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path: root/sound/pci/pcxhr/pcxhr_core.c
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/*
 * Driver for Digigram pcxhr compatible soundcards
 *
 * low level interface with interrupt and message handling implementation
 *
 * Copyright (c) 2004 by Digigram <alsa@digigram.com>
 *
 *   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 program is distributed in the hope that it will be useful,
 *   but WITHOUT ANY WARRANTY; without even the implied warranty of
 *   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 *   GNU General Public License for more details.
 *
 *   You should have received a copy of the GNU General Public License
 *   along with this program; if not, write to the Free Software
 *   Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307 USA
 */

#include <linux/delay.h>
#include <linux/firmware.h>
#include <linux/interrupt.h>
#include <asm/io.h>
#include <sound/core.h>
#include "pcxhr.h"
#include "pcxhr_mixer.h"
#include "pcxhr_hwdep.h"
#include "pcxhr_core.h"


/* registers used on the PLX (port 1) */
#define PCXHR_PLX_OFFSET_MIN	0x40
#define PCXHR_PLX_MBOX0		0x40
#define PCXHR_PLX_MBOX1		0x44
#define PCXHR_PLX_MBOX2		0x48
#define PCXHR_PLX_MBOX3		0x4C
#define PCXHR_PLX_MBOX4		0x50
#define PCXHR_PLX_MBOX5		0x54
#define PCXHR_PLX_MBOX6		0x58
#define PCXHR_PLX_MBOX7		0x5C
#define PCXHR_PLX_L2PCIDB	0x64
#define PCXHR_PLX_IRQCS		0x68
#define PCXHR_PLX_CHIPSC	0x6C

/* registers used on the DSP (port 2) */
#define PCXHR_DSP_ICR		0x00
#define PCXHR_DSP_CVR		0x04
#define PCXHR_DSP_ISR		0x08
#define PCXHR_DSP_IVR		0x0C
#define PCXHR_DSP_RXH		0x14
#define PCXHR_DSP_TXH		0x14
#define PCXHR_DSP_RXM		0x18
#define PCXHR_DSP_TXM		0x18
#define PCXHR_DSP_RXL		0x1C
#define PCXHR_DSP_TXL		0x1C
#define PCXHR_DSP_RESET		0x20
#define PCXHR_DSP_OFFSET_MAX	0x20

/* access to the card */
#define PCXHR_PLX 1
#define PCXHR_DSP 2

#if (PCXHR_DSP_OFFSET_MAX > PCXHR_PLX_OFFSET_MIN)
#undef  PCXHR_REG_TO_PORT(x)
#else
#define PCXHR_REG_TO_PORT(x)	((x)>PCXHR_DSP_OFFSET_MAX ? PCXHR_PLX : PCXHR_DSP)
#endif
#define PCXHR_INPB(mgr,x)	inb((mgr)->port[PCXHR_REG_TO_PORT(x)] + (x))
#define PCXHR_INPL(mgr,x)	inl((mgr)->port[PCXHR_REG_TO_PORT(x)] + (x))
#define PCXHR_OUTPB(mgr,x,data)	outb((data), (mgr)->port[PCXHR_REG_TO_PORT(x)] + (x))
#define PCXHR_OUTPL(mgr,x,data)	outl((data), (mgr)->port[PCXHR_REG_TO_PORT(x)] + (x))
/* attention : access the PCXHR_DSP_* registers with inb and outb only ! */

/* params used with PCXHR_PLX_MBOX0 */
#define PCXHR_MBOX0_HF5			(1 << 0)
#define PCXHR_MBOX0_HF4			(1 << 1)
#define PCXHR_MBOX0_BOOT_HERE		(1 << 23)
/* params used with PCXHR_PLX_IRQCS */
#define PCXHR_IRQCS_ENABLE_PCIIRQ	(1 << 8)
#define PCXHR_IRQCS_ENABLE_PCIDB	(1 << 9)
#define PCXHR_IRQCS_ACTIVE_PCIDB	(1 << 13)
/* params used with PCXHR_PLX_CHIPSC */
#define PCXHR_CHIPSC_INIT_VALUE		0x100D767E
#define PCXHR_CHIPSC_RESET_XILINX	(1 << 16)
#define PCXHR_CHIPSC_GPI_USERI		(1 << 17)
#define PCXHR_CHIPSC_DATA_CLK		(1 << 24)
#define PCXHR_CHIPSC_DATA_IN		(1 << 26)

/* params used with PCXHR_DSP_ICR */
#define PCXHR_ICR_HI08_RREQ		0x01
#define PCXHR_ICR_HI08_TREQ		0x02
#define PCXHR_ICR_HI08_HDRQ		0x04
#define PCXHR_ICR_HI08_HF0		0x08
#define PCXHR_ICR_HI08_HF1		0x10
#define PCXHR_ICR_HI08_HLEND		0x20
#define PCXHR_ICR_HI08_INIT		0x80
/* params used with PCXHR_DSP_CVR */
#define PCXHR_CVR_HI08_HC		0x80
/* params used with PCXHR_DSP_ISR */
#define PCXHR_ISR_HI08_RXDF		0x01
#define PCXHR_ISR_HI08_TXDE		0x02
#define PCXHR_ISR_HI08_TRDY		0x04
#define PCXHR_ISR_HI08_ERR		0x08
#define PCXHR_ISR_HI08_CHK		0x10
#define PCXHR_ISR_HI08_HREQ		0x80


/* constants used for delay in msec */
#define PCXHR_WAIT_DEFAULT		2
#define PCXHR_WAIT_IT			25
#define PCXHR_WAIT_IT_EXTRA		65

/*
 * pcxhr_check_reg_bit - wait for the specified bit is set/reset on a register
 * @reg: register to check
 * @mask: bit mask
 * @bit: resultant bit to be checked
 * @time: time-out of loop in msec
 *
 * returns zero if a bit matches, or a negative error code.
 */
static int pcxhr_check_reg_bit(struct pcxhr_mgr *mgr, unsigned int reg,
			       unsigned char mask, unsigned char bit, int time,
			       unsigned char* read)
{
	int i = 0;
	unsigned long end_time = jiffies + (time * HZ + 999) / 1000;
	do {
		*read = PCXHR_INPB(mgr, reg);
		if ((*read & mask) == bit) {
			if (i > 100)
				snd_printdd("ATTENTION! check_reg(%x) "
					    "loopcount=%d\n",
					    reg, i);
			return 0;
		}
		i++;
	} while (time_after_eq(end_time, jiffies));
	snd_printk(KERN_ERR
		   "pcxhr_check_reg_bit: timeout, reg=%x, mask=0x%x, val=%x\n",
		   reg, mask, *read);
	return -EIO;
}

/* constants used with pcxhr_check_reg_bit() */
#define PCXHR_TIMEOUT_DSP		200


#define PCXHR_MASK_EXTRA_INFO		0x0000FE
#define PCXHR_MASK_IT_HF0		0x000100
#define PCXHR_MASK_IT_HF1		0x000200
#define PCXHR_MASK_IT_NO_HF0_HF1	0x000400
#define PCXHR_MASK_IT_MANAGE_HF5	0x000800
#define PCXHR_MASK_IT_WAIT		0x010000
#define PCXHR_MASK_IT_WAIT_EXTRA	0x020000

