/* main.c - Application main entry point */ /* * Copyright (c) 2023 Codecoup * * SPDX-License-Identifier: Apache-2.0 */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include DEFINE_FFF_GLOBALS; ZTEST_SUITE(audio_codec_test_suite, NULL, NULL, NULL, NULL, NULL); ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_get_val) { struct bt_audio_codec_cfg codec_cfg = BT_AUDIO_CODEC_CFG(BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {BT_AUDIO_CODEC_DATA(BT_AUDIO_CODEC_CFG_FREQ, BT_AUDIO_CODEC_CFG_FREQ_16KHZ)}, {}); const uint8_t expected_data = BT_AUDIO_CODEC_CFG_FREQ_16KHZ; const uint8_t *data; int ret; ret = bt_audio_codec_cfg_get_val(&codec_cfg, BT_AUDIO_CODEC_CFG_FREQ, &data); zassert_equal(ret, sizeof(expected_data), "Unexpected return value %d", ret); zassert_equal(data[0], expected_data, "Unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_set_val) { struct bt_audio_codec_cfg codec_cfg = BT_AUDIO_CODEC_CFG(BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {BT_AUDIO_CODEC_DATA(BT_AUDIO_CODEC_CFG_FREQ, BT_AUDIO_CODEC_CFG_FREQ_16KHZ)}, {}); const uint8_t new_expected_data = BT_AUDIO_CODEC_CFG_FREQ_48KHZ; const uint8_t expected_data = BT_AUDIO_CODEC_CFG_FREQ_16KHZ; const uint8_t *data; int ret; ret = bt_audio_codec_cfg_get_val(&codec_cfg, BT_AUDIO_CODEC_CFG_FREQ, &data); zassert_equal(ret, sizeof(expected_data), "Unexpected return value %d", ret); zassert_equal(data[0], expected_data, "Unexpected return value %d", ret); ret = bt_audio_codec_cfg_set_val(&codec_cfg, BT_AUDIO_CODEC_CFG_FREQ, &new_expected_data, sizeof(new_expected_data)); zassert_true(ret > 0, "Unexpected return value %d", ret); ret = bt_audio_codec_cfg_get_val(&codec_cfg, BT_AUDIO_CODEC_CFG_FREQ, &data); zassert_equal(ret, sizeof(new_expected_data), "Unexpected return value %d", ret); zassert_equal(data[0], new_expected_data, "Unexpected data value %u", data[0]); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_set_val_new_value) { struct bt_audio_codec_cfg codec_cfg = BT_AUDIO_CODEC_CFG(BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {}); const uint8_t new_expected_data = BT_AUDIO_CODEC_CFG_FREQ_48KHZ; const uint8_t *data; int ret; ret = bt_audio_codec_cfg_get_val(&codec_cfg, BT_AUDIO_CODEC_CFG_FREQ, &data); zassert_equal(ret, -ENODATA, "Unexpected return value %d", ret); ret = bt_audio_codec_cfg_set_val(&codec_cfg, BT_AUDIO_CODEC_CFG_FREQ, &new_expected_data, sizeof(new_expected_data)); zassert_true(ret > 0, "Unexpected return value %d", ret); ret = bt_audio_codec_cfg_get_val(&codec_cfg, BT_AUDIO_CODEC_CFG_FREQ, &data); zassert_equal(ret, sizeof(new_expected_data), "Unexpected return value %d", ret); zassert_equal(data[0], new_expected_data, "Unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_unset_val) { struct bt_audio_codec_cfg codec_cfg = BT_AUDIO_CODEC_CFG(BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {BT_AUDIO_CODEC_DATA(BT_AUDIO_CODEC_CFG_FREQ, BT_AUDIO_CODEC_CFG_FREQ_16KHZ)}, {}); const uint8_t expected_data = BT_AUDIO_CODEC_CFG_FREQ_16KHZ; const uint8_t *data; int ret; ret = bt_audio_codec_cfg_get_val(&codec_cfg, BT_AUDIO_CODEC_CFG_FREQ, &data); zassert_equal(ret, sizeof(expected_data), "Unexpected return value %d", ret); zassert_equal(data[0], expected_data, "Unexpected return value %d", ret); ret = bt_audio_codec_cfg_unset_val(&codec_cfg, BT_AUDIO_CODEC_CFG_FREQ); zassert_true(ret >= 0, "Unexpected return value %d", ret); ret = bt_audio_codec_cfg_get_val(&codec_cfg, BT_AUDIO_CODEC_CFG_FREQ, &data); zassert_equal(ret, -ENODATA, "Unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_freq_to_freq_hz) { const struct freq_test_input { enum bt_audio_codec_cfg_freq freq; uint32_t freq_hz; } freq_test_inputs[] = { {.freq = BT_AUDIO_CODEC_CFG_FREQ_8KHZ, .freq_hz = 8000U}, {.freq = BT_AUDIO_CODEC_CFG_FREQ_11KHZ, .freq_hz = 11025U}, {.freq = BT_AUDIO_CODEC_CFG_FREQ_16KHZ, .freq_hz = 16000U}, {.freq = BT_AUDIO_CODEC_CFG_FREQ_22KHZ, .freq_hz = 22050U}, {.freq = BT_AUDIO_CODEC_CFG_FREQ_24KHZ, .freq_hz = 24000U}, {.freq = BT_AUDIO_CODEC_CFG_FREQ_32KHZ, .freq_hz = 32000U}, {.freq = BT_AUDIO_CODEC_CFG_FREQ_44KHZ, .freq_hz = 44100U}, {.freq = BT_AUDIO_CODEC_CFG_FREQ_48KHZ, .freq_hz = 48000U}, {.freq = BT_AUDIO_CODEC_CFG_FREQ_88KHZ, .freq_hz = 88200U}, {.freq = BT_AUDIO_CODEC_CFG_FREQ_96KHZ, .freq_hz = 96000U}, {.freq = BT_AUDIO_CODEC_CFG_FREQ_176KHZ, .freq_hz = 176400U}, {.freq = BT_AUDIO_CODEC_CFG_FREQ_192KHZ, .freq_hz = 192000U}, {.freq = BT_AUDIO_CODEC_CFG_FREQ_384KHZ, .freq_hz = 384000U}, }; for (size_t i = 0U; i < ARRAY_SIZE(freq_test_inputs); i++) { const struct freq_test_input *fti = &freq_test_inputs[i]; zassert_equal(bt_audio_codec_cfg_freq_to_freq_hz(fti->freq), fti->freq_hz, "freq %d was not coverted to %u", fti->freq, fti->freq_hz); zassert_equal(bt_audio_codec_cfg_freq_hz_to_freq(fti->freq_hz), fti->freq, "freq_hz %u was not coverted to %d", fti->freq_hz, fti->freq); } } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_get_freq) { const struct bt_bap_lc3_preset preset = BT_BAP_LC3_UNICAST_PRESET_16_2_1(BT_AUDIO_LOCATION_FRONT_LEFT, BT_AUDIO_CONTEXT_TYPE_UNSPECIFIED); int ret; ret = bt_audio_codec_cfg_get_freq(&preset.codec_cfg); zassert_equal(ret, 0x03, "unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_set_val_new) { struct bt_bap_lc3_preset preset = BT_BAP_LC3_UNICAST_PRESET_16_2_1( BT_AUDIO_LOCATION_FRONT_LEFT, BT_AUDIO_CONTEXT_TYPE_UNSPECIFIED); const uint8_t frame_blocks = 0x02; int ret; /* Frame blocks are not part of the preset, so we can use that to test adding a new type to * the config */ ret = bt_audio_codec_cfg_get_frame_blocks_per_sdu(&preset.codec_cfg, false); zassert_equal(ret, -ENODATA, "Unexpected return value %d", ret); ret = bt_audio_codec_cfg_set_frame_blocks_per_sdu(&preset.codec_cfg, frame_blocks); zassert_true(ret > 0, "Unexpected return value %d", ret); ret = bt_audio_codec_cfg_get_frame_blocks_per_sdu(&preset.codec_cfg, false); zassert_equal(ret, frame_blocks, "Unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_set_freq) { struct bt_bap_lc3_preset preset = BT_BAP_LC3_UNICAST_PRESET_16_2_1( BT_AUDIO_LOCATION_FRONT_LEFT, BT_AUDIO_CONTEXT_TYPE_UNSPECIFIED); int ret; ret = bt_audio_codec_cfg_get_freq(&preset.codec_cfg); zassert_equal(ret, 0x03, "Unexpected return value %d", ret); ret = bt_audio_codec_cfg_set_freq(&preset.codec_cfg, BT_AUDIO_CODEC_CFG_FREQ_32KHZ); zassert_true(ret > 0, "Unexpected return value %d", ret); ret = bt_audio_codec_cfg_get_freq(&preset.codec_cfg); zassert_equal(ret, 0x06, "Unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_frame_dur_to_frame_dur_us) { const struct frame_dur_test_input { enum bt_audio_codec_cfg_frame_dur frame_dur; uint32_t frame_dur_us; } frame_dur_test_inputs[] = { {.frame_dur = BT_AUDIO_CODEC_CFG_DURATION_7_5, .frame_dur_us = 7500U}, {.frame_dur = BT_AUDIO_CODEC_CFG_DURATION_10, .frame_dur_us = 10000U}, }; for (size_t i = 0U; i < ARRAY_SIZE(frame_dur_test_inputs); i++) { const struct frame_dur_test_input *fdti = &frame_dur_test_inputs[i]; zassert_equal(bt_audio_codec_cfg_frame_dur_to_frame_dur_us(fdti->frame_dur), fdti->frame_dur_us, "frame_dur %d was not coverted to %u", fdti->frame_dur, fdti->frame_dur_us); zassert_equal(bt_audio_codec_cfg_frame_dur_us_to_frame_dur(fdti->frame_dur_us), fdti->frame_dur, "frame_dur_us %u was not coverted to %d", fdti->frame_dur_us, fdti->frame_dur); } } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_get_frame_dur) { const struct bt_bap_lc3_preset preset = BT_BAP_LC3_UNICAST_PRESET_48_2_2(BT_AUDIO_LOCATION_FRONT_LEFT, BT_AUDIO_CONTEXT_TYPE_UNSPECIFIED); int ret; ret = bt_audio_codec_cfg_get_frame_dur(&preset.codec_cfg); zassert_equal(ret, 0x01, "unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_set_frame_dur) { struct bt_bap_lc3_preset preset = BT_BAP_LC3_UNICAST_PRESET_16_2_1( BT_AUDIO_LOCATION_FRONT_LEFT, BT_AUDIO_CONTEXT_TYPE_UNSPECIFIED); int ret; ret = bt_audio_codec_cfg_get_frame_dur(&preset.codec_cfg); zassert_equal(ret, 0x01, "Unexpected return value %d", ret); ret = bt_audio_codec_cfg_set_frame_dur(&preset.codec_cfg, BT_AUDIO_CODEC_CFG_DURATION_7_5); zassert_true(ret > 0, "Unexpected return value %d", ret); ret = bt_audio_codec_cfg_get_frame_dur(&preset.codec_cfg); zassert_equal(ret, 0x00, "Unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_get_chan_allocation) { const struct bt_bap_lc3_preset preset = BT_BAP_LC3_UNICAST_PRESET_8_1_1( BT_AUDIO_LOCATION_FRONT_LEFT, BT_AUDIO_CONTEXT_TYPE_UNSPECIFIED); enum bt_audio_location chan_allocation = BT_AUDIO_LOCATION_FRONT_RIGHT; int err; err = bt_audio_codec_cfg_get_chan_allocation(&preset.codec_cfg, &chan_allocation, false); zassert_false(err, "unexpected error %d", err); zassert_equal(chan_allocation, BT_AUDIO_LOCATION_FRONT_LEFT, "unexpected return value %d", chan_allocation); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_get_chan_allocation_lc3_fallback_true) { struct bt_audio_codec_cfg codec_cfg = {.id = BT_HCI_CODING_FORMAT_LC3}; enum bt_audio_location chan_allocation; int err; err = bt_audio_codec_cfg_get_chan_allocation(&codec_cfg, &chan_allocation, true); zassert_equal(err, 0, "unexpected error %d", err); zassert_equal(chan_allocation, BT_AUDIO_LOCATION_MONO_AUDIO, "unexpected return value %d", chan_allocation); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_get_chan_allocation_lc3_fallback_false) { struct bt_audio_codec_cfg codec_cfg = {.id = BT_HCI_CODING_FORMAT_LC3}; enum bt_audio_location chan_allocation; int err; err = bt_audio_codec_cfg_get_chan_allocation(&codec_cfg, &chan_allocation, false); zassert_equal(err, -ENODATA, "unexpected error %d", err); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_get_chan_allocation_fallback_true) { struct bt_audio_codec_cfg codec_cfg = {0}; enum bt_audio_location chan_allocation; int err; err = bt_audio_codec_cfg_get_chan_allocation(&codec_cfg, &chan_allocation, true); zassert_equal(err, -ENODATA, "unexpected error %d", err); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_get_chan_allocation_fallback_false) { struct bt_audio_codec_cfg codec_cfg = {0}; enum bt_audio_location chan_allocation; int err; err = bt_audio_codec_cfg_get_chan_allocation(&codec_cfg, &chan_allocation, false); zassert_equal(err, -ENODATA, "unexpected error %d", err); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_set_chan_allocation) { struct bt_bap_lc3_preset preset = BT_BAP_LC3_UNICAST_PRESET_16_2_1( BT_AUDIO_LOCATION_FRONT_LEFT, BT_AUDIO_CONTEXT_TYPE_UNSPECIFIED); enum bt_audio_location chan_allocation; int err; err = bt_audio_codec_cfg_get_chan_allocation(&preset.codec_cfg, &chan_allocation, false); zassert_equal(err, 0, "Unexpected return value %d", err); zassert_equal(chan_allocation, 0x00000001, "Unexpected chan_allocation value %d", chan_allocation); chan_allocation = BT_AUDIO_LOCATION_FRONT_RIGHT | BT_AUDIO_LOCATION_SIDE_RIGHT | BT_AUDIO_LOCATION_TOP_SIDE_RIGHT | BT_AUDIO_LOCATION_RIGHT_SURROUND; err = bt_audio_codec_cfg_set_chan_allocation(&preset.codec_cfg, chan_allocation); zassert_true(err > 0, "Unexpected return value %d", err); err = bt_audio_codec_cfg_get_chan_allocation(&preset.codec_cfg, &chan_allocation, false); zassert_equal(err, 0, "Unexpected return value %d", err); zassert_equal(chan_allocation, 0x8080802, "Unexpected chan_allocation value %d", chan_allocation); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_get_octets_per_frame) { const struct bt_bap_lc3_preset preset = BT_BAP_LC3_UNICAST_PRESET_32_2_2(BT_AUDIO_LOCATION_FRONT_LEFT, BT_AUDIO_CONTEXT_TYPE_UNSPECIFIED); int ret; ret = bt_audio_codec_cfg_get_octets_per_frame(&preset.codec_cfg); zassert_equal(ret, 80u, "unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_set_octets_per_frame) { struct bt_bap_lc3_preset preset = BT_BAP_LC3_UNICAST_PRESET_32_2_2( BT_AUDIO_LOCATION_FRONT_LEFT, BT_AUDIO_CONTEXT_TYPE_UNSPECIFIED); int ret; ret = bt_audio_codec_cfg_get_octets_per_frame(&preset.codec_cfg); zassert_equal(ret, 80, "Unexpected return value %d", ret); ret = bt_audio_codec_cfg_set_octets_per_frame(&preset.codec_cfg, 120); zassert_true(ret > 0, "Unexpected return value %d", ret); ret = bt_audio_codec_cfg_get_octets_per_frame(&preset.codec_cfg); zassert_equal(ret, 120, "Unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_get_frame_blocks_per_sdu) { const struct bt_bap_lc3_preset preset = BT_BAP_LC3_UNICAST_PRESET_48_5_1(BT_AUDIO_LOCATION_FRONT_LEFT, BT_AUDIO_CONTEXT_TYPE_UNSPECIFIED); int ret; ret = bt_audio_codec_cfg_get_frame_blocks_per_sdu(&preset.codec_cfg, true); zassert_equal(ret, 1u, "unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_get_frame_blocks_per_sdu_lc3_fallback_true) { struct bt_audio_codec_cfg codec_cfg = {.id = BT_HCI_CODING_FORMAT_LC3}; int err; err = bt_audio_codec_cfg_get_frame_blocks_per_sdu(&codec_cfg, true); zassert_equal(err, 1, "unexpected error %d", err); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_get_frame_blocks_per_sdu_lc3_fallback_false) { struct bt_audio_codec_cfg codec_cfg = {.id = BT_HCI_CODING_FORMAT_LC3}; int err; err = bt_audio_codec_cfg_get_frame_blocks_per_sdu(&codec_cfg, false); zassert_equal(err, -ENODATA, "unexpected error %d", err); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_get_frame_blocks_per_sdu_fallback_true) { struct bt_audio_codec_cfg codec_cfg = {0}; int err; err = bt_audio_codec_cfg_get_frame_blocks_per_sdu(&codec_cfg, true); zassert_equal(err, -ENODATA, "unexpected error %d", err); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_get_frame_blocks_per_sdu_fallback_false) { struct bt_audio_codec_cfg codec_cfg = {0}; int err; err = bt_audio_codec_cfg_get_frame_blocks_per_sdu(&codec_cfg, false); zassert_equal(err, -ENODATA, "unexpected error %d", err); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_set_frame_blocks_per_sdu) { struct bt_bap_lc3_preset preset = BT_BAP_LC3_UNICAST_PRESET_32_2_2( BT_AUDIO_LOCATION_FRONT_LEFT, BT_AUDIO_CONTEXT_TYPE_UNSPECIFIED); int ret; ret = bt_audio_codec_cfg_get_frame_blocks_per_sdu(&preset.codec_cfg, true); zassert_equal(ret, 1, "Unexpected return value %d", ret); ret = bt_audio_codec_cfg_set_frame_blocks_per_sdu(&preset.codec_cfg, 2U); zassert_true(ret > 0, "Unexpected return value %d", ret); ret = bt_audio_codec_cfg_get_frame_blocks_per_sdu(&preset.codec_cfg, true); zassert_equal(ret, 2, "Unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_meta_get_val) { struct bt_audio_codec_cfg codec_cfg = BT_AUDIO_CODEC_CFG(BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_PARENTAL_RATING, BT_AUDIO_PARENTAL_RATING_AGE_10_OR_ABOVE)}); const uint8_t expected_data = BT_AUDIO_PARENTAL_RATING_AGE_10_OR_ABOVE; const uint8_t *data; int ret; ret = bt_audio_codec_cfg_meta_get_val(&codec_cfg, BT_AUDIO_METADATA_TYPE_PARENTAL_RATING, &data); zassert_equal(ret, sizeof(expected_data), "Unexpected return value %d", ret); zassert_equal(data[0], expected_data, "Unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_meta_set_val) { struct bt_audio_codec_cfg codec_cfg = BT_AUDIO_CODEC_CFG(BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_PARENTAL_RATING, BT_AUDIO_PARENTAL_RATING_AGE_10_OR_ABOVE)}); const uint8_t new_expected_data = BT_AUDIO_PARENTAL_RATING_AGE_13_OR_ABOVE; const uint8_t expected_data = BT_AUDIO_PARENTAL_RATING_AGE_10_OR_ABOVE; const uint8_t *data; int ret; ret = bt_audio_codec_cfg_meta_get_val(&codec_cfg, BT_AUDIO_METADATA_TYPE_PARENTAL_RATING, &data); zassert_equal(ret, sizeof(expected_data), "Unexpected return value %d", ret); zassert_equal(data[0], expected_data, "Unexpected return value %d", ret); ret = bt_audio_codec_cfg_meta_set_val(&codec_cfg, BT_AUDIO_METADATA_TYPE_PARENTAL_RATING, &new_expected_data, sizeof(new_expected_data)); zassert_true(ret > 0, "Unexpected return value %d", ret); ret = bt_audio_codec_cfg_meta_get_val(&codec_cfg, BT_AUDIO_METADATA_TYPE_PARENTAL_RATING, &data); zassert_equal(ret, sizeof(new_expected_data), "Unexpected return value %d", ret); zassert_equal(data[0], new_expected_data, "Unexpected data value %u", data[0]); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_meta_set_val_new) { struct bt_audio_codec_cfg codec_cfg = BT_AUDIO_CODEC_CFG(BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {}); const uint8_t new_expected_data = BT_AUDIO_PARENTAL_RATING_AGE_13_OR_ABOVE; const uint8_t *data; int ret; ret = bt_audio_codec_cfg_meta_get_val(&codec_cfg, BT_AUDIO_METADATA_TYPE_PARENTAL_RATING, &data); zassert_equal(ret, -ENODATA, "Unexpected return value %d", ret); ret = bt_audio_codec_cfg_meta_set_val(&codec_cfg, BT_AUDIO_METADATA_TYPE_PARENTAL_RATING, &new_expected_data, sizeof(new_expected_data)); zassert_true(ret > 0, "Unexpected return value %d", ret); ret = bt_audio_codec_cfg_meta_get_val(&codec_cfg, BT_AUDIO_METADATA_TYPE_PARENTAL_RATING, &data); zassert_equal(ret, sizeof(new_expected_data), "Unexpected return value %d", ret); zassert_equal(data[0], new_expected_data, "Unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_meta_unset_val) { struct bt_audio_codec_cfg codec_cfg = BT_AUDIO_CODEC_CFG(BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_PARENTAL_RATING, BT_AUDIO_PARENTAL_RATING_AGE_10_OR_ABOVE)}); const uint8_t expected_data = BT_AUDIO_PARENTAL_RATING_AGE_10_OR_ABOVE; const uint8_t *data; int ret; ret = bt_audio_codec_cfg_meta_get_val(&codec_cfg, BT_AUDIO_METADATA_TYPE_PARENTAL_RATING, &data); zassert_equal(ret, sizeof(expected_data), "Unexpected return value %d", ret); zassert_equal(data[0], expected_data, "Unexpected return value %d", ret); ret = bt_audio_codec_cfg_meta_unset_val(&codec_cfg, BT_AUDIO_METADATA_TYPE_PARENTAL_RATING); zassert_true(ret >= 0, "Unexpected return value %d", ret); ret = bt_audio_codec_cfg_meta_get_val(&codec_cfg, BT_AUDIO_METADATA_TYPE_PARENTAL_RATING, &data); zassert_equal(ret, -ENODATA, "Unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_meta_get_pref_context) { const enum bt_audio_context ctx = BT_AUDIO_CONTEXT_TYPE_UNSPECIFIED | BT_AUDIO_CONTEXT_TYPE_MEDIA; const struct bt_audio_codec_cfg codec_cfg = BT_AUDIO_CODEC_CFG(BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_PREF_CONTEXT, BT_BYTES_LIST_LE16(ctx))}); int ret; ret = bt_audio_codec_cfg_meta_get_pref_context(&codec_cfg, false); zassert_equal(ret, 0x0005, "unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_meta_get_pref_context_lc3_fallback_true) { struct bt_audio_codec_cfg codec_cfg = {.id = BT_HCI_CODING_FORMAT_LC3}; int err; err = bt_audio_codec_cfg_meta_get_pref_context(&codec_cfg, true); zassert_equal(err, BT_AUDIO_CONTEXT_TYPE_UNSPECIFIED, "unexpected error %d", err); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_meta_get_pref_context_lc3_fallback_false) { struct bt_audio_codec_cfg codec_cfg = {.id = BT_HCI_CODING_FORMAT_LC3}; int err; err = bt_audio_codec_cfg_meta_get_pref_context(&codec_cfg, false); zassert_equal(err, -ENODATA, "unexpected error %d", err); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_meta_get_pref_context_fallback_true) { struct bt_audio_codec_cfg codec_cfg = {0}; int err; err = bt_audio_codec_cfg_meta_get_pref_context(&codec_cfg, true); zassert_equal(err, -ENODATA, "unexpected error %d", err); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_meta_get_pref_context_fallback_false) { struct bt_audio_codec_cfg codec_cfg = {0}; int