184459fa54
git-svn-id: svn://svn.rockbox.org/rockbox/trunk@31218 a1c6a512-1295-4272-9138-f99709370657
435 lines
11 KiB
C
435 lines
11 KiB
C
/***************************************************************************
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* __________ __ ___.
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* Open \______ \ ____ ____ | | _\_ |__ _______ ___
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* Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ /
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* Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < <
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* Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \
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* \/ \/ \/ \/ \/
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* $Id$
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*
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* Copyright © 2008-2009 Rafaël Carré
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License
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* as published by the Free Software Foundation; either version 2
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* of the License, or (at your option) any later version.
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*
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* This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY
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* KIND, either express or implied.
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*
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****************************************************************************/
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#include "system.h"
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#include "audio.h"
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#include "string.h"
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#include "as3525.h"
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#include "pl081.h"
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#include "dma-target.h"
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#include "clock-target.h"
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#include "panic.h"
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#include "as3514.h"
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#include "audiohw.h"
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#include "mmu-arm.h"
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#include "pcm-internal.h"
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#define MAX_TRANSFER (4*((1<<11)-1)) /* maximum data we can transfer via DMA
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* i.e. 32 bits at once (size of I2SO_DATA)
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* and the number of 32bits words has to
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* fit in 11 bits of DMA register */
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static void *dma_start_addr; /* Pointer to callback buffer */
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static size_t dma_start_size; /* Size of callback buffer */
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static void *dma_sub_addr; /* Pointer to sub buffer */
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static size_t dma_rem_size; /* Remaining size - in 4*32 bits */
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static size_t play_sub_size; /* size of current subtransfer */
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static void dma_callback(void);
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static int locked = 0;
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static bool volatile is_playing = false;
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static bool play_callback_pending = false;
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#ifdef HAVE_RECORDING
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/* Stopping playback gates clock if not recording */
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static bool volatile is_recording = false;
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#endif
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/* Mask the DMA interrupt */
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void pcm_play_lock(void)
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{
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++locked;
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}
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/* Unmask the DMA interrupt if enabled */
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void pcm_play_unlock(void)
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{
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if(--locked == 0 && is_playing)
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{
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int old = disable_irq_save();
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if(play_callback_pending)
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{
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play_callback_pending = false;
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dma_callback();
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}
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restore_irq(old);
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}
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}
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static void play_start_pcm(void)
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{
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const void *addr = dma_sub_addr;
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size_t size = dma_rem_size;
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if(size > MAX_TRANSFER)
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size = MAX_TRANSFER;
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play_sub_size = size;
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dma_enable_channel(0, (void*)addr, (void*)I2SOUT_DATA, DMA_PERI_I2SOUT,
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DMAC_FLOWCTRL_DMAC_MEM_TO_PERI, true, false, size >> 2,
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DMA_S1, dma_callback);
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}
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static void dma_callback(void)
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{
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dma_sub_addr += play_sub_size;
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dma_rem_size -= play_sub_size;
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play_sub_size = 0; /* Might get called again if locked */
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if(locked)
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{
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play_callback_pending = is_playing;
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return;
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}
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if(!dma_rem_size)
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{
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pcm_play_get_more_callback(&dma_start_addr, &dma_start_size);
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if (!dma_start_size)
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return;
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dma_sub_addr = dma_start_addr;
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dma_rem_size = dma_start_size;
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/* force writeback */
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clean_dcache_range(dma_start_addr, dma_start_size);
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play_start_pcm();
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pcm_play_dma_started_callback();
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}
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else
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{
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play_start_pcm();
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}
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}
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void pcm_play_dma_start(const void *addr, size_t size)
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{
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is_playing = true;
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dma_start_addr = (void*)addr;
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dma_start_size = size;
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dma_sub_addr = dma_start_addr;
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dma_rem_size = size;
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dma_retain();
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/* force writeback */
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clean_dcache_range(dma_start_addr, dma_start_size);