#define PCXHR_IT_SEND_BYTE_XILINX	(0x0000003C | PCXHR_MASK_IT_HF0)
#define PCXHR_IT_TEST_XILINX		(0x0000003C | PCXHR_MASK_IT_HF1 | \
					 PCXHR_MASK_IT_MANAGE_HF5)
#define PCXHR_IT_DOWNLOAD_BOOT		(0x0000000C | PCXHR_MASK_IT_HF1 | \
					 PCXHR_MASK_IT_MANAGE_HF5 | \
					 PCXHR_MASK_IT_WAIT)
#define PCXHR_IT_RESET_BOARD_FUNC	(0x0000000C | PCXHR_MASK_IT_HF0 | \
					 PCXHR_MASK_IT_MANAGE_HF5 | \
					 PCXHR_MASK_IT_WAIT_EXTRA)
#define PCXHR_IT_DOWNLOAD_DSP		(0x0000000C | \
					 PCXHR_MASK_IT_MANAGE_HF5 | \
					 PCXHR_MASK_IT_WAIT)
#define PCXHR_IT_DEBUG			(0x0000005A | PCXHR_MASK_IT_NO_HF0_HF1)
#define PCXHR_IT_RESET_SEMAPHORE	(0x0000005C | PCXHR_MASK_IT_NO_HF0_HF1)
#define PCXHR_IT_MESSAGE		(0x00000074 | PCXHR_MASK_IT_NO_HF0_HF1)
#define PCXHR_IT_RESET_CHK		(0x00000076 | PCXHR_MASK_IT_NO_HF0_HF1)
#define PCXHR_IT_UPDATE_RBUFFER		(0x00000078 | PCXHR_MASK_IT_NO_HF0_HF1)

static int pcxhr_send_it_dsp(struct pcxhr_mgr *mgr,
			     unsigned int itdsp, int atomic)
{
	int err;
	unsigned char reg;

	if (itdsp & PCXHR_MASK_IT_MANAGE_HF5) {
		/* clear hf5 bit */
		PCXHR_OUTPL(mgr, PCXHR_PLX_MBOX0,
			    PCXHR_INPL(mgr, PCXHR_PLX_MBOX0) &
			    ~PCXHR_MBOX0_HF5);
	}
	if ((itdsp & PCXHR_MASK_IT_NO_HF0_HF1) == 0) {
		reg = (PCXHR_ICR_HI08_RREQ |
		       PCXHR_ICR_HI08_TREQ |
		       PCXHR_ICR_HI08_HDRQ);
		if (itdsp & PCXHR_MASK_IT_HF0)
			reg |= PCXHR_ICR_HI08_HF0;
		if (itdsp & PCXHR_MASK_IT_HF1)
			reg |= PCXHR_ICR_HI08_HF1;
		PCXHR_OUTPB(mgr, PCXHR_DSP_ICR, reg);
	}
	reg = (unsigned char)(((itdsp & PCXHR_MASK_EXTRA_INFO) >> 1) |
			      PCXHR_CVR_HI08_HC);
	PCXHR_OUTPB(mgr, PCXHR_DSP_CVR, reg);
	if (itdsp & PCXHR_MASK_IT_WAIT) {
		if (atomic)
			mdelay(PCXHR_WAIT_IT);
		else
			msleep(PCXHR_WAIT_IT);
	}
	if (itdsp & PCXHR_MASK_IT_WAIT_EXTRA) {
		if (atomic)
			mdelay(PCXHR_WAIT_IT_EXTRA);
		else
			msleep(PCXHR_WAIT_IT);
	}
	/* wait for CVR_HI08_HC == 0 */
	err = pcxhr_check_reg_bit(mgr, PCXHR_DSP_CVR,  PCXHR_CVR_HI08_HC, 0,
				  PCXHR_TIMEOUT_DSP, &reg);
	if (err) {
		snd_printk(KERN_ERR "pcxhr_send_it_dsp : TIMEOUT CVR\n");
		return err;
	}
	if (itdsp & PCXHR_MASK_IT_MANAGE_HF5) {
		/* wait for hf5 bit */
		err = pcxhr_check_reg_bit(mgr, PCXHR_PLX_MBOX0,
					  PCXHR_MBOX0_HF5,
					  PCXHR_MBOX0_HF5,
					  PCXHR_TIMEOUT_DSP,
					  &reg);
		if (err) {
			snd_printk(KERN_ERR
				   "pcxhr_send_it_dsp : TIMEOUT HF5\n");
			return err;
		}
	}
	return 0; /* retry not handled here */
}

void pcxhr_reset_xilinx_com(struct pcxhr_mgr *mgr)
{
	/* reset second xilinx */
	PCXHR_OUTPL(mgr, PCXHR_PLX_CHIPSC,
		    PCXHR_CHIPSC_INIT_VALUE & ~PCXHR_CHIPSC_RESET_XILINX);
}

static void pcxhr_enable_irq(struct pcxhr_mgr *mgr, int enable)
{
	unsigned int reg = PCXHR_INPL(mgr, PCXHR_PLX_IRQCS);
	/* enable/disable interrupts */
	if (enable)
		reg |=  (PCXHR_IRQCS_ENABLE_PCIIRQ | PCXHR_IRQCS_ENABLE_PCIDB);
	else
		reg &= ~(PCXHR_IRQCS_ENABLE_PCIIRQ | PCXHR_IRQCS_ENABLE_PCIDB);
	PCXHR_OUTPL(mgr, PCXHR_PLX_IRQCS, reg);
}

void pcxhr_reset_dsp(struct pcxhr_mgr *mgr)
{
	/* disable interrupts */
	pcxhr_enable_irq(mgr, 0);

	/* let's reset the DSP */
	PCXHR_OUTPB(mgr, PCXHR_DSP_RESET, 0);
	msleep( PCXHR_WAIT_DEFAULT ); /* wait 2 msec */
	PCXHR_OUTPB(mgr, PCXHR_DSP_RESET, 3);
	msleep( PCXHR_WAIT_DEFAULT ); /* wait 2 msec */

	/* reset mailbox */
	PCXHR_OUTPL(mgr, PCXHR_PLX_MBOX0, 0);
}

void pcxhr_enable_dsp(struct pcxhr_mgr *mgr)
{
	/* enable interrupts */
	pcxhr_enable_irq(mgr, 1);
}

/*
 * load the xilinx image
 */
int pcxhr_load_xilinx_binary(struct pcxhr_mgr *mgr,
			     const struct firmware *xilinx, int second)
{
	unsigned int i;
	unsigned int chipsc;
	unsigned char data;
	unsigned char mask;
	const unsigned char *image;

