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bind/tests/bench/load-names.c
Ondřej Surý f7e5c1db38
Change the 'isc_g_mctx' to be always available 
This required couple of internal changes to the isc_mem_debugging.

The isc_mem_debugging is now internal to isc_mem unit and there are
three new functions:

1. isc_mem_setdebugging() can change the debugging setting for an
   individual memory context.  This is need for the memory contexts used
   for OpenSSL, libxml and libuv accounting as recording and tracing
   memory is broken there.

2. isc_mem_debugon() / isc_mem_debugoff() can be used to change default
   memory debugging flags as well as debugging flags for isc_g_mctx.

Additionally, the memory debugging is inconsistent across the code-base.
For now, we are keeping the existing flags, but three new environment
variables have been added 'ISC_MEM_DEBUGRECORD', 'ISC_MEM_DEBUGTRACE'
and 'ISC_MEM_DEBUGUSAGE' to set the global debugging flags at any
program using the memory contexts.
2025-08-04 11:29:50 +02:00

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/*
* Copyright (C) Internet Systems Consortium, Inc. ("ISC")
*
* SPDX-License-Identifier: MPL-2.0
*
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, you can obtain one at https://mozilla.org/MPL/2.0/.
*
* See the COPYRIGHT file distributed with this work for additional
* information regarding copyright ownership.
*/
#include <assert.h>
#include <stdlib.h>
#include <isc/barrier.h>
#include <isc/file.h>
#include <isc/hashmap.h>
#include <isc/ht.h>
#include <isc/lib.h>
#include <isc/list.h>
#include <isc/refcount.h>
#include <isc/rwlock.h>
#include <isc/thread.h>
#include <isc/urcu.h>
#include <isc/util.h>
#include <dns/fixedname.h>
#include <dns/lib.h>
#include <dns/qp.h>
#include <dns/types.h>
#include "dns/name.h"
#include "qp_p.h"
#include <tests/dns.h>
#include <tests/qp.h>
struct item_s {
const char *text;
dns_fixedname_t fixed;
struct cds_lfht_node ht_node;
} item[1024 * 1024];
isc_barrier_t barrier;
isc_rwlock_t rwl;
struct thread_s {
isc_thread_t thread;
struct fun *fun;
void *map;
size_t start;
size_t end;
uint64_t d0;
uint64_t d1;
} threads[1024];
static void
item_check(void *ctx, void *pval, uint32_t ival) {
UNUSED(ctx);
assert(pval == &item[ival]);
}
static size_t
item_makekey(dns_qpkey_t key, void *ctx, void *pval, uint32_t ival) {
UNUSED(ctx);
assert(pval == &item[ival]);
return dns_qpkey_fromname(key, &item[ival].fixed.name,
DNS_DBNAMESPACE_NORMAL);
}
static void
testname(void *ctx, char *buf, size_t size) {
REQUIRE(ctx == NULL);
strlcpy(buf, "test", size);
}
const dns_qpmethods_t qpmethods = {
item_check,
item_check,
item_makekey,
testname,
};
#define CHECK(count, result) \
do { \
if (result != ISC_R_SUCCESS) { \
dns_name_t *name = &item[count].fixed.name; \
char buf[DNS_NAME_MAXTEXT] = { 0 }; \
dns_name_format(name, buf, sizeof(buf)); \
fprintf(stderr, "%s: %s\n", buf, \
isc_result_totext(result)); \
exit(EXIT_FAILURE); \
} \
} while (0)
struct fun {
const char *name;
void *(*new)(isc_mem_t *mem);
isc_threadfunc_t thread;
};
/*
* cds_lfht
*/
static void *
new_lfht(isc_mem_t *mem ISC_ATTR_UNUSED) {
struct cds_lfht *lfht = cds_lfht_new(
