/* * * OBEX library with GLib integration * * Copyright (C) 2012 Intel Corporation. * * 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., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA * */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include #include #include #include "util.h" #define TAG_U8 0x00 #define TAG_U16 0x01 #define TAG_U32 0x02 #define TAG_U64 0x03 #define TAG_STRING 0x04 #define TAG_BYTES 0x05 static uint8_t tag_nval_short[] = { TAG_U8 }; static uint8_t tag_nval_data[] = { TAG_U8, 0x01 }; static uint8_t tag_nval2_short[] = { TAG_U8, 0x01, 0x1, TAG_U16 }; static uint8_t tag_nval2_data[] = { TAG_U8, 0x01, 0x1, TAG_U16, 0x02 }; static uint8_t tag_uint8[] = { TAG_U8, 0x01, 0x01 }; static uint8_t tag_uint16[] = { TAG_U16, 0x02, 0x01, 0x02 }; static uint8_t tag_uint32[] = { TAG_U32, 0x04, 0x01, 0x02, 0x03, 0x04 }; static uint8_t tag_uint64[] = { TAG_U64, 0x08, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08 }; static uint8_t tag_string[] = { TAG_STRING, 0x04, 'A', 'B', 'C', '\0' }; static uint8_t tag_bytes[257] = { TAG_BYTES, 0xFF }; static uint8_t tag_multi[] = { TAG_U8, 0x01, 0x01, TAG_U16, 0x02, 0x01, 0x02, TAG_U32, 0x04, 0x01, 0x02, 0x03, 0x04, TAG_U64, 0x08, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, TAG_STRING, 0x04, 'A', 'B', 'C', '\0' }; static GObexApparam *parse_and_decode(const void *data, gsize size) { GObexApparam *apparam; guint8 encoded[1024]; gsize len; apparam = g_obex_apparam_decode(data, size); g_assert(apparam != NULL); len = g_obex_apparam_encode(apparam, encoded, sizeof(encoded)); assert_memequal(data, size, encoded, len); return apparam; } static void test_apparam_nval_short(void) { GObexApparam *apparam; apparam = g_obex_apparam_decode(tag_nval_short, sizeof(tag_nval_short)); g_assert(apparam == NULL); } static void test_apparam_nval_data(void) { GObexApparam *apparam; apparam = g_obex_apparam_decode(tag_nval_data, sizeof(tag_nval_data)); g_assert(apparam == NULL); } static void test_apparam_nval2_short(void) { GObexApparam *apparam; apparam = g_obex_apparam_decode(tag_nval2_short, sizeof(tag_nval2_short)); g_assert(apparam == NULL); } static void test_apparam_nval2_data(void) { GObexApparam *apparam; apparam = g_obex_apparam_decode(tag_nval2_data, sizeof(tag_nval2_data)); g_assert(apparam == NULL); } static void test_apparam_get_uint8(void) { GObexApparam *apparam; guint8 data; gboolean ret; apparam = parse_and_decode(tag_uint8, sizeof(tag_uint8)); ret = g_obex_apparam_get_uint8(apparam, TAG_U8, &data); g_assert(ret == TRUE); g_assert(data == 0x01); g_obex_apparam_free(apparam); } static void test_apparam_get_uint16(void) { GObexApparam *apparam; uint16_t data; gboolean ret; apparam = parse_and_decode(tag_uint16, sizeof(tag_uint16)); ret = g_obex_apparam_get_uint16(apparam, TAG_U16, &data); g_assert(ret == TRUE); g_assert(data == 0x0102); g_obex_apparam_free(apparam); } static void test_apparam_get_uint32(void) { GObexApparam *apparam; uint32_t data; gboolean ret; apparam = parse_and_decode(tag_uint32, sizeof(tag_uint32)); ret = g_obex_apparam_get_uint32(apparam, TAG_U32, &data); g_assert(ret == TRUE); g_assert(data == 0x01020304); g_obex_apparam_free(apparam); } static void test_apparam_get_uint64(void) { GObexApparam *apparam; uint64_t data; gboolean ret; apparam = parse_and_decode(tag_uint64, sizeof(tag_uint64)); ret = g_obex_apparam_get_uint64(apparam, TAG_U64, &data); g_assert(ret == TRUE); g_assert(data == 0x0102030405060708); g_obex_apparam_free(apparam); } static void test_apparam_get_string(void) { GObexApparam *apparam; char *string; apparam = parse_and_decode(tag_string, sizeof(tag_string)); string = g_obex_apparam_get_string(apparam, TAG_STRING); g_assert(string != NULL); g_assert_cmpstr(string, ==, "ABC"); g_free(string); g_obex_apparam_free(apparam); } static void test_apparam_get_bytes(void) { GObexApparam *apparam; const uint8_t *data; gsize len; gboolean ret; apparam = parse_and_decode(tag_bytes, sizeof(tag_bytes)); ret = g_obex_apparam_get_bytes(apparam, TAG_BYTES, &data, &len); g_assert(ret == TRUE); assert_memequal(tag_bytes + 2, sizeof(tag_bytes) - 2, data, len); g_obex_apparam_free(apparam); } static void test_apparam_get_multi(void) { GObexApparam *apparam; char *string; uint8_t data8; uint16_t data16; uint32_t data32; uint64_t data64; gboolean ret; apparam = g_obex_apparam_decode(tag_multi, sizeof(tag_multi)); g_assert(apparam != NULL); ret = g_obex_apparam_get_uint8(apparam, TAG_U8, &data8); g_assert(ret == TRUE); g_assert(data8 == 0x01); ret = g_obex_apparam_get_uint16(apparam, TAG_U16, &data16); g_assert(ret == TRUE); g_assert(data16 == 0x0102); ret = g_obex_apparam_get_uint32(apparam, TAG_U32, &data32); g_assert(ret == TRUE); g_assert(data32 == 0x01020304); ret = g_obex_apparam_get_uint64(apparam, TAG_U64, &data64); g_assert(ret == TRUE); g_assert(data64 == 0x0102030405060708); string = g_obex_apparam_get_string(apparam, TAG_STRING); g_assert(string != NULL); g_assert_cmpstr(string, ==, "ABC"); g_free(string); g_obex_apparam_free(apparam); } static void test_apparam_set_uint8(void) { GObexApparam *apparam; guint8 buf[1024]; gsize len; apparam = g_obex_apparam_set_uint8(NULL, TAG_U8, 0x01); g_assert(apparam != NULL); len = g_obex_apparam_encode(apparam, buf, sizeof(buf)); assert_memequal(tag_uint8, sizeof(tag_uint8), buf, len); g_obex_apparam_free(apparam); } static void test_apparam_set_uint16(void) { GObexApparam *apparam; guint8 buf[1024]; gsize len; apparam = g_obex_apparam_set_uint16(NULL, TAG_U16, 0x0102); g_assert(apparam != NULL); len = g_obex_apparam_encode(apparam, buf, sizeof(buf)); assert_memequal(tag_uint16, sizeof(tag_uint16), buf, len); g_obex_apparam_free(apparam); } static void test_apparam_set_uint32(void) { GObexApparam *apparam; guint8 buf[1024]; gsize len; apparam = g_obex_apparam_set_uint32(NULL, TAG_U32, 0x01020304); g_assert(apparam != NULL); len = g_obex_apparam_encode(apparam, buf, sizeof(buf)); assert_memequal(tag_uint32, sizeof(tag_uint32), buf, len); g_obex_apparam_free(apparam); } static void test_apparam_set_uint64(void) { GObexApparam *apparam; guint8 buf[1024]; gsize len; apparam = g_obex_apparam_set_uint64(NULL, TAG_U64, 0x0102030405060708); g_assert(apparam != NULL); len = g_obex_apparam_encode(apparam, buf, sizeof(buf)); assert_memequal(tag_uint64, sizeof(tag_uint64), buf, len); g_obex_apparam_free(apparam); } static void test_apparam_set_string(void) { GObexApparam *apparam; guint8 buf[1024]; gsize len; apparam = g_obex_apparam_set_string(NULL, TAG_STRING, "ABC"); g_assert(apparam != NULL); len = g_obex_apparam_encode(apparam, buf, sizeof(buf)); assert_memequal(tag_string, sizeof(tag_string), buf, len); g_obex_apparam_free(apparam); } static void test_apparam_set_bytes(void) { GObexApparam *apparam; guint8 buf[1024]; gsize len; apparam = g_obex_apparam_set_bytes(NULL, TAG_BYTES, tag_bytes + 2, 255); g_assert(apparam != NULL); len = g_obex_apparam_encode(apparam, buf, sizeof(buf)); assert_memequal(tag_bytes, sizeof(tag_bytes), buf, len); g_obex_apparam_free(apparam); } static void test_apparam_set_multi(void) { GObexApparam *apparam; guint8 buf[1024]; gsize len; apparam = g_obex_apparam_set_uint8(NULL, TAG_U8, 0x01); g_assert(apparam != NULL); apparam = g_obex_apparam_set_uint16(apparam, TAG_U16, 0x0102); g_assert(apparam != NULL); apparam = g_obex_apparam_set_uint32(apparam, TAG_U32, 0x01020304); g_assert(apparam != NULL); apparam = g_obex_apparam_set_uint64(apparam, TAG_U64, 0x0102030405060708); g_assert(apparam != NULL); apparam = g_obex_apparam_set_string(apparam, TAG_STRING, "ABC"); g_assert(apparam != NULL); len = g_obex_apparam_encode(apparam, buf, sizeof(buf)); g_assert_cmpuint(len, ==, sizeof(tag_multi)); g_obex_apparam_free(apparam); } int main(int argc, char *argv[]) { g_test_init(&argc, &argv, NULL); g_test_add_func("/gobex/test_apparam_nval_short", test_apparam_nval_short); g_test_add_func("/gobex/test_apparam_nval_data", test_apparam_nval_data); g_test_add_func("/gobex/test_apparam_nval2_short", test_apparam_nval2_short); g_test_add_func("/gobex/test_apparam_nval2_data", test_apparam_nval2_data); g_test_add_func("/gobex/test_apparam_get_uint8", test_apparam_get_uint8); g_test_add_func("/gobex/test_apparam_get_uint16", test_apparam_get_uint16); g_test_add_func("/gobex/test_apparam_get_uint32", test_apparam_get_uint32); g_test_add_func("/gobex/test_apparam_get_uint64", test_apparam_get_uint64); g_test_add_func("/gobex/test_apparam_get_string", test_apparam_get_string); g_test_add_func("/gobex/test_apparam_get_bytes", test_apparam_get_bytes); g_test_add_func("/gobex/test_apparam_get_multi", test_apparam_get_multi); g_test_add_func("/gobex/test_apparam_set_uint8", test_apparam_set_uint8); g_test_add_func("/gobex/test_apparam_set_uint16", test_apparam_set_uint16); g_test_add_func("/gobex/test_apparam_set_uint32", test_apparam_set_uint32); g_test_add_func("/gobex/test_apparam_set_uint64", test_apparam_set_uint64); g_test_add_func("/gobex/test_apparam_set_string", test_apparam_set_string); g_test_add_func("/gobex/test_apparam_set_bytes", test_apparam_set_bytes); g_test_add_func("/gobex/test_apparam_set_multi", test_apparam_set_multi); return g_test_run(); }