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615 lines
22 KiB
C
615 lines
22 KiB
C
/******************************************************************************
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*
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* Copyright (C) 2004-2012 Broadcom Corporation
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at:
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*
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******************************************************************************/
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/******************************************************************************
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*
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* This module contains utility functions for dealing with SBC data frames
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* and codec capabilities.
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*
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******************************************************************************/
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#include "bt_target.h"
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#include "a2d_api.h"
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#include "a2d_sbc.h"
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#include "bta_av_sbc.h"
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#include "utl.h"
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#include "bt_utils.h"
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#if defined(BTA_AV_INCLUDED) && (BTA_AV_INCLUDED == TRUE)
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typedef int (tBTA_AV_SBC_ACT)(void *p_src, void *p_dst,
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UINT32 src_samples, UINT32 dst_samples,
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UINT32 *p_ret);
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typedef struct {
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INT32 cur_pos; /* current position */
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UINT32 src_sps; /* samples per second (source audio data) */
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UINT32 dst_sps; /* samples per second (converted audio data) */
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tBTA_AV_SBC_ACT *p_act; /* the action function to do the conversion */
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UINT16 bits; /* number of bits per pcm sample */
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UINT16 n_channels; /* number of channels (i.e. mono(1), stereo(2)...) */
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INT16 worker1;
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INT16 worker2;
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UINT8 div;
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} tBTA_AV_SBC_UPS_CB;
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tBTA_AV_SBC_UPS_CB bta_av_sbc_ups_cb;
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/*******************************************************************************
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**
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** Function bta_av_sbc_init_up_sample
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**
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** Description initialize the up sample
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**
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** src_sps: samples per second (source audio data)
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** dst_sps: samples per second (converted audio data)
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** bits: number of bits per pcm sample
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** n_channels: number of channels (i.e. mono(1), stereo(2)...)
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**
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** Returns none
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**
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*******************************************************************************/
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void bta_av_sbc_init_up_sample (UINT32 src_sps, UINT32 dst_sps, UINT16 bits, UINT16 n_channels)
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{
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bta_av_sbc_ups_cb.cur_pos = -1;
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bta_av_sbc_ups_cb.src_sps = src_sps;
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bta_av_sbc_ups_cb.dst_sps = dst_sps;
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bta_av_sbc_ups_cb.bits = bits;
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bta_av_sbc_ups_cb.n_channels = n_channels;
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if (n_channels == 1) {
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/* mono */
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if (bits == 8) {
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bta_av_sbc_ups_cb.p_act = bta_av_sbc_up_sample_8m;
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bta_av_sbc_ups_cb.div = 1;
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} else {
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bta_av_sbc_ups_cb.p_act = bta_av_sbc_up_sample_16m;
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bta_av_sbc_ups_cb.div = 2;
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}
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} else {
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/* stereo */
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if (bits == 8) {
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bta_av_sbc_ups_cb.p_act = bta_av_sbc_up_sample_8s;
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bta_av_sbc_ups_cb.div = 2;
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} else {
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bta_av_sbc_ups_cb.p_act = bta_av_sbc_up_sample_16s;
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bta_av_sbc_ups_cb.div = 4;
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}
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}
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}
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/*******************************************************************************
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**
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** Function bta_av_sbc_up_sample
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**
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** Description Given the source (p_src) audio data and
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** source speed (src_sps, samples per second),
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** This function converts it to audio data in the desired format
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**
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** p_src: the data buffer that holds the source audio data
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** p_dst: the data buffer to hold the converted audio data
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** src_samples: The number of source samples (number of bytes)
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** dst_samples: The size of p_dst (number of bytes)
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**
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** Note: An AE reported an issue with this function.
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** When called with bta_av_sbc_up_sample(src, uint8_array_dst..)
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** the byte before uint8_array_dst may get overwritten.
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** Using uint16_array_dst avoids the problem.
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** This issue is related to endian-ness and is hard to resolve
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** in a generic manner.
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** **************** Please use uint16 array as dst.
