#include "config.h" #include "mock-resolver.h" #include #include static void test_basic (void) { GNetworkAddress *address; guint port; gchar *hostname; gchar *scheme; address = (GNetworkAddress*)g_network_address_new ("www.gnome.org", 8080); g_assert_cmpstr (g_network_address_get_hostname (address), ==, "www.gnome.org"); g_assert_cmpint (g_network_address_get_port (address), ==, 8080); g_object_get (address, "hostname", &hostname, "port", &port, "scheme", &scheme, NULL); g_assert_cmpstr (hostname, ==, "www.gnome.org"); g_assert_cmpint (port, ==, 8080); g_assert (scheme == NULL); g_free (hostname); g_object_unref (address); } typedef struct { const gchar *input; const gchar *scheme; const gchar *hostname; guint16 port; gint error_code; } ParseTest; static ParseTest uri_tests[] = { { "http://www.gnome.org:2020/start", "http", "www.gnome.org", 2020, -1 }, { "ftp://joe~:(*)%46@ftp.gnome.org:2020/start", "ftp", "ftp.gnome.org", 2020, -1 }, { "ftp://[fec0::abcd]/start", "ftp", "fec0::abcd", 8080, -1 }, { "ftp://[fec0::abcd]:999/start", "ftp", "fec0::abcd", 999, -1 }, { "ftp://joe%x-@ftp.gnome.org:2020/start", NULL, NULL, 0, G_IO_ERROR_INVALID_ARGUMENT }, { "http://[fec0::abcd%em1]/start", "http", "fec0::abcd%em1", 8080, -1 }, { "http://[fec0::abcd%25em1]/start", "http", "fec0::abcd%em1", 8080, -1 }, { "http://[fec0::abcd%10]/start", "http", "fec0::abcd%10", 8080, -1 }, { "http://[fec0::abcd%25em%31]/start", NULL, NULL, 0, G_IO_ERROR_INVALID_ARGUMENT }, { "ftp://ftp.gnome.org/start?foo=bar@baz", "ftp", "ftp.gnome.org", 8080, -1 } }; static void test_parse_uri (gconstpointer d) { const ParseTest *test = d; GNetworkAddress *address; GError *error; error = NULL; address = (GNetworkAddress*)g_network_address_parse_uri (test->input, 8080, &error); if (address) { g_assert_cmpstr (g_network_address_get_scheme (address), ==, test->scheme); g_assert_cmpstr (g_network_address_get_hostname (address), ==, test->hostname); g_assert_cmpint (g_network_address_get_port (address), ==, test->port); g_assert_no_error (error); } else g_assert_error (error, G_IO_ERROR, test->error_code); if (address) g_object_unref (address); if (error) g_error_free (error); } static ParseTest host_tests[] = { { "www.gnome.org", NULL, "www.gnome.org", 1234, -1 }, { "www.gnome.org:8080", NULL, "www.gnome.org", 8080, -1 }, { "[2001:db8::1]", NULL, "2001:db8::1", 1234, -1 }, { "[2001:db8::1]:888", NULL, "2001:db8::1", 888, -1 }, { "[2001:db8::1%em1]", NULL, "2001:db8::1%em1", 1234, -1 }, { "[hostname", NULL, NULL, 0, G_IO_ERROR_INVALID_ARGUMENT }, { "[hostnam]e", NULL, NULL, 0, G_IO_ERROR_INVALID_ARGUMENT }, { "hostname:", NULL, NULL, 0, G_IO_ERROR_INVALID_ARGUMENT }, { "hostname:-1", NULL, NULL, 0, G_IO_ERROR_INVALID_ARGUMENT }, { "hostname:9999999", NULL, NULL, 0, G_IO_ERROR_INVALID_ARGUMENT } }; static void test_parse_host (gconstpointer d) { const ParseTest *test = d; GNetworkAddress *address; GError *error; error = NULL; address = (GNetworkAddress*)g_network_address_parse (test->input, 1234, &error); if (address) { g_assert_null (g_network_address_get_scheme (address)); g_assert_cmpstr (g_network_address_get_hostname (address), ==, test->hostname); g_assert_cmpint (g_network_address_get_port (address), ==, test->port); g_assert_no_error (error); } else { g_assert_error (error, G_IO_ERROR, test->error_code); } if (address) g_object_unref (address); if (error) g_error_free (error); } typedef struct { const gchar *input; gboolean valid_parse, valid_resolve, valid_ip; } ResolveTest; static ResolveTest address_tests[] = { { "192.168.1.2", TRUE, TRUE, TRUE }, { "fe80::42", TRUE, TRUE, TRUE }, /* g_network_address_parse() accepts these, but they are not * (just) IP addresses. */ { "192.168.1.2:80", TRUE, FALSE, FALSE }, { "[fe80::42]", TRUE, FALSE, FALSE }, { "[fe80::42]:80", TRUE, FALSE, FALSE }, /* These should not be considered IP addresses by anyone. */ { "192.168.258", FALSE, FALSE, FALSE }, { "192.11010306", FALSE, FALSE, FALSE }, { "3232235778", FALSE, FALSE, FALSE }, { "0300.0250.0001.0001", FALSE, FALSE, FALSE }, { "0xC0.0xA8.0x01.0x02", FALSE, FALSE, FALSE }, { "0xc0.0xa8.0x01.0x02", FALSE, FALSE, FALSE }, { "0xc0a80102", FALSE, FALSE, FALSE } }; static void test_resolve_address (gconstpointer d) { const ResolveTest *test = d; GSocketConnectable *connectable; GSocketAddressEnumerator *addr_enum; GSocketAddress *addr; GError *error = NULL; g_test_message ("Input: %s", test->input); g_assert_cmpint (test->valid_ip, ==, g_hostname_is_ip_address (test->input)); connectable = g_network_address_parse (test->input, 1234, &error); g_assert_no_error (error); addr_enum = g_socket_connectable_enumerate (connectable); addr = g_socket_address_enumerator_next (addr_enum, NULL, &error); g_object_unref (addr_enum); g_object_unref (connectable); if (addr) { g_assert_true (test->valid_parse); g_assert_true (G_IS_INET_SOCKET_ADDRESS (addr)); g_object_unref (addr); } else { g_assert_false (test->valid_parse); g_assert_error (error, G_RESOLVER_ERROR, G_RESOLVER_ERROR_NOT_FOUND); g_error_free (error); return; } } /* Technically this should be in a GResolver test program, but we don't * have one of those since it's mostly impossible to test programmatically. * So it goes here so it can share the tests. */ static void test_resolve_address_gresolver (gconstpointer d) { const ResolveTest *test = d; GResolver *resolver; GList *addrs; GInetAddress *iaddr; GError *error = NULL; g_test_message ("Input: %s", test->input); resolver = g_resolver_get_default (); addrs = g_resolver_lookup_by_name (resolver, test->input, NULL, &error); g_object_unref (resolver); if (addrs) { g_assert_true (test->valid_resolve); g_assert_cmpint (g_list_length (addrs), ==, 1); iaddr = addrs->data; g_assert_true (G_IS_INET_ADDRESS (iaddr)); g_object_unref (iaddr); g_list_free (addrs); } else { g_assert_nonnull (error); g_test_message ("Error: %s", error->message); g_assert_false (test->valid_resolve); if (!test->valid_parse) { /* GResolver should have rejected the address internally, in * which case we're guaranteed to get G_RESOLVER_ERROR_NOT_FOUND. */ g_assert_error (error, G_RESOLVER_ERROR, G_RESOLVER_ERROR_NOT_FOUND); } else { /* If GResolver didn't reject the string itself, then we * might have attempted to send it over the network. If that * attempt succeeded, we'd get back NOT_FOUND, but if * there's no network available we might have gotten some * other error instead. */ } g_error_free (error); return; } } #define SCOPE_ID_TEST_ADDR "fe80::42" #define SCOPE_ID_TEST_PORT 99 #if defined (HAVE_IF_INDEXTONAME) && defined (HAVE_IF_NAMETOINDEX) static char SCOPE_ID_TEST_IFNAME[IF_NAMESIZE]; static int SCOPE_ID_TEST_INDEX; #else #define SCOPE_ID_TEST_IFNAME "1" #define SCOPE_ID_TEST_INDEX 1 #endif static void find_ifname_and_index (void) { if (SCOPE_ID_TEST_INDEX != 0) return; #if defined (HAVE_IF_INDEXTONAME) && defined (HAVE_IF_NAMETOINDEX) SCOPE_ID_TEST_INDEX = if_nametoindex ("lo"); if (SCOPE_ID_TEST_INDEX != 0) { g_strlcpy (SCOPE_ID_TEST_IFNAME, "lo", sizeof (SCOPE_ID_TEST_IFNAME)); return; } for (SCOPE_ID_TEST_INDEX = 1; SCOPE_ID_TEST_INDEX < 1024; SCOPE_ID_TEST_INDEX++) { if (if_indextoname (SCOPE_ID_TEST_INDEX, SCOPE_ID_TEST_IFNAME)) break; } g_assert_cmpstr (SCOPE_ID_TEST_IFNAME, !=, ""); #endif } static void test_scope_id (GSocketConnectable *addr) { #ifndef G_OS_WIN32 GSocketAddressEnumerator *addr_enum; GSocketAddress *saddr; GInetSocketAddress *isaddr; GInetAddress *iaddr; char *tostring; GError *error = NULL; addr_enum = g_socket_connectable_enumerate (addr); saddr = g_socket_address_enumerator_next (addr_enum, NULL, &error); g_assert_no_error (error); g_assert (saddr != NULL); g_assert (G_IS_INET_SOCKET_ADDRESS (saddr)); isaddr = G_INET_SOCKET_ADDRESS (saddr); g_assert_cmpint (g_inet_socket_address_get_scope_id (isaddr), ==, SCOPE_ID_TEST_INDEX); g_assert_cmpint (g_inet_socket_address_get_port (isaddr), ==, SCOPE_ID_TEST_PORT); iaddr = g_inet_socket_address_get_address (isaddr); tostring = g_inet_address_to_string (iaddr); g_assert_cmpstr (tostring, ==, SCOPE_ID_TEST_ADDR); g_free (tostring); g_object_unref (saddr); saddr = g_socket_address_enumerator_next (addr_enum, NULL, &error); g_assert_no_error (error); g_assert (saddr == NULL); g_object_unref (addr_enum); #else g_test_skip ("winsock2 getaddrinfo() can’t understand scope IDs"); #endif } static void test_host_scope_id (void) { GSocketConnectable *addr; char *str; find_ifname_and_index (); str = g_strdup_printf ("%s%%%s", SCOPE_ID_TEST_ADDR, SCOPE_ID_TEST_IFNAME); addr = g_network_address_new (str, SCOPE_ID_TEST_PORT); g_free (str); test_scope_id (addr); g_object_unref (addr); } static void test_uri_scope_id (void) { GSocketConnectable *addr; char *uri; GError *error = NULL; find_ifname_and_index (); uri = g_strdup_printf ("http://[%s%%%s]:%d/foo", SCOPE_ID_TEST_ADDR, SCOPE_ID_TEST_IFNAME, SCOPE_ID_TEST_PORT); addr = g_network_address_parse_uri (uri, 0, &error); g_free (uri); g_assert_no_error (error); test_scope_id (addr); g_object_unref (addr); uri = g_strdup_printf ("http://[%s%%25%s]:%d/foo", SCOPE_ID_TEST_ADDR, SCOPE_ID_TEST_IFNAME, SCOPE_ID_TEST_PORT); addr = g_network_address_parse_uri (uri, 0, &error); g_free (uri); g_assert_no_error (error); test_scope_id (addr); g_object_unref (addr); } static void test_loopback_basic (void) { GNetworkAddress *addr; /* owned */ addr = G_NETWORK_ADDRESS (g_network_address_new_loopback (666)); /* Test basic properties. */ g_assert_cmpstr (g_network_address_get_hostname (addr), ==, "localhost"); g_assert_cmpuint (g_network_address_get_port (addr), ==, 666); g_assert_null (g_network_address_get_scheme (addr)); g_object_unref (addr); } static void assert_socket_address_matches (GSocketAddress *a, const gchar *expected_address, guint16 expected_port) { GInetSocketAddress *sa; gchar *str; /* owned */ g_assert (G_IS_INET_SOCKET_ADDRESS (a)); sa = G_INET_SOCKET_ADDRESS (a); g_assert_cmpint (g_inet_socket_address_get_port (sa), ==, expected_port); str = g_inet_address_to_string (g_inet_socket_address_get_address (sa)); g_assert_cmpstr (str, ==, expected_address); g_free (str); } static void test_loopback_sync (void) { GSocketConnectable *addr; /* owned */ GSocketAddressEnumerator *enumerator; /* owned */ GSocketAddress *a; /* owned */ GError *error = NULL; addr = g_network_address_new_loopback (616); enumerator = g_socket_connectable_enumerate (addr); /* IPv6 address. */ a = g_socket_address_enumerator_next (enumerator, NULL, &error); g_assert_no_error (error); assert_socket_address_matches (a, "::1", 616); g_object_unref (a); /* IPv4 address. */ a = g_socket_address_enumerator_next (enumerator, NULL, &error); g_assert_no_error (error); assert_socket_address_matches (a, "127.0.0.1", 616); g_object_unref (a); /* End of results. */ g_assert_null (g_socket_address_enumerator_next (enumerator, NULL, &error)); g_assert_no_error (error); g_object_unref (enumerator); g_object_unref (addr); } typedef struct { GList/* */ *addrs; /* owned */ GMainLoop *loop; /* owned */ guint delay_ms; gint expected_error_code; } AsyncData; static void got_addr (GObject *source_object, GAsyncResult *result, gpointer user_data) { GSocketAddressEnumerator *enumerator; AsyncData *data; GSocketAddress *a; /* owned */ GError *error = NULL; enumerator = G_SOCKET_ADDRESS_ENUMERATOR (source_object); data = user_data; a = g_socket_address_enumerator_next_finish (enumerator, result, &error); if (data->expected_error_code) { g_assert_error (error, G_IO_ERROR, data->expected_error_code); g_clear_error (&error); } else g_assert_no_error (error); if (a == NULL) { /* End of results. */ data->addrs = g_list_reverse (data->addrs); g_main_loop_quit (data->loop); } else { g_assert (G_IS_INET_SOCKET_ADDRESS (a)); data->addrs = g_list_prepend (data->addrs, a); if (data->delay_ms) g_usleep (data->delay_ms * 1000); g_socket_address_enumerator_next_async (enumerator, NULL, got_addr, user_data); } } static void got_addr_ignored (GObject *source_object, GAsyncResult *result, gpointer user_data) { GSocketAddressEnumerator *enumerator; GSocketAddress *a; /* owned */ GError *error = NULL; /* This function simply ignores the returned addresses but keeps enumerating */ enumerator = G_SOCKET_ADDRESS_ENUMERATOR (source_object); a = g_socket_address_enumerator_next_finish (enumerator, result, &error); g_assert_no_error (error); if (a != NULL) { g_object_unref (a); g_socket_address_enumerator_next_async (enumerator, NULL, got_addr_ignored, user_data); } } static void test_loopback_async (void) { GSocketConnectable *addr; /* owned */ GSocketAddressEnumerator *enumerator; /* owned */ AsyncData data = { 0, }; addr = g_network_address_new_loopback (610); enumerator = g_socket_connectable_enumerate (addr); /* Get all the addresses. */ data.addrs = NULL; data.loop = g_main_loop_new (NULL, FALSE); g_socket_address_enumerator_next_async (enumerator, NULL, got_addr, &data); g_main_loop_run (data.loop); g_main_loop_unref (data.loop); /* Check results. */ g_assert_cmpuint (g_list_length (data.addrs), ==, 2); assert_socket_address_matches (data.addrs->data, "::1", 610); assert_socket_address_matches (data.addrs->next->data, "127.0.0.1", 610); g_list_free_full (data.addrs, (GDestroyNotify) g_object_unref); g_object_unref (enumerator); g_object_unref (addr); } static void test_to_string (void) { GSocketConnectable *addr = NULL; gchar *str = NULL; GError *error = NULL; /* Without port. */ addr = g_network_address_new ("some-hostname", 0); str = g_socket_connectable_to_string (addr); g_assert_cmpstr (str, ==, "some-hostname"); g_free (str); g_object_unref (addr); /* With port. */ addr = g_network_address_new ("some-hostname", 123); str = g_socket_connectable_to_string (addr); g_assert_cmpstr (str, ==, "some-hostname:123"); g_free (str); g_object_unref (addr); /* With scheme and port. */ addr = g_network_address_parse_uri ("http://some-hostname:123", 80, &error); g_assert_no_error (error); str = g_socket_connectable_to_string (addr); g_assert_cmpstr (str, ==, "http:some-hostname:123"); g_free (str); g_object_unref (addr); /* Loopback. */ addr = g_network_address_new ("localhost", 456); str = g_socket_connectable_to_string (addr); g_assert_cmpstr (str, ==, "localhost:456"); g_free (str); g_object_unref (addr); } static int sort_addresses (gconstpointer a, gconstpointer b) { GSocketFamily family_a = g_inet_address_get_family (G_INET_ADDRESS (a)); GSocketFamily family_b = g_inet_address_get_family (G_INET_ADDRESS (b)); if (family_a == family_b) return 0; else if (family_a == G_SOCKET_FAMILY_IPV4) return -1; else return 1; } static int sort_socket_addresses (gconstpointer a, gconstpointer b) { GInetAddress *addr_a = g_inet_socket_address_get_address (G_INET_SOCKET_ADDRESS (a)); GInetAddress *addr_b = g_inet_socket_address_get_address (G_INET_SOCKET_ADDRESS (b)); return sort_addresses (addr_a, addr_b); } static void assert_list_matches_expected (GList *result, GList *expected) { g_assert_cmpint (g_list_length (result), ==, g_list_length (expected)); /* Sort by ipv4 first which matches the expected list */ result = g_list_sort (result, sort_socket_addresses); for (; result != NULL; result = result->next, expected = expected->next) { GInetAddress *address = g_inet_socket_address_get_address (G_INET_SOCKET_ADDRESS (result->data)); g_assert_true (g_inet_address_equal (address, expected->data)); } } typedef struct { MockResolver *mock_resolver; GResolver *original_resolver; GList *input_ipv4_results; GList *input_ipv6_results; GList *input_all_results; GSocketConnectable *addr; GSocketAddressEnumerator *enumerator; GMainLoop *loop; } HappyEyeballsFixture; static void happy_eyeballs_setup (HappyEyeballsFixture *fixture, gconstpointer data) { static