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minix/drivers/sb16/dsp/sb16_dsp.c
Cristiano Giuffrida 48c6bb79f4 Driver refactory for live update and crash recovery. 
SYSLIB CHANGES:
- DS calls to publish / retrieve labels consider endpoints instead of u32_t.

VFS CHANGES:
- mapdriver() only adds an entry in the dmap table in VFS.
- dev_up() is only executed upon reception of a driver up event.

INET CHANGES:
- INET no longer searches for existing drivers instances at startup.
- A newtwork driver is (re)initialized upon reception of a driver up event.
- Networking startup is now race-free by design. No need to waste 5 seconds
at startup any more.

DRIVER CHANGES:
- Every driver publishes driver up events when starting for the first time or
in case of restart when recovery actions must be taken in the upper layers.
- Driver up events are published by drivers through DS. 
- For regular drivers, VFS is normally the only subscriber, but not necessarily.
For instance, when the filter driver is in use, it must subscribe to driver
up events to initiate recovery.
- For network drivers, inet is the only subscriber for now.
- Every VFS driver is statically linked with libdriver, every network driver
is statically linked with libnetdriver.

DRIVER LIBRARIES CHANGES:
- Libdriver is extended to provide generic receive() and ds_publish() interfaces
for VFS drivers.
- driver_receive() is a wrapper for sef_receive() also used in driver_task()
to discard spurious messages that were meant to be delivered to a previous
version of the driver.
- driver_receive_mq() is the same as driver_receive() but integrates support
for queued messages.
- driver_announce() publishes a driver up event for VFS drivers and marks
the driver as initialized and expecting a DEV_OPEN message.
- Libnetdriver is introduced to provide similar receive() and ds_publish()
interfaces for network drivers (netdriver_announce() and netdriver_receive()).
- Network drivers all support live update with no state transfer now.

KERNEL CHANGES:
- Added kernel call statectl for state management. Used by driver_announce() to
unblock eventual callers sendrecing to the driver.
2010-04-08 13:41:35 +00:00

690 lines
21 KiB
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/* This file contains the driver for a DSP (Digital Sound Processor) on
* a SoundBlaster 16 soundcard.
*
* The driver supports the following operations (using message format m2):
*
* m_type DEVICE IO_ENDPT COUNT POSITION ADRRESS
* ----------------------------------------------------------------
* | DEV_OPEN | device | proc nr | | | |
* |------------+---------+---------+---------+---------+---------|
* | DEV_CLOSE | device | proc nr | | | |
* |------------+---------+---------+---------+---------+---------|
* | DEV_READ | device | proc nr | bytes | | buf ptr |
* |------------+---------+---------+---------+---------+---------|
* | DEV_WRITE | device | proc nr | bytes | | buf ptr |
* |------------+---------+---------+---------+---------+---------|
* | DEV_IOCTL | device | proc nr |func code| | buf ptr |
* ----------------------------------------------------------------
*
* The file contains one entry point:
*
* main: main entry when driver is brought up
*
* August 24 2005 Ported driver to user space (only audio playback) (Peter Boonstoppel)
* May 20 1995 Author: Michel R. Prevenier
*/
#include <minix/endpoint.h>
#include "sb16.h"
_PROTOTYPE(void main, (void));
FORWARD _PROTOTYPE( int dsp_open, (void) );
FORWARD _PROTOTYPE( int dsp_close, (void) );
FORWARD _PROTOTYPE( int dsp_ioctl, (const message *m_ptr) );
FORWARD _PROTOTYPE( void dsp_write, (const message *m_ptr) );
FORWARD _PROTOTYPE( void dsp_hardware_msg, (void) );
FORWARD _PROTOTYPE( void dsp_status, (message *m_ptr) );
FORWARD _PROTOTYPE( void reply, (int code, int replyee, int process, int status) );
FORWARD _PROTOTYPE( int dsp_init, (void) );
