1 /* Read and display shared object profiling data.
2 Copyright (C) 1997, 1998, 1999, 2000 Free Software Foundation, Inc.
3 This file is part of the GNU C Library.
4 Contributed by Ulrich Drepper <drepper@cygnus.com>, 1997.
6 The GNU C Library is free software; you can redistribute it and/or
7 modify it under the terms of the GNU Library General Public License as
8 published by the Free Software Foundation; either version 2 of the
9 License, or (at your option) any later version.
11 The GNU C Library is distributed in the hope that it will be useful,
12 but WITHOUT ANY WARRANTY; without even the implied warranty of
13 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
14 Library General Public License for more details.
16 You should have received a copy of the GNU Library General Public
17 License along with the GNU C Library; see the file COPYING.LIB. If not,
18 write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330,
19 Boston, MA 02111-1307, USA. */
37 #include <sys/gmon_out.h>
39 #include <sys/param.h>
42 /* Get libc version number. */
43 #include "../version.h"
45 #define PACKAGE _libc_intl_domainname
49 #if BYTE_ORDER == BIG_ENDIAN
50 #define byteorder ELFDATA2MSB
51 #define byteorder_name "big-endian"
52 #elif BYTE_ORDER == LITTLE_ENDIAN
53 #define byteorder ELFDATA2LSB
54 #define byteorder_name "little-endian"
56 #error "Unknown BYTE_ORDER " BYTE_ORDER
57 #define byteorder ELFDATANONE
61 extern int __profile_frequency (void);
63 /* Name and version of program. */
64 static void print_version (FILE *stream
, struct argp_state
*state
);
65 void (*argp_program_version_hook
) (FILE *, struct argp_state
*) = print_version
;
69 /* Definitions of arguments for argp functions. */
70 static const struct argp_option options
[] =
72 { NULL
, 0, NULL
, 0, N_("Output selection:") },
73 { "call-pairs", 'c', NULL
, 0,
74 N_("print list of count paths and their number of use") },
75 { "flat-profile", 'p', NULL
, 0,
76 N_("generate flat profile with counts and ticks") },
77 { "graph", 'q', NULL
, 0, N_("generate call graph") },
79 { "test", OPT_TEST
, NULL
, OPTION_HIDDEN
, NULL
},
80 { NULL
, 0, NULL
, 0, NULL
}
83 /* Short description of program. */
84 static const char doc
[] = N_("Read and display shared object profiling data");
86 /* Strings for arguments in help texts. */
87 static const char args_doc
[] = N_("SHOBJ [PROFDATA]");
89 /* Prototype for option handler. */
90 static error_t
parse_opt (int key
, char *arg
, struct argp_state
*state
);
92 /* Data structure to communicate with argp functions. */
93 static struct argp argp
=
95 options
, parse_opt
, args_doc
, doc
, NULL
, NULL
99 /* Operation modes. */
104 CALL_GRAPH_MODE
= 1 << 1,
107 DEFAULT_MODE
= FLAT_MODE
| CALL_GRAPH_MODE
110 /* If nonzero the total number of invocations of a function is emitted. */
113 /* Nozero for testing. */
116 /* Strcuture describing calls. */
117 struct here_fromstruct
119 struct here_cg_arc_record
volatile *here
;
123 /* We define a special type to address the elements of the arc table.
124 This is basically the `gmon_cg_arc_record' format but it includes
125 the room for the tag and it uses real types. */
126 struct here_cg_arc_record
131 } __attribute__ ((packed
));
140 struct arc_list
*next
;
143 static struct obstack ob_list
;
155 struct arc_list
*froms
;
156 struct arc_list
*tos
;
162 const char *name
; /* User-provided name. */
164 struct link_map
*map
;
165 const char *dynstrtab
; /* Dynamic string table of shared object. */
166 const char *soname
; /* Soname of shared object. */
170 unsigned long int kcountsize
;
171 size_t expected_size
; /* Expected size of profiling file. */
175 unsigned int hashfraction
;
179 size_t symbol_mapsize
;
180 const ElfW(Sym
) *symtab
;
184 struct obstack ob_str
;
185 struct obstack ob_sym
;
195 struct gmon_hist_hdr
*hist_hdr
;
197 uint32_t narcs
; /* Number of arcs in toset. */
198 struct here_cg_arc_record
*data
;
200 struct here_fromstruct
*froms
;
203 /* Search tree for symbols. */
205 static struct known_symbol
**sortsym
;
206 static size_t symidx
;
207 static uintmax_t total_ticks
;
209 /* Prototypes for local functions. */
210 static struct shobj
*load_shobj (const char *name
);
211 static void unload_shobj (struct shobj
*shobj
);
212 static struct profdata
*load_profdata (const char *name
, struct shobj
*shobj
);
213 static void unload_profdata (struct profdata
*profdata
);
214 static void count_total_ticks (struct shobj
*shobj
, struct profdata
*profdata
);
215 static void count_calls (struct shobj
*shobj
, struct profdata
*profdata
);
216 static void read_symbols (struct shobj
*shobj