const char * const ipv4_address_strings[] = { "1.1.1.1", "2.2.2.2" }; static const char * const ipv6_address_strings[] = { "ff::11", "ff::22" }; gsize i; fixture->original_resolver = g_resolver_get_default (); fixture->mock_resolver = mock_resolver_new (); g_resolver_set_default (G_RESOLVER (fixture->mock_resolver)); for (i = 0; i < G_N_ELEMENTS (ipv4_address_strings); ++i) { GInetAddress *ipv4_addr = g_inet_address_new_from_string (ipv4_address_strings[i]); GInetAddress *ipv6_addr = g_inet_address_new_from_string (ipv6_address_strings[i]); fixture->input_ipv4_results = g_list_append (fixture->input_ipv4_results, ipv4_addr); fixture->input_ipv6_results = g_list_append (fixture->input_ipv6_results, ipv6_addr); fixture->input_all_results = g_list_append (fixture->input_all_results, ipv4_addr); fixture->input_all_results = g_list_append (fixture->input_all_results, ipv6_addr); } fixture->input_all_results = g_list_sort (fixture->input_all_results, sort_addresses); mock_resolver_set_ipv4_results (fixture->mock_resolver, fixture->input_ipv4_results); mock_resolver_set_ipv6_results (fixture->mock_resolver, fixture->input_ipv6_results); fixture->addr = g_network_address_new ("test.fake", 80); fixture->enumerator = g_socket_connectable_enumerate (fixture->addr); fixture->loop = g_main_loop_new (NULL, FALSE); } static void happy_eyeballs_teardown (HappyEyeballsFixture *fixture, gconstpointer data) { g_object_unref (fixture->addr); g_object_unref (fixture->enumerator); g_resolver_free_addresses (fixture->input_all_results); g_list_free (fixture->input_ipv4_results); g_list_free (fixture->input_ipv6_results); g_resolver_set_default (fixture->original_resolver); g_object_unref (fixture->original_resolver); g_object_unref (fixture->mock_resolver); g_main_loop_unref (fixture->loop); } static const guint FAST_DELAY_LESS_THAN_TIMEOUT = 25; static const guint SLOW_DELAY_MORE_THAN_TIMEOUT = 100; static void test_happy_eyeballs_basic (HappyEyeballsFixture *fixture, gconstpointer user_data) { AsyncData data = { 0 }; data.delay_ms = FAST_DELAY_LESS_THAN_TIMEOUT; data.loop = fixture->loop; /* This just tests in the common case it gets all results */ g_socket_address_enumerator_next_async (fixture->enumerator, NULL, got_addr, &data); g_main_loop_run (fixture->loop); assert_list_matches_expected (data.addrs, fixture->input_all_results); } static void test_happy_eyeballs_parallel (HappyEyeballsFixture *fixture, gconstpointer user_data) { AsyncData data = { 0 }; GSocketAddressEnumerator *enumerator2; enumerator2 = g_socket_connectable_enumerate (fixture->addr); data.delay_ms = FAST_DELAY_LESS_THAN_TIMEOUT; data.loop = fixture->loop; /* We run multiple enumerations at once, the results shouldn't be affected. */ g_socket_address_enumerator_next_async (enumerator2, NULL, got_addr_ignored, &data); g_socket_address_enumerator_next_async (fixture->enumerator, NULL, got_addr, &data); g_main_loop_run (fixture->loop); assert_list_matches_expected (data.addrs, fixture->input_all_results); /* Run again to ensure the cache from the previous one is correct */ data.addrs = NULL; g_object_unref (enumerator2); enumerator2 = g_socket_connectable_enumerate (fixture->addr); g_socket_address_enumerator_next_async (enumerator2, NULL, got_addr, &data); g_main_loop_run (fixture->loop); assert_list_matches_expected (data.addrs, fixture->input_all_results); g_object_unref (enumerator2); } static void test_happy_eyeballs_slow_ipv4 (HappyEyeballsFixture *fixture, gconstpointer user_data) { AsyncData data = { 0 }; /* If ipv4 dns response is a bit slow we still get everything */ data.loop = fixture->loop; mock_resolver_set_ipv4_delay_ms (fixture->mock_resolver, FAST_DELAY_LESS_THAN_TIMEOUT); g_socket_address_enumerator_next_async (fixture->enumerator, NULL, got_addr, &data); g_main_loop_run (fixture->loop); assert_list_matches_expected (data.addrs, fixture->input_all_results); } static void