FORWARD _PROTOTYPE( int dsp_reset, (void) );
FORWARD _PROTOTYPE( int dsp_command, (int value) );
FORWARD _PROTOTYPE( int dsp_set_size, (unsigned int size) );
FORWARD _PROTOTYPE( int dsp_set_speed, (unsigned int speed) );
FORWARD _PROTOTYPE( int dsp_set_stereo, (unsigned int stereo) );
FORWARD _PROTOTYPE( int dsp_set_bits, (unsigned int bits) );
FORWARD _PROTOTYPE( int dsp_set_sign, (unsigned int sign) );
FORWARD _PROTOTYPE( void dsp_dma_setup, (phys_bytes address, int count) );
FORWARD _PROTOTYPE( void dsp_setup, (void) );
PRIVATE int irq_hook_id; /* id of irq hook at the kernel */
PRIVATE char DmaBuffer[DMA_SIZE + 64 * 1024];
PRIVATE char* DmaPtr;
PRIVATE phys_bytes DmaPhys;
PRIVATE char Buffer[DSP_MAX_FRAGMENT_SIZE * DSP_NR_OF_BUFFERS];
PRIVATE int DspVersion[2];
PRIVATE unsigned int DspStereo = DEFAULT_STEREO;
PRIVATE unsigned int DspSpeed = DEFAULT_SPEED;
PRIVATE unsigned int DspBits = DEFAULT_BITS;
PRIVATE unsigned int DspSign = DEFAULT_SIGN;
PRIVATE unsigned int DspFragmentSize = DSP_MAX_FRAGMENT_SIZE;
PRIVATE int DspAvail = 0;
PRIVATE int DspBusy = 0;
PRIVATE int DmaMode = 0;
PRIVATE int DmaBusy = -1;
PRIVATE int DmaFillNext = 0;
PRIVATE int BufReadNext = -1;
PRIVATE int BufFillNext = 0;
PRIVATE int revivePending = 0;
PRIVATE int reviveStatus;
PRIVATE int reviveProcNr;
#define dprint (void)
/* SEF functions and variables. */
FORWARD _PROTOTYPE( void sef_local_startup, (void) );
FORWARD _PROTOTYPE( int sef_cb_init_fresh, (int type, sef_init_info_t *info) );
EXTERN _PROTOTYPE( int sef_cb_lu_prepare, (int state) );
EXTERN _PROTOTYPE( int sef_cb_lu_state_isvalid, (int state) );
EXTERN _PROTOTYPE( void sef_cb_lu_state_dump, (int state) );
PUBLIC int is_processing = FALSE;
PUBLIC int is_status_msg_expected = FALSE;
/*===========================================================================*
* main
*===========================================================================*/
PUBLIC void main()
{
int r;
endpoint_t caller;
int proc_nr;
message mess;
int ipc_status;
/* SEF local startup. */
sef_local_startup();
while(TRUE) {
/* Wait for an incoming message */
driver_receive(ANY, &mess, &ipc_status);
caller = mess.m_source;
proc_nr = mess.IO_ENDPT;
if (is_ipc_notify(ipc_status)) {
switch (_ENDPOINT_P(mess.m_source)) {
case HARDWARE:
dsp_hardware_msg();
continue; /* don't reply */
default:
r = EINVAL;
}
/* dont with this message */
goto send_reply;
}
/* Now carry out the work. */
switch(mess.m_type) {
case DEV_OPEN: r = dsp_open(); break;
case DEV_CLOSE: r = dsp_close(); break;
#ifdef DEV_IOCTL
case DEV_IOCTL: r = dsp_ioctl(&mess); break;
#endif
#ifdef DEV_READ
case DEV_READ: r = EINVAL; break; /* Not yet implemented */
case DEV_WRITE: dsp_write(&mess); continue; /* don't reply */
#endif
case DEV_STATUS: dsp_status(&mess); continue; /* don't reply */
default: r = EINVAL;
}
send_reply:
/* Finally, prepare and send the reply message. */
reply(TASK_REPLY, caller, proc_nr, r);
}
}
/*===========================================================================*
* sef_local_startup *
*===========================================================================*/
PRIVATE void sef_local_startup(void)
{
/* Register init callbacks. */
sef_setcb_init_fresh(sef_cb_init_fresh);
sef_setcb_init_lu(sef_cb_init_fresh);
sef_setcb_init_restart(sef_cb_init_fresh);
/* Register live update callbacks. */
sef_setcb_lu_prepare(sef_cb_lu_prepare);
sef_setcb_lu_state_isvalid(sef_cb_lu_state_isvalid);
sef_setcb_lu_state_dump(sef_cb_lu_state_dump);
/* Let SEF perform startup. */
sef_startup();
}
/*===========================================================================*
* sef_cb_init_fresh *
*===========================================================================*/
PRIVATE int sef_cb_init_fresh(int UNUSED(type), sef_init_info_t *UNUSED(info))
{
/* Initialize the rtl8169 driver. */
unsigned left;
/* Select a buffer that can safely be used for dma transfers.
