#ifndef _GNU_SOURCE #define _GNU_SOURCE #endif #include #include #include #include #include #include #include #include #ifdef USE_OPENSSL #include #include #include #else #include "lib/sha1.h" #endif #include "http_server.h" #include "lib/handle.h" #include "plugin_manager.h" #include "lib/scheduler.h" #include "lib/utils.h" #include "lib/ini.h" #include "lib/base64.h" #define HEADER_MAX_SIZE 8192 //define all basic mime here static mime_t _mimes[] = { {"image/bmp", "bmp"}, {"image/jpeg", "jpg,jpeg"}, {"text/css", "css"}, {"text/markdown", "md"}, {"text/csv", "csv"}, {"application/pdf", "pdf"}, {"image/gif", "gif"}, {"text/html", "html"}, {"application/json", "json"}, {"application/javascript", "js"}, {"image/png", "png"}, {"text/plain", "txt"}, {"application/xhtml+xml", "xhtml"}, {"application/xml", "xml"}, {"image/svg+xml", "svg"}, {NULL, NULL}}; static pthread_mutex_t server_mux = PTHREAD_MUTEX_INITIALIZER; config_t server_config; config_t *config() { return &server_config; } void destroy_config() { freedict(server_config.handlers); if (server_config.plugins_dir) free(server_config.plugins_dir); if (server_config.plugins_ext) free(server_config.plugins_ext); if (server_config.db_path) free(server_config.db_path); if (server_config.tmpdir) free(server_config.tmpdir); if (server_config.ssl_cipher) free(server_config.ssl_cipher); if (server_config.gzip_types) list_free(&server_config.gzip_types); if (server_config.mimes) freedict(server_config.mimes); if (server_config.stat_fifo_path) free(server_config.stat_fifo_path); if (server_config.ports) { chain_t it; port_config_t *cnf; for_each_assoc(it, server_config.ports) { cnf = (port_config_t *)it->value; if (cnf != NULL) { if (cnf->htdocs != NULL) free(cnf->htdocs); if (cnf->sock > 0) { close(cnf->sock); } freedict(cnf->rules); } } freedict(server_config.ports); } LOG("Unclosed connection: %d", server_config.connection); } static int config_handler(void *conf, const char *section, const char *name, const char *value) { config_t *pconfig = (config_t *)conf; regmatch_t port_matches[2]; struct stat st; //trim(section, ' '); //trim(value,' '); //trim(name,' '); //char * ppath = NULL; if (MATCH("SERVER", "plugins")) { if (pconfig->plugins_dir) free(pconfig->plugins_dir); pconfig->plugins_dir = strdup(value); if (stat(pconfig->plugins_dir, &st) == -1) mkdirp(pconfig->plugins_dir, 0755); } else if (MATCH("SERVER", "plugins_ext")) { if (pconfig->plugins_ext) free(pconfig->plugins_ext); pconfig->plugins_ext = strdup(value); } else if (MATCH("SERVER", "database")) { if (pconfig->db_path) free(pconfig->db_path); pconfig->db_path = strdup(value); if (stat(pconfig->db_path, &st) == -1) mkdirp(pconfig->db_path, 0755); } else if (MATCH("SERVER", "tmpdir")) { if (pconfig->tmpdir) free(pconfig->tmpdir); pconfig->tmpdir = strdup(value); if (stat(pconfig->tmpdir, &st) == -1) mkdirp(pconfig->tmpdir, 0755); else { removeAll(pconfig->tmpdir, 0); } } else if (MATCH("SERVER", "statistic_fifo")) { if (pconfig->stat_fifo_path) free(pconfig->stat_fifo_path); pconfig->stat_fifo_path = strdup(value); } else if (MATCH("SERVER", "max_upload_size")) { pconfig->max_upload_size = atoi(value); } else if (MATCH("SERVER", "maxcon")) { pconfig->maxcon = atoi(value); } else if (MATCH("SERVER", "backlog")) { pconfig->backlog = atoi(value); } else if (MATCH("SERVER", "workers")) { pconfig->n_workers = atoi(value); } #ifdef USE_ZLIB else if (MATCH("SERVER", "gzip_enable")) { pconfig->gzip_enable = atoi(value); } else if (MATCH("SERVER", "gzip_types")) { pconfig->gzip_types = split(value, ","); } #endif #ifdef USE_OPENSSL else if (MATCH("SERVER", "ssl.cert")) { if (pconfig->sslcert) free(pconfig->sslcert); pconfig->sslcert = strdup(value); } else if (MATCH("SERVER", "ssl.key")) { if (pconfig->sslkey) free(pconfig->sslkey); pconfig->sslkey = strdup(value); } else if (MATCH("SERVER", "ssl.cipher")) { if (pconfig->ssl_cipher) free(pconfig->ssl_cipher); pconfig->ssl_cipher = strdup(value); } #endif else if (strcmp(section, "FILEHANDLER") == 0) { dput(pconfig->handlers, name, strdup(value)); } else if (strcmp(section, "AUTOSTART") == 0 || strcmp(section, "AUTOLOAD") == 0) { // The server section must be added before the autostart section // auto start plugin plugin_load((char *)value); } else if (strcmp(section, "MIMES") == 0) { dput(pconfig->mimes, name, strdup(value)); } else if (regex_match("PORT:\\s*([0-9]+)", section, 2, port_matches)) { char buf[20]; memset(buf, '\0', sizeof(buf)); memcpy(buf, section + port_matches[1].rm_so, port_matches[1].rm_eo - port_matches[1].rm_so); port_config_t *p = dvalue(pconfig->ports, buf); if (!p) { p = (port_config_t *)malloc(sizeof(port_config_t)); p->htdocs = NULL; p->sock = -1; p->rules = dict_n(1); dput(pconfig->ports, buf, p); p->port = atoi(buf); } if (strcmp(name, "htdocs") == 