err; err = bt_audio_codec_cfg_meta_get_pref_context(&codec_cfg, true); zassert_equal(err, -ENODATA, "unexpected error %d", err); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_meta_set_pref_context) { const enum bt_audio_context ctx = BT_AUDIO_CONTEXT_TYPE_UNSPECIFIED | BT_AUDIO_CONTEXT_TYPE_MEDIA; const enum bt_audio_context new_ctx = BT_AUDIO_CONTEXT_TYPE_NOTIFICATIONS; struct bt_audio_codec_cfg codec_cfg = BT_AUDIO_CODEC_CFG(BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_PREF_CONTEXT, BT_BYTES_LIST_LE16(ctx))}); int ret; ret = bt_audio_codec_cfg_meta_get_pref_context(&codec_cfg, false); zassert_equal(ret, 0x0005, "Unexpected return value %d", ret); ret = bt_audio_codec_cfg_meta_set_pref_context(&codec_cfg, new_ctx); zassert_true(ret > 0, "Unexpected return value %d", ret); ret = bt_audio_codec_cfg_meta_get_pref_context(&codec_cfg, false); zassert_equal(ret, 0x0100, "Unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_meta_get_stream_context) { const enum bt_audio_context ctx = BT_AUDIO_CONTEXT_TYPE_UNSPECIFIED | BT_AUDIO_CONTEXT_TYPE_MEDIA; const struct bt_audio_codec_cfg codec_cfg = BT_AUDIO_CODEC_CFG(BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_STREAM_CONTEXT, BT_BYTES_LIST_LE16(ctx))}); int ret; ret = bt_audio_codec_cfg_meta_get_stream_context(&codec_cfg); zassert_equal(ret, 0x0005, "unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_meta_set_stream_context) { enum bt_audio_context ctx = BT_AUDIO_CONTEXT_TYPE_UNSPECIFIED | BT_AUDIO_CONTEXT_TYPE_MEDIA; struct bt_audio_codec_cfg codec_cfg = BT_AUDIO_CODEC_CFG(BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_STREAM_CONTEXT, BT_BYTES_LIST_LE16(ctx))}); int ret; ret = bt_audio_codec_cfg_meta_get_stream_context(&codec_cfg); zassert_equal(ret, 0x0005, "Unexpected return value %d", ret); ctx = BT_AUDIO_CONTEXT_TYPE_NOTIFICATIONS; ret = bt_audio_codec_cfg_meta_set_stream_context(&codec_cfg, ctx); zassert_true(ret > 0, "Unexpected return value %d", ret); ret = bt_audio_codec_cfg_meta_get_stream_context(&codec_cfg); zassert_equal(ret, 0x0100, "Unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_meta_get_program_info) { const uint8_t expected_data[] = {'P', 'r', 'o', 'g', 'r', 'a', 'm', ' ', 'I', 'n', 'f', 'o'}; const struct bt_audio_codec_cfg codec_cfg = BT_AUDIO_CODEC_CFG( BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_PROGRAM_INFO, 'P', 'r', 'o', 'g', 'r', 'a', 'm', ' ', 'I', 'n', 'f', 'o')}); const uint8_t *program_data; int ret; ret = bt_audio_codec_cfg_meta_get_program_info(&codec_cfg, &program_data); zassert_equal(ret, ARRAY_SIZE(expected_data), "Unexpected return value %d", ret); zassert_mem_equal(expected_data, program_data, ARRAY_SIZE(expected_data)); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_meta_set_program_info) { const uint8_t expected_data[] = {'P', 'r', 'o', 'g', 'r', 'a', 'm', ' ', 'I', 'n', 'f', 'o'}; const uint8_t new_expected_data[] = {'N', 'e', 'w', ' ', 'i', 'n', 'f', 'o'}; struct bt_audio_codec_cfg codec_cfg = BT_AUDIO_CODEC_CFG( BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_PROGRAM_INFO, 'P', 'r', 'o', 'g', 'r', 'a', 'm', ' ', 'I', 'n', 'f', 'o')}); const uint8_t *program_data; int ret; ret = bt_audio_codec_cfg_meta_get_program_info(&codec_cfg, &program_data); zassert_equal(ret, ARRAY_SIZE(expected_data), "Unexpected return value %d", ret); zassert_mem_equal(expected_data, program_data, ARRAY_SIZE(expected_data)); ret = bt_audio_codec_cfg_meta_set_program_info(&codec_cfg, new_expected_data, ARRAY_SIZE(new_expected_data)); zassert_true(ret > 0, "Unexpected return value %d", ret); ret = bt_audio_codec_cfg_meta_get_program_info(&codec_cfg, &program_data); zassert_equal(ret, ARRAY_SIZE(new_expected_data), "Unexpected return value %d", ret); zassert_mem_equal(new_expected_data, program_data, ARRAY_SIZE(new_expected_data)); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_meta_get_lang) { const struct bt_audio_codec_cfg codec_cfg = BT_AUDIO_CODEC_CFG( BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_LANG, 'e', 'n', 'g')}); char expected_data[] = "eng"; const uint8_t *lang; int ret; ret = bt_audio_codec_cfg_meta_get_lang(&codec_cfg, &lang); zassert_equal(ret, 0, "Unexpected return value %d", ret); zassert_mem_equal(expected_data, lang, BT_AUDIO_LANG_SIZE); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_meta_set_lang) { struct bt_audio_codec_cfg codec_cfg = BT_AUDIO_CODEC_CFG( BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_LANG, 'e', 'n', 'g')}); const uint8_t new_expected_data[] = "deu"; char expected_data[] = "eng"; const uint8_t *lang; int ret; ret = bt_audio_codec_cfg_meta_get_lang(&codec_cfg, &lang); zassert_equal(ret, 0, "Unexpected return value %d", ret); zassert_mem_equal(expected_data, lang, BT_AUDIO_LANG_SIZE); ret = bt_audio_codec_cfg_meta_set_lang(&codec_cfg, new_expected_data); zassert_true(ret > 0, "Unexpected return value %d", ret); ret = bt_audio_codec_cfg_meta_get_lang(&codec_cfg, &lang); zassert_equal(ret, 0, "Unexpected return value %d", ret); zassert_mem_equal(new_expected_data, lang, BT_AUDIO_LANG_SIZE); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_meta_get_ccid_list) { const uint8_t expected_data[] = {0x05, 0x10, 0x15}; const struct bt_audio_codec_cfg codec_cfg = BT_AUDIO_CODEC_CFG( BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_CCID_LIST, 0x05, 0x10, 0x15)}); const uint8_t *ccid_list; int ret; ret = bt_audio_codec_cfg_meta_get_ccid_list(&codec_cfg, &ccid_list); zassert_equal(ret, ARRAY_SIZE(expected_data), "Unexpected return value %d", ret); zassert_mem_equal(expected_data, ccid_list, ARRAY_SIZE(expected_data)); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_meta_set_ccid_list_shorter) { const uint8_t expected_data[] = {0x05, 0x10, 0x15}; const uint8_t new_expected_data[] = {0x25, 0x30}; struct bt_audio_codec_cfg codec_cfg = BT_AUDIO_CODEC_CFG( BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_CCID_LIST, 0x05, 0x10, 0x15)}); const uint8_t *ccid_list; int ret; ret = bt_audio_codec_cfg_meta_get_ccid_list(&codec_cfg, &ccid_list); zassert_equal(ret, ARRAY_SIZE(expected_data), "Unexpected return value %d", ret); zassert_mem_equal(expected_data, ccid_list, ARRAY_SIZE(expected_data)); ret = bt_audio_codec_cfg_meta_set_ccid_list(&codec_cfg, new_expected_data, ARRAY_SIZE(new_expected_data)); zassert_true(ret > 0, "Unexpected return value %d", ret); ret = bt_audio_codec_cfg_meta_get_ccid_list(&codec_cfg, &ccid_list); zassert_equal(ret, ARRAY_SIZE(new_expected_data), "Unexpected return value %d", ret); zassert_mem_equal(new_expected_data, ccid_list, ARRAY_SIZE(new_expected_data)); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_meta_set_ccid_list_longer) { const uint8_t expected_data[] = {0x05, 0x10, 0x15}; const uint8_t new_expected_data[] = {0x25, 0x30, 0x35, 0x40}; struct bt_audio_codec_cfg codec_cfg = BT_AUDIO_CODEC_CFG( BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_CCID_LIST, 0x05, 0x10, 0x15)}); const uint8_t *ccid_list; int ret; ret = bt_audio_codec_cfg_meta_get_ccid_list(&codec_cfg, &ccid_list); zassert_equal(ret, ARRAY_SIZE(expected_data), "Unexpected return value %d", ret); zassert_mem_equal(expected_data, ccid_list, ARRAY_SIZE(expected_data)); ret = bt_audio_codec_cfg_meta_set_ccid_list(&codec_cfg, new_expected_data, ARRAY_SIZE(new_expected_data)); zassert_true(ret > 0, "Unexpected return value %d", ret); ret = bt_audio_codec_cfg_meta_get_ccid_list(&codec_cfg, &ccid_list); zassert_equal(ret, ARRAY_SIZE(new_expected_data), "Unexpected return value %d", ret); zassert_mem_equal(new_expected_data, ccid_list, ARRAY_SIZE(new_expected_data)); } /* Providing multiple BT_AUDIO_CODEC_DATA to BT_AUDIO_CODEC_CFG without packing it in a macro * cause compile issue, so define a macro to denote 2 types of data for the ccid_list_first tests */ #define DOUBLE_CFG_DATA \ { \ BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_CCID_LIST, 0x05, 0x10, 0x15), \ BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_PARENTAL_RATING, \ BT_AUDIO_PARENTAL_RATING_AGE_10_OR_ABOVE) \ } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_meta_set_ccid_list_first_shorter) { const uint8_t expected_data[] = {0x05, 0x10, 0x15}; const uint8_t new_expected_data[] = {0x25, 0x30}; struct bt_audio_codec_cfg codec_cfg = BT_AUDIO_CODEC_CFG(BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, DOUBLE_CFG_DATA); const uint8_t *ccid_list; int ret; ret = bt_audio_codec_cfg_meta_get_ccid_list(&codec_cfg, &ccid_list); zassert_equal(ret, ARRAY_SIZE(expected_data), "Unexpected return value %d", ret); zassert_mem_equal(expected_data, ccid_list, ARRAY_SIZE(expected_data)); ret = bt_audio_codec_cfg_meta_get_parental_rating(&codec_cfg); zassert_equal(ret, 0x07, "Unexpected return value %d", ret); ret = bt_audio_codec_cfg_meta_set_ccid_list(&codec_cfg, new_expected_data, ARRAY_SIZE(new_expected_data)); zassert_true(ret > 0, "Unexpected return value %d", ret); ret = bt_audio_codec_cfg_meta_get_ccid_list(&codec_cfg, &ccid_list); zassert_equal(ret, ARRAY_SIZE(new_expected_data), "Unexpected return value %d", ret); zassert_mem_equal(new_expected_data, ccid_list, ARRAY_SIZE(new_expected_data)); ret = bt_audio_codec_cfg_meta_get_parental_rating(&codec_cfg); zassert_equal(ret, 0x07, "Unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_meta_set_ccid_list_first_longer) { const uint8_t expected_data[] = {0x05, 0x10, 0x15}; const uint8_t new_expected_data[] = {0x25, 0x30, 0x35, 0x40}; struct bt_audio_codec_cfg codec_cfg = BT_AUDIO_CODEC_CFG(BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, DOUBLE_CFG_DATA); const uint8_t *ccid_list; int ret; ret = bt_audio_codec_cfg_meta_get_ccid_list(&codec_cfg, &ccid_list); zassert_equal(ret, ARRAY_SIZE(expected_data), "Unexpected return value %d", ret); zassert_mem_equal(expected_data, ccid_list, ARRAY_SIZE(expected_data)); ret = bt_audio_codec_cfg_meta_get_parental_rating(&codec_cfg); zassert_equal(ret, 0x07, "Unexpected return value %d", ret); ret = bt_audio_codec_cfg_meta_set_ccid_list(&codec_cfg, new_expected_data, ARRAY_SIZE(new_expected_data)); zassert_true(ret > 0, "Unexpected return value %d", ret); ret = bt_audio_codec_cfg_meta_get_ccid_list(&codec_cfg, &ccid_list); zassert_equal(ret, ARRAY_SIZE(new_expected_data), "Unexpected return value %d", ret); zassert_mem_equal(new_expected_data, ccid_list, ARRAY_SIZE(new_expected_data)); ret = bt_audio_codec_cfg_meta_get_parental_rating(&codec_cfg); zassert_equal(ret, 0x07, "Unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_meta_get_parental_rating) { const struct bt_audio_codec_cfg codec_cfg = BT_AUDIO_CODEC_CFG(BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_PARENTAL_RATING, BT_AUDIO_PARENTAL_RATING_AGE_10_OR_ABOVE)}); int ret; ret = bt_audio_codec_cfg_meta_get_parental_rating(&codec_cfg); zassert_equal(ret, 0x07, "Unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_meta_set_parental_rating) { struct bt_audio_codec_cfg codec_cfg = BT_AUDIO_CODEC_CFG(BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_PARENTAL_RATING, BT_AUDIO_PARENTAL_RATING_AGE_10_OR_ABOVE)}); int ret; ret = bt_audio_codec_cfg_meta_get_parental_rating(&codec_cfg); zassert_equal(ret, 0x07, "Unexpected return value %d", ret); ret = bt_audio_codec_cfg_meta_set_parental_rating(&codec_cfg, BT_AUDIO_PARENTAL_RATING_AGE_13_OR_ABOVE); zassert_true(ret > 0, "Unexpected return value %d", ret); ret = bt_audio_codec_cfg_meta_get_parental_rating(&codec_cfg); zassert_equal(ret, 0x0a, "Unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_meta_get_program_info_uri) { const uint8_t expected_data[] = {'e', 'x', 'a', 'm', 'p', 'l', 'e', '.', 'c', 'o', 'm'}; const struct bt_audio_codec_cfg codec_cfg = BT_AUDIO_CODEC_CFG( BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_PROGRAM_INFO_URI, 'e', 'x', 'a', 'm', 'p', 'l', 'e', '.', 'c', 'o', 'm')}); const uint8_t *program_info_uri; int ret; ret = bt_audio_codec_cfg_meta_get_program_info_uri(&codec_cfg, &program_info_uri); zassert_equal(ret, ARRAY_SIZE(expected_data), "Unexpected return value %d", ret); zassert_mem_equal(expected_data, program_info_uri, ARRAY_SIZE(expected_data)); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_meta_set_program_info_uri) { const uint8_t expected_data[] = {'e', 'x', 'a', 'm', 'p', 'l', 'e', '.', 'c', 'o', 'm'}; const uint8_t new_expected_data[] = {'n', 'e', 'w', '.', 'c', 'o', 'm'}; struct bt_audio_codec_cfg codec_cfg = BT_AUDIO_CODEC_CFG( BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_PROGRAM_INFO_URI, 'e', 'x', 'a', 'm', 'p', 'l', 'e', '.', 'c', 'o', 'm')}); const uint8_t *program_info_uri; int ret; ret = bt_audio_codec_cfg_meta_get_program_info_uri(&codec_cfg, &program_info_uri); zassert_equal(ret, ARRAY_SIZE(expected_data), "Unexpected return value %d", ret); zassert_mem_equal(expected_data, program_info_uri, ARRAY_SIZE(expected_data)); ret = bt_audio_codec_cfg_meta_set_program_info_uri(&codec_cfg, new_expected_data, ARRAY_SIZE(new_expected_data)); zassert_true(ret > 0, "Unexpected return value %d", ret); ret = bt_audio_codec_cfg_meta_get_program_info_uri(&codec_cfg, &program_info_uri); zassert_equal(ret, ARRAY_SIZE(new_expected_data), "Unexpected return value %d", ret); zassert_mem_equal(new_expected_data, program_info_uri, ARRAY_SIZE(new_expected_data)); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_meta_get_audio_active_state) { const struct bt_audio_codec_cfg codec_cfg = BT_AUDIO_CODEC_CFG(BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_AUDIO_STATE, BT_AUDIO_ACTIVE_STATE_ENABLED)}); int ret; ret = bt_audio_codec_cfg_meta_get_audio_active_state(&codec_cfg); zassert_equal(ret, 0x01, "Unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_meta_set_audio_active_state) { struct bt_audio_codec_cfg codec_cfg = BT_AUDIO_CODEC_CFG(BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_AUDIO_STATE, BT_AUDIO_ACTIVE_STATE_ENABLED)}); int ret; ret = bt_audio_codec_cfg_meta_get_audio_active_state(&codec_cfg); zassert_equal(ret, 0x01, "Unexpected return value %d", ret); ret = bt_audio_codec_cfg_meta_set_audio_active_state(&codec_cfg, BT_AUDIO_ACTIVE_STATE_DISABLED); zassert_true(ret > 0, "Unexpected return value %d", ret); ret = bt_audio_codec_cfg_meta_get_audio_active_state(&codec_cfg); zassert_equal(ret, 0x00, "Unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_meta_get_bcast_audio_immediate_rend_flag) { const struct bt_audio_codec_cfg codec_cfg = BT_AUDIO_CODEC_CFG( BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_BROADCAST_IMMEDIATE)}); int ret; ret = bt_audio_codec_cfg_meta_get_bcast_audio_immediate_rend_flag(&codec_cfg); zassert_equal(ret, 0, "Unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_meta_set_bcast_audio_immediate_rend_flag) { struct bt_audio_codec_cfg codec_cfg = BT_AUDIO_CODEC_CFG(BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {}); int ret; ret = bt_audio_codec_cfg_meta_get_bcast_audio_immediate_rend_flag(&codec_cfg); zassert_equal(ret, -ENODATA, "Unexpected return value %d", ret); ret = bt_audio_codec_cfg_meta_set_bcast_audio_immediate_rend_flag(&codec_cfg); zassert_true(ret > 0, "Unexpected return value %d", ret); ret = bt_audio_codec_cfg_meta_get_bcast_audio_immediate_rend_flag(&codec_cfg); zassert_equal(ret, 0, "Unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_meta_get_assisted_listening_stream) { const struct bt_audio_codec_cfg codec_cfg = BT_AUDIO_CODEC_CFG( BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_ASSISTED_LISTENING_STREAM, BT_AUDIO_ASSISTED_LISTENING_STREAM_UNSPECIFIED)}); int ret; ret = bt_audio_codec_cfg_meta_get_assisted_listening_stream(&codec_cfg); zassert_equal(ret, 0x00, "Unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_meta_set_assisted_listening_stream) { struct bt_audio_codec_cfg codec_cfg = BT_AUDIO_CODEC_CFG(BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {}); int ret; ret = bt_audio_codec_cfg_meta_get_assisted_listening_stream(&codec_cfg); zassert_equal(ret, -ENODATA, "Unexpected return value %d", ret); ret = bt_audio_codec_cfg_meta_set_assisted_listening_stream( &codec_cfg, BT_AUDIO_ASSISTED_LISTENING_STREAM_UNSPECIFIED); zassert_true(ret > 0, "Unexpected return value %d", ret); ret = bt_audio_codec_cfg_meta_get_assisted_listening_stream(&codec_cfg); zassert_equal(ret, 0x00, "Unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_meta_get_broadcast_name) { const uint8_t expected_data[] = {'m', 'y', ' ', 'b', 'c', 'a', 's', 't'}; const struct bt_audio_codec_cfg codec_cfg = BT_AUDIO_CODEC_CFG(BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_BROADCAST_NAME, 'm', 'y', ' ', 'b', 'c', 'a', 's', 't')}); const uint8_t *broadcast_name; int ret; ret = bt_audio_codec_cfg_meta_get_broadcast_name(&codec_cfg, &broadcast_name); zassert_equal(ret, ARRAY_SIZE(expected_data), "Unexpected return value %d", ret); zassert_mem_equal(expected_data, broadcast_name, ARRAY_SIZE(expected_data)); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_meta_set_broadcast_name) { const uint8_t expected_data[] = {'m', 'y', ' ', 'b', 'c', 'a', 's', 't'}; const uint8_t new_expected_data[] = {'n', 'e', 'w', ' ', 'b', 'c', 'a', 's', 't'}; struct bt_audio_codec_cfg codec_cfg = BT_AUDIO_CODEC_CFG(BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_BROADCAST_NAME, 'm', 'y', ' ', 'b', 'c', 'a', 's', 't')}); const uint8_t *broadcast_name; int ret; ret = bt_audio_codec_cfg_meta_get_broadcast_name(&codec_cfg, &broadcast_name); zassert_equal(ret, ARRAY_SIZE(expected_data), "Unexpected return value %d", ret); zassert_mem_equal(expected_data, broadcast_name, ARRAY_SIZE(expected_data)); ret = bt_audio_codec_cfg_meta_set_broadcast_name(&codec_cfg, new_expected_data, ARRAY_SIZE(new_expected_data)); zassert_true(ret > 0, "Unexpected return value %d", ret); ret = bt_audio_codec_cfg_meta_get_broadcast_name(&codec_cfg, &broadcast_name); zassert_equal(ret, ARRAY_SIZE(new_expected_data), "Unexpected return value %d", ret); zassert_mem_equal(new_expected_data, broadcast_name, ARRAY_SIZE(new_expected_data)); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_meta_get_extended) { const uint8_t expected_data[] = {0x00, 0x01, 0x02, 0x03}; const struct bt_audio_codec_cfg codec_cfg = BT_AUDIO_CODEC_CFG( BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_EXTENDED, 0x00, 0x01, 0x02, 0x03)}); const uint8_t *extended_meta; int ret; ret = bt_audio_codec_cfg_meta_get_extended(&codec_cfg, &extended_meta); zassert_equal(ret, ARRAY_SIZE(expected_data), "Unexpected return value %d", ret); zassert_mem_equal(expected_data, extended_meta, ARRAY_SIZE(expected_data)); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_meta_set_extended) { const uint8_t expected_data[] = {0x00, 0x01, 0x02, 0x03}; const uint8_t new_expected_data[] = {0x04, 0x05}; struct bt_audio_codec_cfg codec_cfg = BT_AUDIO_CODEC_CFG( BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_EXTENDED, 0x00, 0x01, 0x02, 0x03)}); const uint8_t *extended_meta; int ret; ret = bt_audio_codec_cfg_meta_get_extended(&codec_cfg, &extended_meta); zassert_equal(ret, ARRAY_SIZE(expected_data), "Unexpected return value %d", ret); zassert_mem_equal(expected_data, extended_meta, ARRAY_SIZE(expected_data)); ret = bt_audio_codec_cfg_meta_set_extended(&codec_cfg, new_expected_data, ARRAY_SIZE(new_expected_data)); zassert_true(ret > 0, "Unexpected return value %d", ret); ret = bt_audio_codec_cfg_meta_get_extended(&codec_cfg, &extended_meta); zassert_equal(ret, ARRAY_SIZE(new_expected_data), "Unexpected return value %d", ret); zassert_mem_equal(new_expected_data, extended_meta, ARRAY_SIZE(new_expected_data)); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_meta_get_vendor) { const uint8_t expected_data[] = {0x00, 0x01, 0x02, 0x03}; const struct bt_audio_codec_cfg codec_cfg = BT_AUDIO_CODEC_CFG( BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_VENDOR, 0x00, 0x01, 0x02, 0x03)}); const uint8_t *vendor_meta; int ret; ret = bt_audio_codec_cfg_meta_get_vendor(&codec_cfg, &vendor_meta); zassert_equal(ret, ARRAY_SIZE(expected_data), "Unexpected return value %d", ret); zassert_mem_equal(expected_data, vendor_meta, ARRAY_SIZE(expected_data)); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cfg_meta_set_vendor) { const uint8_t expected_data[] = {0x00, 0x01, 0x02, 0x03}; const uint8_t new_expected_data[] = {0x04, 0x05, 0x06, 0x07, 0x08}; struct bt_audio_codec_cfg codec_cfg = BT_AUDIO_CODEC_CFG( BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_VENDOR, 0x00, 0x01, 0x02, 0x03)}); const uint8_t *extended_meta; int ret; ret = bt_audio_codec_cfg_meta_get_vendor(&codec_cfg, &extended_meta); zassert_equal(ret, ARRAY_SIZE(expected_data), "Unexpected return value %d", ret); zassert_mem_equal(expected_data, extended_meta, ARRAY_SIZE(expected_data)); ret = bt_audio_codec_cfg_meta_set_vendor(&codec_cfg, new_expected_data, ARRAY_SIZE(new_expected_data)); zassert_true(ret > 0, "Unexpected return value %d", ret); ret = bt_audio_codec_cfg_meta_get_vendor(&codec_cfg, &extended_meta); zassert_equal(ret, ARRAY_SIZE(new_expected_data), "Unexpected return value %d", ret); zassert_mem_equal(new_expected_data, extended_meta, ARRAY_SIZE(new_expected_data)); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_get_val) { struct bt_audio_codec_cap codec_cap = BT_AUDIO_CODEC_CAP(BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {BT_AUDIO_CODEC_DATA(BT_AUDIO_CODEC_CFG_FREQ, BT_AUDIO_CODEC_CFG_FREQ_16KHZ)}, {}); const uint8_t expected_data = BT_AUDIO_CODEC_CFG_FREQ_16KHZ; const uint8_t *data; int ret; ret = bt_audio_codec_cap_get_val(&codec_cap, BT_AUDIO_CODEC_CAP_TYPE_FREQ, &data); zassert_equal(ret, sizeof(expected_data), "Unexpected return value %d", ret); zassert_equal(data[0], expected_data, "Unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_set_val) { struct bt_audio_codec_cap codec_cap = BT_AUDIO_CODEC_CAP(BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {BT_AUDIO_CODEC_DATA(BT_AUDIO_CODEC_CFG_FREQ, BT_AUDIO_CODEC_CFG_FREQ_16KHZ)}, {}); const uint8_t new_expected_data = BT_AUDIO_CODEC_CFG_FREQ_48KHZ; const uint8_t expected_data = BT_AUDIO_CODEC_CFG_FREQ_16KHZ; const uint8_t *data; int ret; ret = bt_audio_codec_cap_get_val(&codec_cap, BT_AUDIO_CODEC_CAP_TYPE_FREQ, &data); zassert_equal(ret, sizeof(expected_data), "Unexpected return value %d", ret); zassert_equal(data[0], expected_data, "Unexpected return value %d", ret); ret = bt_audio_codec_cap_set_val(&codec_cap, BT_AUDIO_CODEC_CAP_TYPE_FREQ, &new_expected_data, sizeof(new_expected_data)); zassert_true(ret > 0, "Unexpected return value %d", ret); ret = bt_audio_codec_cap_get_val(&codec_cap, BT_AUDIO_CODEC_CAP_TYPE_FREQ, &data); zassert_equal(ret, sizeof(new_expected_data), "Unexpected return value %d", ret); zassert_equal(data[0], new_expected_data, "Unexpected data value %u", data[0]); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_set_val_new) { struct bt_audio_codec_cap codec_cap = BT_AUDIO_CODEC_CAP(BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {}); const uint8_t new_expected_data = BT_AUDIO_CODEC_CFG_FREQ_48KHZ; const uint8_t *data; int ret; ret = bt_audio_codec_cap_get_val(&codec_cap, BT_AUDIO_CODEC_CAP_TYPE_FREQ, &data); zassert_equal(ret, -ENODATA, "Unexpected return value %d", ret); ret = bt_audio_codec_cap_set_val(&codec_cap, BT_AUDIO_CODEC_CAP_TYPE_FREQ, &new_expected_data, sizeof(new_expected_data)); zassert_true(ret > 0, "Unexpected return value %d", ret); ret = bt_audio_codec_cap_get_val(&codec_cap, BT_AUDIO_CODEC_CAP_TYPE_FREQ, &data); zassert_equal(ret, sizeof(new_expected_data), "Unexpected return value %d", ret); zassert_equal(data[0], new_expected_data, "Unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_unset_val) { struct bt_audio_codec_cap codec_cap = BT_AUDIO_CODEC_CAP( BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {BT_AUDIO_CODEC_DATA(BT_AUDIO_CODEC_CAP_TYPE_FREQ, BT_AUDIO_CODEC_CAP_FREQ_16KHZ)}, {}); const uint8_t expected_data = BT_AUDIO_CODEC_CAP_FREQ_16KHZ; const uint8_t *data; int ret; ret = bt_audio_codec_cap_get_val(&codec_cap, BT_AUDIO_CODEC_CAP_TYPE_FREQ, &data); zassert_equal(ret, sizeof(expected_data), "Unexpected return value %d", ret); zassert_equal(data[0], expected_data, "Unexpected return value %d", ret); ret = bt_audio_codec_cap_unset_val(&codec_cap, BT_AUDIO_CODEC_CAP_TYPE_FREQ); zassert_true(ret >= 0, "Unexpected return value %d", ret); ret = bt_audio_codec_cap_get_val(&codec_cap, BT_AUDIO_CODEC_CAP_TYPE_FREQ, &data); zassert_equal(ret, -ENODATA, "Unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_get_freq) { const struct bt_audio_codec_cap codec_cap = BT_AUDIO_CODEC_CAP_LC3( BT_AUDIO_CODEC_CAP_FREQ_16KHZ, BT_AUDIO_CODEC_CAP_DURATION_10, BT_AUDIO_CODEC_CAP_CHAN_COUNT_SUPPORT(1), 40U, 120U, 2U, (BT_AUDIO_CONTEXT_TYPE_CONVERSATIONAL | BT_AUDIO_CONTEXT_TYPE_MEDIA)); int ret; ret = bt_audio_codec_cap_get_freq(&codec_cap); zassert_equal(ret, 4, "Unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_set_freq) { struct bt_audio_codec_cap codec_cap = BT_AUDIO_CODEC_CAP_LC3( BT_AUDIO_CODEC_CAP_FREQ_16KHZ, BT_AUDIO_CODEC_CAP_DURATION_10, BT_AUDIO_CODEC_CAP_CHAN_COUNT_SUPPORT(1), 40U, 120U, 2U, (BT_AUDIO_CONTEXT_TYPE_CONVERSATIONAL | BT_AUDIO_CONTEXT_TYPE_MEDIA)); int ret; ret = bt_audio_codec_cap_get_freq(&codec_cap); zassert_equal(ret, 4, "Unexpected return value %d", ret); ret = bt_audio_codec_cap_set_freq(&codec_cap, BT_AUDIO_CODEC_CAP_FREQ_22KHZ); zassert_true(ret > 0, "Unexpected return value %d", ret); ret = bt_audio_codec_cap_get_freq(&codec_cap); zassert_equal(ret, 8, "Unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_get_frame_dur) { const struct bt_audio_codec_cap codec_cap = BT_AUDIO_CODEC_CAP_LC3( BT_AUDIO_CODEC_CAP_FREQ_16KHZ, BT_AUDIO_CODEC_CAP_DURATION_10, BT_AUDIO_CODEC_CAP_CHAN_COUNT_SUPPORT(1), 40U, 120U, 2U, (BT_AUDIO_CONTEXT_TYPE_CONVERSATIONAL | BT_AUDIO_CONTEXT_TYPE_MEDIA)); int ret; ret = bt_audio_codec_cap_get_frame_dur(&codec_cap); zassert_equal(ret, 2, "Unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_set_frame_dur) { struct bt_audio_codec_cap codec_cap = BT_AUDIO_CODEC_CAP_LC3( BT_AUDIO_CODEC_CAP_FREQ_16KHZ, BT_AUDIO_CODEC_CAP_DURATION_10, BT_AUDIO_CODEC_CAP_CHAN_COUNT_SUPPORT(1), 40U, 120U, 2U, (BT_AUDIO_CONTEXT_TYPE_CONVERSATIONAL | BT_AUDIO_CONTEXT_TYPE_MEDIA)); int ret; ret = bt_audio_codec_cap_get_frame_dur(&codec_cap); zassert_equal(ret, 2, "Unexpected return value %d", ret); ret = bt_audio_codec_cap_set_frame_dur(&codec_cap, BT_AUDIO_CODEC_CAP_DURATION_7_5); zassert_true(ret > 0, "Unexpected return value %d", ret); ret = bt_audio_codec_cap_get_frame_dur(&codec_cap); zassert_equal(ret, 1, "Unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_get_supported_audio_chan_counts) { const struct bt_audio_codec_cap codec_cap = BT_AUDIO_CODEC_CAP_LC3( BT_AUDIO_CODEC_CAP_FREQ_16KHZ, BT_AUDIO_CODEC_CAP_DURATION_10, BT_AUDIO_CODEC_CAP_CHAN_COUNT_SUPPORT(2), 40U, 120U, 2U, (BT_AUDIO_CONTEXT_TYPE_CONVERSATIONAL | BT_AUDIO_CONTEXT_TYPE_MEDIA)); int ret; ret = bt_audio_codec_cap_get_supported_audio_chan_counts(&codec_cap, false); zassert_equal(ret, 2, "Unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_get_supported_audio_chan_counts_lc3_fallback_true) { struct bt_audio_codec_cap codec_cap = {.id = BT_HCI_CODING_FORMAT_LC3}; int err; err = bt_audio_codec_cap_get_supported_audio_chan_counts(&codec_cap, true); zassert_equal(err, 1, "unexpected error %d", err); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_get_supported_audio_chan_counts_lc3_fallback_false) { struct bt_audio_codec_cap codec_cap = {.id = BT_HCI_CODING_FORMAT_LC3}; int err; err = bt_audio_codec_cap_get_supported_audio_chan_counts(&codec_cap, false); zassert_equal(err, -ENODATA, "unexpected error %d", err); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_get_supported_audio_chan_counts_fallback_true) { struct bt_audio_codec_cap codec_cap = {0}; int err; err = bt_audio_codec_cap_get_supported_audio_chan_counts(&codec_cap, true); zassert_equal(err, -ENODATA, "unexpected error %d", err); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_get_supported_audio_chan_counts_fallback_false) { struct bt_audio_codec_cap codec_cap = {0}; int err; err = bt_audio_codec_cap_get_supported_audio_chan_counts(&codec_cap, true); zassert_equal(err, -ENODATA, "unexpected error %d", err); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_set_supported_audio_chan_counts) { struct bt_audio_codec_cap codec_cap = BT_AUDIO_CODEC_CAP_LC3( BT_AUDIO_CODEC_CAP_FREQ_16KHZ, BT_AUDIO_CODEC_CAP_DURATION_10, BT_AUDIO_CODEC_CAP_CHAN_COUNT_SUPPORT(1), 40U, 120U, 2U, (BT_AUDIO_CONTEXT_TYPE_CONVERSATIONAL | BT_AUDIO_CONTEXT_TYPE_MEDIA)); int ret; ret = bt_audio_codec_cap_get_supported_audio_chan_counts(&codec_cap, false); zassert_equal(ret, 1, "Unexpected return value %d", ret); ret = bt_audio_codec_cap_set_supported_audio_chan_counts( &codec_cap, BT_AUDIO_CODEC_CAP_CHAN_COUNT_SUPPORT(2)); zassert_true(ret > 0, "Unexpected return value %d", ret); ret = bt_audio_codec_cap_get_supported_audio_chan_counts(&codec_cap, false); zassert_equal(ret, 2, "Unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_get_octets_per_frame) { struct bt_audio_codec_octets_per_codec_frame expected = { .min = 40U, .max = 120U, }; const struct bt_audio_codec_cap codec_cap = BT_AUDIO_CODEC_CAP_LC3( BT_AUDIO_CODEC_CAP_FREQ_16KHZ, BT_AUDIO_CODEC_CAP_DURATION_10, BT_AUDIO_CODEC_CAP_CHAN_COUNT_SUPPORT(1), 40U, 120U, 2U, (BT_AUDIO_CONTEXT_TYPE_CONVERSATIONAL | BT_AUDIO_CONTEXT_TYPE_MEDIA)); struct bt_audio_codec_octets_per_codec_frame codec_frame; int ret; ret = bt_audio_codec_cap_get_octets_per_frame(&codec_cap, &codec_frame); zassert_equal(ret, 0, "Unexpected return value %d", ret); zassert_equal(codec_frame.min, expected.min, "Unexpected minimum value %d", codec_frame.min); zassert_equal(codec_frame.max, expected.max, "Unexpected maximum value %d", codec_frame.max); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_set_octets_per_frame) { struct bt_audio_codec_cap codec_cap = BT_AUDIO_CODEC_CAP_LC3( BT_AUDIO_CODEC_CAP_FREQ_16KHZ, BT_AUDIO_CODEC_CAP_DURATION_10, BT_AUDIO_CODEC_CAP_CHAN_COUNT_SUPPORT(1), 40U, 120U, 2U, (BT_AUDIO_CONTEXT_TYPE_CONVERSATIONAL | BT_AUDIO_CONTEXT_TYPE_MEDIA)); struct bt_audio_codec_octets_per_codec_frame codec_frame; int ret; ret = bt_audio_codec_cap_get_octets_per_frame(&codec_cap, &codec_frame); zassert_equal(ret, 0, "Unexpected return value %d", ret); zassert_equal(codec_frame.min, 40U, "Unexpected minimum value %d", codec_frame.min); zassert_equal(codec_frame.max, 120U, "Unexpected maximum value %d", codec_frame.max); codec_frame.min = 50U; codec_frame.max = 100U; ret = bt_audio_codec_cap_set_octets_per_frame(&codec_cap, &codec_frame); zassert_true(ret > 0, "Unexpected return value %d", ret); ret = bt_audio_codec_cap_get_octets_per_frame(&codec_cap, &codec_frame); zassert_equal(ret, 0, "Unexpected return value %d", ret); zassert_equal(codec_frame.min, 50U, "Unexpected minimum value %d", codec_frame.min); zassert_equal(codec_frame.max, 100U, "Unexpected maximum value %d", codec_frame.max); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_get_max_codec_frames_per_sdu) { const struct bt_audio_codec_cap codec_cap = BT_AUDIO_CODEC_CAP_LC3( BT_AUDIO_CODEC_CAP_FREQ_16KHZ, BT_AUDIO_CODEC_CAP_DURATION_10, BT_AUDIO_CODEC_CAP_CHAN_COUNT_SUPPORT(1), 40U, 120U, 2U, (BT_AUDIO_CONTEXT_TYPE_CONVERSATIONAL | BT_AUDIO_CONTEXT_TYPE_MEDIA)); int ret; ret = bt_audio_codec_cap_get_max_codec_frames_per_sdu(&codec_cap, false); zassert_equal(ret, 2, "Unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_get_max_codec_frames_per_sdu_lc3_fallback_true) { struct bt_audio_codec_cap codec_cap = {.id = BT_HCI_CODING_FORMAT_LC3}; int err; err = bt_audio_codec_cap_get_max_codec_frames_per_sdu(&codec_cap, true); zassert_equal(err, 1, "unexpected error %d", err); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_get_max_codec_frames_per_sdu_lc3_fallback_false) { struct bt_audio_codec_cap codec_cap = {.id = BT_HCI_CODING_FORMAT_LC3}; int err; err = bt_audio_codec_cap_get_max_codec_frames_per_sdu(&codec_cap, false); zassert_equal(err, -ENODATA, "unexpected error %d", err); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_get_max_codec_frames_per_sdu_fallback_true) { struct bt_audio_codec_cap codec_cap = {0}; int err; err = bt_audio_codec_cap_get_max_codec_frames_per_sdu(&codec_cap, true); zassert_equal(err, -ENODATA, "unexpected error %d", err); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_get_max_codec_frames_per_sdu_fallback_false) { struct bt_audio_codec_cap codec_cap = {0}; int err; err = bt_audio_codec_cap_get_max_codec_frames_per_sdu(&codec_cap, true); zassert_equal(err, -ENODATA, "unexpected error %d", err); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_set_max_codec_frames_per_sdu) { struct bt_audio_codec_cap codec_cap = BT_AUDIO_CODEC_CAP_LC3( BT_AUDIO_CODEC_CAP_FREQ_16KHZ, BT_AUDIO_CODEC_CAP_DURATION_10, BT_AUDIO_CODEC_CAP_CHAN_COUNT_SUPPORT(1), 40U, 120U, 2U, (BT_AUDIO_CONTEXT_TYPE_CONVERSATIONAL | BT_AUDIO_CONTEXT_TYPE_MEDIA)); int ret; ret = bt_audio_codec_cap_get_max_codec_frames_per_sdu(&codec_cap, false); zassert_equal(ret, 2, "Unexpected return value %d", ret); ret = bt_audio_codec_cap_set_max_codec_frames_per_sdu(&codec_cap, 4U); zassert_true(ret > 0, "Unexpected return value %d", ret); ret = bt_audio_codec_cap_get_max_codec_frames_per_sdu(&codec_cap, false); zassert_equal(ret, 4, "Unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_meta_get_val) { struct bt_audio_codec_cap codec_cap = BT_AUDIO_CODEC_CAP(BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_PARENTAL_RATING, BT_AUDIO_PARENTAL_RATING_AGE_10_OR_ABOVE)}); const uint8_t expected_data = BT_AUDIO_PARENTAL_RATING_AGE_10_OR_ABOVE; const uint8_t *data; int ret; ret = bt_audio_codec_cap_meta_get_val(&codec_cap, BT_AUDIO_METADATA_TYPE_PARENTAL_RATING, &data); zassert_equal(ret, sizeof(expected_data), "Unexpected return value %d", ret); zassert_equal(data[0], expected_data, "Unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_meta_set_val) { struct bt_audio_codec_cap codec_cap = BT_AUDIO_CODEC_CAP(BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_PARENTAL_RATING, BT_AUDIO_PARENTAL_RATING_AGE_10_OR_ABOVE)}); const uint8_t new_expected_data = BT_AUDIO_PARENTAL_RATING_AGE_13_OR_ABOVE; const uint8_t expected_data = BT_AUDIO_PARENTAL_RATING_AGE_10_OR_ABOVE; const uint8_t *data; int ret; ret = bt_audio_codec_cap_meta_get_val(&codec_cap, BT_AUDIO_METADATA_TYPE_PARENTAL_RATING, &data); zassert_equal(ret, sizeof(expected_data), "Unexpected return value %d", ret); zassert_equal(data[0], expected_data, "Unexpected return value %d", ret); ret = bt_audio_codec_cap_meta_set_val(&codec_cap, BT_AUDIO_METADATA_TYPE_PARENTAL_RATING, &new_expected_data, sizeof(new_expected_data)); zassert_true(ret > 0, "Unexpected return value %d", ret); ret = bt_audio_codec_cap_meta_get_val(&codec_cap, BT_AUDIO_METADATA_TYPE_PARENTAL_RATING, &data); zassert_equal(ret, sizeof(new_expected_data), "Unexpected return value %d", ret); zassert_equal(data[0], new_expected_data, "Unexpected data value %u", data[0]); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_meta_set_val_new) { struct bt_audio_codec_cap codec_cap = BT_AUDIO_CODEC_CAP(BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {}); const uint8_t new_expected_data = BT_AUDIO_PARENTAL_RATING_AGE_13_OR_ABOVE; const uint8_t *data; int ret; ret = bt_audio_codec_cap_meta_get_val(&codec_cap, BT_AUDIO_METADATA_TYPE_PARENTAL_RATING, &data); zassert_equal(ret, -ENODATA, "Unexpected return value %d", ret); ret = bt_audio_codec_cap_meta_set_val(&codec_cap, BT_AUDIO_METADATA_TYPE_PARENTAL_RATING, &new_expected_data, sizeof(new_expected_data)); zassert_true(ret > 0, "Unexpected return value %d", ret); ret = bt_audio_codec_cap_meta_get_val(&codec_cap, BT_AUDIO_METADATA_TYPE_PARENTAL_RATING, &data); zassert_equal(ret, sizeof(new_expected_data), "Unexpected return value %d", ret); zassert_equal(data[0], new_expected_data, "Unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_meta_unset_val_only) { struct bt_audio_codec_cap codec_cap = BT_AUDIO_CODEC_CAP(BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_PARENTAL_RATING, BT_AUDIO_PARENTAL_RATING_AGE_10_OR_ABOVE)}); const uint8_t expected_data = BT_AUDIO_PARENTAL_RATING_AGE_10_OR_ABOVE; const uint8_t *data; int ret; ret = bt_audio_codec_cap_meta_get_val(&codec_cap, BT_AUDIO_METADATA_TYPE_PARENTAL_RATING, &data); zassert_equal(ret, sizeof(expected_data), "Unexpected return value %d", ret); zassert_equal(data[0], expected_data, "Unexpected return value %d", ret); ret = bt_audio_codec_cap_meta_unset_val(&codec_cap, BT_AUDIO_METADATA_TYPE_PARENTAL_RATING); zassert_true(ret >= 0, "Unexpected return value %d", ret); ret = bt_audio_codec_cap_meta_get_val(&codec_cap, BT_AUDIO_METADATA_TYPE_PARENTAL_RATING, &data); zassert_equal(ret, -ENODATA, "Unexpected return value %d", ret); } /* Providing multiple BT_AUDIO_CODEC_DATA to BT_AUDIO_CODEC_CAP without packing it in a macro * cause compile issue, so define a macro to denote 3 types of metadata for the meta_unset tests */ #define TRIPLE_META_DATA \ { \ BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_PARENTAL_RATING, \ BT_AUDIO_PARENTAL_RATING_AGE_10_OR_ABOVE), \ BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_PREF_CONTEXT, \ BT_BYTES_LIST_LE16(BT_AUDIO_CONTEXT_TYPE_UNSPECIFIED)), \ BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_STREAM_CONTEXT, \ BT_BYTES_LIST_LE16(BT_AUDIO_CONTEXT_TYPE_UNSPECIFIED)) \ } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_meta_unset_val_first) { struct bt_audio_codec_cap codec_cap = BT_AUDIO_CODEC_CAP(BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, TRIPLE_META_DATA); const uint8_t expected_data = BT_AUDIO_PARENTAL_RATING_AGE_10_OR_ABOVE; const uint8_t *data; int ret; ret = bt_audio_codec_cap_meta_get_val(&codec_cap, BT_AUDIO_METADATA_TYPE_PARENTAL_RATING, &data); zassert_equal(ret, sizeof(expected_data), "Unexpected return value %d", ret); zassert_equal(data[0], expected_data, "Unexpected return value %d", ret); ret = bt_audio_codec_cap_meta_unset_val(&codec_cap, BT_AUDIO_METADATA_TYPE_PARENTAL_RATING); zassert_true(ret >= 0, "Unexpected return value %d", ret); ret = bt_audio_codec_cap_meta_get_val(&codec_cap, BT_AUDIO_METADATA_TYPE_PARENTAL_RATING, &data); zassert_equal(ret, -ENODATA, "Unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_meta_unset_val_middle) { struct bt_audio_codec_cap codec_cap = BT_AUDIO_CODEC_CAP(BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, TRIPLE_META_DATA); const uint16_t expected_data = BT_AUDIO_CONTEXT_TYPE_UNSPECIFIED; const uint8_t *data; int ret; ret = bt_audio_codec_cap_meta_get_val(&codec_cap, BT_AUDIO_METADATA_TYPE_PREF_CONTEXT, &data); zassert_equal(ret, sizeof(expected_data), "Unexpected return value %d", ret); zassert_equal(sys_get_le16(data), expected_data, "Unexpected return value %d", ret); ret = bt_audio_codec_cap_meta_unset_val(&codec_cap, BT_AUDIO_METADATA_TYPE_PREF_CONTEXT); zassert_true(ret >= 0, "Unexpected return value %d", ret); ret = bt_audio_codec_cap_meta_get_val(&codec_cap, BT_AUDIO_METADATA_TYPE_PREF_CONTEXT, &data); zassert_equal(ret, -ENODATA, "Unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_meta_unset_val_last) { struct bt_audio_codec_cap codec_cap = BT_AUDIO_CODEC_CAP(BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, TRIPLE_META_DATA); const uint16_t expected_data = BT_AUDIO_CONTEXT_TYPE_UNSPECIFIED; const uint8_t *data; int ret; ret = bt_audio_codec_cap_meta_get_val(&codec_cap, BT_AUDIO_METADATA_TYPE_STREAM_CONTEXT, &data); zassert_equal(ret, sizeof(expected_data), "Unexpected return value %d", ret); zassert_equal(sys_get_le16(data), expected_data, "Unexpected return value %d", ret); ret = bt_audio_codec_cap_meta_unset_val(&codec_cap, BT_AUDIO_METADATA_TYPE_STREAM_CONTEXT); zassert_true(ret >= 0, "Unexpected return value %d", ret); ret = bt_audio_codec_cap_meta_get_val(&codec_cap, BT_AUDIO_METADATA_TYPE_STREAM_CONTEXT, &data); zassert_equal(ret, -ENODATA, "Unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_meta_get_pref_context) { const enum bt_audio_context ctx = BT_AUDIO_CONTEXT_TYPE_UNSPECIFIED | BT_AUDIO_CONTEXT_TYPE_MEDIA; const struct bt_audio_codec_cap codec_cap = BT_AUDIO_CODEC_CAP(BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_PREF_CONTEXT, BT_BYTES_LIST_LE16(ctx))}); int ret; ret = bt_audio_codec_cap_meta_get_pref_context(&codec_cap); zassert_equal(ret, 0x0005, "unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_meta_set_pref_context) { const enum bt_audio_context ctx = BT_AUDIO_CONTEXT_TYPE_UNSPECIFIED | BT_AUDIO_CONTEXT_TYPE_MEDIA; const enum bt_audio_context new_ctx = BT_AUDIO_CONTEXT_TYPE_NOTIFICATIONS; struct bt_audio_codec_cap codec_cap = BT_AUDIO_CODEC_CAP(BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_PREF_CONTEXT, BT_BYTES_LIST_LE16(ctx))}); int ret; ret = bt_audio_codec_cap_meta_get_pref_context(&codec_cap); zassert_equal(ret, 0x0005, "Unexpected return value %d", ret); ret = bt_audio_codec_cap_meta_set_pref_context(&codec_cap, new_ctx); zassert_true(ret > 0, "Unexpected return value %d", ret); ret = bt_audio_codec_cap_meta_get_pref_context(&codec_cap); zassert_equal(ret, 0x0100, "Unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_meta_get_stream_context) { const enum bt_audio_context ctx = BT_AUDIO_CONTEXT_TYPE_UNSPECIFIED | BT_AUDIO_CONTEXT_TYPE_MEDIA; const struct bt_audio_codec_cap codec_cap = BT_AUDIO_CODEC_CAP(BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_STREAM_CONTEXT, BT_BYTES_LIST_LE16(ctx))}); int ret; ret = bt_audio_codec_cap_meta_get_stream_context(&codec_cap); zassert_equal(ret, 0x0005, "unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_meta_set_stream_context) { enum bt_audio_context ctx = BT_AUDIO_CONTEXT_TYPE_UNSPECIFIED | BT_AUDIO_CONTEXT_TYPE_MEDIA; struct bt_audio_codec_cap codec_cap = BT_AUDIO_CODEC_CAP(BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_STREAM_CONTEXT, BT_BYTES_LIST_LE16(ctx))}); int ret; ret = bt_audio_codec_cap_meta_get_stream_context(&codec_cap); zassert_equal(ret, 0x0005, "Unexpected return value %d", ret); ctx = BT_AUDIO_CONTEXT_TYPE_NOTIFICATIONS; ret = bt_audio_codec_cap_meta_set_stream_context(&codec_cap, ctx); zassert_true(ret > 0, "Unexpected return value %d", ret); ret = bt_audio_codec_cap_meta_get_stream_context(&codec_cap); zassert_equal(ret, 0x0100, "Unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_meta_get_program_info) { const uint8_t expected_data[] = {'P', 'r', 'o', 'g', 'r', 'a', 'm', ' ', 'I', 'n', 'f', 'o'}; const struct bt_audio_codec_cap codec_cap = BT_AUDIO_CODEC_CAP( BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_PROGRAM_INFO, 'P', 'r', 'o', 'g', 'r', 'a', 'm', ' ', 'I', 'n', 'f', 'o')}); const uint8_t *program_data; int ret; ret = bt_audio_codec_cap_meta_get_program_info(&codec_cap, &program_data); zassert_equal(ret, ARRAY_SIZE(expected_data), "Unexpected return value %d", ret); zassert_mem_equal(expected_data, program_data, ARRAY_SIZE(expected_data)); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_meta_set_program_info) { const uint8_t expected_data[] = {'P', 'r', 'o', 'g', 'r', 'a', 'm', ' ', 'I', 'n', 'f', 'o'}; const uint8_t new_expected_data[] = {'N', 'e', 'w', ' ', 'i', 'n', 'f', 'o'}; struct bt_audio_codec_cap codec_cap = BT_AUDIO_CODEC_CAP( BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_PROGRAM_INFO, 'P', 'r', 'o', 'g', 'r', 'a', 'm', ' ', 'I', 'n', 'f', 'o')}); const uint8_t *program_data; int ret; ret = bt_audio_codec_cap_meta_get_program_info(&codec_cap, &program_data); zassert_equal(ret, ARRAY_SIZE(expected_data), "Unexpected return value %d", ret); zassert_mem_equal(expected_data, program_data, ARRAY_SIZE(expected_data)); ret = bt_audio_codec_cap_meta_set_program_info(&codec_cap, new_expected_data, ARRAY_SIZE(new_expected_data)); zassert_true(ret > 0, "Unexpected return value %d", ret); ret = bt_audio_codec_cap_meta_get_program_info(&codec_cap, &program_data); zassert_equal(ret, ARRAY_SIZE(new_expected_data), "Unexpected return value %d", ret); zassert_mem_equal(new_expected_data, program_data, ARRAY_SIZE(new_expected_data)); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_meta_get_lang) { const struct bt_audio_codec_cap codec_cap = BT_AUDIO_CODEC_CAP( BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_LANG, 'e', 'n', 'g')}); char expected_data[] = "eng"; const uint8_t *lang; int ret; ret = bt_audio_codec_cap_meta_get_lang(&codec_cap, &lang); zassert_equal(ret, 0, "Unexpected return value %d", ret); zassert_mem_equal(expected_data, lang, BT_AUDIO_LANG_SIZE); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_meta_set_lang) { struct bt_audio_codec_cap codec_cap = BT_AUDIO_CODEC_CAP( BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_LANG, 'e', 'n', 'g')}); const uint8_t new_expected_data[] = "deu"; char expected_data[] = "eng"; const uint8_t *lang; int ret; ret = bt_audio_codec_cap_meta_get_lang(&codec_cap, &lang); zassert_equal(ret, 0, "Unexpected return value %d", ret); zassert_mem_equal(expected_data, lang, BT_AUDIO_LANG_SIZE); ret = bt_audio_codec_cap_meta_set_lang(&codec_cap, new_expected_data); zassert_true(ret > 0, "Unexpected return value %d", ret); ret = bt_audio_codec_cap_meta_get_lang(&codec_cap, &lang); zassert_equal(ret, 0, "Unexpected return value %d", ret); zassert_mem_equal(new_expected_data, lang, BT_AUDIO_LANG_SIZE); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_meta_get_ccid_list) { const uint8_t expected_data[] = {0x05, 0x10, 0x15}; const struct bt_audio_codec_cap codec_cap = BT_AUDIO_CODEC_CAP( BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_CCID_LIST, 0x05, 0x10, 0x15)}); const uint8_t *ccid_list; int ret; ret = bt_audio_codec_cap_meta_get_ccid_list(&codec_cap, &ccid_list); zassert_equal(ret, ARRAY_SIZE(expected_data), "Unexpected return value %d", ret); zassert_mem_equal(expected_data, ccid_list, ARRAY_SIZE(expected_data)); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_meta_set_ccid_list) { const uint8_t expected_data[] = {0x05, 0x10, 0x15}; const uint8_t new_expected_data[] = {0x25, 0x30}; struct bt_audio_codec_cap codec_cap = BT_AUDIO_CODEC_CAP( BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_CCID_LIST, 0x05, 0x10, 0x15)}); const uint8_t *ccid_list; int ret; ret = bt_audio_codec_cap_meta_get_ccid_list(&codec_cap, &ccid_list); zassert_equal(ret, ARRAY_SIZE(expected_data), "Unexpected return value %d", ret); zassert_mem_equal(expected_data, ccid_list, ARRAY_SIZE(expected_data)); ret = bt_audio_codec_cap_meta_set_ccid_list(&codec_cap, new_expected_data, ARRAY_SIZE(new_expected_data)); zassert_true(ret > 0, "Unexpected return value %d", ret); ret = bt_audio_codec_cap_meta_get_ccid_list(&codec_cap, &ccid_list); zassert_equal(ret, ARRAY_SIZE(new_expected_data), "Unexpected return value %d", ret); zassert_mem_equal(new_expected_data, ccid_list, ARRAY_SIZE(new_expected_data)); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_meta_get_parental_rating) { const struct bt_audio_codec_cap codec_cap = BT_AUDIO_CODEC_CAP(BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_PARENTAL_RATING, BT_AUDIO_PARENTAL_RATING_AGE_10_OR_ABOVE)}); int ret; ret = bt_audio_codec_cap_meta_get_parental_rating(&codec_cap); zassert_equal(ret, 0x07, "Unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_meta_set_parental_rating) { struct bt_audio_codec_cap codec_cap = BT_AUDIO_CODEC_CAP(BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_PARENTAL_RATING, BT_AUDIO_PARENTAL_RATING_AGE_10_OR_ABOVE)}); int ret; ret = bt_audio_codec_cap_meta_get_parental_rating(&codec_cap); zassert_equal(ret, 0x07, "Unexpected return value %d", ret); ret = bt_audio_codec_cap_meta_set_parental_rating(&codec_cap, BT_AUDIO_PARENTAL_RATING_AGE_13_OR_ABOVE); zassert_true(ret > 0, "Unexpected return value %d", ret); ret = bt_audio_codec_cap_meta_get_parental_rating(&codec_cap); zassert_equal(ret, 0x0a, "Unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_meta_get_program_info_uri) { const uint8_t expected_data[] = {'e', 