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gecko-dev/tools/trace-malloc/bloatblame.c

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23 KiB
C
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Add nsTraceMalloc.[ch] and bloatblame.c, not part of build (setenv NS_TRACE_MALLOC to enable here and in xpfe/bootstrap).
2000-04-20 08:55:26 +04:00
/* -*- Mode: C; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*-
*
* 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 oqr
* 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 Netscape are
* Copyright (C) 2000 Netscape Communications Corporation. All
* Rights Reserved.
*
* Contributor(s):
* Brendan Eich, 14-April-2000
*
* Alternatively, the contents of this file may be used under the
* terms of the GNU Public License (the "GPL"), in which case the
* provisions of the GPL are applicable instead of those above.
* If you wish to allow use of your version of this file only
* under the terms of the GPL and not to allow others to use your
* version of this file under the MPL, indicate your decision by
* deleting the provisions above and replace them with the notice
* and other provisions required by the GPL. If you do not delete
* the provisions above, a recipient may use your version of this
* file under either the MPL or the GPL.
*/
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <ctype.h>
#include <errno.h>
#include <getopt.h>
#include <time.h>
#include <unistd.h>
#include "prtypes.h"
#include "prlog.h"
#include "prprf.h"
#include "plhash.h"
#include "nsTraceMalloc.h"
static char *program;
static int sort_by_direct = 0;
static int do_tree_dump = 0;
static uint32 min_subtotal = 0;
static int accum_byte(uint32 *uip)
{
int c = getchar();
if (c == EOF)
return 0;
*uip = (*uip << 8) | c;
return 1;
}
static int get_uint32(uint32 *uip)
{
int c;
uint32 ui;
c = getchar();
if (c == EOF)
return 0;
ui = 0;
if (c & 0x80) {
c &= 0x7f;
if (c & 0x40) {
c &= 0x3f;
if (c & 0x20) {
c &= 0x1f;
if (c & 0x10) {
if (!accum_byte(&ui))
return 0;
} else {
ui = (uint32) c;
}
if (!accum_byte(&ui))
return 0;
} else {
ui = (uint32) c;
}
if (!accum_byte(&ui))
return 0;
} else {
ui = (uint32) c;
}
if (!accum_byte(&ui))
return 0;
} else {
ui = (uint32) c;
}
*uip = ui;
return 1;
}
static char *get_string(void)
{
char *cp;
int c;
static char buf[256];
static char *bp = buf, *ep = buf + sizeof buf;
static size_t bsize = sizeof buf;
cp = bp;
do {
c = getchar();
if (c == EOF)
return 0;
if (cp == ep) {
if (bp == buf) {
bp = malloc(2 * bsize);
memcpy(bp, buf, bsize);
} else {
bp = realloc(bp, 2 * bsize);
}
if (!bp)
return 0;
cp = bp + bsize;
bsize *= 2;
ep = bp + bsize;
}
*cp++ = c;
} while (c != '\0');
return strdup(bp);
}
typedef struct logevent {
char type;
uint32 serial;
union {
char *libname;
struct {
uint32 library;
char *name;
} method;
struct {
uint32 parent;
uint32 method;
uint32 offset;
} site;
struct {
uint32 oldsize;
uint32 size;
} alloc;
} u;
} logevent;
static int get_logevent(logevent *event)
{
int c;
char *s;
c = getchar();
if (c == EOF)
return 0;
event->type = (char) c;
if (!get_uint32(&event->serial))
return 0;
switch (c) {
case 'L':
s = get_string();
if (!s)
return 0;
event->u.libname = s;
break;
case 'N':
if (!get_uint32(&event->u.method.library))
return 0;
s = get_string();
if (!s)
return 0;
event->u.method.name = s;
break;
case 'S':
if (!get_uint32(&event->u.site.parent))
return 0;
if (!get_uint32(&event->u.site.method))
return 0;
if (!get_uint32(&event->u.site.offset))
return 0;
break;
case 'M':
case 'C':
case 'F':
event->u.alloc.oldsize = 0;
if (!get_uint32(&event->u.alloc.size))
return 0;
break;
case 'R':
if (!get_uint32(&event->u.alloc.oldsize))
return 0;
if (!get_uint32(&event->u.alloc.size))
return 0;
break;
}
return 1;
}
typedef struct graphedge graphedge;
typedef struct graphnode graphnode;
typedef struct callsite callsite;
struct graphnode {
PLHashEntry entry; /* key is serial or name, value must be name */
graphedge *in;
graphedge *out;
graphnode *up;
