#include "8253.h"
-// #define PCL818_MODE13_AO 1
+/* #define PCL818_MODE13_AO 1 */
-// boards constants
+/* boards constants */
#define boardPCL818L 0
#define boardPCL818H 1
#define boardPCL818 4
#define boardPCL718 5
-// IO space len
+/* IO space len */
#define PCLx1x_RANGE 16
-// IO space len if we use FIFO
+/* IO space len if we use FIFO */
#define PCLx1xFIFO_RANGE 32
-// W: clear INT request
+/* W: clear INT request */
#define PCL818_CLRINT 8
-// R: return status byte
+/* R: return status byte */
#define PCL818_STATUS 8
-// R: A/D high byte W: A/D range control
+/* R: A/D high byte W: A/D range control */
#define PCL818_RANGE 1
-// R: next mux scan channel W: mux scan channel & range control pointer
+/* R: next mux scan channel W: mux scan channel & range control pointer */
#define PCL818_MUX 2
-// R/W: operation control register
+/* R/W: operation control register */
#define PCL818_CONTROL 9
-// W: counter enable
+/* W: counter enable */
#define PCL818_CNTENABLE 10
-// R: low byte of A/D W: soft A/D trigger
+/* R: low byte of A/D W: soft A/D trigger */
#define PCL818_AD_LO 0
-// R: high byte of A/D W: A/D range control
+/* R: high byte of A/D W: A/D range control */
#define PCL818_AD_HI 1
-// W: D/A low&high byte
+/* W: D/A low&high byte */
#define PCL818_DA_LO 4
#define PCL818_DA_HI 5
-// R: low&high byte of DI
+/* R: low&high byte of DI */
#define PCL818_DI_LO 3
#define PCL818_DI_HI 11
-// W: low&high byte of DO
+/* W: low&high byte of DO */
#define PCL818_DO_LO 3
#define PCL818_DO_HI 11
-// W: PCL718 second D/A
+/* W: PCL718 second D/A */
#define PCL718_DA2_LO 6
#define PCL718_DA2_HI 7
-// counters
+/* counters */
#define PCL818_CTR0 12
#define PCL818_CTR1 13
#define PCL818_CTR2 14
-// W: counter control
+/* W: counter control */
#define PCL818_CTRCTL 15
-// W: fifo enable/disable
+/* W: fifo enable/disable */
#define PCL818_FI_ENABLE 6
-// W: fifo interrupt clear
+/* W: fifo interrupt clear */
#define PCL818_FI_INTCLR 20
-// W: fifo interrupt clear
+/* W: fifo interrupt clear */
#define PCL818_FI_FLUSH 25
-// R: fifo status
+/* R: fifo status */
#define PCL818_FI_STATUS 25
-// R: one record from FIFO
+/* R: one record from FIFO */
#define PCL818_FI_DATALO 23
#define PCL818_FI_DATAHI 23
-// type of interrupt handler
+/* type of interrupt handler */
#define INT_TYPE_AI1_INT 1
#define INT_TYPE_AI1_DMA 2
#define INT_TYPE_AI1_FIFO 3
#endif
#ifdef unused
-// RTC stuff...
