diff options
Diffstat (limited to 'elf/sprof.c')
-rw-r--r-- | elf/sprof.c | 223 |
1 files changed, 202 insertions, 21 deletions
diff --git a/elf/sprof.c b/elf/sprof.c index 477d95a..f54a616 100644 --- a/elf/sprof.c +++ b/elf/sprof.c @@ -76,6 +76,7 @@ static const struct argp_option options[] = { NULL, 0, NULL, 0, N_("Output selection:") }, { "flat-profile", 'p', NULL, 0, N_("generate flat profile with counts and ticks") }, + { "graph", 'q', NULL, 0, N_("generate call graph") }, { "test", OPT_TEST, NULL, OPTION_HIDDEN, NULL }, { NULL, 0, NULL, 0, NULL } @@ -102,8 +103,9 @@ static enum { NONE = 0, FLAT_MODE = 1 << 0, + CALL_GRAPH_MODE = 1 << 1, - DEFAULT_MODE = FLAT_MODE + DEFAULT_MODE = FLAT_MODE | CALL_GRAPH_MODE } mode; /* If nonzero the total number of invocations of a function is emitted. */ @@ -114,20 +116,32 @@ int do_test; /* Strcuture describing calls. */ struct here_fromstruct - { - struct here_cg_arc_record volatile *here; - uint16_t link; - }; +{ + struct here_cg_arc_record volatile *here; + uint16_t link; +}; /* We define a special type to address the elements of the arc table. This is basically the `gmon_cg_arc_record' format but it includes the room for the tag and it uses real types. */ struct here_cg_arc_record - { - uintptr_t from_pc; - uintptr_t self_pc; - uint32_t count; - } __attribute__ ((packed)); +{ + uintptr_t from_pc; + uintptr_t self_pc; + uint32_t count; +} __attribute__ ((packed)); + + +struct known_symbol; +struct arc_list +{ + size_t idx; + uintmax_t count; + + struct arc_list *next; +}; + +static struct obstack ob_list; struct known_symbol @@ -138,6 +152,9 @@ struct known_symbol uintmax_t ticks; uintmax_t calls; + + struct arc_list *froms; + struct arc_list *tos; }; @@ -198,7 +215,9 @@ static void unload_profdata (struct profdata *profdata); static void count_total_ticks (struct shobj *shobj, struct profdata *profdata); static void count_calls (struct shobj *shobj, struct profdata *profdata); static void read_symbols (struct shobj *shobj); +static void add_arcs (struct profdata *profdata); static void generate_flat_profile (struct profdata *profdata); +static void generate_call_graph (struct profdata *profdata); int @@ -278,6 +297,9 @@ no filename for profiling data given and shared object `%s' has no soname"), /* Count the calls. */ count_calls (shobj_handle, profdata_handle); + /* Add the arc information. */ + add_arcs (profdata_handle); + /* If no mode is specified fall back to the default mode. */ if (mode == NONE) mode = DEFAULT_MODE; @@ -286,6 +308,9 @@ no filename for profiling data given and shared object `%s' has no soname"), if (mode & FLAT_MODE) generate_flat_profile (profdata_handle); + if (mode & CALL_GRAPH_MODE) + generate_call_graph (profdata_handle); + /* Free the resources. */ unload_shobj (shobj_handle); unload_profdata (profdata_handle); @@ -300,6 +325,12 @@ parse_opt (int key, char *arg, struct argp_state *state) { switch (key) { + case 'p': + mode |= FLAT_MODE; + break; + case 'q': + mode |= CALL_GRAPH_MODE; + break; case OPT_TEST: do_test = 1; break; @@ -800,7 +831,7 @@ count_total_ticks (struct shobj *shobj, struct profdata *profdata) } -static struct known_symbol * +static size_t find_symbol (uintptr_t addr) { size_t sidx = 0; @@ -811,7 +842,7 @@ find_symbol (uintptr_t addr) uintptr_t end = start + sortsym[sidx]->size; if (addr >= start && addr < end) - return sortsym[sidx]; + return sidx; if (addr < start) break; @@ -819,7 +850,7 @@ find_symbol (uintptr_t addr) ++sidx; } - return NULL; + return (size_t) -1l; } @@ -833,12 +864,12 @@ count_calls (struct shobj *shobj, struct profdata *profdata) for (cnt = 0; cnt < narcs; ++cnt) { uintptr_t here = data[cnt].self_pc; - struct known_symbol *symbol; + size_t symbol_idx; /* Find the symbol for this address. */ - symbol = find_symbol (here); - if (symbol != NULL) - symbol->calls += data[cnt].count; + symbol_idx = find_symbol (here); + if (symbol_idx != (size_t) -1l) + sortsym[symbol_idx]->calls += data[cnt].count; } } @@ -846,8 +877,8 @@ count_calls (struct shobj *shobj, struct profdata *profdata) static int symorder (const void *o1, const void *o2) { - const struct known_symbol *p1 = (struct known_symbol *) o1; - const struct known_symbol *p2 = (struct known_symbol *) o2; + const struct known_symbol *p1 = (const struct known_symbol *) o1; + const struct known_symbol *p2 = (const struct known_symbol *) o2; return p1->addr - p2->addr; } @@ -872,6 +903,7 @@ read_symbols (struct shobj *shobj) #define obstack_chunk_free free obstack_init (&shobj->ob_str); obstack_init (&shobj->ob_sym); + obstack_init (&ob_list); /* Process the symbols. */ if (shobj->symtab) @@ -947,6 +979,8 @@ read_symbols (struct shobj *shobj) newsym->addr = symtab->st_value; newsym->size = symtab->st_size; newsym->ticks = 0; + newsym->froms = NULL; + newsym->tos = NULL; existp = tfind (newsym, &symroot, symorder); if (existp == NULL) @@ -979,6 +1013,85 @@ read_symbols (struct shobj *shobj) } +static void +add_arcs (struct profdata *profdata) +{ + uint32_t narcs = profdata->narcs; + struct here_cg_arc_record *data = profdata->data; + uint32_t cnt; + + for (cnt = 0; cnt < narcs; ++cnt) + { + /* First add the incoming arc. */ + size_t sym_idx = find_symbol (data[cnt].self_pc); + + if (sym_idx != (size_t) -1l) + { + struct known_symbol *sym = sortsym[sym_idx]; + struct arc_list *runp = sym->froms; + + while (runp != NULL + && ((data[cnt].from_pc == 0 && runp->idx != (size_t) -1l) + || (data[cnt].from_pc != 0 + && (runp->idx == (size_t) -1l + || data[cnt].from_pc < sortsym[runp->idx]->addr + || (data[cnt].from_pc + >= (sortsym[runp->idx]->addr + + sortsym[runp->idx]->size)))))) + runp = runp->next; + + if (runp == NULL) + { + /* We need a new entry. */ + struct arc_list *newp = (struct arc_list *) + obstack_alloc (&ob_list, sizeof (struct arc_list)); + + if (data[cnt].from_pc == 0) + newp->idx = (size_t) -1l; + else + newp->idx = find_symbol (data[cnt].from_pc); + newp->count = data[cnt].count; + newp->next = sym->froms; + sym->froms = newp; + } + else + /* Increment the counter for the found entry. */ + runp->count += data[cnt].count; + } + + /* Now add it to the appropriate outgoing list. */ + sym_idx = find_symbol (data[cnt].from_pc); + if (sym_idx != (size_t) -1l) + { + struct known_symbol *sym = sortsym[sym_idx]; + struct arc_list *runp = sym->tos; + + while (runp != NULL + && (runp->idx == (size_t) -1l + || data[cnt].self_pc < sortsym[runp->idx]->addr + || data[cnt].self_pc >= (sortsym[runp->idx]->addr + + sortsym[runp->idx]->size))) + runp = runp->next; + + if (runp == NULL) + { + /* We need a new entry. */ + struct arc_list *newp = (struct arc_list *) + obstack_alloc (&ob_list, sizeof (struct arc_list)); + + newp->idx = find_symbol (data[cnt].self_pc); + newp->count = data[cnt].count; + newp->next = sym->tos; + sym->tos = newp; + } + else + /* Increment the counter for the found entry. */ + runp->count += data[cnt].count; + } + } +} + + static int countorder (const void *p1, const void *p2) { @@ -1007,13 +1120,13 @@ printflat (const void *node, VISIT value, int level) cumu_ticks += s->ticks; - printf ("%6.2f%10.2f%9.2f%9" PRIdMAX "%9.2f%9.2f %s\n", + printf ("%6.2f%10.2f%9.2f%9" PRIdMAX "%9.2f %s\n", total_ticks ? (100.0 * s->ticks) / total_ticks : 0.0, tick_unit * cumu_ticks, tick_unit * s->ticks, s->calls, s->calls ? (s->ticks * 1000000) * tick_unit / s->calls : 0, - 0.0, /* FIXME: don't know about called functions. */ + /* FIXME: don't know about called functions. */ s->name); } } @@ -1049,3 +1162,71 @@ generate_flat_profile (struct profdata *profdata) tdestroy (data, freenoop); } + + +static void +generate_call_graph (struct profdata *profdata) +{ + size_t cnt; + + puts ("\nindex % time self children called name\n"); + + for (cnt = 0; cnt < symidx; ++cnt) + if (sortsym[cnt]->froms != NULL || sortsym[cnt]->tos != NULL) + { + struct arc_list *runp; + size_t n; + + /* First print the from-information. */ + runp = sortsym[cnt]->froms; + while (runp != NULL) + { + printf (" %8.2f%8.2f%9" PRIdMAX "/%-9" PRIdMAX " %s", + (runp->idx != (size_t) -1l + ? sortsym[runp->idx]->ticks * tick_unit : 0.0), + 0.0, /* FIXME: what's time for the childern, recursive */ + runp->count, sortsym[cnt]->calls, + (runp->idx != (size_t) -1l ? + sortsym[runp->idx]->name : "<UNKNOWN>")); + + if (runp->idx != (size_t) -1l) + printf (" [%Zd]", runp->idx); + putchar_unlocked ('\n'); + + runp = runp->next; + } + + /* Info abount the function itself. */ + n = printf ("[%d]", cnt); + printf ("%*s%5.1f%8.2f%8.2f%9" PRIdMAX " %s [%Zd]\n", + 7 - n, " ", + total_ticks ? (100.0 * sortsym[cnt]->ticks) / total_ticks : 0, + sortsym[cnt]->ticks * tick_unit, + 0.0, /* FIXME: what's time for the childern, recursive */ + sortsym[cnt]->calls, + sortsym[cnt]->name, cnt); + + /* Info about the functions this function calls. */ + runp = sortsym[cnt]->tos; + while (runp != NULL) + { + printf (" %8.2f%8.2f%9" PRIdMAX "/", + (runp->idx != (size_t) -1l + ? sortsym[runp->idx]->ticks * tick_unit : 0.0), + 0.0, /* FIXME: what's time for the childern, recursive */ + runp->count); + + if (runp->idx != (size_t) -1l) + printf ("%-9" PRIdMAX " %s [%Zd]\n", + sortsym[runp->idx]->calls, + sortsym[runp->idx]->name, + runp->idx); + else + fputs ("??? <UNKNOWN>\n\n", stdout); + + runp = runp->next; + } + + fputs ("-----------------------------------------------\n", stdout); + } +} |