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/*
This file is part of libmicrohttpd
Copyright (C) 2007, 2009, 2011 Christian Grothoff
libmicrohttpd is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published
by the Free Software Foundation; either version 2, or (at your
option) any later version.
libmicrohttpd is distributed in the hope that it will be useful, but
WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
General Public License for more details.
You should have received a copy of the GNU General Public License
along with libmicrohttpd; see the file COPYING. If not, write to the
Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
Boston, MA 02110-1301, USA.
*/
/**
* @file perf_get_concurrent.c
* @brief benchmark concurrent GET operations
* Note that we run libcurl on the machine at the
* same time, so the execution time may be influenced
* by the concurrent activity; it is quite possible
* that more time is spend with libcurl than with MHD,
* so the performance scores calculated with this code
* should NOT be used to compare with other HTTP servers
* (since MHD is actually better); only the relative
* scores between MHD versions are meaningful.
* @author Christian Grothoff
*/
#include "MHD_config.h"
#include "platform.h"
#include <curl/curl.h>
#include <microhttpd.h>
#include <stdlib.h>
#include <string.h>
#include <time.h>
#include <pthread.h>
#include "gauger.h"
#include "mhd_has_in_name.h"
#if defined(CPU_COUNT) && (CPU_COUNT + 0) < 2
#undef CPU_COUNT
#endif
#if ! defined(CPU_COUNT)
#define CPU_COUNT 2
#endif
/**
* How many rounds of operations do we do for each
* test (total number of requests will be ROUNDS * PAR).
* Ensure that free ports are not exhausted during test.
*/
#if CPU_COUNT > 8
#define ROUNDS (1 + (30000 / 12) / CPU_COUNT)
#else
#define ROUNDS 500
#endif
/**
* How many requests do we do in parallel?
*/
#define PAR CPU_COUNT
/**
* Do we use HTTP 1.1?
*/
static int oneone;
/**
* Response to return (re-used).
*/
static struct MHD_Response *response;
/**
* Time this round was started.
*/
static unsigned long long start_time;
/**
* Set to 1 if the worker threads are done.
*/
static volatile int signal_done;
/**
* Get the current timestamp
*
* @return current time in ms
*/
static unsigned long long
now ()
{
struct timeval tv;
gettimeofday (&tv, NULL);
return (((unsigned long long) tv.tv_sec * 1000LL)
+ ((unsigned long long) tv.tv_usec / 1000LL));
}
/**
* Start the timer.
*/
static void
start_timer ()
{
start_time = now ();
}
/**
* Stop the timer and report performance
*
* @param desc description of the threading mode we used
*/
static void
stop (const char *desc)
{
double rps = ((double) (PAR * ROUNDS * 1000)) / ((double) (now ()
- start_time));
fprintf (stderr,
"Parallel GETs using %s: %f %s\n",
desc,
rps,
"requests/s");
GAUGER (desc,
"Parallel GETs",
rps,
"requests/s");
}
static size_t
copyBuffer (void *ptr,
size_t size, size_t nmemb,
void *ctx)
{
(void) ptr; (void) ctx; /* Unused. Silent compiler warning. */
return size * nmemb;
}
static int
ahc_echo (void *cls,
struct MHD_Connection *connection,
const char *url,
const char *method,
const char *version,
const char *upload_data, size_t *upload_data_size,
void **unused)
{
static int ptr;
const char *me = cls;
int ret;
(void) url; (void) version; /* Unused. Silent compiler warning. */
(void) upload_data; (void) upload_data_size; /* Unused. Silent compiler warning. */
if (0 != strcmp (me, method))
return MHD_NO; /* unexpected method */
if (&ptr != *unused)
{
*unused = &ptr;
return MHD_YES;
}
*unused = NULL;
ret = MHD_queue_response (connection, MHD_HTTP_OK, response);
if (ret == MHD_NO)
abort ();
return ret;
}
static void *
thread_gets (void *param)
{
CURL *c;
CURLcode errornum;
unsigned int i;
char *const url = (char*) param;
c = curl_easy_init ();
curl_easy_setopt (c, CURLOPT_URL, url);
curl_easy_setopt (c, CURLOPT_WRITEFUNCTION, ©Buffer);
curl_easy_setopt (c, CURLOPT_WRITEDATA, NULL);
curl_easy_setopt (c, CURLOPT_FAILONERROR, 1L);
curl_easy_setopt (c, CURLOPT_TIMEOUT, 150L);
if (oneone)
curl_easy_setopt (c, CURLOPT_HTTP_VERSION, CURL_HTTP_VERSION_1_1);
else
curl_easy_setopt (c, CURLOPT_HTTP_VERSION, CURL_HTTP_VERSION_1_0);
curl_easy_setopt (c, CURLOPT_CONNECTTIMEOUT, 150L);
/* NOTE: use of CONNECTTIMEOUT without also
setting NOSIGNAL results in really weird
crashes on my system! */
curl_easy_setopt (c, CURLOPT_NOSIGNAL, 1L);
for (i = 0; i<ROUNDS; i++)
{
if (CURLE_OK != (errornum = curl_easy_perform (c)))
{
fprintf (stderr,
"curl_easy_perform failed: `%s'\n",
curl_easy_strerror (errornum));
curl_easy_cleanup (c);
return "curl error";
}
}
curl_easy_cleanup (c);
return NULL;
}
static void *
do_gets (void *param)
{
int j;
pthread_t par[PAR];
char url[64];
int port = (int) (intptr_t) param;
char *err = NULL;
snprintf (url,
sizeof (url),
"http://127.0.0.1:%d/hello_world",
port);
for (j = 0; j<PAR; j++)
{
if (0 != pthread_create (&par[j], NULL, &thread_gets, (void*) url))
{
for (j--; j >= 0; j--)
pthread_join (par[j], NULL);
return "pthread_create error";
}
}
for (j = 0; j<PAR; j++)
{
char *ret_val;
if ((0 != pthread_join (par[j], (void**) &ret_val)) ||
(NULL != ret_val) )
err = ret_val;
}
signal_done = 1;
return err;
}
static int
testInternalGet (int port, int poll_flag)
{
struct MHD_Daemon *d;
const char *const test_desc = ((poll_flag & MHD_USE_AUTO) ?
