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|
// SPDX-License-Identifier: GPL-2.0-or-later
/*
* Driver for Digigram VXpocket soundcards
*
* lowlevel routines for VXpocket soundcards
*
* Copyright (c) 2002 by Takashi Iwai <tiwai@suse.de>
*/
#include <linux/delay.h>
#include <linux/device.h>
#include <linux/firmware.h>
#include <linux/io.h>
#include <sound/core.h>
#include "vxpocket.h"
static int vxp_reg_offset[VX_REG_MAX] = {
[VX_ICR] = 0x00, // ICR
[VX_CVR] = 0x01, // CVR
[VX_ISR] = 0x02, // ISR
[VX_IVR] = 0x03, // IVR
[VX_RXH] = 0x05, // RXH
[VX_RXM] = 0x06, // RXM
[VX_RXL] = 0x07, // RXL
[VX_DMA] = 0x04, // DMA
[VX_CDSP] = 0x08, // CDSP
[VX_LOFREQ] = 0x09, // LFREQ
[VX_HIFREQ] = 0x0a, // HFREQ
[VX_DATA] = 0x0b, // DATA
[VX_MICRO] = 0x0c, // MICRO
[VX_DIALOG] = 0x0d, // DIALOG
[VX_CSUER] = 0x0e, // CSUER
[VX_RUER] = 0x0f, // RUER
};
static inline unsigned long vxp_reg_addr(struct vx_core *_chip, int reg)
{
struct snd_vxpocket *chip = to_vxpocket(_chip);
return chip->port + vxp_reg_offset[reg];
}
/*
* snd_vx_inb - read a byte from the register
* @offset: register offset
*/
static unsigned char vxp_inb(struct vx_core *chip, int offset)
{
return inb(vxp_reg_addr(chip, offset));
}
/*
* snd_vx_outb - write a byte on the register
* @offset: the register offset
* @val: the value to write
*/
static void vxp_outb(struct vx_core *chip, int offset, unsigned char val)
{
outb(val, vxp_reg_addr(chip, offset));
}
/*
* redefine macros to call directly
*/
#undef vx_inb
#define vx_inb(chip,reg) vxp_inb((struct vx_core *)(chip), VX_##reg)
#undef vx_outb
#define vx_outb(chip,reg,val) vxp_outb((struct vx_core *)(chip), VX_##reg,val)
/*
* vx_check_magic - check the magic word on xilinx
*
* returns zero if a magic word is detected, or a negative error code.
*/
static int vx_check_magic(struct vx_core *chip)
{
unsigned long end_time = jiffies + HZ / 5;
int c;
do {
c = vx_inb(chip, CDSP);
if (c == CDSP_MAGIC)
return 0;
msleep(10);
} while (time_after_eq(end_time, jiffies));
snd_printk(KERN_ERR "cannot find xilinx magic word (%x)\n", c);
return -EIO;
}
/*
* vx_reset_dsp - reset the DSP
*/
#define XX_DSP_RESET_WAIT_TIME 2 /* ms */
static void vxp_reset_dsp(struct vx_core *_chip)
{
struct snd_vxpocket *chip = to_vxpocket(_chip);
/* set the reset dsp bit to 1 */
vx_outb(chip, CDSP, chip->regCDSP | VXP_CDSP_DSP_RESET_MASK);
vx_inb(chip, CDSP);
mdelay(XX_DSP_RESET_WAIT_TIME);
/* reset the bit */
chip->regCDSP &= ~VXP_CDSP_DSP_RESET_MASK;
vx_outb(chip, CDSP, chip->regCDSP);
vx_inb(chip, CDSP);
mdelay(XX_DSP_RESET_WAIT_TIME);
}
/*
* reset codec bit
*/
static void vxp_reset_codec(struct vx_core *_chip)
{
struct snd_vxpocket *chip = to_vxpocket(_chip);
/* Set the reset CODEC bit to 1. */
vx_outb(chip, CDSP, chip->regCDSP | VXP_CDSP_CODEC_RESET_MASK);
vx_inb(chip, CDSP);
msleep(10);
/* Set the reset CODEC bit to 0. */
chip->regCDSP &= ~VXP_CDSP_CODEC_RESET_MASK;
vx_outb(chip, CDSP, chip->regCDSP);
vx_inb(chip, CDSP);
msleep(1);
}
/*
* vx_load_xilinx_binary - load the xilinx binary image
* the binary image is the binary array converted from the bitstream file.