+/* RTC stuff... */
#define INT_TYPE_AI1_DMA_RTC 9
#define INT_TYPE_AI3_DMA_RTC 10
struct pcl818_board {
- const char *name; // driver name
- int n_ranges; // len of range list
- int n_aichan_se; // num of A/D chans in single ended mode
- int n_aichan_diff; // num of A/D chans in diferencial mode
- unsigned int ns_min; // minimal alllowed delay between samples (in ns)
- int n_aochan; // num of D/A chans
- int n_dichan; // num of DI chans
- int n_dochan; // num of DO chans
- const struct comedi_lrange *ai_range_type; // default A/D rangelist
- const struct comedi_lrange *ao_range_type; // default D/A rangelist
- unsigned int io_range; // len of IO space
- unsigned int IRQbits; // allowed interrupts
- unsigned int DMAbits; // allowed DMA chans
- int ai_maxdata; // maxdata for A/D
- int ao_maxdata; // maxdata for D/A
- unsigned char fifo; // 1=board has FIFO
+ const char *name; /* driver name */
+ int n_ranges; /* len of range list */
+ int n_aichan_se; /* num of A/D chans in single ended mode */
+ int n_aichan_diff; /* num of A/D chans in diferencial mode */
+ unsigned int ns_min; /* minimal alllowed delay between samples (in ns) */
+ int n_aochan; /* num of D/A chans */
+ int n_dichan; /* num of DI chans */
+ int n_dochan; /* num of DO chans */
+ const struct comedi_lrange *ai_range_type; /* default A/D rangelist */
+ const struct comedi_lrange *ao_range_type; /* default D/A rangelist */
+ unsigned int io_range; /* len of IO space */
+ unsigned int IRQbits; /* allowed interrupts */
+ unsigned int DMAbits; /* allowed DMA chans */
+ int ai_maxdata; /* maxdata for A/D */
+ int ao_maxdata; /* maxdata for D/A */
+ unsigned char fifo; /* 1=board has FIFO */
int is_818;
};
struct pcl818_private {
- unsigned int dma; // used DMA, 0=don't use DMA
- int dma_rtc; // 1=RTC used with DMA, 0=no RTC alloc
+ unsigned int dma; /* used DMA, 0=don't use DMA */
+ int dma_rtc; /* 1=RTC used with DMA, 0=no RTC alloc */
unsigned int io_range;
#ifdef unused
- unsigned long rtc_iobase; // RTC port region
+ unsigned long rtc_iobase; /* RTC port region */
unsigned int rtc_iosize;
unsigned int rtc_irq;
- struct timer_list rtc_irq_timer; // timer for RTC sanity check
- unsigned long rtc_freq; // RTC int freq
- int rtc_irq_blocked; // 1=we now do AI with DMA&RTC
+ struct timer_list rtc_irq_timer; /* timer for RTC sanity check */
+ unsigned long rtc_freq; /* RTC int freq */
+ int rtc_irq_blocked; /* 1=we now do AI with DMA&RTC */
#endif
- unsigned long dmabuf[2]; // pointers to begin of DMA buffers
- unsigned int dmapages[2]; // len of DMA buffers in PAGE_SIZEs
- unsigned int hwdmaptr[2]; // hardware address of DMA buffers
- unsigned int hwdmasize[2]; // len of DMA buffers in Bytes
- unsigned int dmasamplsize; // size in samples hwdmasize[0]/2
- unsigned int last_top_dma; // DMA pointer in last RTC int
- int next_dma_buf; // which DMA buffer will be used next round
- long dma_runs_to_end; // how many we must permorm DMA transfer to end of record
- unsigned long last_dma_run; // how many bytes we must transfer on last DMA page
- unsigned char neverending_ai; // if=1, then we do neverending record (you must use cancel())
- unsigned int ns_min; // manimal alllowed delay between samples (in us) for actual card
- int i8253_osc_base; // 1/frequency of on board oscilator in ns
- int irq_free; // 1=have allocated IRQ
- int irq_blocked; // 1=IRQ now uses any subdev
- int irq_was_now_closed; // when IRQ finish, there's stored int818_mode for last interrupt
- int ai_mode; // who now uses IRQ - 1=AI1 int, 2=AI1 dma, 3=AI3 int, 4AI3 dma
- struct comedi_subdevice *last_int_sub; // ptr to subdevice which now finish
- int ai_act_scan; // how many scans we finished
- int ai_act_chan; // actual position in actual scan
- unsigned int act_chanlist[16]; // MUX setting for actual AI operations
- unsigned int act_chanlist_len; // how long is actual MUX list
- unsigned int act_chanlist_pos; // actual position in MUX list
