/* -*- Mode: C; tab-width: 8; indent-tabs-mode: t; c-basic-offset: 8 -*- */ /* * Copyright 2007-2012 Red Hat, Inc. */ #include "test-utils.h" #include SoupServer *server; SoupURI *base_uri; GMutex server_mutex; static void forget_close (SoupMessage *msg, gpointer user_data) { soup_message_headers_remove (msg->response_headers, "Connection"); } static void close_socket (SoupMessage *msg, gpointer user_data) { SoupSocket *sock = user_data; int sockfd; /* Actually calling soup_socket_disconnect() here would cause * us to leak memory, so just shutdown the socket instead. */ sockfd = soup_socket_get_fd (sock); #ifdef G_OS_WIN32 shutdown (sockfd, SD_SEND); #else shutdown (sockfd, SHUT_WR); #endif /* Then add the missing data to the message now, so SoupServer * can clean up after itself properly. */ soup_message_body_append (msg->response_body, SOUP_MEMORY_STATIC, "foo", 3); } static void timeout_socket (SoupSocket *sock, gpointer user_data) { soup_socket_disconnect (sock); } static void timeout_request_started (SoupServer *server, SoupMessage *msg, SoupClientContext *client, gpointer user_data) { SoupSocket *sock; GMainContext *context = soup_server_get_async_context (server); guint readable; sock = soup_client_context_get_socket (client); readable = g_signal_connect (sock, "readable", G_CALLBACK (timeout_socket), NULL); while (soup_socket_is_connected (sock)) g_main_context_iteration (context, TRUE); g_signal_handler_disconnect (sock, readable); g_signal_handlers_disconnect_by_func (server, timeout_request_started, NULL); } static void setup_timeout_persistent (SoupServer *server, SoupSocket *sock) { char buf[1]; gsize nread; /* In order for the test to work correctly, we have to * close the connection *after* the client side writes * the request. To ensure that this happens reliably, * regardless of thread scheduling, we: * * 1. Try to read off the socket now, knowing it will * fail (since the client is waiting for us to * return a response). This will cause it to * emit "readable" later. * 2. Connect to the server's request-started signal. * 3. Run an inner main loop from that signal handler * until the socket emits "readable". (If we don't * do this then it's possible the client's next * request would be ready before we returned to * the main loop, and so the signal would never be * emitted.) * 4. Close the socket. */ soup_socket_read (sock, buf, 1, &nread, NULL, NULL); g_signal_connect (server, "request-started", G_CALLBACK (timeout_request_started), NULL); } static void server_callback (SoupServer *server, SoupMessage *msg, const char *path, GHashTable *query, SoupClientContext *context, gpointer data) { /* The way this gets used in the tests, we don't actually * need to hold it through the whole function, so it's simpler * to just release it right away. */ g_mutex_lock (&server_mutex); g_mutex_unlock (&server_mutex); if (msg->method != SOUP_METHOD_GET && msg->method != SOUP_METHOD_POST) { soup_message_set_status (msg, SOUP_STATUS_NOT_IMPLEMENTED); return; } if (g_str_has_prefix (path, "/content-length/")) { gboolean too_long = strcmp (path, "/content-length/long") == 0; gboolean no_close = strcmp (path, "/content-length/noclose") == 0; soup_message_set_status (msg, SOUP_STATUS_OK); soup_message_set_response (msg, "text/plain", SOUP_MEMORY_STATIC, "foobar", 6); if (too_long) soup_message_headers_set_content_length (msg->response_headers, 9); soup_message_headers_append (msg->response_headers, "Connection", "close"); if (too_long) { SoupSocket *sock; /* soup-message-io will wait for us to add * another chunk after the first, to fill