*/
static int vxp_load_xilinx_binary(struct vx_core *_chip, const struct firmware *fw)
{
struct snd_vxpocket *chip = to_vxpocket(_chip);
unsigned int i;
int c;
int regCSUER, regRUER;
const unsigned char *image;
unsigned char data;
/* Switch to programmation mode */
chip->regDIALOG |= VXP_DLG_XILINX_REPROG_MASK;
vx_outb(chip, DIALOG, chip->regDIALOG);
/* Save register CSUER and RUER */
regCSUER = vx_inb(chip, CSUER);
regRUER = vx_inb(chip, RUER);
/* reset HF0 and HF1 */
vx_outb(chip, ICR, 0);
/* Wait for answer HF2 equal to 1 */
snd_printdd(KERN_DEBUG "check ISR_HF2\n");
if (vx_check_isr(_chip, ISR_HF2, ISR_HF2, 20) < 0)
goto _error;
/* set HF1 for loading xilinx binary */
vx_outb(chip, ICR, ICR_HF1);
image = fw->data;
for (i = 0; i < fw->size; i++, image++) {
data = *image;
if (vx_wait_isr_bit(_chip, ISR_TX_EMPTY) < 0)
goto _error;
vx_outb(chip, TXL, data);
/* wait for reading */
if (vx_wait_for_rx_full(_chip) < 0)
goto _error;
c = vx_inb(chip, RXL);
if (c != (int)data)
snd_printk(KERN_ERR "vxpocket: load xilinx mismatch at %d: 0x%x != 0x%x\n", i, c, (int)data);
}
/* reset HF1 */
vx_outb(chip, ICR, 0);
/* wait for HF3 */
if (vx_check_isr(_chip, ISR_HF3, ISR_HF3, 20) < 0)
goto _error;
/* read the number of bytes received */
if (vx_wait_for_rx_full(_chip) < 0)
goto _error;
c = (int)vx_inb(chip, RXH) << 16;
c |= (int)vx_inb(chip, RXM) << 8;
c |= vx_inb(chip, RXL);
snd_printdd(KERN_DEBUG "xilinx: dsp size received 0x%x, orig 0x%zx\n", c, fw->size);
vx_outb(chip, ICR, ICR_HF0);
/* TEMPO 250ms : wait until Xilinx is downloaded */
msleep(300);
/* test magical word */
if (vx_check_magic(_chip) < 0)
goto _error;
/* Restore register 0x0E and 0x0F (thus replacing COR and FCSR) */
vx_outb(chip, CSUER, regCSUER);
vx_outb(chip, RUER, regRUER);
/* Reset the Xilinx's signal enabling IO access */
chip->regDIALOG |= VXP_DLG_XILINX_REPROG_MASK;
vx_outb(chip, DIALOG, chip->regDIALOG);
vx_inb(chip, DIALOG);
msleep(10);
chip->regDIALOG &= ~VXP_DLG_XILINX_REPROG_MASK;
vx_outb(chip, DIALOG, chip->regDIALOG);
vx_inb(chip, DIALOG);
/* Reset of the Codec */
vxp_reset_codec(_chip);
vx_reset_dsp(_chip);
return 0;
_error:
vx_outb(chip, CSUER, regCSUER);
vx_outb(chip, RUER, regRUER);
chip->regDIALOG &= ~VXP_DLG_XILINX_REPROG_MASK;
vx_outb(chip, DIALOG, chip->regDIALOG);
return -EIO;
}
/*
* vxp_load_dsp - load_dsp callback
*/
static int vxp_load_dsp(struct vx_core *vx, int index, const struct firmware *fw)
{
int err;
switch (index) {
case 0:
/* xilinx boot */
if ((err = vx_check_magic(vx)) < 0)
return err;
if ((err = snd_vx_load_boot_image(vx, fw)) < 0)
return err;
return 0;
case 1:
/* xilinx image */
return vxp_load_xilinx_binary(vx, fw);
case 2:
/* DSP boot */
return snd_vx_dsp_boot(vx, fw);
case 3:
/* DSP image */
return snd_vx_dsp_load(vx, fw);
default:
snd_BUG();
return -EINVAL;
}
}
/*
* vx_test_and_ack - test and acknowledge interrupt
*
* called from irq hander, too
*
* spinlock held!