);
217 static void add_arcs (struct profdata
*profdata
);
218 static void generate_flat_profile (struct profdata
*profdata
);
219 static void generate_call_graph (struct profdata
*profdata
);
220 static void generate_call_pair_list (struct profdata
*profdata
);
224 main (int argc
, char *argv
[])
227 const char *profdata
;
228 struct shobj
*shobj_handle
;
229 struct profdata
*profdata_handle
;
232 setlocale (LC_ALL
, "");
234 /* Initialize the message catalog. */
235 textdomain (_libc_intl_domainname
);
237 /* Parse and process arguments. */
238 argp_parse (&argp
, argc
, argv
, 0, &remaining
, NULL
);
240 if (argc
- remaining
== 0 || argc
- remaining
> 2)
242 /* We need exactly two non-option parameter. */
243 argp_help (&argp
, stdout
, ARGP_HELP_SEE
| ARGP_HELP_EXIT_ERR
,
244 program_invocation_short_name
);
248 /* Get parameters. */
249 shobj
= argv
[remaining
];
250 if (argc
- remaining
== 2)
251 profdata
= argv
[remaining
+ 1];
253 /* No filename for the profiling data given. We will determine it
254 from the soname of the shobj, later. */
257 /* First see whether we can load the shared object. */
258 shobj_handle
= load_shobj (shobj
);
259 if (shobj_handle
== NULL
)
262 /* We can now determine the filename for the profiling data, if
264 if (profdata
== NULL
)
268 if (shobj_handle
->soname
== NULL
)
270 unload_shobj (shobj_handle
);
272 error (EXIT_FAILURE
, 0, _("\
273 no filename for profiling data given and shared object `%s' has no soname"),
277 newp
= (char *) alloca (strlen (shobj_handle
->soname
)
278 + sizeof ".profile");
279 stpcpy (stpcpy (newp
, shobj_handle
->soname
), ".profile");
283 /* Now see whether the profiling data file matches the given object. */
284 profdata_handle
= load_profdata (profdata
, shobj_handle
);
285 if (profdata_handle
== NULL
)
287 unload_shobj (shobj_handle
);
292 read_symbols (shobj_handle
);
294 /* Count the ticks. */
295 count_total_ticks (shobj_handle
, profdata_handle
);
297 /* Count the calls. */
298 count_calls (shobj_handle
, profdata_handle
);
300 /* Add the arc information. */
301 add_arcs (profdata_handle
);
303 /* If no mode is specified fall back to the default mode. */
308 if (mode
& FLAT_MODE
)
309 generate_flat_profile (profdata_handle
);
311 if (mode
& CALL_GRAPH_MODE
)
312 generate_call_graph (profdata_handle
);
314 if (mode
& CALL_PAIRS
)
315 generate_call_pair_list (profdata_handle
);
317 /* Free the resources. */
318 unload_shobj (shobj_handle
);
319 unload_profdata (profdata_handle
);
325 /* Handle program arguments. */
327 parse_opt (int key
, char *arg
, struct argp_state
*state
)
338 mode
|= CALL_GRAPH_MODE
;
344 return ARGP_ERR_UNKNOWN
;
350 /* Print the version information. */
352 print_version (FILE *stream
, struct argp_state
*state
)
354 fprintf (stream
, "sprof (GNU %s) %s\n", PACKAGE
, VERSION
);
355 fprintf (stream
, gettext ("\
356 Copyright (C) %s Free Software Foundation, Inc.\n\
357 This is free software; see the source for copying conditions. There is NO\n\
358 warranty; not even for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.\n\
361 fprintf (stream
, gettext ("Written by %s.\n"), "Ulrich Drepper");
365 /* Note that we must not use `dlopen' etc. The shobj object must not
366 be loaded for use. */
367 static struct shobj
*
368 load_shobj (const char *name
)
370 struct link_map
*map
= NULL
;
371 struct shobj
*result
;
372 ElfW(Addr
) mapstart
= ~((ElfW(Addr
)) 0);
373 ElfW(Addr
) mapend
= 0;
374 const ElfW(Phdr
) *ph
;
376 unsigned int log_hashfraction
;
381 size_t pagesize
= getpagesize ();
382 const char *shstrtab
;
384 ElfW(Shdr
) *symtab_entry
;
386 /* Since we use dlopen() we must be prepared to work around the sometimes
387 strange lookup rules for the shared objects. If we have a file foo.so
388 in the current directory and the user specfies foo.so on the command
389 line (without specifying a directory) we should load the file in the
390 current directory even if a normal dlopen() call would read the other
391 file. We do this by adding a directory portion to the name. */
392 if (strchr (name
, '/') == NULL
)
394 char *load_name
= (char *) alloca (strlen (name
) + 3);
395 stpcpy (stpcpy (load_name
, "./"), name
);
397 map
= (struct link_map
*) dlopen (load_name
, RTLD_LAZY
);
401 map
= (struct link_map
*) dlopen (name
, RTLD_LAZY
);
404 error (0, errno
, _("failed to load shared object `%s'"), name
);
409 /* Prepare the result. */
410 result
= (struct shobj
*) calloc (1, sizeof (struct shobj
));
413 error (0, errno
, _("cannot create internal descriptors"));
420 /* Compute the size of the sections which contain program code.