out * the declared Content-Length. Instead, we * forcibly close the socket at that point. */ sock = soup_client_context_get_socket (context); g_signal_connect (msg, "wrote-chunk", G_CALLBACK (close_socket), sock); } else if (no_close) { /* Remove the 'Connection: close' after writing * the headers, so that when we check it after * writing the body, we'll think we aren't * supposed to close it. */ g_signal_connect (msg, "wrote-headers", G_CALLBACK (forget_close), NULL); } return; } if (!strcmp (path, "/timeout-persistent")) { SoupSocket *sock; sock = soup_client_context_get_socket (context); setup_timeout_persistent (server, sock); } soup_message_set_status (msg, SOUP_STATUS_OK); soup_message_set_response (msg, "text/plain", SOUP_MEMORY_STATIC, "index", 5); return; } static void do_content_length_framing_test (void) { SoupSession *session; SoupMessage *msg; SoupURI *request_uri; goffset declared_length; debug_printf (1, "\nInvalid Content-Length framing tests\n"); session = soup_test_session_new (SOUP_TYPE_SESSION_ASYNC, NULL); debug_printf (1, " Content-Length larger than message body length\n"); request_uri = soup_uri_new_with_base (base_uri, "/content-length/long"); msg = soup_message_new_from_uri ("GET", request_uri); soup_session_send_message (session, msg); if (msg->status_code != SOUP_STATUS_OK) { debug_printf (1, " Unexpected response: %d %s\n", msg->status_code, msg->reason_phrase); errors++; } else { declared_length = soup_message_headers_get_content_length (msg->response_headers); debug_printf (2, " Content-Length: %lu, body: %s\n", (gulong)declared_length, msg->response_body->data); if (msg->response_body->length >= declared_length) { debug_printf (1, " Body length %lu >= declared length %lu\n", (gulong)msg->response_body->length, (gulong)declared_length); errors++; } } soup_uri_free (request_uri); g_object_unref (msg); debug_printf (1, " Server claims 'Connection: close' but doesn't\n"); request_uri = soup_uri_new_with_base (base_uri, "/content-length/noclose"); msg = soup_message_new_from_uri ("GET", request_uri); soup_session_send_message (session, msg); if (msg->status_code != SOUP_STATUS_OK) { debug_printf (1, " Unexpected response: %d %s\n", msg->status_code, msg->reason_phrase); errors++; } else { declared_length = soup_message_headers_get_content_length (msg->response_headers); debug_printf (2, " Content-Length: %lu, body: %s\n", (gulong)declared_length, msg->response_body->data); if (msg->response_body->length != declared_length) { debug_printf (1, " Body length %lu != declared length %lu\n", (gulong)msg->response_body->length, (gulong)declared_length); errors++; } } soup_uri_free (request_uri); g_object_unref (msg); soup_test_session_abort_unref (session); } static void request_started_socket_collector (SoupSession *session, SoupMessage *msg, SoupSocket *socket, gpointer user_data) { SoupSocket **sockets = user_data; int i; debug_printf (2, " msg %p => socket %p\n", msg, socket); for (i = 0; i < 4; i++) { if (!sockets[i]) { /* We ref the socket to make sure that even if * it gets disconnected, it doesn't get freed, * since our checks would get messed up if the * slice allocator reused the same address for * two consecutive sockets. */ sockets[i] = g_object_ref (socket); return; } } debug_printf (1, " socket queue overflowed!