*/
static int vxp_test_and_ack(struct vx_core *_chip)
{
struct snd_vxpocket *chip = to_vxpocket(_chip);
/* not booted yet? */
if (! (_chip->chip_status & VX_STAT_XILINX_LOADED))
return -ENXIO;
if (! (vx_inb(chip, DIALOG) & VXP_DLG_MEMIRQ_MASK))
return -EIO;
/* ok, interrupts generated, now ack it */
/* set ACQUIT bit up and down */
vx_outb(chip, DIALOG, chip->regDIALOG | VXP_DLG_ACK_MEMIRQ_MASK);
/* useless read just to spend some time and maintain
* the ACQUIT signal up for a while ( a bus cycle )
*/
vx_inb(chip, DIALOG);
vx_outb(chip, DIALOG, chip->regDIALOG & ~VXP_DLG_ACK_MEMIRQ_MASK);
return 0;
}
/*
* vx_validate_irq - enable/disable IRQ
*/
static void vxp_validate_irq(struct vx_core *_chip, int enable)
{
struct snd_vxpocket *chip = to_vxpocket(_chip);
/* Set the interrupt enable bit to 1 in CDSP register */
if (enable)
chip->regCDSP |= VXP_CDSP_VALID_IRQ_MASK;
else
chip->regCDSP &= ~VXP_CDSP_VALID_IRQ_MASK;
vx_outb(chip, CDSP, chip->regCDSP);
}
/*
* vx_setup_pseudo_dma - set up the pseudo dma read/write mode.
* @do_write: 0 = read, 1 = set up for DMA write
*/
static void vx_setup_pseudo_dma(struct vx_core *_chip, int do_write)
{
struct snd_vxpocket *chip = to_vxpocket(_chip);
/* Interrupt mode and HREQ pin enabled for host transmit / receive data transfers */
vx_outb(chip, ICR, do_write ? ICR_TREQ : ICR_RREQ);
/* Reset the pseudo-dma register */
vx_inb(chip, ISR);
vx_outb(chip, ISR, 0);
/* Select DMA in read/write transfer mode and in 16-bit accesses */
chip->regDIALOG |= VXP_DLG_DMA16_SEL_MASK;
chip->regDIALOG |= do_write ? VXP_DLG_DMAWRITE_SEL_MASK : VXP_DLG_DMAREAD_SEL_MASK;
vx_outb(chip, DIALOG, chip->regDIALOG);
}
/*
* vx_release_pseudo_dma - disable the pseudo-DMA mode
*/
static void vx_release_pseudo_dma(struct vx_core *_chip)
{
struct snd_vxpocket *chip = to_vxpocket(_chip);
/* Disable DMA and 16-bit accesses */
chip->regDIALOG &= ~(VXP_DLG_DMAWRITE_SEL_MASK|
VXP_DLG_DMAREAD_SEL_MASK|
VXP_DLG_DMA16_SEL_MASK);
vx_outb(chip, DIALOG, chip->regDIALOG);
/* HREQ pin disabled. */
vx_outb(chip, ICR, 0);
}
/*
* vx_pseudo_dma_write - write bulk data on pseudo-DMA mode
* @count: data length to transfer in bytes
*
* data size must be aligned to 6 bytes to ensure the 24bit alignment on DSP.
* NB: call with a certain lock!
