/****************************************************************************** * * Copyright 2016 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at: * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * ******************************************************************************/ #include #include #include #include #include "stack/include/a2dp_aac.h" #include "stack/include/a2dp_api.h" #include "stack/include/a2dp_codec_api.h" #include "stack/include/a2dp_sbc.h" #include "stack/include/a2dp_vendor.h" namespace { const uint8_t codec_info_sbc[AVDT_CODEC_SIZE] = { 6, // Length (A2DP_SBC_INFO_LEN) 0, // Media Type: AVDT_MEDIA_TYPE_AUDIO 0, // Media Codec Type: A2DP_MEDIA_CT_SBC 0x20 | 0x01, // Sample Frequency: A2DP_SBC_IE_SAMP_FREQ_44 | // Channel Mode: A2DP_SBC_IE_CH_MD_JOINT 0x10 | 0x04 | 0x01, // Block Length: A2DP_SBC_IE_BLOCKS_16 | // Subbands: A2DP_SBC_IE_SUBBAND_8 | // Allocation Method: A2DP_SBC_IE_ALLOC_MD_L 2, // MinimumBitpool Value: A2DP_SBC_IE_MIN_BITPOOL 53, // Maximum Bitpool Value: A2DP_SBC_MAX_BITPOOL 7, // Dummy 8, // Dummy 9 // Dummy }; const uint8_t codec_info_sbc_capability[AVDT_CODEC_SIZE] = { 6, // Length (A2DP_SBC_INFO_LEN) 0, // Media Type: AVDT_MEDIA_TYPE_AUDIO 0, // Media Codec Type: A2DP_MEDIA_CT_SBC 0x20 | // Sample Frequency: A2DP_SBC_IE_SAMP_FREQ_44 | 0x08 | 0x01, // Channel Mode: A2DP_SBC_IE_CH_MD_MONO | // A2DP_SBC_IE_CH_MD_JOINT 0x80 | 0x40 | 0x20 | 0x10 | // Block Length: A2DP_SBC_IE_BLOCKS_4 | // A2DP_SBC_IE_BLOCKS_8 | // A2DP_SBC_IE_BLOCKS_12 | // A2DP_SBC_IE_BLOCKS_16 | 0x04 | // Subbands: A2DP_SBC_IE_SUBBAND_8 | 0x01, // Allocation Method: A2DP_SBC_IE_ALLOC_MD_L 2, // MinimumBitpool Value: A2DP_SBC_IE_MIN_BITPOOL 53, // Maximum Bitpool Value: A2DP_SBC_MAX_BITPOOL 7, // Dummy 8, // Dummy 9 // Dummy }; const uint8_t codec_info_sbc_sink_capability[AVDT_CODEC_SIZE] = { 6, // Length (A2DP_SBC_INFO_LEN) 0, // Media Type: AVDT_MEDIA_TYPE_AUDIO 0, // Media Codec Type: A2DP_MEDIA_CT_SBC 0x20 | 0x10 | // Sample Frequency: A2DP_SBC_IE_SAMP_FREQ_44 | // A2DP_SBC_IE_SAMP_FREQ_48 | 0x08 | 0x04 | 0x02 | 0x01, // Channel Mode: A2DP_SBC_IE_CH_MD_MONO | // A2DP_SBC_IE_CH_MD_DUAL | // A2DP_SBC_IE_CH_MD_STEREO | // A2DP_SBC_IE_CH_MD_JOINT 0x80 | 0x40 | 0x20 | 0x10 | // Block Length: A2DP_SBC_IE_BLOCKS_4 | // A2DP_SBC_IE_BLOCKS_8 | // A2DP_SBC_IE_BLOCKS_12 | // A2DP_SBC_IE_BLOCKS_16 | 0x08 | 0x04 | // Subbands: A2DP_SBC_IE_SUBBAND_4 | // A2DP_SBC_IE_SUBBAND_8 | 0x02 | 0x01, // Allocation Method: A2DP_SBC_IE_ALLOC_MD_S | // A2DP_SBC_IE_ALLOC_MD_L 2, // MinimumBitpool Value: A2DP_SBC_IE_MIN_BITPOOL 53, // Maximum Bitpool Value: A2DP_SBC_MAX_BITPOOL 7, // Dummy 8, // Dummy 9 // Dummy }; const uint8_t codec_info_aac[AVDT_CODEC_SIZE] = { 8, // Length (A2DP_AAC_INFO_LEN) 0, // Media Type: AVDT_MEDIA_TYPE_AUDIO 2, // Media Codec Type: A2DP_MEDIA_CT_AAC 0x80, // Object Type: A2DP_AAC_OBJECT_TYPE_MPEG2_LC 0x01, // Sampling Frequency: A2DP_AAC_SAMPLING_FREQ_44100 0x04, // Channels: A2DP_AAC_CHANNEL_MODE_STEREO 0x00 | 0x4, // Variable Bit Rate: // A2DP_AAC_VARIABLE_BIT_RATE_DISABLED // Bit Rate: 320000 = 0x4e200 0xe2, // Bit Rate: 320000 = 0x4e200 0x00, // Bit Rate: 320000 = 0x4e200 7, // Dummy 8, // Dummy 9 // Dummy }; const uint8_t codec_info_aac_capability[AVDT_CODEC_SIZE] = { 8, // Length (A2DP_AAC_INFO_LEN) 0, // Media Type: AVDT_MEDIA_TYPE_AUDIO 2, // Media Codec Type: A2DP_MEDIA_CT_AAC 0x80, // Object Type: A2DP_AAC_OBJECT_TYPE_MPEG2_LC 0x01, // Sampling Frequency: A2DP_AAC_SAMPLING_FREQ_44100 // TODO: AAC 48.0kHz sampling rate should be added back - see b/62301376 0x04, // Channels: A2DP_AAC_CHANNEL_MODE_STEREO 0x00 | 0x4, // Variable Bit Rate: // A2DP_AAC_VARIABLE_BIT_RATE_DISABLED // Bit Rate: 320000 = 0x4e200 0xe2, // Bit Rate: 320000 = 0x4e200 0x00, // Bit Rate: 320000 = 0x4e200 7, // Dummy 8, // Dummy 9 // Dummy }; const uint8_t codec_info_aac_sink_capability[AVDT_CODEC_SIZE] = { 8, // Length (A2DP_AAC_INFO_LEN) 0, // Media Type: AVDT_MEDIA_TYPE_AUDIO 2, // Media Codec Type: A2DP_MEDIA_CT_AAC 0x80 | 0x40 | 0x20 | 0x10, // Object Type: A2DP_AAC_OBJECT_TYPE_MPEG2_LC | // A2DP_AAC_OBJECT_TYPE_MPEG4_LC // A2DP_AAC_OBJECT_TYPE_MPEG4_LTP // A2DP_AAC_OBJECT_TYPE_MPEG4_SCALABLE 0x01, // Sampling Frequency: A2DP_AAC_SAMPLING_FREQ_44100 0x80 | 0x20 | 0x10 | 0x08 | 0x04, // Sampling Frequency: // A2DP_AAC_SAMPLING_FREQ_48000 | // A2DP_AAC_SAMPLING_FREQ_88200 | // A2DP_AAC_SAMPLING_FREQ_96000 | // Channels: // A2DP_AAC_CHANNEL_MODE_MONO | // A2DP_AAC_CHANNEL_MODE_STEREO 0x80 | 0x4, // Variable Bit Rate: // A2DP_AAC_VARIABLE_BIT_RATE_ENABLED // Bit Rate: 320000 = 0x4e200 0xe2, // Bit Rate: 320000 = 0x4e200 0x00, // Bit Rate: 320000 = 0x4e200 7, // Dummy 8, // Dummy 9 // Dummy }; const uint8_t codec_info_non_a2dp[AVDT_CODEC_SIZE] = { 8, // Length 0, // Media Type: AVDT_MEDIA_TYPE_AUDIO 0xFF, // Media Codec Type: A2DP_MEDIA_CT_NON_A2DP 3, 4, 0, 0, // Vendor ID: LSB first, upper two octets should be 0 7, 8, // Codec ID: LSB first 9 // Dummy }; const uint8_t codec_info_non_a2dp_dummy[AVDT_CODEC_SIZE] = { 8, // Length 0, // Media Type: AVDT_MEDIA_TYPE_AUDIO 0xFF, // Media Codec Type: A2DP_MEDIA_CT_NON_A2DP 3, 4, 0, 0, // Vendor ID: LSB first, upper two octets should be 0 7, 8, // Codec ID: LSB first 10 // Dummy }; static const char* APTX_ENCODER_LIB_NAME = "libaptX_encoder.so"; static const char* APTX_HD_ENCODER_LIB_NAME = "libaptXHD_encoder.so"; static const char* LDAC_ENCODER_LIB_NAME = "libldacBT_enc.so"; static const char* LDAC_DECODER_LIB_NAME = "libldacBT_dec.so"; static bool has_shared_library(const char* name) { void* lib_handle = dlopen(name, RTLD_NOW); if (lib_handle != nullptr) { dlclose(lib_handle); return true; } return false; } } // namespace class StackA2dpTest : public ::testing::Test { protected: StackA2dpTest() { // Create the set with all supported codecs for (int i = BTAV_A2DP_CODEC_INDEX_MIN; i < BTAV_A2DP_CODEC_INDEX_MAX; i++) { btav_a2dp_codec_index_t codec_index = static_cast(i); bool supported = false; switch (codec_index) { case BTAV_A2DP_CODEC_INDEX_SOURCE_SBC: supported = true; break; case BTAV_A2DP_CODEC_INDEX_SOURCE_AAC: supported = true; break; case BTAV_A2DP_CODEC_INDEX_SOURCE_APTX: // Codec aptX is supported only if the device has the corresponding // shared library installed. supported = has_shared_library(APTX_ENCODER_LIB_NAME); break; case BTAV_A2DP_CODEC_INDEX_SOURCE_APTX_HD: // Codec aptX-HD is supported only if the device has the corresponding // shared library installed. supported = has_shared_library(APTX_HD_ENCODER_LIB_NAME); break; case BTAV_A2DP_CODEC_INDEX_SOURCE_LDAC: // Codec LDAC is supported only if the device has the corresponding // shared library installed. supported = has_shared_library(LDAC_ENCODER_LIB_NAME); break; case BTAV_A2DP_CODEC_INDEX_SINK_SBC: supported = true; break; case BTAV_A2DP_CODEC_INDEX_SINK_AAC: supported = true; break; case BTAV_A2DP_CODEC_INDEX_SINK_LDAC: // Codec LDAC is supported only if the device has the corresponding // shared library installed. supported = has_shared_library(LDAC_DECODER_LIB_NAME); break; case BTAV_A2DP_CODEC_INDEX_MAX: // Needed to avoid using "default:" case so we can capture when // a new codec is added, and it can be included here. break; } if (supported) { supported_codecs_.insert(codec_index); } } } bool has_codec_support(btav_a2dp_codec_index_t codec_index) { return supported_codecs_.find(codec_index) != supported_codecs_.end(); } private: std::set supported_codecs_; }; class A2dpCodecConfigTest : public StackA2dpTest {}; TEST_F(StackA2dpTest, test_a2dp_bits_set) { EXPECT_TRUE(A2DP_BitsSet(0x0) == A2DP_SET_ZERO_BIT); EXPECT_TRUE(A2DP_BitsSet(0x1) == A2DP_SET_ONE_BIT); EXPECT_TRUE(A2DP_BitsSet(0x2) == A2DP_SET_ONE_BIT); EXPECT_TRUE(A2DP_BitsSet(0x3) == A2DP_SET_MULTL_BIT); EXPECT_TRUE(A2DP_BitsSet(0x7f) == A2DP_SET_MULTL_BIT); EXPECT_TRUE(A2DP_BitsSet(0x80) == A2DP_SET_ONE_BIT); EXPECT_TRUE(A2DP_BitsSet(0x81) == A2DP_SET_MULTL_BIT); EXPECT_TRUE(A2DP_BitsSet(0xc0) == A2DP_SET_MULTL_BIT); EXPECT_TRUE(A2DP_BitsSet(0xff) == A2DP_SET_MULTL_BIT); EXPECT_TRUE(A2DP_BitsSet(0x8000) == A2DP_SET_ONE_BIT); EXPECT_TRUE(A2DP_BitsSet(0x8001) == A2DP_SET_MULTL_BIT); EXPECT_TRUE(A2DP_BitsSet(0xc000) == A2DP_SET_MULTL_BIT); EXPECT_TRUE(A2DP_BitsSet(0xffff) == A2DP_SET_MULTL_BIT); EXPECT_TRUE(A2DP_BitsSet(0x80000) == A2DP_SET_ONE_BIT); EXPECT_TRUE(A2DP_BitsSet(0x80001) == A2DP_SET_MULTL_BIT); EXPECT_TRUE(A2DP_BitsSet(0xc0000) == A2DP_SET_MULTL_BIT); EXPECT_TRUE(A2DP_BitsSet(0xfffff) == A2DP_SET_MULTL_BIT); EXPECT_TRUE(A2DP_BitsSet(0x80000000) == A2DP_SET_ONE_BIT); EXPECT_TRUE(A2DP_BitsSet(0x80000001) == A2DP_SET_MULTL_BIT); EXPECT_TRUE(A2DP_BitsSet(0xc0000000) == A2DP_SET_MULTL_BIT); EXPECT_TRUE(A2DP_BitsSet(0xffffffff) == A2DP_SET_MULTL_BIT); EXPECT_TRUE(A2DP_BitsSet(0x8000000000000000) == A2DP_SET_ONE_BIT); EXPECT_TRUE(A2DP_BitsSet(0x8000000000000001) == A2DP_SET_MULTL_BIT); EXPECT_TRUE(A2DP_BitsSet(0xc000000000000000) == A2DP_SET_MULTL_BIT); EXPECT_TRUE(A2DP_BitsSet(0xffffffffffffffff) == A2DP_SET_MULTL_BIT); } TEST_F(StackA2dpTest, test_a2dp_is_codec_valid_sbc) { EXPECT_TRUE(A2DP_IsSourceCodecValid(codec_info_sbc)); EXPECT_TRUE(A2DP_IsSourceCodecValid(codec_info_sbc_capability)); EXPECT_TRUE(A2DP_IsPeerSourceCodecValid(codec_info_sbc)); EXPECT_TRUE(A2DP_IsPeerSourceCodecValid(codec_info_sbc_capability)); EXPECT_TRUE(A2DP_IsSinkCodecValid(codec_info_sbc_sink_capability)); EXPECT_TRUE(A2DP_IsPeerSinkCodecValid(codec_info_sbc_sink_capability)); EXPECT_FALSE(A2DP_IsSourceCodecValid(codec_info_non_a2dp)); EXPECT_FALSE(A2DP_IsSinkCodecValid(codec_info_non_a2dp)); EXPECT_FALSE(A2DP_IsPeerSourceCodecValid(codec_info_non_a2dp)); EXPECT_FALSE(A2DP_IsPeerSinkCodecValid(codec_info_non_a2dp)); // Test