\n"); errors++; } static void do_timeout_test_for_session (SoupSession *session) { SoupMessage *msg; SoupSocket *sockets[4] = { NULL, NULL, NULL, NULL }; SoupURI *timeout_uri; int i; g_signal_connect (session, "request-started", G_CALLBACK (request_started_socket_collector), &sockets); debug_printf (1, " First message\n"); timeout_uri = soup_uri_new_with_base (base_uri, "/timeout-persistent"); msg = soup_message_new_from_uri ("GET", timeout_uri); soup_uri_free (timeout_uri); soup_session_send_message (session, msg); if (msg->status_code != SOUP_STATUS_OK) { debug_printf (1, " Unexpected response: %d %s\n", msg->status_code, msg->reason_phrase); errors++; } if (sockets[1]) { debug_printf (1, " Message was retried??\n"); errors++; sockets[1] = sockets[2] = sockets[3] = NULL; } g_object_unref (msg); debug_printf (1, " Second message\n"); msg = soup_message_new_from_uri ("GET", base_uri); soup_session_send_message (session, msg); if (msg->status_code != SOUP_STATUS_OK) { debug_printf (1, " Unexpected response: %d %s\n", msg->status_code, msg->reason_phrase); errors++; } if (sockets[1] != sockets[0]) { debug_printf (1, " Message was not retried on existing connection\n"); errors++; } else if (!sockets[2]) { debug_printf (1, " Message was not retried after disconnect\n"); errors++; } else if (sockets[2] == sockets[1]) { debug_printf (1, " Message was retried on closed connection??\n"); errors++; } else if (sockets[3]) { debug_printf (1, " Message was retried again??\n"); errors++; } g_object_unref (msg); for (i = 0; sockets[i]; i++) g_object_unref (sockets[i]); } static void do_timeout_req_test_for_session (SoupSession *session) { SoupRequest *req; SoupMessage *msg; GInputStream *stream; SoupSocket *sockets[4] = { NULL, NULL, NULL, NULL }; SoupURI *timeout_uri; GError *error = NULL; int i; g_signal_connect (session, "request-started", G_CALLBACK (request_started_socket_collector), &sockets); debug_printf (1, " First request\n"); timeout_uri = soup_uri_new_with_base (base_uri, "/timeout-persistent"); req = soup_session_request_uri (session, timeout_uri, NULL); soup_uri_free (timeout_uri); stream = soup_test_request_send (req, NULL, 0, &error); if (!stream) { debug_printf (1, " Unexpected error on send: %s\n", error->message); errors++; g_clear_error (&error); } else { soup_test_request_read_all (req, stream, NULL, &error); if (error) { debug_printf (1, " Unexpected error on read: %s\n", error->message); errors++; g_clear_error (&error); } soup_test_request_close_stream (req, stream, NULL, &error); if (error) { debug_printf (1, " Unexpected error on close: %s\n", error->message); errors++; g_clear_error (&error); } g_object_unref (stream); } if (sockets[1]) { debug_printf (1, " Message was retried??\n"); errors++; sockets[1] = sockets[2] = sockets[3] = NULL; } g_object_unref (req); debug_printf (1, " Second request\n"); req = soup_session_request_uri (session, base_uri, NULL); stream = soup_test_request_send (req, NULL, 0, &error); if (!stream) { debug_printf (1, " Unexpected error on send: %s\n", error->message); errors++; g_clear_error (&error); } else { soup_test_request_close_stream (req, stream, NULL, &error); if (error) { debug_printf (1, " Unexpected error on close: %s\n", error->message); errors++; g_clear_error (&error); } g_object_unref (stream); } msg = soup_request_http_get_message (SOUP_REQUEST_HTTP (req)); if (msg->status_code != SOUP_STATUS_OK) { debug_printf (1, " Unexpected response: %d %s\n", msg->status_code, msg->reason_phrase); errors++; } if (sockets[1] != sockets[0]) { debug_printf (1, " Message was not retried on existing connection\n"); errors++; } else if (!sockets[2]) { debug_printf (1, " Message was not retried after disconnect\n"); errors++; } else if (sockets[2] == sockets[1]) { debug_printf (1, " Message was retried on closed connection??\n"); errors++; } else if (sockets[3]) { debug_printf (1, " Message was retried again??