* Its absolute address is 'DmaPhys', the normal address is 'DmaPtr'.
*/
#if (CHIP == INTEL)
DmaPtr = DmaBuffer;
sys_umap(SELF, D, (vir_bytes)DmaBuffer, sizeof(DmaBuffer), &DmaPhys);
if((left = dma_bytes_left(DmaPhys)) < DMA_SIZE) {
/* First half of buffer crosses a 64K boundary, can't DMA into that */
DmaPtr += left;
DmaPhys += left;
}
#else /* CHIP != INTEL */
panic("initialization failed: CHIP != INTEL: %d", 0);
#endif /* CHIP == INTEL */
/* Announce we are up! */
driver_announce();
return(OK);
}
/*===========================================================================*
* dsp_open
*===========================================================================*/
PRIVATE int dsp_open(void)
{
dprint("sb16_dsp.c: dsp_open()\n");
/* try to detect SoundBlaster card */
if(!DspAvail && dsp_init() != OK) return EIO;
/* Only one open at a time with soundcards */
if(DspBusy) return EBUSY;
/* Start with a clean DSP */
if(dsp_reset() != OK) return EIO;
/* Setup default values */
DspStereo = DEFAULT_STEREO;
DspSpeed = DEFAULT_SPEED;
DspBits = DEFAULT_BITS;
DspSign = DEFAULT_SIGN;
DspFragmentSize = DMA_SIZE / 2;
DspBusy = 1;
return OK;
}
/*===========================================================================*
* dsp_close
*===========================================================================*/
PRIVATE int dsp_close(void)
{
dprint("sb16_dsp.c: dsp_close()\n");
DspBusy = 0; /* soundcard available again */
return OK;
}
/*===========================================================================*
* dsp_ioctl
*===========================================================================*/
PRIVATE int dsp_ioctl(const message *m_ptr)
{
int status;
unsigned int val;
dprint("sb16_dsp.c: dsp_ioctl()\n");
/* Cannot change parameters during play or recording */
if(DmaBusy >= 0) return EBUSY;
/* Get user data */
if(m_ptr->REQUEST != DSPIORESET) {
sys_vircopy(m_ptr->IO_ENDPT, D, (vir_bytes)m_ptr->ADDRESS, SELF, D, (vir_bytes)&val, sizeof(val));
}
dprint("dsp_ioctl: got ioctl %d, argument: %d\n", m_ptr->REQUEST, val);
switch(m_ptr->REQUEST) {
case DSPIORATE: status = dsp_set_speed(val); break;
case DSPIOSTEREO: status = dsp_set_stereo(val); break;
case DSPIOBITS: status = dsp_set_bits(val); break;
case DSPIOSIZE: status = dsp_set_size(val); break;
case DSPIOSIGN: status = dsp_set_sign(val); break;
case DSPIOMAX:
val = DSP_MAX_FRAGMENT_SIZE;
sys_vircopy(SELF, D, (vir_bytes)&val, m_ptr->IO_ENDPT, D, (vir_bytes)m_ptr->ADDRESS, sizeof(val));
status = OK;
break;
case DSPIORESET: status = dsp_reset(); break;
default: status = ENOTTY; break;
}
return status;
}
/*===========================================================================*
* dsp_write
*===========================================================================*/
PRIVATE void dsp_write(const message *m_ptr)
{
message mess;
int ipc_status;
dprint("sb16_dsp.c: dsp_write()\n");
if(m_ptr->COUNT != DspFragmentSize) {
reply(TASK_REPLY, m_ptr->m_source, m_ptr->IO_ENDPT, EINVAL);
return;
}
if(m_ptr->m_type != DmaMode && DmaBusy >= 0) {
reply(TASK_REPLY, m_ptr->m_source, m_ptr->IO_ENDPT, EBUSY);
return;
}
reply(TASK_REPLY, m_ptr->m_source, m_ptr->IO_ENDPT, SUSPEND);
is_processing = TRUE;
if(DmaBusy < 0) { /* Dma tranfer not yet started */
DmaMode = DEV_WRITE_S; /* Dma mode is writing */
sys_datacopy(m_ptr->IO_ENDPT, (vir_bytes)m_ptr->ADDRESS, SELF, (vir_bytes)DmaPtr, (phys_bytes)DspFragmentSize);
dsp_dma_setup(DmaPhys, DspFragmentSize * DMA_NR_OF_BUFFERS);
dsp_setup();
DmaBusy = 0; /* Dma is busy */
dprint(" filled dma[0]\n");
DmaFillNext = 1;