0) { p->htdocs = strdup(value); if (stat(p->htdocs, &st) == -1) { mkdirp(p->htdocs, 0755); } } else if (strcmp(name, "ssl.enable") == 0) { p->usessl = atoi(value); if (p->usessl) pconfig->enable_ssl = 1; } else { // other thing should be rules dput(p->rules, name, strdup(value)); } } else { return 0; /* unknown section/name, error */ } return 1; } void load_config(const char *file) { server_config.ports = dict(); server_config.plugins_dir = strdup("plugins/"); server_config.plugins_ext = strdup(".dylib"); server_config.db_path = strdup("databases/"); //server_config.htdocs = "htdocs/"; server_config.tmpdir = strdup("tmp/"); server_config.stat_fifo_path = strdup("/var/run/antd_stat"); server_config.n_workers = 4; server_config.backlog = 1000; server_config.handlers = dict(); server_config.maxcon = 100; server_config.max_upload_size = 10000000; //10Mb server_config.connection = 0; server_config.mimes = dict(); server_config.enable_ssl = 0; server_config.sslcert = strdup("cert.pem"); server_config.sslkey = strdup("key.pem"); server_config.ssl_cipher = NULL; server_config.gzip_enable = 0; server_config.gzip_types = NULL; // put it default mimes for (int i = 0; _mimes[i].type != NULL; i++) { dput(server_config.mimes, _mimes[i].type, strdup(_mimes[i].ext)); } if (ini_parse(file, config_handler, &server_config) < 0) { ERROR("Can't load '%s'. Used defaut configuration", file); } else { LOG("Using configuration : %s", file); #ifdef USE_OPENSSL LOG("SSL enable %d", server_config.enable_ssl); LOG("SSL cert %s", server_config.sslcert); LOG("SSL key %s", server_config.sslkey); /*if(!server_config.ssl_cipher) LOG("SSL Cipher suite: %s", "HIGH"); else LOG("SSL Cipher suite: %s", server_config.ssl_cipher);*/ #endif } LOG("%d mimes entries found", server_config.mimes->size); } void *accept_request(void *data) { char buf[BUFFLEN]; char *token = NULL; char *line = NULL; antd_task_t *task; antd_request_t *rq = (antd_request_t *)data; task = antd_create_task(NULL, (void *)rq, NULL, rq->client->last_io); antd_task_bind_event(task, rq->client->sock, 0, TASK_EVT_ON_WRITABLE | TASK_EVT_ON_READABLE); // first verify if the socket is ready antd_client_t *client = (antd_client_t *)rq->client; struct pollfd pfd[1]; pfd[0].fd = client->sock; pfd[0].events = POLLIN | POLLOUT; int sel = poll(pfd, 1, POLL_EVENT_TO); if (sel == -1) { antd_error(rq->client, 400, "Bad request"); return task; } if (pfd[0].revents & POLLERR || pfd[0].revents & POLLHUP) { antd_error(rq->client, 400, "Bad request"); return task; } if (sel == 0 || (!(pfd[0].revents & POLLIN) && !(pfd[0].revents & POLLOUT))) { task->handle = accept_request; return task; } // perform the ssl handshake if enabled #ifdef USE_OPENSSL int ret = -1, stat; if (client->ssl && client->state == ANTD_CLIENT_ACCEPT) { //LOG("Atttempt %d\n", client->attempt); if (SSL_accept((SSL *)client->ssl) == -1) { stat = SSL_get_error((SSL *)client->ssl, ret); switch (stat) { case SSL_ERROR_WANT_READ: case SSL_ERROR_WANT_WRITE: case SSL_ERROR_NONE: task->handle = accept_request; return task; default: ERROR("Error performing SSL handshake %d %d %s", stat, ret, ERR_error_string(ERR_get_error(), NULL)); antd_error(rq->client, 400, "Invalid SSL request"); //server_config.connection++; ERR_print_errors_fp(stderr); return task; } } client->state = ANTD_CLIENT_HANDSHAKE; task->handle = accept_request; //LOG("Handshake finish for %d\n", client->sock); return task; } else { if (!((pfd[0].revents & POLLIN))) { task->handle = accept_request; return task; } } #endif //LOG("Ready for reading %d\n", client->sock); //server_config.connection++; client->state = ANTD_CLIENT_PROTO_CHECK; read_buf(rq->client, buf, sizeof(buf)); line = buf; LOG("Request (%d): %s", rq->client->sock, line); // get the method string token = strsep(&line, " "); if (!line) { //LOG("No method found"); antd_error(rq->client, 405, "No method found"); return task; } trim(token, ' '); trim(line, ' '); dput(rq->request, "METHOD", strdup(token)); // get the request token = strsep(&line, " "); if (!line) { //LOG("No request found"); antd_error(rq->client, 400, "Bad request"); return task; } trim(token, ' '); trim(line, ' '); trim(line, '\n'); trim(line, '\r'); dput(rq->request, "PROTOCOL", strdup(line)); dput(rq->request, "REQUEST_QUERY", strdup(token)); line = token; token = strsep(&line, "?"); dput(rq->request, "REQUEST_PATH", url_decode(token)); // decode request // now return the task task->handle = decode_request_header; return task; } void *resolve_request(void *data) { struct stat st; char path[2 * BUFFLEN]; antd_request_t *rq = (antd_request_t *)data; antd_task_t *task = antd_create_task(NULL, (void *)rq, NULL, rq->client->last_io); char *url = (char *)dvalue(rq->request, "RESOURCE_PATH"); char *newurl = NULL; char *rqp = NULL; char *oldrqp = NULL; rq->client->state = ANTD_CLIENT_RESOLVE_REQUEST; htdocs(rq, path); strcat(path, url); //LOG("Path is : %s", path); //if (path[strlen(path) - 1] == '/') // strcat(path, "index.html"); if (stat(path, &st) == -1) { free(task); rqp = strdup((char *)dvalue(rq->request, "REQUEST_PATH")); oldrqp = rqp; trim(rqp, '/'); newurl = strsep(&rqp, "/"); if (!rqp) rqp = strdup("/"); else rqp = strdup(rqp); dput(rq->request, "RESOURCE_PATH", rqp); task = execute_plugin(rq, newurl); free(oldrqp); return task; } else { if (S_ISDIR(st.st_mode)) { strcat(path, "/index.html"); if (stat(path, &st) == -1) { chain_t it; for_each_assoc(it, server_config.handlers) { newurl = __s("%s/index.