- unsigned int ai_scans; // len of scanlist
- unsigned int ai_n_chan; // how many channels is measured
- unsigned int *ai_chanlist; // actaul chanlist
- unsigned int ai_flags; // flaglist
- unsigned int ai_data_len; // len of data buffer
- short *ai_data; // data buffer
- unsigned int ai_timer1; // timers
+ unsigned long dmabuf[2]; /* pointers to begin of DMA buffers */
+ unsigned int dmapages[2]; /* len of DMA buffers in PAGE_SIZEs */
+ unsigned int hwdmaptr[2]; /* hardware address of DMA buffers */
+ unsigned int hwdmasize[2]; /* len of DMA buffers in Bytes */
+ unsigned int dmasamplsize; /* size in samples hwdmasize[0]/2 */
+ unsigned int last_top_dma; /* DMA pointer in last RTC int */
+ int next_dma_buf; /* which DMA buffer will be used next round */
+ long dma_runs_to_end; /* how many we must permorm DMA transfer to end of record */
+ unsigned long last_dma_run; /* how many bytes we must transfer on last DMA page */
+ unsigned char neverending_ai; /* if=1, then we do neverending record (you must use cancel()) */
+ unsigned int ns_min; /* manimal alllowed delay between samples (in us) for actual card */
+ int i8253_osc_base; /* 1/frequency of on board oscilator in ns */
+ int irq_free; /* 1=have allocated IRQ */
+ int irq_blocked; /* 1=IRQ now uses any subdev */
+ int irq_was_now_closed; /* when IRQ finish, there's stored int818_mode for last interrupt */
+ int ai_mode; /* who now uses IRQ - 1=AI1 int, 2=AI1 dma, 3=AI3 int, 4AI3 dma */
+ struct comedi_subdevice *last_int_sub; /* ptr to subdevice which now finish */
+ int ai_act_scan; /* how many scans we finished */
+ int ai_act_chan; /* actual position in actual scan */
+ unsigned int act_chanlist[16]; /* MUX setting for actual AI operations */
+ unsigned int act_chanlist_len; /* how long is actual MUX list */
+ unsigned int act_chanlist_pos; /* actual position in MUX list */
+ unsigned int ai_scans; /* len of scanlist */
+ unsigned int ai_n_chan; /* how many channels is measured */
+ unsigned int *ai_chanlist; /* actaul chanlist */
+ unsigned int ai_flags; /* flaglist */
+ unsigned int ai_data_len; /* len of data buffer */
+ short *ai_data; /* data buffer */
+ unsigned int ai_timer1; /* timers */
unsigned int ai_timer2;
- struct comedi_subdevice *sub_ai; // ptr to AI subdevice
- unsigned char usefifo; // 1=use fifo
+ struct comedi_subdevice *sub_ai; /* ptr to AI subdevice */
+ unsigned char usefifo; /* 1=use fifo */
unsigned int ao_readback[2];
};
-static const unsigned int muxonechan[] = { 0x00, 0x11, 0x22, 0x33, 0x44, 0x55, 0x66, 0x77, // used for gain list programming
+static const unsigned int muxonechan[] = { 0x00, 0x11, 0x22, 0x33, 0x44, 0x55, 0x66, 0x77, /* used for gain list programming */
0x88, 0x99, 0xaa, 0xbb, 0xcc, 0xdd, 0xee, 0xff
};
conv_finish:
low = inb(dev->iobase + PCL818_AD_LO);
- comedi_buf_put(s->async, ((inb(dev->iobase + PCL818_AD_HI) << 4) | (low >> 4))); // get one sample
+ comedi_buf_put(s->async, ((inb(dev->iobase + PCL818_AD_HI) << 4) | (low >> 4))); /* get one sample */
outb(0, dev->iobase + PCL818_CLRINT); /* clear INT request */
- if ((low & 0xf) != devpriv->act_chanlist[devpriv->act_chanlist_pos]) { // dropout!
+ if ((low & 0xf) != devpriv->act_chanlist[devpriv->act_chanlist_pos]) { /* dropout! */
rt_printk
("comedi: A/D mode1/3 IRQ - channel dropout %x!=%x !\n",
(low & 0xf),
return IRQ_HANDLED;
}
if (s->async->cur_chan == 0) {
- // rt_printk("E");
+ /* rt_printk("E"); */
devpriv->ai_act_scan--;
}
disable_dma(devpriv->dma);
devpriv->next_dma_buf = 1 - devpriv->next_dma_buf;
- if ((devpriv->dma_runs_to_end) > -1 || devpriv->neverending_ai) { // switch dma bufs
+ if ((devpriv->dma_runs_to_end) > -1 || devpriv->neverending_ai) { /* switch dma bufs */
set_dma_mode(devpriv->dma, DMA_MODE_READ);
flags = claim_dma_lock();
set_dma_addr(devpriv->dma,
bufptr = 0;
for (i = 0; i < len; i++) {
- if ((ptr[bufptr] & 0xf) != devpriv->act_chanlist[devpriv->act_chanlist_pos]) { // dropout!