uint32 direct; /* bytes allocated by this node's code */
uint32 total; /* direct + bytes from all descendents */
int visited; /* flag used during walk_callsite_tree */
};
#define graphnode_name(node) ((char*) (node)->entry.value)
#define library_serial(lib) ((uint32) (lib)->entry.key)
#define component_name(comp) ((const char*) (comp)->entry.key)
struct graphedge {
graphedge *next;
graphnode *node;
uint32 direct;
uint32 total;
};
struct callsite {
PLHashEntry entry;
callsite *parent;
callsite *siblings;
callsite *kids;
graphnode *method;
uint32 offset;
uint32 direct;
uint32 total;
};
#define callsite_serial(site) ((uint32) (site)->entry.key)
static void connect_nodes(graphnode *from, graphnode *to, callsite *site)
{
graphedge *edge;
for (edge = from->out; edge; edge = edge->next) {
if (edge->node == to) {
edge[0].direct += site->direct;
edge[1].direct += site->direct;
edge[0].total += site->total;
edge[1].total += site->total;
return;
}
}
edge = (graphedge*) malloc(2 * sizeof(graphedge));
if (!edge) {
perror(program);
exit(1);
}
edge[0].node = to;
edge[0].next = from->out;
from->out = &edge[0];
edge[1].node = from;
edge[1].next = to->in;
to->in = &edge[1];
edge[0].direct = edge[1].direct = site->direct;
edge[0].total = edge[1].total = site->total;
}
static void *generic_alloctable(void *pool, PRSize size)
{
return malloc(size);
}
static void generic_freetable(void *pool, void *item)
{
free(item);
}
static PLHashEntry *callsite_allocentry(void *pool, const void *key)
{
return malloc(sizeof(callsite));
}
static PLHashEntry *graphnode_allocentry(void *pool, const void *key)
{
graphnode *node = (graphnode*) malloc(sizeof(graphnode));
if (node) {
node->in = node->out = NULL;
node->up = NULL;
node->direct = node->total = 0;
node->visited = 0;
}
return &node->entry;
}
static void graphnode_freeentry(void *pool, PLHashEntry *he, PRUintn flag)
{
/* Always free the value, which points to a strdup'd string. */
free(he->value);
/* Free the whole thing if we're told to. */
if (flag == HT_FREE_ENTRY)
free((void*) he);
}
static void component_freeentry(void *pool, PLHashEntry *he, PRUintn flag)
{
if (flag == HT_FREE_ENTRY) {
graphnode *comp = (graphnode*) he;
/* Free the key, which was strdup'd (N.B. value also points to it). */
free((void*) component_name(comp));
free((void*) comp);
}
}
static PLHashAllocOps callsite_hashallocops = {
generic_alloctable, generic_freetable,
callsite_allocentry, graphnode_freeentry
};
static PLHashAllocOps graphnode_hashallocops = {
generic_alloctable, generic_freetable,
graphnode_allocentry, graphnode_freeentry
};
static PLHashAllocOps component_hashallocops = {
generic_alloctable, generic_freetable,
graphnode_allocentry, component_freeentry
};
static PLHashNumber hash_serial(const void *key)
{
return (PLHashNumber) key;
}
static PLHashTable *libraries;
static PLHashTable *components;
static PLHashTable *methods;
static PLHashTable *callsites;
static callsite calltree_root;
static void walk_callsite_tree(callsite *site, int level, int kidnum, FILE *fp)
{
callsite *parent;
graphnode *meth, *pmeth, *comp, *pcomp, *lib, *plib;
callsite *kid;
int nkids;
parent = site->parent;
meth = comp = lib = NULL;
if (parent) {
meth = site->method;
if (meth) {
pmeth = parent->method;
if (pmeth && pmeth != meth) {
if (!meth->visited)
meth->total += site->total;
connect_nodes(pmeth, meth, site);
comp = meth->up;
if (comp) {
pcomp = pmeth->up;
if (pcomp && pcomp != comp) {
if (!comp->visited)
comp->total += site->total;
connect_nodes(pcomp, comp, site);
lib = comp->up;
if (lib) {
plib = pcomp->up;
if (plib && plib != lib) {
if (!lib->visited)
plib->total += site->total;
connect_nodes(plib, lib, site);
}
lib->visited = 1;
}
}
comp->visited = 1;
}
}
meth->visited = 1;
}
}
if (do_tree_dump) {
fprintf(fp, "%c%*s%3d %3d %s %lu %lu\n",
site->kids ? '+' : '-', level, "", level, kidnum,
meth ? graphnode_name(meth) : "???",
(unsigned long)site->direct, (unsigned long)site->total);
}
nkids = 0;
for (kid = site->kids; kid; kid = kid->siblings) {