1, 1, 0, CDS_LFHT_AUTO_RESIZE | CDS_LFHT_ACCOUNTING, NULL);
return lfht;
}
static int
lfht_match(struct cds_lfht_node *ht_node, const void *_key) {
const struct item_s *i = caa_container_of(ht_node, struct item_s,
ht_node);
const dns_name_t *key = _key;
return dns_name_equal(key, &i->fixed.name);
}
static isc_result_t
add_lfht(void *lfht, size_t count) {
unsigned long hash = dns_name_hash(&item[count].fixed.name);
struct cds_lfht_node *ht_node = cds_lfht_add_unique(
lfht, hash, lfht_match, &item[count].fixed.name,
&item[count].ht_node);
if (ht_node != &item[count].ht_node) {
return ISC_R_EXISTS;
}
return ISC_R_SUCCESS;
}
static isc_result_t
get_lfht(void *lfht, size_t count, void **pval) {
unsigned long hash = dns_name_hash(&item[count].fixed.name);
struct cds_lfht_iter iter;
cds_lfht_lookup(lfht, hash, lfht_match, &item[count].fixed.name, &iter);
struct cds_lfht_node *ht_node = cds_lfht_iter_get_node(&iter);
if (ht_node == NULL) {
return ISC_R_NOTFOUND;
}
*pval = caa_container_of(ht_node, struct item_s, ht_node);
return ISC_R_SUCCESS;
}
static void *
thread_lfht(void *arg0) {
struct thread_s *arg = arg0;
isc_barrier_wait(&barrier);
isc_time_t t0 = isc_time_now_hires();
for (size_t n = arg->start; n < arg->end; n++) {
isc_result_t result = add_lfht(arg->map, n);
CHECK(n, result);
}
isc_time_t t1 = isc_time_now_hires();
for (size_t n = arg->start; n < arg->end; n++) {
void *pval = NULL;
isc_result_t result = get_lfht(arg->map, n, &pval);
CHECK(n, result);
assert(pval == &item[n]);
}
isc_time_t t2 = isc_time_now_hires();
arg->d0 = isc_time_microdiff(&t1, &t0);
arg->d1 = isc_time_microdiff(&t2, &t1);
return NULL;
}
/*
* hashmap
*/
static void *
new_hashmap(isc_mem_t *mem) {
isc_hashmap_t *hashmap = NULL;
isc_hashmap_create(mem, 1, &hashmap);
return hashmap;
}
static bool
name_match(void *node, const void *key) {
const struct item_s *i = node;
return dns_name_equal(&i->fixed.name, key);
}
static isc_result_t
add_hashmap(void *hashmap, size_t count) {
isc_result_t result = isc_hashmap_add(
hashmap, dns_name_hash(&item[count].fixed.name), name_match,
&item[count].fixed.name, &item[count], NULL);
return result;
}
static isc_result_t
get_hashmap(void *hashmap, size_t count, void **pval) {
isc_result_t result = isc_hashmap_find(
hashmap, dns_name_hash(&item[count].fixed.name), name_match,
&item[count].fixed.name, pval);
return result;
}
static void *
thread_hashmap(void *arg0) {
struct thread_s *arg = arg0;
isc_barrier_wait(&barrier);
isc_time_t t0 = isc_time_now_hires();
WRLOCK(&rwl);
for (size_t n = arg->start; n < arg->end; n++) {
isc_result_t result = add_hashmap(arg->map, n);
CHECK(n, result);
}
WRUNLOCK(&rwl);
isc_time_t t1 = isc_time_now_hires();
RDLOCK(&rwl);
for (size_t n = arg->start; n < arg->end; n++) {
void *pval = NULL;
isc_result_t result = get_hashmap(arg->map, n, &pval);
CHECK(n, result);
assert(pval == &item[n]);
}
RDUNLOCK(&rwl);
isc_time_t t2 = isc_time_now_hires();
arg->d0 = isc_time_microdiff(&t1, &t0);
arg->d1 = isc_time_microdiff(&t2, &t1);
return NULL;
}
/*
* ht
*/
static void *
new_ht(isc_mem_t *mem) {
isc_ht_t *ht = NULL;
isc_ht_init(&ht, mem, 1, 0);
return ht;
}
static isc_result_t
