/* * Copyright (C) 2022 BlueKitchen GmbH * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. Neither the name of the copyright holders nor the names of * contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY BLUEKITCHEN GMBH AND CONTRIBUTORS * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL BLUEKITCHEN * GMBH OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS * OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF * THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * */ /** * @title LC3 EHIMA Wrapper */ #include "btstack_config.h" #include "bluetooth.h" #ifdef HAVE_LC3_EHIMA #include "lc3_ehima.h" #include #include #include /* Decoder implementation */ static uint8_t lc3_decoder_ehima_configure(void * context, uint32_t sample_rate, lc3_frame_duration_t frame_duration){ lc3_decoder_ehima_t * instance = static_cast(context); // free decoder if it exists if (instance->decoder != NULL){ delete instance; instance->decoder = NULL; } // store config instance->sample_rate = sample_rate; instance->frame_duration = frame_duration; // map frame duration Lc3Config::FrameDuration duration; switch (frame_duration) { case LC3_FRAME_DURATION_7500US: duration = Lc3Config::FrameDuration::d7p5ms; break; case LC3_FRAME_DURATION_10000US: duration = Lc3Config::FrameDuration::d10ms; break; default: return ERROR_CODE_INVALID_HCI_COMMAND_PARAMETERS; } // create new decoder instance instance->decoder = new Lc3Decoder(instance->sample_rate, duration); return ERROR_CODE_SUCCESS; } static uint16_t lc3_decoder_ehima_get_number_octets_for_bitrate(void * context, uint32_t bitrate){ lc3_decoder_ehima_t * instance = static_cast(context); Lc3Decoder * decoder = static_cast(instance->decoder); return decoder->lc3Config.getByteCountFromBitrate(bitrate); } static uint16_t lc3_decoder_ehima_get_number_samples_per_frame(void * context){ lc3_decoder_ehima_t * instance = static_cast(context); Lc3Decoder * decoder = static_cast(instance->decoder); return decoder->lc3Config.NF; } static uint8_t lc3_decoder_ehima_decode(void * context, const uint8_t *bytes, uint16_t byte_count, uint8_t BFI, int16_t* pcm_out, uint16_t pcm_out_size, uint8_t * BEC_detect){ lc3_decoder_ehima_t * instance = static_cast(context); Lc3Decoder * decoder = static_cast(instance->decoder); uint8_t res = decoder->run(bytes, byte_count, BFI, pcm_out, pcm_out_size, *BEC_detect); return ERROR_CODE_SUCCESS; } static const lc3_decoder_t l3c_decoder_ehima_instance = { lc3_decoder_ehima_configure, lc3_decoder_ehima_get_number_octets_for_bitrate, lc3_decoder_ehima_get_number_samples_per_frame, lc3_decoder_ehima_decode }; const lc3_decoder_t * lc3_decoder_ehima_init_instance(lc3_decoder_ehima_t * context){ memset(context, 0, sizeof(lc3_decoder_ehima_t)); return &l3c_decoder_ehima_instance; } /* Encoder implementation */ static uint8_t lc3_encoder_ehima_configure(void * context, uint32_t sample_rate, lc3_frame_duration_t frame_duration){ lc3_encoder_ehima_t * instance = static_cast(context); // free decoder if it exists if (instance->encoder != NULL){ delete instance; instance->encoder = NULL; } // store config instance->sample_rate = sample_rate; instance->frame_duration = frame_duration; // map frame duration Lc3Config::FrameDuration duration; switch (frame_duration) { case LC3_FRAME_DURATION_7500US: duration = Lc3Config::FrameDuration::d7p5ms; break; case LC3_FRAME_DURATION_10000US: duration = Lc3Config::FrameDuration::d10ms; break; default: return ERROR_CODE_INVALID_HCI_COMMAND_PARAMETERS; } // create config instance Lc3Config lc3_encoder_config(sample_rate, duration, 1); // create new decoder instance instance->encoder = new Lc3Encoder(lc3_encoder_config); return ERROR_CODE_SUCCESS; } static uint32_t lc3_encoder_ehima_get_bitrate_for_number_of_octets(void * context, uint16_t number_of_octets){ lc3_encoder_ehima_t * instance = static_cast(context); Lc3Encoder * encoder = static_cast(instance->encoder); return encoder->lc3Config.getBitrateFromByteCount(number_of_octets); } static uint16_t lc3_encoder_ehima_get_number_samples_per_frame(void * context){ lc3_encoder_ehima_t * instance = static_cast(context); Lc3Encoder * encoder = static_cast(instance->encoder); return encoder->lc3Config.NF; } static uint8_t lc3_encoder_ehima_encode(void * context, const int16_t* pcm_in, uint8_t *bytes, uint16_t byte_count){ lc3_encoder_ehima_t * instance = static_cast(context); Lc3Encoder * encoder = static_cast(instance->encoder); uint8_t res = encoder->run(pcm_in, byte_count, bytes); return ERROR_CODE_SUCCESS; } static const lc3_encoder_t l3c_encoder_ehima_instance = { lc3_encoder_ehima_configure, lc3_encoder_ehima_get_bitrate_for_number_of_octets, lc3_encoder_ehima_get_number_samples_per_frame, lc3_encoder_ehima_encode }; const lc3_encoder_t * lc3_encoder_ehima_init_instance(lc3_encoder_ehima_t * context){ memset(context, 0, sizeof(lc3_decoder_ehima_t)); return &l3c_encoder_ehima_instance; } /* Datapoints implementation needed */ #include "Datapoints.hpp" #include #include #include class ContainerRealization { }; DatapointContainer::DatapointContainer() : m_pContainer(nullptr) { // nothing stored yet; we may integrate a complete datapoint container when more debugging // is needed in the android context (void) m_pContainer; } DatapointContainer::~DatapointContainer() { } void DatapointContainer::addDatapoint(const char* label, Datapoint* pDatapoint) { } void DatapointContainer::addDatapoint(const char* label, void* pData, uint16_t sizeInBytes) { } void DatapointContainer::addDatapoint(const char* label, const void* pData, uint16_t sizeInBytes) { } void DatapointContainer::log(const char* label, const void* pData, uint16_t sizeInBytes) { // Note: this is just a first simple step to demonstrate the possibilities we have. // In this case the datapoint label its size in bytes and its content as hex-byte-stream // is send to cout. const uint8_t* pByteData = reinterpret_cast(pData); std::string valueAsHexString("0x"); std::ostringstream vStream; vStream << "0x"; for (uint16_t byteNr=0; byteNr < sizeInBytes; byteNr++) { vStream << std::right << std::setw(2) << std::setfill('0') << std::hex << static_cast(pByteData[byteNr]); } std::cout << label << "[" << sizeInBytes << "]:" << vStream.str(); } uint16_t DatapointContainer::getDatapointSize(const char* label) { return 0; } bool DatapointContainer::getDatapointValue(const char* label, void* pDataBuffer, uint16_t bufferSize) { return false; } bool DatapointContainer::setDatapointValue(const char* label, const void* pDataBuffer, uint16_t bufferSize) { return false; } #endif