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* sound/soc/omap/mcbsp.c
*
* Copyright (C) 2004 Nokia Corporation
* Author: Samuel Ortiz <samuel.ortiz@nokia.com>
*
* Contact: Jarkko Nikula <jarkko.nikula@bitmer.com>
* Peter Ujfalusi <peter.ujfalusi@ti.com>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 as
* published by the Free Software Foundation.
*
* Multichannel mode not supported.
*/
#include <linux/module.h>
#include <linux/init.h>
#include <linux/device.h>
#include <linux/platform_device.h>
#include <linux/interrupt.h>
#include <linux/err.h>
#include <linux/clk.h>
#include <linux/delay.h>
#include <linux/io.h>
#include <linux/slab.h>
#include <linux/pm_runtime.h>
#include <linux/platform_data/asoc-ti-mcbsp.h>
#include "mcbsp.h"
static void omap_mcbsp_write(struct omap_mcbsp *mcbsp, u16 reg, u32 val)
{
void __iomem *addr = mcbsp->io_base + reg * mcbsp->pdata->reg_step;
if (mcbsp->pdata->reg_size == 2) {
((u16 *)mcbsp->reg_cache)[reg] = (u16)val;
__raw_writew((u16)val, addr);
} else {
((u32 *)mcbsp->reg_cache)[reg] = val;
__raw_writel(val, addr);
}
}
static int omap_mcbsp_read(struct omap_mcbsp *mcbsp, u16 reg, bool from_cache)
{
void __iomem *addr = mcbsp->io_base + reg * mcbsp->pdata->reg_step;
if (mcbsp->pdata->reg_size == 2) {
return !from_cache ? __raw_readw(addr) :
((u16 *)mcbsp->reg_cache)[reg];
} else {
return !from_cache ? __raw_readl(addr) :
((u32 *)mcbsp->reg_cache)[reg];
}
}
static void omap_mcbsp_st_write(struct omap_mcbsp *mcbsp, u16 reg, u32 val)
{
__raw_writel(val, mcbsp->st_data->io_base_st + reg);
}
static int omap_mcbsp_st_read(struct omap_mcbsp *mcbsp, u16 reg)
{
return __raw_readl(mcbsp->st_data->io_base_st + reg);
}
#define MCBSP_READ(mcbsp, reg) \
omap_mcbsp_read(mcbsp, OMAP_MCBSP_REG_##reg, 0)
#define MCBSP_WRITE(mcbsp, reg, val) \
omap_mcbsp_write(mcbsp, OMAP_MCBSP_REG_##reg, val)
#define MCBSP_READ_CACHE(mcbsp, reg) \
omap_mcbsp_read(mcbsp, OMAP_MCBSP_REG_##reg, 1)
#define MCBSP_ST_READ(mcbsp, reg) \
omap_mcbsp_st_read(mcbsp, OMAP_ST_REG_##reg)
#define MCBSP_ST_WRITE(mcbsp, reg, val) \
omap_mcbsp_st_write(mcbsp, OMAP_ST_REG_##reg, val)
static void omap_mcbsp_dump_reg(struct omap_mcbsp *mcbsp)
{
dev_dbg(mcbsp->dev, "**** McBSP%d regs ****\n", mcbsp->id);
dev_dbg(mcbsp->dev, "DRR2: 0x%04x\n",
MCBSP_READ(mcbsp, DRR2));
dev_dbg(mcbsp->dev, "DRR1: 0x%04x\n",
MCBSP_READ(mcbsp, DRR1));
dev_dbg(mcbsp->dev, "DXR2: 0x%04x\n",
MCBSP_READ(mcbsp, DXR2));
dev_dbg(mcbsp->dev, "DXR1: 0x%04x\n",
MCBSP_READ(mcbsp, DXR1));
dev_dbg(mcbsp->dev, "SPCR2: 0x%04x\n",
MCBSP_READ(mcbsp, SPCR2));
dev_dbg(mcbsp->dev, "SPCR1: 0x%04x\n",
MCBSP_READ(mcbsp, SPCR1));
dev_dbg(mcbsp->dev, "RCR2: 0x%04x\n",
MCBSP_READ(mcbsp, RCR2));