add_ht(void *ht, size_t count) {
isc_result_t result = isc_ht_add(ht, item[count].fixed.name.ndata,
item[count].fixed.name.length,
&item[count]);
return result;
}
static isc_result_t
get_ht(void *ht, size_t count, void **pval) {
isc_result_t result = isc_ht_find(ht, item[count].fixed.name.ndata,
item[count].fixed.name.length, pval);
return result;
}
static void *
thread_ht(void *arg0) {
struct thread_s *arg = arg0;
isc_barrier_wait(&barrier);
isc_time_t t0 = isc_time_now_hires();
WRLOCK(&rwl);
for (size_t n = arg->start; n < arg->end; n++) {
isc_result_t result = add_ht(arg->map, n);
CHECK(n, result);
}
WRUNLOCK(&rwl);
isc_time_t t1 = isc_time_now_hires();
RDLOCK(&rwl);
for (size_t n = arg->start; n < arg->end; n++) {
void *pval = NULL;
isc_result_t result = get_ht(arg->map, n, &pval);
CHECK(n, result);
assert(pval == &item[n]);
}
RDUNLOCK(&rwl);
isc_time_t t2 = isc_time_now_hires();
arg->d0 = isc_time_microdiff(&t1, &t0);
arg->d1 = isc_time_microdiff(&t2, &t1);
return NULL;
}
/*
* qp
*/
static void *
new_qp(isc_mem_t *mem) {
dns_qpmulti_t *qpmulti = NULL;
dns_qpmulti_create(mem, &qpmethods, NULL, &qpmulti);
return qpmulti;
}
static isc_result_t
add_qp(void *qp, size_t count) {
isc_result_t result = dns_qp_insert(qp, &item[count], count);
return result;
}
static void
sqz_qp(void *qp) {
dns_qp_compact(qp, DNS_QPGC_MAYBE);
}
static isc_result_t
get_qp(void *qp, size_t count, void **pval) {
return dns_qp_getname(qp, &item[count].fixed.name,
DNS_DBNAMESPACE_NORMAL, pval, NULL);
}
static void *
_thread_qp(void *arg0, bool sqz, bool brr) {
struct thread_s *arg = arg0;
isc_barrier_wait(&barrier);
dns_qp_t *qp = NULL;
dns_qpmulti_write(arg->map, &qp);
isc_time_t t0 = isc_time_now_hires();
for (size_t n = arg->start; n < arg->end; n++) {
isc_result_t result = add_qp(qp, n);
CHECK(n, result);
}
if (sqz) {
sqz_qp(qp);
}
dns_qpmulti_commit(arg->map, &qp);
if (brr) {
rcu_barrier();
}
isc_time_t t1 = isc_time_now_hires();
dns_qpread_t qpr;
dns_qpmulti_query(arg->map, &qpr);
for (size_t n = arg->start; n < arg->end; n++) {
void *pval = NULL;
isc_result_t result = get_qp(&qpr, n, &pval);
CHECK(n, result);
assert(pval == &item[n]);
}
dns_qpread_destroy(arg->map, &qpr);
isc_time_t t2 = isc_time_now_hires();
arg->d0 = isc_time_microdiff(&t1, &t0);
arg->d1 = isc_time_microdiff(&t2, &t1);
return NULL;
}
static void *
thread_qp(void *arg0) {
return _thread_qp(arg0, true, false);
}
static void *
thread_qp_nosqz(void *arg0) {
return _thread_qp(arg0, false, false);
}
static void *
thread_qp_brr(void *arg0) {
return _thread_qp(arg0, true, true);
}
/*
* fun table
*/
static struct fun fun_list[] = {
{ "lfht", new_lfht, thread_lfht },
{ "ht", new_ht, thread_ht },
{ "hashmap", new_hashmap, thread_hashmap },
{ "qp", new_qp, thread_qp },
{ "qp+nosqz", new_qp, thread_qp_nosqz },
{ "qp+barrier", new_qp, thread_qp_brr },
{ NULL, NULL, NULL },
};
#define FILE_CHECK(check, msg) \
do { \
if (!(check)) { \
fprintf(stderr, "%s:%zu: %s\n", filename, lines, msg); \
exit(EXIT_FAILURE); \
} \
} while (0)
int
main(int argc, char *argv[]) {
isc_result_t result;
const char *filename = NULL;
char *filetext = NULL;
off_t fileoff;
FILE *fp = NULL;
