mirror of
https://github.com/dj0abr/SSB_HighSpeed_Modem.git
synced 2024-11-25 05:38:40 -05:00
231 lines
5.6 KiB
C++
Executable File
231 lines
5.6 KiB
C++
Executable File
/*
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* High Speed modem to transfer data in a 2,7kHz SSB channel
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* =========================================================
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* Author: DJ0ABR
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*
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* (c) DJ0ABR
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* www.dj0abr.de
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 2 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, write to the Free Software
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* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
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*
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* fifo.c ... thread safe buffer for audio I/O
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*
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*
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*/
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#include "hsmodem.h"
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#ifdef _WIN32_
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CRITICAL_SECTION io_cap_crit_sec;
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CRITICAL_SECTION io_pb_crit_sec;
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#define IO_CAP_LOCK EnterCriticalSection(&io_cap_crit_sec)
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#define IO_PB_LOCK EnterCriticalSection(&io_pb_crit_sec)
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void IO_CAP_UNLOCK()
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{
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if (&io_cap_crit_sec != NULL)
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LeaveCriticalSection(&io_cap_crit_sec);
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}
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void IO_PB_UNLOCK()
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{
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if (&io_pb_crit_sec != NULL)
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LeaveCriticalSection(&io_pb_crit_sec);
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}
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#endif
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#ifdef _LINUX_
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pthread_mutex_t io_cap_crit_sec;
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pthread_mutex_t io_pb_crit_sec;
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#define IO_CAP_LOCK pthread_mutex_lock(&io_cap_crit_sec)
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void IO_CAP_UNLOCK() { pthread_mutex_unlock(&io_cap_crit_sec); }
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#define IO_PB_LOCK pthread_mutex_lock(&io_pb_crit_sec)
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void IO_PB_UNLOCK() { pthread_mutex_unlock(&io_pb_crit_sec); }
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#endif
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#define AUDIO_PLAYBACK_BUFLEN (48000 * 15) // space for 10 seconds of samples
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#define AUDIO_CAPTURE_BUFLEN (10000) //48000)// * 10) // space for 10 seconds of samples
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int io_cap_wridx = 0;
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int io_cap_rdidx = 0;
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float io_cap_buffer[AUDIO_CAPTURE_BUFLEN];
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int io_pb_wridx = 0;
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int io_pb_rdidx = 0;
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float io_pb_buffer[AUDIO_PLAYBACK_BUFLEN];
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void io_init_pipes()
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{
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#ifdef _WIN32_
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if (&io_cap_crit_sec != NULL) DeleteCriticalSection(&io_cap_crit_sec);
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InitializeCriticalSection(&io_cap_crit_sec);
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if (&io_pb_crit_sec != NULL) DeleteCriticalSection(&io_pb_crit_sec);
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InitializeCriticalSection(&io_pb_crit_sec);
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io_clear_audio_fifos();
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#endif
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io_voice_init_pipes();
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}
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// write one sample into the fifo
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// overwrite old data if the fifo is full
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void io_cap_write_fifo(float sample)
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{
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if (((io_cap_wridx + 1) % AUDIO_CAPTURE_BUFLEN) == io_cap_rdidx)
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{
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printf("cap fifo full\n");
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}
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IO_CAP_LOCK;
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io_cap_buffer[io_cap_wridx] = sample;
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if (++io_cap_wridx >= AUDIO_CAPTURE_BUFLEN) io_cap_wridx = 0;
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IO_CAP_UNLOCK();
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// if monitoring is activated then write it also to the voice fifo
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/*if (VoiceAudioMode == VOICEMODE_LISTENAUDIOIN)
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toVoice(sample);*/
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}
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int io_cap_read_fifo(float* data)
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{
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IO_CAP_LOCK;
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if (io_cap_rdidx == io_cap_wridx)
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{
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// Fifo empty, no data available
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IO_CAP_UNLOCK();
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return 0;
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}
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*data = io_cap_buffer[io_cap_rdidx];
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if (++io_cap_rdidx >= AUDIO_CAPTURE_BUFLEN) io_cap_rdidx = 0;