*/
static void vxp_dma_write(struct vx_core *chip, struct snd_pcm_runtime *runtime,
struct vx_pipe *pipe, int count)
{
long port = vxp_reg_addr(chip, VX_DMA);
int offset = pipe->hw_ptr;
unsigned short *addr = (unsigned short *)(runtime->dma_area + offset);
vx_setup_pseudo_dma(chip, 1);
if (offset + count >= pipe->buffer_bytes) {
int length = pipe->buffer_bytes - offset;
count -= length;
length >>= 1; /* in 16bit words */
/* Transfer using pseudo-dma. */
for (; length > 0; length--) {
outw(*addr, port);
addr++;
}
addr = (unsigned short *)runtime->dma_area;
pipe->hw_ptr = 0;
}
pipe->hw_ptr += count;
count >>= 1; /* in 16bit words */
/* Transfer using pseudo-dma. */
for (; count > 0; count--) {
outw(*addr, port);
addr++;
}
vx_release_pseudo_dma(chip);
}
/*
* vx_pseudo_dma_read - read bulk data on pseudo DMA mode
* @offset: buffer offset in bytes
* @count: data length to transfer in bytes
*
* the read length must be aligned to 6 bytes, as well as write.
* NB: call with a certain lock!
*/
static void vxp_dma_read(struct vx_core *chip, struct snd_pcm_runtime *runtime,
struct vx_pipe *pipe, int count)
{
struct snd_vxpocket *pchip = to_vxpocket(chip);
long port = vxp_reg_addr(chip, VX_DMA);
int offset = pipe->hw_ptr;
unsigned short *addr = (unsigned short *)(runtime->dma_area + offset);
if (snd_BUG_ON(count % 2))
return;
vx_setup_pseudo_dma(chip, 0);
if (offset + count >= pipe->buffer_bytes) {
int length = pipe->buffer_bytes - offset;
count -= length;
length >>= 1; /* in 16bit words */
/* Transfer using pseudo-dma. */
for (; length > 0; length--)
*addr++ = inw(port);
addr = (unsigned short *)runtime->dma_area;
pipe->hw_ptr = 0;
}
pipe->hw_ptr += count;
count >>= 1; /* in 16bit words */
/* Transfer using pseudo-dma. */
for (; count > 1; count--)
*addr++ = inw(port);
/* Disable DMA */
pchip->regDIALOG &= ~VXP_DLG_DMAREAD_SEL_MASK;
vx_outb(chip, DIALOG, pchip->regDIALOG);
/* Read the last word (16 bits) */
*addr = inw(port);
/* Disable 16-bit accesses */
pchip->regDIALOG &= ~VXP_DLG_DMA16_SEL_MASK;
vx_outb(chip, DIALOG, pchip->regDIALOG);
/* HREQ pin disabled. */
vx_outb(chip, ICR, 0);
}
/*
* write a codec data (24bit)
*/
static void vxp_write_codec_reg(struct vx_core *chip, int codec, unsigned int data)
{
int i;
/* Activate access to the corresponding codec register */
if (! codec)
vx_inb(chip, LOFREQ);
else
vx_inb(chip, CODEC2);
/* We have to send 24 bits (3 x 8 bits). Start with most signif. Bit */
for (i = 0; i < 24; i++, data <<= 1)
vx_outb(chip, DATA, ((data & 0x800000) ? VX_DATA_CODEC_MASK : 0));
/* Terminate access to codec registers */
vx_inb(chip, HIFREQ);
}
/*
* vx_set_mic_boost - set mic boost level (on vxp440 only)
* @boost: 0 = 20dB, 1 = +38dB
*/
void vx_set_mic_boost(struct vx_core *chip, int boost)
{
struct snd_vxpocket *pchip = to_vxpocket(chip);
if (chip->chip_status & VX_STAT_IS_STALE)
return;
mutex_lock(&chip->lock);
if (pchip->regCDSP & P24_CDSP_MICS_SEL_MASK) {
if (boost) {
/* boost: 38 dB */
pchip->regCDSP &= ~P24_CDSP_MIC20_SEL_MASK;