%s", url, it->key); memset(path, 0, sizeof(path)); htdocs(rq, path); strcat(path, newurl); if (stat(path, &st) != 0) { free(newurl); newurl = NULL; } else { i = server_config.handlers->cap; break; } } if (!newurl) { antd_error(rq->client, 404, "Resource Not Found"); return task; } //if(url) free(url); this is freed in the dput function url = newurl; dput(rq->request, "RESOURCE_PATH", url); } } dput(rq->request, "ABS_RESOURCE_PATH", strdup(path)); // check if the mime is supported // if the mime is not supported // find an handler plugin to process it // if the plugin is not found, forbidden access to the file should be sent char *mime_type = mime(path); dput(rq->request, "RESOURCE_MIME", strdup(mime_type)); if (strcmp(mime_type, "application/octet-stream") == 0) { char *ex = ext(path); char *h = NULL; if (ex) { h = dvalue(server_config.handlers, ex); free(ex); } if (h) { //sprintf(path,"/%s%s",h,url); //LOG("WARNING::::Access octetstream via handle %s", h); //if(execute_plugin(client,buf,method,rq) < 0) // cannot_execute(client); free(task); return execute_plugin(rq, h); } else antd_error(rq->client, 403, "Access forbidden"); } else { // discard all request data dictionary_t headers = (dictionary_t)dvalue(rq->request, "REQUEST_HEADER"); if (headers) { char *sclen = (char *)dvalue(headers, "Content-Length"); unsigned clen = 0; unsigned read = 0; int count; if (sclen) { clen = atoi(sclen); while (read < clen) { count = antd_recv(rq->client, path, sizeof(path) < clen ? sizeof(path) : clen); if (count <= 0) break; read += count; } } } antd_task_bind_event(task, rq->client->sock, 0, TASK_EVT_ON_WRITABLE); task->handle = serve_file; } return task; } } void *finish_request(void *data) { if (!data) return NULL; destroy_request(data); server_config.connection--; LOG("Remaining connection %d", server_config.connection); return NULL; } int rule_check(const char *k, const char *v, const char *host, const char *_url, const char *_query, char *buf) { // first perfom rule check on host, if not success, perform on url regmatch_t key_matches[10]; regmatch_t val_matches[2]; char *query = strdup(_query); char *url = strdup(_url); int ret; char *target; char *tmp, rep[10]; int idx = 0; memset(rep, 0, 10); // 1 group if (!host || !(ret = regex_match(k, host, 10, key_matches))) { target = url; ret = regex_match(k, url, 10, key_matches); } else target = (char *)host; if (!ret) { free(url); free(query); return 0; } tmp = (char *)v; char *search = "<([a-zA-Z0-9]+)>"; while ((ret = regex_match(search, tmp, 2, val_matches))) { memcpy(buf + idx, tmp, val_matches[1].rm_so - 1); idx += val_matches[1].rm_so - 1; memcpy(rep, tmp + val_matches[1].rm_so, val_matches[1].rm_eo - val_matches[1].rm_so); if (strcasecmp(rep, "url") == 0) { memcpy(buf + idx, url, strlen(url)); idx += strlen(url); } else if (strcasecmp(rep, "query") == 0) { memcpy(buf + idx, query, strlen(query)); idx += strlen(query); } else if (match_int(rep)) { int i = atoi(rep); memcpy(buf + idx, target + key_matches[i].rm_so, key_matches[i].rm_eo - key_matches[i].rm_so); idx += key_matches[i].rm_eo - key_matches[i].rm_so; } else { // just keep it memcpy(buf + idx, tmp + val_matches[1].rm_so - 1, val_matches[1].rm_eo + 2 - val_matches[1].rm_so); idx += val_matches[1].rm_eo + 2 - val_matches[1].rm_so; } tmp += val_matches[1].rm_eo + 1; //break; } // now modify the match 2 group if (idx > 0) { if (tmp) { // copy the remainning of tmp memcpy(buf + idx, tmp, strlen(tmp)); idx += strlen(tmp); } buf[idx] = '\0'; } free(url); free(query); return 1; } void *serve_file(void *data) { antd_request_t *rq = (antd_request_t *)data; antd_task_t *task = antd_create_task(NULL, (void *)rq, NULL, rq->client->last_io); char *path = (char *)dvalue(rq->request, "ABS_RESOURCE_PATH"); char *mime_type = (char *)dvalue(rq->request, "RESOURCE_MIME"); rq->client->state = ANTD_CLIENT_SERVE_FILE; struct stat st; int s = stat(path, &st); if (s == -1) { antd_error(rq->client, 404, "File not found"); } else { // check if it is modified dictionary_t header = (dictionary_t)dvalue(rq->request, "REQUEST_HEADER"); char *last_modif_since = (char *)dvalue(header, "If-Modified-Since"); time_t