rockbox/firmware/target/arm/s5l8702/pcm-s5l8702.c

451 lines
12 KiB
C
Raw Normal View History

/***************************************************************************
* __________ __ ___.
* Open \______ \ ____ ____ | | _\_ |__ _______ ___
* Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ /
* Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < <
* Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \
* \/ \/ \/ \/ \/
* $Id: pcm-s5l8700.c 28600 2010-11-14 19:49:20Z Buschel $
*
* Copyright © 2011 Michael Sparmann
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY
* KIND, either express or implied.
*
****************************************************************************/
#include <string.h>
#include "config.h"
#include "system.h"
#include "audio.h"
#include "s5l8702.h"
#include "panic.h"
#include "audiohw.h"
#include "pcm.h"
#include "pcm-internal.h"
#include "pcm_sampr.h"
#include "mmu-arm.h"
#include "pcm-target.h"
#include "dma-s5l8702.h"
/* DMA configuration */
/* 3 DMA tasks needed, one chunk task and two dblbuf tasks */
#define DMA_PLAY_TSKBUF_SZ 4 /* N tasks, MUST be pow2 */
#define DMA_PLAY_LLIBUF_SZ 4 /* N LLIs, MUST be pow2 */
static struct dmac_tsk dma_play_tskbuf[DMA_PLAY_TSKBUF_SZ];
static struct dmac_lli volatile \
dma_play_llibuf[DMA_PLAY_LLIBUF_SZ] CACHEALIGN_ATTR;
static void dma_play_callback(void *data) ICODE_ATTR;
static struct dmac_ch dma_play_ch = {
.dmac = &s5l8702_dmac0,
.prio = DMAC_CH_PRIO(2),
.cb_fn = dma_play_callback,
.tskbuf = dma_play_tskbuf,
.tskbuf_mask = DMA_PLAY_TSKBUF_SZ - 1,
.queue_mode = QUEUE_LINK,
.llibuf = dma_play_llibuf,
.llibuf_mask = DMA_PLAY_LLIBUF_SZ - 1,
.llibuf_bus = DMAC_MASTER_AHB1,
};
static struct dmac_ch_cfg dma_play_ch_cfg = {
.srcperi = S5L8702_DMAC0_PERI_MEM,
.dstperi = S5L8702_DMAC0_PERI_IIS0_TX,
.sbsize = DMACCxCONTROL_BSIZE_8,
.dbsize = DMACCxCONTROL_BSIZE_4,
.swidth = DMACCxCONTROL_WIDTH_16,
.dwidth = DMACCxCONTROL_WIDTH_16,
.sbus = DMAC_MASTER_AHB1,
.dbus = DMAC_MASTER_AHB1,
.sinc = DMACCxCONTROL_INC_ENABLE,
.dinc = DMACCxCONTROL_INC_DISABLE,
.prot = DMAC_PROT_CACH | DMAC_PROT_BUFF | DMAC_PROT_PRIV,
/* align LLI transfers to L-R pairs (samples) */
.lli_xfer_max_count = DMAC_LLI_MAX_COUNT & ~1,
};
#define LLI_MAX_BYTES 8188 /* lli_xfer_max_count << swidth */
/* Use all available LLIs for chunk */
/*#define CHUNK_MAX_BYTES (LLI_MAX_BYTES * (DMA_PLAY_LLIBUF_SZ - 2))*/
#define CHUNK_MAX_BYTES (LLI_MAX_BYTES * 1)
#define WATERMARK_BYTES (PCM_WATERMARK * 4)
static volatile int locked = 0;
static unsigned char dblbuf[2][WATERMARK_BYTES] CACHEALIGN_ATTR;
static int active_dblbuf;
size_t pcm_remaining;
/* Mask the DMA interrupt */
void pcm_play_lock(void)
{
if (locked++ == 0)
dmac_ch_lock_int(&dma_play_ch);