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bitset32(&CGU_AUDIO, (1<<11));
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play_start_pcm();
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}
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void pcm_play_dma_stop(void)
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{
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is_playing = false;
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dma_disable_channel(0);
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/* Ensure byte counts read back 0 */
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DMAC_CH_SRC_ADDR(0) = 0;
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dma_start_addr = NULL;
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dma_start_size = 0;
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dma_rem_size = 0;
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dma_release();
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#ifdef HAVE_RECORDING
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if (!is_recording)
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bitclr32(&CGU_AUDIO, (1<<11));
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#endif
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play_callback_pending = false;
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}
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void pcm_play_dma_pause(bool pause)
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{
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is_playing = !pause;
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if(pause)
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{
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dma_pause_channel(0);
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/* if producer's buffer finished, upper layer starts anew */
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if (dma_rem_size == 0)
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play_callback_pending = false;
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}
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else
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{
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if (play_sub_size != 0)
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dma_resume_channel(0);
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/* else unlock calls the callback if sub buffers remain */
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}
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}
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void pcm_play_dma_init(void)
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{
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bitset32(&CGU_PERI, CGU_I2SOUT_APB_CLOCK_ENABLE);
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I2SOUT_CONTROL = (1<<6) | (1<<3); /* enable dma, stereo */
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audiohw_preinit();
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pcm_dma_apply_settings();
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}
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void pcm_play_dma_postinit(void)
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{
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audiohw_postinit();
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}
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/* divider is 9 bits but the highest one (for 8kHz) fit in 8 bits */
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static const unsigned char divider[SAMPR_NUM_FREQ] = {
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[HW_FREQ_96] = ((AS3525_MCLK_FREQ/128 + SAMPR_96/2) / SAMPR_96) - 1,
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[HW_FREQ_88] = ((AS3525_MCLK_FREQ/128 + SAMPR_88/2) / SAMPR_88) - 1,
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[HW_FREQ_64] = ((AS3525_MCLK_FREQ/128 + SAMPR_64/2) / SAMPR_64) - 1,
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[HW_FREQ_48] = ((AS3525_MCLK_FREQ/128 + SAMPR_48/2) / SAMPR_48) - 1,
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[HW_FREQ_44] = ((AS3525_MCLK_FREQ/128 + SAMPR_44/2) / SAMPR_44) - 1,
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[HW_FREQ_32] = ((AS3525_MCLK_FREQ/128 + SAMPR_32/2) / SAMPR_32) - 1,
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[HW_FREQ_24] = ((AS3525_MCLK_FREQ/128 + SAMPR_24/2) / SAMPR_24) - 1,
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[HW_FREQ_22] = ((AS3525_MCLK_FREQ/128 + SAMPR_22/2) / SAMPR_22) - 1,
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[HW_FREQ_16] = ((AS3525_MCLK_FREQ/128 + SAMPR_16/2) / SAMPR_16) - 1,
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[HW_FREQ_12] = ((AS3525_MCLK_FREQ/128 + SAMPR_12/2) / SAMPR_12) - 1,
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[HW_FREQ_11] = ((AS3525_MCLK_FREQ/128 + SAMPR_11/2) / SAMPR_11) - 1,
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[HW_FREQ_8 ] = ((AS3525_MCLK_FREQ/128 + SAMPR_8 /2) / SAMPR_8 ) - 1,
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};
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static inline unsigned char mclk_divider(void)
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{
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return divider[pcm_fsel];
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}
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void pcm_dma_apply_settings(void)
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{
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bitmod32(&CGU_AUDIO,
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(0<<24) | /* I2SI_MCLK2PAD_EN = disabled */
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(0<<23) | /* I2SI_MCLK_EN = disabled */
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(0<<14) | /* I2SI_MCLK_DIV_SEL = unused */
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(0<<12) | /* I2SI_MCLK_SEL = clk_main */
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/* I2SO_MCLK_EN = unchanged */
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(mclk_divider() << 2) | /* I2SO_MCLK_DIV_SEL */
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(AS3525_MCLK_SEL << 0), /* I2SO_MCLK_SEL */
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0x01fff7ff);
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}
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size_t pcm_get_bytes_waiting(void)
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{
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int oldstatus = disable_irq_save();
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size_t addr = DMAC_CH_SRC_ADDR(0);
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size_t start_addr = (size_t)dma_start_addr;
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size_t start_size = dma_start_size;
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restore_interrupt(oldstatus);
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return start_size - addr + start_addr;
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}
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const void * pcm_play_dma_get_peak_buffer(int *count)
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{
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int oldstatus = disable_irq_save();
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size_t addr = DMAC_CH_SRC_ADDR(0);
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size_t start_addr = (size_t)dma_start_addr;
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size_t start_size = dma_start_size;
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restore_interrupt(oldstatus);
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*count = (start_size - addr + start_addr) >> 2;
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return (void*)AS3525_UNCACHED_ADDR(addr);
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}
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#ifdef HAVE_PCM_DMA_ADDRESS
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void * pcm_dma_addr(void *addr)
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{
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if (addr != NULL)
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addr = AS3525_UNCACHED_ADDR(addr);
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return addr;
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}
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#endif
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/****************************************************************************
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** Recording DMA transfer
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**/
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#ifdef HAVE_RECORDING
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static int rec_locked = 0;
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static uint32_t *rec_dma_addr;
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static size_t rec_dma_size;
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static int keep_sample = 0; /* In nonzero, keep the sample; else, discard it */