t = st.st_ctime; struct tm tm; if (last_modif_since) { strptime(last_modif_since, "%a, %d %b %Y %H:%M:%S GMT", &tm); t = timegm(&tm); //t = mktime(localtime(&t)); } if (last_modif_since && st.st_ctime == t) { // return the not changed antd_error(rq->client, 304, ""); } else { int size = (int)st.st_size; char ibuf[64]; snprintf(ibuf, sizeof(ibuf), "%d", size); antd_response_header_t rhd; rhd.cookie = NULL; rhd.status = 200; rhd.header = dict(); dput(rhd.header, "Content-Type", strdup(mime_type)); #ifdef USE_ZLIB if (!compressable(mime_type) || rq->client->z_level == ANTD_CNONE) #endif dput(rhd.header, "Content-Length", strdup(ibuf)); gmtime_r(&st.st_ctime, &tm); strftime(ibuf, 64, "%a, %d %b %Y %H:%M:%S GMT", &tm); dput(rhd.header, "Last-Modified", strdup(ibuf)); dput(rhd.header, "Cache-Control", strdup("no-cache")); antd_send_header(rq->client, &rhd); __f(rq->client, path); } } return task; } int startup(unsigned *port) { int httpd = 0; struct sockaddr_in name; httpd = socket(PF_INET, SOCK_STREAM, 0); if (httpd == -1) { ERROR("Port %d - socket: %s", *port, strerror(errno)); return -1; } if (setsockopt(httpd, SOL_SOCKET, SO_REUSEADDR, &(int){1}, sizeof(int)) == -1) { ERROR("Unable to set reuse address on port %d - setsockopt: %s", *port, strerror(errno)); } memset(&name, 0, sizeof(name)); name.sin_family = AF_INET; name.sin_port = htons(*port); name.sin_addr.s_addr = htonl(INADDR_ANY); if (bind(httpd, (struct sockaddr *)&name, sizeof(name)) < 0) { ERROR("Port %d -bind: %s", *port, strerror(errno)); return -1; } if (*port == 0) /* if dynamically allocating a port */ { socklen_t namelen = sizeof(name); if (getsockname(httpd, (struct sockaddr *)&name, &namelen) == -1) { ERROR("Port %d - getsockname: %s", *port, strerror(errno)); return -1; } *port = ntohs(name.sin_port); } LOG("back log is %d", server_config.backlog); if (listen(httpd, server_config.backlog) < 0) { ERROR("Port %d - listen: %s", *port, strerror(errno)); return -1; } return (httpd); } char *apply_rules(dictionary_t rules, const char *host, char *url) { // rule check char *query_string = url; while ((*query_string != '?') && (*query_string != '\0')) query_string++; if (*query_string == '?') { *query_string = '\0'; query_string++; } //char* oldurl = strdup(url); chain_t it; char *k; char *v; for_each_assoc(it, rules) { k = it->key; v = (char *)it->value; // 1 group if (rule_check(k, v, host, url, query_string, url)) { query_string = url; while ((*query_string != '?') && (*query_string != '\0')) query_string++; if (*query_string == '?') { *query_string = '\0'; query_string++; } } } return strdup(query_string); } static void *proxy_monitor(void *data) { antd_request_t *rq = (antd_request_t *)data; rq->client->state = ANTD_CLIENT_PROXY_MONITOR; antd_client_t *proxy = (antd_client_t *)dvalue(rq->request, "PROXY_HANDLE"); antd_task_t *task = antd_create_task(NULL, data, NULL, rq->client->last_io); int ret, sz1 = 0, sz2 = 0; char *buf = NULL; buf = (char *)malloc(BUFFLEN); struct pollfd pfd[1]; memset(pfd, 0, sizeof(pfd)); pfd[0].fd = proxy->sock; pfd[0].events = POLLIN; ret = 1; if (poll(pfd, 1, 0) < 0) { (void)close(proxy->sock); return task; } do { sz1 = antd_recv_upto(rq->client, buf, BUFFLEN); if ((sz1 < 0) || (sz1 > 0 && antd_send(proxy, buf, sz1) != sz1)) { ret = 0; break; } sz2 = antd_recv_upto(proxy, buf, BUFFLEN); if (sz2 < 0 || (sz2 > 0 && antd_send(rq->client, buf, sz2) != sz2)) { ret = 0; break; } } while (sz1 > 0 || sz2 > 0); free(buf); if (ret == 0) { (void)close(proxy->sock); return task; } if (sz2 == 0) { if ( pfd[0].revents & POLLERR || pfd[0].revents & POLLRDHUP || pfd[0].revents & POLLHUP || pfd[0].revents & POLLNVAL) //|| //pfd[0].revents & POLLIN) { (void)close(proxy->sock); return task; } } if(pfd[0].revents & POLLIN) { antd_task_bind_event(task, proxy->sock, 0, TASK_EVT_ON_READABLE); } else { antd_task_bind_event(task, proxy->sock, 100u, TASK_EVT_ON_TIMEOUT); } task->handle = proxy_monitor; task->access_time = rq->client->last_io; antd_task_bind_event(task, rq->client->sock, 0, TASK_EVT_ON_READABLE); return task; } static void *proxify(void *data) { int sock_fd, size, ret; char *str = NULL; chain_t it; antd_request_t *rq = (antd_request_t *)data; antd_client_t *proxy = NULL; rq->client->state = ANTD_CLIENT_RESOLVE_REQUEST; char *host = dvalue(rq->request, "PROXY_HOST"); int port = atoi(dvalue(rq->request, "PROXY_PORT")); char *path = dvalue(rq->request, "PROXY_PATH"); char *query = dvalue(rq->request, "PROXY_QUERY"); dictionary_t xheader = dvalue(rq->request, "REQUEST_HEADER"); antd_task_t *task = antd_create_task(NULL, data, NULL, rq->client->last_io); if (!xheader) { antd_error(rq->client, 400, "Badd Request"); return task; } sock_fd = request_socket(ip_from_hostname(host), port); if (sock_fd == -1) { antd_error(rq->client, 503, "Service