421 This must match the code in dl-profile.c (_dl_start_profile). */
422 for (ph
= map
->l_phdr
; ph
< &map
->l_phdr
[map
->l_phnum
]; ++ph
)
423 if (ph
->p_type
== PT_LOAD
&& (ph
->p_flags
& PF_X
))
425 ElfW(Addr
) start
= (ph
->p_vaddr
& ~(pagesize
- 1));
426 ElfW(Addr
) end
= ((ph
->p_vaddr
+ ph
->p_memsz
+ pagesize
- 1)
429 if (start
< mapstart
)
435 result
->lowpc
= ROUNDDOWN ((uintptr_t) (mapstart
+ map
->l_addr
),
436 HISTFRACTION
* sizeof (HISTCOUNTER
));
437 result
->highpc
= ROUNDUP ((uintptr_t) (mapend
+ map
->l_addr
),
438 HISTFRACTION
* sizeof (HISTCOUNTER
));
440 printf ("load addr: %0#*" PRIxPTR
"\n"
441 "lower bound PC: %0#*" PRIxPTR
"\n"
442 "upper bound PC: %0#*" PRIxPTR
"\n",
443 __ELF_NATIVE_CLASS
== 32 ? 10 : 18, map
->l_addr
,
444 __ELF_NATIVE_CLASS
== 32 ? 10 : 18, result
->lowpc
,
445 __ELF_NATIVE_CLASS
== 32 ? 10 : 18, result
->highpc
);
447 textsize
= result
->highpc
- result
->lowpc
;
448 result
->kcountsize
= textsize
/ HISTFRACTION
;
449 result
->hashfraction
= HASHFRACTION
;
450 if ((HASHFRACTION
& (HASHFRACTION
- 1)) == 0)
451 /* If HASHFRACTION is a power of two, mcount can use shifting
452 instead of integer division. Precompute shift amount. */
453 log_hashfraction
= __builtin_ffs (result
->hashfraction
454 * sizeof (struct here_fromstruct
)) - 1;
456 log_hashfraction
= -1;
458 printf ("hashfraction = %d\ndivider = %Zu\n",
459 result
->hashfraction
,
460 result
->hashfraction
* sizeof (struct here_fromstruct
));
461 result
->tossize
= textsize
/ HASHFRACTION
;
462 result
->fromlimit
= textsize
* ARCDENSITY
/ 100;
463 if (result
->fromlimit
< MINARCS
)
464 result
->fromlimit
= MINARCS
;
465 if (result
->fromlimit
> MAXARCS
)
466 result
->fromlimit
= MAXARCS
;
467 result
->fromssize
= result
->fromlimit
* sizeof (struct here_fromstruct
);
469 result
->expected_size
= (sizeof (struct gmon_hdr
)
470 + 4 + sizeof (struct gmon_hist_hdr
)
474 * sizeof (struct here_cg_arc_record
)));
477 printf ("expected size: %Zd\n", result
->expected_size
);
479 #define SCALE_1_TO_1 0x10000L
481 if (result
->kcountsize
< result
->highpc
- result
->lowpc
)
483 size_t range
= result
->highpc
- result
->lowpc
;
484 size_t quot
= range
/ result
->kcountsize
;
486 if (quot
>= SCALE_1_TO_1
)
488 else if (quot
>= SCALE_1_TO_1
/ 256)
489 result
->s_scale
= SCALE_1_TO_1
/ quot
;
490 else if (range
> ULONG_MAX
/ 256)
491 result
->s_scale
= ((SCALE_1_TO_1
* 256)
492 / (range
/ (result
->kcountsize
/ 256)));
494 result
->s_scale
= ((SCALE_1_TO_1
* 256)
495 / ((range
* 256) / result
->kcountsize
));
498 result
->s_scale
= SCALE_1_TO_1
;
501 printf ("s_scale: %d\n", result
->s_scale
);
503 /* Determine the dynamic string table. */
504 if (map
->l_info
[DT_STRTAB
] == NULL
)
505 result
->dynstrtab
= NULL
;
507 result
->dynstrtab
= (const char *) D_PTR (map
, l_info
[DT_STRTAB
]);
509 printf ("string table: %p\n", result
->dynstrtab
);
511 /* Determine the soname. */
512 if (map
->l_info
[DT_SONAME
] == NULL
)
513 result
->soname
= NULL
;
515 result
->soname
= result
->dynstrtab
+ map
->l_info
[DT_SONAME
]->d_un
.d_val
;
516 if (do_test
&& result
->soname
!= NULL
)
517 printf ("soname: %s\n", result
->soname
);
519 /* Now we have to load the symbol table.