walk_callsite_tree(kid, level + 1, nkids, fp);
nkids++;
}
if (meth) {
meth->visited = 0;
if (comp) {
comp->visited = 0;
if (lib)
lib->visited = 0;
}
}
}
static PRIntn tabulate_node(PLHashEntry *he, PRIntn i, void *arg)
{
graphnode **table = (graphnode**) arg;
table[i] = (graphnode*) he;
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 graphnode *node1, *node2;
uint32 key1, key2;
node1 = *(const graphnode**) p1;
node2 = *(const graphnode**) p2;
if (sort_by_direct) {
key1 = node1->direct;
key2 = node2->direct;
} else {
key1 = node1->total;
key2 = node2->total;
}
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 > 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;
}
/* Linked list bubble-sort (waterson and brendan went bald hacking this). */
static void sort_graphedge_list(graphedge **currp)
{
graphedge *curr, *next, **nextp, *tmp;
while ((curr = *currp) != NULL && curr->next) {
nextp = &curr->next;
while ((next = *nextp) != NULL) {
if (curr->total < next->total) {
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;
}
}
static void dump_graphedge_list(graphedge *list, FILE *fp)
{
uint32 total;
graphedge *edge;
char buf[32];
fputs("<td valign=top>", fp);
total = 0;
for (edge = list; edge; edge = edge->next)
total += edge->total;
for (edge = list; edge; edge = edge->next) {
fprintf(fp, "<a href='#%s'>%s&nbsp;(%%%1.2f)</a>\n",
graphnode_name(edge->node),
prettybig(edge->total, buf, sizeof buf),
percent(edge->total, total));
}
fputs("</td>", fp);
}
static void dump_graph(PLHashTable *hashtbl, const char *title, FILE *fp)
{
uint32 i, count;
graphnode **table;
char buf1[32], buf2[32];
count = hashtbl->nentries;
table = (graphnode**) malloc(count * sizeof(graphnode*));
if (!table) {
perror(program);
exit(1);
}
PL_HashTableEnumerateEntries(hashtbl, tabulate_node, table);
qsort(table, count, sizeof(graphnode*), node_table_compare);
fprintf(fp,
"<table border=1>\n"
"<tr><th>%s</th>"
"<th>Total/Direct (percents)</th>"
"<th>Fan-in</th>"
"<th>Fan-out</th>"
"</tr>\n",
title);
for (i = 0; i < count; i++) {
graphnode *node;
node = table[i];
/* XXX cast out bogusly large components (threading confusion? */
if (node->total > calltree_root.total)
continue;
/* Don't bother with truly puny nodes. */
if (node->total < min_subtotal)
break;
fprintf(fp,
"<tr>"
"<td valign=top><a name='%s'>%s</td>"
"<td valign=top>%s/%s (%%%1.2f/%%%1.2f)</td>",
graphnode_name(node),
graphnode_name(node),
prettybig(node->total, buf1, sizeof buf1),
prettybig(node->direct, buf2, sizeof buf2),
percent(node->total, calltree_root.total),
percent(node->direct, calltree_root.total));
sort_graphedge_list(&node->in);
dump_graphedge_list(node->in, fp);
sort_graphedge_list(&node->out);
dump_graphedge_list(node->out, fp);
fputs("</tr>\n", fp);
}
fputs("</table>\n", fp);
free((void*) table);
}
static const char magic[] = NS_TRACE_MALLOC_LOGFILE_MAGIC;
int main(int argc, char **argv)
{
int c;
FILE *fp;
char buf[16];
time_t start;
logevent event;
program = *argv;
while ((c = getopt(argc, argv, "dtm:")) != EOF) {
switch (c) {
case 'd':
sort_by_direct = 1;
break;
case 't':
do_tree_dump = 1;
break;
case 'm':
min_subtotal = atoi(optarg);
break;
default:
fprintf(stderr, "usage: %s [-dt] [-m min] [output.html]\n",
program);
return 2;
}
}
argc -= optind;
argv += optind;
if (argc == 0) {
fp = stdout;
} else {
fp = fopen(*argv, "w");
if (!fp) {
fprintf(stderr, "%s: can't open %s: %s\n",
program, *argv, strerror(errno));
return 1;
}
}
if (read(0, buf, 16) != 16 || strncmp(buf, magic, 16) != 0) {
fprintf(stderr, "%s: bad magic string %s at start of standard input.\n",
program, buf);
return 1;
}
start = time(NULL);
fprintf(fp, "%s starting at %s", program, ctime(&start));
fflush(fp);
libraries = PL_NewHashTable(100, hash_serial, PL_CompareValues,
PL_CompareStrings, &graphnode_hashallocops,
NULL);
components = PL_NewHashTable(10000, PL_HashString, PL_CompareStrings,
PL_CompareValues, &component_hashallocops,
NULL);
methods = PL_NewHashTable(10000, hash_serial, PL_CompareValues,
