/* -*- Mode: C; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*- * * ***** BEGIN LICENSE BLOCK ***** * Version: MPL 1.1/GPL 2.0/LGPL 2.1 * * The contents of this file are subject to the Mozilla Public License Version * 1.1 (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * http://www.mozilla.org/MPL/ * * Software distributed under the License is distributed on an "AS IS" basis, * WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License * for the specific language governing rights and limitations under the * License. * * The Original Code is nsTraceMalloc.c/bloatblame.c code, released * April 19, 2000. * * The Initial Developer of the Original Code is * Netscape Communications Corporation. * Portions created by the Initial Developer are Copyright (C) 2000 * the Initial Developer. All Rights Reserved. * * Contributor(s): * Brendan Eich, 14-April-2000 * * Alternatively, the contents of this file may be used under the terms of * either the GNU General Public License Version 2 or later (the "GPL"), or * the GNU Lesser General Public License Version 2.1 or later (the "LGPL"), * in which case the provisions of the GPL or the LGPL are applicable instead * of those above. If you wish to allow use of your version of this file only * under the terms of either the GPL or the LGPL, and not to allow others to * use your version of this file under the terms of the MPL, indicate your * decision by deleting the provisions above and replace them with the notice * and other provisions required by the GPL or the LGPL. If you do not delete * the provisions above, a recipient may use your version of this file under * the terms of any one of the MPL, the GPL or the LGPL. * * ***** END LICENSE BLOCK ***** */ #include #include #include #include #include #ifdef HAVE_GETOPT_H #include #else #ifdef XP_WIN #include "getopt.c" #else extern int getopt(int argc, char *const *argv, const char *shortopts); extern char *optarg; extern int optind; #endif #endif #include #include #include #include "prtypes.h" #include "prlog.h" #include "prprf.h" #include "plhash.h" #include "pldhash.h" #include "nsTraceMalloc.h" #include "tmreader.h" static char *program; static int sort_by_direct = 0; static int js_mode = 0; static int do_tree_dump = 0; static int unified_output = 0; static char *function_dump = NULL; static uint32 min_subtotal = 0; static void compute_callsite_totals(tmcallsite *site) { tmcallsite *kid; site->allocs.bytes.total += site->allocs.bytes.direct; site->allocs.calls.total += site->allocs.calls.direct; for (kid = site->kids; kid; kid = kid->siblings) { compute_callsite_totals(kid); site->allocs.bytes.total += kid->allocs.bytes.total; site->allocs.calls.total += kid->allocs.calls.total; } } static void walk_callsite_tree(tmcallsite *site, int level, int kidnum, FILE *fp) { tmcallsite *parent; tmgraphnode *comp, *pcomp, *lib, *plib; tmmethodnode *meth, *pmeth; int old_meth_low, old_comp_low, old_lib_low, nkids; tmcallsite *kid; parent = site->parent; comp = lib = NULL; meth = NULL; if (parent) { meth = site->method; if (meth) { pmeth = parent->method; if (pmeth && pmeth != meth) { if (!meth->graphnode.low) { meth->graphnode.allocs.bytes.total += site->allocs.bytes.total; meth->graphnode.allocs.calls.total += site->allocs.calls.total; } if (!tmgraphnode_connect(&(pmeth->graphnode), &(meth->graphnode), site)) goto bad; comp = meth->graphnode.up; if (comp) { pcomp = pmeth->graphnode.up; if (pcomp && pcomp != comp) { if (!comp->low) { comp->allocs.bytes.total += site->allocs.bytes.total; comp->allocs.calls.total += site->allocs.calls.total; } if (!tmgraphnode_connect(pcomp, comp, site)) goto bad; lib = comp->up; if (lib) { plib = pcomp->up; if (plib && plib != lib) { if (!lib->low) { lib->allocs.bytes.total += site->allocs.bytes.total; lib->allocs.calls.total += site->allocs.calls.total; } if (!tmgraphnode_connect(plib, lib, site)) goto bad; } old_lib_low = lib->low; if (!old_lib_low) lib->low = level; } } old_comp_low = comp->low; if (!old_comp_low) comp->low = level; } } old_meth_low = meth->graphnode.low; if (!old_meth_low) meth->graphnode.low = level; } } if (do_tree_dump) { fprintf(fp, "%c%*s%3d %3d %s %lu %ld\n", site->kids ? '+' : '-', level, "", level, kidnum, meth ? tmmethodnode_name(meth) : "???", (unsigned long)site->allocs.bytes.direct, (long)site->allocs.bytes.total); } nkids = 0; level++; for (kid = site->kids; kid; kid = kid->siblings) { walk_callsite_tree(kid, level, nkids, fp); nkids++; } if (meth) { if (!old_meth_low) meth->graphnode.low = 0; if (comp) { if (!old_comp_low) comp->low = 0; if (lib) { if (!old_lib_low) lib->low = 0; } } } return; bad: perror(program); exit(1); } /* * Linked list bubble-sort (waterson and brendan went bald hacking this). * * Sort the list in non-increasing order, using the expression passed as the * 'lessthan' formal macro parameter. This expression should use 'curr' as * the pointer to the current node (of type nodetype) and 'next' as the next * node pointer. It should return true if curr is less than next, and false * otherwise. */ #define BUBBLE_SORT_LINKED_LIST(listp, nodetype, lessthan) \ PR_BEGIN_MACRO \ nodetype *curr, **currp, *next, **nextp, *tmp; \ \ currp = listp; \ while ((curr = *currp) != NULL && curr->next) { \ nextp = &curr->next; \ while ((next = *nextp) != NULL) { \ if (lessthan) { \ tmp = curr->next; \ *currp = tmp; \ if (tmp == next) { \ PR_ASSERT(nextp == &curr->next); \ curr->next = next->next; \ next->next = curr; \ } else { \ *nextp = next->next; \ curr->next = next->next; \ next->next = tmp; \ *currp = next; \ *nextp = curr; \ nextp = &curr->next; \ } \ curr = next; \ continue; \ } \ nextp = &next->next; \ } \ currp = &curr->next; \ } \ PR_END_MACRO static PRIntn tabulate_node(PLHashEntry *he, PRIntn i, void *arg) { tmgraphnode *node = (tmgraphnode*) he; tmgraphnode **table = (tmgraphnode**) arg; table[i] = node; BUBBLE_SORT_LINKED_LIST(&node->down, tmgraphnode, (curr->allocs.bytes.total < next->allocs.bytes.total)); return HT_ENUMERATE_NEXT; } /* Sort in reverse size order, so biggest node comes first. */ static int node_table_compare(const void *p1, const void *p2) { const tmgraphnode *node1, *node2; uint32 key1, key2; node1 = *(const tmgraphnode**) p1; node2 = *(const tmgraphnode**) p2; if (sort_by_direct) { key1 = node1->allocs.bytes.direct; key2 = node2->allocs.bytes.direct; } else { key1 = node1->allocs.bytes.total; key2 = node2->allocs.bytes.total; } return (key2 < key1) ? -1 : (key2 > key1) ? 1 : 0; } static int mean_size_compare(const void *p1, const void *p2) { const tmgraphnode *node1, *node2; double div1, div2, key1, key2; node1 = *(const tmgraphnode**) p1; node2 = *(const tmgraphnode**) p2; div1 = (double)node1->allocs.calls.direct; div2 = (double)node2->allocs.calls.direct; if (div1 == 0 || div2 == 0) return (int)(div2 - div1); key1 = (double)node1->allocs.bytes.direct / div1; key2 = (double)node2->allocs.bytes.direct / div2; if (key1 < key2) return 1; if (key1 > key2) return -1; return 0; } static const char *prettybig(uint32 num, char *buf, size_t limit) { if (num >= 1000000000) PR_snprintf(buf, limit, "%1.2fG", (double) num / 1e9); else if (num >= 1000000) PR_snprintf(buf, limit, "%1.2fM", (double) num / 1e6); else if (num >= 1000) PR_snprintf(buf, limit, "%1.2fK", (double) num / 1e3); else PR_snprintf(buf, limit, "%lu", (unsigned long) num); return buf; } static double percent(uint32 num, uint32 total) { if (num == 0) return 0.0; return ((double) num * 100) / (double) total; } static void sort_graphlink_list(tmgraphlink **listp, int which) { BUBBLE_SORT_LINKED_LIST(listp, tmgraphlink, (TM_LINK_TO_EDGE(curr, which)->allocs.bytes.total < TM_LINK_TO_EDGE(next, which)->allocs.bytes.total)); } static void dump_graphlink_list(tmgraphlink *list, int which, const char *name, FILE *fp) { tmcounts bytes; tmgraphlink *link; tmgraphedge *edge; char buf[16]; bytes.direct = bytes.total = 0; for (link = list; link; link = link->next) { edge = TM_LINK_TO_EDGE(link, which); bytes.direct += edge->allocs.bytes.direct; bytes.total += edge->allocs.bytes.total; } if (js_mode) { fprintf(fp, " %s:{dbytes:%ld, tbytes:%ld, edges:[\n", name, (long) bytes.direct, (long) bytes.total); for (link = list; link; link = link->next) { edge = TM_LINK_TO_EDGE(link, which); fprintf(fp, " {node:%d, dbytes:%ld, tbytes:%ld},\n", link->node->sort, (long) edge->allocs.bytes.direct, (long) edge->allocs.bytes.total); } fputs(" ]},\n", fp); } else { fputs("", fp); for (link = list; link; link = link->next) { edge = TM_LINK_TO_EDGE(link, which); fprintf(fp, "%s (%1.2f%%)\n", tmgraphnode_name(link->node), prettybig(edge->allocs.bytes.total, buf, sizeof buf), percent(edge->allocs.bytes.total, bytes.total)); } fputs("", fp); } } static void dump_graph(tmreader *tmr, PLHashTable *hashtbl, const char *varname, const char *title, FILE *fp) { uint32 i, count; tmgraphnode **table, *node; char *name; size_t namelen; char buf1[16], buf2[16], buf3[16], buf4[16]; static char NA[] = "N/A"; count = hashtbl->nentries; table = (tmgraphnode**) malloc(count * sizeof(tmgraphnode*)); if (!table) { perror(program); exit(1); } PL_HashTableEnumerateEntries(hashtbl, tabulate_node, table); qsort(table, count, sizeof(tmgraphnode*), node_table_compare); for (i = 0; i < count; i++) table[i]->sort = i; if (js_mode) { fprintf(fp, "var %s = {\n name:'%s', title:'%s', nodes:[\n", varname, varname, title); } else { fprintf(fp, "\n" "" "" "" "" "" "" "" "" "\n", title); } for (i = 0; i < count; i++) { /* Don't bother with truly puny nodes. */ node = table[i]; if (node->allocs.bytes.total < min_subtotal) break; name = tmgraphnode_name(node); if (js_mode) { fprintf(fp, " {name:'%s', dbytes:%ld, tbytes:%ld," " dallocs:%ld, tallocs:%ld,\n", name, (long) node->allocs.bytes.direct, (long) node->allocs.bytes.total, (long) node->allocs.calls.direct, (long) node->allocs.calls.total); } else { namelen = strlen(name); fprintf(fp, "" "", name, (namelen > 40) ? 40 : (int)namelen, name, (namelen > 40) ? "..." : ""); if (node->down) { fprintf(fp, "", tmgraphnode_name(node->down)); } else { fputs("", fp); } if (node->next) { fprintf(fp, "", tmgraphnode_name(node->next)); } else { fputs("", fp); } fprintf(fp, "" "", prettybig(node->allocs.bytes.total, buf1, sizeof buf1), prettybig(node->allocs.bytes.direct, buf2, sizeof buf2), percent(node->allocs.bytes.total, tmr->calltree_root.allocs.bytes.total), percent(node->allocs.bytes.direct, tmr->calltree_root.allocs.bytes.total), prettybig(node->allocs.calls.total, buf3, sizeof buf3), prettybig(node->allocs.calls.direct, buf4, sizeof buf4), percent(node->allocs.calls.total, tmr->calltree_root.allocs.calls.total), percent(node->allocs.calls.direct, tmr->calltree_root.allocs.calls.total)); } /* NB: we must use 'fin' because 'in' is a JS keyword! */ sort_graphlink_list(&node->in, TM_EDGE_IN_LINK); dump_graphlink_list(node->in, TM_EDGE_IN_LINK, "fin", fp); sort_graphlink_list(&node->out, TM_EDGE_OUT_LINK); dump_graphlink_list(node->out, TM_EDGE_OUT_LINK, "out", fp); if (js_mode) fputs(" },\n", fp); else fputs("\n", fp); } if (js_mode) { fputs("]};\n", fp); } else { fputs("
%sDownNextTotal/Direct (percents)AllocationsFan-inFan-out
%.*s%sdownnext%s/%s (%1.2f%%/%1.2f%%)%s/%s (%1.2f%%/%1.2f%%)
\n
\n", fp); qsort(table, count, sizeof(tmgraphnode*), mean_size_compare); fprintf(fp, "\n" "\n" "" "" "" "" "\n", title); for (i = 0; i < count; i++) { double allocs, bytes, mean, variance, sigma; node = table[i]; allocs = (double)node->allocs.calls.direct; if (!allocs) continue; /* Compute direct-size mean and standard deviation. */ bytes = (double)node->allocs.bytes.direct; mean = bytes / allocs; variance = allocs * node->sqsum - bytes * bytes; if (variance < 0 || allocs == 1) variance = 0; else variance /= allocs * (allocs - 1); sigma = sqrt(variance); name = tmgraphnode_name(node); namelen = strlen(name); fprintf(fp, "" "" "" "" "" "\n", (namelen > 65) ? 45 : (int)namelen, name, (namelen > 65) ? "..." : "", prettybig((uint32)mean, buf1, sizeof buf1), prettybig((uint32)sigma, buf2, sizeof buf2), prettybig(node->allocs.calls.direct, buf3, sizeof buf3)); } fputs("
