int main(int argc, char* argv[])
{
InfStandaloneIo* io;
InfdTcpServer* server;
GError* error;
g_type_init();
io = inf_standalone_io_new();
error = NULL;
server = g_object_new(
INFD_TYPE_TCP_SERVER,
"io", io,
"local-port", 5223,
NULL
);
g_signal_connect(
G_OBJECT(server),
"error",
G_CALLBACK(error_cb),
io
);
g_signal_connect(
G_OBJECT(server),
"new-connection",
G_CALLBACK(new_connection_cb),
io
);
g_signal_connect(
G_OBJECT(server),
"notify::status",
G_CALLBACK(notify_status_cb),
io
);
if(infd_tcp_server_open(server, &error) == FALSE)
{
fprintf(stderr, "Could not open server: %s\n", error->message);
g_error_free(error);
}
else
{
inf_standalone_io_loop(io);
}
g_object_unref(G_OBJECT(io));
g_object_unref(G_OBJECT(server));
return 0;
}
int
main(int argc,
char* argv[])
{
InfTestMassJoin massjoin;
GError* error;
int i;
gchar* name;
error = NULL;
if(!inf_init(&error))
{
fprintf(stderr, "%s\n", error->message);
return -1;
}
massjoin.io = INF_IO(inf_standalone_io_new());
massjoin.joiners = NULL;
for(i = 0; i < 128; ++i)
{
name = g_strdup_printf("MassJoin%03d", i);
inf_test_mass_join_connect(
&massjoin,
"127.0.0.1",
inf_protocol_get_default_port(),
"Test",
name
);
g_free(name);
//g_usleep(100000);
}
inf_standalone_io_loop(INF_STANDALONE_IO(massjoin.io));
return 0;
}
int main(int argc, char* argv[])
{
InfStandaloneIo* io;
InfNameResolver* resolver;
InfTcpConnection* connection;
GError* error;
error = NULL;
if(inf_init(&error) == FALSE)
{
fprintf(stderr, "%s", error->message);
g_error_free(error);
return 1;
}
io = inf_standalone_io_new();
resolver =
inf_name_resolver_new(INF_IO(io), "0x539.de", "5223", "_jabber._tcp");
g_signal_connect(
G_OBJECT(resolver),
"resolved",
G_CALLBACK(resolved_cb),
io
);
connection = inf_tcp_connection_new_resolve(INF_IO(io), resolver);
g_object_unref(resolver);
g_signal_connect(
G_OBJECT(connection),
"received",
G_CALLBACK(received_cb),
io
);
g_signal_connect(
G_OBJECT(connection),
"sent",
G_CALLBACK(sent_cb),
io
);
g_signal_connect(
G_OBJECT(connection),
"error",
G_CALLBACK(error_cb),
io
);
g_signal_connect(
G_OBJECT(connection),
"notify::status",
G_CALLBACK(notify_status_cb),
io
);
if(inf_tcp_connection_open(connection, &error) == FALSE)
{
fprintf(stderr, "Could not open connection: %s\n", error->message);
g_error_free(error);
}
else
{
inf_standalone_io_loop(io);
}
g_object_unref(G_OBJECT(io));
g_object_unref(G_OBJECT(connection));
return 0;
}
static gboolean
inf_test_certificate_validate_run(const InfTestCertificateValidateDesc* desc,
GError** error)
{
InfIo* io;
InfdXmppServer* server;
InfXmppManager* xmpp_manager;
InfCertificateVerify* verify;
InfXmppConnection* client;
gchar* pinned_file;
InfXmlConnectionStatus status;
InfTestCertificateValidateCheckCertificateData check_certificate_data;
gboolean result;
GError* conn_error;
GHashTable* pinned;
gnutls_x509_crt_t pinned_cert;
InfCertificateChain* current_cert;
gboolean cert_equal;
/* Setup server */
io = INF_IO(inf_standalone_io_new());
server = inf_test_certificate_setup_server(
io,
desc->key_file,
desc->cert_file,
error
);
if(server == NULL)
{
g_object_unref(io);
return FALSE;
}
/* Create client */
pinned_file = inf_test_validate_setup_pin(
desc->hostname,
desc->pinned_certificate,
error
);
if(pinned_file == NULL)
{
g_object_unref(server);
g_object_unref(io);
return FALSE;
}
xmpp_manager = inf_xmpp_manager_new();
verify = inf_certificate_verify_new(xmpp_manager, pinned_file);
check_certificate_data.did_query = FALSE;