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IO_CAP_UNLOCK();
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return 1;
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}
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void io_cap_write_fifo_clear()
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{
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io_cap_wridx = io_cap_rdidx = 0;
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}
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int io_cap_fifo_freespace()
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{
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int freebuf = 0;
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IO_CAP_LOCK;
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int elemInFifo = (io_cap_wridx + AUDIO_CAPTURE_BUFLEN - io_cap_rdidx) % AUDIO_CAPTURE_BUFLEN;
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freebuf = AUDIO_CAPTURE_BUFLEN - elemInFifo;
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IO_CAP_UNLOCK();
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return freebuf;
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}
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int io_cap_fifo_usedPercent()
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{
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int fs = io_cap_fifo_freespace();
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int used = AUDIO_CAPTURE_BUFLEN - fs;
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used = (used * 100) / AUDIO_CAPTURE_BUFLEN;
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return used;
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}
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void io_pb_write_fifo(float sample)
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{
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IO_PB_LOCK;
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// check if there is free space in fifo
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if (io_pb_fifo_freespace(1) == 0)
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{
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IO_PB_UNLOCK();
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printf("************* pb fifo full\n");
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return;
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}
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io_pb_buffer[io_pb_wridx] = sample;
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if (++io_pb_wridx >= AUDIO_PLAYBACK_BUFLEN) io_pb_wridx = 0;
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IO_PB_UNLOCK();
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//printf("write: pbw:%d pbr:%d\n",io_pb_wridx,io_pb_rdidx);
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}
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void io_pb_write_fifo_clear()
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{
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io_pb_wridx = io_pb_rdidx = 0;
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}
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int io_pb_fifo_usedBlocks()
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{
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int fs = io_pb_fifo_freespace(0);
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int used = AUDIO_PLAYBACK_BUFLEN - fs;
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used /= (txinterpolfactor * UDPBLOCKLEN * 8 / bitsPerSymbol);
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return used;
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}
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int io_pb_fifo_freespace(int nolock)
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{
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int freebuf = 0;
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if (nolock == 0) IO_PB_LOCK;
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int elemInFifo = (io_pb_wridx + AUDIO_PLAYBACK_BUFLEN - io_pb_rdidx) % AUDIO_PLAYBACK_BUFLEN;
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freebuf = AUDIO_PLAYBACK_BUFLEN - elemInFifo;
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if (nolock == 0) IO_PB_UNLOCK();
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//printf("fifolen:%d check: pbw:%d pbr:%d freebuf:%d\n",AUDIO_PLAYBACK_BUFLEN,io_pb_wridx,io_pb_rdidx,freebuf);
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return freebuf;
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}
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int io_pb_fifo_usedspace()
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{
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int anz = io_pb_fifo_freespace(0);
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return AUDIO_PLAYBACK_BUFLEN - anz;
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}
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// read num elements
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// if num elems not avail, return 0
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int io_pb_read_fifo_num(float* data, int num)
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{
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IO_PB_LOCK;
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int elemInFifo = (io_pb_wridx + AUDIO_PLAYBACK_BUFLEN - io_pb_rdidx) % AUDIO_PLAYBACK_BUFLEN;
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if (elemInFifo < num)
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{
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// Fifo empty, no data available
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//printf("only %d elements available\n", elemInFifo);
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IO_PB_UNLOCK();
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return 0;
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}
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for (int i = 0; i < num; i++)
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{
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*data++ = io_pb_buffer[io_pb_rdidx];
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if (++io_pb_rdidx >= AUDIO_PLAYBACK_BUFLEN) io_pb_rdidx = 0;
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}
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IO_PB_UNLOCK();
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return 1;
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}
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void io_clear_audio_fifos()
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{
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io_pb_write_fifo_clear();
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io_cap_write_fifo_clear();
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}
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