Direct Allocators
%sMean SizeStdDevAllocations" "
%.*s%s%s%s%s
\n", fp); } free((void*) table); } static void my_tmevent_handler(tmreader *tmr, tmevent *event) { switch (event->type) { case TM_EVENT_STATS: if (js_mode) break; fprintf(stdout, "

" "\n" "\n" "\n" "\n" "\n" "\n" "\n" "\n" "\n" "\n" "\n" "\n" "\n" "\n" "\n" "\n" "\n" "\n" "\n" "\n" "\n" "
CounterValue
maximum actual stack depth%lu
maximum callsite tree depth%lu
number of parent callsites%lu
maximum kids per parent%lu
hits looking for a kid%lu
misses looking for a kid%lu
steps over other kids%lu
callsite recurrences%lu
number of stack backtraces%lu
backtrace failures%lu
backtrace malloc failures%lu
backtrace dladdr failures%lu
malloc calls%lu
malloc failures%lu
calloc calls%lu
calloc failures%lu
realloc calls%lu
realloc failures%lu
free calls%lu
free(null) calls%lu
", (unsigned long) event->u.stats.tmstats.calltree_maxstack, (unsigned long) event->u.stats.tmstats.calltree_maxdepth, (unsigned long) event->u.stats.tmstats.calltree_parents, (unsigned long) event->u.stats.tmstats.calltree_maxkids, (unsigned long) event->u.stats.tmstats.calltree_kidhits, (unsigned long) event->u.stats.tmstats.calltree_kidmisses, (unsigned long) event->u.stats.tmstats.calltree_kidsteps, (unsigned long) event->u.stats.tmstats.callsite_recurrences, (unsigned long) event->u.stats.tmstats.backtrace_calls, (unsigned long) event->u.stats.tmstats.backtrace_failures, (unsigned long) event->u.stats.tmstats.btmalloc_failures, (unsigned long) event->u.stats.tmstats.dladdr_failures, (unsigned long) event->u.stats.tmstats.malloc_calls, (unsigned long) event->u.stats.tmstats.malloc_failures, (unsigned long) event->u.stats.tmstats.calloc_calls, (unsigned long) event->u.stats.tmstats.calloc_failures, (unsigned long) event->u.stats.tmstats.realloc_calls, (unsigned long) event->u.stats.tmstats.realloc_failures, (unsigned long) event->u.stats.tmstats.free_calls, (unsigned long) event->u.stats.tmstats.null_free_calls); if (event->u.stats.calltree_maxkids_parent) { tmcallsite *site = tmreader_callsite(tmr, event->u.stats.calltree_maxkids_parent); if (site && site->method) { fprintf(stdout, "

callsite with the most kids: %s

", tmmethodnode_name(site->method)); } } if (event->u.stats.calltree_maxstack_top) { tmcallsite *site = tmreader_callsite(tmr, event->u.stats.calltree_maxstack_top); fputs("

deepest callsite tree path:\n" "\n" "\n", stdout); while (site) { fprintf(stdout, "\n", site->method ? tmmethodnode_name(site->method) : "???", (unsigned long) site->offset); site = site->parent; } fputs("
MethodOffset
%s0x%08lX
\n


\n", stdout); } break; } } int main(int argc, char **argv) { int c, i, j, rv; tmreader *tmr; FILE *fp; program = *argv; tmr = tmreader_new(program, NULL); if (!tmr) { perror(program); exit(1); } while ((c = getopt(argc, argv, "djtuf:m:")) != EOF) { switch (c) { case 'd': sort_by_direct = 1; break; case 'j': js_mode = 1; break; case 't': do_tree_dump = 1; break; case 'u': unified_output = 1; break; case 'f': function_dump = optarg; break; case 'm': min_subtotal = atoi(optarg); break; default: fprintf(stderr, "usage: %s [-dtu] [-f function-dump-filename] [-m min] [output.html]\n", program); exit(2); } } if (!js_mode) { time_t start = time(NULL); fprintf(stdout, "\n"); fprintf(stdout, "%s starting at %s", program, ctime(&start)); fflush(stdout); } argc -= optind; argv += optind; if (argc == 0) { if (tmreader_eventloop(tmr, "-", my_tmevent_handler) <= 0) exit(1); } else { for (i = j = 0; i < argc; i++) { fp = fopen(argv[i], "r"); if (!fp) { fprintf(stderr, "%s: can't open %s: %s\n", program, argv[i], strerror(errno)); exit(1); } rv = tmreader_eventloop(tmr, argv[i], my_tmevent_handler); if (rv < 0) exit(1); if (rv > 0) j++; fclose(fp); } if (j == 0) exit(1); } compute_callsite_totals(&tmr->calltree_root); walk_callsite_tree(&tmr->calltree_root, 0, 0, stdout); if (js_mode) { fprintf(stdout, "\n" "\n" " \n" " \n" "\n", stdout); } } exit(0); }