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4f3d783df2
antd-cgi-plugin/cgi.c
lxsang 4f3d783df2 allow config for cgi
2018-10-08 19:29:53 +02:00

246 lines
6.4 KiB
C
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#include <sys/wait.h>
#include "plugin.h"
#include "ini.h"
dictionary cgi_bin = NULL;
static int ini_handle(void *user_data, const char *section, const char *name,
const char *value)
{
UNUSED(user_data);
if (EQU(section, "CGI"))
{
dput(cgi_bin, name, strdup(value));
LOG("put %s for %s\n", value, name);
}
else
{
return 0;
}
return 1;
}
void init()
{
use_raw_body();
cgi_bin = dict();
char* cnf = config_dir();
char* file = __s("%s/cgi.ini", cnf);
// read ini file
if (ini_parse(file, ini_handle, NULL) < 0)
{
LOG("Can't load '%s'\n", file);
}
free(cnf);
free(file);
}
void destroy()
{
if(cgi_bin)
freedict(cgi_bin);
}
static void add_vars(list* l, char* k, char* v)
{
if(!v || !l || !k) return;
char* data = __s("%s=%s", k, v);
list_put_s(l, data);
free(data);
}
static void write_request_body(antd_request_t* rq, int fd)
{
char* tmp = (char*)dvalue(rq->request, "METHOD");
if(!tmp || EQU(tmp,"GET") || EQU(tmp,"HEAD")) return;
int clen = -1;
dictionary header = (dictionary) dvalue(rq->request,"REQUEST_HEADER");
tmp = (char*)dvalue(header, "Content-Length");
if(tmp)
clen = atoi(tmp);
if(clen == -1) return;
// read data and write to the fd
char buf[BUFFLEN];
int readlen = clen > BUFFLEN?BUFFLEN:clen;
int read = 0, stat = 1;
while(readlen > 0 && stat > 0)
{
stat = antd_recv(rq->client, buf, readlen);
if(stat > 0)
{
read += stat;
readlen = (clen - read) > BUFFLEN?BUFFLEN:(clen-read);
write(fd, buf, stat);
}
}
}
static char * get_cgi_bin(antd_request_t* rq)
{
char* tmp = (char*)dvalue(rq->request, "RESOURCE_PATH");
if(!tmp) return NULL;
tmp = ext(tmp);
if(!tmp) return NULL;
char* bin = (char*)dvalue(cgi_bin,tmp);
free(tmp);
return bin;
}
static list get_env_vars(antd_request_t* rq)
{
char* tmp = NULL;
char* sub = NULL;
plugin_header_t* __plugin__ = meta();
dictionary request = (dictionary) rq->request;
dictionary header = (dictionary) dvalue(rq->request,"REQUEST_HEADER");
list env_vars = list_init();
add_vars(&env_vars, "GATEWAY_INTERFACE", "CGI/1.1");
add_vars(&env_vars, "SERVER_SOFTWARE",SERVER_NAME);
tmp = (char*)dvalue(request, "REQUEST_QUERY");
if(!tmp)
add_vars(&env_vars, "QUERY_STRING", "");
else
{
sub = strchr(tmp,'?');
if(sub)
{
sub++;
add_vars(&env_vars, "QUERY_STRING", sub);
}
else
add_vars(&env_vars, "QUERY_STRING", "");
}
tmp = (char*)dvalue(request, "METHOD");
if(tmp)
add_vars(&env_vars, "REQUEST_METHOD", tmp);
tmp = (char*)dvalue(header, "Content-Type");
if(tmp)
add_vars(&env_vars, "CONTENT_TYPE", tmp);
else
add_vars(&env_vars, "CONTENT_TYPE", "");
tmp = (char*)dvalue(header, "Content-Length");
if(tmp)
add_vars(&env_vars, "CONTENT_LENGTH", tmp);
else
add_vars(&env_vars, "CONTENT_LENGTH", "");