with invalid SBC codecs uint8_t codec_info_sbc_invalid[AVDT_CODEC_SIZE]; memset(codec_info_sbc_invalid, 0, sizeof(codec_info_sbc_invalid)); EXPECT_FALSE(A2DP_IsSourceCodecValid(codec_info_sbc_invalid)); EXPECT_FALSE(A2DP_IsSinkCodecValid(codec_info_sbc_invalid)); EXPECT_FALSE(A2DP_IsPeerSourceCodecValid(codec_info_sbc_invalid)); EXPECT_FALSE(A2DP_IsPeerSinkCodecValid(codec_info_sbc_invalid)); memcpy(codec_info_sbc_invalid, codec_info_sbc, sizeof(codec_info_sbc)); codec_info_sbc_invalid[0] = 0; // Corrupt the Length field EXPECT_FALSE(A2DP_IsSourceCodecValid(codec_info_sbc_invalid)); EXPECT_FALSE(A2DP_IsSinkCodecValid(codec_info_sbc_invalid)); EXPECT_FALSE(A2DP_IsPeerSourceCodecValid(codec_info_sbc_invalid)); EXPECT_FALSE(A2DP_IsPeerSinkCodecValid(codec_info_sbc_invalid)); memcpy(codec_info_sbc_invalid, codec_info_sbc, sizeof(codec_info_sbc)); codec_info_sbc_invalid[1] = 0xff; // Corrupt the Media Type field EXPECT_FALSE(A2DP_IsSourceCodecValid(codec_info_sbc_invalid)); EXPECT_FALSE(A2DP_IsSinkCodecValid(codec_info_sbc_invalid)); EXPECT_FALSE(A2DP_IsPeerSourceCodecValid(codec_info_sbc_invalid)); EXPECT_FALSE(A2DP_IsPeerSinkCodecValid(codec_info_sbc_invalid)); } TEST_F(StackA2dpTest, test_a2dp_is_codec_valid_aac) { EXPECT_TRUE(A2DP_IsSourceCodecValid(codec_info_aac)); EXPECT_TRUE(A2DP_IsSourceCodecValid(codec_info_aac_capability)); EXPECT_TRUE(A2DP_IsPeerSourceCodecValid(codec_info_aac)); EXPECT_TRUE(A2DP_IsPeerSourceCodecValid(codec_info_aac_capability)); EXPECT_TRUE(A2DP_IsSinkCodecValid(codec_info_aac_sink_capability)); EXPECT_TRUE(A2DP_IsPeerSinkCodecValid(codec_info_aac_sink_capability)); // Test with invalid AAC codecs uint8_t codec_info_aac_invalid[AVDT_CODEC_SIZE]; memcpy(codec_info_aac_invalid, codec_info_aac, sizeof(codec_info_aac)); codec_info_aac_invalid[0] = 0; // Corrupt the Length field EXPECT_FALSE(A2DP_IsSourceCodecValid(codec_info_aac_invalid)); EXPECT_FALSE(A2DP_IsSinkCodecValid(codec_info_aac_invalid)); EXPECT_FALSE(A2DP_IsPeerSourceCodecValid(codec_info_aac_invalid)); EXPECT_FALSE(A2DP_IsPeerSinkCodecValid(codec_info_aac_invalid)); memcpy(codec_info_aac_invalid, codec_info_aac, sizeof(codec_info_aac)); codec_info_aac_invalid[1] = 0xff; // Corrupt the Media Type field EXPECT_FALSE(A2DP_IsSourceCodecValid(codec_info_aac_invalid)); EXPECT_FALSE(A2DP_IsSinkCodecValid(codec_info_aac_invalid)); EXPECT_FALSE(A2DP_IsPeerSourceCodecValid(codec_info_aac_invalid)); EXPECT_FALSE(A2DP_IsPeerSinkCodecValid(codec_info_aac_invalid)); } TEST_F(StackA2dpTest, test_a2dp_get_codec_type) { tA2DP_CODEC_TYPE codec_type = A2DP_GetCodecType(codec_info_sbc); EXPECT_EQ(codec_type, A2DP_MEDIA_CT_SBC); codec_type = A2DP_GetCodecType(codec_info_aac); EXPECT_EQ(codec_type, A2DP_MEDIA_CT_AAC); codec_type = A2DP_GetCodecType(codec_info_non_a2dp); EXPECT_EQ(codec_type, A2DP_MEDIA_CT_NON_A2DP); } TEST_F(StackA2dpTest, test_a2dp_is_sink_codec_supported) { EXPECT_TRUE(A2DP_IsSinkCodecSupported(codec_info_sbc)); EXPECT_FALSE(A2DP_IsSinkCodecSupported(codec_info_sbc_capability)); EXPECT_FALSE(A2DP_IsSinkCodecSupported(codec_info_sbc_sink_capability)); EXPECT_TRUE(A2DP_IsSinkCodecSupported(codec_info_aac)); // NOTE: The test below should be EXPECT_FALSE. // However, codec_info_aac_capability is practically same as codec_info_aac, // therefore we cannot differentiate it as a capability. EXPECT_TRUE(A2DP_IsSinkCodecSupported(codec_info_aac_capability)); EXPECT_FALSE(A2DP_IsSinkCodecSupported(codec_info_aac_sink_capability)); EXPECT_FALSE(A2DP_IsSinkCodecSupported(codec_info_non_a2dp)); } TEST_F(StackA2dpTest, test_a2dp_is_peer_source_codec_supported) { EXPECT_TRUE(A2DP_IsPeerSourceCodecSupported(codec_info_sbc)); EXPECT_TRUE(A2DP_IsPeerSourceCodecSupported(codec_info_sbc_capability)); EXPECT_TRUE(A2DP_IsPeerSourceCodecSupported(codec_info_sbc_sink_capability)); EXPECT_TRUE(A2DP_IsPeerSourceCodecSupported(codec_info_aac)); EXPECT_TRUE(A2DP_IsPeerSourceCodecSupported(codec_info_aac_capability)); EXPECT_TRUE(A2DP_IsPeerSourceCodecSupported(codec_info_aac_sink_capability)); EXPECT_FALSE(A2DP_IsPeerSourceCodecSupported(codec_info_non_a2dp)); } TEST_F(StackA2dpTest, test_init_default_codec) { uint8_t codec_info_result[AVDT_CODEC_SIZE]; memset(codec_info_result, 0, sizeof(codec_info_result)); A2DP_InitDefaultCodec(codec_info_result); // Compare the result codec with the local test codec info for (size_t i = 0; i < codec_info_sbc[0] + 1; i++) { EXPECT_EQ(codec_info_result[i], codec_info_sbc[i]); } } TEST_F(StackA2dpTest, test_a2dp_uses_rtp_header) { EXPECT_TRUE(A2DP_UsesRtpHeader(true, codec_info_sbc)); EXPECT_TRUE(A2DP_UsesRtpHeader(false, codec_info_sbc)); EXPECT_TRUE(A2DP_UsesRtpHeader(true, codec_info_aac)); EXPECT_TRUE(A2DP_UsesRtpHeader(false, codec_info_aac)); EXPECT_TRUE(A2DP_UsesRtpHeader(true, codec_info_non_a2dp)); EXPECT_TRUE(A2DP_UsesRtpHeader(false, codec_info_non_a2dp)); } TEST_F(StackA2dpTest, test_a2dp_get_media_type) { uint8_t