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**
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** Returns The number of bytes used in p_dst
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** The number of bytes used in p_src (in *p_ret)
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**
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*******************************************************************************/
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int bta_av_sbc_up_sample (void *p_src, void *p_dst,
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UINT32 src_samples, UINT32 dst_samples,
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UINT32 *p_ret)
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{
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UINT32 src;
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UINT32 dst;
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if (bta_av_sbc_ups_cb.p_act) {
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src = src_samples / bta_av_sbc_ups_cb.div;
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dst = dst_samples / bta_av_sbc_ups_cb.div;
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return (*bta_av_sbc_ups_cb.p_act)(p_src, p_dst, src, dst, p_ret);
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} else {
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*p_ret = 0;
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return 0;
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}
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}
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/*******************************************************************************
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**
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** Function bta_av_sbc_up_sample_16s (16bits-stereo)
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**
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** Description Given the source (p_src) audio data and
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** source speed (src_sps, samples per second),
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** This function converts it to audio data in the desired format
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**
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** p_src: the data buffer that holds the source audio data
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** p_dst: the data buffer to hold the converted audio data
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** src_samples: The number of source samples (in uint of 4 bytes)
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** dst_samples: The size of p_dst (in uint of 4 bytes)
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**
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** Returns The number of bytes used in p_dst
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** The number of bytes used in p_src (in *p_ret)
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**
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*******************************************************************************/
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int bta_av_sbc_up_sample_16s (void *p_src, void *p_dst,
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UINT32 src_samples, UINT32 dst_samples,
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UINT32 *p_ret)
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{
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INT16 *p_src_tmp = (INT16 *)p_src;
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INT16 *p_dst_tmp = (INT16 *)p_dst;
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INT16 *p_worker1 = &bta_av_sbc_ups_cb.worker1;
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INT16 *p_worker2 = &bta_av_sbc_ups_cb.worker2;
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UINT32 src_sps = bta_av_sbc_ups_cb.src_sps;
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UINT32 dst_sps = bta_av_sbc_ups_cb.dst_sps;
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while (bta_av_sbc_ups_cb.cur_pos > 0 && dst_samples) {
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*p_dst_tmp++ = *p_worker1;
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*p_dst_tmp++ = *p_worker2;
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bta_av_sbc_ups_cb.cur_pos -= src_sps;
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dst_samples--;
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}
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bta_av_sbc_ups_cb.cur_pos = dst_sps;
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while (src_samples-- && dst_samples) {
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*p_worker1 = *p_src_tmp++;
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*p_worker2 = *p_src_tmp++;
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do {
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*p_dst_tmp++ = *p_worker1;
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*p_dst_tmp++ = *p_worker2;
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bta_av_sbc_ups_cb.cur_pos -= src_sps;
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dst_samples--;
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} while (bta_av_sbc_ups_cb.cur_pos > 0 && dst_samples);
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bta_av_sbc_ups_cb.cur_pos += dst_sps;
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}
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if (bta_av_sbc_ups_cb.cur_pos == (INT32)dst_sps) {
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bta_av_sbc_ups_cb.cur_pos = 0;
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}
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*p_ret = ((char *)p_src_tmp - (char *)p_src);
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return ((char *)p_dst_tmp - (char *)p_dst);
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}
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/*******************************************************************************
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**
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** Function bta_av_sbc_up_sample_16m (16bits-mono)
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**
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** Description Given the source (p_src) audio data and
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** source speed (src_sps, samples per second),
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** This function converts it to audio data in the desired format
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**
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** p_src: the data buffer that holds the source audio data