add_vars(&env_vars, "DOCUMENT_ROOT", __plugin__->htdocs);
tmp = (char*) dvalue(request, "REQUEST_PATH");
if(tmp)
add_vars(&env_vars, "PATH_INFO", tmp);
else
add_vars(&env_vars, "PATH_INFO", "");
tmp = (char*) dvalue(header,"REMOTE_ADDR");
add_vars(&env_vars, "REMOTE_ADDR", tmp);
add_vars(&env_vars, "REMOTE_HOST", tmp);
add_vars(&env_vars, "SERVER_NAME", SERVER_NAME);
add_vars(&env_vars, "SERVER_PORT", (char*) dvalue(header, "SERVER_PORT"));
add_vars(&env_vars, "SERVER_PROTOCOL", "HTTP/1.1");
// add remaining header to the vars
association it;
for_each_assoc(it, header)
{
tmp = __s("HTTP_%s", it->key);
char *s = tmp;
while (*s) {
if(*s == '-')
*s = '_';
else if(*s != '_')
*s = toupper((char) *s);
s++;
}
add_vars(&env_vars, tmp, (char*)it->value);
free(tmp);
}
tmp = (char*)dvalue(request, "RESOURCE_PATH");
if(tmp)
{
add_vars(&env_vars, "SCRIPT_NAME", tmp);
tmp = __s("%s/%s",__plugin__->htdocs, tmp);
add_vars(&env_vars, "SCRIPT_FILENAME", tmp);
add_vars(&env_vars, "PATH_TRANSLATED", tmp);
free(tmp);
}
else
{
add_vars(&env_vars, "SCRIPT_FILENAME", "");
add_vars(&env_vars, "PATH_TRANSLATED", "");
add_vars(&env_vars, "SCRIPT_NAME", "");
}
// redirect status for php
add_vars(&env_vars,"REDIRECT_STATUS","200");
return env_vars;
}
void* handle(void* data)
{
antd_request_t *rq = (antd_request_t *)data;
void *cl = (void *)rq->client;
pid_t pid = 0, wpid;
int inpipefd[2];
int outpipefd[2];
char buf[BUFFLEN];
int status;
antd_task_t* task = NULL;
task = antd_create_task(NULL, data, NULL);
task->priority++;
list env_vars = NULL;
char* bin = get_cgi_bin(rq);
if(!bin)
{
LOG("No cgi bin found\n");
unknow(cl);
return task;
}
env_vars = get_env_vars(rq);
// now exec the cgi bin
item np = env_vars;
int size = list_size(env_vars);
char** envs = (char**) malloc((size+1)*sizeof(*envs));
envs[size] = NULL;
int i = 0;
while(np)
{
envs[i] = np->value.s;
np = np->next;
i++;
}
// PIPE
pipe(inpipefd);
pipe(outpipefd);
pid = fork();
if (pid == 0)
{
// Child
dup2(outpipefd[0], STDIN_FILENO);
dup2(inpipefd[1], STDOUT_FILENO);
dup2(inpipefd[1], STDERR_FILENO);
//ask kernel to deliver SIGTERM in case the parent dies
//prctl(PR_SET_PDEATHSIG, SIGTERM);
char *argv[] = { bin, 0 };
execve(argv[0], &argv[0], envs);
// Nothing below this line should be executed by child process. If so,
// it means that the execl function wasn't successfull, so lets exit:
_exit(1);
}
// The code below will be executed only by parent.
//close unused pipe ends
close(outpipefd[0]);
close(inpipefd[1]);
// Now, we can write to outpipefd[1] and read from inpipefd[0] :
write_request_body(rq, outpipefd[1]);
LOG("Wait for respond\n");
set_status(cl, 200, "OK");
wpid = 0;
do {
memset(buf, 0, sizeof(buf));
int r = read(inpipefd[0], buf, BUFFLEN-1);
if(r > 0)
{
__t(cl, buf);
}
wpid = waitpid(pid, &status, WNOHANG);
} while(wpid == 0);
free(envs);
list_free(&env_vars);
return task;
}
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