codec_info_test[AVDT_CODEC_SIZE]; EXPECT_EQ(A2DP_GetMediaType(codec_info_sbc), AVDT_MEDIA_TYPE_AUDIO); EXPECT_EQ(A2DP_GetMediaType(codec_info_aac), AVDT_MEDIA_TYPE_AUDIO); EXPECT_EQ(A2DP_GetMediaType(codec_info_non_a2dp), AVDT_MEDIA_TYPE_AUDIO); // Prepare dummy codec info for video and for multimedia memset(codec_info_test, 0, sizeof(codec_info_test)); codec_info_test[0] = sizeof(codec_info_test); codec_info_test[1] = 0x01 << 4; EXPECT_EQ(A2DP_GetMediaType(codec_info_test), AVDT_MEDIA_TYPE_VIDEO); codec_info_test[1] = 0x02 << 4; EXPECT_EQ(A2DP_GetMediaType(codec_info_test), AVDT_MEDIA_TYPE_MULTI); } TEST_F(StackA2dpTest, test_a2dp_codec_name) { uint8_t codec_info_test[AVDT_CODEC_SIZE]; // Explicit tests for known codecs EXPECT_STREQ(A2DP_CodecName(codec_info_sbc), "SBC"); EXPECT_STREQ(A2DP_CodecName(codec_info_sbc_capability), "SBC"); EXPECT_STREQ(A2DP_CodecName(codec_info_sbc_sink_capability), "SBC"); EXPECT_STREQ(A2DP_CodecName(codec_info_aac), "AAC"); EXPECT_STREQ(A2DP_CodecName(codec_info_aac_capability), "AAC"); EXPECT_STREQ(A2DP_CodecName(codec_info_aac_sink_capability), "AAC"); EXPECT_STREQ(A2DP_CodecName(codec_info_non_a2dp), "UNKNOWN VENDOR CODEC"); // Test all unknown codecs memcpy(codec_info_test, codec_info_sbc, sizeof(codec_info_sbc)); for (uint8_t codec_type = A2DP_MEDIA_CT_AAC + 1; codec_type < A2DP_MEDIA_CT_NON_A2DP; codec_type++) { codec_info_test[2] = codec_type; // Unknown codec type EXPECT_STREQ(A2DP_CodecName(codec_info_test), "UNKNOWN CODEC"); } } TEST_F(StackA2dpTest, test_a2dp_vendor) { EXPECT_EQ(A2DP_VendorCodecGetVendorId(codec_info_non_a2dp), (uint32_t)0x00000403); EXPECT_EQ(A2DP_VendorCodecGetCodecId(codec_info_non_a2dp), (uint16_t)0x0807); EXPECT_TRUE(A2DP_VendorUsesRtpHeader(true, codec_info_non_a2dp)); EXPECT_TRUE(A2DP_VendorUsesRtpHeader(false, codec_info_non_a2dp)); } TEST_F(StackA2dpTest, test_a2dp_codec_type_equals) { EXPECT_TRUE(A2DP_CodecTypeEquals(codec_info_sbc, codec_info_sbc_capability)); EXPECT_TRUE( A2DP_CodecTypeEquals(codec_info_sbc, codec_info_sbc_sink_capability)); EXPECT_TRUE(A2DP_CodecTypeEquals(codec_info_aac, codec_info_aac_capability)); EXPECT_TRUE( A2DP_CodecTypeEquals(codec_info_aac, codec_info_aac_sink_capability)); EXPECT_TRUE( A2DP_CodecTypeEquals(codec_info_non_a2dp, codec_info_non_a2dp_dummy)); EXPECT_FALSE(A2DP_CodecTypeEquals(codec_info_sbc, codec_info_non_a2dp)); EXPECT_FALSE(A2DP_CodecTypeEquals(codec_info_aac, codec_info_non_a2dp)); EXPECT_FALSE(A2DP_CodecTypeEquals(codec_info_sbc, codec_info_aac)); } TEST_F(StackA2dpTest, test_a2dp_codec_equals) { uint8_t codec_info_sbc_test[AVDT_CODEC_SIZE]; uint8_t codec_info_aac_test[AVDT_CODEC_SIZE]; uint8_t codec_info_non_a2dp_test[AVDT_CODEC_SIZE]; // Test two identical SBC codecs memset(codec_info_sbc_test, 0xAB, sizeof(codec_info_sbc_test)); memcpy(codec_info_sbc_test, codec_info_sbc, sizeof(codec_info_sbc)); EXPECT_TRUE(A2DP_CodecEquals(codec_info_sbc, codec_info_sbc_test)); // Test two identical AAC codecs memset(codec_info_aac_test, 0xAB, sizeof(codec_info_aac_test)); memcpy(codec_info_aac_test, codec_info_aac, sizeof(codec_info_aac)); EXPECT_TRUE(A2DP_CodecEquals(codec_info_aac, codec_info_aac_test)); // Test two identical non-A2DP codecs that are not recognized memset(codec_info_non_a2dp_test, 0xAB, sizeof(codec_info_non_a2dp_test)); memcpy(codec_info_non_a2dp_test, codec_info_non_a2dp, sizeof(codec_info_non_a2dp)); EXPECT_FALSE(A2DP_CodecEquals(codec_info_non_a2dp, codec_info_non_a2dp_test)); // Test two codecs that have different types EXPECT_FALSE(A2DP_CodecEquals(codec_info_sbc, codec_info_non_a2dp)); EXPECT_FALSE(A2DP_CodecEquals(codec_info_sbc, codec_info_aac)); // Test two SBC codecs that are slightly different memset(codec_info_sbc_test, 0xAB, sizeof(codec_info_sbc_test)); memcpy(codec_info_sbc_test, codec_info_sbc, sizeof(codec_info_sbc)); codec_info_sbc_test[5] = codec_info_sbc[5] + 1; EXPECT_FALSE(A2DP_CodecEquals(codec_info_sbc, codec_info_sbc_test)); codec_info_sbc_test[5] = codec_info_sbc[5]; codec_info_sbc_test[6] = codec_info_sbc[6] + 1; EXPECT_FALSE(A2DP_CodecEquals(codec_info_sbc, codec_info_sbc_test)); // Test two AAC codecs that are slightly different memset(codec_info_aac_test, 0xAB, sizeof(codec_info_aac_test)); memcpy(codec_info_aac_test, codec_info_aac, sizeof(codec_info_aac)); codec_info_aac_test[7] = codec_info_aac[7] + 1; EXPECT_FALSE(A2DP_CodecEquals(codec_info_aac, codec_info_aac_test)); codec_info_aac_test[7] = codec_info_aac[7]; codec_info_aac_test[8] = codec_info_aac[8] + 1; EXPECT_FALSE(A2DP_CodecEquals(codec_info_aac, codec_info_aac_test)); // Test two SBC codecs that are identical, but with different dummy // trailer data. memset(codec_info_sbc_test, 