check_certificate_data.accept_query = desc->accept_query;
g_signal_connect(
G_OBJECT(verify),
"check-certificate",
G_CALLBACK(inf_test_certificate_validate_check_certificate),
&check_certificate_data
);
client = inf_test_certificate_validate_setup_client(
io,
desc->ca_file,
desc->hostname,
error
);
if(client == NULL)
{
g_unlink(pinned_file);
g_free(pinned_file);
g_object_unref(io);
g_object_unref(xmpp_manager);
g_object_unref(verify);
g_object_unref(server);
return FALSE;
}
inf_xmpp_manager_add_connection(xmpp_manager, client);
/* Okay, now watch for status changes on the client or whether a dialog
* appears. */
g_signal_connect(
G_OBJECT(client),
"notify::status",
G_CALLBACK(inf_test_validate_certificate_notify_status_cb),
io
);
conn_error = NULL;
g_signal_connect(
G_OBJECT(client),
"error",
G_CALLBACK(inf_test_validate_certificate_error_cb),
&conn_error
);
inf_standalone_io_loop(INF_STANDALONE_IO(io));
g_object_unref(io);
/* Evaluate result */
result = TRUE;
g_object_get(G_OBJECT(client), "status", &status, NULL);
if(status == INF_XML_CONNECTION_OPEN)
{
g_assert(conn_error == NULL);
if(check_certificate_data.did_query == TRUE &&
desc->expectation != INF_TEST_CERTIFICATE_VALIDATE_EXPECT_QUERY_ACCEPT)
{
g_set_error(
error,
inf_test_certificate_validate_error(),
3,
"Certificate queried and accepted but not expected to"
);
result = FALSE;
}
else if(check_certificate_data.did_query == FALSE &&
desc->expectation != INF_TEST_CERTIFICATE_VALIDATE_EXPECT_ACCEPT)
{
g_set_error(
error,
inf_test_certificate_validate_error(),
0,
"Certificate accepted but not expected to"
);
result = FALSE;
}
}
else
{
g_assert(check_certificate_data.did_query || conn_error != NULL);
/* TODO: The certificate verification result is not preserved at
* the moment. We could change this in
* inf_xmpp_connection_certificate_verify_cancel such that the existing
* error is used if any, or otherwise our own is created. */
if(conn_error != NULL &&
conn_error->domain != inf_xmpp_connection_error_quark() &&
conn_error->code != INF_XMPP_CONNECTION_ERROR_CERTIFICATE_NOT_TRUSTED)
{
g_propagate_error(error, conn_error);
conn_error = NULL;
result = FALSE;
}
else if(check_certificate_data.did_query == TRUE &&
desc->expectation != INF_TEST_CERTIFICATE_VALIDATE_EXPECT_QUERY_REJECT)
{
g_set_error(
error,
inf_test_certificate_validate_error(),
2,
"Certificate queried and rejected but not expected to"
);
result = FALSE;
}
else if(check_certificate_data.did_query == FALSE &&
desc->expectation != INF_TEST_CERTIFICATE_VALIDATE_EXPECT_REJECT)
{
g_set_error(
error,
inf_test_certificate_validate_error(),
1,
"Certificate rejected but not expected to"
);
result = FALSE;
}
if(conn_error != NULL)
{
g_error_free(conn_error);
conn_error = NULL;
}
}
/* If we got the expected result, check whether the host was correctly
* pinned or not. */
if(result == TRUE)
{
pinned = inf_cert_util_read_certificate_map(pinned_file, error);
if(pinned == NULL)
{
result = FALSE;
}
else
{
pinned_cert = g_hash_table_lookup(pinned, desc->hostname);
cert_equal = FALSE;
if(pinned_cert != NULL)
{
g_object_get(
G_OBJECT(client),
"remote-certificate", ¤t_cert,
NULL
);
cert_equal = inf_cert_util_compare_fingerprint(
pinned_cert,
inf_certificate_chain_get_own_certificate(current_cert),
&conn_error
);
inf_certificate_chain_unref(current_cert);
}
if(conn_error != NULL)
{
g_propagate_error(error, conn_error);
conn_error = NULL;
}
else if(cert_equal == TRUE && desc->expect_pinned == FALSE)
{
g_set_error(