pchip->regCDSP |= P24_CDSP_MIC38_SEL_MASK;
} else {
/* minimum value: 20 dB */
pchip->regCDSP |= P24_CDSP_MIC20_SEL_MASK;
pchip->regCDSP &= ~P24_CDSP_MIC38_SEL_MASK;
}
vx_outb(chip, CDSP, pchip->regCDSP);
}
mutex_unlock(&chip->lock);
}
/*
* remap the linear value (0-8) to the actual value (0-15)
*/
static int vx_compute_mic_level(int level)
{
switch (level) {
case 5: level = 6 ; break;
case 6: level = 8 ; break;
case 7: level = 11; break;
case 8: level = 15; break;
default: break ;
}
return level;
}
/*
* vx_set_mic_level - set mic level (on vxpocket only)
* @level: the mic level = 0 - 8 (max)
*/
void vx_set_mic_level(struct vx_core *chip, int level)
{
struct snd_vxpocket *pchip = to_vxpocket(chip);
if (chip->chip_status & VX_STAT_IS_STALE)
return;
mutex_lock(&chip->lock);
if (pchip->regCDSP & VXP_CDSP_MIC_SEL_MASK) {
level = vx_compute_mic_level(level);
vx_outb(chip, MICRO, level);
}
mutex_unlock(&chip->lock);
}
/*
* change the input audio source
*/
static void vxp_change_audio_source(struct vx_core *_chip, int src)
{
struct snd_vxpocket *chip = to_vxpocket(_chip);
switch (src) {
case VX_AUDIO_SRC_DIGITAL:
chip->regCDSP |= VXP_CDSP_DATAIN_SEL_MASK;
vx_outb(chip, CDSP, chip->regCDSP);
break;
case VX_AUDIO_SRC_LINE:
chip->regCDSP &= ~VXP_CDSP_DATAIN_SEL_MASK;
if (_chip->type == VX_TYPE_VXP440)
chip->regCDSP &= ~P24_CDSP_MICS_SEL_MASK;
else
chip->regCDSP &= ~VXP_CDSP_MIC_SEL_MASK;
vx_outb(chip, CDSP, chip->regCDSP);
break;
case VX_AUDIO_SRC_MIC:
chip->regCDSP &= ~VXP_CDSP_DATAIN_SEL_MASK;
/* reset mic levels */
if (_chip->type == VX_TYPE_VXP440) {
chip->regCDSP &= ~P24_CDSP_MICS_SEL_MASK;
if (chip->mic_level)
chip->regCDSP |= P24_CDSP_MIC38_SEL_MASK;
else
chip->regCDSP |= P24_CDSP_MIC20_SEL_MASK;
vx_outb(chip, CDSP, chip->regCDSP);
} else {
chip->regCDSP |= VXP_CDSP_MIC_SEL_MASK;
vx_outb(chip, CDSP, chip->regCDSP);
vx_outb(chip, MICRO, vx_compute_mic_level(chip->mic_level));
}
break;
}
}
/*
* change the clock source
* source = INTERNAL_QUARTZ or UER_SYNC
*/
static void vxp_set_clock_source(struct vx_core *_chip, int source)
{
struct snd_vxpocket *chip = to_vxpocket(_chip);
if (source == INTERNAL_QUARTZ)
chip->regCDSP &= ~VXP_CDSP_CLOCKIN_SEL_MASK;
else
chip->regCDSP |= VXP_CDSP_CLOCKIN_SEL_MASK;
vx_outb(chip, CDSP, chip->regCDSP);
}
/*
* reset the board
*/
static void vxp_reset_board(struct vx_core *_chip, int cold_reset)
{
struct snd_vxpocket *chip = to_vxpocket(_chip);
chip->regCDSP = 0;
chip->regDIALOG = 0;
}
/*
* callbacks
*/
/* exported */
const struct snd_vx_ops snd_vxpocket_ops = {
.in8 = vxp_inb,
.out8 = vxp_outb,
.test_and_ack = vxp_test_and_ack,
.validate_irq = vxp_validate_irq,
.write_codec = vxp_write_codec_reg,
.reset_codec = vxp_reset_codec,
.change_audio_source = vxp_change_audio_source,
.set_clock_source = vxp_set_clock_source,
.load_dsp = vxp_load_dsp,
.add_controls = vxp_add_mic_controls,
.reset_dsp = vxp_reset_dsp,
.reset_board = vxp_reset_board,
.dma_write = vxp_dma_write,
.dma_read = vxp_dma_read,
};
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