Unavailable"); return task; } set_nonblock(sock_fd); /*struct timeval timeout; timeout.tv_sec = 2; timeout.tv_usec = 0; //POLL_EVENT_TO*1000; if (setsockopt(sock_fd, SOL_SOCKET, SO_RCVTIMEO, (char *)&timeout, sizeof(timeout)) < 0) { ERROR("setsockopt failed:%s", strerror(errno)); antd_error(rq->client, 500, "Internal proxy error"); (void)close(sock_fd); return task; } if (setsockopt(sock_fd, SOL_SOCKET, SO_SNDTIMEO, (char *)&timeout, sizeof(timeout)) < 0) { ERROR("setsockopt failed:%s", strerror(errno)); antd_error(rq->client, 500, "Internal proxy error"); (void)close(sock_fd); return task; }*/ proxy = (antd_client_t *)malloc(sizeof(antd_client_t)); proxy->sock = sock_fd; proxy->ssl = NULL; proxy->zstream = NULL; proxy->z_level = ANTD_CNONE; time(&proxy->last_io); // store content length here dput(rq->request, "PROXY_HANDLE", proxy); str = __s("%s %s?%s HTTP/1.1\r\n", (char *)dvalue(rq->request, "METHOD"), path, query); size = strlen(str); ret = antd_send(proxy, str, size); free(str); if (ret != size) { antd_error(rq->client, 500, ""); (void)close(sock_fd); return task; } for_each_assoc(it, xheader) { str = __s("%s: %s\r\n", it->key, (char *)it->value); size = strlen(str); ret = antd_send(proxy, str, size); free(str); if (ret != size) { antd_error(rq->client, 500, ""); (void)close(sock_fd); return task; } } (void)antd_send(proxy, "\r\n", 2); // now monitor the proxy task->handle = proxy_monitor; task->access_time = rq->client->last_io; // register event antd_task_bind_event(task, proxy->sock, 0, TASK_EVT_ON_READABLE | TASK_EVT_ON_WRITABLE); return task; } /** * Check if the current request is e reverse proxy * return a proxy task if this is the case */ static void *check_proxy(antd_request_t *rq, const char *path, const char *query) { char *pattern = "^(https?)://([^:]+):([0-9]+)(.*)$"; antd_task_t *task = antd_create_task(NULL, (void *)rq, NULL, rq->client->last_io); char buff[256]; regmatch_t matches[5]; int ret, size; ret = regex_match(pattern, path, 5, matches); if (!ret) { return NULL; } if (matches[1].rm_eo - matches[1].rm_so == 5) { // https is not supported for now // TODO add https support antd_error(rq->client, 503, "Service Unavailable"); return task; } // http proxy request size = matches[2].rm_eo - matches[2].rm_so < (int)sizeof(buff) ? matches[2].rm_eo - matches[2].rm_so : (int)sizeof(buff); (void)memcpy(buff, path + matches[2].rm_so, size); buff[size] = '\0'; dput(rq->request, "PROXY_HOST", strdup(buff)); size = matches[3].rm_eo - matches[3].rm_so < (int)sizeof(buff) ? matches[3].rm_eo - matches[3].rm_so : (int)sizeof(buff); (void)memcpy(buff, path + matches[3].rm_so, size); buff[size] = '\0'; dput(rq->request, "PROXY_PORT", strdup(buff)); dput(rq->request, "PROXY_PATH", strdup(path + matches[4].rm_so)); dput(rq->request, "PROXY_QUERY", strdup(query)); task->handle = proxify; antd_task_bind_event(task, rq->client->sock, 0, TASK_EVT_ON_READABLE | TASK_EVT_ON_WRITABLE); return task; } /** * Decode the HTTP request header */ void *decode_request_header(void *data) { antd_request_t *rq = (antd_request_t *)data; rq->client->state = ANTD_CLIENT_HEADER_DECODE; dictionary_t cookie = NULL; char *line; char *token; char *query = NULL; char *host = NULL; char buf[2 * BUFFLEN]; int header_size = 0; int ret; char *url = (char *)dvalue(rq->request, "REQUEST_QUERY"); dictionary_t xheader = dvalue(rq->request, "REQUEST_HEADER"); dictionary_t request = dvalue(rq->request, "REQUEST_DATA"); char *port_s = (char *)dvalue(rq->request, "SERVER_PORT"); port_config_t *pcnf = (port_config_t *)dvalue(server_config.ports, port_s); antd_task_t *task; // first real all header // this for check if web socket is enabled while (((ret = read_buf(rq->client, buf, sizeof(buf))) > 0) && strcmp("\r\n", buf)) { header_size += ret; line = buf; trim(line, '\n'); trim(line, '\r'); token = strsep(&line, ":"); trim(token, ' '); trim(line, ' '); if (token && line && strlen(line) > 0) { verify_header(token); dput(xheader, token, strdup(line)); } if (token != NULL && strcasecmp(token, "Cookie") == 0) { if (!cookie) { cookie = dict(); } decode_cookie(line, cookie); } else if (token != NULL && strcasecmp(token, "Host") == 0) { host = strdup(line); } if (header_size > HEADER_MAX_SIZE) { antd_error(rq->client, 413, "Payload Too Large"); ERROR("Header size too large (%d): %d vs %d", rq->client->sock, header_size, HEADER_MAX_SIZE); task = antd_create_task(NULL, (void *)rq, NULL, rq->client->last_io); return task; } } if (ret == 0) { //antd_task_bind_event(task, rq->client->sock, 0, TASK_EVT_ON_WRITABLE | TASK_EVT_ON_READABLE); task = antd_create_task(decode_request_header, (void *)rq, NULL, rq->client->last_io); antd_task_bind_event(task, rq->client->sock, 0, TASK_EVT_ON_READABLE); return task; } // check for content length size line = (char *)dvalue(xheader, "Content-Length"); if (line) { int clen = atoi(line); if (clen > server_config.max_upload_size) { antd_error(rq->client, 413, "Request body data is too large"); // dirty fix, wait for message to be sent // 100 ms sleep usleep(100000); task = antd_create_task(NULL, (void *)rq, NULL, rq->client->last_io); return task; } } #ifdef USE_ZLIB // check for gzip line = (char *)dvalue(xheader, "Accept-Encoding"); if (line) { if (regex_match("gzip", line, 0, NULL)) { rq->client->z_level = ANTD_CGZ; } else if (regex_match("deflate", line, 0, NULL)) { rq->client->z_level = ANTD_CDEFL; } else { rq->client->z_level = ANTD_CNONE; } } else { rq->client->z_level = ANTD_CNONE; } #endif //if(line) free(line); memset(buf, 0, sizeof(buf)); strncat(buf, url, sizeof(buf) - 1); LOG("Original query (%d): %s", rq->client->sock, url); query = apply_rules(pcnf->rules, host, buf); LOG("Processed query: %s", query); if (cookie) dput(rq->request, "COOKIE", cookie); if (host) free(host); // check if this is a reverse proxy ? task = check_proxy(rq, buf, query); if (task) { if (query) free(query); return task; } dput(rq->request, "RESOURCE_PATH", url_decode(buf)); if (query) { decode_url_request(query, request); free(query); } // header ok, now checkmethod task = antd_create_task(decode_request, (void *)rq, NULL, rq->client->last_io); antd_task_bind_event(task, rq->client->sock, 0, TASK_EVT_ON_WRITABLE | TASK_EVT_ON_READABLE); // return task; } void *decode_request(void *data) { antd_request_t *rq = (antd_request_t *)data; dictionary_t headers = dvalue(rq->request, "REQUEST_HEADER"); int ws = 0; char *ws_key = NULL; char *method = NULL; char *tmp; antd_task_t *task = NULL; ws_key = (char *)dvalue(headers, "Sec-WebSocket-Key"); tmp = (char *)dvalue(headers, "Upgrade"); if (tmp && strcasecmp(tmp, "websocket") == 0) ws = 1; method = (char *)dvalue(rq->request, "METHOD"); task = antd_create_task(NULL, (void *)rq, NULL, rq->client->last_io); //antd_task_bind_event(task, rq->client->sock, 0, TASK_EVT_ON_WRITABLE | TASK_EVT_ON_READABLE); if (EQU(method, "GET")) { //if(ctype) free(ctype); if (ws && ws_key != NULL) { ws_confirm_request(rq->client, ws_key); // insert wsocket flag to request // plugin should handle this ugraded connection // not the server dput(rq->request, "__web_socket__", strdup("1")); } // resolve task task->handle = resolve_request; return task; } else if (EQU(method, "HEAD") || EQU(method, "OPTIONS") || EQU(method, "DELETE")) { task->handle = resolve_request; return task; } else if (EQU(method, "POST") || EQU(method, "PUT") || EQU(method, "PATCH")) { task->handle = resolve_request; return task; } else { antd_error(rq->client, 501, "Request Method Not Implemented"); return task; } } void *decode_post_request(void *data) { antd_request_t *rq = (antd_request_t *)data; rq->client->state = ANTD_CLIENT_RQ_DATA_DECODE; dictionary_t request = dvalue(rq->request, "REQUEST_DATA"); dictionary_t headers = dvalue(rq->request, "REQUEST_HEADER"); char *ctype = NULL; int clen = -1; char *tmp; antd_task_t *task = NULL; ctype = (char *)dvalue(headers, "Content-Type"); tmp = (char *)dvalue(headers, "Content-Length"); if (tmp) clen = atoi(tmp); char *method = (char *)dvalue(rq->request, "METHOD"); task = antd_create_task(NULL, (void *)rq, NULL, rq->client->last_io); //antd_task_bind_event(task, rq->client->sock, 0, TASK_EVT_ON_WRITABLE | TASK_EVT_ON_READABLE); if (!method || (!EQU(method, "POST") && !EQU(method, "PUT") && !EQU(method, "PATCH"))) return task; if (ctype == NULL || clen == -1) { antd_error(rq->client, 400, "Bad Request, missing content description"); return task; } // decide what to do with the data if (strstr(ctype, FORM_URL_ENCODE)) { char *pquery = post_data_decode(rq->client, clen); if (pquery) { decode_url_request(pquery, request); free(pquery); } else if (clen > 0) { // WARN: this may not work on ssl socket // antd_task_bind_event(task, rq->client->sock, 0, TASK_EVT_ON_READABLE | TASK_EVT_ON_WRITABLE); // task->handle = decode_post_request; antd_error(rq->client, 400, "Bad Request, missing content data"); return task; } } else if (strstr(ctype, FORM_MULTI_PART)) { free(task); return decode_multi_part_request(rq, ctype); } else { char *pquery = post_data_decode(rq->client, clen); char *key = strstr(ctype, "/"); if (key) key++; else key = ctype; if (pquery) { dput(request, key, strdup(pquery)); free(pquery); } else if (clen > 0) { //task->handle = decode_post_request; //antd_task_bind_event(task, rq->client->sock, 0, TASK_EVT_ON_READABLE | TASK_EVT_ON_WRITABLE); antd_error(rq->client, 400, "Bad Request, missing content data"); return task; } } antd_task_bind_event(task, rq->client->sock, 0, TASK_EVT_ON_WRITABLE); return task; } /** * Send header to the client to confirm * that the websocket is accepted by * our server */ void ws_confirm_request(void *client, const char *key) { char buf[256]; char rkey[128]; char sha_d[20]; char base64[64]; strncpy(rkey, key, sizeof(rkey) - 1); int n = (int)sizeof(rkey) - (int)strlen(key); if (n < 0) n = 0; strncat(rkey, WS_MAGIC_STRING, n); #ifdef USE_OPENSSL SHA_CTX context; #else SHA1_CTX context; #endif SHA1_Init(&context); SHA1_Update(&context, rkey, strlen(rkey)); SHA1_Final((uint8_t *)sha_d, &context); Base64encode(base64, sha_d, 20); // send accept to client sprintf(buf, "HTTP/1.1 101 Switching Protocols\r\n"); antd_send(client, buf, strlen(buf)); sprintf(buf, "Upgrade: websocket\r\n"); antd_send(client, buf, strlen(buf)); sprintf(buf, "Connection: Upgrade\r\n"); antd_send(client, buf, strlen(buf)); sprintf(buf, "Sec-WebSocket-Accept: %s\r\n", base64); antd_send(client, buf, strlen(buf)); sprintf(buf, "\r\n"); antd_send(client, buf, strlen(buf)); LOG("%s", "Websocket is now enabled for plugin"); } /** * Decode the cookie header to a dictionary * @param client The client socket * @return The Dictionary socket or NULL */ void decode_cookie(const char *line, dictionary_t dic) { char *token, *token1; char *cpstr = strdup(line); char *orgcpy = cpstr; trim(cpstr, ' '); trim(cpstr, '\n'); trim(cpstr, '\r'); while ((token = strsep(&cpstr, ";"))) { trim(token, ' '); token1 = strsep(&token, "="); if (token1 && token && strlen(token) > 0) { dput(dic, token1, strdup(token)); } } free(orgcpy); } /** * Decode the multi-part form data from the POST request * If it is a file upload, copy the file to tmp dir */ void *decode_multi_part_request(void *data, const char *ctype) { char *boundary; char line[BUFFLEN]; char *str_copy = (char *)ctype; int len; antd_request_t *rq = (antd_request_t *)data; antd_task_t *task = antd_create_task(NULL, (void *)rq, NULL, rq->client->last_io); //antd_task_bind_event(task, rq->client->sock, 0, TASK_EVT_ON_WRITABLE | TASK_EVT_ON_READABLE); antd_task_bind_event(task, rq->client->sock, 0, TASK_EVT_ON_READABLE); //dictionary dic = NULL; boundary = strsep(&str_copy, "="); //discard first part boundary = str_copy; if (boundary && strlen(boundary) > 0) { //dic = dict(); trim(boundary, ' '); dput(rq->request, "MULTI_PART_BOUNDARY", strdup(boundary)); //find first boundary while (((len = read_buf(rq->client, line, sizeof(line))) > 0) && !strstr(line, boundary)) ; if (len > 0) { task->handle = decode_multi_part_request_data; } } return task; } void *decode_multi_part_request_data(void *data) { // loop through each part separated by the boundary char *line; char *part_name = NULL; char *part_file = NULL; char *file_path; char buf[BUFFLEN]; char *field; int len; //dictionary dic = NULL; FILE *fp = NULL; char *token, *keytoken, *valtoken; antd_request_t *rq = (antd_request_t *)data; antd_task_t *task = antd_create_task(NULL, (void *)rq, NULL, rq->client->last_io); //antd_task_bind_event(task, rq->client->sock, 0, TASK_EVT_ON_WRITABLE | TASK_EVT_ON_READABLE); char *boundary = (char *)dvalue(rq->request, "MULTI_PART_BOUNDARY"); dictionary_t dic = (dictionary_t)dvalue(rq->request, "REQUEST_DATA"); // search for content disposition: while (((len = read_buf(rq->client, buf, sizeof(buf))) > 0) && !strstr(buf, "Content-Disposition:")) ; ; if (len <= 0 || !strstr(buf, "Content-Disposition:")) { return task; } char *boundend = __s("%s--", boundary); line = buf; // extract parameters from header while ((token = strsep(&line, ";"))) { keytoken = strsep(&token, "="); if (keytoken && strlen(keytoken) > 0) { trim(keytoken, ' '); valtoken = strsep(&token, "="); if (valtoken) { trim(valtoken, ' '); trim(valtoken, '\n'); trim(valtoken, '\r'); trim(valtoken, '\"'); if (strcmp(keytoken, "name") == 0) { part_name = strdup(valtoken); } else if (strcmp(keytoken, "filename") == 0) { part_file = strdup(valtoken); } } } } line = NULL; // get the binary data if (part_name != NULL) { // go to the beginning of data bock while ((len = read_buf(rq->client, buf, sizeof(buf))) > 0 && strcmp(buf, "\r\n") != 0) ; ; if (part_file == NULL) { /** * WARNING: * This allow only 1024 bytes of data (max), * out of this range, the data is cut out. * Need an efficient way to handle this */ len = read_buf(rq->client, buf, sizeof(buf)); if (len > 0) { line = buf; trim(line, '\n'); trim(line, '\r'); trim(line, ' '); dput(dic, part_name, strdup(line)); } // find the next boundary while ((len = read_buf(rq->client, buf, sizeof(buf))) > 0 && !strstr(buf, boundary)) { line = buf; } } else { file_path = __s("%s%s.