // Note: we don't use ProcMapsIterator since the object is big (it has
394 // a 5k array member) and uses async-unsafe functions such as sscanf()
398 explicit LineReader(int fd
, char *buf
, int buf_len
) : fd_(fd
),
399 buf_(buf
), buf_len_(buf_len
), bol_(buf
), eol_(buf
), eod_(buf
) {
402 // Read '\n'-terminated line from file. On success, modify "bol"
403 // and "eol", then return true. Otherwise, return false.
405 // Note: if the last line doesn't end with '\n', the line will be
406 // dropped. It's an intentional behavior to make the code simple.
407 bool ReadLine(const char **bol
, const char **eol
) {
408 if (BufferIsEmpty()) { // First time.
409 const ssize_t num_bytes
= ReadPersistent(fd_
, buf_
, buf_len_
);
410 if (num_bytes
<= 0) { // EOF or error.
413 eod_
= buf_
+ num_bytes
;
416 bol_
= eol_
+ 1; // Advance to the next line in the buffer.
417 SAFE_ASSERT(bol_
<= eod_
); // "bol_" can point to "eod_".
418 if (!HasCompleteLine()) {
419 const int incomplete_line_length
= eod_
- bol_
;
420 // Move the trailing incomplete line to the beginning.
421 memmove(buf_
, bol_
, incomplete_line_length
);
422 // Read text from file and append it.
423 char * const append_pos
= buf_
+ incomplete_line_length
;
424 const int capacity_left
= buf_len_
- incomplete_line_length
;
425 const ssize_t num_bytes
= ReadPersistent(fd_
, append_pos
,
427 if (num_bytes
<= 0) { // EOF or error.
430 eod_
= append_pos
+ num_bytes
;
434 eol_
= FindLineFeed();
435 if (eol_
== NULL
) { // '\n' not found. Malformed line.
438 *eol_
= '\0'; // Replace '\n' with '\0'.
445 // Beginning of line.
456 explicit LineReader(const LineReader
&);
457 void operator=(const LineReader
&);
459 char *FindLineFeed() {
460 return reinterpret_cast<char *>(memchr(bol_
, '\n', eod_
- bol_
));
463 bool BufferIsEmpty() {
467 bool HasCompleteLine() {
468 return !BufferIsEmpty() && FindLineFeed() != NULL
;
476 const char *eod_
; // End of data in "buf_".
480 // Place the hex number read from "start" into "*hex". The pointer to
481 // the first non-hex character or "end" is returned.
482 static char *GetHex(const char *start
, const char *end
, uint64_t *hex
) {
485 for (p
= start
; p
< end
; ++p
) {
487 if ((ch
>= '0' && ch
<= '9') ||
488 (ch
>= 'A' && ch
<= 'F') || (ch
>= 'a' && ch
<= 'f')) {
489 *hex
= (*hex
<< 4) | (ch
< 'A' ? ch
- '0' : (ch
& 0xF) + 9);
490 } else { // Encountered the first non-hex character.
494 SAFE_ASSERT(p
<= end
);
495 return const_cast<char *>(p
);
498 // Searches for the object file (from /proc/self/maps) that contains
499 // the specified pc. If found, sets |start_address| to the start address
500 // of where this object file is mapped in memory, sets the module base
501 // address into |base_address|, copies the object file name into
502 // |out_file_name|, and attempts to open the object file. If the object
503 // file is opened successfully, returns the file descriptor. Otherwise,
504 // returns -1. |out_file_name_size| is the size of the file name buffer
505 // (including the null-terminator).
506 static ATTRIBUTE_NOINLINE
int
507 OpenObjectFileContainingPcAndGetStartAddress(uint64_t pc
,
508 uint64_t &start_address
,
509 uint64_t &base_address
,
511 int out_file_name_size
) {
514 // Open /proc/self/maps.
516 NO_INTR(maps_fd
= open("/proc/self/maps", O_RDONLY
));
517 FileDescriptor
wrapped_maps_fd(maps_fd
);
518 if (wrapped_maps_fd
.get() < 0) {
522 // Iterate over maps and look for the map containing the pc. Then
523 // look into the symbol tables inside.
524 char buf
[1024]; // Big enough for line of sane /proc/self/maps
526 LineReader
reader(wrapped_maps_fd
.get(), buf
, sizeof(buf
));
531 if (!reader
.ReadLine(&cursor
, &eol
)) { // EOF or malformed line.
535 // Start parsing line in /proc/self/maps. Here is an example:
537 // 08048000-0804c000 r-xp 00000000 08:01 2142121 /bin/cat
539 // We want start address (08048000), end address (0804c000), flags
540 // (r-xp) and file name (/bin/cat).