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** p_dst: the data buffer to hold the converted audio data
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** src_samples: The number of source samples (in uint of 2 bytes)
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** dst_samples: The size of p_dst (in uint of 2 bytes)
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**
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** Returns The number of bytes used in p_dst
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** The number of bytes used in p_src (in *p_ret)
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**
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*******************************************************************************/
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int bta_av_sbc_up_sample_16m (void *p_src, void *p_dst,
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UINT32 src_samples, UINT32 dst_samples,
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UINT32 *p_ret)
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{
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INT16 *p_src_tmp = (INT16 *)p_src;
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INT16 *p_dst_tmp = (INT16 *)p_dst;
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INT16 *p_worker = &bta_av_sbc_ups_cb.worker1;
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UINT32 src_sps = bta_av_sbc_ups_cb.src_sps;
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UINT32 dst_sps = bta_av_sbc_ups_cb.dst_sps;
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while (bta_av_sbc_ups_cb.cur_pos > 0 && dst_samples) {
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*p_dst_tmp++ = *p_worker;
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*p_dst_tmp++ = *p_worker;
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bta_av_sbc_ups_cb.cur_pos -= src_sps;
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dst_samples--;
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dst_samples--;
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}
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bta_av_sbc_ups_cb.cur_pos = dst_sps;
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while (src_samples-- && dst_samples) {
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*p_worker = *p_src_tmp++;
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do {
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*p_dst_tmp++ = *p_worker;
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*p_dst_tmp++ = *p_worker;
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bta_av_sbc_ups_cb.cur_pos -= src_sps;
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dst_samples--;
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dst_samples--;
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} while (bta_av_sbc_ups_cb.cur_pos > 0 && dst_samples);
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bta_av_sbc_ups_cb.cur_pos += dst_sps;
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}
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if (bta_av_sbc_ups_cb.cur_pos == (INT32)dst_sps) {
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bta_av_sbc_ups_cb.cur_pos = 0;
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}
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*p_ret = ((char *)p_src_tmp - (char *)p_src);
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return ((char *)p_dst_tmp - (char *)p_dst);
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}
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/*******************************************************************************
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**
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** Function bta_av_sbc_up_sample_8s (8bits-stereo)
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**
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** Description Given the source (p_src) audio data and
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** source speed (src_sps, samples per second),
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** This function converts it to audio data in the desired format
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**
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** p_src: the data buffer that holds the source audio data
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** p_dst: the data buffer to hold the converted audio data
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** src_samples: The number of source samples (in uint of 2 bytes)
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** dst_samples: The size of p_dst (in uint of 2 bytes)
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**
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** Returns The number of bytes used in p_dst
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** The number of bytes used in p_src (in *p_ret)
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**
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*******************************************************************************/
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int bta_av_sbc_up_sample_8s (void *p_src, void *p_dst,
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UINT32 src_samples, UINT32 dst_samples,
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UINT32 *p_ret)
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{
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UINT8 *p_src_tmp = (UINT8 *)p_src;
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INT16 *p_dst_tmp = (INT16 *)p_dst;
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INT16 *p_worker1 = &bta_av_sbc_ups_cb.worker1;
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INT16 *p_worker2 = &bta_av_sbc_ups_cb.worker2;
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UINT32 src_sps = bta_av_sbc_ups_cb.src_sps;
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UINT32 dst_sps = bta_av_sbc_ups_cb.dst_sps;
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while (bta_av_sbc_ups_cb.cur_pos > 0 && dst_samples) {
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*p_dst_tmp++ = *p_worker1;
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*p_dst_tmp++ = *p_worker2;
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bta_av_sbc_ups_cb.cur_pos -= src_sps;
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dst_samples--;
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dst_samples--;
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}
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bta_av_sbc_ups_cb.cur_pos = dst_sps;
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while (src_samples -- && dst_samples) {
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*p_worker1 = *(UINT8 *)p_src_tmp++;
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*p_worker1 -= 0x80;