error,
inf_test_certificate_validate_error(),
4,
"Certificate was pinned but not expected to"
);
result = FALSE;
}
else if(pinned_cert == NULL && desc->expect_pinned == TRUE)
{
g_set_error(
error,
inf_test_certificate_validate_error(),
5,
"Certificate was not pinned but expected to"
);
result = FALSE;
}
g_hash_table_destroy(pinned);
}
}
g_unlink(pinned_file);
g_free(pinned_file);
g_object_unref(xmpp_manager);
g_object_unref(verify);
g_object_unref(server);
g_object_unref(client);
return result;
}
int
main(int argc, char* argv[])
{
InfTestBrowser test;
InfIpAddress* address;
InfCommunicationManager* manager;
InfTcpConnection* tcp_conn;
GError* error;
gnutls_global_init();
g_type_init();
test.io = inf_standalone_io_new();
#ifndef G_OS_WIN32
test.input_fd = STDIN_FILENO;
#endif
address = inf_ip_address_new_loopback4();
error = NULL;
tcp_conn =
inf_tcp_connection_new_and_open(INF_IO(test.io), address, inf_protocol_get_default_port(), &error);
inf_ip_address_free(address);
if(tcp_conn == NULL)
{
fprintf(stderr, "Could not open TCP connection: %s\n", error->message);
g_error_free(error);
}
else
{
test.conn = inf_xmpp_connection_new(
tcp_conn,
INF_XMPP_CONNECTION_CLIENT,
NULL,
"localhost",
INF_XMPP_CONNECTION_SECURITY_BOTH_PREFER_TLS,
NULL,
NULL,
NULL
);
g_object_unref(G_OBJECT(tcp_conn));
manager = inf_communication_manager_new();
test.browser = INF_BROWSER(
infc_browser_new(
INF_IO(test.io),
manager,
INF_XML_CONNECTION(test.conn)
)
);
g_signal_connect_after(
G_OBJECT(test.browser),
"notify::status",
G_CALLBACK(inf_test_browser_notify_status_cb),
&test
);
g_signal_connect(
G_OBJECT(test.browser),
"error",
G_CALLBACK(inf_test_browser_error_cb),
&test
);
inf_standalone_io_loop(test.io);
g_object_unref(G_OBJECT(manager));
g_object_unref(G_OBJECT(test.browser));
/* TODO: Wait until the XMPP connection is in status closed */
g_object_unref(G_OBJECT(test.conn));
}
g_object_unref(G_OBJECT(test.io));
return 0;
}
static gboolean
perform_test(guint max_total_log_size,
InfTextChunk* initial,
GSList* users,
GSList* requests,
GError** error)
{
InfTextBuffer* buffer;
InfCommunicationManager* manager;
InfIo* io;
InfTextSession* session;
InfAdoptedAlgorithm* algorithm;
InfUserTable* user_table;
InfTextUser* user;
gchar* user_name;
GSList* item;
xmlNodePtr request;
gboolean result;
GError* local_error;
guint verify_user_id;
InfAdoptedUser* verify_user;
guint verify_log_size;
gint verify_can_undo;
gint verify_can_redo;
InfAdoptedRequestLog* log;
guint log_size;
buffer = INF_TEXT_BUFFER(inf_text_default_buffer_new("UTF-8"));
inf_text_buffer_insert_chunk(buffer, 0, initial, NULL);
manager = inf_communication_manager_new();
io = INF_IO(inf_standalone_io_new());
user_table = inf_user_table_new();
local_error = NULL;
for(item = users; item != NULL; item = g_slist_next(item))
{
user_name = g_strdup_printf("User_%u", GPOINTER_TO_UINT(item->data));
user = INF_TEXT_USER(
g_object_new(
INF_TEXT_TYPE_USER,
"id", GPOINTER_TO_UINT(item->data),
"name", user_name,
"status", INF_USER_ACTIVE,
"flags", 0,
NULL
)
);
g_free(user_name);
inf_user_table_add_user(user_table, INF_USER(user));
g_object_unref(user);
}
session = INF_TEXT_SESSION(
g_object_new(
INF_TEXT_TYPE_SESSION,
"communication-manager", manager,
"buffer", buffer,
"io", io,
"user_table", user_table,
"max-total-log-size", max_total_log_size,
NULL
)
);
algorithm = inf_adopted_session_get_algorithm(INF_ADOPTED_SESSION(session));
g_object_unref(io);
g_object_unref(manager);