'x', 'a', 'm', 'p', 'l', 'e', '.', 'c', 'o', 'm'}; const struct bt_audio_codec_cap codec_cap = BT_AUDIO_CODEC_CAP( BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_PROGRAM_INFO_URI, 'e', 'x', 'a', 'm', 'p', 'l', 'e', '.', 'c', 'o', 'm')}); const uint8_t *program_info_uri; int ret; ret = bt_audio_codec_cap_meta_get_program_info_uri(&codec_cap, &program_info_uri); zassert_equal(ret, ARRAY_SIZE(expected_data), "Unexpected return value %d", ret); zassert_mem_equal(expected_data, program_info_uri, ARRAY_SIZE(expected_data)); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_meta_set_program_info_uri) { const uint8_t expected_data[] = {'e', 'x', 'a', 'm', 'p', 'l', 'e', '.', 'c', 'o', 'm'}; const uint8_t new_expected_data[] = {'n', 'e', 'w', '.', 'c', 'o', 'm'}; struct bt_audio_codec_cap codec_cap = BT_AUDIO_CODEC_CAP( BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_PROGRAM_INFO_URI, 'e', 'x', 'a', 'm', 'p', 'l', 'e', '.', 'c', 'o', 'm')}); const uint8_t *program_info_uri; int ret; ret = bt_audio_codec_cap_meta_get_program_info_uri(&codec_cap, &program_info_uri); zassert_equal(ret, ARRAY_SIZE(expected_data), "Unexpected return value %d", ret); zassert_mem_equal(expected_data, program_info_uri, ARRAY_SIZE(expected_data)); ret = bt_audio_codec_cap_meta_set_program_info_uri(&codec_cap, new_expected_data, ARRAY_SIZE(new_expected_data)); zassert_true(ret > 0, "Unexpected return value %d", ret); ret = bt_audio_codec_cap_meta_get_program_info_uri(&codec_cap, &program_info_uri); zassert_equal(ret, ARRAY_SIZE(new_expected_data), "Unexpected return value %d", ret); zassert_mem_equal(new_expected_data, program_info_uri, ARRAY_SIZE(new_expected_data)); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_meta_get_audio_active_state) { const struct bt_audio_codec_cap codec_cap = BT_AUDIO_CODEC_CAP(BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_AUDIO_STATE, BT_AUDIO_ACTIVE_STATE_ENABLED)}); int ret; ret = bt_audio_codec_cap_meta_get_audio_active_state(&codec_cap); zassert_equal(ret, 0x01, "Unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_meta_set_audio_active_state) { struct bt_audio_codec_cap codec_cap = BT_AUDIO_CODEC_CAP(BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_AUDIO_STATE, BT_AUDIO_ACTIVE_STATE_ENABLED)}); int ret; ret = bt_audio_codec_cap_meta_get_audio_active_state(&codec_cap); zassert_equal(ret, 0x01, "Unexpected return value %d", ret); ret = bt_audio_codec_cap_meta_set_audio_active_state(&codec_cap, BT_AUDIO_ACTIVE_STATE_DISABLED); zassert_true(ret > 0, "Unexpected return value %d", ret); ret = bt_audio_codec_cap_meta_get_audio_active_state(&codec_cap); zassert_equal(ret, 0x00, "Unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_meta_get_bcast_audio_immediate_rend_flag) { const struct bt_audio_codec_cap codec_cap = BT_AUDIO_CODEC_CAP( BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_BROADCAST_IMMEDIATE)}); int ret; ret = bt_audio_codec_cap_meta_get_bcast_audio_immediate_rend_flag(&codec_cap); zassert_equal(ret, 0, "Unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_meta_set_bcast_audio_immediate_rend_flag) { struct bt_audio_codec_cap codec_cap = BT_AUDIO_CODEC_CAP(BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {}); int ret; ret = bt_audio_codec_cap_meta_get_bcast_audio_immediate_rend_flag(&codec_cap); zassert_equal(ret, -ENODATA, "Unexpected return value %d", ret); ret = bt_audio_codec_cap_meta_set_bcast_audio_immediate_rend_flag(&codec_cap); zassert_true(ret > 0, "Unexpected return value %d", ret); ret = bt_audio_codec_cap_meta_get_bcast_audio_immediate_rend_flag(&codec_cap); zassert_equal(ret, 0, "Unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_meta_get_assisted_listening_stream) { const struct bt_audio_codec_cap codec_cap = BT_AUDIO_CODEC_CAP( BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_ASSISTED_LISTENING_STREAM, BT_AUDIO_ASSISTED_LISTENING_STREAM_UNSPECIFIED)}); int ret; ret = bt_audio_codec_cap_meta_get_assisted_listening_stream(&codec_cap); zassert_equal(ret, 0x00, "Unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_meta_set_assisted_listening_stream) { struct bt_audio_codec_cap codec_cap = BT_AUDIO_CODEC_CAP(BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {}); int ret; ret = bt_audio_codec_cap_meta_get_assisted_listening_stream(&codec_cap); zassert_equal(ret, -ENODATA, "Unexpected return value %d", ret); ret = bt_audio_codec_cap_meta_set_assisted_listening_stream( &codec_cap, BT_AUDIO_ASSISTED_LISTENING_STREAM_UNSPECIFIED); zassert_true(ret > 0, "Unexpected return value %d", ret); ret = bt_audio_codec_cap_meta_get_assisted_listening_stream(&codec_cap); zassert_equal(ret, 0x00, "Unexpected return value %d", ret); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_meta_get_broadcast_name) { const uint8_t expected_data[] = {'m', 'y', ' ', 'b', 'c', 'a', 's', 't'}; const struct bt_audio_codec_cap codec_cap = BT_AUDIO_CODEC_CAP(BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_BROADCAST_NAME, 'm', 'y', ' ', 'b', 'c', 'a', 's', 't')}); const uint8_t *broadcast_name; int ret; ret = bt_audio_codec_cap_meta_get_broadcast_name(&codec_cap, &broadcast_name); zassert_equal(ret, ARRAY_SIZE(expected_data), "Unexpected return value %d", ret); zassert_mem_equal(expected_data, broadcast_name, ARRAY_SIZE(expected_data)); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_meta_set_broadcast_name) { const uint8_t expected_data[] = {'m', 'y', ' ', 'b', 'c', 'a', 's', 't'}; const uint8_t new_expected_data[] = {'n', 'e', 'w', ' ', 'b', 'c', 'a', 's', 't'}; struct bt_audio_codec_cap codec_cap = BT_AUDIO_CODEC_CAP(BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_BROADCAST_NAME, 'm', 'y', ' ', 'b', 'c', 'a', 's', 't')}); const uint8_t *broadcast_name; int ret; ret = bt_audio_codec_cap_meta_get_broadcast_name(&codec_cap, &broadcast_name); zassert_equal(ret, ARRAY_SIZE(expected_data), "Unexpected return value %d", ret); zassert_mem_equal(expected_data, broadcast_name, ARRAY_SIZE(expected_data)); ret = bt_audio_codec_cap_meta_set_broadcast_name(&codec_cap, new_expected_data, ARRAY_SIZE(new_expected_data)); zassert_true(ret > 0, "Unexpected return value %d", ret); ret = bt_audio_codec_cap_meta_get_broadcast_name(&codec_cap, &broadcast_name); zassert_equal(ret, ARRAY_SIZE(new_expected_data), "Unexpected return value %d", ret); zassert_mem_equal(new_expected_data, broadcast_name, ARRAY_SIZE(new_expected_data)); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_meta_get_extended) { const uint8_t expected_data[] = {0x00, 0x01, 0x02, 0x03}; const struct bt_audio_codec_cap codec_cap = BT_AUDIO_CODEC_CAP( BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_EXTENDED, 0x00, 0x01, 0x02, 0x03)}); const uint8_t *extended_meta; int ret; ret = bt_audio_codec_cap_meta_get_extended(&codec_cap, &extended_meta); zassert_equal(ret, ARRAY_SIZE(expected_data), "Unexpected return value %d", ret); zassert_mem_equal(expected_data, extended_meta, ARRAY_SIZE(expected_data)); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_meta_set_extended) { const uint8_t expected_data[] = {0x00, 0x01, 0x02, 0x03}; const uint8_t new_expected_data[] = {0x04, 0x05}; struct bt_audio_codec_cap codec_cap = BT_AUDIO_CODEC_CAP( BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_EXTENDED, 0x00, 0x01, 0x02, 0x03)}); const uint8_t *extended_meta; int ret; ret = bt_audio_codec_cap_meta_get_extended(&codec_cap, &extended_meta); zassert_equal(ret, ARRAY_SIZE(expected_data), "Unexpected return value %d", ret); zassert_mem_equal(expected_data, extended_meta, ARRAY_SIZE(expected_data)); ret = bt_audio_codec_cap_meta_set_extended(&codec_cap, new_expected_data, ARRAY_SIZE(new_expected_data)); zassert_true(ret > 0, "Unexpected return value %d", ret); ret = bt_audio_codec_cap_meta_get_extended(&codec_cap, &extended_meta); zassert_equal(ret, ARRAY_SIZE(new_expected_data), "Unexpected return value %d", ret); zassert_mem_equal(new_expected_data, extended_meta, ARRAY_SIZE(new_expected_data)); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_meta_get_vendor) { const uint8_t expected_data[] = {0x00, 0x01, 0x02, 0x03}; const struct bt_audio_codec_cap codec_cap = BT_AUDIO_CODEC_CAP( BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_VENDOR, 0x00, 0x01, 0x02, 0x03)}); const uint8_t *vendor_meta; int ret; ret = bt_audio_codec_cap_meta_get_vendor(&codec_cap, &vendor_meta); zassert_equal(ret, ARRAY_SIZE(expected_data), "Unexpected return value %d", ret); zassert_mem_equal(expected_data, vendor_meta, ARRAY_SIZE(expected_data)); } ZTEST(audio_codec_test_suite, test_bt_audio_codec_cap_meta_set_vendor) { const uint8_t expected_data[] = {0x00, 0x01, 0x02, 0x03}; const uint8_t new_expected_data[] = {0x04, 0x05, 0x06, 0x07, 0x08}; struct bt_audio_codec_cap codec_cap = BT_AUDIO_CODEC_CAP( BT_HCI_CODING_FORMAT_LC3, 0x0000, 0x0000, {}, {BT_AUDIO_CODEC_DATA(BT_AUDIO_METADATA_TYPE_VENDOR, 0x00, 0x01, 0x02, 0x03)}); const uint8_t *extended_meta; int ret; ret = bt_audio_codec_cap_meta_get_vendor(&codec_cap, &extended_meta); zassert_equal(ret, ARRAY_SIZE(expected_data), "Unexpected return value %d", ret); zassert_mem_equal(expected_data, extended_meta, ARRAY_SIZE(expected_data)); ret = bt_audio_codec_cap_meta_set_vendor(&codec_cap, new_expected_data, ARRAY_SIZE(new_expected_data)); zassert_true(ret > 0, "Unexpected return value %d", ret); ret = bt_audio_codec_cap_meta_get_vendor(&codec_cap, &extended_meta); zassert_equal(ret, ARRAY_SIZE(new_expected_data), "Unexpected return value %d", ret); zassert_mem_equal(new_expected_data, extended_meta, ARRAY_SIZE(new_expected_data)); }