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*p_worker1 <<= 8;
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*p_worker2 = *(UINT8 *)p_src_tmp++;
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*p_worker2 -= 0x80;
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*p_worker2 <<= 8;
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do {
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*p_dst_tmp++ = *p_worker1;
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*p_dst_tmp++ = *p_worker2;
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bta_av_sbc_ups_cb.cur_pos -= src_sps;
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dst_samples--;
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dst_samples--;
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} while (bta_av_sbc_ups_cb.cur_pos > 0 && dst_samples);
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bta_av_sbc_ups_cb.cur_pos += dst_sps;
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}
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if (bta_av_sbc_ups_cb.cur_pos == (INT32)dst_sps) {
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bta_av_sbc_ups_cb.cur_pos = 0;
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}
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*p_ret = ((char *)p_src_tmp - (char *)p_src);
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return ((char *)p_dst_tmp - (char *)p_dst);
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}
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/*******************************************************************************
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**
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** Function bta_av_sbc_up_sample_8m (8bits-mono)
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**
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** Description Given the source (p_src) audio data and
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** source speed (src_sps, samples per second),
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** This function converts it to audio data in the desired format
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**
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** p_src: the data buffer that holds the source audio data
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** p_dst: the data buffer to hold the converted audio data
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** src_samples: The number of source samples (number of bytes)
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** dst_samples: The size of p_dst (number of bytes)
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**
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** Returns The number of bytes used in p_dst
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** The number of bytes used in p_src (in *p_ret)
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**
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*******************************************************************************/
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int bta_av_sbc_up_sample_8m (void *p_src, void *p_dst,
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UINT32 src_samples, UINT32 dst_samples,
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UINT32 *p_ret)
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{
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UINT8 *p_src_tmp = (UINT8 *)p_src;
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INT16 *p_dst_tmp = (INT16 *)p_dst;
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INT16 *p_worker = &bta_av_sbc_ups_cb.worker1;
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UINT32 src_sps = bta_av_sbc_ups_cb.src_sps;
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UINT32 dst_sps = bta_av_sbc_ups_cb.dst_sps;
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while (bta_av_sbc_ups_cb.cur_pos > 0 && dst_samples) {
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*p_dst_tmp++ = *p_worker;
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*p_dst_tmp++ = *p_worker;
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bta_av_sbc_ups_cb.cur_pos -= src_sps;
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dst_samples -= 4;
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}
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bta_av_sbc_ups_cb.cur_pos = dst_sps;
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while (src_samples-- && dst_samples) {
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*p_worker = *(UINT8 *)p_src_tmp++;
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*p_worker -= 0x80;
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*p_worker <<= 8;
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do {
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*p_dst_tmp++ = *p_worker;
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*p_dst_tmp++ = *p_worker;
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bta_av_sbc_ups_cb.cur_pos -= src_sps;
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dst_samples -= 4;
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} while (bta_av_sbc_ups_cb.cur_pos > 0 && dst_samples);
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bta_av_sbc_ups_cb.cur_pos += dst_sps;
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}
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if (bta_av_sbc_ups_cb.cur_pos == (INT32)dst_sps) {
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bta_av_sbc_ups_cb.cur_pos = 0;
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}
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*p_ret = ((char *)p_src_tmp - (char *)p_src);
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return ((char *)p_dst_tmp - (char *)p_dst);
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}
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/*******************************************************************************
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**
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** Function bta_av_sbc_cfg_for_cap
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**
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** Description Determine the preferred SBC codec configuration for the
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** given codec capabilities. The function is passed the
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** preferred codec configuration and the peer codec
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** capabilities for the stream. The function attempts to
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** match the preferred capabilities with the configuration
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** as best it can. The resulting codec configuration is