0xAB, sizeof(codec_info_sbc_test)); memcpy(codec_info_sbc_test, codec_info_sbc, sizeof(codec_info_sbc)); codec_info_sbc_test[7] = codec_info_sbc[7] + 1; EXPECT_TRUE(A2DP_CodecEquals(codec_info_sbc, codec_info_sbc_test)); // Test two AAC codecs that are identical, but with different dummy // trailer data. memset(codec_info_aac_test, 0xAB, sizeof(codec_info_aac_test)); memcpy(codec_info_aac_test, codec_info_aac, sizeof(codec_info_aac)); codec_info_aac_test[9] = codec_info_aac[9] + 1; EXPECT_TRUE(A2DP_CodecEquals(codec_info_aac, codec_info_aac_test)); } TEST_F(StackA2dpTest, test_a2dp_get_track_sample_rate) { EXPECT_EQ(A2DP_GetTrackSampleRate(codec_info_sbc), 44100); EXPECT_EQ(A2DP_GetTrackSampleRate(codec_info_aac), 44100); EXPECT_EQ(A2DP_GetTrackSampleRate(codec_info_non_a2dp), -1); } TEST_F(StackA2dpTest, test_a2dp_get_track_channel_count) { EXPECT_EQ(A2DP_GetTrackChannelCount(codec_info_sbc), 2); EXPECT_EQ(A2DP_GetTrackChannelCount(codec_info_aac), 2); EXPECT_EQ(A2DP_GetTrackChannelCount(codec_info_non_a2dp), -1); } TEST_F(StackA2dpTest, test_a2dp_get_number_of_subbands_sbc) { EXPECT_EQ(A2DP_GetNumberOfSubbandsSbc(codec_info_sbc), 8); EXPECT_EQ(A2DP_GetNumberOfSubbandsSbc(codec_info_aac), -1); EXPECT_EQ(A2DP_GetNumberOfSubbandsSbc(codec_info_non_a2dp), -1); } TEST_F(StackA2dpTest, test_a2dp_get_number_of_blocks_sbc) { EXPECT_EQ(A2DP_GetNumberOfBlocksSbc(codec_info_sbc), 16); EXPECT_EQ(A2DP_GetNumberOfBlocksSbc(codec_info_aac), -1); EXPECT_EQ(A2DP_GetNumberOfBlocksSbc(codec_info_non_a2dp), -1); } TEST_F(StackA2dpTest, test_a2dp_get_allocation_method_code_sbc) { EXPECT_EQ(A2DP_GetAllocationMethodCodeSbc(codec_info_sbc), 0); EXPECT_EQ(A2DP_GetAllocationMethodCodeSbc(codec_info_aac), -1); EXPECT_EQ(A2DP_GetAllocationMethodCodeSbc(codec_info_non_a2dp), -1); } TEST_F(StackA2dpTest, test_a2dp_get_channel_mode_code_sbc) { EXPECT_EQ(A2DP_GetChannelModeCodeSbc(codec_info_sbc), 3); EXPECT_EQ(A2DP_GetChannelModeCodeSbc(codec_info_aac), -1); EXPECT_EQ(A2DP_GetChannelModeCodeSbc(codec_info_non_a2dp), -1); } TEST_F(StackA2dpTest, test_a2dp_get_sampling_frequency_code_sbc) { EXPECT_EQ(A2DP_GetSamplingFrequencyCodeSbc(codec_info_sbc), 2); EXPECT_EQ(A2DP_GetSamplingFrequencyCodeSbc(codec_info_aac), -1); EXPECT_EQ(A2DP_GetSamplingFrequencyCodeSbc(codec_info_non_a2dp), -1); } TEST_F(StackA2dpTest, test_a2dp_get_min_bitpool_sbc) { EXPECT_EQ(A2DP_GetMinBitpoolSbc(codec_info_sbc), 2); EXPECT_EQ(A2DP_GetMinBitpoolSbc(codec_info_sbc_capability), 2); EXPECT_EQ(A2DP_GetMinBitpoolSbc(codec_info_sbc_sink_capability), 2); EXPECT_EQ(A2DP_GetMinBitpoolSbc(codec_info_aac), -1); EXPECT_EQ(A2DP_GetMinBitpoolSbc(codec_info_non_a2dp), -1); } TEST_F(StackA2dpTest, test_a2dp_get_max_bitpool_sbc) { EXPECT_EQ(A2DP_GetMaxBitpoolSbc(codec_info_sbc), 53); EXPECT_EQ(A2DP_GetMaxBitpoolSbc(codec_info_sbc_capability), 53); EXPECT_EQ(A2DP_GetMaxBitpoolSbc(codec_info_sbc_sink_capability), 53); EXPECT_EQ(A2DP_GetMaxBitpoolSbc(codec_info_aac), -1); EXPECT_EQ(A2DP_GetMaxBitpoolSbc(codec_info_non_a2dp), -1); } TEST_F(StackA2dpTest, test_a2dp_get_sink_track_channel_type) { EXPECT_EQ(A2DP_GetSinkTrackChannelType(codec_info_sbc), 3); EXPECT_EQ(A2DP_GetSinkTrackChannelType(codec_info_aac), 3); EXPECT_EQ(A2DP_GetSinkTrackChannelType(codec_info_non_a2dp), -1); } TEST_F(StackA2dpTest, test_a2dp_get_object_type_code_aac) { EXPECT_EQ(A2DP_GetObjectTypeCodeAac(codec_info_sbc), -1); EXPECT_EQ(A2DP_GetObjectTypeCodeAac(codec_info_aac), 0x80); EXPECT_EQ(A2DP_GetObjectTypeCodeAac(codec_info_non_a2dp), -1); } TEST_F(StackA2dpTest, test_a2dp_get_channel_mode_code_aac) { EXPECT_EQ(A2DP_GetChannelModeCodeAac(codec_info_sbc), -1); EXPECT_EQ(A2DP_GetChannelModeCodeAac(codec_info_aac), 0x04); EXPECT_EQ(A2DP_GetChannelModeCodeAac(codec_info_non_a2dp), -1); } TEST_F(StackA2dpTest, test_a2dp_get_variable_bit_rate_support_aac) { EXPECT_EQ(A2DP_GetVariableBitRateSupportAac(codec_info_sbc), -1); EXPECT_EQ(A2DP_GetVariableBitRateSupportAac(codec_info_aac), 0); EXPECT_EQ(A2DP_GetVariableBitRateSupportAac(codec_info_non_a2dp), -1); } TEST_F(StackA2dpTest, test_a2dp_get_bit_rate_aac) { EXPECT_EQ(A2DP_GetBitRateAac(codec_info_sbc), -1); EXPECT_EQ(A2DP_GetBitRateAac(codec_info_aac), 320000); EXPECT_EQ(A2DP_GetBitRateAac(codec_info_non_a2dp), -1); } TEST_F(StackA2dpTest, test_a2dp_get_packet_timestamp) { uint8_t a2dp_data[1000]; uint32_t timestamp; uint32_t* p_ts = reinterpret_cast(a2dp_data); memset(a2dp_data, 0xAB, sizeof(a2dp_data)); *p_ts = 0x12345678; timestamp = 0xFFFFFFFF; EXPECT_TRUE(A2DP_GetPacketTimestamp(codec_info_sbc, a2dp_data, ×tamp)); EXPECT_EQ(timestamp, static_cast(0x12345678)); memset(a2dp_data, 0xAB, sizeof(a2dp_data)); *p_ts = 0x12345678; timestamp = 0xFFFFFFFF; EXPECT_TRUE(A2DP_GetPacketTimestamp(codec_info_aac, a2dp_data, ×tamp)); EXPECT_EQ(timestamp, static_cast(0x12345678)); memset(a2dp_data, 0xAB, sizeof(a2dp_data)); *p_ts = 0x12345678; timestamp = 0xFFFFFFFF; EXPECT_FALSE( A2DP_GetPacketTimestamp(codec_info_non_a2dp, a2dp_data, ×tamp)); } TEST_F(StackA2dpTest, test_a2dp_build_codec_header) { uint8_t a2dp_data[1000]; BT_HDR* p_buf = reinterpret_cast(a2dp_data); const uint16_t BT_HDR_LEN = 500; const uint16_t BT_HDR_OFFSET = 50; const uint8_t FRAMES_PER_PACKET = 0xCD; memset(a2dp_data, 0xAB, sizeof(a2dp_data)); p_buf->len = BT_HDR_LEN; p_buf->offset = BT_HDR_OFFSET; EXPECT_TRUE(A2DP_BuildCodecHeader(codec_info_sbc, p_buf, FRAMES_PER_PACKET)); EXPECT_EQ(p_buf->offset + 1, BT_HDR_OFFSET); // Modified by A2DP_SBC_MPL_HDR_LEN EXPECT_EQ(p_buf->len - 1, BT_HDR_LEN); // Modified by A2DP_SBC_MPL_HDR_LEN const uint8_t* p = reinterpret_cast(p_buf + 1) + p_buf->offset; EXPECT_EQ( *p, static_cast(0x0D)); // 0xCD masked with A2DP_SBC_HDR_NUM_MSK memset(a2dp_data, 0xAB, sizeof(a2dp_data)); p_buf->len = BT_HDR_LEN; p_buf->offset = BT_HDR_OFFSET; EXPECT_TRUE(A2DP_BuildCodecHeader(codec_info_aac, p_buf, FRAMES_PER_PACKET)); memset(a2dp_data, 0xAB, sizeof(a2dp_data)); p_buf->len = BT_HDR_LEN; p_buf->offset = BT_HDR_OFFSET; EXPECT_FALSE( A2DP_BuildCodecHeader(codec_info_non_a2dp, p_buf, FRAMES_PER_PACKET)); } TEST_F(StackA2dpTest, test_a2dp_adjust_codec) { uint8_t codec_info_sbc_test[AVDT_CODEC_SIZE]; uint8_t codec_info_aac_test[AVDT_CODEC_SIZE]; uint8_t codec_info_non_a2dp_test[AVDT_CODEC_SIZE]; // Test updating a valid SBC codec that doesn't need adjustment memset(codec_info_sbc_test, 0xAB, sizeof(codec_info_sbc_test)); memcpy(codec_info_sbc_test, codec_info_sbc, sizeof(codec_info_sbc)); EXPECT_TRUE(A2DP_AdjustCodec(codec_info_sbc_test)); EXPECT_TRUE( memcmp(codec_info_sbc_test, codec_info_sbc, sizeof(codec_info_sbc)) == 0); // Test updating a valid SBC codec that needs adjustment memset(codec_info_sbc_test, 0xAB, sizeof(codec_info_sbc_test)); memcpy(codec_info_sbc_test, codec_info_sbc, sizeof(codec_info_sbc)); codec_info_sbc_test[6] = 54; // A2DP_SBC_MAX_BITPOOL + 1 EXPECT_TRUE(A2DP_AdjustCodec(codec_info_sbc_test)); EXPECT_TRUE( memcmp(codec_info_sbc_test, codec_info_sbc, sizeof(codec_info_sbc)) == 0); // Test updating an invalid SBC codec memset(codec_info_sbc_test, 0xAB, sizeof(codec_info_sbc_test)); memcpy(codec_info_sbc_test, codec_info_sbc, sizeof(codec_info_sbc)); codec_info_sbc_test[6] = 255; // Invalid MAX_BITPOOL EXPECT_FALSE(A2DP_AdjustCodec(codec_info_sbc_test)); // Test updating a valid AAC codec that doesn't need adjustment memset(codec_info_aac_test, 0xAB, sizeof(codec_info_aac_test)); memcpy(codec_info_aac_test, codec_info_aac, sizeof(codec_info_aac)); EXPECT_TRUE(A2DP_AdjustCodec(codec_info_aac_test)); EXPECT_TRUE( memcmp(codec_info_aac_test, codec_info_aac, sizeof(codec_info_aac)) == 0); // Test updating a non-A2DP codec that is not recognized memset(codec_info_non_a2dp_test, 0xAB, sizeof(codec_info_non_a2dp_test)); memcpy(codec_info_non_a2dp_test, codec_info_non_a2dp, sizeof(codec_info_non_a2dp)); EXPECT_FALSE(A2DP_AdjustCodec(codec_info_non_a2dp_test)); } TEST_F(StackA2dpTest, test_a2dp_source_codec_index) { // Explicit tests for known Source codecs EXPECT_EQ(A2DP_SourceCodecIndex(codec_info_sbc), BTAV_A2DP_CODEC_INDEX_SOURCE_SBC); EXPECT_EQ(A2DP_SourceCodecIndex(codec_info_sbc_capability), BTAV_A2DP_CODEC_INDEX_SOURCE_SBC); EXPECT_EQ(A2DP_SourceCodecIndex(codec_info_sbc_sink_capability), BTAV_A2DP_CODEC_INDEX_SOURCE_SBC); EXPECT_EQ(A2DP_SourceCodecIndex(codec_info_aac), BTAV_A2DP_CODEC_INDEX_SOURCE_AAC); EXPECT_EQ(A2DP_SourceCodecIndex(codec_info_aac_capability), BTAV_A2DP_CODEC_INDEX_SOURCE_AAC); EXPECT_EQ(A2DP_SourceCodecIndex(codec_info_aac_sink_capability), BTAV_A2DP_CODEC_INDEX_SOURCE_AAC); EXPECT_EQ(A2DP_SourceCodecIndex(codec_info_non_a2dp), BTAV_A2DP_CODEC_INDEX_MAX); } TEST_F(StackA2dpTest, test_a2dp_sink_codec_index) { // Explicit tests for known Sink codecs EXPECT_EQ(A2DP_SinkCodecIndex(codec_info_sbc), BTAV_A2DP_CODEC_INDEX_SINK_SBC); EXPECT_EQ(A2DP_SinkCodecIndex(codec_info_sbc_capability), BTAV_A2DP_CODEC_INDEX_SINK_SBC); EXPECT_EQ(A2DP_SinkCodecIndex(codec_info_sbc_sink_capability), BTAV_A2DP_CODEC_INDEX_SINK_SBC); EXPECT_EQ(A2DP_SinkCodecIndex(codec_info_aac), BTAV_A2DP_CODEC_INDEX_SINK_AAC); EXPECT_EQ(A2DP_SinkCodecIndex(codec_info_aac_capability), BTAV_A2DP_CODEC_INDEX_SINK_AAC); EXPECT_EQ(A2DP_SinkCodecIndex(codec_info_aac_sink_capability), BTAV_A2DP_CODEC_INDEX_SINK_AAC); EXPECT_EQ(A2DP_SinkCodecIndex(codec_info_non_a2dp), BTAV_A2DP_CODEC_INDEX_MAX); } TEST_F(StackA2dpTest, test_a2dp_codec_index_str) { // Explicit tests for known codecs EXPECT_STREQ(A2DP_CodecIndexStr(BTAV_A2DP_CODEC_INDEX_SOURCE_SBC), "SBC"); EXPECT_STREQ(A2DP_CodecIndexStr(BTAV_A2DP_CODEC_INDEX_SINK_SBC), "SBC SINK"); EXPECT_STREQ(A2DP_CodecIndexStr(BTAV_A2DP_CODEC_INDEX_SOURCE_AAC), "AAC"); // Test that the unknown codec string has not changed