	/* test first xilinx */
	chipsc = PCXHR_INPL(mgr, PCXHR_PLX_CHIPSC);
	/* REV01 cards do not support the PCXHR_CHIPSC_GPI_USERI bit anymore */
	/* this bit will always be 1;
	 * no possibility to test presence of first xilinx
	 */
	if(second) {
		if ((chipsc & PCXHR_CHIPSC_GPI_USERI) == 0) {
			snd_printk(KERN_ERR "error loading first xilinx\n");
			return -EINVAL;
		}
		/* activate second xilinx */
		chipsc |= PCXHR_CHIPSC_RESET_XILINX;
		PCXHR_OUTPL(mgr, PCXHR_PLX_CHIPSC, chipsc);
		msleep( PCXHR_WAIT_DEFAULT ); /* wait 2 msec */
	}
	image = xilinx->data;
	for (i = 0; i < xilinx->size; i++, image++) {
		data = *image;
		mask = 0x80;
		while (mask) {
			chipsc &= ~(PCXHR_CHIPSC_DATA_CLK |
				    PCXHR_CHIPSC_DATA_IN);
			if (data & mask)
				chipsc |= PCXHR_CHIPSC_DATA_IN;
			PCXHR_OUTPL(mgr, PCXHR_PLX_CHIPSC, chipsc);
			chipsc |= PCXHR_CHIPSC_DATA_CLK;
			PCXHR_OUTPL(mgr, PCXHR_PLX_CHIPSC, chipsc);
			mask >>= 1;
		}
		/* don't take too much time in this loop... */
		cond_resched();
	}
	chipsc &= ~(PCXHR_CHIPSC_DATA_CLK | PCXHR_CHIPSC_DATA_IN);
	PCXHR_OUTPL(mgr, PCXHR_PLX_CHIPSC, chipsc);
	/* wait 2 msec (time to boot the xilinx before any access) */
	msleep( PCXHR_WAIT_DEFAULT );
	return 0;
}

/*
 * send an executable file to the DSP
 */
static int pcxhr_download_dsp(struct pcxhr_mgr *mgr, const struct firmware *dsp)
{
	int err;
	unsigned int i;
	unsigned int len;
	const unsigned char *data;
	unsigned char dummy;
	/* check the length of boot image */
	if (dsp->size <= 0)
		return -EINVAL;
	if (dsp->size % 3)
		return -EINVAL;
	if (snd_BUG_ON(!dsp->data))
		return -EINVAL;
	/* transfert data buffer from PC to DSP */
	for (i = 0; i < dsp->size; i += 3) {
		data = dsp->data + i;
		if (i == 0) {
			/* test data header consistency */
			len = (unsigned int)((data[0]<<16) +
					     (data[1]<<8) +
					     data[2]);
			if (len && (dsp->size != (len + 2) * 3))
				return -EINVAL;
		}
		/* wait DSP ready for new transfer */
		err = pcxhr_check_reg_bit(mgr, PCXHR_DSP_ISR,
					  PCXHR_ISR_HI08_TRDY,
					  PCXHR_ISR_HI08_TRDY,
					  PCXHR_TIMEOUT_DSP, &dummy);
		if (err) {
			snd_printk(KERN_ERR
				   "dsp loading error at position %d\n", i);
			return err;
		}
		/* send host data */
		PCXHR_OUTPB(mgr, PCXHR_DSP_TXH, data[0]);
		PCXHR_OUTPB(mgr, PCXHR_DSP_TXM, data[1]);
		PCXHR_OUTPB(mgr, PCXHR_DSP_TXL, data[2]);

		/* don't take too much time in this loop... */
		cond_resched();
	}
	/* give some time to boot the DSP */
	msleep(PCXHR_WAIT_DEFAULT);
	return 0;
}

/*
 * load the eeprom image
 */
int pcxhr_load_eeprom_binary(struct pcxhr_mgr *mgr,
			     const struct firmware *eeprom)
{
	int err;
	unsigned char reg;

	/* init value of the ICR register */
	reg = PCXHR_ICR_HI08_RREQ | PCXHR_ICR_HI08_TREQ | PCXHR_ICR_HI08_HDRQ;
	if (PCXHR_INPL(mgr, PCXHR_PLX_MBOX0) & PCXHR_MBOX0_BOOT_HERE) {
		/* no need to load the eeprom binary,
		 * but init the HI08 interface
		 */
		PCXHR_OUTPB(mgr, PCXHR_DSP_ICR, reg | PCXHR_ICR_HI08_INIT);
		msleep(PCXHR_WAIT_DEFAULT);
		PCXHR_OUTPB(mgr, PCXHR_DSP_ICR, reg);
		msleep(PCXHR_WAIT_DEFAULT);
		snd_printdd("no need to load eeprom boot\n");
		return 0;
	}
	PCXHR_OUTPB(mgr, PCXHR_DSP_ICR, reg);

	err = pcxhr_download_dsp(mgr, eeprom);
	if (err)
		return err;
	/* wait for chk bit */
	return pcxhr_check_reg_bit(mgr, PCXHR_DSP_ISR, PCXHR_ISR_HI08_CHK,
				   PCXHR_ISR_HI08_CHK, PCXHR_TIMEOUT_DSP, &reg);
}

/*
 * load the boot image
 */
int pcxhr_load_boot_binary(struct pcxhr_mgr *mgr, const struct firmware *boot)
{
	int err;
	unsigned int physaddr = mgr->hostport.addr;
	unsigned char dummy;

	/* send the hostport address to the DSP (only the upper 24 bit !) */
	if (snd_BUG_ON(physaddr & 0xff))
		return -EINVAL;
	PCXHR_OUTPL(mgr, PCXHR_PLX_MBOX1, (physaddr >> 8));

	err = pcxhr_send_it_dsp(mgr, PCXHR_IT_DOWNLOAD_BOOT, 0);
	if (err)
		return err;
	/* clear hf5 bit */
	PCXHR_OUTPL(mgr, PCXHR_PLX_MBOX0,
		    PCXHR_INPL(mgr, PCXHR_PLX_MBOX0) & ~PCXHR_MBOX0_HF5);

	err = pcxhr_download_dsp(mgr, boot);
	if (err)
		return err;
	/* wait for hf5 bit */
	return pcxhr_check_reg_bit(mgr, PCXHR_PLX_MBOX0, PCXHR_MBOX0_HF5,
				   PCXHR_MBOX0_HF5, PCXHR_TIMEOUT_DSP, &dummy);
}

/*
 * load the final dsp image
 */
int pcxhr_load_dsp_binary(struct pcxhr_mgr *mgr, const struct firmware *dsp)
{
	int err;
	unsigned char dummy;
	err = pcxhr_send_it_dsp(mgr, PCXHR_IT_RESET_BOARD_FUNC, 0);
	if (err)
		return err;
	err = pcxhr_send_it_dsp(mgr, PCXHR_IT_DOWNLOAD_DSP, 0);
	if (err)
		return err;
	err = pcxhr_download_dsp(mgr, dsp);
	if (err)
		return err;
	/* wait for chk bit */
	return pcxhr_check_reg_bit(mgr, PCXHR_DSP_ISR,
				   PCXHR_ISR_HI08_CHK,
				   PCXHR_ISR_HI08_CHK,
				   PCXHR_TIMEOUT_DSP, &dummy);
}


struct pcxhr_cmd_info {
	u32 opcode;		/* command word */
	u16 st_length;		/* status length */
	u16 st_type;		/* status type (RMH_SSIZE_XXX) */
};

/* RMH status type */
enum {
	RMH_SSIZE_FIXED = 0,	/* status size fix (st_length = 0..x) */
	RMH_SSIZE_ARG = 1,	/* status size given in the LSB byte */
	RMH_SSIZE_MASK = 2,	/* status size given in bitmask */
};