}
/* Unmask the DMA interrupt if enabled */
void pcm_play_unlock(void)
{
if (--locked == 0)
dmac_ch_unlock_int(&dma_play_ch);
}
static inline void play_queue_dma(void *addr, size_t size, void *cb_data)
{
commit_dcache_range(addr, size);
dmac_ch_queue(&dma_play_ch, addr,
(void*)S5L8702_DADDR_PERI_IIS0_TX, size, cb_data);
}
static void dma_play_callback(void *cb_data)
{
if (!cb_data)
return; /* dblbuf callback entered, nothing to do */
const void *dataptr = cb_data;
if (!pcm_remaining)
if (!pcm_play_dma_complete_callback(
PCM_DMAST_OK, &dataptr, &pcm_remaining))
return;
uint32_t lastsize = MIN(WATERMARK_BYTES, pcm_remaining >> 1);
pcm_remaining -= lastsize;
uint32_t chunksize = MIN(CHUNK_MAX_BYTES, pcm_remaining);
/* last chunk should be at least 2*WATERMARK_BYTES in size */
if ((pcm_remaining > chunksize) &&
(pcm_remaining < chunksize + WATERMARK_BYTES * 2))
chunksize = pcm_remaining - WATERMARK_BYTES * 2;
pcm_remaining -= chunksize;
/* first part */
play_queue_dma((void*)dataptr, chunksize,
(void*)dataptr + chunksize + lastsize); /* cb_data */
/* second part */
memcpy(dblbuf[active_dblbuf], dataptr + chunksize, lastsize);
play_queue_dma(dblbuf[active_dblbuf], lastsize, NULL);
active_dblbuf ^= 1;
pcm_play_dma_status_callback(PCM_DMAST_STARTED);
}
void pcm_play_dma_start(const void* addr, size_t size)
{
pcm_play_dma_stop();
pcm_remaining = size;
I2STXCOM = 0xe;
dma_play_callback((void*)addr);
}
void pcm_play_dma_stop(void)
{
dmac_ch_stop(&dma_play_ch);
I2STXCOM = 0xa;
}
/* pause playback by disabling LRCK */
void pcm_play_dma_pause(bool pause)
{
if (pause) I2STXCOM |= 1;
else I2STXCOM &= ~1;
}
/* MCLK = 12MHz (MCLKDIV2=1), [CS42L55 DS, s4.8] */
#define MCLK_FREQ 12000000
/* set the configured PCM frequency */
void pcm_dma_apply_settings(void)
{
static uint16_t last_clkcon3l = 0;
uint16_t clkcon3l;
int fsel;
/* For unknown reasons, s5l8702 I2S controller does not synchronize
* with CS42L55 at 32000 Hz. To fix it, the CODEC is configured with
* a sample rate of 48000 Hz and MCLK is decreased 1/3 to 8 Mhz,
* obtaining 32 KHz in LRCK controller input and 8 MHz in SCLK input.
* OF uses this trick.
*/
if (pcm_fsel == HW_FREQ_32) {
fsel = HW_FREQ_48;
clkcon3l = 0x3028; /* PLL2 / 3 / 9 -> 8 MHz */
}
else {
fsel = pcm_fsel;
clkcon3l = 0; /* OSC0 -> 12 MHz */
}
/* configure MCLK */
/* TODO: maybe all CLKCON management should be moved to
cscodec-ipod6g.c and system-s5l8702.c */
if (last_clkcon3l != clkcon3l) {
CLKCON3 = (CLKCON3 & ~0xffff) | 0x8000 | clkcon3l;
udelay(100);
CLKCON3 &= ~0x8000; /* CLKCON3L on */
last_clkcon3l = clkcon3l;
}
/* configure I2S clock ratio */
I2SCLKDIV = MCLK_FREQ / hw_freq_sampr[fsel];
/* select CS42L55 sample rate */