521 First load the section header table. */
522 ehdr
= (ElfW(Ehdr
) *) map
->l_addr
;
524 /* Make sure we are on the right party. */
525 if (ehdr
->e_shentsize
!= sizeof (ElfW(Shdr
)))
528 /* And we need the shared object file descriptor again. */
529 fd
= open (map
->l_name
, O_RDONLY
);
531 /* Dooh, this really shouldn't happen. We know the file is available. */
532 error (EXIT_FAILURE
, errno
, _("Reopening shared object `%s' failed"),
535 /* Now map the section header. */
536 ptr
= mmap (NULL
, (ehdr
->e_shnum
* sizeof (ElfW(Shdr
))
537 + (ehdr
->e_shoff
& (pagesize
- 1))), PROT_READ
,
538 MAP_SHARED
|MAP_FILE
, fd
, ehdr
->e_shoff
& ~(pagesize
- 1));
539 if (ptr
== MAP_FAILED
)
540 error (EXIT_FAILURE
, errno
, _("mapping of section headers failed"));
541 shdr
= (ElfW(Shdr
) *) ((char *) ptr
+ (ehdr
->e_shoff
& (pagesize
- 1)));
543 /* Get the section header string table. */
544 ptr
= mmap (NULL
, (shdr
[ehdr
->e_shstrndx
].sh_size
545 + (shdr
[ehdr
->e_shstrndx
].sh_offset
& (pagesize
- 1))),
546 PROT_READ
, MAP_SHARED
|MAP_FILE
, fd
,
547 shdr
[ehdr
->e_shstrndx
].sh_offset
& ~(pagesize
- 1));
548 if (ptr
== MAP_FAILED
)
549 error (EXIT_FAILURE
, errno
,
550 _("mapping of section header string table failed"));
551 shstrtab
= ((const char *) ptr
552 + (shdr
[ehdr
->e_shstrndx
].sh_offset
& (pagesize
- 1)));
554 /* Search for the ".symtab" section. */
556 for (idx
= 0; idx
< ehdr
->e_shnum
; ++idx
)
557 if (shdr
[idx
].sh_type
== SHT_SYMTAB
558 && strcmp (shstrtab
+ shdr
[idx
].sh_name
, ".symtab") == 0)
560 symtab_entry
= &shdr
[idx
];
564 /* We don't need the section header string table anymore. */
565 munmap (ptr
, (shdr
[ehdr
->e_shstrndx
].sh_size
566 + (shdr
[ehdr
->e_shstrndx
].sh_offset
& (pagesize
- 1))));
568 if (symtab_entry
== NULL
)
570 fprintf (stderr
, _("\
571 *** The file `%s' is stripped: no detailed analysis possible\n"),
573 result
->symtab
= NULL
;
574 result
->strtab
= NULL
;
578 ElfW(Off
) min_offset
, max_offset
;
579 ElfW(Shdr
) *strtab_entry
;
581 strtab_entry
= &shdr
[symtab_entry
->sh_link
];
583 /* Find the minimum and maximum offsets that include both the symbol
584 table and the string table. */
585 if (symtab_entry
->sh_offset
< strtab_entry
->sh_offset
)
587 min_offset
= symtab_entry
->sh_offset
& ~(pagesize
- 1);
588 max_offset
= strtab_entry
->sh_offset
+ strtab_entry
->sh_size
;
592 min_offset
= strtab_entry
->sh_offset
& ~(pagesize
- 1);
593 max_offset
= symtab_entry
->sh_offset
+ symtab_entry
->sh_size
;
596 result
->symbol_map
= mmap (NULL
, max_offset
- min_offset
,
597 PROT_READ
, MAP_SHARED
|MAP_FILE
, fd
,
599 if (result
->symbol_map
== NULL
)
600 error (EXIT_FAILURE
, errno
, _("failed to load symbol data"));
603 = (const ElfW(Sym
) *) ((const char *) result
->symbol_map
604 + (symtab_entry
->sh_offset
- min_offset
));
605 result
->symtab_size
= symtab_entry
->sh_size
;
606 result
->strtab
= ((const char *) result
->symbol_map
607 + (strtab_entry
->sh_offset
- min_offset
));
608 result
->symbol_mapsize
= max_offset
- min_offset
;
611 /* Now we also don't need the section header table anymore. */
612 munmap ((char *) shdr
- (ehdr
->e_shoff
& (pagesize
- 1)),
613 (ehdr
->e_phnum
* sizeof (ElfW(Shdr
))
614 + (ehdr
->e_shoff
& (pagesize
- 1))));
616 /* Free the descriptor for the shared object. */
624 unload_shobj (struct shobj
*shobj
)
626 munmap (shobj
->symbol_map
, shobj
->symbol_mapsize
);
627 dlclose (shobj
->map
);
631 static struct profdata
*
632 load_profdata (const char *name
, struct shobj
*shobj
)
634 struct profdata
*result
;
638 struct gmon_hdr gmon_hdr
;
639 struct gmon_hist_hdr hist_hdr
;
642 struct here_cg_arc_record