/*
 * Array of DSP commands
 */
static struct pcxhr_cmd_info pcxhr_dsp_cmds[] = {
[CMD_VERSION] =				{ 0x010000, 1, RMH_SSIZE_FIXED },
[CMD_SUPPORTED] =			{ 0x020000, 4, RMH_SSIZE_FIXED },
[CMD_TEST_IT] =				{ 0x040000, 1, RMH_SSIZE_FIXED },
[CMD_SEND_IRQA] =			{ 0x070001, 0, RMH_SSIZE_FIXED },
[CMD_ACCESS_IO_WRITE] =			{ 0x090000, 1, RMH_SSIZE_ARG },
[CMD_ACCESS_IO_READ] =			{ 0x094000, 1, RMH_SSIZE_ARG },
[CMD_ASYNC] =				{ 0x0a0000, 1, RMH_SSIZE_ARG },
[CMD_MODIFY_CLOCK] =			{ 0x0d0000, 0, RMH_SSIZE_FIXED },
[CMD_RESYNC_AUDIO_INPUTS] =		{ 0x0e0000, 0, RMH_SSIZE_FIXED },
[CMD_GET_DSP_RESOURCES] =		{ 0x100000, 4, RMH_SSIZE_FIXED },
[CMD_SET_TIMER_INTERRUPT] =		{ 0x110000, 0, RMH_SSIZE_FIXED },
[CMD_RES_PIPE] =			{ 0x400000, 0, RMH_SSIZE_FIXED },
[CMD_FREE_PIPE] =			{ 0x410000, 0, RMH_SSIZE_FIXED },
[CMD_CONF_PIPE] =			{ 0x422101, 0, RMH_SSIZE_FIXED },
[CMD_STOP_PIPE] =			{ 0x470004, 0, RMH_SSIZE_FIXED },
[CMD_PIPE_SAMPLE_COUNT] =		{ 0x49a000, 2, RMH_SSIZE_FIXED },
[CMD_CAN_START_PIPE] =			{ 0x4b0000, 1, RMH_SSIZE_FIXED },
[CMD_START_STREAM] =			{ 0x802000, 0, RMH_SSIZE_FIXED },
[CMD_STREAM_OUT_LEVEL_ADJUST] =		{ 0x822000, 0, RMH_SSIZE_FIXED },
[CMD_STOP_STREAM] =			{ 0x832000, 0, RMH_SSIZE_FIXED },
[CMD_UPDATE_R_BUFFERS] =		{ 0x840000, 0, RMH_SSIZE_FIXED },
[CMD_FORMAT_STREAM_OUT] =		{ 0x860000, 0, RMH_SSIZE_FIXED },
[CMD_FORMAT_STREAM_IN] =		{ 0x870000, 0, RMH_SSIZE_FIXED },
[CMD_STREAM_SAMPLE_COUNT] =		{ 0x902000, 2, RMH_SSIZE_FIXED },
[CMD_AUDIO_LEVEL_ADJUST] =		{ 0xc22000, 0, RMH_SSIZE_FIXED },
};

#ifdef CONFIG_SND_DEBUG_VERBOSE
static char* cmd_names[] = {
[CMD_VERSION] =				"CMD_VERSION",
[CMD_SUPPORTED] =			"CMD_SUPPORTED",
[CMD_TEST_IT] =				"CMD_TEST_IT",
[CMD_SEND_IRQA] =			"CMD_SEND_IRQA",
[CMD_ACCESS_IO_WRITE] =			"CMD_ACCESS_IO_WRITE",
[CMD_ACCESS_IO_READ] =			"CMD_ACCESS_IO_READ",
[CMD_ASYNC] =				"CMD_ASYNC",
[CMD_MODIFY_CLOCK] =			"CMD_MODIFY_CLOCK",
[CMD_RESYNC_AUDIO_INPUTS] =		"CMD_RESYNC_AUDIO_INPUTS",
[CMD_GET_DSP_RESOURCES] =		"CMD_GET_DSP_RESOURCES",
[CMD_SET_TIMER_INTERRUPT] =		"CMD_SET_TIMER_INTERRUPT",
[CMD_RES_PIPE] =			"CMD_RES_PIPE",
[CMD_FREE_PIPE] =			"CMD_FREE_PIPE",
[CMD_CONF_PIPE] =			"CMD_CONF_PIPE",
[CMD_STOP_PIPE] =			"CMD_STOP_PIPE",
[CMD_PIPE_SAMPLE_COUNT] =		"CMD_PIPE_SAMPLE_COUNT",
[CMD_CAN_START_PIPE] =			"CMD_CAN_START_PIPE",
[CMD_START_STREAM] =			"CMD_START_STREAM",
[CMD_STREAM_OUT_LEVEL_ADJUST] =		"CMD_STREAM_OUT_LEVEL_ADJUST",
[CMD_STOP_STREAM] =			"CMD_STOP_STREAM",
[CMD_UPDATE_R_BUFFERS] =		"CMD_UPDATE_R_BUFFERS",
[CMD_FORMAT_STREAM_OUT] =		"CMD_FORMAT_STREAM_OUT",
[CMD_FORMAT_STREAM_IN] =		"CMD_FORMAT_STREAM_IN",
[CMD_STREAM_SAMPLE_COUNT] =		"CMD_STREAM_SAMPLE_COUNT",
[CMD_AUDIO_LEVEL_ADJUST] =		"CMD_AUDIO_LEVEL_ADJUST",
};
#endif


static int pcxhr_read_rmh_status(struct pcxhr_mgr *mgr, struct pcxhr_rmh *rmh)
{
	int err;
	int i;
	u32 data;
	u32 size_mask;
	unsigned char reg;
	int max_stat_len;

	if (rmh->stat_len < PCXHR_SIZE_MAX_STATUS)
		max_stat_len = PCXHR_SIZE_MAX_STATUS;
	else	max_stat_len = rmh->stat_len;

	for (i = 0; i < rmh->stat_len; i++) {
		/* wait for receiver full */
		err = pcxhr_check_reg_bit(mgr, PCXHR_DSP_ISR,
					  PCXHR_ISR_HI08_RXDF,
					  PCXHR_ISR_HI08_RXDF,
					  PCXHR_TIMEOUT_DSP, &reg);
		if (err) {
			snd_printk(KERN_ERR "ERROR RMH stat: "
				   "ISR:RXDF=1 (ISR = %x; i=%d )\n",
				   reg, i);
			return err;
		}
		/* read data */
		data  = PCXHR_INPB(mgr, PCXHR_DSP_TXH) << 16;
		data |= PCXHR_INPB(mgr, PCXHR_DSP_TXM) << 8;
		data |= PCXHR_INPB(mgr, PCXHR_DSP_TXL);