dev_dbg(mcbsp->dev, "RCR1: 0x%04x\n",
MCBSP_READ(mcbsp, RCR1));
dev_dbg(mcbsp->dev, "XCR2: 0x%04x\n",
MCBSP_READ(mcbsp, XCR2));
dev_dbg(mcbsp->dev, "XCR1: 0x%04x\n",
MCBSP_READ(mcbsp, XCR1));
dev_dbg(mcbsp->dev, "SRGR2: 0x%04x\n",
MCBSP_READ(mcbsp, SRGR2));
dev_dbg(mcbsp->dev, "SRGR1: 0x%04x\n",
MCBSP_READ(mcbsp, SRGR1));
dev_dbg(mcbsp->dev, "PCR0: 0x%04x\n",
MCBSP_READ(mcbsp, PCR0));
dev_dbg(mcbsp->dev, "***********************\n");
}
static irqreturn_t omap_mcbsp_irq_handler(int irq, void *dev_id)
{
struct omap_mcbsp *mcbsp = dev_id;
u16 irqst;
irqst = MCBSP_READ(mcbsp, IRQST);
dev_dbg(mcbsp->dev, "IRQ callback : 0x%x\n", irqst);
if (irqst & RSYNCERREN)
dev_err(mcbsp->dev, "RX Frame Sync Error!\n");
if (irqst & RFSREN)
dev_dbg(mcbsp->dev, "RX Frame Sync\n");
if (irqst & REOFEN)
dev_dbg(mcbsp->dev, "RX End Of Frame\n");
if (irqst & RRDYEN)
dev_dbg(mcbsp->dev, "RX Buffer Threshold Reached\n");
if (irqst & RUNDFLEN)
dev_err(mcbsp->dev, "RX Buffer Underflow!\n");
if (irqst & ROVFLEN)
dev_err(mcbsp->dev, "RX Buffer Overflow!\n");
if (irqst & XSYNCERREN)
dev_err(mcbsp->dev, "TX Frame Sync Error!\n");
if (irqst & XFSXEN)
dev_dbg(mcbsp->dev, "TX Frame Sync\n");
if (irqst & XEOFEN)
dev_dbg(mcbsp->dev, "TX End Of Frame\n");
if (irqst & XRDYEN)
dev_dbg(mcbsp->dev, "TX Buffer threshold Reached\n");
if (irqst & XUNDFLEN)
dev_err(mcbsp->dev, "TX Buffer Underflow!\n");
if (irqst & XOVFLEN)
dev_err(mcbsp->dev, "TX Buffer Overflow!\n");
if (irqst & XEMPTYEOFEN)
dev_dbg(mcbsp->dev, "TX Buffer empty at end of frame\n");
MCBSP_WRITE(mcbsp, IRQST, irqst);
return IRQ_HANDLED;
}
static irqreturn_t omap_mcbsp_tx_irq_handler(int irq, void *dev_id)
{
struct omap_mcbsp *mcbsp_tx = dev_id;
u16 irqst_spcr2;
irqst_spcr2 = MCBSP_READ(mcbsp_tx, SPCR2);
dev_dbg(mcbsp_tx->dev, "TX IRQ callback : 0x%x\n", irqst_spcr2);
if (irqst_spcr2 & XSYNC_ERR) {
dev_err(mcbsp_tx->dev, "TX Frame Sync Error! : 0x%x\n",
irqst_spcr2);
/* Writing zero to XSYNC_ERR clears the IRQ */
MCBSP_WRITE(mcbsp_tx, SPCR2, MCBSP_READ_CACHE(mcbsp_tx, SPCR2));
}
return IRQ_HANDLED;
}
static irqreturn_t omap_mcbsp_rx_irq_handler(int irq, void *dev_id)
{
struct omap_mcbsp *mcbsp_rx = dev_id;
u16 irqst_spcr1;
irqst_spcr1 = MCBSP_READ(mcbsp_rx, SPCR1);
dev_dbg(mcbsp_rx->dev, "RX IRQ callback : 0x%x\n", irqst_spcr1);
if (irqst_spcr1 & RSYNC_ERR) {
dev_err(mcbsp_rx->dev, "RX Frame Sync Error! : 0x%x\n",
irqst_spcr1);
/* Writing zero to RSYNC_ERR clears the IRQ */
MCBSP_WRITE(mcbsp_rx, SPCR1, MCBSP_READ_CACHE(mcbsp_rx, SPCR1));
}
return IRQ_HANDLED;
}
/*
* omap_mcbsp_config simply write a config to the
* appropriate McBSP.
* You either call this function or set the McBSP registers
* by yourself before calling omap_mcbsp_start().