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void pcm_rec_lock(void)
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{
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int oldlevel = disable_irq_save();
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if (++rec_locked == 1)
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{
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bitset32(&CGU_PERI, CGU_I2SIN_APB_CLOCK_ENABLE);
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VIC_INT_EN_CLEAR = INTERRUPT_I2SIN;
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I2SIN_MASK = 0; /* disables all interrupts */
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}
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restore_irq(oldlevel);
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}
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void pcm_rec_unlock(void)
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{
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int oldlevel = disable_irq_save();
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if (--rec_locked == 0 && is_recording)
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{
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VIC_INT_ENABLE = INTERRUPT_I2SIN;
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I2SIN_MASK = (1<<2); /* I2SIN_MASK_POAF */
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}
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restore_irq(oldlevel);
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}
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void INT_I2SIN(void)
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{
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#if CONFIG_CPU == AS3525
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if (audio_channels == 1)
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{
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/* RX is left-channel-only mono */
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while (rec_dma_size > 0)
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{
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if (I2SIN_RAW_STATUS & (1<<5))
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return; /* empty */
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uint32_t value = *I2SIN_DATA;
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/* Discard every other sample since ADC clock is 1/2 LRCK */
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keep_sample ^= 1;
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if (keep_sample)
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{
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/* Data is in left channel only - copy to right channel
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14-bit => 16-bit samples */
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value = (uint16_t)(value << 2) | (value << 18);
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if (audio_output_source != AUDIO_SRC_PLAYBACK && !is_playing)
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{
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/* In this case, loopback is manual so that both output
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channels have audio */
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if (I2SOUT_RAW_STATUS & (1<<5))
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{
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/* Sync output fifo so it goes empty not before input is
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filled */
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for (unsigned i = 0; i < 4; i++)
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*I2SOUT_DATA = 0;
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}
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*I2SOUT_DATA = value;
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*I2SOUT_DATA = value;
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}
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*rec_dma_addr++ = value;
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rec_dma_size -= 4;
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}
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}
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}
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else
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#endif /* CONFIG_CPU == AS3525 */
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{
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/* RX is stereo */
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while (rec_dma_size > 0)
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{
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if (I2SIN_RAW_STATUS & (1<<5))
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return; /* empty */
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uint32_t value = *I2SIN_DATA;
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/* Discard every other sample since ADC clock is 1/2 LRCK */
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keep_sample ^= 1;
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if (keep_sample)
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{
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/* Loopback is in I2S hardware */
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/* 14-bit => 16-bit samples */
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*rec_dma_addr++ = (value << 2) & ~0x00030000;
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rec_dma_size -= 4;
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}
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}
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}
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pcm_rec_more_ready_callback(0, (void *)&rec_dma_addr, &rec_dma_size);
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}
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void pcm_rec_dma_stop(void)
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{
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is_recording = false;
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VIC_INT_EN_CLEAR = INTERRUPT_I2SIN;
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I2SIN_MASK = 0; /* disables all interrupts */
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rec_dma_addr = NULL;
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rec_dma_size = 0;
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if (!is_playing)
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bitclr32(&CGU_AUDIO, (1<<11));
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bitclr32(&CGU_PERI, CGU_I2SIN_APB_CLOCK_ENABLE);
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}
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void pcm_rec_dma_start(void *addr, size_t size)
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{
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is_recording = true;
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bitset32(&CGU_AUDIO, (1<<11));
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rec_dma_addr = addr;
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rec_dma_size = size;
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keep_sample = 0;
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/* ensure empty FIFO */
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while (!(I2SIN_RAW_STATUS & (1<<5)))
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*I2SIN_DATA;
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I2SIN_CLEAR = (1<<6) | (1<<0); /* push error, pop error */
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}
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void pcm_rec_dma_close(void)
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{
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bitset32(&CGU_PERI, CGU_I2SIN_APB_CLOCK_ENABLE);
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pcm_rec_dma_stop();
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}
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void pcm_rec_dma_init(void)
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{
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bitset32(&CGU_PERI, CGU_I2SIN_APB_CLOCK_ENABLE);
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I2SIN_MASK = 0; /* disables all interrupts */
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/* 14 bits samples, i2c clk src = I2SOUTIF, sdata src = AFE,
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* data valid at positive edge of SCLK */
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I2SIN_CONTROL = (1<<5) | (1<<2);
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}
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const void * pcm_rec_dma_get_peak_buffer(void)
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{
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return rec_dma_addr;
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}
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#endif /* HAVE_RECORDING */
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