		/* need to update rmh->stat_len on the fly ?? */
		if (!i) {
			if (rmh->dsp_stat != RMH_SSIZE_FIXED) {
				if (rmh->dsp_stat == RMH_SSIZE_ARG) {
					rmh->stat_len = (data & 0x0000ff) + 1;
					data &= 0xffff00;
				} else {
					/* rmh->dsp_stat == RMH_SSIZE_MASK */
					rmh->stat_len = 1;
					size_mask = data;
					while (size_mask) {
						if (size_mask & 1)
							rmh->stat_len++;
						size_mask >>= 1;
					}
				}
			}
		}
#ifdef CONFIG_SND_DEBUG_VERBOSE
		if (rmh->cmd_idx < CMD_LAST_INDEX)
			snd_printdd("    stat[%d]=%x\n", i, data);
#endif
		if (i < max_stat_len)
			rmh->stat[i] = data;
	}
	if (rmh->stat_len > max_stat_len) {
		snd_printdd("PCXHR : rmh->stat_len=%x too big\n",
			    rmh->stat_len);
		rmh->stat_len = max_stat_len;
	}
	return 0;
}

static int pcxhr_send_msg_nolock(struct pcxhr_mgr *mgr, struct pcxhr_rmh *rmh)
{
	int err;
	int i;
	u32 data;
	unsigned char reg;

	if (snd_BUG_ON(rmh->cmd_len >= PCXHR_SIZE_MAX_CMD))
		return -EINVAL;
	err = pcxhr_send_it_dsp(mgr, PCXHR_IT_MESSAGE, 1);
	if (err) {
		snd_printk(KERN_ERR "pcxhr_send_message : ED_DSP_CRASHED\n");
		return err;
	}
	/* wait for chk bit */
	err = pcxhr_check_reg_bit(mgr, PCXHR_DSP_ISR, PCXHR_ISR_HI08_CHK,
				  PCXHR_ISR_HI08_CHK, PCXHR_TIMEOUT_DSP, &reg);
	if (err)
		return err;
	/* reset irq chk */
	err = pcxhr_send_it_dsp(mgr, PCXHR_IT_RESET_CHK, 1);
	if (err)
		return err;
	/* wait for chk bit == 0*/
	err = pcxhr_check_reg_bit(mgr, PCXHR_DSP_ISR, PCXHR_ISR_HI08_CHK, 0,
				  PCXHR_TIMEOUT_DSP, &reg);
	if (err)
		return err;

	data = rmh->cmd[0];

	if (rmh->cmd_len > 1)
		data |= 0x008000;	/* MASK_MORE_THAN_1_WORD_COMMAND */
	else
		data &= 0xff7fff;	/* MASK_1_WORD_COMMAND */
#ifdef CONFIG_SND_DEBUG_VERBOSE
	if (rmh->cmd_idx < CMD_LAST_INDEX)
		snd_printdd("MSG cmd[0]=%x (%s)\n",
			    data, cmd_names[rmh->cmd_idx]);
#endif

	err = pcxhr_check_reg_bit(mgr, PCXHR_DSP_ISR, PCXHR_ISR_HI08_TRDY,
				  PCXHR_ISR_HI08_TRDY, PCXHR_TIMEOUT_DSP, &reg);
	if (err)
		return err;
	PCXHR_OUTPB(mgr, PCXHR_DSP_TXH, (data>>16)&0xFF);
	PCXHR_OUTPB(mgr, PCXHR_DSP_TXM, (data>>8)&0xFF);
	PCXHR_OUTPB(mgr, PCXHR_DSP_TXL, (data&0xFF));

	if (rmh->cmd_len > 1) {
		/* send length */
		data = rmh->cmd_len - 1;
		err = pcxhr_check_reg_bit(mgr, PCXHR_DSP_ISR,
					  PCXHR_ISR_HI08_TRDY,
					  PCXHR_ISR_HI08_TRDY,
					  PCXHR_TIMEOUT_DSP, &reg);
		if (err)
			return err;
		PCXHR_OUTPB(mgr, PCXHR_DSP_TXH, (data>>16)&0xFF);
		PCXHR_OUTPB(mgr, PCXHR_DSP_TXM, (data>>8)&0xFF);
		PCXHR_OUTPB(mgr, PCXHR_DSP_TXL, (data&0xFF));

		for (i=1; i < rmh->cmd_len; i++) {
			/* send other words */
			data = rmh->cmd[i];
#ifdef CONFIG_SND_DEBUG_VERBOSE
			if (rmh->cmd_idx < CMD_LAST_INDEX)
				snd_printdd("    cmd[%d]=%x\n", i, data);
#endif
			err = pcxhr_check_reg_bit(mgr, PCXHR_DSP_ISR,
						  PCXHR_ISR_HI08_TRDY,
						  PCXHR_ISR_HI08_TRDY,
						  PCXHR_TIMEOUT_DSP, &reg);
			if (err)
				return err;
			PCXHR_OUTPB(mgr, PCXHR_DSP_TXH, (data>>16)&0xFF);
			PCXHR_OUTPB(mgr, PCXHR_DSP_TXM, (data>>8)&0xFF);
			PCXHR_OUTPB(mgr, PCXHR_DSP_TXL, (data&0xFF));
		}
	}
	/* wait for chk bit */
	err = pcxhr_check_reg_bit(mgr, PCXHR_DSP_ISR, PCXHR_ISR_HI08_CHK,
				  PCXHR_ISR_HI08_CHK, PCXHR_TIMEOUT_DSP, &reg);
	if (err)
		return err;
	/* test status ISR */
	if (reg & PCXHR_ISR_HI08_ERR) {
		/* ERROR, wait for receiver full */
		err = pcxhr_check_reg_bit(mgr, PCXHR_DSP_ISR,
					  PCXHR_ISR_HI08_RXDF,
					  PCXHR_ISR_HI08_RXDF,
					  PCXHR_TIMEOUT_DSP, &reg);
		if (err) {
			snd_printk(KERN_ERR "ERROR RMH: ISR:RXDF=1 (ISR = %x)\n", reg);
			return err;
		}
		/* read error code */
		data  = PCXHR_INPB(mgr, PCXHR_DSP_TXH) << 16;
		data |= PCXHR_INPB(mgr, PCXHR_DSP_TXM) << 8;
		data |= PCXHR_INPB(mgr, PCXHR_DSP_TXL);
		snd_printk(KERN_ERR "ERROR RMH(%d): 0x%x\n",
			   rmh->cmd_idx, data);
		err = -EINVAL;
	} else {
		/* read the response data */
		err = pcxhr_read_rmh_status(mgr, rmh);
	}
	/* reset semaphore */
	if (pcxhr_send_it_dsp(mgr, PCXHR_IT_RESET_SEMAPHORE, 1) < 0)
		return -EIO;
	return err;
}


/**
 * pcxhr_init_rmh - initialize the RMH instance
 * @rmh: the rmh pointer to be initialized
 * @cmd: the rmh command to be set
 */
void pcxhr_init_rmh(struct pcxhr_rmh *rmh, int cmd)
{
	if (snd_BUG_ON(cmd >= CMD_LAST_INDEX))
		return;
	rmh->cmd[0] = pcxhr_dsp_cmds[cmd].opcode;
	rmh->cmd_len = 1;
	rmh->stat_len = pcxhr_dsp_cmds[cmd].st_length;
	rmh->dsp_stat = pcxhr_dsp_cmds[cmd].st_type;
	rmh->cmd_idx = cmd;
}


void pcxhr_set_pipe_cmd_params(struct pcxhr_rmh *rmh, int capture,
			       unsigned int param1, unsigned int param2,
			       unsigned int param3)
{
	snd_BUG_ON(param1 > MASK_FIRST_FIELD);
	if (capture)
		rmh->cmd[0] |= 0x800;		/* COMMAND_RECORD_MASK */
	if (param1)
		rmh->cmd[0] |= (param1 << FIELD_SIZE);
	if (param2) {
		snd_BUG_ON(param2 > MASK_FIRST_FIELD);
		rmh->cmd[0] |= param2;
	}
	if(param3) {
		snd_BUG_ON(param3 > MASK_DSP_WORD);
		rmh->cmd[1] = param3;
		rmh->cmd_len = 2;
	}
}