*/
void omap_mcbsp_config(struct omap_mcbsp *mcbsp,
const struct omap_mcbsp_reg_cfg *config)
{
dev_dbg(mcbsp->dev, "Configuring McBSP%d phys_base: 0x%08lx\n",
mcbsp->id, mcbsp->phys_base);
/* We write the given config */
MCBSP_WRITE(mcbsp, SPCR2, config->spcr2);
MCBSP_WRITE(mcbsp, SPCR1, config->spcr1);
MCBSP_WRITE(mcbsp, RCR2, config->rcr2);
MCBSP_WRITE(mcbsp, RCR1, config->rcr1);
MCBSP_WRITE(mcbsp, XCR2, config->xcr2);
MCBSP_WRITE(mcbsp, XCR1, config->xcr1);
MCBSP_WRITE(mcbsp, SRGR2, config->srgr2);
MCBSP_WRITE(mcbsp, SRGR1, config->srgr1);
MCBSP_WRITE(mcbsp, MCR2, config->mcr2);
MCBSP_WRITE(mcbsp, MCR1, config->mcr1);
MCBSP_WRITE(mcbsp, PCR0, config->pcr0);
if (mcbsp->pdata->has_ccr) {
MCBSP_WRITE(mcbsp, XCCR, config->xccr);
MCBSP_WRITE(mcbsp, RCCR, config->rccr);
}
/* Enable wakeup behavior */
if (mcbsp->pdata->has_wakeup)
MCBSP_WRITE(mcbsp, WAKEUPEN, XRDYEN | RRDYEN);
/* Enable TX/RX sync error interrupts by default */
if (mcbsp->irq)
MCBSP_WRITE(mcbsp, IRQEN, RSYNCERREN | XSYNCERREN);
}
/**
* omap_mcbsp_dma_reg_params - returns the address of mcbsp data register
* @id - mcbsp id
* @stream - indicates the direction of data flow (rx or tx)
*
* Returns the address of mcbsp data transmit register or data receive register
* to be used by DMA for transferring/receiving data based on the value of
* @stream for the requested mcbsp given by @id
*/
static int omap_mcbsp_dma_reg_params(struct omap_mcbsp *mcbsp,
unsigned int stream)
{
int data_reg;
if (mcbsp->pdata->reg_size == 2) {
if (stream)
data_reg = OMAP_MCBSP_REG_DRR1;
else
data_reg = OMAP_MCBSP_REG_DXR1;
} else {
if (stream)
data_reg = OMAP_MCBSP_REG_DRR;
else
data_reg = OMAP_MCBSP_REG_DXR;
}
return mcbsp->phys_dma_base + data_reg * mcbsp->pdata->reg_step;
}
static void omap_st_on(struct omap_mcbsp *mcbsp)
{
unsigned int w;
if (mcbsp->pdata->enable_st_clock)
mcbsp->pdata->enable_st_clock(mcbsp->id, 1);
/* Enable McBSP Sidetone */
w = MCBSP_READ(mcbsp, SSELCR);
MCBSP_WRITE(mcbsp, SSELCR, w | SIDETONEEN);
/* Enable Sidetone from Sidetone Core */
w = MCBSP_ST_READ(mcbsp, SSELCR);
MCBSP_ST_WRITE(mcbsp, SSELCR, w | ST_SIDETONEEN);
}
static void omap_st_off(struct omap_mcbsp *mcbsp)
{
unsigned int w;
w = MCBSP_ST_READ(mcbsp, SSELCR);
MCBSP_ST_WRITE(mcbsp, SSELCR, w & ~(ST_SIDETONEEN));
w = MCBSP_READ(mcbsp, SSELCR);
MCBSP_WRITE(mcbsp, SSELCR, w & ~(SIDETONEEN));
if (mcbsp->pdata->enable_st_clock)
mcbsp->pdata->enable_st_clock(mcbsp->id, 0);
}
static void omap_st_fir_write(struct omap_mcbsp *mcbsp, s16 *fir)
{
u16 val, i;
val = MCBSP_ST_READ(mcbsp, SSELCR);
if (val & ST_COEFFWREN)
MCBSP_ST_WRITE(mcbsp, SSELCR, val & ~(ST_COEFFWREN));
MCBSP_ST_WRITE(mcbsp, SSELCR, val | ST_COEFFWREN);
for (i = 0; i < 128; i++)
MCBSP_ST_WRITE(mcbsp, SFIRCR, fir[i]);
i = 0;
val = MCBSP_ST_READ(mcbsp, SSELCR);
while (!(val & ST_COEFFWRDONE) && (++i < 1000))
val = MCBSP_ST_READ(mcbsp, SSELCR);
MCBSP_ST_WRITE(mcbsp, SSELCR, val & ~(ST_COEFFWREN));
if (i == 1000)
dev_err(mcbsp->dev, "McBSP FIR load error!\n");
}
static void omap_st_chgain(struct omap_mcbsp *mcbsp)
{
u16 w;
struct omap_mcbsp_st_data *st_data = mcbsp->st_data;
w = MCBSP_ST_READ(mcbsp, SSELCR);
MCBSP_ST_WRITE(mcbsp, SGAINCR, ST_CH0GAIN(st_data->ch0gain) | \
ST_CH1GAIN(st_data->ch1gain));
}
int omap_st_set_chgain(struct omap_mcbsp *mcbsp, int channel, s16 chgain)
{
struct omap_mcbsp_st_data *st_data = mcbsp->st_data;
int ret = 0;
if (!st_data)
return -ENOENT;
spin_lock_irq(&mcbsp->lock);
if (channel == 0)
st_data->ch0gain = chgain;
else if (channel == 1)
st_data->ch1gain = chgain;
else
ret = -EINVAL;
if (st_data->enabled)
omap_st_chgain(mcbsp);
spin_unlock_irq(&mcbsp->lock);
return ret;
}
int omap_st_get_chgain(struct omap_mcbsp *mcbsp, int channel, s16 *chgain)
{
struct omap_mcbsp_st_data *st_data = mcbsp->st_data;
int ret = 0;