"internal thread with 'auto'" :
(poll_flag & MHD_USE_POLL) ?
"internal thread with poll()" :
(poll_flag & MHD_USE_EPOLL) ?
"internal thread with epoll" :
"internal thread with select()");
const char *ret_val;
if (MHD_NO != MHD_is_feature_supported (MHD_FEATURE_AUTODETECT_BIND_PORT))
port = 0;
signal_done = 0;
d = MHD_start_daemon (MHD_USE_INTERNAL_POLLING_THREAD | MHD_USE_ERROR_LOG
| poll_flag,
port, NULL, NULL, &ahc_echo, "GET", MHD_OPTION_END);
if (d == NULL)
return 1;
if (0 == port)
{
const union MHD_DaemonInfo *dinfo;
dinfo = MHD_get_daemon_info (d, MHD_DAEMON_INFO_BIND_PORT);
if ((NULL == dinfo) ||(0 == dinfo->port) )
{
MHD_stop_daemon (d); return 32;
}
port = (int) dinfo->port;
}
start_timer ();
ret_val = do_gets ((void*) (intptr_t) port);
if (! ret_val)
stop (test_desc);
MHD_stop_daemon (d);
if (ret_val)
{
fprintf (stderr,
"Error performing %s test: %s\n", test_desc, ret_val);
return 4;
}
return 0;
}
static int
testMultithreadedGet (int port, int poll_flag)
{
struct MHD_Daemon *d;
const char *const test_desc = ((poll_flag & MHD_USE_AUTO) ?
"internal thread with 'auto' and thread per connection"
:
(poll_flag & MHD_USE_POLL) ?
"internal thread with poll() and thread per connection"
:
(poll_flag & MHD_USE_EPOLL) ?
"internal thread with epoll and thread per connection"
:
"internal thread with select() and thread per connection");
const char *ret_val;
if (MHD_NO != MHD_is_feature_supported (MHD_FEATURE_AUTODETECT_BIND_PORT))
port = 0;
signal_done = 0;
d = MHD_start_daemon (MHD_USE_THREAD_PER_CONNECTION
| MHD_USE_INTERNAL_POLLING_THREAD | MHD_USE_ERROR_LOG
| poll_flag,
port, NULL, NULL, &ahc_echo, "GET", MHD_OPTION_END);
if (d == NULL)
return 16;
if (0 == port)
{
const union MHD_DaemonInfo *dinfo;
dinfo = MHD_get_daemon_info (d, MHD_DAEMON_INFO_BIND_PORT);
if ((NULL == dinfo) ||(0 == dinfo->port) )
{
MHD_stop_daemon (d); return 32;
}
port = (int) dinfo->port;
}
start_timer ();
ret_val = do_gets ((void*) (intptr_t) port);
if (! ret_val)
stop (test_desc);
MHD_stop_daemon (d);
if (ret_val)
{
fprintf (stderr,
"Error performing %s test: %s\n", test_desc, ret_val);
return 4;
}
return 0;
}
static int
testMultithreadedPoolGet (int port, int poll_flag)
{
struct MHD_Daemon *d;
const char *const test_desc = ((poll_flag & MHD_USE_AUTO) ?
"internal thread pool with 'auto'" :
(poll_flag & MHD_USE_POLL) ?
"internal thread pool with poll()" :
(poll_flag & MHD_USE_EPOLL) ?