/*
 * pcxhr_send_msg - send a DSP message with spinlock
 * @rmh: the rmh record to send and receive
 *
 * returns 0 if successful, or a negative error code.
 */
int pcxhr_send_msg(struct pcxhr_mgr *mgr, struct pcxhr_rmh *rmh)
{
	unsigned long flags;
	int err;
	spin_lock_irqsave(&mgr->msg_lock, flags);
	err = pcxhr_send_msg_nolock(mgr, rmh);
	spin_unlock_irqrestore(&mgr->msg_lock, flags);
	return err;
}

static inline int pcxhr_pipes_running(struct pcxhr_mgr *mgr)
{
	int start_mask = PCXHR_INPL(mgr, PCXHR_PLX_MBOX2);
	/* least segnificant 12 bits are the pipe states
	 * for the playback audios
	 * next 12 bits are the pipe states for the capture audios
	 * (PCXHR_PIPE_STATE_CAPTURE_OFFSET)
	 */
	start_mask &= 0xffffff;
	snd_printdd("CMD_PIPE_STATE MBOX2=0x%06x\n", start_mask);
	return start_mask;
}

#define PCXHR_PIPE_STATE_CAPTURE_OFFSET		12
#define MAX_WAIT_FOR_DSP			20

static int pcxhr_prepair_pipe_start(struct pcxhr_mgr *mgr,
				    int audio_mask, int *retry)
{
	struct pcxhr_rmh rmh;
	int err;
	int audio = 0;

	*retry = 0;
	while (audio_mask) {
		if (audio_mask & 1) {
			pcxhr_init_rmh(&rmh, CMD_CAN_START_PIPE);
			if (audio < PCXHR_PIPE_STATE_CAPTURE_OFFSET) {
				/* can start playback pipe */
				pcxhr_set_pipe_cmd_params(&rmh, 0, audio, 0, 0);
			} else {
				/* can start capture pipe */
				pcxhr_set_pipe_cmd_params(&rmh, 1, audio -
						PCXHR_PIPE_STATE_CAPTURE_OFFSET,
						0, 0);
			}
			err = pcxhr_send_msg(mgr, &rmh);
			if (err) {
				snd_printk(KERN_ERR
					   "error pipe start "
					   "(CMD_CAN_START_PIPE) err=%x!\n",
					   err);
				return err;
			}
			/* if the pipe couldn't be prepaired for start,
			 * retry it later
			 */
			if (rmh.stat[0] == 0)
				*retry |= (1<<audio);
		}
		audio_mask>>=1;
		audio++;
	}
	return 0;
}

static int pcxhr_stop_pipes(struct pcxhr_mgr *mgr, int audio_mask)
{
	struct pcxhr_rmh rmh;
	int err;
	int audio = 0;

	while (audio_mask) {
		if (audio_mask & 1) {
			pcxhr_init_rmh(&rmh, CMD_STOP_PIPE);
			if (audio < PCXHR_PIPE_STATE_CAPTURE_OFFSET) {
				/* stop playback pipe */
				pcxhr_set_pipe_cmd_params(&rmh, 0, audio, 0, 0);
			} else {
				/* stop capture pipe */
				pcxhr_set_pipe_cmd_params(&rmh, 1, audio -
						PCXHR_PIPE_STATE_CAPTURE_OFFSET,
						0, 0);
			}
			err = pcxhr_send_msg(mgr, &rmh);
			if (err) {
				snd_printk(KERN_ERR
					   "error pipe stop "
					   "(CMD_STOP_PIPE) err=%x!\n", err);
				return err;
			}
		}
		audio_mask>>=1;
		audio++;
	}
	return 0;
}

static int pcxhr_toggle_pipes(struct pcxhr_mgr *mgr, int audio_mask)
{
	struct pcxhr_rmh rmh;
	int err;
	int audio = 0;

	while (audio_mask) {
		if (audio_mask & 1) {
			pcxhr_init_rmh(&rmh, CMD_CONF_PIPE);
			if (audio < PCXHR_PIPE_STATE_CAPTURE_OFFSET)
				pcxhr_set_pipe_cmd_params(&rmh, 0, 0, 0,
							  1 << audio);
			else
				pcxhr_set_pipe_cmd_params(&rmh, 1, 0, 0,
							  1 << (audio - PCXHR_PIPE_STATE_CAPTURE_OFFSET));
			err = pcxhr_send_msg(mgr, &rmh);
			if (err) {
				snd_printk(KERN_ERR
					   "error pipe start "
					   "(CMD_CONF_PIPE) err=%x!\n", err);
				return err;
			}
		}
		audio_mask>>=1;
		audio++;
	}
	/* now fire the interrupt on the card */
	pcxhr_init_rmh(&rmh, CMD_SEND_IRQA);
	err = pcxhr_send_msg(mgr, &rmh);
	if (err) {
		snd_printk(KERN_ERR
			   "error pipe start (CMD_SEND_IRQA) err=%x!\n",
			   err);
		return err;
	}
	return 0;
}



int pcxhr_set_pipe_state(struct pcxhr_mgr *mgr, int playback_mask,
			 int capture_mask, int start)
{
	int state, i, err;
	int audio_mask;

#ifdef CONFIG_SND_DEBUG_VERBOSE
	struct timeval my_tv1, my_tv2;
	do_gettimeofday(&my_tv1);
#endif
	audio_mask = (playback_mask |
		      (capture_mask << PCXHR_PIPE_STATE_CAPTURE_OFFSET));
	/* current pipe state (playback + record) */
	state = pcxhr_pipes_running(mgr);
	snd_printdd("pcxhr_set_pipe_state %s (mask %x current %x)\n",
		    start ? "START" : "STOP", audio_mask, state);
	if (start) {
		/* start only pipes that are not yet started */
		audio_mask &= ~state;
		state = audio_mask;
		for (i = 0; i < MAX_WAIT_FOR_DSP; i++) {
			err = pcxhr_prepair_pipe_start(mgr, state, &state);
			if (err)
				return err;
			if (state == 0)
				break;	/* success, all pipes prepaired */
			mdelay(1);	/* wait 1 millisecond and retry */
		}
	} else {
		audio_mask &= state;	/* stop only pipes that are started */
	}
	if (audio_mask == 0)
		return 0;

	err = pcxhr_toggle_pipes(mgr, audio_mask);
	if (err)
		return err;

	i = 0;
	while (1) {
		state = pcxhr_pipes_running(mgr);
		/* have all pipes the new state ? */
		if ((state & audio_mask) == (start ? audio_mask : 0))
			break;
		if (++i >= MAX_WAIT_FOR_DSP * 100) {
			snd_printk(KERN_ERR "error pipe start/stop\n");
			return -EBUSY;
		}
		udelay(10);			/* wait 10 microseconds */
	}
	if (!start) {
		err = pcxhr_stop_pipes(mgr, audio_mask);
		if (err)
			return err;
	}
#ifdef CONFIG_SND_DEBUG_VERBOSE
	do_gettimeofday(&my_tv2);
	snd_printdd("***SET PIPE STATE*** TIME = %ld (err = %x)\n",
		    (long)(my_tv2.tv_usec - my_tv1.tv_usec), err);
#endif
	return 0;
}