if (!st_data)
return -ENOENT;
spin_lock_irq(&mcbsp->lock);
if (channel == 0)
*chgain = st_data->ch0gain;
else if (channel == 1)
*chgain = st_data->ch1gain;
else
ret = -EINVAL;
spin_unlock_irq(&mcbsp->lock);
return ret;
}
static int omap_st_start(struct omap_mcbsp *mcbsp)
{
struct omap_mcbsp_st_data *st_data = mcbsp->st_data;
if (st_data->enabled && !st_data->running) {
omap_st_fir_write(mcbsp, st_data->taps);
omap_st_chgain(mcbsp);
if (!mcbsp->free) {
omap_st_on(mcbsp);
st_data->running = 1;
}
}
return 0;
}
int omap_st_enable(struct omap_mcbsp *mcbsp)
{
struct omap_mcbsp_st_data *st_data = mcbsp->st_data;
if (!st_data)
return -ENODEV;
spin_lock_irq(&mcbsp->lock);
st_data->enabled = 1;
omap_st_start(mcbsp);
spin_unlock_irq(&mcbsp->lock);
return 0;
}
static int omap_st_stop(struct omap_mcbsp *mcbsp)
{
struct omap_mcbsp_st_data *st_data = mcbsp->st_data;
if (st_data->running) {
if (!mcbsp->free) {
omap_st_off(mcbsp);
st_data->running = 0;
}
}
return 0;
}
int omap_st_disable(struct omap_mcbsp *mcbsp)
{
struct omap_mcbsp_st_data *st_data = mcbsp->st_data;
int ret = 0;
if (!st_data)
return -ENODEV;
spin_lock_irq(&mcbsp->lock);
omap_st_stop(mcbsp);
st_data->enabled = 0;
spin_unlock_irq(&mcbsp->lock);
return ret;
}
int omap_st_is_enabled(struct omap_mcbsp *mcbsp)
{
struct omap_mcbsp_st_data *st_data = mcbsp->st_data;
if (!st_data)
return -ENODEV;
return st_data->enabled;
}
/*
* omap_mcbsp_set_rx_threshold configures the transmit threshold in words.
* The threshold parameter is 1 based, and it is converted (threshold - 1)
* for the THRSH2 register.
*/
void omap_mcbsp_set_tx_threshold(struct omap_mcbsp *mcbsp, u16 threshold)
{
if (mcbsp->pdata->buffer_size == 0)
return;
if (threshold && threshold <= mcbsp->max_tx_thres)
MCBSP_WRITE(mcbsp, THRSH2, threshold - 1);
}
/*
* omap_mcbsp_set_rx_threshold configures the receive threshold in words.
* The threshold parameter is 1 based, and it is converted (threshold - 1)
* for the THRSH1 register.
*/
void omap_mcbsp_set_rx_threshold(struct omap_mcbsp *mcbsp, u16 threshold)
{
if (mcbsp->pdata->buffer_size == 0)
return;
if (threshold && threshold <= mcbsp->max_rx_thres)
MCBSP_WRITE(mcbsp, THRSH1, threshold - 1);
}
/*
* omap_mcbsp_get_tx_delay returns the number of used slots in the McBSP FIFO
*/
u16 omap_mcbsp_get_tx_delay(struct omap_mcbsp *mcbsp)
{
u16 buffstat;
if (mcbsp->pdata->buffer_size == 0)
return 0;
/* Returns the number of free locations in the buffer */
buffstat = MCBSP_READ(mcbsp, XBUFFSTAT);
/* Number of slots are different in McBSP ports */
return mcbsp->pdata->buffer_size - buffstat;
}
/*
* omap_mcbsp_get_rx_delay returns the number of free slots in the McBSP FIFO
* to reach the threshold value (when the DMA will be triggered to read it)
*/
u16 omap_mcbsp_get_rx_delay(struct omap_mcbsp *mcbsp)
{
u16 buffstat, threshold;
if (mcbsp->pdata->buffer_size == 0)
return 0;
/* Returns the number of used locations in the buffer */
buffstat = MCBSP_READ(mcbsp, RBUFFSTAT);
/* RX threshold */
threshold = MCBSP_READ(mcbsp, THRSH1);
/* Return the number of location till we reach the threshold limit */
if (threshold <= buffstat)
return 0;
else
return threshold - buffstat;
}
int omap_mcbsp_request(struct omap_mcbsp *mcbsp)
{
void *reg_cache;
int err;
reg_cache = kzalloc(mcbsp->reg_cache_size, GFP_KERNEL);
if (!reg_cache) {
return -ENOMEM;
}
spin_lock(&mcbsp->lock);
if (!mcbsp->free) {
dev_err(mcbsp->dev, "McBSP%d is currently in use\n",
mcbsp->id);
err = -EBUSY;
goto err_kfree;
}
mcbsp->free = false;
mcbsp->reg_cache = reg_cache;
spin_unlock(&mcbsp->lock);
if (mcbsp->pdata && mcbsp->pdata->ops && mcbsp->pdata->ops->request)
mcbsp->pdata->ops->request(mcbsp->id - 1);
/*
* Make sure that transmitter, receiver and sample-rate generator are
* not running before activating IRQs.