542 // Read start address.
543 cursor
= GetHex(cursor
, eol
, &start_address
);
544 if (cursor
== eol
|| *cursor
!= '-') {
545 return -1; // Malformed line.
547 ++cursor
; // Skip '-'.
550 uint64_t end_address
;
551 cursor
= GetHex(cursor
, eol
, &end_address
);
552 if (cursor
== eol
|| *cursor
!= ' ') {
553 return -1; // Malformed line.
555 ++cursor
; // Skip ' '.
557 // Check start and end addresses.
558 if (!(start_address
<= pc
&& pc
< end_address
)) {
559 continue; // We skip this map. PC isn't in this map.
562 // Read flags. Skip flags until we encounter a space or eol.
563 const char * const flags_start
= cursor
;
564 while (cursor
< eol
&& *cursor
!= ' ') {
567 // We expect at least four letters for flags (ex. "r-xp").
568 if (cursor
== eol
|| cursor
< flags_start
+ 4) {
569 return -1; // Malformed line.
572 // Check flags. We are only interested in "r-x" maps.
573 if (memcmp(flags_start
, "r-x", 3) != 0) { // Not a "r-x" map.
574 continue; // We skip this map.
576 ++cursor
; // Skip ' '.
579 uint64_t file_offset
;
580 cursor
= GetHex(cursor
, eol
, &file_offset
);
581 if (cursor
== eol
|| *cursor
!= ' ') {
582 return -1; // Malformed line.
584 ++cursor
; // Skip ' '.
586 // Don't subtract 'start_address' from the first entry:
587 // * If a binary is compiled w/o -pie, then the first entry in
588 // process maps is likely the binary itself (all dynamic libs
589 // are mapped higher in address space). For such a binary,
590 // instruction offset in binary coincides with the actual
591 // instruction address in virtual memory (as code section
592 // is mapped to a fixed memory range).
593 // * If a binary is compiled with -pie, all the modules are
594 // mapped high at address space (in particular, higher than
595 // shadow memory of the tool), so the module can't be the
597 base_address
= ((num_maps
== 1) ? 0U : start_address
) - file_offset
;
599 // Skip to file name. "cursor" now points to dev. We need to
600 // skip at least two spaces for dev and inode.
602 while (cursor
< eol
) {
603 if (*cursor
== ' ') {
605 } else if (num_spaces
>= 2) {
606 // The first non-space character after skipping two spaces
607 // is the beginning of the file name.
613 return -1; // Malformed line.
616 // Finally, "cursor" now points to file name of our interest.
617 NO_INTR(object_fd
= open(cursor
, O_RDONLY
));
619 // Failed to open object file. Copy the object file name to
621 strncpy(out_file_name
, cursor
, out_file_name_size
);
622 // Making sure |out_file_name| is always null-terminated.
623 out_file_name
[out_file_name_size
- 1] = '\0';
630 // POSIX doesn't define any async-signal safe function for converting
631 // an integer to ASCII. We'll have to define our own version.
632 // itoa_r() converts a (signed) integer to ASCII. It returns "buf", if the
633 // conversion was successful or NULL otherwise. It never writes more than "sz"
634 // bytes. Output will be truncated as needed, and a NUL character is always
636 // NOTE: code from sandbox/linux/seccomp-bpf/demo.cc.
637 char *itoa_r(intptr_t i
, char *buf
, size_t sz
, int base
, size_t padding
) {
638 // Make sure we can write at least one NUL byte.
643 if (base
< 2 || base
> 16) {
652 // Handle negative numbers (only for base 10).
653 if (i
< 0 && base
== 10) {
654 // This does "j = -i" while avoiding integer overflow.
655 j
= static_cast<uintptr_t>(-(i
+ 1)) + 1;
657 // Make sure we can write the '-' character.
665 // Loop until we have converted the entire number. Output at least one
666 // character (i.e. '0').
669 // Make sure there is still enough space left in our output buffer.
675 // Output the next digit.
676 *ptr
++ = "0123456789abcdef"[j
% base
];
681 } while (j
> 0 || padding
> 0);
683 // Terminate the output with a NUL character.
686 // Conversion to ASCII actually resulted in the digits being in reverse
687 // order. We can't easily generate them in forward order, as we can't tell
688 // the number of characters needed until we are done converting.
689 // So, now, we reverse the string (except for the possible "-" sign).
690 while (--ptr
> start
) {
698 // Safely appends string |source| to string |dest|. Never writes past the
699 // buffer size |dest_size| and guarantees that |dest| is null-terminated.