} else if(DmaBusy != DmaFillNext) { /* Dma transfer started, but Dma buffer not yet full */
sys_datacopy(m_ptr->IO_ENDPT, (vir_bytes)m_ptr->ADDRESS, SELF, (vir_bytes)DmaPtr + DmaFillNext * DspFragmentSize, (phys_bytes)DspFragmentSize);
dprint(" filled dma[%d]\n", DmaFillNext);
DmaFillNext = (DmaFillNext + 1) % DMA_NR_OF_BUFFERS;
} else if(BufReadNext < 0) { /* Dma buffer full, fill first element of second buffer */
sys_datacopy(m_ptr->IO_ENDPT, (vir_bytes)m_ptr->ADDRESS, SELF, (vir_bytes)Buffer, (phys_bytes)DspFragmentSize);
dprint(" filled buf[0]\n");
BufReadNext = 0;
BufFillNext = 1;
} else { /* Dma buffer is full, filling second buffer */
while(BufReadNext == BufFillNext) { /* Second buffer also full, wait for space to become available */
driver_receive(HARDWARE, &mess, &ipc_status);
dsp_hardware_msg();
}
sys_datacopy(m_ptr->IO_ENDPT, (vir_bytes)m_ptr->ADDRESS, SELF, (vir_bytes)Buffer + BufFillNext * DspFragmentSize, (phys_bytes)DspFragmentSize);
dprint(" filled buf[%d]\n", BufFillNext);
BufFillNext = (BufFillNext + 1) % DSP_NR_OF_BUFFERS;
}
is_status_msg_expected = TRUE;
revivePending = 1;
reviveStatus = DspFragmentSize;
reviveProcNr = m_ptr->IO_ENDPT;
notify(m_ptr->m_source);
}
/*===========================================================================*
* dsp_hardware_msg
*===========================================================================*/
PRIVATE void dsp_hardware_msg()
{
dprint("Interrupt: ");
if(DmaBusy >= 0) { /* Dma transfer was actually busy */
dprint("Finished playing dma[%d]; ", DmaBusy);
DmaBusy = (DmaBusy + 1) % DMA_NR_OF_BUFFERS;
if(DmaBusy == DmaFillNext) { /* Dma buffer empty, stop Dma transfer */
dsp_command((DspBits == 8 ? DSP_CMD_DMA8HALT : DSP_CMD_DMA16HALT));
dprint("No more work...!\n");
DmaBusy = -1;
} else if(BufReadNext >= 0) { /* Data in second buffer, copy one fragment to Dma buffer */
/* Acknowledge the interrupt on the DSP */
sb16_inb((DspBits == 8 ? DSP_DATA_AVL : DSP_DATA16_AVL));
memcpy(DmaPtr + DmaFillNext * DspFragmentSize, Buffer + BufReadNext * DspFragmentSize, DspFragmentSize);
dprint("copy buf[%d] -> dma[%d]; ", BufReadNext, DmaFillNext);
BufReadNext = (BufReadNext + 1) % DSP_NR_OF_BUFFERS;
DmaFillNext = (DmaFillNext + 1) % DMA_NR_OF_BUFFERS;
if(BufReadNext == BufFillNext) {
BufReadNext = -1;
}
dprint("Starting dma[%d]\n", DmaBusy);
return;
} else { /* Second buffer empty, still data in Dma buffer, continue playback */
dprint("Starting dma[%d]\n", DmaBusy);
}
}
/* Acknowledge the interrupt on the DSP */
sb16_inb((DspBits == 8 ? DSP_DATA_AVL : DSP_DATA16_AVL));
}
/*===========================================================================*
* dsp_status *
*===========================================================================*/
PRIVATE void dsp_status(message *m_ptr)
/* m_ptr pointer to the newly arrived message */
{
if(revivePending) {
m_ptr->m_type = DEV_REVIVE; /* build message */
m_ptr->REP_ENDPT = reviveProcNr;
m_ptr->REP_STATUS = reviveStatus;
revivePending = 0; /* unmark event */
is_processing = FALSE;
} else {
m_ptr->m_type = DEV_NO_STATUS;
is_status_msg_expected = FALSE;
}
send(m_ptr->m_source, m_ptr); /* send the message */
}
/*===========================================================================*
* reply *
*===========================================================================*/
PRIVATE void reply(int code, int replyee, int process, int status)
{
message m;
m.m_type = code; /* TASK_REPLY or REVIVE */
m.REP_STATUS = status; /* result of device operation */
m.REP_ENDPT = process; /* which user made the request */
send(replyee, &m);
}
/*===========================================================================*