PL_CompareStrings, &graphnode_hashallocops,
NULL);
callsites = PL_NewHashTable(200000, hash_serial, PL_CompareValues,
PL_CompareValues, &callsite_hashallocops,
NULL);
calltree_root.entry.value = (void*) strdup("root");
if (!libraries || !components || !methods || !callsites ||
!calltree_root.entry.value) {
perror(program);
return 1;
}
while (get_logevent(&event)) {
switch (event.type) {
case 'L': {
const void *key;
PLHashNumber hash;
PLHashEntry **hep, *he;
key = (const void*) event.serial;
hash = hash_serial(key);
hep = PL_HashTableRawLookup(libraries, hash, key);
he = *hep;
PR_ASSERT(!he);
if (he) return 2;
he = PL_HashTableRawAdd(libraries, hep, hash, key, event.u.libname);
if (!he) {
perror(program);
return 1;
}
break;
}
case 'N': {
const void *key;
PLHashNumber hash;
PLHashEntry **hep, *he;
char *name, *head, *mark, save;
graphnode *meth, *comp, *lib;
key = (const void*) event.serial;
hash = hash_serial(key);
hep = PL_HashTableRawLookup(methods, hash, key);
he = *hep;
PR_ASSERT(!he);
if (he) return 2;
name = event.u.method.name;
he = PL_HashTableRawAdd(methods, hep, hash, key, name);
if (!he) {
perror(program);
return 1;
}
meth = (graphnode*) he;
head = name;
mark = strchr(name, ':');
if (!mark) {
mark = name;
while (*mark != '\0' && *mark == '_')
mark++;
head = mark;
mark = strchr(head, '_');
if (!mark) {
mark = strchr(head, '+');
if (!mark)
mark = head + strlen(head);
}
}
save = *mark;
*mark = '\0';
hash = PL_HashString(head);
hep = PL_HashTableRawLookup(components, hash, head);
he = *hep;
if (he) {
comp = (graphnode*) he;
} else {
head = strdup(head);
if (head)
he = PL_HashTableRawAdd(components, hep, hash, head, head);
if (!he) {
perror(program);
exit(1);
}
comp = (graphnode*) he;
key = (const void*) event.u.method.library;
hash = hash_serial(key);
lib = (graphnode*) *PL_HashTableRawLookup(libraries, hash, key);
comp->up = lib;
}
*mark = save;
meth->up = comp;
break;
}
case 'S': {
const void *key, *pkey, *mkey;
PLHashNumber hash, phash, mhash;
PLHashEntry **hep, *he;
callsite *site, *parent;
graphnode *meth;
key = (const void*) event.serial;
hash = hash_serial(key);
hep = PL_HashTableRawLookup(callsites, hash, key);
he = *hep;
PR_ASSERT(!he);
if (he) return 2;
if (event.u.site.parent == 0) {
parent = &calltree_root;
} else {
pkey = (const void*) event.u.site.parent;
phash = hash_serial(pkey);
parent = (callsite*)
*PL_HashTableRawLookup(callsites, phash, pkey);
if (!parent) {
fprintf(fp, "### no parent for %lu (%lu)!\n",
(unsigned long) event.serial,
(unsigned long) event.u.site.parent);
continue;
}
}
he = PL_HashTableRawAdd(callsites, hep, hash, key, NULL);
if (!he) {
perror(program);
return 1;
}
site = (callsite*) he;
site->parent = parent;
site->siblings = parent->kids;
parent->kids = site;
site->kids = NULL;
mkey = (const void*) event.u.site.method;
mhash = hash_serial(mkey);
meth = (graphnode*) *PL_HashTableRawLookup(methods, mhash, mkey);
site->method = meth;
site->offset = event.u.site.offset;
site->direct = site->total = 0;
break;
}
case 'M':
case 'C':
case 'R': {
const void *key;
PLHashNumber hash;
callsite *site, *tmp;
int32 delta;
graphnode *meth, *comp, *lib;
key = (const void*) event.serial;
hash = hash_serial(key);
site = (callsite*) *PL_HashTableRawLookup(callsites, hash, key);
if (!site) {
fprintf(fp, "### no callsite for '%c' (%lu)!\n",
event.type, (unsigned long) event.serial);
continue;
}
delta = (int32)event.u.alloc.size - (int32)event.u.alloc.oldsize;
site->direct += delta;
for (tmp = site; tmp; tmp = tmp->parent)
tmp->total += delta;
meth = site->method;
if (meth) {
meth->direct += delta;
comp = meth->up;
if (comp) {
comp->direct += delta;
lib = comp->up;
if (lib)
lib->direct += delta;
}
}
break;
}
case 'F':
break;
}
}
walk_callsite_tree(&calltree_root, 0, 0, fp);
dump_graph(libraries, "Library", fp);
fputs("<hr>\n", fp);
dump_graph(components, "Component", fp);
#if 0
fputs("<hr>\n", fp);
dump_graph(methods, "Method", fp);
#endif
fclose(fp);
return 0;
}