audiohw_set_frequency(fsel);
}
void pcm_play_dma_init(void)
{
PWRCON(0) &= ~(1 << 4);
PWRCON(1) &= ~(1 << 7);
dmac_ch_init(&dma_play_ch, &dma_play_ch_cfg);
I2STXCON = 0xb100019;
I2SCLKCON = 1;
audiohw_preinit();
pcm_dma_apply_settings();
}
void pcm_play_dma_postinit(void)
{
audiohw_postinit();
}
size_t pcm_get_bytes_waiting(void)
{
size_t total_bytes;
dmac_ch_get_info(&dma_play_ch, NULL, &total_bytes);
return total_bytes;
}
const void* pcm_play_dma_get_peak_buffer(int *count)
{
void *addr = dmac_ch_get_info(&dma_play_ch, count, NULL);
*count >>= 2; /* bytes to samples */
return addr; /* aligned to dest burst */
}
#ifdef HAVE_PCM_DMA_ADDRESS
void * pcm_dma_addr(void *addr)
{
return addr;
}
#endif
/****************************************************************************
** Recording DMA transfer
**/
#ifdef HAVE_RECORDING
static volatile int rec_locked = 0;
static void *rec_dma_addr;
static size_t rec_dma_size;
static bool pcm_rec_initialized = false;
static int completed_task;
/* ahead capture buffer */
#define PCM_AHEADBUF_SAMPLES 128
#define AHEADBUF_SZ (PCM_AHEADBUF_SAMPLES * 4)
static unsigned char ahead_buf[AHEADBUF_SZ] CACHEALIGN_ATTR;
/* DMA configuration */
static void dma_rec_callback(void *cb_data) ICODE_ATTR;
enum { /* cb_data */
TASK_AHEADBUF,
TASK_RECBUF
};
#define DMA_REC_TSKBUF_SZ 2 /* N tasks, MUST be pow2 */
#define DMA_REC_LLIBUF_SZ 8 /* N LLIs, MUST be pow2 */
static struct dmac_tsk dma_rec_tskbuf[DMA_REC_TSKBUF_SZ];
static struct dmac_lli volatile \
dma_rec_llibuf[DMA_REC_LLIBUF_SZ] CACHEALIGN_ATTR;
static struct dmac_ch dma_rec_ch = {
.dmac = &s5l8702_dmac0,
.prio = DMAC_CH_PRIO(1),
.cb_fn = dma_rec_callback,
.llibuf = dma_rec_llibuf,
.llibuf_mask = DMA_REC_LLIBUF_SZ - 1,
.llibuf_bus = DMAC_MASTER_AHB1,
.tskbuf = dma_rec_tskbuf,
.tskbuf_mask = DMA_REC_TSKBUF_SZ - 1,
.queue_mode = QUEUE_LINK,
};
static struct dmac_ch_cfg dma_rec_ch_cfg = {
.srcperi = S5L8702_DMAC0_PERI_IIS0_RX,
.dstperi = S5L8702_DMAC0_PERI_MEM,
.sbsize = DMACCxCONTROL_BSIZE_4,
.dbsize = DMACCxCONTROL_BSIZE_4,
.swidth = DMACCxCONTROL_WIDTH_16,
.dwidth = DMACCxCONTROL_WIDTH_16,
.sbus = DMAC_MASTER_AHB1,
.dbus = DMAC_MASTER_AHB1,
.sinc = DMACCxCONTROL_INC_DISABLE,
.dinc = DMACCxCONTROL_INC_ENABLE,
.prot = DMAC_PROT_CACH | DMAC_PROT_BUFF | DMAC_PROT_PRIV,
/* align LLI transfers to L-R pairs (samples) */
.lli_xfer_max_count = DMAC_LLI_MAX_COUNT & ~1,
};
/* maximum and minimum supported block sizes in bytes */
#define MIN_SIZE ((size_t) (AHEADBUF_SZ * 2))
#define MAX_SIZE ((size_t) (AHEADBUF_SZ + ((DMA_REC_LLIBUF_SZ - 1) * \
(dma_rec_ch_cfg.lli_xfer_max_count << dma_rec_ch_cfg.swidth))))
#if 0
#define SIZE_PANIC(sz) { \
if (((sz) < MIN_SIZE) || ((sz) > MAX_SIZE)) \
panicf("pcm record: unsupported size: %d", (sz)); \