+ if ((ptr[bufptr] & 0xf) != devpriv->act_chanlist[devpriv->act_chanlist_pos]) { /* dropout! */
rt_printk
("comedi: A/D mode1/3 DMA - channel dropout %d(card)!=%d(chanlist) at %d !\n",
(ptr[bufptr] & 0xf),
return IRQ_HANDLED;
}
- comedi_buf_put(s->async, ptr[bufptr++] >> 4); // get one sample
+ comedi_buf_put(s->async, ptr[bufptr++] >> 4); /* get one sample */
devpriv->act_chanlist_pos++;
if (devpriv->act_chanlist_pos >= devpriv->act_chanlist_len) {
pcl818_ai_cancel(dev, s);
s->async->events |= COMEDI_CB_EOA;
comedi_event(dev, s);
- // printk("done int ai13 dma\n");
+ /* printk("done int ai13 dma\n"); */
return IRQ_HANDLED;
}
}
long ofs_dats;
short *dmabuf = (short *) devpriv->dmabuf[0];
- //outb(2,0x378);
+ /* outb(2,0x378); */
switch (devpriv->ai_mode) {
case INT_TYPE_AI1_DMA_RTC:
case INT_TYPE_AI3_DMA_RTC:
if (top1 != top2)
return IRQ_HANDLED;
- top1 = devpriv->hwdmasize[0] - top1; // where is now DMA in buffer
+ top1 = devpriv->hwdmasize[0] - top1; /* where is now DMA in buffer */
top1 >>= 1;
- ofs_dats = top1 - devpriv->last_top_dma; // new samples from last call
+ ofs_dats = top1 - devpriv->last_top_dma; /* new samples from last call */
if (ofs_dats < 0)
ofs_dats = (devpriv->dmasamplsize) + ofs_dats;
if (!ofs_dats)
- return IRQ_HANDLED; // exit=no new samples from last call
- // obsluz data
+ return IRQ_HANDLED; /* exit=no new samples from last call */
+ /* obsluz data */
i = devpriv->last_top_dma - 1;
i &= (devpriv->dmasamplsize - 1);
- if (dmabuf[i] != MAGIC_DMA_WORD) { // DMA overflow!
+ if (dmabuf[i] != MAGIC_DMA_WORD) { /* DMA overflow! */
comedi_error(dev, "A/D mode1/3 DMA buffer overflow!");
- //rt_printk("I %d dmabuf[i] %d %d\n",i,dmabuf[i],devpriv->dmasamplsize);
+ /* rt_printk("I %d dmabuf[i] %d %d\n",i,dmabuf[i],devpriv->dmasamplsize); */
pcl818_ai_cancel(dev, s);
s->async->events |= COMEDI_CB_EOA | COMEDI_CB_ERROR;
comedi_event(dev, s);
return IRQ_HANDLED;
}
- //rt_printk("r %ld ",ofs_dats);
+ /* rt_printk("r %ld ",ofs_dats); */
bufptr = devpriv->last_top_dma;
for (i = 0; i < ofs_dats; i++) {
- if ((dmabuf[bufptr] & 0xf) != devpriv->act_chanlist[devpriv->act_chanlist_pos]) { // dropout!
