好吧,我有这个疯狂的想法,因为php不能很好地使用G-WAN,也许解决方案是使用phalanger将php代码编译成c#mono程序集然后从g-wan使用它?
任何人都有使用此组合的经验并可以提供帮助吗?
或者我错了,G-wan可以运行php?
答案 0 :(得分:2)
有人试过PH7吗?
PH7是一个PHP引擎,允许宿主应用程序编译和执行PHP脚本进程内。
作为一个嵌入式解释器,它允许多个解释器状态在同一个程序中共存,而不会有任何干扰。
PH7是线程安全的。
但为了保证线程安全,必须使用定义的PH7_ENABLE_THREADS编译时指令编译PH7。
答案 1 :(得分:1)
好吧,我确实联系了Phalanger背后的人(以及其他一些解决方案)来添加对PHP的支持。他们的答复(当时)是Phalanger不再发展。
现在它已作为CLR语言重新实现,这可能会给PHP带来第二次生命。虽然我使用的是G-WAN 3.9测试版,但我还没有尝试使用Mono运行时支持的各种语言。
关于真正的PHP库,我编写了以下代码以使其运行:
// ----------------------------------------------------------------------------
// php.c: G-WAN using PHP scripts
//
// To build PHP5:
//
// CFLAGS="-O3" ./configure --enable-embed --enable-maintainer-zts --with-tsrm-pthreads --without-pear
// make clean
// make
// sudo make install
/* Installing PHP SAPI module: embed
Installing PHP CLI binary: /usr/local/bin/
Installing PHP CLI man page: /usr/local/php/man/man1/
Installing PHP CGI binary: /usr/local/bin/
Installing build environment: /usr/local/lib/php/build/
Installing header files: /usr/local/include/php/
Installing helper programs: /usr/local/bin/
program: phpize
program: php-config
Installing man pages: /usr/local/php/man/man1/
page: phpize.1
page: php-config.1
Installing PEAR environment: /usr/local/lib/php/
[PEAR] Archive_Tar - already installed: 1.3.7
[PEAR] Console_Getopt - already installed: 1.3.0
[PEAR] Structures_Graph- already installed: 1.0.4
[PEAR] XML_Util - already installed: 1.2.1
[PEAR] PEAR - already installed: 1.9.4
Wrote PEAR system config file at: /usr/local/etc/pear.conf
You may want to add: /usr/local/lib/php to your php.ini include_path
/home/pierre/Downloads/PHP/php5.4-20/build/shtool install -c ext/phar/phar.phar /usr/local/bin
ln -s -f /usr/local/bin/phar.phar /usr/local/bin/phar
Installing PDO headers: /usr/local/include/php/ext/pdo/ */
/*
enabling the 'thread safety' --enable-maintainer-zts option results in:
error: 'tsrm_ls' undeclared (first use in this function)
*/
/*
tsrm_ls
TSRM local storage - This is the actual variable name being passed around
inside the TSRMLS_* macros when ZTS is enabled. It acts as a pointer to
the start of that thread's independent data storage block.
TSRM
Thread Safe Resource Manager - This is an oft overlooked, and seldom if
ever discussed layer hiding in the /TSRM directory of the PHP source code.
By default, the TSRM layer is only enabled when compiling a SAPI which
requires it (e.g. apache2-worker). All Win32 builds have this layer
enabled enabled regardless of SAPI choice.
ZTS
Zend Thread Ssafety - Often used synonymously with the term TSRM.
Specifically, ZTS is the term used by ./configure
( --enable-experimental-zts for PHP4, --enable-maintainer-zts for PHP5),
and the name of the #define'd preprocessor token used inside the engine
to determine if the TSRM layer is being used.
TSRMLS_??
A quartet of macros designed to make the differences between ZTS and
non-ZTS mode as painless as possible. When ZTS is not enabled, all
four of these macros evaluate to nothing. When ZTS is enabled however,
they expand out to the following definitions:
TSRMLS_C tsrm_ls
TSRMLS_D void ***tsrm_ls
TSRMLS_CC , tsrm_ls
TSRMLS_DC , void ***tsrm_ls
PHP relies on global variables from resource type identifiers, to
function callback pointers, to request specific information such as
the symbol tables used to store userspace variables. Attempting to
pass these values around in the parameter stack would be more than
unruly, it'd be impossible for an application like PHP where it's
often necessary to register callbacks with external libraries which
don't support context data.
So common information, like the execution stack, the function and
class tables, and extension registries all sit up in the global
scope where they can be picked up and used at any point in the
application.