\n"); errors++; } g_object_unref (msg); g_object_unref (req); for (i = 0; sockets[i]; i++) g_object_unref (sockets[i]); } static void do_persistent_connection_timeout_test (void) { SoupSession *session; debug_printf (1, "\nUnexpected timing out of persistent connections\n"); debug_printf (1, " Async session, message API\n"); session = soup_test_session_new (SOUP_TYPE_SESSION_ASYNC, NULL); do_timeout_test_for_session (session); soup_test_session_abort_unref (session); debug_printf (1, " Async session, request API\n"); session = soup_test_session_new (SOUP_TYPE_SESSION_ASYNC, SOUP_SESSION_USE_THREAD_CONTEXT, TRUE, NULL); do_timeout_req_test_for_session (session); soup_test_session_abort_unref (session); debug_printf (1, " Sync session, message API\n"); session = soup_test_session_new (SOUP_TYPE_SESSION_SYNC, NULL); do_timeout_test_for_session (session); soup_test_session_abort_unref (session); debug_printf (1, " Sync session, request API\n"); session = soup_test_session_new (SOUP_TYPE_SESSION_SYNC, NULL); do_timeout_req_test_for_session (session); soup_test_session_abort_unref (session); } static GMainLoop *max_conns_loop; static int msgs_done; static guint quit_loop_timeout; #define MAX_CONNS 2 #define TEST_CONNS (MAX_CONNS * 2) static gboolean idle_start_server (gpointer data) { g_mutex_unlock (&server_mutex); return FALSE; } static gboolean quit_loop (gpointer data) { quit_loop_timeout = 0; g_main_loop_quit (max_conns_loop); return FALSE; } static void max_conns_request_started (SoupSession *session, SoupMessage *msg, SoupSocket *socket, gpointer user_data) { if (++msgs_done == MAX_CONNS) { if (quit_loop_timeout) g_source_remove (quit_loop_timeout); quit_loop_timeout = g_timeout_add (100, quit_loop, NULL); } } static void max_conns_message_complete (SoupSession *session, SoupMessage *msg, gpointer user_data) { if (++msgs_done == TEST_CONNS) g_main_loop_quit (max_conns_loop); } static void do_max_conns_test_for_session (SoupSession *session) { SoupMessage *msgs[TEST_CONNS]; int i; max_conns_loop = g_main_loop_new (NULL, TRUE); g_mutex_lock (&server_mutex); g_signal_connect (session, "request-started", G_CALLBACK (max_conns_request_started), NULL); msgs_done = 0; for (i = 0; i < TEST_CONNS; i++) { msgs[i] = soup_message_new_from_uri ("GET", base_uri); g_object_ref (msgs[i]); soup_session_queue_message (session, msgs[i], max_conns_message_complete, NULL); } g_main_loop_run (max_conns_loop); if (msgs_done != MAX_CONNS) { debug_printf (1, " Queued %d connections out of max %d?", msgs_done, MAX_CONNS); errors++; } g_signal_handlers_disconnect_by_func (session, max_conns_request_started, NULL); msgs_done = 0; g_idle_add (idle_start_server, NULL); if (quit_loop_timeout) g_source_remove (quit_loop_timeout); quit_loop_timeout = g_timeout_add (1000, quit_loop, NULL); g_main_loop_run (max_conns_loop); for (i = 0; i < TEST_CONNS; i++) { if (!SOUP_STATUS_IS_SUCCESSFUL (msgs[i]->status_code)) { debug_printf (1, " Message %d failed? %d %s\n", i, msgs[i]->status_code, msgs[i]->reason_phrase ? msgs[i]->reason_phrase : "-"); errors++; } } if (msgs_done != TEST_CONNS) { /* Clean up so we don't get a spurious "Leaked * session" error. */ for (i = 0; i < TEST_CONNS; i++) soup_session_cancel_message (session, msgs[i], SOUP_STATUS_CANCELLED); g_main_loop_run (max_conns_loop); } g_main_loop_unref (max_conns_loop); if (quit_loop_timeout) { g_source_remove (quit_loop_timeout); quit_loop_timeout = 0; } for (i = 0; i < TEST_CONNS; i++) g_object_unref (msgs[i]); } static void do_max_conns_test (void) { SoupSession *session; debug_printf (1, "\nExceeding max-conns\n"); debug_printf (1, " Async session\n"); session = soup_test_session_new (SOUP_TYPE_SESSION_ASYNC, SOUP_SESSION_MAX_CONNS, MAX_CONNS, NULL); do_max_conns_test_for_session (session); soup_test_session_abort_unref (session); debug_printf (1, " Sync session\n"); session = soup_test_session_new (SOUP_TYPE_SESSION_SYNC, SOUP_SESSION_MAX_CONNS, MAX_CONNS, NULL); do_max_conns_test_for_session (session); soup_test_session_abort_unref (session); } static void np_request_started (SoupSession *session, SoupMessage *msg, SoupSocket *socket, gpointer user_data) { SoupSocket **save_socket = user_data; *save_socket = g_object_ref (socket); } static void np_request_unqueued (SoupSession *session, SoupMessage *msg, gpointer user_data) { SoupSocket *socket = *(SoupSocket **)user_data; if (soup_socket_is_connected (socket)) { debug_printf (1, " socket is still connected\n"); errors++; } } static void np_request_finished (SoupSession *session, SoupMessage *msg, gpointer user_data) { GMainLoop *loop = user_data; g_main_loop_quit (loop); } static void do_non_persistent_test_for_session (SoupSession *session) { SoupMessage *msg; SoupSocket *socket = NULL; GMainLoop *loop; loop = g_main_loop_new (NULL, FALSE); g_signal_connect (session, "request-started", G_CALLBACK (np_request_started), &socket); g_signal_connect (session, "request-unqueued", G_CALLBACK (np_request_unqueued), &socket); msg = soup_message_new_from_uri ("GET", base_uri); soup_message_headers_append (msg->request_headers, "Connection", "close"); g_object_ref (msg); soup_session_queue_message (session, msg, np_request_finished, loop); g_main_loop_run (loop); g_main_loop_unref (loop); if (msg->status_code != SOUP_STATUS_OK) { debug_printf (1, " Unexpected response: %d %s\n", msg->status_code, msg->reason_phrase); errors++; } g_object_unref (msg); g_object_unref (socket); } static void do_non_persistent_connection_test (void) { SoupSession *session; debug_printf (1, "\nNon-persistent connections are closed immediately\n"); debug_printf (1, " Async session\n"); session = soup_test_session_new (SOUP_TYPE_SESSION_ASYNC, NULL); do_non_persistent_test_for_session (session); soup_test_session_abort_unref (session); debug_printf (1, " Sync session\n"); session = soup_test_session_new (SOUP_TYPE_SESSION_SYNC, NULL); do_non_persistent_test_for_session (session); soup_test_session_abort_unref (session); } static void do_non_idempotent_test_for_session (SoupSession *session) { SoupMessage *msg; SoupSocket *sockets[4] = { NULL, NULL, NULL, NULL }; int i; g_signal_connect (session, "request-started", G_CALLBACK (request_started_socket_collector), &sockets); debug_printf (2, " GET\n"); msg = soup_message_new_from_uri ("GET", base_uri); soup_session_send_message (session, msg); if (msg->status_code != SOUP_STATUS_OK) { debug_printf (1, " Unexpected response: %d %s\n", msg->status_code, msg->reason_phrase); errors++; } if (sockets[1]) { debug_printf (1, " Message was retried??\n"); errors++; sockets[1] = sockets[2] = sockets[3] = NULL; } g_object_unref (msg); debug_printf (2, " POST\n"); msg = soup_message_new_from_uri ("POST", base_uri); soup_session_send_message (session, msg); if (msg->status_code != SOUP_STATUS_OK) { debug_printf (1, " Unexpected response: %d %s\n", msg->status_code, msg->reason_phrase); errors++; } if (sockets[1] == sockets[0]) { debug_printf (1, " Message was sent on existing connection!\n"); errors++; } if (sockets[2]) { debug_printf (1, " Too many connections used...