* dsp_init
*===========================================================================*/
PRIVATE int dsp_init()
{
int i, s;
if(dsp_reset () != OK) {
dprint("sb16: No SoundBlaster card detected\n");
return -1;
}
DspVersion[0] = DspVersion[1] = 0;
dsp_command(DSP_GET_VERSION); /* Get DSP version bytes */
for(i = 1000; i; i--) {
if(sb16_inb(DSP_DATA_AVL) & 0x80) {
if(DspVersion[0] == 0) {
DspVersion[0] = sb16_inb(DSP_READ);
} else {
DspVersion[1] = sb16_inb(DSP_READ);
break;
}
}
}
if(DspVersion[0] < 4) {
dprint("sb16: No SoundBlaster 16 compatible card detected\n");
return -1;
}
dprint("sb16: SoundBlaster DSP version %d.%d detected\n", DspVersion[0], DspVersion[1]);
/* set SB to use our IRQ and DMA channels */
mixer_set(MIXER_SET_IRQ, (1 << (SB_IRQ / 2 - 1)));
mixer_set(MIXER_SET_DMA, (1 << SB_DMA_8 | 1 << SB_DMA_16));
/* register interrupt vector and enable irq */
if ((s=sys_irqsetpolicy(SB_IRQ, IRQ_REENABLE, &irq_hook_id )) != OK)
panic("Couldn't set IRQ policy: %d", s);
if ((s=sys_irqenable(&irq_hook_id)) != OK)
panic("Couldn't enable IRQ: %d", s);
DspAvail = 1;
return OK;
}
/*===========================================================================*
* dsp_reset
*===========================================================================*/
PRIVATE int dsp_reset()
{
int i;
sb16_outb(DSP_RESET, 1);
for(i = 0; i < 1000; i++); /* wait a while */
sb16_outb(DSP_RESET, 0);
for(i = 0; i < 1000 && !(sb16_inb(DSP_DATA_AVL) & 0x80); i++);
if(sb16_inb(DSP_READ) != 0xAA) return EIO; /* No SoundBlaster */
DmaBusy = -1;
return OK;
}
/*===========================================================================*
* dsp_command
*===========================================================================*/
PRIVATE int dsp_command(int value)
{
int i;
for (i = 0; i < SB_TIMEOUT; i++) {
if((sb16_inb(DSP_STATUS) & 0x80) == 0) {
sb16_outb(DSP_COMMAND, value);
return OK;
}
}
dprint("sb16: SoundBlaster: DSP Command(%x) timeout\n", value);
return -1;
}
/*===========================================================================*
* dsp_set_size
*===========================================================================*/
static int dsp_set_size(unsigned int size)
{
dprint("dsp_set_size(): set fragment size to %u\n", size);
/* Sanity checks */
if(size < DSP_MIN_FRAGMENT_SIZE || size > DSP_MAX_FRAGMENT_SIZE || size % 2 != 0) {
return EINVAL;
}
DspFragmentSize = size;
return OK;
}
/*===========================================================================*
* dsp_set_speed
*===========================================================================*/
static int dsp_set_speed(unsigned int speed)
{
dprint("sb16: setting speed to %u, stereo = %d\n", speed, DspStereo);
if(speed < DSP_MIN_SPEED || speed > DSP_MAX_SPEED) {
return EPERM;
}
/* Soundblaster 16 can be programmed with real sample rates
* instead of time constants
*
* Since you cannot sample and play at the same time
* we set in- and output rate to the same value
*/
dsp_command(DSP_INPUT_RATE); /* set input rate */
dsp_command(speed >> 8); /* high byte of speed */
dsp_command(speed); /* low byte of speed */
dsp_command(DSP_OUTPUT_RATE); /* same for output rate */
dsp_command(speed >> 8);
dsp_command(speed);
DspSpeed = speed;
return OK;
}
/*===========================================================================*
* dsp_set_stereo
*===========================================================================*/
static int dsp_set_stereo(unsigned int stereo)
{
if(stereo) {
DspStereo = 1;
} else {
DspStereo = 0;
}
return OK;
}