*/
MCBSP_WRITE(mcbsp, SPCR1, 0);
MCBSP_WRITE(mcbsp, SPCR2, 0);
if (mcbsp->irq) {
err = request_irq(mcbsp->irq, omap_mcbsp_irq_handler, 0,
"McBSP", (void *)mcbsp);
if (err != 0) {
dev_err(mcbsp->dev, "Unable to request IRQ\n");
goto err_clk_disable;
}
} else {
err = request_irq(mcbsp->tx_irq, omap_mcbsp_tx_irq_handler, 0,
"McBSP TX", (void *)mcbsp);
if (err != 0) {
dev_err(mcbsp->dev, "Unable to request TX IRQ\n");
goto err_clk_disable;
}
err = request_irq(mcbsp->rx_irq, omap_mcbsp_rx_irq_handler, 0,
"McBSP RX", (void *)mcbsp);
if (err != 0) {
dev_err(mcbsp->dev, "Unable to request RX IRQ\n");
goto err_free_irq;
}
}
return 0;
err_free_irq:
free_irq(mcbsp->tx_irq, (void *)mcbsp);
err_clk_disable:
if (mcbsp->pdata && mcbsp->pdata->ops && mcbsp->pdata->ops->free)
mcbsp->pdata->ops->free(mcbsp->id - 1);
/* Disable wakeup behavior */
if (mcbsp->pdata->has_wakeup)
MCBSP_WRITE(mcbsp, WAKEUPEN, 0);
spin_lock(&mcbsp->lock);
mcbsp->free = true;
mcbsp->reg_cache = NULL;
err_kfree:
spin_unlock(&mcbsp->lock);
kfree(reg_cache);
return err;
}
void omap_mcbsp_free(struct omap_mcbsp *mcbsp)
{
void *reg_cache;
if (mcbsp->pdata && mcbsp->pdata->ops && mcbsp->pdata->ops->free)
mcbsp->pdata->ops->free(mcbsp->id - 1);
/* Disable wakeup behavior */
if (mcbsp->pdata->has_wakeup)
MCBSP_WRITE(mcbsp, WAKEUPEN, 0);
/* Disable interrupt requests */
if (mcbsp->irq)
MCBSP_WRITE(mcbsp, IRQEN, 0);
if (mcbsp->irq) {
free_irq(mcbsp->irq, (void *)mcbsp);
} else {
free_irq(mcbsp->rx_irq, (void *)mcbsp);
free_irq(mcbsp->tx_irq, (void *)mcbsp);
}
reg_cache = mcbsp->reg_cache;
/*
* Select CLKS source from internal source unconditionally before
* marking the McBSP port as free.
* If the external clock source via MCBSP_CLKS pin has been selected the
* system will refuse to enter idle if the CLKS pin source is not reset
* back to internal source.
*/
if (!mcbsp_omap1())
omap2_mcbsp_set_clks_src(mcbsp, MCBSP_CLKS_PRCM_SRC);
spin_lock(&mcbsp->lock);
if (mcbsp->free)
dev_err(mcbsp->dev, "McBSP%d was not reserved\n", mcbsp->id);
else
mcbsp->free = true;
mcbsp->reg_cache = NULL;
spin_unlock(&mcbsp->lock);
if (reg_cache)
kfree(reg_cache);
}
/*
* Here we start the McBSP, by enabling transmitter, receiver or both.
* If no transmitter or receiver is active prior calling, then sample-rate
* generator and frame sync are started.
*/
void omap_mcbsp_start(struct omap_mcbsp *mcbsp, int tx, int rx)
{
int enable_srg = 0;
u16 w;
if (mcbsp->st_data)
omap_st_start(mcbsp);
/* Only enable SRG, if McBSP is master */
w = MCBSP_READ_CACHE(mcbsp, PCR0);
if (w & (FSXM | FSRM | CLKXM | CLKRM))
enable_srg = !((MCBSP_READ_CACHE(mcbsp, SPCR2) |
MCBSP_READ_CACHE(mcbsp, SPCR1)) & 1);
if (enable_srg) {
/* Start the sample generator */
w = MCBSP_READ_CACHE(mcbsp, SPCR2);
MCBSP_WRITE(mcbsp, SPCR2, w | (1 << 6));
}
/* Enable transmitter and receiver */
tx &= 1;
w = MCBSP_READ_CACHE(mcbsp, SPCR2);
MCBSP_WRITE(mcbsp, SPCR2, w | tx);
rx &= 1;
w = MCBSP_READ_CACHE(mcbsp, SPCR1);
MCBSP_WRITE(mcbsp, SPCR1, w | rx);
/*
* Worst case: CLKSRG*2 = 8000khz: (1/8000) * 2 * 2 usec
* REVISIT: 100us may give enough time for two CLKSRG, however
* due to some unknown PM related, clock gating etc. reason it
* is now at 500us.