%u", server_config.tmpdir, part_file, (unsigned)time(NULL)); fp = fopen(file_path, "wb"); if (fp) { int totalsize = 0, len = 0; //read until the next boundary // TODO: this is not efficient for big file // need a solution while ((len = read_buf(rq->client, buf, sizeof(buf))) > 0 && !strstr(buf, boundary)) { fwrite(buf, len, 1, fp); totalsize += len; } //remove \r\n at the end fseek(fp, 0, SEEK_SET); //fseek(fp,-2, SEEK_CUR); totalsize -= 2; int stat = ftruncate(fileno(fp), totalsize); UNUSED(stat); fclose(fp); line = buf; field = __s("%s.file", part_name); dput(dic, field, strdup(part_file)); free(field); field = __s("%s.tmp", part_name); dput(dic, field, strdup(file_path)); free(field); field = __s("%s.size", part_name); dput(dic, field, __s("%d", totalsize)); free(field); field = __s("%s.ext", part_name); dput(dic, field, ext(part_file)); free(field); } else { ERROR("Cannot write file to :%s", file_path); } free(file_path); free(part_file); } free(part_name); } // check if end of request if (line && strstr(line, boundend)) { //LOG("End request %s", boundend); free(boundend); antd_task_bind_event(task, rq->client->sock, 0, TASK_EVT_ON_WRITABLE); return task; } free(boundend); if (line && strstr(line, boundary)) { // continue upload antd_task_bind_event(task, rq->client->sock, 0, TASK_EVT_ON_READABLE); task->handle = decode_multi_part_request_data; return task; } antd_task_bind_event(task, rq->client->sock, 0, TASK_EVT_ON_WRITABLE); return task; } /** * Decode a query string (GET request or POST URL encoded) to * a dictionary of key-value * @param query : the query string * @return a dictionary of key-value */ void decode_url_request(const char *query, dictionary_t dic) { if (query == NULL) return; //str_copy = ; char *token; if (strlen(query) == 0) return; char *str_copy = strdup(query); char *org_copy = str_copy; //dictionary dic = dict(); while ((token = strsep(&str_copy, "&"))) { char *key; char *val = NULL; if (strlen(token) > 0) { key = strsep(&token, "="); if (key && strlen(key) > 0) { val = strsep(&token, "="); if (!val) val = ""; dput(dic, key, url_decode(val)); } } } free(org_copy); //return dic; } /** * Decode post query string to string */ char *post_data_decode(void *client, int len) { char *query = (char *)malloc((len + 1) * sizeof(char)); char *ptr = query; int readlen = len > BUFFLEN ? BUFFLEN : len; int read = 0, stat = 1; while (readlen > 0 && stat >= 0) { stat = antd_recv_upto(client, ptr + read, readlen); if (stat > 0) { read += stat; readlen = (len - read) > BUFFLEN ? BUFFLEN : (len - read); } if (stat == 0) { usleep(POLL_EVENT_TO*1000); } } if (read > 0) query[read] = '\0'; else { free(query); query = NULL; } return query; } /** * Execute a plugin based on the http requeset * First decode the http request header to find the correct plugin * and the correct function on the plugin * Second, decode all parameters necessary of the request and pass it * to the callback function. * Execute the callback function if sucess * @param client soket client * @param path request path * @param method request method * @param query_string GET query string * @return -1 if failure * 1 if sucess */ void *execute_plugin(void *data, const char *pname) { void *(*fn)(void *); plugin_header_t *(*metafn)(); plugin_header_t *meta = NULL; struct plugin_entry *plugin; char *error; antd_request_t *rq = (antd_request_t *)data; antd_task_t *task = antd_create_task(NULL, (void *)rq, NULL, rq->client->last_io); antd_task_bind_event(task, rq->client->sock, 0, TASK_EVT_ON_WRITABLE | TASK_EVT_ON_READABLE); //LOG("Plugin name '%s'", pname); rq->client->state = ANTD_CLIENT_PLUGIN_EXEC; //load the plugin if ((plugin = plugin_lookup((char *)pname)) == NULL) { pthread_mutex_lock(&server_mux); plugin = plugin_load((char *)pname); pthread_mutex_unlock(&server_mux); if (plugin == NULL) { antd_error(rq->client, 503, "Requested service not found"); return task; } } // check if the plugin want rawbody or decoded body metafn = (plugin_header_t * (*)()) dlsym(plugin->handle, "meta"); if ((error = dlerror()) == NULL) { meta = metafn(); } // load the function fn = (void *(*)(void *))dlsym(plugin->handle, PLUGIN_HANDLER); if ((error = dlerror()) != NULL) { ERROR("Problem when finding %s method from %s : %s", PLUGIN_HANDLER, pname, error); antd_error(rq->client, 503, "Requested service not found"); return task; } // check if we need the raw data or not if (meta && meta->raw_body == 1) { task->handle = fn; } else { free(task); task = antd_create_task(decode_post_request, (void *)rq, fn, rq->client->last_io); } return task; } dictionary_t mimes_list() { return server_config.mimes; } void dbdir(char *dest) { strncpy(dest, server_config.db_path, 512); } void tmpdir(char *dest) { strncpy(dest, server_config.tmpdir, 512); } void plugindir(char *dest) { strncpy(dest, server_config.plugins_dir, 512); } #ifdef USE_ZLIB int compressable(char *ctype) { if (!server_config.gzip_enable || server_config.gzip_types == NULL) return 0; item_t it; list_for_each(it, server_config.gzip_types) { if (it->type == LIST_TYPE_POINTER && it->value.ptr && regex_match((const char *)it->value.ptr, ctype, 0, NULL)) { return 1; } } return 0; } #endif