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** returned in the same memory used for the capabilities.
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**
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** Returns 0 if ok, nonzero if error.
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** Codec configuration in p_cap.
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**
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*******************************************************************************/
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UINT8 bta_av_sbc_cfg_for_cap(UINT8 *p_peer, tA2D_SBC_CIE *p_cap, tA2D_SBC_CIE *p_pref)
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{
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UINT8 status = A2D_SUCCESS;
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tA2D_SBC_CIE peer_cie;
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UNUSED(p_cap);
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/* parse peer capabilities */
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if ((status = A2D_ParsSbcInfo(&peer_cie, p_peer, TRUE)) != 0) {
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return status;
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}
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/* Check if the peer supports our channel mode */
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if (peer_cie.ch_mode & p_pref->ch_mode) {
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peer_cie.ch_mode = p_pref->ch_mode;
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} else {
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APPL_TRACE_ERROR("bta_av_sbc_cfg_for_cap: ch_mode(0x%02X) not supported", p_pref->ch_mode);
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return A2D_FAIL;
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}
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/* Check if the peer supports our sampling freq */
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if (peer_cie.samp_freq & p_pref->samp_freq) {
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peer_cie.samp_freq = p_pref->samp_freq;
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} else {
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APPL_TRACE_ERROR("bta_av_sbc_cfg_for_cap: samp_freq(0x%02X) not supported", p_pref->samp_freq);
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return A2D_FAIL;
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}
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/* Check if the peer supports our block len */
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if (peer_cie.block_len & p_pref->block_len) {
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peer_cie.block_len = p_pref->block_len;
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} else {
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APPL_TRACE_ERROR("bta_av_sbc_cfg_for_cap: block_len(0x%02X) not supported", p_pref->block_len);
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return A2D_FAIL;
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}
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/* Check if the peer supports our num subbands */
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if (peer_cie.num_subbands & p_pref->num_subbands) {
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peer_cie.num_subbands = p_pref->num_subbands;
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} else {
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APPL_TRACE_ERROR("bta_av_sbc_cfg_for_cap: num_subbands(0x%02X) not supported", p_pref->num_subbands);
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return A2D_FAIL;
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}
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/* Check if the peer supports our alloc method */
|
|
if (peer_cie.alloc_mthd & p_pref->alloc_mthd) {
|
|
peer_cie.alloc_mthd = p_pref->alloc_mthd;
|
|
} else {
|
|
APPL_TRACE_ERROR("bta_av_sbc_cfg_for_cap: alloc_mthd(0x%02X) not supported", p_pref->alloc_mthd);
|
|
return A2D_FAIL;
|
|
}
|
|
|
|
/* max bitpool */
|
|
if (p_pref->max_bitpool != 0 && p_pref->max_bitpool < peer_cie.max_bitpool) {
|
|
peer_cie.max_bitpool = p_pref->max_bitpool;
|
|
}
|
|
|
|
/* min bitpool */
|
|
if (p_pref->min_bitpool != 0 && p_pref->min_bitpool > peer_cie.min_bitpool) {
|
|
peer_cie.min_bitpool = p_pref->min_bitpool;
|
|
}
|
|
|
|
if (status == A2D_SUCCESS) {
|
|
/* build configuration */
|
|
A2D_BldSbcInfo(A2D_MEDIA_TYPE_AUDIO, &peer_cie, p_peer);
|
|
}
|
|
return status;
|
|
}
|
|
|
|
/*******************************************************************************
|
|
**
|
|
** Function bta_av_sbc_cfg_matches_cap
|
|
**
|
|
** Description This function checks whether an SBC codec configuration
|
|
** matched with capabilities. Here we check subset.
|
|
**
|
|
** Returns 0 if ok, nonzero if error.
|
|
**
|
|
*******************************************************************************/
|
|
UINT8 bta_av_sbc_cfg_matches_cap(UINT8 *p_cfg, tA2D_SBC_CIE *p_cap)
|
|
{
|
|
UINT8 status = 0;
|
|
tA2D_SBC_CIE cfg_cie;
|
|
|
|
/* parse configuration */
|
|
if ((status = A2D_ParsSbcInfo(&cfg_cie, p_cfg, TRUE)) != 0) {
|
|
APPL_TRACE_ERROR(" bta_av_sbc_cfg_matches_cap Parsing Failed %d", status);
|
|
return status;
|
|
}
|
|
|
|
/* verify that each parameter is in range */
|
|
|
|
APPL_TRACE_DEBUG(" FREQ peer: 0%x, capability 0%x", cfg_cie.samp_freq, p_cap->samp_freq);
|
|
APPL_TRACE_DEBUG(" CH_MODE peer: 0%x, capability 0%x", cfg_cie.ch_mode, p_cap->ch_mode);
|
|
APPL_TRACE_DEBUG(" BLOCK_LEN peer: 0%x, capability 0%x", cfg_cie.block_len, p_cap->block_len);
|
|
APPL_TRACE_DEBUG(" SUB_BAND peer: 0%x, capability 0%x", cfg_cie.num_subbands, p_cap->num_subbands);
|
|
APPL_TRACE_DEBUG(" ALLOC_MTHD peer: 0%x, capability 0%x", cfg_cie.alloc_mthd, p_cap->alloc_mthd);
|
|
APPL_TRACE_DEBUG(" MAX_BitPool peer: 0%x, capability 0%x", cfg_cie.max_bitpool, p_cap->max_bitpool);
|
|
APPL_TRACE_DEBUG(" Min_bitpool peer: 0%x, capability 0%x", cfg_cie.min_bitpool, p_cap->min_bitpool);
|
|
|
|
/* sampling frequency */
|
|
if ((cfg_cie.samp_freq & p_cap->samp_freq) == 0) {
|
|
status = A2D_NS_SAMP_FREQ;
|
|
}
|
|
/* channel mode */
|
|
else if ((cfg_cie.ch_mode & p_cap->ch_mode) == 0) {
|
|
status = A2D_NS_CH_MODE;
|
|
}
|
|
/* block length */
|
|
else if ((cfg_cie.block_len & p_cap->block_len) == 0) {
|
|
status = A2D_BAD_BLOCK_LEN;
|
|
}
|
|
/* subbands */
|
|
else if ((cfg_cie.num_subbands & p_cap->num_subbands) == 0) {
|
|
status = A2D_NS_SUBBANDS;
|
|
}
|
|
/* allocation method */
|
|
else if ((cfg_cie.alloc_mthd & p_cap->alloc_mthd) == 0) {
|
|
status = A2D_NS_ALLOC_MTHD;
|
|
}
|
|
/* max bitpool */
|
|
else if (cfg_cie.max_bitpool > p_cap->max_bitpool) {
|
|
status = A2D_NS_MAX_BITPOOL;
|
|
}
|
|
/* min bitpool */
|
|
else if (cfg_cie.min_bitpool < p_cap->min_bitpool) {
|
|
status = A2D_NS_MIN_BITPOOL;
|
|
}
|
|
|
|
return status;