700 void SafeAppendString(const char* source
, char* dest
, int dest_size
) {
701 int dest_string_length
= strlen(dest
);
702 SAFE_ASSERT(dest_string_length
< dest_size
);
703 dest
+= dest_string_length
;
704 dest_size
-= dest_string_length
;
705 strncpy(dest
, source
, dest_size
);
706 // Making sure |dest| is always null-terminated.
707 dest
[dest_size
- 1] = '\0';
710 // Converts a 64-bit value into a hex string, and safely appends it to |dest|.
711 // Never writes past the buffer size |dest_size| and guarantees that |dest| is
713 void SafeAppendHexNumber(uint64_t value
, char* dest
, int dest_size
) {
714 // 64-bit numbers in hex can have up to 16 digits.
715 char buf
[17] = {'\0'};
716 SafeAppendString(itoa_r(value
, buf
, sizeof(buf
), 16, 0), dest
, dest_size
);
719 // The implementation of our symbolization routine. If it
720 // successfully finds the symbol containing "pc" and obtains the
721 // symbol name, returns true and write the symbol name to "out".
722 // Otherwise, returns false. If Callback function is installed via
723 // InstallSymbolizeCallback(), the function is also called in this function,
724 // and "out" is used as its output.
725 // To keep stack consumption low, we would like this function to not
727 static ATTRIBUTE_NOINLINE
bool SymbolizeAndDemangle(void *pc
, char *out
,
729 uint64_t pc0
= reinterpret_cast<uintptr_t>(pc
);
730 uint64_t start_address
= 0;
731 uint64_t base_address
= 0;
738 SafeAppendString("(", out
, out_size
);
740 if (g_symbolize_open_object_file_callback
) {
741 object_fd
= g_symbolize_open_object_file_callback(pc0
, start_address
,
742 base_address
, out
+ 1,
745 object_fd
= OpenObjectFileContainingPcAndGetStartAddress(pc0
, start_address
,
751 // Check whether a file name was returned.
754 // The object file containing PC was determined successfully however the
755 // object file was not opened successfully. This is still considered
756 // success because the object file name and offset are known and tools
757 // like asan_symbolize.py can be used for the symbolization.
758 out
[out_size
- 1] = '\0'; // Making sure |out| is always null-terminated.
759 SafeAppendString("+0x", out
, out_size
);
760 SafeAppendHexNumber(pc0
- base_address
, out
, out_size
);
761 SafeAppendString(")", out
, out_size
);
764 // Failed to determine the object file containing PC. Bail out.
767 FileDescriptor
wrapped_object_fd(object_fd
);
768 int elf_type
= FileGetElfType(wrapped_object_fd
.get());
769 if (elf_type
== -1) {
772 if (g_symbolize_callback
) {
773 // Run the call back if it's installed.
774 // Note: relocation (and much of the rest of this code) will be
775 // wrong for prelinked shared libraries and PIE executables.
776 uint64 relocation
= (elf_type
== ET_DYN
) ? start_address
: 0;
777 int num_bytes_written
= g_symbolize_callback(wrapped_object_fd
.get(),
780 if (num_bytes_written
> 0) {
781 out
+= num_bytes_written
;
782 out_size
-= num_bytes_written
;
785 if (!GetSymbolFromObjectFile(wrapped_object_fd
.get(), pc0
,
786 out
, out_size
, start_address
)) {
790 // Symbolization succeeded. Now we try to demangle the symbol.
791 DemangleInplace(out
, out_size
);
795 _END_GOOGLE_NAMESPACE_
797 #elif defined(OS_MACOSX) && defined(HAVE_DLADDR)
802 _START_GOOGLE_NAMESPACE_
804 static ATTRIBUTE_NOINLINE
bool SymbolizeAndDemangle(void *pc
, char *out
,
807 if (dladdr(pc
, &info
)) {
808 if ((int)strlen(info
.dli_sname
) < out_size
) {
809 strcpy(out
, info
.dli_sname
);
810 // Symbolization succeeded. Now we try to demangle the symbol.
811 DemangleInplace(out
, out_size
);
818 _END_GOOGLE_NAMESPACE_
821 # error BUG: HAVE_SYMBOLIZE was wrongly set
824 _START_GOOGLE_NAMESPACE_
826 bool Symbolize(void *pc
, char *out
, int out_size
) {
827 SAFE_ASSERT(out_size
>= 0);
828 return SymbolizeAndDemangle(pc
, out
, out_size
);
831 _END_GOOGLE_NAMESPACE_
833 #else /* HAVE_SYMBOLIZE */
839 _START_GOOGLE_NAMESPACE_
841 // TODO: Support other environments.
842 bool Symbolize(void *pc
, char *out
, int out_size
) {
847 _END_GOOGLE_NAMESPACE_