*data
;
643 struct here_fromstruct
*froms
;
648 fd
= open (name
, O_RDONLY
);
653 if (errno
!= ENOENT
|| strchr (name
, '/') != NULL
)
654 /* The file exists but we are not allowed to read it or the
655 file does not exist and the name includes a path
659 /* A file with the given name does not exist in the current
660 directory, try it in the default location where the profiling
661 files are created. */
662 ext_name
= (char *) alloca (strlen (name
) + sizeof "/var/tmp/");
663 stpcpy (stpcpy (ext_name
, "/var/tmp/"), name
);
666 fd
= open (ext_name
, O_RDONLY
);
669 /* Even this file does not exist. */
670 error (0, errno
, _("cannot load profiling data"));
675 /* We have found the file, now make sure it is the right one for the
677 if (fstat (fd
, &st
) < 0)
679 error (0, errno
, _("while stat'ing profiling data file"));
684 if (st
.st_size
!= shobj
->expected_size
)
687 _("profiling data file `%s' does not match shared object `%s'"),
693 /* The data file is most probably the right one for our shared
694 object. Map it now. */
695 addr
= mmap (NULL
, st
.st_size
, PROT_READ
, MAP_SHARED
|MAP_FILE
, fd
, 0);
696 if (addr
== MAP_FAILED
)
698 error (0, errno
, _("failed to mmap the profiling data file"));
703 /* We don't need the file desriptor anymore. */
706 error (0, errno
, _("error while closing the profiling data file"));
707 munmap (addr
, st
.st_size
);
711 /* Prepare the result. */
712 result
= (struct profdata
*) calloc (1, sizeof (struct profdata
));
715 error (0, errno
, _("cannot create internal descriptor"));
716 munmap (addr
, st
.st_size
);
720 /* Store the address and size so that we can later free the resources. */
722 result
->size
= st
.st_size
;
724 /* Pointer to data after the header. */
725 result
->hist
= (char *) ((struct gmon_hdr
*) addr
+ 1);
726 result
->hist_hdr
= (struct gmon_hist_hdr
*) ((char *) result
->hist
727 + sizeof (uint32_t));
728 result
->kcount
= (uint16_t *) ((char *) result
->hist
+ sizeof (uint32_t)
729 + sizeof (struct gmon_hist_hdr
));
731 /* Compute pointer to array of the arc information. */
732 narcsp
= (uint32_t *) ((char *) result
->kcount
+ shobj
->kcountsize
733 + sizeof (uint32_t));
734 result
->narcs
= *narcsp
;
735 result
->data
= (struct here_cg_arc_record
*) ((char *) narcsp
736 + sizeof (uint32_t));
738 /* Create the gmon_hdr we expect or write. */
739 memset (&gmon_hdr
, '\0', sizeof (struct gmon_hdr
));
740 memcpy (&gmon_hdr
.cookie
[0], GMON_MAGIC
, sizeof (gmon_hdr
.cookie
));
741 *(int32_t *) gmon_hdr
.version
= GMON_SHOBJ_VERSION
;
743 /* Create the hist_hdr we expect or write. */
744 *(char **) hist_hdr
.low_pc
= (char *) shobj
->lowpc
- shobj
->map
->l_addr
;
745 *(char **) hist_hdr
.high_pc
= (char *) shobj
->highpc
- shobj
->map
->l_addr
;
747 printf ("low_pc = %p\nhigh_pc = %p\n",
748 *(char **) hist_hdr
.low_pc
, *(char **) hist_hdr
.high_pc
);
749 *(int32_t *) hist_hdr
.hist_size
= shobj
->kcountsize
/ sizeof (HISTCOUNTER
);
750 *(int32_t *) hist_hdr
.prof_rate
= __profile_frequency ();
751 strncpy (hist_hdr
.dimen
, "seconds", sizeof (hist_hdr
.dimen
));
752 hist_hdr
.dimen_abbrev
= 's';
754 /* Test whether the header of the profiling data is ok. */
755 if (memcmp (addr
, &gmon_hdr
, sizeof (struct gmon_hdr
)) != 0
756 || *(uint32_t *) result
->hist
!= GMON_TAG_TIME_HIST
757 || memcmp (result
->hist_hdr
, &hist_hdr
,
758 sizeof (struct gmon_hist_hdr
)) != 0
759 || narcsp
[-1] != GMON_TAG_CG_ARC
)
762 error (0, 0, _("`%s' is no correct profile data file for `%s'"),
764 munmap (addr
, st
.st_size
);
768 /* We are pretty sure now that this is a correct input file. Set up
769 the remaining information in the result structure and return. */