For single-threaded SAPIs like CLI, Apache1, or even Apache2-prefork,
this is perfectly fine. Request specific structures are initialized
during the RINIT/Activation phase, and reset back to their original
values during the RSHUTDOWN/Deactivation phase in preparation for
the next request. A given webserver like Apache1 can serve up multiple
pages at once because it spawns multiple processes each in their own
process space with their own independant copies of global data.
The trouble starts with threaded webservers like Apache2-worker, or IIS
where two or more threads trying to run the a request at the same time.
Each thread wants to use the global scope to store its request-specific
information, and tries to do so by writing to the same
storage space. At the least, this would result in userspace variables
declared in one script showing up in another. In practice, it leads to
quick and disasterous segfaults and completely unpredictable behavior as
memory is double freed or written with conflicting information by separate
threads.
*/
#pragma include "/usr/local/include/php"
#pragma include "/usr/local/include/php/main"
#pragma include "/usr/local/include/php/TSRM"
#pragma include "/usr/local/include/php/Zend"
#pragma link "/usr/local/lib/libphp5.so"
#include "gwan.h" // G-WAN exported functions
#include <stdio.h>
#include <stdlib.h>
#include <sys/types.h>
#include <sys/syscall.h>
#include <php/sapi/embed/php_embed.h>
#include <php/Zend/zend_stream.h>
static pid_t gettid(void) { return syscall(__NR_gettid); }
// PHP
static int ub_write(const char *str, unsigned int str_len TSRMLS_DC)
{
puts(str); // this is the stdout output of a PHP script
return 0;
}
static void log_message(char * message)
{
printf("log_message: %s\n", message);
}
static void sapi_error(int type, const char * fmt, ...) { }
static void php_set_var(char *varname, char *varval)
{
zval *var;
MAKE_STD_ZVAL(var);
ZVAL_STRING(var, varval, 1);
zend_hash_update(&EG(symbol_table), varname, strlen(varname) + 1,
&var, sizeof(zval*), NULL);
}
static char *php_get_var(char *varname)
{
zval **data = NULL;
char *ret = NULL;
if(zend_hash_find(&EG(symbol_table), varname, strlen(varname) + 1,
(void**)&data) == FAILURE)
{
printf("Name not found in $GLOBALS\n");
return "";
}
if(!data)
{
printf("Value is NULL (not possible for symbol_table?)\n");
return "";
}
ret = Z_STRVAL_PP(data);
return ret;
}
static int php_init(void)
{
static int once = 0;
if(once) return 0;
once = 1;
static char *myargv[2] = {"toto.php", NULL};
php_embed_module.log_message = log_message;
php_embed_module.sapi_error = sapi_error;
php_embed_module.ub_write = ub_write;
if(php_embed_init(1, myargv PTSRMLS_CC) == FAILURE)
{
printf("php_embed_init error\n");
return 1;
}
return 0;
}
static void php_shutdown()
{
php_embed_shutdown(TSRMLS_C);
}
static int php_exec(char *str)
{
zval ret_value;
int exit_status;
zend_first_try
{
PG(during_request_startup) = 0;
// run the specified PHP script file
// sprintf(str, "include (\"% s \ ");", scriptname);
zend_eval_string(str, &ret_value, "toto.php" TSRMLS_CC);
exit_status = Z_LVAL(ret_value);
} zend_catch
{
exit_status = EG(exit_status);
}
zend_end_try();
return exit_status;
}
__thread char reply_num[8] = {0};
__thread pid_t tid = 0;
int main(int argc, char *argv[])
{
if(!tid)
{
tid = gettid();
s_snprintf(reply_num, 8, "%u", tid);
php_init();
}
xbuf_t *reply = get_reply(argv);
//php_set_var("argv", argv[0]);
php_set_var(reply_num, "");
char fmt[] = //"print(\"from php [$test]\n\");\n"
"$reply%s = \"Hello World (PHP)\";\n";
char php[sizeof(fmt) + sizeof(reply_num) + 2];
s_snprintf(php, sizeof(php), fmt, reply_num);
php_exec(php);
xbuf_cat(reply, php_get_var(reply_num));
return 200;
}
如果任何人可以使这个代码与多个工作线程一起工作而不会崩溃PHP运行时,那么PHP将被添加到G-WAN。
以下是G-WAN通过一个工作线程生成的内容:
-----------------------------------------------------
weighttp -n 100000 -c 100 -t 1 -k "http://127.0.0.1:8080/?php.c"
finished in 0 sec, 592 millisec, **168744 req/s**, 48283 kbyte/s
requests: 100000 total/started/done/succeeded, 0 failed/errored
status codes: 100000 2xx, 0 3xx, 0 4xx, 0 5xx
traffic: 29299985 bytes total, 27599985 bytes http,
1700000 bytes data
-----------------------------------------------------
解决这个PHP线程问题会很棒。谢谢你的帮助!