int pcxhr_write_io_num_reg_cont(struct pcxhr_mgr *mgr, unsigned int mask,
				unsigned int value, int *changed)
{
	struct pcxhr_rmh rmh;
	unsigned long flags;
	int err;

	spin_lock_irqsave(&mgr->msg_lock, flags);
	if ((mgr->io_num_reg_cont & mask) == value) {
		snd_printdd("IO_NUM_REG_CONT mask %x already is set to %x\n",
			    mask, value);
		if (changed)
			*changed = 0;
		spin_unlock_irqrestore(&mgr->msg_lock, flags);
		return 0;	/* already programmed */
	}
	pcxhr_init_rmh(&rmh, CMD_ACCESS_IO_WRITE);
	rmh.cmd[0] |= IO_NUM_REG_CONT;
	rmh.cmd[1]  = mask;
	rmh.cmd[2]  = value;
	rmh.cmd_len = 3;
	err = pcxhr_send_msg_nolock(mgr, &rmh);
	if (err == 0) {
		mgr->io_num_reg_cont &= ~mask;
		mgr->io_num_reg_cont |= value;
		if (changed)
			*changed = 1;
	}
	spin_unlock_irqrestore(&mgr->msg_lock, flags);
	return err;
}

#define PCXHR_IRQ_TIMER		0x000300
#define PCXHR_IRQ_FREQ_CHANGE	0x000800
#define PCXHR_IRQ_TIME_CODE	0x001000
#define PCXHR_IRQ_NOTIFY	0x002000
#define PCXHR_IRQ_ASYNC		0x008000
#define PCXHR_IRQ_MASK		0x00bb00
#define PCXHR_FATAL_DSP_ERR	0xff0000

enum pcxhr_async_err_src {
	PCXHR_ERR_PIPE,
	PCXHR_ERR_STREAM,
	PCXHR_ERR_AUDIO
};

static int pcxhr_handle_async_err(struct pcxhr_mgr *mgr, u32 err,
				  enum pcxhr_async_err_src err_src, int pipe,
				  int is_capture)
{
#ifdef CONFIG_SND_DEBUG_VERBOSE
	static char* err_src_name[] = {
		[PCXHR_ERR_PIPE]	= "Pipe",
		[PCXHR_ERR_STREAM]	= "Stream",
		[PCXHR_ERR_AUDIO]	= "Audio"
	};
#endif
	if (err & 0xfff)
		err &= 0xfff;
	else
		err = ((err >> 12) & 0xfff);
	if (!err)
		return 0;
	snd_printdd("CMD_ASYNC : Error %s %s Pipe %d err=%x\n",
		    err_src_name[err_src],
		    is_capture ? "Record" : "Play", pipe, err);
	if (err == 0xe01)
		mgr->async_err_stream_xrun++;
	else if (err == 0xe10)
		mgr->async_err_pipe_xrun++;
	else
		mgr->async_err_other_last = (int)err;
	return 1;
}


void pcxhr_msg_tasklet(unsigned long arg)
{
	struct pcxhr_mgr *mgr = (struct pcxhr_mgr *)(arg);
	struct pcxhr_rmh *prmh = mgr->prmh;
	int err;
	int i, j;

	if (mgr->src_it_dsp & PCXHR_IRQ_FREQ_CHANGE)
		snd_printdd("TASKLET : PCXHR_IRQ_FREQ_CHANGE event occured\n");
	if (mgr->src_it_dsp & PCXHR_IRQ_TIME_CODE)
		snd_printdd("TASKLET : PCXHR_IRQ_TIME_CODE event occured\n");
	if (mgr->src_it_dsp & PCXHR_IRQ_NOTIFY)
		snd_printdd("TASKLET : PCXHR_IRQ_NOTIFY event occured\n");
	if (mgr->src_it_dsp & (PCXHR_IRQ_FREQ_CHANGE | PCXHR_IRQ_TIME_CODE)) {
		/* clear events FREQ_CHANGE and TIME_CODE */
		pcxhr_init_rmh(prmh, CMD_TEST_IT);
		err = pcxhr_send_msg(mgr, prmh);
		snd_printdd("CMD_TEST_IT : err=%x, stat=%x\n",
			    err, prmh->stat[0]);
	}
	if (mgr->src_it_dsp & PCXHR_IRQ_ASYNC) {
		snd_printdd("TASKLET : PCXHR_IRQ_ASYNC event occured\n");

		pcxhr_init_rmh(prmh, CMD_ASYNC);
		prmh->cmd[0] |= 1;	/* add SEL_ASYNC_EVENTS */
		/* this is the only one extra long response command */
		prmh->stat_len = PCXHR_SIZE_MAX_LONG_STATUS;
		err = pcxhr_send_msg(mgr, prmh);
		if (err)
			snd_printk(KERN_ERR "ERROR pcxhr_msg_tasklet=%x;\n",
				   err);
		i = 1;
		while (i < prmh->stat_len) {
			int nb_audio = ((prmh->stat[i] >> FIELD_SIZE) &
					MASK_FIRST_FIELD);
			int nb_stream = ((prmh->stat[i] >> (2*FIELD_SIZE)) &
					 MASK_FIRST_FIELD);
			int pipe = prmh->stat[i] & MASK_FIRST_FIELD;
			int is_capture = prmh->stat[i] & 0x400000;
			u32 err2;

			if (prmh->stat[i] & 0x800000) {	/* if BIT_END */
				snd_printdd("TASKLET : End%sPipe %d\n",
					    is_capture ? "Record" : "Play",
					    pipe);
			}
			i++;
			err2 = prmh->stat[i] ? prmh->stat[i] : prmh->stat[i+1];
			if (err2)
				pcxhr_handle_async_err(mgr, err2,
						       PCXHR_ERR_PIPE,
						       pipe, is_capture);
			i += 2;
			for (j = 0; j < nb_stream; j++) {
				err2 = prmh->stat[i] ?
					prmh->stat[i] : prmh->stat[i+1];
				if (err2)
					pcxhr_handle_async_err(mgr, err2,
							       PCXHR_ERR_STREAM,
							       pipe,
							       is_capture);
				i += 2;
			}
			for (j = 0; j < nb_audio; j++) {
				err2 = prmh->stat[i] ?
					prmh->stat[i] : prmh->stat[i+1];
				if (err2)
					pcxhr_handle_async_err(mgr, err2,
							       PCXHR_ERR_AUDIO,
							       pipe,
							       is_capture);
				i += 2;
			}
		}
	}
}

static u_int64_t pcxhr_stream_read_position(struct pcxhr_mgr *mgr,
					    struct pcxhr_stream *stream)
{
	u_int64_t hw_sample_count;
	struct pcxhr_rmh rmh;
	int err, stream_mask;

	stream_mask = stream->pipe->is_capture ? 1 : 1<<stream->substream->number;

