#include "http_server.h" #include "libs/scheduler.h" #include /* this node is a relay from the http to https */ #define MATCH(s, n) strcmp(section, s) == 0 && strcmp(name, n) == 0 int server_sock = -1; void stop_serve(int dummy) { UNUSED(dummy); antd_scheduler_destroy(); close(server_sock); } /* HTTP/1.1 301 Moved Permanently Location: http://www.example.org/ Content-Type: text/html Content-Length: 174 */ void* antd_redirect(void* user_data) { void** data = (void**)user_data; void* client = data[0]; char* host = (char*)data[1]; __t(client,"%s", "HTTP/1.1 301 Moved Permanently"); __t(client, "Location: https://%s", host); __t(client, "%s", "Content-Type: text/html"); __t(client, ""); __t(client, "This page has moved to https://%s", host); free(host); free(user_data); return antd_create_task(NULL,client, NULL); } void* antd_free_client(void* client) { antd_client_t * source = (antd_client_t *) client; if(source->ip) free(source->ip); close(source->sock); free(client); return NULL; } void* antd_get_host(void * client) { char buff[1024]; char* line, *token; char* host = NULL; while((read_buf(client,buff,sizeof(buff))) && strcmp("\r\n",buff)) { line = buff; trim(line, '\n'); trim(line, '\r'); token = strsep(&line, ":"); trim(token,' '); trim(line,' '); if(token && strcasecmp(token,"Host")==0) if(line) { host = strdup(line); break; } } if(!host) host = strdup("lxsang.me"); void** data = (void**)malloc(2*(sizeof *data)); data[0] = client; data[1] = (void*)host; LOG("[%s] Request for: %s --> https://%s\n", ((antd_client_t*)client)->ip, host, host); return antd_create_task(antd_redirect,data, NULL); } int main(int argc, char* argv[]) { UNUSED(argc); UNUSED(argv); // load the config first unsigned port = 80; int client_sock = -1; struct sockaddr_in client_name; socklen_t client_name_len = sizeof(client_name); // ignore the broken PIPE error when writing //or reading to/from a closed socked connection signal(SIGPIPE, SIG_IGN); signal(SIGABRT, SIG_IGN); signal(SIGINT, stop_serve); server_sock = startup(&port); //struct timeval timeout; //timeout.tv_sec = 0; //timeout.tv_usec = 500; // 0 worker antd_scheduler_init(0); // set server socket to non blocking fcntl(server_sock, F_SETFL, O_NONBLOCK); /* Change the socket into non-blocking state */ LOG("relayd running on port %d\n", port); while (antd_scheduler_status()) { // execute task antd_task_schedule(); client_sock = accept(server_sock,(struct sockaddr *)&client_name,&client_name_len); if (client_sock == -1) { continue; } antd_client_t* client = (antd_client_t*)malloc(sizeof(antd_client_t)); // set timeout to socket //if (setsockopt (client_sock, SOL_SOCKET, SO_RCVTIMEO, (char *)&timeout,sizeof(timeout)) < 0) // perror("setsockopt failed\n"); //if (setsockopt (client_sock, SOL_SOCKET, SO_SNDTIMEO, (char *)&timeout,sizeof(timeout)) < 0) // perror("setsockopt failed\n"); /* get the remote IP */ client->ip = NULL; if (client_name.sin_family == AF_INET) client->ip = strdup(inet_ntoa(client_name.sin_addr)); client->sock = client_sock; //accept_request(&client); antd_add_task(antd_create_task(antd_get_host,(void*)client, antd_free_client )); } return(0); }