g_object_unref(user_table);
g_object_unref(buffer);
for(item = requests; item != NULL; item = item->next)
{
request = (xmlNodePtr)item->data;
if(strcmp((const char*)request->name, "request") == 0)
{
/* Request */
result = inf_communication_object_received(
INF_COMMUNICATION_OBJECT(session),
NULL,
request,
&local_error
);
if(local_error != NULL)
goto fail;
}
else
{
/* TODO: Make an extra function out of this: */
/* Verify */
result = inf_xml_util_get_attribute_uint_required(
request,
"user",
&verify_user_id,
&local_error
);
if(result == FALSE)
goto fail;
verify_user = INF_ADOPTED_USER(
inf_user_table_lookup_user_by_id(user_table, verify_user_id)
);
if(verify_user == NULL)
{
g_set_error(
error,
inf_test_text_cleanup_error_quark(),
INF_TEST_TEXT_CLEANUP_USER_UNAVAILABLE,
"User ID '%u' not available",
verify_user_id
);
goto fail;
}
result = inf_xml_util_get_attribute_uint(
request,
"log-size",
&verify_log_size,
&local_error
);
if(local_error) goto fail;
if(result)
{
log = inf_adopted_user_get_request_log(INF_ADOPTED_USER(verify_user));
log_size = inf_adopted_request_log_get_end(log) -
inf_adopted_request_log_get_begin(log);
if(verify_log_size != log_size)
{
g_set_error(
error,
inf_test_text_cleanup_error_quark(),
INF_TEST_TEXT_CLEANUP_VERIFY_FAILED,
"Log size does not match; got %u, but expected %u",
log_size,
verify_log_size
);
goto fail;
}
}
result = inf_xml_util_get_attribute_int(
request,
"can-undo",
&verify_can_undo,
&local_error
);
if(local_error) goto fail;
if(result)
{
result = inf_adopted_algorithm_can_undo(algorithm, verify_user);
if(result != verify_can_undo)
{
g_set_error(
error,
inf_test_text_cleanup_error_quark(),
INF_TEST_TEXT_CLEANUP_VERIFY_FAILED,
"can-undo does not match; got %d, but expected %d",
(guint)result,
verify_can_undo
);
goto fail;
}
}
result = inf_xml_util_get_attribute_int(
request,
"can-redo",
&verify_can_redo,
&local_error
);
if(local_error) goto fail;
if(result)
{
result = inf_adopted_algorithm_can_redo(algorithm, verify_user);
if(result != verify_can_redo)
{
g_set_error(
error,
inf_test_text_cleanup_error_quark(),
INF_TEST_TEXT_CLEANUP_VERIFY_FAILED,
"can-redo does not match; got %d, but expected %d",
(guint)result,
verify_can_redo
);
goto fail;
}
}
}
}
g_object_unref(session);
return TRUE;
fail:
g_object_unref(session);
if(local_error) g_propagate_error(error, local_error);
return FALSE;
}
int main(int argc, char* argv[])
{
InfIpAddress* addr;
InfStandaloneIo* io;
InfTcpConnection* connection;
GError* error;
g_type_init();
addr = inf_ip_address_new_loopback4();
io = inf_standalone_io_new();
error = NULL;
connection = g_object_new(
INF_TYPE_TCP_CONNECTION,
"io", io,
"remote-address", addr,
"remote-port", 5223,
NULL
);
inf_ip_address_free(addr);
g_signal_connect(
G_OBJECT(connection),
"received",
G_CALLBACK(received_cb),
io
);
g_signal_connect(
G_OBJECT(connection),
"sent",
G_CALLBACK(sent_cb),
io
);
g_signal_connect(
G_OBJECT(connection),
"error",
G_CALLBACK(error_cb),
io
);
g_signal_connect(
G_OBJECT(connection),
"notify::status",
G_CALLBACK(notify_status_cb),
io
);
if(inf_tcp_connection_open(connection, &error) == FALSE)
{
fprintf(stderr, "Could not open connection: %s\n", error->message);
g_error_free(error);
}
else
{
inf_standalone_io_loop(io);
}
g_object_unref(G_OBJECT(io));
g_object_unref(G_OBJECT(connection));
return 0;
}
static gboolean
test_fixline(const gchar* initial_buffer_content,
const gchar* initial_base_content,
guint n_lines,
InfTestTextFixlineOperation operation,
