/* Utility functions for HTTP client tests Copyright (C) 2001-2009, Joe Orton This program 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 of the License, or (at your option) any later version. This program 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 this program; if not, write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ #include "config.h" #ifdef HAVE_UNISTD_H #include /* for sleep() */ #endif #ifdef HAVE_STDLIB_H #include #endif #include #include "ne_session.h" #include "child.h" #include "tests.h" #include "utils.h" static int serve_response(ne_socket *s, const char *response) { CALL(discard_request(s)); CALL(discard_body(s)); ONN("failed to send response", SEND_STRING(s, response)); return OK; } int single_serve_string(ne_socket *s, void *userdata) { const char *str = userdata; return serve_response(s, str); } int double_serve_sstring(ne_socket *s, void *userdata) { struct double_serve_args *args = userdata; struct string *str; CALL(discard_request(s)); CALL(discard_body(s)); str = &args->first; NE_DEBUG(NE_DBG_SOCKET, "Serving string: [[[%.*s]]]\n", (int)str->len, str->data); ONN("write failed", ne_sock_fullwrite(s, str->data, str->len)); CALL(discard_request(s)); CALL(discard_body(s)); str = &args->second; NE_DEBUG(NE_DBG_SOCKET, "Serving string: [[[%.*s]]]\n", (int)str->len, str->data); ONN("write failed", ne_sock_fullwrite(s, str->data, str->len)); return OK; } int sleepy_server(ne_socket *sock, void *userdata) { sleep(10); return 0; } int many_serve_string(ne_socket *s, void *userdata) { int n; struct many_serve_args *args = userdata; for (n = 0; n < args->count; n++) { NE_DEBUG(NE_DBG_HTTP, "Serving response %d\n", n); CALL(serve_response(s, args->str)); } return OK; } int any_request(ne_session *sess, const char *uri) { ne_request *req = ne_request_create(sess, "GET", uri); int ret = ne_request_dispatch(req); ne_request_destroy(req); return ret; } int any_2xx_request(ne_session *sess, const char *uri) { ne_request *req = ne_request_create(sess, "GET", uri); int ret = ne_request_dispatch(req); int klass = ne_get_status(req)->klass; ne_request_destroy(req); ONV(ret != NE_OK || klass != 2, ("request failed: %s", ne_get_error(sess))); return ret; } int any_2xx_request_body(ne_session *sess, const char *uri) { ne_request *req = ne_request_create(sess, "GET", uri); #define BSIZE 5000 char *body = memset(ne_malloc(BSIZE), 'A', BSIZE); int ret; ne_set_request_body_buffer(req, body, BSIZE); ret = ne_request_dispatch(req); ne_free(body); ONV(ret != NE_OK || ne_get_status(req)->klass != 2, ("request failed: %s", ne_get_error(sess))); ne_request_destroy(req); return ret; } int serve_sstring(ne_socket *sock, void *ud) { struct string *str = ud; NE_DEBUG(NE_DBG_SOCKET, "Serving string: [[[%.*s]]]\n", (int)str->len, str->data); ONN("write failed", ne_sock_fullwrite(sock, str->data, str->len)); return 0; } int serve_sstring_slowly(ne_socket *sock, void *ud) { struct string *str = ud; size_t n; NE_DEBUG(NE_DBG_SOCKET, "Slowly serving string: [[[%.*s]]]\n", (int)str->len, str->data); for (n = 0; n < str->len; n++) { ONN("write failed", ne_sock_fullwrite(sock, &str->data[n], 1)); minisleep(); } return 0; } int serve_infinite(ne_socket *sock, void *ud) { struct infinite *i = ud; CALL(discard_request(sock)); SEND_STRING(sock, i->header); while (server_send(sock, i->repeat, strlen(i->repeat)) == 0) /* nullop */; return OK; } int full_write(ne_socket *sock, const char *data, size_t len) { int ret = ne_sock_fullwrite(sock, data, len); NE_DEBUG(NE_DBG_SOCKET, "wrote: [%.*s]\n", (int)len, data); ONV(ret, ("write failed (%d): %s", ret, ne_sock_error(sock))); return OK; } int multi_session_server(ne_session **sess, const char *scheme, const char *hostname, int count, server_fn fn, void *userdata) { unsigned int port; CALL(new_spawn_server(count, fn, userdata, &port)); *sess = ne_session_create(scheme, hostname, port); return OK; } int session_server(ne_session **sess, server_fn fn, void *userdata) { return multi_session_server(sess, "http", "127.0.0.1", 1, fn, userdata); } int proxied_session_server(ne_session **sess, const char *scheme, const char *host, unsigned int fakeport, server_fn fn, void *userdata) { unsigned int port; CALL(new_spawn_server(1, fn, userdata, &port)); *sess = ne_session_create(scheme, host, fakeport); NE_DEBUG(NE_DBG_HTTP, "test: Using proxied session to port %u.\n", port); ne_session_proxy(*sess, "127.0.0.1", port); return OK; } static void fakesess_destroy(void *userdata) { ne_inet_addr *addr = userdata; ne_iaddr_free(addr); } int fakeproxied_session_server(ne_session **sess, const char *scheme, const char *host, unsigned int fakeport, server_fn fn, void *userdata) { unsigned int port; ne_inet_addr *addr; const ne_inet_addr *alist[1]; CALL(new_spawn_server2(1, fn, userdata, &addr, &port)); alist[0] = addr; *sess = ne_session_create(scheme, host, fakeport); ne_set_addrlist2(*sess, port, alist, 1); ne_hook_destroy_session(*sess, fakesess_destroy, addr); return OK; } int make_session(ne_session **sess, server_fn fn, void *ud) { return session_server(sess, fn, ud); } int file_to_buffer(const char *filename, ne_buffer *buf) { char buffer[BUFSIZ]; int fd; ssize_t n; fd = open(filename, O_RDONLY); ONV(fd < 0, ("could not open file %s", filename)); while ((n = read(fd, buffer, BUFSIZ)) > 0) { ne_buffer_append(buf, buffer, n); } close(fd); return 0; }