770 result
->tos
= (uint16_t *) calloc (shobj
->tossize
+ shobj
->fromssize
, 1);
771 if (result
->tos
== NULL
)
773 error (0, errno
, _("cannot create internal descriptor"));
774 munmap (addr
, st
.st_size
);
779 result
->froms
= (struct here_fromstruct
*) ((char *) result
->tos
783 /* Now we have to process all the arc count entries. */
784 fromlimit
= shobj
->fromlimit
;
786 froms
= result
->froms
;
788 for (idx
= 0; idx
< MIN (*narcsp
, fromlimit
); ++idx
)
792 to_index
= (data
[idx
].self_pc
/ (shobj
->hashfraction
* sizeof (*tos
)));
793 newfromidx
= fromidx
++;
794 froms
[newfromidx
].here
= &data
[idx
];
795 froms
[newfromidx
].link
= tos
[to_index
];
796 tos
[to_index
] = newfromidx
;
804 unload_profdata (struct profdata
*profdata
)
806 free (profdata
->tos
);
807 munmap (profdata
->addr
, profdata
->size
);
813 count_total_ticks (struct shobj
*shobj
, struct profdata
*profdata
)
815 volatile uint16_t *kcount
= profdata
->kcount
;
816 size_t maxkidx
= shobj
->kcountsize
;
817 size_t factor
= 2 * (65536 / shobj
->s_scale
);
821 while (sidx
< symidx
)
823 uintptr_t start
= sortsym
[sidx
]->addr
;
824 uintptr_t end
= start
+ sortsym
[sidx
]->size
;
826 while (kidx
< maxkidx
&& factor
* kidx
< start
)
831 while (kidx
< maxkidx
&& factor
* kidx
< end
)
832 sortsym
[sidx
]->ticks
+= kcount
[kidx
++];
836 total_ticks
+= sortsym
[sidx
++]->ticks
;
842 find_symbol (uintptr_t addr
)
846 while (sidx
< symidx
)
848 uintptr_t start
= sortsym
[sidx
]->addr
;
849 uintptr_t end
= start
+ sortsym
[sidx
]->size
;
851 if (addr
>= start
&& addr
< end
)
865 count_calls (struct shobj
*shobj
, struct profdata
*profdata
)
867 struct here_cg_arc_record
*data
= profdata
->data
;
868 uint32_t narcs
= profdata
->narcs
;
871 for (cnt
= 0; cnt
< narcs
; ++cnt
)
873 uintptr_t here
= data
[cnt
].self_pc
;
876 /* Find the symbol for this address. */
877 symbol_idx
= find_symbol (here
);
878 if (symbol_idx
!= (size_t) -1l)
879 sortsym
[symbol_idx
]->calls
+= data
[cnt
].count
;
885 symorder (const void *o1
, const void *o2
)
887 const struct known_symbol
*p1
= (const struct known_symbol
*) o1
;
888 const struct known_symbol
*p2
= (const struct known_symbol
*) o2
;
890 return p1
->addr
- p2
->addr
;
895 printsym (const void *node
, VISIT value
, int level
)
897 if (value
== leaf
|| value
== postorder
)
898 sortsym
[symidx
++] = *(struct known_symbol
**) node
;
903 read_symbols (struct shobj
*shobj
)
907 /* Initialize the obstacks. */
908 #define obstack_chunk_alloc malloc
909 #define obstack_chunk_free free
910 obstack_init (&shobj
->ob_str
);
911 obstack_init (&shobj
->ob_sym
);
912 obstack_init (&ob_list
);
914 /* Process the symbols. */
917 const ElfW(Sym
) *sym
= shobj
->symtab
;
918 const ElfW(Sym
) *sym_end
919 = (const ElfW(Sym
) *) ((const char *) sym
+ shobj
->symtab_size
);
920 for (; sym
< sym_end
; sym
++)
921 if ((ELFW(ST_TYPE
) (sym
->st_info
) == STT_FUNC
922 || ELFW(ST_TYPE
) (sym
->st_info
) == STT_NOTYPE
)
923 && sym
->st_size
!= 0)
925 struct known_symbol
**existp
;
926 struct known_symbol
*newsym
927 = (struct known_symbol
*) obstack_alloc (&shobj
->ob_sym
,
930 error (EXIT_FAILURE
, errno
, _("cannot allocate symbol data"));
932 newsym
->name
= &shobj
->strtab
[sym
->st_name
];
933 newsym
->addr
= sym
->st_value
;
934 newsym
->size
= sym
->st_size
;
938 existp
= tfind (newsym
, &symroot
, symorder
);
942 tsearch (newsym
, &symroot
, symorder
);
947 /* The function is already defined. See whether we have
948 a better name here. */
949 if ((*existp
)->name
[0] == '_' && newsym
->name
[0] != '_')
952 /* We don't need the allocated memory. */
953 obstack_free (&shobj