InfTestTextFixlineTarget target,
guint pos,
gchar* text,
const gchar* final_buffer_content,
const gchar* final_base_content)
{
InfStandaloneIo* io;
InfTextBuffer* base;
InfTextBuffer* buffer;
/* Create the initial state */
io = inf_standalone_io_new();
base = INF_TEXT_BUFFER(inf_text_default_buffer_new("UTF-8"));
inf_text_buffer_insert_text(
base,
0,
initial_buffer_content,
strlen(initial_buffer_content),
strlen(initial_buffer_content),
0
);
buffer = INF_TEXT_BUFFER(
inf_text_fixline_buffer_new(INF_IO(io), base, n_lines)
);
/* Check the initial state */
if(!check_buffer(base, initial_base_content, "Initial base"))
{
g_object_unref(io);
g_object_unref(base);
g_object_unref(buffer);
return FALSE;
}
if(!check_buffer(buffer, initial_buffer_content, "Initial buf"))
{
g_object_unref(io);
g_object_unref(base);
g_object_unref(buffer);
return FALSE;
}
/* Apply the operation */
switch(operation)
{
case OP_NONE:
break;
case OP_INS:
if(target == TG_BASE)
{
inf_text_buffer_insert_text(
base,
pos,
text,
strlen(text),
strlen(text),
0
);
}
else if(target == TG_BUF)
{
inf_text_buffer_insert_text(
buffer,
pos,
text,
strlen(text),
strlen(text),
0
);
}
break;
case OP_DEL:
if(target == TG_BASE)
inf_text_buffer_erase_text(base, pos, GPOINTER_TO_UINT(text), 0);
else if(target == TG_BUF)
inf_text_buffer_erase_text(buffer, pos, GPOINTER_TO_UINT(text), 0);
break;
default:
g_assert_not_reached();
break;
}
/* Run any delayed action */
inf_standalone_io_iteration_timeout(io, 0);
/* Check the final state */
if(!check_buffer(base, final_base_content, "Final base"))
{
g_object_unref(io);
g_object_unref(base);
g_object_unref(buffer);
return FALSE;
}
if(!check_buffer(buffer, final_buffer_content, "Final buf"))
{
g_object_unref(io);
g_object_unref(base);
g_object_unref(buffer);
return FALSE;
}
g_object_unref(io);
g_object_unref(base);
g_object_unref(buffer);
return TRUE;
}
xmlNodePtr request;
gboolean result;
InfTextChunk* test_chunk;
gchar* first;
gchar* second;
gsize first_bytes;
gsize second_bytes;
GTimer* timer;
buffer = INF_TEXT_BUFFER(inf_text_default_buffer_new("UTF-8"));
inf_text_buffer_insert_chunk(buffer, 0, initial, NULL);
manager = inf_communication_manager_new();
io = INF_IO(inf_standalone_io_new());
user_table = inf_user_table_new();
for(item = users; item != NULL; item = g_slist_next(item))
{
user_name = g_strdup_printf("User_%u", GPOINTER_TO_UINT(item->data));
user = INF_TEXT_USER(
g_object_new(
INF_TEXT_TYPE_USER,
"id", GPOINTER_TO_UINT(item->data),
"name", user_name,
"status", INF_USER_ACTIVE,
"flags", 0,
NULL
)
int main(int argc, char* argv[])
{
InfStandaloneIo* io;
InfdTcpServer* server;
InfdXmppServer* xmpp;
GError* error;
error = NULL;
if(!inf_init(&error))
{
fprintf(stderr, "%s\n", error->message);
return 1;
}
io = inf_standalone_io_new();
server = g_object_new(
INFD_TYPE_TCP_SERVER,
"io", io,
"local-port", 5223,
NULL
);
if(infd_tcp_server_open(server, &error) == FALSE)
{
fprintf(stderr, "Could not open server: %s\n", error->message);
g_error_free(error);
}
else
{
xmpp = infd_xmpp_server_new(
server,
INF_XMPP_CONNECTION_SECURITY_ONLY_UNSECURED,
NULL,
NULL,
NULL
);
g_signal_connect(
G_OBJECT(xmpp),
"error",
G_CALLBACK(error_cb),
io
);
g_signal_connect(
G_OBJECT(xmpp),
"new-connection",
G_CALLBACK(new_connection_cb),
io
);
g_signal_connect(
G_OBJECT(xmpp),
"notify::status",
G_CALLBACK(notify_status_cb),
io
);
inf_standalone_io_loop(io);
}
g_object_unref(G_OBJECT(io));
g_object_unref(G_OBJECT(server));
return 0;
}