	/* get sample count for one stream */
	pcxhr_init_rmh(&rmh, CMD_STREAM_SAMPLE_COUNT);
	pcxhr_set_pipe_cmd_params(&rmh, stream->pipe->is_capture,
				  stream->pipe->first_audio, 0, stream_mask);
	/* rmh.stat_len = 2; */	/* 2 resp data for each stream of the pipe */

	err = pcxhr_send_msg(mgr, &rmh);
	if (err)
		return 0;

	hw_sample_count = ((u_int64_t)rmh.stat[0]) << 24;
	hw_sample_count += (u_int64_t)rmh.stat[1];

	snd_printdd("stream %c%d : abs samples real(%ld) timer(%ld)\n",
		    stream->pipe->is_capture ? 'C' : 'P',
		    stream->substream->number,
		    (long unsigned int)hw_sample_count,
		    (long unsigned int)(stream->timer_abs_periods +
					stream->timer_period_frag +
					mgr->granularity));
	return hw_sample_count;
}

static void pcxhr_update_timer_pos(struct pcxhr_mgr *mgr,
				   struct pcxhr_stream *stream,
				   int samples_to_add)
{
	if (stream->substream &&
	    (stream->status == PCXHR_STREAM_STATUS_RUNNING)) {
		u_int64_t new_sample_count;
		int elapsed = 0;
		int hardware_read = 0;
		struct snd_pcm_runtime *runtime = stream->substream->runtime;

		if (samples_to_add < 0) {
			stream->timer_is_synced = 0;
			/* add default if no hardware_read possible */
			samples_to_add = mgr->granularity;
		}

		if (!stream->timer_is_synced) {
			if ((stream->timer_abs_periods != 0) ||
			    ((stream->timer_period_frag + samples_to_add) >=
			    runtime->period_size)) {
				new_sample_count =
				  pcxhr_stream_read_position(mgr, stream);
				hardware_read = 1;
				if (new_sample_count >= mgr->granularity) {
					/* sub security offset because of
					 * jitter and finer granularity of
					 * dsp time (MBOX4)
					 */
					new_sample_count -= mgr->granularity;
					stream->timer_is_synced = 1;
				}
			}
		}
		if (!hardware_read) {
			/* if we didn't try to sync the position, increment it
			 * by PCXHR_GRANULARITY every timer interrupt
			 */
			new_sample_count = stream->timer_abs_periods +
				stream->timer_period_frag + samples_to_add;
		}
		while (1) {
			u_int64_t new_elapse_pos = stream->timer_abs_periods +
				runtime->period_size;
			if (new_elapse_pos > new_sample_count)
				break;
			elapsed = 1;
			stream->timer_buf_periods++;
			if (stream->timer_buf_periods >= runtime->periods)
				stream->timer_buf_periods = 0;
			stream->timer_abs_periods = new_elapse_pos;
		}
		if (new_sample_count >= stream->timer_abs_periods) {
			stream->timer_period_frag =
				(u_int32_t)(new_sample_count -
					    stream->timer_abs_periods);
		} else {
			snd_printk(KERN_ERR
				   "ERROR new_sample_count too small ??? %ld\n",
				   (long unsigned int)new_sample_count);
		}

		if (elapsed) {
			spin_unlock(&mgr->lock);
			snd_pcm_period_elapsed(stream->substream);
			spin_lock(&mgr->lock);
		}
	}
}

irqreturn_t pcxhr_interrupt(int irq, void *dev_id)
{
	struct pcxhr_mgr *mgr = dev_id;
	unsigned int reg;
	int i, j;
	struct snd_pcxhr *chip;

	spin_lock(&mgr->lock);

	reg = PCXHR_INPL(mgr, PCXHR_PLX_IRQCS);
	if (! (reg & PCXHR_IRQCS_ACTIVE_PCIDB)) {
		spin_unlock(&mgr->lock);
		/* this device did not cause the interrupt */
		return IRQ_NONE;
	}

	/* clear interrupt */
	reg = PCXHR_INPL(mgr, PCXHR_PLX_L2PCIDB);
	PCXHR_OUTPL(mgr, PCXHR_PLX_L2PCIDB, reg);

	/* timer irq occured */
	if (reg & PCXHR_IRQ_TIMER) {
		int timer_toggle = reg & PCXHR_IRQ_TIMER;
		/* is a 24 bit counter */
		int dsp_time_new =
			PCXHR_INPL(mgr, PCXHR_PLX_MBOX4) & PCXHR_DSP_TIME_MASK;
		int dsp_time_diff = dsp_time_new - mgr->dsp_time_last;

		if ((dsp_time_diff < 0) &&
		    (mgr->dsp_time_last != PCXHR_DSP_TIME_INVALID)) {
			snd_printdd("ERROR DSP TIME old(%d) new(%d) -> "
				    "resynchronize all streams\n",
				    mgr->dsp_time_last, dsp_time_new);
			mgr->dsp_time_err++;
		}
#ifdef CONFIG_SND_DEBUG_VERBOSE
		if (dsp_time_diff == 0)
			snd_printdd("ERROR DSP TIME NO DIFF time(%d)\n",
				    dsp_time_new);
		else if (dsp_time_diff >= (2*mgr->granularity))
			snd_printdd("ERROR DSP TIME TOO BIG old(%d) add(%d)\n",
				    mgr->dsp_time_last,
				    dsp_time_new - mgr->dsp_time_last);
		else if (dsp_time_diff % mgr->granularity)
			snd_printdd("ERROR DSP TIME increased by %d\n",
				    dsp_time_diff);
#endif
		mgr->dsp_time_last = dsp_time_new;

		if (timer_toggle == mgr->timer_toggle) {
			snd_printdd("ERROR TIMER TOGGLE\n");
			mgr->dsp_time_err++;
		}
		mgr->timer_toggle = timer_toggle;

		reg &= ~PCXHR_IRQ_TIMER;
		for (i = 0; i < mgr->num_cards; i++) {
			chip = mgr->chip[i];
			for (j = 0; j < chip->nb_streams_capt; j++)
				pcxhr_update_timer_pos(mgr,
						&chip->capture_stream[j],
						dsp_time_diff);
		}
		for (i = 0; i < mgr->num_cards; i++) {
			chip = mgr->chip[i];
			for (j = 0; j < chip->nb_streams_play; j++)
				pcxhr_update_timer_pos(mgr,
						&chip->playback_stream[j],
						dsp_time_diff);
		}
	}
	/* other irq's handled in the tasklet */
	if (reg & PCXHR_IRQ_MASK) {
		if (reg & PCXHR_IRQ_ASYNC) {
			/* as we didn't request any async notifications,
			 * some kind of xrun error will probably occured
			 */
			/* better resynchronize all streams next interrupt : */
			mgr->dsp_time_last = PCXHR_DSP_TIME_INVALID;
		}
		mgr->src_it_dsp = reg;
		tasklet_schedule(&mgr->msg_taskq);
	}
#ifdef CONFIG_SND_DEBUG_VERBOSE
	if (reg & PCXHR_FATAL_DSP_ERR)
		snd_printdd("FATAL DSP ERROR : %x\n", reg);
#endif
	spin_unlock(&mgr->lock);
	return IRQ_HANDLED;	/* this device caused the interrupt */
}