\n"); errors++; } g_object_unref (msg); for (i = 0; sockets[i]; i++) g_object_unref (sockets[i]); } static void do_non_idempotent_connection_test (void) { SoupSession *session; debug_printf (1, "\nNon-idempotent methods are always sent on new connections\n"); debug_printf (1, " Async session\n"); session = soup_test_session_new (SOUP_TYPE_SESSION_ASYNC, NULL); do_non_idempotent_test_for_session (session); soup_test_session_abort_unref (session); debug_printf (1, " Sync session\n"); session = soup_test_session_new (SOUP_TYPE_SESSION_SYNC, NULL); do_non_idempotent_test_for_session (session); soup_test_session_abort_unref (session); } #ifdef HAVE_APACHE #define HTTP_SERVER "http://127.0.0.1:47524" #define HTTPS_SERVER "https://127.0.0.1:47525" #define HTTP_PROXY "http://127.0.0.1:47526" static SoupConnectionState state_transitions[] = { /* NEW -> */ SOUP_CONNECTION_CONNECTING, /* CONNECTING -> */ SOUP_CONNECTION_IN_USE, /* IDLE -> */ SOUP_CONNECTION_DISCONNECTED, /* IN_USE -> */ SOUP_CONNECTION_IDLE, /* REMOTE_DISCONNECTED */ -1, /* DISCONNECTED */ -1, }; static const char *state_names[] = { "NEW", "CONNECTING", "IDLE", "IN_USE", "REMOTE_DISCONNECTED", "DISCONNECTED" }; static void connection_state_changed (GObject *object, GParamSpec *param, gpointer user_data) { SoupConnectionState *state = user_data; SoupConnectionState new_state; g_object_get (object, "state", &new_state, NULL); if (state_transitions[*state] != new_state) { debug_printf (1, " Unexpected transition: %s -> %s\n", state_names[*state], state_names[new_state]); errors++; } else { debug_printf (2, " %s -> %s\n", state_names[*state], state_names[new_state]); } *state = new_state; } static void connection_created (SoupSession *session, GObject *conn, gpointer user_data) { SoupConnectionState *state = user_data; g_object_get (conn, "state", state, NULL); if (*state != SOUP_CONNECTION_NEW) { debug_printf (1, " Unexpected initial state: %d\n", *state); errors++; } g_signal_connect (conn, "notify::state", G_CALLBACK (connection_state_changed), state); } static void do_one_connection_state_test (SoupSession *session, const char *uri) { SoupMessage *msg; msg = soup_message_new ("GET", uri); soup_session_send_message (session, msg); if (msg->status_code != SOUP_STATUS_OK) { debug_printf (1, " Unexpected response: %d %s\n", msg->status_code, msg->reason_phrase); errors++; } g_object_unref (msg); soup_session_abort (session); } static void do_connection_state_test_for_session (SoupSession *session) { SoupConnectionState state; SoupURI *proxy_uri; g_signal_connect (session, "connection-created", G_CALLBACK (connection_created), &state); debug_printf (1, " http\n"); do_one_connection_state_test (session, HTTP_SERVER); if (tls_available) { debug_printf (1, " https\n"); do_one_connection_state_test (session, HTTPS_SERVER); } else debug_printf (1, " https -- SKIPPING\n"); proxy_uri = soup_uri_new (HTTP_PROXY); g_object_set (G_OBJECT (session), SOUP_SESSION_PROXY_URI, proxy_uri, NULL); soup_uri_free (proxy_uri); debug_printf (1, " http with proxy\n"); do_one_connection_state_test (session, HTTP_SERVER); if (tls_available) { debug_printf (1, " https with proxy\n"); do_one_connection_state_test (session, HTTPS_SERVER); } else debug_printf (1, " https with proxy -- SKIPPING\n"); } static void do_connection_state_test (void) { SoupSession *session; debug_printf (1, "\nConnection states\n"); debug_printf (1, " Async session\n"); session = soup_test_session_new (SOUP_TYPE_SESSION_ASYNC, NULL); do_connection_state_test_for_session (session); soup_test_session_abort_unref (session); debug_printf (1, " Sync session\n"); session = soup_test_session_new (SOUP_TYPE_SESSION_SYNC, NULL); do_connection_state_test_for_session (session); soup_test_session_abort_unref (session); } static const char *event_names[] = { "RESOLVING", "RESOLVED", "CONNECTING", "CONNECTED", "PROXY_NEGOTIATING", "PROXY_NEGOTIATED", "TLS_HANDSHAKING", "TLS_HANDSHAKED", "COMPLETE" }; static const char event_abbrevs[] = { 'r', 'R', 'c', 'C', 'p', 'P', 't', 'T', 'x', '\0' }; static const char * event_name_from_abbrev (char abbrev) { int evt; for (evt = 0; event_abbrevs[evt]; evt++) { if (event_abbrevs[evt] == abbrev) return event_names[evt]; } return "???"; } static void network_event (SoupMessage *msg, GSocketClientEvent event, GIOStream *connection, gpointer user_data) { const char **events = user_data; if (!**events) { debug_printf (1, " Unexpected event: %s\n", event_names[event]); errors++; } else { if (**events == event_abbrevs[event]) debug_printf (2, " %s\n", event_names[event]); else { debug_printf (1, " Unexpected event: %s (expected %s)\n", event_names[event], event_name_from_abbrev (**events)); errors++; } *events = *events + 1; } } static void do_one_connection_event_test (SoupSession *session, const char *uri, const char *events) { SoupMessage *msg; msg = soup_message_new ("GET", uri); g_signal_connect (msg, "network-event", G_CALLBACK (network_event), &events); soup_session_send_message (session, msg); if (msg->status_code != SOUP_STATUS_OK) { debug_printf (1, " Unexpected response: %d %s\n", msg->status_code, msg->reason_phrase); errors++; } else { while (*events) { debug_printf (1, " Expected %s\n", event_name_from_abbrev (*events)); events++; errors++; } } g_object_unref (msg); soup_session_abort (session); } static void do_connection_event_test_for_session (SoupSession *session) { SoupURI *proxy_uri; debug_printf (1, " http\n"); do_one_connection_event_test (session, HTTP_SERVER, "rRcCx"); if (tls_available) { debug_printf (1, " https\n"); do_one_connection_event_test (session, HTTPS_SERVER, "rRcCtTx"); } else debug_printf (1, " https -- SKIPPING\n"); proxy_uri = soup_uri_new (HTTP_PROXY); g_object_set (G_OBJECT (session), SOUP_SESSION_PROXY_URI, proxy_uri, NULL); soup_uri_free (proxy_uri); debug_printf (1, " http with proxy\n"); do_one_connection_event_test (session, HTTP_SERVER, "rRcCx"); if (tls_available) { debug_printf (1, " https with proxy\n"); do_one_connection_event_test (session, HTTPS_SERVER, "rRcCpPtTx"); } else debug_printf (1, " https with proxy -- SKIPPING\n"); } static void do_connection_event_test (void) { SoupSession *session; debug_printf (1, "\nConnection events\n"); debug_printf (1, " Async session\n"); session = soup_test_session_new (SOUP_TYPE_SESSION_ASYNC, NULL); do_connection_event_test_for_session (session); soup_test_session_abort_unref (session); debug_printf (1, " Sync session\n"); session = soup_test_session_new (SOUP_TYPE_SESSION_SYNC, NULL); do_connection_event_test_for_session (session); soup_test_session_abort_unref (session); } #endif int main (int argc, char **argv) { test_init (argc, argv, NULL); #ifdef HAVE_APACHE apache_init (); #endif server = soup_test_server_new (TRUE); soup_server_add_handler (server, NULL, server_callback, "http", NULL); base_uri = soup_uri_new ("http://127.0.0.1/"); soup_uri_set_port (base_uri, soup_server_get_port (server)); do_content_length_framing_test (); do_persistent_connection_timeout_test (); do_max_conns_test (); do_non_persistent_connection_test (); do_non_idempotent_connection_test (); #ifdef HAVE_APACHE do_connection_state_test (); do_connection_event_test (); #endif soup_uri_free (base_uri); soup_test_server_quit_unref (server); test_cleanup (); return errors != 0; }