}
#else
#define SIZE_PANIC(sz) {}
#endif
static void rec_dmac_ch_queue(void *addr, size_t size, int cb_data)
{
discard_dcache_range(addr, size);
dmac_ch_queue(&dma_rec_ch, (void*)S5L8702_DADDR_PERI_IIS0_RX,
addr, size, (void *)cb_data);
}
static void dma_rec_callback(void *cb_data)
{
completed_task = (int)cb_data;
if (completed_task == TASK_AHEADBUF)
{
/* safety check */
if (rec_dma_addr == NULL)
return; /* capture finished */
/* move ahead buffer to record buffer and queue
next capture-ahead task */
memcpy(rec_dma_addr, ahead_buf, AHEADBUF_SZ);
rec_dmac_ch_queue(ahead_buf, AHEADBUF_SZ, TASK_AHEADBUF);
}
else /* TASK_RECBUF */
{
/* Inform middle layer */
if (pcm_rec_dma_complete_callback(
PCM_DMAST_OK, &rec_dma_addr, &rec_dma_size))
{
SIZE_PANIC(rec_dma_size);
rec_dmac_ch_queue(rec_dma_addr + AHEADBUF_SZ,
rec_dma_size - AHEADBUF_SZ, TASK_RECBUF);
pcm_rec_dma_status_callback(PCM_DMAST_STARTED);
}
}
}
void pcm_rec_lock(void)
{
if ((rec_locked++ == 0) && pcm_rec_initialized)
dmac_ch_lock_int(&dma_rec_ch);
}
void pcm_rec_unlock(void)
{
if ((--rec_locked == 0) && pcm_rec_initialized)
dmac_ch_unlock_int(&dma_rec_ch);
}
void pcm_rec_dma_stop(void)
{
if (!pcm_rec_initialized)
return;
dmac_ch_stop(&dma_rec_ch);
I2SRXCOM = 0x2; /* stop Rx I2S */
}
void pcm_rec_dma_start(void *addr, size_t size)
{
SIZE_PANIC(size);
pcm_rec_dma_stop();
rec_dma_addr = addr;
rec_dma_size = size;
completed_task = -1;
/* launch first DMA transfer to capture into ahead buffer,
link the second task to capture into record buffer */
rec_dmac_ch_queue(ahead_buf, AHEADBUF_SZ, TASK_AHEADBUF);
rec_dmac_ch_queue(addr + AHEADBUF_SZ, size - AHEADBUF_SZ, TASK_RECBUF);
I2SRXCOM = 0x6; /* start Rx I2S */
}
void pcm_rec_dma_close(void)
{
pcm_rec_dma_stop();
}
void pcm_rec_dma_init(void)
{
if (pcm_rec_initialized)
return;
PWRCON(0) &= ~(1 << 4);
PWRCON(0) &= ~(1 << 7);
dmac_ch_init(&dma_rec_ch, &dma_rec_ch_cfg);
/* synchronize lock status */
if (rec_locked)
dmac_ch_lock_int(&dma_rec_ch);
I2SRXCON = 0x1000;
I2SCLKCON = 1;
pcm_rec_initialized = true;
}
const void * pcm_rec_dma_get_peak_buffer(void)
{
void *dstaddr;
pcm_rec_lock();
if (completed_task == TASK_AHEADBUF) {
dstaddr = dmac_ch_get_info(&dma_rec_ch, NULL, NULL);
if ((dstaddr < rec_dma_addr) ||
(dstaddr > rec_dma_addr + rec_dma_size))
/* At this moment, interrupt for TASK_RECBUF is waiting to
be handled. TASK_RECBUF is already finished and HW is
transfering next TASK_AHEADBUF. Return whole block. */
dstaddr = rec_dma_addr + rec_dma_size;
}
else {
/* Ahead buffer not yet captured _and_ moved to
record buffer. Return nothing. */
dstaddr = rec_dma_addr;
}
pcm_rec_unlock();
return CACHEALIGN_DOWN(dstaddr);
}
#endif /* HAVE_RECORDING */