*/
udelay(500);
if (enable_srg) {
/* Start frame sync */
w = MCBSP_READ_CACHE(mcbsp, SPCR2);
MCBSP_WRITE(mcbsp, SPCR2, w | (1 << 7));
}
if (mcbsp->pdata->has_ccr) {
/* Release the transmitter and receiver */
w = MCBSP_READ_CACHE(mcbsp, XCCR);
w &= ~(tx ? XDISABLE : 0);
MCBSP_WRITE(mcbsp, XCCR, w);
w = MCBSP_READ_CACHE(mcbsp, RCCR);
w &= ~(rx ? RDISABLE : 0);
MCBSP_WRITE(mcbsp, RCCR, w);
}
/* Dump McBSP Regs */
omap_mcbsp_dump_reg(mcbsp);
}
void omap_mcbsp_stop(struct omap_mcbsp *mcbsp, int tx, int rx)
{
int idle;
u16 w;
/* Reset transmitter */
tx &= 1;
if (mcbsp->pdata->has_ccr) {
w = MCBSP_READ_CACHE(mcbsp, XCCR);
w |= (tx ? XDISABLE : 0);
MCBSP_WRITE(mcbsp, XCCR, w);
}
w = MCBSP_READ_CACHE(mcbsp, SPCR2);
MCBSP_WRITE(mcbsp, SPCR2, w & ~tx);
/* Reset receiver */
rx &= 1;
if (mcbsp->pdata->has_ccr) {
w = MCBSP_READ_CACHE(mcbsp, RCCR);
w |= (rx ? RDISABLE : 0);
MCBSP_WRITE(mcbsp, RCCR, w);
}
w = MCBSP_READ_CACHE(mcbsp, SPCR1);
MCBSP_WRITE(mcbsp, SPCR1, w & ~rx);
idle = !((MCBSP_READ_CACHE(mcbsp, SPCR2) |
MCBSP_READ_CACHE(mcbsp, SPCR1)) & 1);
if (idle) {
/* Reset the sample rate generator */
w = MCBSP_READ_CACHE(mcbsp, SPCR2);
MCBSP_WRITE(mcbsp, SPCR2, w & ~(1 << 6));
}
if (mcbsp->st_data)
omap_st_stop(mcbsp);
}
int omap2_mcbsp_set_clks_src(struct omap_mcbsp *mcbsp, u8 fck_src_id)
{
struct clk *fck_src;
const char *src;
int r;
if (fck_src_id == MCBSP_CLKS_PAD_SRC)
src = "pad_fck";
else if (fck_src_id == MCBSP_CLKS_PRCM_SRC)
src = "prcm_fck";
else
return -EINVAL;
fck_src = clk_get(mcbsp->dev, src);
if (IS_ERR(fck_src)) {
dev_err(mcbsp->dev, "CLKS: could not clk_get() %s\n", src);
return -EINVAL;
}
pm_runtime_put_sync(mcbsp->dev);
r = clk_set_parent(mcbsp->fclk, fck_src);
if (r) {
dev_err(mcbsp->dev, "CLKS: could not clk_set_parent() to %s\n",
src);
clk_put(fck_src);
return r;
}
pm_runtime_get_sync(mcbsp->dev);
clk_put(fck_src);
return 0;
}
#define max_thres(m) (mcbsp->pdata->buffer_size)
#define valid_threshold(m, val) ((val) <= max_thres(m))
#define THRESHOLD_PROP_BUILDER(prop) \
static ssize_t prop##_show(struct device *dev, \
struct device_attribute *attr, char *buf) \
{ \
struct omap_mcbsp *mcbsp = dev_get_drvdata(dev); \
\
return sprintf(buf, "%u\n", mcbsp->prop); \
} \
\
static ssize_t prop##_store(struct device *dev, \
struct device_attribute *attr, \
const char *buf, size_t size) \
{ \
struct omap_mcbsp *mcbsp = dev_get_drvdata(dev); \
unsigned long val; \
int status; \
\
status = strict_strtoul(buf, 0, &val); \
if (status) \
return status; \
\
if (!valid_threshold(mcbsp, val)) \
return -EDOM; \
\
mcbsp->prop = val; \
return size; \
} \
\
static DEVICE_ATTR(prop, 0644, prop##_show, prop##_store);
THRESHOLD_PROP_BUILDER(max_tx_thres);
THRESHOLD_PROP_BUILDER(max_rx_thres);
static const char *dma_op_modes[] = {
"element", "threshold",
};
static ssize_t dma_op_mode_show(struct device *dev,
struct device_attribute *attr, char *buf)
{
struct omap_mcbsp *mcbsp = dev_get_drvdata(dev);
int dma_op_mode, i = 0;
ssize_t len = 0;
const char * const *s;
dma_op_mode = mcbsp->dma_op_mode;