test_happy_eyeballs_slow_ipv6 (HappyEyeballsFixture *fixture, gconstpointer user_data) { AsyncData data = { 0 }; /* If ipv6 is a bit slow it waits for them */ data.loop = fixture->loop; mock_resolver_set_ipv6_delay_ms (fixture->mock_resolver, FAST_DELAY_LESS_THAN_TIMEOUT); g_socket_address_enumerator_next_async (fixture->enumerator, NULL, got_addr, &data); g_main_loop_run (fixture->loop); assert_list_matches_expected (data.addrs, fixture->input_all_results); } static void test_happy_eyeballs_very_slow_ipv6 (HappyEyeballsFixture *fixture, gconstpointer user_data) { AsyncData data = { 0 }; /* If ipv6 is very slow we still get everything */ data.loop = fixture->loop; mock_resolver_set_ipv6_delay_ms (fixture->mock_resolver, SLOW_DELAY_MORE_THAN_TIMEOUT); g_socket_address_enumerator_next_async (fixture->enumerator, NULL, got_addr, &data); g_main_loop_run (fixture->loop); assert_list_matches_expected (data.addrs, fixture->input_all_results); } static void test_happy_eyeballs_slow_connection_and_ipv4 (HappyEyeballsFixture *fixture, gconstpointer user_data) { AsyncData data = { 0 }; /* Even if the dns response is slow we still get them if our connection attempts * take long enough. */ data.loop = fixture->loop; data.delay_ms = SLOW_DELAY_MORE_THAN_TIMEOUT * 2; mock_resolver_set_ipv4_delay_ms (fixture->mock_resolver, SLOW_DELAY_MORE_THAN_TIMEOUT); g_socket_address_enumerator_next_async (fixture->enumerator, NULL, got_addr, &data); g_main_loop_run (fixture->loop); assert_list_matches_expected (data.addrs, fixture->input_all_results); } static void test_happy_eyeballs_ipv6_error_ipv4_first (HappyEyeballsFixture *fixture, gconstpointer user_data) { AsyncData data = { 0 }; GError *ipv6_error; /* If ipv6 fails, ensuring that ipv4 finishes before ipv6 errors, we still get ipv4. */ data.loop = fixture->loop; ipv6_error = g_error_new_literal (G_IO_ERROR, G_IO_ERROR_TIMED_OUT, "IPv6 Broken"); mock_resolver_set_ipv6_error (fixture->mock_resolver, ipv6_error); mock_resolver_set_ipv6_delay_ms (fixture->mock_resolver, FAST_DELAY_LESS_THAN_TIMEOUT); g_socket_address_enumerator_next_async (fixture->enumerator, NULL, got_addr, &data); g_main_loop_run (fixture->loop); assert_list_matches_expected (data.addrs, fixture->input_ipv4_results); g_error_free (ipv6_error); } static void test_happy_eyeballs_ipv6_error_ipv6_first (HappyEyeballsFixture *fixture, gconstpointer user_data) { AsyncData data = { 0 }; GError *ipv6_error; /* If ipv6 fails, ensuring that ipv6 errors before ipv4 finishes, we still get ipv4. */ data.loop = fixture->loop; ipv6_error = g_error_new_literal (G_IO_ERROR, G_IO_ERROR_TIMED_OUT, "IPv6 Broken"); mock_resolver_set_ipv6_error (fixture->mock_resolver, ipv6_error); mock_resolver_set_ipv4_delay_ms (fixture->mock_resolver, FAST_DELAY_LESS_THAN_TIMEOUT); g_socket_address_enumerator_next_async (fixture->enumerator, NULL, got_addr, &data); g_main_loop_run (fixture->loop); assert_list_matches_expected (data.addrs, fixture->input_ipv4_results); g_error_free (ipv6_error); } static void test_happy_eyeballs_ipv4_error_ipv4_first (HappyEyeballsFixture *fixture, gconstpointer user_data) { AsyncData data = { 0 }; GError *ipv4_error; /* If ipv4 fails, ensuring that ipv4 errors before ipv6 finishes, we still get ipv6. */ data.loop = fixture->loop; ipv4_error = g_error_new_literal (G_IO_ERROR, G_IO_ERROR_TIMED_OUT, "IPv4 Broken"); mock_resolver_set_ipv4_error (fixture->mock_resolver, ipv4_error); mock_resolver_set_ipv6_delay_ms (fixture->mock_resolver, FAST_DELAY_LESS_THAN_TIMEOUT); g_socket_address_enumerator_next_async (fixture->enumerator, NULL, got_addr, &data); g_main_loop_run (fixture->loop); assert_list_matches_expected (data.addrs, fixture->input_ipv6_results); g_error_free (ipv4_error); } static void test_happy_eyeballs_ipv4_error_ipv6_first (HappyEyeballsFixture *fixture, gconstpointer user_data) { AsyncData data = { 0 }; GError *ipv4_error; /* If ipv4 fails, ensuring