"internal thread poll with epoll" :
"internal thread pool with select()");
const char *ret_val;
if (MHD_NO != MHD_is_feature_supported (MHD_FEATURE_AUTODETECT_BIND_PORT))
port = 0;
signal_done = 0;
d = MHD_start_daemon (MHD_USE_INTERNAL_POLLING_THREAD | MHD_USE_ERROR_LOG
| poll_flag,
port, NULL, NULL, &ahc_echo, "GET",
MHD_OPTION_THREAD_POOL_SIZE, CPU_COUNT, MHD_OPTION_END);
if (d == NULL)
return 16;
if (0 == port)
{
const union MHD_DaemonInfo *dinfo;
dinfo = MHD_get_daemon_info (d, MHD_DAEMON_INFO_BIND_PORT);
if ((NULL == dinfo) ||(0 == dinfo->port) )
{
MHD_stop_daemon (d); return 32;
}
port = (int) dinfo->port;
}
start_timer ();
ret_val = do_gets ((void*) (intptr_t) port);
if (! ret_val)
stop (test_desc);
MHD_stop_daemon (d);
if (ret_val)
{
fprintf (stderr,
"Error performing %s test: %s\n", test_desc, ret_val);
return 4;
}
return 0;
}
static int
testExternalGet (int port)
{
struct MHD_Daemon *d;
pthread_t pid;
fd_set rs;
fd_set ws;
fd_set es;
MHD_socket max;
struct timeval tv;
MHD_UNSIGNED_LONG_LONG tt;
int tret;
char *ret_val;
int ret = 0;
if (MHD_NO != MHD_is_feature_supported (MHD_FEATURE_AUTODETECT_BIND_PORT))
port = 0;
signal_done = 0;
d = MHD_start_daemon (MHD_USE_ERROR_LOG,
port, NULL, NULL, &ahc_echo, "GET", MHD_OPTION_END);
if (d == NULL)
return 256;
if (0 == port)
{
const union MHD_DaemonInfo *dinfo;
dinfo = MHD_get_daemon_info (d, MHD_DAEMON_INFO_BIND_PORT);
if ((NULL == dinfo) ||(0 == dinfo->port) )
{
MHD_stop_daemon (d); return 32;
}
port = (int) dinfo->port;
}
if (0 != pthread_create (&pid, NULL,
&do_gets, (void*) (intptr_t) port))
{
MHD_stop_daemon (d);
return 512;
}
start_timer ();
while (0 == signal_done)
{
max = 0;
FD_ZERO (&rs);
FD_ZERO (&ws);
FD_ZERO (&es);
if (MHD_YES != MHD_get_fdset (d, &rs, &ws, &es, &max))
{
MHD_stop_daemon (d);
return 4096;
}
tret = MHD_get_timeout (d, &tt);
if (MHD_YES != tret)
tt = 1;
tv.tv_sec = tt / 1000;
tv.tv_usec = 1000 * (tt % 1000);
if (-1 == select (max + 1, &rs, &ws, &es, &tv))
{
#ifdef MHD_POSIX_SOCKETS
if (EINTR == errno)
continue;
fprintf (stderr,
"select failed: %s\n",
strerror (errno));
#else
if ((WSAEINVAL == WSAGetLastError ()) &&(0 == rs.fd_count) &&(0 ==
ws.fd_count)
&&(0 == es.fd_count) )
{
Sleep (1000);
continue;
}
#endif
ret |= 1024;
break;
}
MHD_run_from_select (d, &rs, &ws, &es);
}
stop ("external select");
MHD_stop_daemon (d);
if ((0 != pthread_join (pid, (void**) &ret_val))||
(NULL != ret_val) )
{
fprintf (stderr,
"%s\n", ret_val);
ret |= 8;
}
if (ret)
fprintf (stderr, "Error performing test.\n");
return 0;
}
int
main (int argc, char *const *argv)
{
unsigned int errorCount = 0;
int port = 1100;
(void) argc; /* Unused. Silent compiler warning. */
if ((NULL == argv)||(0 == argv[0]))
return 99;
oneone = has_in_name (argv[0], "11");
if (oneone)
port += 15;
if (0 != curl_global_init (CURL_GLOBAL_WIN32))
return 2;
response = MHD_create_response_from_buffer (strlen ("/hello_world"),
"/hello_world",
MHD_RESPMEM_MUST_COPY);
errorCount += testInternalGet (port++, 0);
errorCount += testMultithreadedGet (port++, 0);
errorCount += testMultithreadedPoolGet (port++, 0);
errorCount += testExternalGet (port++);
errorCount += testInternalGet (port++, MHD_USE_AUTO);
errorCount += testMultithreadedGet (port++, MHD_USE_AUTO);
errorCount += testMultithreadedPoolGet (port++, MHD_USE_AUTO);
if (MHD_YES == MHD_is_feature_supported (MHD_FEATURE_POLL))
{
errorCount += testInternalGet (port++, MHD_USE_POLL);
errorCount += testMultithreadedGet (port++, MHD_USE_POLL);
errorCount += testMultithreadedPoolGet (port++, MHD_USE_POLL);
}
if (MHD_YES == MHD_is_feature_supported (MHD_FEATURE_EPOLL))
{
errorCount += testInternalGet (port++, MHD_USE_EPOLL);
errorCount += testMultithreadedPoolGet (port++, MHD_USE_EPOLL);
}
MHD_destroy_response (response);
if (errorCount != 0)
fprintf (stderr, "Error (code: %u)\n", errorCount);
curl_global_cleanup ();
return errorCount != 0; /* 0 == pass */
}
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