for (s = &dma_op_modes[i]; i < ARRAY_SIZE(dma_op_modes); s++, i++) {
if (dma_op_mode == i)
len += sprintf(buf + len, "[%s] ", *s);
else
len += sprintf(buf + len, "%s ", *s);
}
len += sprintf(buf + len, "\n");
return len;
}
static ssize_t dma_op_mode_store(struct device *dev,
struct device_attribute *attr,
const char *buf, size_t size)
{
struct omap_mcbsp *mcbsp = dev_get_drvdata(dev);
const char * const *s;
int i = 0;
for (s = &dma_op_modes[i]; i < ARRAY_SIZE(dma_op_modes); s++, i++)
if (sysfs_streq(buf, *s))
break;
if (i == ARRAY_SIZE(dma_op_modes))
return -EINVAL;
spin_lock_irq(&mcbsp->lock);
if (!mcbsp->free) {
size = -EBUSY;
goto unlock;
}
mcbsp->dma_op_mode = i;
unlock:
spin_unlock_irq(&mcbsp->lock);
return size;
}
static DEVICE_ATTR(dma_op_mode, 0644, dma_op_mode_show, dma_op_mode_store);
static const struct attribute *additional_attrs[] = {
&dev_attr_max_tx_thres.attr,
&dev_attr_max_rx_thres.attr,
&dev_attr_dma_op_mode.attr,
NULL,
};
static const struct attribute_group additional_attr_group = {
.attrs = (struct attribute **)additional_attrs,
};
static ssize_t st_taps_show(struct device *dev,
struct device_attribute *attr, char *buf)
{
struct omap_mcbsp *mcbsp = dev_get_drvdata(dev);
struct omap_mcbsp_st_data *st_data = mcbsp->st_data;
ssize_t status = 0;
int i;
spin_lock_irq(&mcbsp->lock);
for (i = 0; i < st_data->nr_taps; i++)
status += sprintf(&buf[status], (i ? ", %d" : "%d"),
st_data->taps[i]);
if (i)
status += sprintf(&buf[status], "\n");
spin_unlock_irq(&mcbsp->lock);
return status;
}
static ssize_t st_taps_store(struct device *dev,
struct device_attribute *attr,
const char *buf, size_t size)
{
struct omap_mcbsp *mcbsp = dev_get_drvdata(dev);
struct omap_mcbsp_st_data *st_data = mcbsp->st_data;
int val, tmp, status, i = 0;
spin_lock_irq(&mcbsp->lock);
memset(st_data->taps, 0, sizeof(st_data->taps));
st_data->nr_taps = 0;
do {
status = sscanf(buf, "%d%n", &val, &tmp);
if (status < 0 || status == 0) {
size = -EINVAL;
goto out;
}
if (val < -32768 || val > 32767) {
size = -EINVAL;
goto out;
}
st_data->taps[i++] = val;
buf += tmp;
if (*buf != ',')
break;
buf++;
} while (1);
st_data->nr_taps = i;
out:
spin_unlock_irq(&mcbsp->lock);
return size;
}
static DEVICE_ATTR(st_taps, 0644, st_taps_show, st_taps_store);
static const struct attribute *sidetone_attrs[] = {
&dev_attr_st_taps.attr,
NULL,
};
static const struct attribute_group sidetone_attr_group = {
.attrs = (struct attribute **)sidetone_attrs,
};
static int omap_st_add(struct omap_mcbsp *mcbsp, struct resource *res)
{
struct omap_mcbsp_st_data *st_data;
int err;
st_data = devm_kzalloc(mcbsp->dev, sizeof(*mcbsp->st_data), GFP_KERNEL);
if (!st_data)
return -ENOMEM;
st_data->io_base_st = devm_ioremap(mcbsp->dev, res->start,
resource_size(res));
if (!st_data->io_base_st)
return -ENOMEM;
err = sysfs_create_group(&mcbsp->dev->kobj, &sidetone_attr_group);
if (err)
return err;
mcbsp->st_data = st_data;
return 0;
}
/*
* McBSP1 and McBSP3 are directly mapped on 1610 and 1510.
* 730 has only 2 McBSP, and both of them are MPU peripherals.