->ob_sym
, newsym
);
959 /* Blarg, the binary is stripped. We have to rely on the
960 information contained in the dynamic section of the object. */
961 const ElfW(Sym
) *symtab
= (ElfW(Sym
) *) D_PTR (shobj
->map
,
963 const char *strtab
= (const char *) D_PTR (shobj
->map
,
966 /* We assume that the string table follows the symbol table,
967 because there is no way in ELF to know the size of the
968 dynamic symbol table!! */
969 while ((void *) symtab
< (void *) strtab
)
971 if ((ELFW(ST_TYPE
)(symtab
->st_info
) == STT_FUNC
972 || ELFW(ST_TYPE
)(symtab
->st_info
) == STT_NOTYPE
)
973 && symtab
->st_size
!= 0)
975 struct known_symbol
*newsym
;
976 struct known_symbol
**existp
;
979 (struct known_symbol
*) obstack_alloc (&shobj
->ob_sym
,
982 error (EXIT_FAILURE
, errno
, _("cannot allocate symbol data"));
984 newsym
->name
= &strtab
[symtab
->st_name
];
985 newsym
->addr
= symtab
->st_value
;
986 newsym
->size
= symtab
->st_size
;
988 newsym
->froms
= NULL
;
991 existp
= tfind (newsym
, &symroot
, symorder
);
995 tsearch (newsym
, &symroot
, symorder
);
1000 /* The function is already defined. See whether we have
1001 a better name here. */
1002 if ((*existp
)->name
[0] == '_' && newsym
->name
[0] != '_')
1005 /* We don't need the allocated memory. */
1006 obstack_free (&shobj
->ob_sym
, newsym
);
1014 sortsym
= malloc (n
* sizeof (struct known_symbol
*));
1015 if (sortsym
== NULL
)
1018 twalk (symroot
, printsym
);
1023 add_arcs (struct profdata
*profdata
)
1025 uint32_t narcs
= profdata
->narcs
;
1026 struct here_cg_arc_record
*data
= profdata
->data
;
1029 for (cnt
= 0; cnt
< narcs
; ++cnt
)
1031 /* First add the incoming arc. */
1032 size_t sym_idx
= find_symbol (data
[cnt
].self_pc
);
1034 if (sym_idx
!= (size_t) -1l)
1036 struct known_symbol
*sym
= sortsym
[sym_idx
];
1037 struct arc_list
*runp
= sym
->froms
;
1040 && ((data
[cnt
].from_pc
== 0 && runp
->idx
!= (size_t) -1l)
1041 || (data
[cnt
].from_pc
!= 0
1042 && (runp
->idx
== (size_t) -1l
1043 || data
[cnt
].from_pc
< sortsym
[runp
->idx
]->addr
1044 || (data
[cnt
].from_pc
1045 >= (sortsym
[runp
->idx
]->addr
1046 + sortsym
[runp
->idx
]->size
))))))
1051 /* We need a new entry. */
1052 struct arc_list
*newp
= (struct arc_list
*)
1053 obstack_alloc (&ob_list
, sizeof (struct arc_list
));
1055 if (data
[cnt
].from_pc
== 0)
1056 newp
->idx
= (size_t) -1l;
1058 newp
->idx
= find_symbol (data
[cnt
].from_pc
);
1059 newp
->count
= data
[cnt
].count
;
1060 newp
->next
= sym
->froms
;
1064 /* Increment the counter for the found entry. */
1065 runp
->count
+= data
[cnt
].count
;
1068 /* Now add it to the appropriate outgoing list. */
1069 sym_idx
= find_symbol (data
[cnt
].from_pc
);
1070 if (sym_idx
!= (size_t) -1l)
1072 struct known_symbol
*sym
= sortsym
[sym_idx
];
1073 struct arc_list
*runp
= sym
->tos
;
1076 && (runp
->idx
== (size_t) -1l
1077 || data
[cnt
].self_pc
< sortsym
[runp
->idx
]->addr
1078 || data
[cnt
].self_pc
>= (sortsym
[runp
->idx
]->addr
1079 + sortsym
[runp
->idx
]->size
)))
1084 /* We need a new entry. */
1085 struct arc_list
*newp
= (struct arc_list
*)
1086 obstack_alloc (&ob_list
, sizeof (struct arc_list
));
1088 newp
->idx
= find_symbol (data
[cnt
].self_pc
);
1089 newp
->count
= data
[cnt
].count
;
1090 newp
->next
= sym
->tos
;
1094 /* Increment the counter for the found entry. */
1095 runp
->count
+= data
[cnt
].count
;
1102 countorder (const void *p1
, const void *p2
)
1104 struct known_symbol
*s1
= (struct known_symbol
*) p1
;
1105 struct known_symbol
*s2
= (struct known_symbol
*) p2
;
1107 if (s1
->ticks
!= s2
->ticks
)
1108 return (int) (s2
->ticks
- s1
->ticks
);
1110 if (s1
->calls