|
|
}
|
|
|
|
|
|
/*******************************************************************************
|
|
**
|
|
** Function bta_av_sbc_cfg_in_cap
|
|
**
|
|
** Description This function checks whether an SBC codec configuration
|
|
** is allowable for the given codec capabilities.
|
|
**
|
|
** Returns 0 if ok, nonzero if error.
|
|
**
|
|
*******************************************************************************/
|
|
UINT8 bta_av_sbc_cfg_in_cap(UINT8 *p_cfg, tA2D_SBC_CIE *p_cap)
|
|
{
|
|
UINT8 status = 0;
|
|
tA2D_SBC_CIE cfg_cie;
|
|
|
|
/* parse configuration */
|
|
if ((status = A2D_ParsSbcInfo(&cfg_cie, p_cfg, FALSE)) != 0) {
|
|
return status;
|
|
}
|
|
|
|
/* verify that each parameter is in range */
|
|
|
|
|
|
/* sampling frequency */
|
|
if ((cfg_cie.samp_freq & p_cap->samp_freq) == 0) {
|
|
status = A2D_NS_SAMP_FREQ;
|
|
}
|
|
/* channel mode */
|
|
else if ((cfg_cie.ch_mode & p_cap->ch_mode) == 0) {
|
|
status = A2D_NS_CH_MODE;
|
|
}
|
|
/* block length */
|
|
else if ((cfg_cie.block_len & p_cap->block_len) == 0) {
|
|
status = A2D_BAD_BLOCK_LEN;
|
|
}
|
|
/* subbands */
|
|
else if ((cfg_cie.num_subbands & p_cap->num_subbands) == 0) {
|
|
status = A2D_NS_SUBBANDS;
|
|
}
|
|
/* allocation method */
|
|
else if ((cfg_cie.alloc_mthd & p_cap->alloc_mthd) == 0) {
|
|
status = A2D_NS_ALLOC_MTHD;
|
|
}
|
|
/* max bitpool */
|
|
else if (cfg_cie.max_bitpool > p_cap->max_bitpool) {
|
|
status = A2D_NS_MAX_BITPOOL;
|
|
}
|
|
/* min bitpool */
|
|
else if (cfg_cie.min_bitpool < p_cap->min_bitpool) {
|
|
status = A2D_NS_MIN_BITPOOL;
|
|
}
|
|
|
|
return status;
|
|
}
|
|
|
|
/*******************************************************************************
|
|
**
|
|
** Function bta_av_sbc_bld_hdr
|
|
**
|
|
** Description This function builds the packet header for MPF1.
|
|
**
|
|
** Returns void
|
|
**
|
|
*******************************************************************************/
|
|
void bta_av_sbc_bld_hdr(BT_HDR *p_buf, UINT16 fr_per_pkt)
|
|
{
|
|
UINT8 *p;
|
|
|
|
p_buf->offset -= BTA_AV_SBC_HDR_SIZE;
|
|
p = (UINT8 *) (p_buf + 1) + p_buf->offset;
|
|
p_buf->len += BTA_AV_SBC_HDR_SIZE;
|
|
A2D_BldSbcMplHdr(p, FALSE, FALSE, FALSE, (UINT8) fr_per_pkt);
|
|
}
|
|
|
|
#endif /* #if defined(BTA_AV_INCLUDED) && (BTA_AV_INCLUDED == TRUE) */
|