*/
int omap_mcbsp_init(struct platform_device *pdev)
{
struct omap_mcbsp *mcbsp = platform_get_drvdata(pdev);
struct resource *res;
int ret = 0;
spin_lock_init(&mcbsp->lock);
mcbsp->free = true;
res = platform_get_resource_byname(pdev, IORESOURCE_MEM, "mpu");
if (!res) {
res = platform_get_resource(pdev, IORESOURCE_MEM, 0);
if (!res) {
dev_err(mcbsp->dev, "invalid memory resource\n");
return -ENOMEM;
}
}
if (!devm_request_mem_region(&pdev->dev, res->start, resource_size(res),
dev_name(&pdev->dev))) {
dev_err(mcbsp->dev, "memory region already claimed\n");
return -ENODEV;
}
mcbsp->phys_base = res->start;
mcbsp->reg_cache_size = resource_size(res);
mcbsp->io_base = devm_ioremap(&pdev->dev, res->start,
resource_size(res));
if (!mcbsp->io_base)
return -ENOMEM;
res = platform_get_resource_byname(pdev, IORESOURCE_MEM, "dma");
if (!res)
mcbsp->phys_dma_base = mcbsp->phys_base;
else
mcbsp->phys_dma_base = res->start;
/*
* OMAP1, 2 uses two interrupt lines: TX, RX
* OMAP2430, OMAP3 SoC have combined IRQ line as well.
* OMAP4 and newer SoC only have the combined IRQ line.
* Use the combined IRQ if available since it gives better debugging
* possibilities.
*/
mcbsp->irq = platform_get_irq_byname(pdev, "common");
if (mcbsp->irq == -ENXIO) {
mcbsp->tx_irq = platform_get_irq_byname(pdev, "tx");
if (mcbsp->tx_irq == -ENXIO) {
mcbsp->irq = platform_get_irq(pdev, 0);
mcbsp->tx_irq = 0;
} else {
mcbsp->rx_irq = platform_get_irq_byname(pdev, "rx");
mcbsp->irq = 0;
}
}
res = platform_get_resource_byname(pdev, IORESOURCE_DMA, "rx");
if (!res) {
dev_err(&pdev->dev, "invalid rx DMA channel\n");
return -ENODEV;
}
/* RX DMA request number, and port address configuration */
mcbsp->dma_data[1].name = "Audio Capture";
mcbsp->dma_data[1].dma_req = res->start;
mcbsp->dma_data[1].port_addr = omap_mcbsp_dma_reg_params(mcbsp, 1);
res = platform_get_resource_byname(pdev, IORESOURCE_DMA, "tx");
if (!res) {
dev_err(&pdev->dev, "invalid tx DMA channel\n");
return -ENODEV;
}
/* TX DMA request number, and port address configuration */
mcbsp->dma_data[0].name = "Audio Playback";
mcbsp->dma_data[0].dma_req = res->start;
mcbsp->dma_data[0].port_addr = omap_mcbsp_dma_reg_params(mcbsp, 0);
mcbsp->fclk = clk_get(&pdev->dev, "fck");
if (IS_ERR(mcbsp->fclk)) {
ret = PTR_ERR(mcbsp->fclk);
dev_err(mcbsp->dev, "unable to get fck: %d\n", ret);
return ret;
}
mcbsp->dma_op_mode = MCBSP_DMA_MODE_ELEMENT;
if (mcbsp->pdata->buffer_size) {
/*
* Initially configure the maximum thresholds to a safe value.
* The McBSP FIFO usage with these values should not go under
* 16 locations.
* If the whole FIFO without safety buffer is used, than there
* is a possibility that the DMA will be not able to push the
* new data on time, causing channel shifts in runtime.
*/
mcbsp->max_tx_thres = max_thres(mcbsp) - 0x10;
mcbsp->max_rx_thres = max_thres(mcbsp) - 0x10;
ret = sysfs_create_group(&mcbsp->dev->kobj,
&additional_attr_group);
if (ret) {
dev_err(mcbsp->dev,
"Unable to create additional controls\n");
goto err_thres;
}
} else {
mcbsp->max_tx_thres = -EINVAL;
mcbsp->max_rx_thres = -EINVAL;
}
res = platform_get_resource_byname(pdev, IORESOURCE_MEM, "sidetone");
if (res) {
ret = omap_st_add(mcbsp, res);
if (ret) {
dev_err(mcbsp->dev,
"Unable to create sidetone controls\n");
goto err_st;
}
}
return 0;
err_st:
if (mcbsp->pdata->buffer_size)
sysfs_remove_group(&mcbsp->dev->kobj, &additional_attr_group);
err_thres:
clk_put(mcbsp->fclk);
return ret;
}
void omap_mcbsp_sysfs_remove(struct omap_mcbsp *mcbsp)
{
if (mcbsp->pdata->buffer_size)
sysfs_remove_group(&mcbsp->dev->kobj, &additional_attr_group);
if (mcbsp->st_data)
sysfs_remove_group(&mcbsp->dev->kobj, &sidetone_attr_group);
}
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