EXPECT_STREQ(A2DP_CodecIndexStr(BTAV_A2DP_CODEC_INDEX_MAX), "UNKNOWN CODEC INDEX"); // Test that each codec has a known string for (int i = BTAV_A2DP_CODEC_INDEX_MIN; i < BTAV_A2DP_CODEC_INDEX_MAX; i++) { btav_a2dp_codec_index_t codec_index = static_cast(i); EXPECT_STRNE(A2DP_CodecIndexStr(codec_index), "UNKNOWN CODEC INDEX"); } } TEST_F(StackA2dpTest, test_a2dp_init_codec_config) { AvdtpSepConfig avdt_cfg; // // Test for SBC Source // memset(&avdt_cfg, 0, sizeof(avdt_cfg)); EXPECT_TRUE( A2DP_InitCodecConfig(BTAV_A2DP_CODEC_INDEX_SOURCE_SBC, &avdt_cfg)); // Compare the result codec with the local test codec info for (size_t i = 0; i < codec_info_sbc_capability[0] + 1; i++) { EXPECT_EQ(avdt_cfg.codec_info[i], codec_info_sbc_capability[i]); } // Test for content protection #if (BTA_AV_CO_CP_SCMS_T == TRUE) EXPECT_EQ(avdt_cfg.protect_info[0], AVDT_CP_LOSC); EXPECT_EQ(avdt_cfg.protect_info[1], (AVDT_CP_SCMS_T_ID & 0xFF)); EXPECT_EQ(avdt_cfg.protect_info[2], ((AVDT_CP_SCMS_T_ID >> 8) & 0xFF)); EXPECT_EQ(avdt_cfg.num_protect, 1); #endif // // Test for SBC Sink // memset(&avdt_cfg, 0, sizeof(avdt_cfg)); EXPECT_TRUE(A2DP_InitCodecConfig(BTAV_A2DP_CODEC_INDEX_SINK_SBC, &avdt_cfg)); // Compare the result codec with the local test codec info for (size_t i = 0; i < codec_info_sbc_sink_capability[0] + 1; i++) { EXPECT_EQ(avdt_cfg.codec_info[i], codec_info_sbc_sink_capability[i]); } // // Test for AAC Source // memset(&avdt_cfg, 0, sizeof(avdt_cfg)); EXPECT_TRUE( A2DP_InitCodecConfig(BTAV_A2DP_CODEC_INDEX_SOURCE_AAC, &avdt_cfg)); // Compare the result codec with the local test codec info for (size_t i = 0; i < codec_info_aac_capability[0] + 1; i++) { EXPECT_EQ(avdt_cfg.codec_info[i], codec_info_aac_capability[i]); } // Test for content protection #if (BTA_AV_CO_CP_SCMS_T == TRUE) EXPECT_EQ(avdt_cfg.protect_info[0], AVDT_CP_LOSC); EXPECT_EQ(avdt_cfg.protect_info[1], (AVDT_CP_SCMS_T_ID & 0xFF)); EXPECT_EQ(avdt_cfg.protect_info[2], ((AVDT_CP_SCMS_T_ID >> 8) & 0xFF)); EXPECT_EQ(avdt_cfg.num_protect, 1); #endif } TEST_F(A2dpCodecConfigTest, createCodec) { for (int i = BTAV_A2DP_CODEC_INDEX_MIN; i < BTAV_A2DP_CODEC_INDEX_MAX; i++) { btav_a2dp_codec_index_t codec_index = static_cast(i); // Ignore codecs that are not supported on the device if (!has_codec_support(codec_index)) { continue; } A2dpCodecConfig* codec_config = A2dpCodecConfig::createCodec(codec_index); EXPECT_NE(codec_config, nullptr); EXPECT_EQ(codec_config->codecIndex(), codec_index); EXPECT_FALSE(codec_config->name().empty()); EXPECT_NE(codec_config->codecPriority(), BTAV_A2DP_CODEC_PRIORITY_DISABLED); EXPECT_NE(codec_config->codecPriority(), BTAV_A2DP_CODEC_PRIORITY_DEFAULT); delete codec_config; } } TEST_F(A2dpCodecConfigTest, setCodecConfig) { uint8_t codec_info_result[AVDT_CODEC_SIZE]; btav_a2dp_codec_index_t peer_codec_index; A2dpCodecs* a2dp_codecs = new A2dpCodecs(std::vector()); A2dpCodecConfig* codec_config; EXPECT_TRUE(a2dp_codecs->init()); // Create the codec capability - SBC memset(codec_info_result, 0, sizeof(codec_info_result)); peer_codec_index = A2DP_SourceCodecIndex(codec_info_sbc_sink_capability); EXPECT_NE(peer_codec_index, BTAV_A2DP_CODEC_INDEX_MAX); codec_config = a2dp_codecs->findSourceCodecConfig(codec_info_sbc_sink_capability); EXPECT_NE(codec_config, nullptr); EXPECT_TRUE(a2dp_codecs->setCodecConfig( codec_info_sbc_sink_capability, true /* is_capability */, codec_info_result, true /* select_current_codec */)); EXPECT_EQ(a2dp_codecs->getCurrentCodecConfig(), codec_config); // Compare the result codec with the local test codec info for (size_t i = 0; i < codec_info_sbc[0] + 1; i++) { EXPECT_EQ(codec_info_result[i], codec_info_sbc[i]); } EXPECT_EQ(codec_config->getAudioBitsPerSample(), 16); // Create the codec capability - AAC memset(codec_info_result, 0, sizeof(codec_info_result)); peer_codec_index = A2DP_SourceCodecIndex(codec_info_aac_sink_capability); EXPECT_NE(peer_codec_index, BTAV_A2DP_CODEC_INDEX_MAX); codec_config = a2dp_codecs->findSourceCodecConfig(codec_info_aac_sink_capability); EXPECT_NE(codec_config, nullptr); EXPECT_TRUE(a2dp_codecs->setCodecConfig( codec_info_aac_sink_capability, true /* is_capability */, codec_info_result, true /* select_current_codec */)); EXPECT_EQ(a2dp_codecs->getCurrentCodecConfig(), codec_config); // Compare the result codec with the local test codec info for (size_t i = 0; i < codec_info_aac[0] + 1; i++) { EXPECT_EQ(codec_info_result[i], codec_info_aac[i]); } EXPECT_EQ(codec_config->getAudioBitsPerSample(), 16); // Create the codec config - SBC memset(codec_info_result, 0, sizeof(codec_info_result)); peer_codec_index = A2DP_SourceCodecIndex(codec_info_sbc); EXPECT_NE(peer_codec_index, BTAV_A2DP_CODEC_INDEX_MAX); codec_config = a2dp_codecs->findSourceCodecConfig(codec_info_sbc); EXPECT_NE(codec_config, nullptr); EXPECT_TRUE(a2dp_codecs->setCodecConfig( codec_info_sbc, false /* is_capability */, codec_info_result, true /* select_current_codec */)); EXPECT_EQ(a2dp_codecs->getCurrentCodecConfig(), codec_config); // Compare the result codec with the local test codec info for (size_t i = 0; i < codec_info_sbc[0] + 1; i++) { EXPECT_EQ(codec_info_result[i], codec_info_sbc[i]); } EXPECT_FALSE(codec_config->useRtpHeaderMarkerBit()); // Create the codec config - AAC memset(codec_info_result, 0, sizeof(codec_info_result)); peer_codec_index = A2DP_SourceCodecIndex(codec_info_aac); EXPECT_NE(peer_codec_index, BTAV_A2DP_CODEC_INDEX_MAX); codec_config = a2dp_codecs->findSourceCodecConfig(codec_info_aac); EXPECT_NE(codec_config, nullptr); EXPECT_TRUE(a2dp_codecs->setCodecConfig( codec_info_aac, false /* is_capability */, codec_info_result, true /* select_current_codec */)); EXPECT_EQ(a2dp_codecs->getCurrentCodecConfig(), codec_config); // Compare the result codec with the local test codec info for (size_t i = 0; i < codec_info_aac[0] + 1; i++) { EXPECT_EQ(codec_info_result[i], codec_info_aac[i]); } EXPECT_TRUE(codec_config->useRtpHeaderMarkerBit()); // Create the codec capability - SBC Sink memset(codec_info_result, 0, sizeof(codec_info_result)); peer_codec_index = A2DP_SinkCodecIndex(codec_info_sbc_capability); EXPECT_NE(peer_codec_index, BTAV_A2DP_CODEC_INDEX_MAX); codec_config = a2dp_codecs->findSinkCodecConfig(codec_info_sbc_capability); EXPECT_NE(codec_config, nullptr); EXPECT_TRUE(a2dp_codecs->setSinkCodecConfig( codec_info_sbc_capability, true /* is_capability */, codec_info_result, true /* select_current_codec */)); EXPECT_EQ(a2dp_codecs->getCurrentCodecConfig(), codec_config); // Compare the result codec with the local test codec info for (size_t i = 0; i < codec_info_sbc[0] + 1; i++) { EXPECT_EQ(codec_info_result[i], codec_info_sbc[i]); } EXPECT_EQ(codec_config->getAudioBitsPerSample(), 16); // Create the codec capability - AAC Sink memset(codec_info_result, 0, sizeof(codec_info_result)); peer_codec_index = A2DP_SinkCodecIndex(codec_info_aac_capability); EXPECT_NE(peer_codec_index, BTAV_A2DP_CODEC_INDEX_MAX); codec_config = a2dp_codecs->findSinkCodecConfig(codec_info_aac_capability); EXPECT_NE(codec_config, nullptr); EXPECT_TRUE(a2dp_codecs->setSinkCodecConfig( codec_info_aac_capability, true /* is_capability */, codec_info_result, true /* select_current_codec */)); EXPECT_EQ(a2dp_codecs->getCurrentCodecConfig(), codec_config); // Compare the result codec with the local test codec info for (size_t i = 0; i < codec_info_aac[0] + 1; i++) { EXPECT_EQ(codec_info_result[i], codec_info_aac[i]); } EXPECT_EQ(codec_config->getAudioBitsPerSample(), 16); // Create the codec config - SBC Sink memset(codec_info_result, 0, sizeof(codec_info_result)); peer_codec_index = A2DP_SinkCodecIndex(codec_info_sbc); EXPECT_NE(peer_codec_index, BTAV_A2DP_CODEC_INDEX_MAX); codec_config = a2dp_codecs->findSinkCodecConfig(codec_info_sbc); EXPECT_NE(codec_config, nullptr); EXPECT_TRUE(a2dp_codecs->setSinkCodecConfig( codec_info_sbc, false /* is_capability */, codec_info_result, true /* select_current_codec */)); EXPECT_EQ(a2dp_codecs->getCurrentCodecConfig(), codec_config); // Compare the result codec with the local test codec info for (size_t i = 0; i < codec_info_sbc[0] + 1; i++) { EXPECT_EQ(codec_info_result[i], codec_info_sbc[i]); } EXPECT_EQ(codec_config->getAudioBitsPerSample(), 16); // Create the codec config - AAC Sink memset(codec_info_result, 0, sizeof(codec_info_result)); peer_codec_index = A2DP_SinkCodecIndex(codec_info_aac); EXPECT_NE(peer_codec_index, BTAV_A2DP_CODEC_INDEX_MAX); codec_config = a2dp_codecs->findSinkCodecConfig(codec_info_aac); EXPECT_NE(codec_config, nullptr); EXPECT_TRUE(a2dp_codecs->setSinkCodecConfig( codec_info_aac, false /* is_capability */, codec_info_result, true /* select_current_codec */)); EXPECT_EQ(a2dp_codecs->getCurrentCodecConfig(), codec_config); // Compare the result codec with the local test codec info for (size_t i = 0; i < codec_info_aac[0] + 1; i++) { EXPECT_EQ(codec_info_result[i], codec_info_aac[i]); } EXPECT_EQ(codec_config->getAudioBitsPerSample(), 16); // Test invalid codec info uint8_t codec_info_sbc_test1[AVDT_CODEC_SIZE]; memset(codec_info_result, 0, sizeof(codec_info_result)); memset(codec_info_sbc_test1, 0, sizeof(codec_info_sbc_test1)); EXPECT_FALSE(a2dp_codecs->setCodecConfig( codec_info_sbc_test1, true /* is_capability */, codec_info_result, true /* select_current_codec */)); delete a2dp_codecs; } TEST_F(A2dpCodecConfigTest, init) { std::vector default_priorities; A2dpCodecs codecs(default_priorities); EXPECT_TRUE(codecs.init()); const std::list orderedSourceCodecs = codecs.orderedSourceCodecs(); EXPECT_FALSE(orderedSourceCodecs.empty()); const std::list orderedSinkCodecs = codecs.orderedSinkCodecs(); EXPECT_FALSE(orderedSinkCodecs.empty()); }