/*===========================================================================*
* dsp_set_bits
*===========================================================================*/
static int dsp_set_bits(unsigned int bits)
{
/* Sanity checks */
if(bits != 8 && bits != 16) {
return EINVAL;
}
DspBits = bits;
return OK;
}
/*===========================================================================*
* dsp_set_sign
*===========================================================================*/
static int dsp_set_sign(unsigned int sign)
{
dprint("sb16: set sign to %u\n", sign);
DspSign = (sign > 0 ? 1 : 0);
return OK;
}
/*===========================================================================*
* dsp_dma_setup
*===========================================================================*/
PRIVATE void dsp_dma_setup(phys_bytes address, int count)
{
pvb_pair_t pvb[9];
dprint("Setting up %d bit DMA\n", DspBits);
if(DspBits == 8) { /* 8 bit sound */
count--;
pv_set(pvb[0], DMA8_MASK, SB_DMA_8 | 0x04); /* Disable DMA channel */
pv_set(pvb[1], DMA8_CLEAR, 0x00); /* Clear flip flop */
/* set DMA mode */
pv_set(pvb[2], DMA8_MODE, (DmaMode == DEV_WRITE_S ? DMA8_AUTO_PLAY : DMA8_AUTO_REC));
pv_set(pvb[3], DMA8_ADDR, (address >> 0) & 0xff); /* Low_byte of address */
pv_set(pvb[4], DMA8_ADDR, (address >> 8) & 0xff); /* High byte of address */
pv_set(pvb[5], DMA8_PAGE, (address >> 16) & 0xff); /* 64K page number */
pv_set(pvb[6], DMA8_COUNT, (count >> 0) & 0xff); /* Low byte of count */
pv_set(pvb[7], DMA8_COUNT, (count >> 8) & 0xff); /* High byte of count */
pv_set(pvb[8], DMA8_MASK, SB_DMA_8); /* Enable DMA channel */
sys_voutb(pvb, 9);
} else { /* 16 bit sound */
count-= 2;
pv_set(pvb[0], DMA16_MASK, (SB_DMA_16 & 3) | 0x04); /* Disable DMA channel */
pv_set(pvb[1], DMA16_CLEAR, 0x00); /* Clear flip flop */
/* Set dma mode */
pv_set(pvb[2], DMA16_MODE, (DmaMode == DEV_WRITE_S ? DMA16_AUTO_PLAY : DMA16_AUTO_REC));
pv_set(pvb[3], DMA16_ADDR, (address >> 1) & 0xFF); /* Low_byte of address */
pv_set(pvb[4], DMA16_ADDR, (address >> 9) & 0xFF); /* High byte of address */
pv_set(pvb[5], DMA16_PAGE, (address >> 16) & 0xFE); /* 128K page number */
pv_set(pvb[6], DMA16_COUNT, (count >> 1) & 0xff); /* Low byte of count */
pv_set(pvb[7], DMA16_COUNT, (count >> 9) & 0xff); /* High byte of count */
pv_set(pvb[8], DMA16_MASK, SB_DMA_16 & 3); /* Enable DMA channel */
sys_voutb(pvb, 9);
}
}
/*===========================================================================*
* dsp_setup()
*===========================================================================*/
PRIVATE void dsp_setup()
{
/* Set current sample speed */
dsp_set_speed(DspSpeed);
/* Put the speaker on */
if(DmaMode == DEV_WRITE_S) {
dsp_command (DSP_CMD_SPKON); /* put speaker on */
/* Program DSP with dma mode */
dsp_command((DspBits == 8 ? DSP_CMD_8BITAUTO_OUT : DSP_CMD_16BITAUTO_OUT));
} else {
dsp_command (DSP_CMD_SPKOFF); /* put speaker off */
/* Program DSP with dma mode */
dsp_command((DspBits == 8 ? DSP_CMD_8BITAUTO_IN : DSP_CMD_16BITAUTO_IN));
}
/* Program DSP with transfer mode */
if (!DspSign) {
dsp_command((DspStereo == 1 ? DSP_MODE_STEREO_US : DSP_MODE_MONO_US));
} else {
dsp_command((DspStereo == 1 ? DSP_MODE_STEREO_S : DSP_MODE_MONO_S));
}
/* Give length of fragment to DSP */
if (DspBits == 8) { /* 8 bit transfer */
/* #bytes - 1 */
dsp_command((DspFragmentSize - 1) >> 0);
dsp_command((DspFragmentSize - 1) >> 8);
} else { /* 16 bit transfer */
/* #words - 1 */
dsp_command((DspFragmentSize - 1) >> 1);
dsp_command((DspFragmentSize - 1) >> 9);
}
}
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