size_t filesize, lines = 0, wirebytes = 0, labels = 0;
char *pos = NULL, *file_end = NULL;
isc_rwlock_init(&rwl);
if (argc != 2) {
fprintf(stderr,
"usage: load-names <filename.csv> <nthreads>\n");
exit(EXIT_FAILURE);
}
filename = argv[1];
result = isc_file_getsize(filename, &fileoff);
if (result != ISC_R_SUCCESS) {
fprintf(stderr, "stat(%s): %s\n", filename,
isc_result_totext(result));
exit(EXIT_FAILURE);
}
filesize = (size_t)fileoff;
filetext = isc_mem_get(isc_g_mctx, filesize + 1);
fp = fopen(filename, "r");
if (fp == NULL || fread(filetext, 1, filesize, fp) < filesize) {
fprintf(stderr, "read(%s): %s\n", filename, strerror(errno));
exit(EXIT_FAILURE);
}
fclose(fp);
filetext[filesize] = '\0';
pos = filetext;
file_end = pos + filesize;
while (pos < file_end) {
char *domain = NULL, *newline = NULL;
size_t len;
FILE_CHECK(lines < ARRAY_SIZE(item), "too many lines");
pos += strspn(pos, "0123456789");
FILE_CHECK(*pos++ == ',', "missing comma");
domain = pos;
pos += strcspn(pos, "\r\n");
FILE_CHECK(*pos != '\0', "missing newline");
newline = pos;
pos += strspn(pos, "\r\n");
len = newline - domain;
item[lines].text = domain;
domain[len] = '\0';
dns_name_t *name = dns_fixedname_initname(&item[lines].fixed);
isc_buffer_t buffer;
isc_buffer_init(&buffer, domain, len);
isc_buffer_add(&buffer, len);
result = dns_name_fromtext(name, &buffer, dns_rootname, 0);
FILE_CHECK(result == ISC_R_SUCCESS, isc_result_totext(result));
wirebytes += name->length;
labels += dns_name_countlabels(name);
lines++;
}
printf("names %g MB labels %g MB\n\n", (double)wirebytes / 1048576.0,
(double)labels / 1048576.0);
printf("%10s | %10s | %10s | %10s | %10s | %10s | %10s |\n",
"algorithm", "threads", "load", "query", "dirty MB", "total",
"final MB");
for (size_t nthreads = 128; nthreads > 0; nthreads /= 2) {
printf("---------- | ---------- | ---------- | ---------- | "
"---------- | ---------- | ---------- |\n");
for (struct fun *fun = fun_list; fun->name != NULL; fun++) {
void *map = NULL;
map = fun->new(isc_g_mctx);
size_t nitems = lines / (nthreads + 1);
isc_barrier_init(&barrier, nthreads);
isc_time_t t0 = isc_time_now_hires();
size_t m0 = isc_mem_inuse(isc_g_mctx);
for (size_t i = 0; i < nthreads; i++) {
threads[i] = (struct thread_s){
.fun = fun,
.map = map,
.start = nitems * i,
.end = nitems * i + nitems,
};
isc_thread_create(fun->thread, &threads[i],
&threads[i].thread);
}
uint64_t d0 = 0;
uint64_t d1 = 0;
for (size_t i = 0; i < nthreads; i++) {
isc_thread_join(threads[i].thread, NULL);
d0 += threads[i].d0;
d1 += threads[i].d1;
}
size_t m1 = isc_mem_inuse(isc_g_mctx);
rcu_barrier();
isc_time_t t1 = isc_time_now_hires();
uint64_t d3 = isc_time_microdiff(&t1, &t0);
size_t m2 = isc_mem_inuse(isc_g_mctx);
printf("%10s | %10zu | %10.4f | %10.4f | %10.4f | "
"%10.4f | %10.4f |\n",
fun->name, nthreads,
(double)(d0 / nthreads) / (1000.0 * 1000.0),
(double)(d1 / nthreads) / (1000.0 * 1000.0),
(double)(m1 - m0) / (1024.0 * 1024.0),
(double)d3 / (1000.0 * 1000.0),
(double)(m2 - m0) / (1024.0 * 1024.0)
);
}
}
printf("---------- | ---------- | ---------- | ---------- | "
"---------- | ---------- | ---------- |\n");
}
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