!= s2
->calls
)
1111 return (int) (s2
->calls
- s1
->calls
);
1113 return strcmp (s1
->name
, s2
->name
);
1117 static double tick_unit
;
1118 static uintmax_t cumu_ticks
;
1121 printflat (const void *node
, VISIT value
, int level
)
1123 if (value
== leaf
|| value
== postorder
)
1125 struct known_symbol
*s
= *(struct known_symbol
**) node
;
1127 cumu_ticks
+= s
->ticks
;
1129 printf ("%6.2f%10.2f%9.2f%9" PRIdMAX
"%9.2f %s\n",
1130 total_ticks
? (100.0 * s
->ticks
) / total_ticks
: 0.0,
1131 tick_unit
* cumu_ticks
,
1132 tick_unit
* s
->ticks
,
1134 s
->calls
? (s
->ticks
* 1000000) * tick_unit
/ s
->calls
: 0,
1135 /* FIXME: don't know about called functions. */
1149 generate_flat_profile (struct profdata
*profdata
)
1154 tick_unit
= 1.0 / *(uint32_t *) profdata
->hist_hdr
->prof_rate
;
1156 printf ("Flat profile:\n\n"
1157 "Each sample counts as %g %s.\n",
1158 tick_unit
, profdata
->hist_hdr
->dimen
);
1159 fputs (" % cumulative self self total\n"
1160 " time seconds seconds calls us/call us/call name\n",
1163 for (n
= 0; n
< symidx
; ++n
)
1164 if (sortsym
[n
]->calls
!= 0 || sortsym
[n
]->ticks
!= 0)
1165 tsearch (sortsym
[n
], &data
, countorder
);
1167 twalk (data
, printflat
);
1169 tdestroy (data
, freenoop
);
1174 generate_call_graph (struct profdata
*profdata
)
1178 puts ("\nindex % time self children called name\n");
1180 for (cnt
= 0; cnt
< symidx
; ++cnt
)
1181 if (sortsym
[cnt
]->froms
!= NULL
|| sortsym
[cnt
]->tos
!= NULL
)
1183 struct arc_list
*runp
;
1186 /* First print the from-information. */
1187 runp
= sortsym
[cnt
]->froms
;
1188 while (runp
!= NULL
)
1190 printf (" %8.2f%8.2f%9" PRIdMAX
"/%-9" PRIdMAX
" %s",
1191 (runp
->idx
!= (size_t) -1l
1192 ? sortsym
[runp
->idx
]->ticks
* tick_unit
: 0.0),
1193 0.0, /* FIXME: what's time for the children, recursive */
1194 runp
->count
, sortsym
[cnt
]->calls
,
1195 (runp
->idx
!= (size_t) -1l ?
1196 sortsym
[runp
->idx
]->name
: "<UNKNOWN>"));
1198 if (runp
->idx
!= (size_t) -1l)
1199 printf (" [%Zd]", runp
->idx
);
1200 putchar_unlocked ('\n');
1205 /* Info abount the function itself. */
1206 n
= printf ("[%Zu]", cnt
);
1207 printf ("%*s%5.1f%8.2f%8.2f%9" PRIdMAX
" %s [%Zd]\n",
1209 total_ticks
? (100.0 * sortsym
[cnt
]->ticks
) / total_ticks
: 0,
1210 sortsym
[cnt
]->ticks
* tick_unit
,
1211 0.0, /* FIXME: what's time for the children, recursive */
1212 sortsym
[cnt
]->calls
,
1213 sortsym
[cnt
]->name
, cnt
);
1215 /* Info about the functions this function calls. */
1216 runp
= sortsym
[cnt
]->tos
;
1217 while (runp
!= NULL
)
1219 printf (" %8.2f%8.2f%9" PRIdMAX
"/",
1220 (runp
->idx
!= (size_t) -1l
1221 ? sortsym
[runp
->idx
]->ticks
* tick_unit
: 0.0),
1222 0.0, /* FIXME: what's time for the children, recursive */
1225 if (runp
->idx
!= (size_t) -1l)
1226 printf ("%-9" PRIdMAX
" %s [%Zd]\n",
1227 sortsym
[runp
->idx
]->calls
,
1228 sortsym
[runp
->idx
]->name
,
1231 fputs ("??? <UNKNOWN>\n\n", stdout
);
1236 fputs ("-----------------------------------------------\n", stdout
);
1242 generate_call_pair_list (struct profdata
*profdata
)
1246 for (cnt
= 0; cnt
< symidx
; ++cnt
)
1247 if (sortsym
[cnt
]->froms
!= NULL
|| sortsym
[cnt
]->tos
!= NULL
)
1249 struct arc_list
*runp
;
1251 /* First print the incoming arcs. */
1252 runp
= sortsym
[cnt
]->froms
;
1253 while (runp
!= NULL
)
1255 if (runp
->idx
== (size_t) -1l)
1257 <UNKNOWN> %-34s %9" PRIdMAX
"\n",
1258 sortsym
[cnt
]->name
, runp
->count
);
1262 /* Next the outgoing arcs. */
1263 runp
= sortsym
[cnt
]->tos
;
1264 while (runp
!= NULL
)
1266 printf ("%-34s %-34s %9" PRIdMAX
"\n",
1268 (runp
->idx
!= (size_t) -1l
1269 ? sortsym
[runp
->idx
]->name
: "<UNKNOWN>"),