that ipv6 finishes before ipv4 errors, we still get ipv6. */ data.loop = fixture->loop; ipv4_error = g_error_new_literal (G_IO_ERROR, G_IO_ERROR_TIMED_OUT, "IPv4 Broken"); mock_resolver_set_ipv4_error (fixture->mock_resolver, ipv4_error); mock_resolver_set_ipv4_delay_ms (fixture->mock_resolver, FAST_DELAY_LESS_THAN_TIMEOUT); g_socket_address_enumerator_next_async (fixture->enumerator, NULL, got_addr, &data); g_main_loop_run (fixture->loop); assert_list_matches_expected (data.addrs, fixture->input_ipv6_results); g_error_free (ipv4_error); } static void test_happy_eyeballs_both_error (HappyEyeballsFixture *fixture, gconstpointer user_data) { AsyncData data = { 0 }; GError *ipv4_error, *ipv6_error; /* If both fail we get an error. */ data.loop = fixture->loop; data.expected_error_code = G_IO_ERROR_TIMED_OUT; ipv4_error = g_error_new_literal (G_IO_ERROR, G_IO_ERROR_TIMED_OUT, "IPv4 Broken"); ipv6_error = g_error_new_literal (G_IO_ERROR, G_IO_ERROR_TIMED_OUT, "IPv6 Broken"); mock_resolver_set_ipv4_error (fixture->mock_resolver, ipv4_error); mock_resolver_set_ipv6_error (fixture->mock_resolver, ipv6_error); g_socket_address_enumerator_next_async (fixture->enumerator, NULL, got_addr, &data); g_main_loop_run (fixture->loop); g_assert_null (data.addrs); g_error_free (ipv4_error); g_error_free (ipv6_error); } static void test_happy_eyeballs_both_error_delays_1 (HappyEyeballsFixture *fixture, gconstpointer user_data) { AsyncData data = { 0 }; GError *ipv4_error, *ipv6_error; /* The same with some different timings */ data.loop = fixture->loop; data.expected_error_code = G_IO_ERROR_TIMED_OUT; ipv4_error = g_error_new_literal (G_IO_ERROR, G_IO_ERROR_TIMED_OUT, "IPv4 Broken"); ipv6_error = g_error_new_literal (G_IO_ERROR, G_IO_ERROR_TIMED_OUT, "IPv6 Broken"); mock_resolver_set_ipv4_error (fixture->mock_resolver, ipv4_error); mock_resolver_set_ipv4_delay_ms (fixture->mock_resolver, FAST_DELAY_LESS_THAN_TIMEOUT); mock_resolver_set_ipv6_error (fixture->mock_resolver, ipv6_error); g_socket_address_enumerator_next_async (fixture->enumerator, NULL, got_addr, &data); g_main_loop_run (fixture->loop); g_assert_null (data.addrs); g_error_free (ipv4_error); g_error_free (ipv6_error); } static void test_happy_eyeballs_both_error_delays_2 (HappyEyeballsFixture *fixture, gconstpointer user_data) { AsyncData data = { 0 }; GError *ipv4_error, *ipv6_error; /* The same with some different timings */ data.loop = fixture->loop; data.expected_error_code = G_IO_ERROR_TIMED_OUT; ipv4_error = g_error_new_literal (G_IO_ERROR, G_IO_ERROR_TIMED_OUT, "IPv4 Broken"); ipv6_error = g_error_new_literal (G_IO_ERROR, G_IO_ERROR_TIMED_OUT, "IPv6 Broken"); mock_resolver_set_ipv4_error (fixture->mock_resolver, ipv4_error); mock_resolver_set_ipv6_error (fixture->mock_resolver, ipv6_error); mock_resolver_set_ipv6_delay_ms (fixture->mock_resolver, FAST_DELAY_LESS_THAN_TIMEOUT); g_socket_address_enumerator_next_async (fixture->enumerator, NULL, got_addr, &data); g_main_loop_run (fixture->loop); g_assert_null (data.addrs); g_error_free (ipv4_error); g_error_free (ipv6_error); } static void test_happy_eyeballs_both_error_delays_3 (HappyEyeballsFixture *fixture, gconstpointer user_data) { AsyncData data = { 0 }; GError *ipv4_error, *ipv6_error; /* The same with some different timings */ data.loop = fixture->loop; data.expected_error_code = G_IO_ERROR_TIMED_OUT; ipv4_error = g_error_new_literal (G_IO_ERROR, G_IO_ERROR_TIMED_OUT, "IPv4 Broken"); ipv6_error = g_error_new_literal (G_IO_ERROR, G_IO_ERROR_TIMED_OUT, "IPv6 Broken"); mock_resolver_set_ipv4_error (fixture->mock_resolver, ipv4_error); mock_resolver_set_ipv6_error (fixture->mock_resolver, ipv6_error); mock_resolver_set_ipv6_delay_ms (fixture->mock_resolver, SLOW_DELAY_MORE_THAN_TIMEOUT); g_socket_address_enumerator_next_async (fixture->enumerator, NULL, got_addr, &data); g_main_loop_run (fixture->loop); g_assert_null (data.addrs); g_error_free (ipv4_error); g_error_free (ipv6_error); } int main (int argc, char *argv[]) { gint i; gchar *path; g_test_init (&argc, &argv, NULL); g_test_add_func ("/network-address/basic", test_basic); for (i = 0; i < G_N_ELEMENTS (host_tests); i++) { path = g_strdup_printf ("/network-address/parse-host/%d", i); g_test_add_data_func (path, &host_tests[i], test_parse_host); g_free (path); } for (i = 0; i < G_N_ELEMENTS (uri_tests); i++) { path = g_strdup_printf ("/network-address/parse-uri/%d", i); g_test_add_data_func (path, &uri_tests[i], test_parse_uri); g_free (path); } for (i = 0; i < G_N_ELEMENTS (address_tests); i++) { path = g_strdup_printf ("/network-address/resolve-address/%d", i); g_test_add_data_func (path, &address_tests[i], test_resolve_address); g_free (path); } for (i = 0; i < G_N_ELEMENTS (address_tests); i++) { path = g_strdup_printf ("/gresolver/resolve-address/%d", i); g_test_add_data_func (path, &address_tests[i], test_resolve_address_gresolver); g_free (path); } g_test_add_func ("/network-address/scope-id", test_host_scope_id); g_test_add_func ("/network-address/uri-scope-id", test_uri_scope_id); g_test_add_func ("/network-address/loopback/basic", test_loopback_basic); g_test_add_func ("/network-address/loopback/sync", test_loopback_sync); g_test_add_func ("/network-address/loopback/async", test_loopback_async); g_test_add_func ("/network-address/to-string", test_to_string); g_test_add ("/network-address/happy-eyeballs/basic", HappyEyeballsFixture, NULL, happy_eyeballs_setup, test_happy_eyeballs_basic, happy_eyeballs_teardown); g_test_add ("/network-address/happy-eyeballs/parallel", HappyEyeballsFixture, NULL, happy_eyeballs_setup, test_happy_eyeballs_parallel, happy_eyeballs_teardown); g_test_add ("/network-address/happy-eyeballs/slow-ipv4", HappyEyeballsFixture, NULL, happy_eyeballs_setup, test_happy_eyeballs_slow_ipv4, happy_eyeballs_teardown); g_test_add ("/network-address/happy-eyeballs/slow-ipv6", HappyEyeballsFixture, NULL, happy_eyeballs_setup, test_happy_eyeballs_slow_ipv6, happy_eyeballs_teardown); g_test_add ("/network-address/happy-eyeballs/very-slow-ipv6", HappyEyeballsFixture, NULL, happy_eyeballs_setup, test_happy_eyeballs_very_slow_ipv6, happy_eyeballs_teardown); g_test_add ("/network-address/happy-eyeballs/slow-connection-and-ipv4", HappyEyeballsFixture, NULL, happy_eyeballs_setup, test_happy_eyeballs_slow_connection_and_ipv4, happy_eyeballs_teardown); g_test_add ("/network-address/happy-eyeballs/ipv6-error-ipv4-first", HappyEyeballsFixture, NULL, happy_eyeballs_setup, test_happy_eyeballs_ipv6_error_ipv4_first, happy_eyeballs_teardown); g_test_add ("/network-address/happy-eyeballs/ipv6-error-ipv6-first", HappyEyeballsFixture, NULL, happy_eyeballs_setup, test_happy_eyeballs_ipv6_error_ipv6_first, happy_eyeballs_teardown); g_test_add ("/network-address/happy-eyeballs/ipv4-error-ipv6-first", HappyEyeballsFixture, NULL, happy_eyeballs_setup, test_happy_eyeballs_ipv4_error_ipv6_first, happy_eyeballs_teardown); g_test_add ("/network-address/happy-eyeballs/ipv4-error-ipv4-first", HappyEyeballsFixture, NULL, happy_eyeballs_setup, test_happy_eyeballs_ipv4_error_ipv4_first, happy_eyeballs_teardown); g_test_add ("/network-address/happy-eyeballs/both-error", HappyEyeballsFixture, NULL, happy_eyeballs_setup, test_happy_eyeballs_both_error, happy_eyeballs_teardown); g_test_add ("/network-address/happy-eyeballs/both-error-delays-1", HappyEyeballsFixture, NULL, happy_eyeballs_setup, test_happy_eyeballs_both_error_delays_1, happy_eyeballs_teardown); g_test_add ("/network-address/happy-eyeballs/both-error-delays-2", HappyEyeballsFixture, NULL, happy_eyeballs_setup, test_happy_eyeballs_both_error_delays_2, happy_eyeballs_teardown); g_test_add ("/network-address/happy-eyeballs/both-error-delays-3", HappyEyeballsFixture, NULL, happy_eyeballs_setup, test_happy_eyeballs_both_error_delays_3, happy_eyeballs_teardown); return g_test_run (); }