+ if ((dmabuf[bufptr] & 0xf) != devpriv->act_chanlist[devpriv->act_chanlist_pos]) { /* dropout! */
rt_printk
("comedi: A/D mode1/3 DMA - channel dropout %d!=%d !\n",
(dmabuf[bufptr] & 0xf),
return IRQ_HANDLED;
}
- comedi_buf_put(s->async, dmabuf[bufptr++] >> 4); // get one sample
+ comedi_buf_put(s->async, dmabuf[bufptr++] >> 4); /* get one sample */
bufptr &= (devpriv->dmasamplsize - 1);
if (s->async->cur_chan == 0) {
pcl818_ai_cancel(dev, s);
s->async->events |= COMEDI_CB_EOA;
comedi_event(dev, s);
- //printk("done int ai13 dma\n");
+ /* printk("done int ai13 dma\n"); */
return IRQ_HANDLED;
}
}
bufptr &= (devpriv->dmasamplsize - 1);
dmabuf[bufptr] = MAGIC_DMA_WORD;
comedi_event(dev, s);
- //outb(0,0x378);
+ /* outb(0,0x378); */
return IRQ_HANDLED;
}
- //outb(0,0x378);
+ /* outb(0,0x378); */
return IRQ_HANDLED;
}
#endif
struct comedi_subdevice *s = dev->subdevices + 0;
int i, len, lo;
- outb(0, dev->iobase + PCL818_FI_INTCLR); // clear fifo int request
+ outb(0, dev->iobase + PCL818_FI_INTCLR); /* clear fifo int request */
lo = inb(dev->iobase + PCL818_FI_STATUS);
for (i = 0; i < len; i++) {
lo = inb(dev->iobase + PCL818_FI_DATALO);
- if ((lo & 0xf) != devpriv->act_chanlist[devpriv->act_chanlist_pos]) { // dropout!
+ if ((lo & 0xf) != devpriv->act_chanlist[devpriv->act_chanlist_pos]) { /* dropout! */
rt_printk
("comedi: A/D mode1/3 FIFO - channel dropout %d!=%d !\n",
(lo & 0xf),
return IRQ_HANDLED;
}
- comedi_buf_put(s->async, (lo >> 4) | (inb(dev->iobase + PCL818_FI_DATAHI) << 4)); // get one sample
+ comedi_buf_put(s->async, (lo >> 4) | (inb(dev->iobase + PCL818_FI_DATAHI) << 4)); /* get one sample */
if (s->async->cur_chan == 0) {
devpriv->ai_act_scan--;
comedi_error(dev, "premature interrupt");
return IRQ_HANDLED;
}
- //rt_printk("I\n");
+ /* rt_printk("I\n"); */
switch (devpriv->ai_mode) {
case INT_TYPE_AI1_DMA:
unsigned int bytes;
rt_printk("mode13dma_int, mode: %d\n", mode);
- disable_dma(devpriv->dma); // disable dma
+ disable_dma(devpriv->dma); /* disable dma */
bytes = devpriv->hwdmasize[0];
if (!devpriv->neverending_ai) {
- bytes = devpriv->ai_n_chan * devpriv->ai_scans * sizeof(short); // how many
- devpriv->dma_runs_to_end = bytes / devpriv->hwdmasize[0]; // how many DMA pages we must fiil
- devpriv->last_dma_run = bytes % devpriv->hwdmasize[0]; //on last dma transfer must be moved
+ bytes = devpriv->ai_n_chan * devpriv->ai_scans * sizeof(short); /* how many */
+ devpriv->dma_runs_to_end = bytes / devpriv->hwdmasize[0]; /* how many DMA pages we must fiil */
+ devpriv->last_dma_run = bytes % devpriv->hwdmasize[0]; /* on last dma transfer must be moved */
devpriv->dma_runs_to_end--;
if (devpriv->dma_runs_to_end >= 0)
bytes = devpriv->hwdmasize[0];
set_dma_count(devpriv->dma, devpriv->hwdmasize[0]);
release_dma_lock(flags);
enable_dma(devpriv->dma);
- devpriv->last_top_dma = 0; //devpriv->hwdmasize[0];
+ devpriv->last_top_dma = 0; /* devpriv->hwdmasize[0]; */
pole = (short *) devpriv->dmabuf[0];
devpriv->dmasamplsize = devpriv->hwdmasize[0] / 2;
pole[devpriv->dmasamplsize - 1] = MAGIC_DMA_WORD;
if (devpriv->irq_blocked)
return -EBUSY;
- start_pacer(dev, -1, 0, 0); // stop pacer
+ start_pacer(dev, -1, 0, 0); /* stop pacer */
seglen = check_channel_list(dev, s, devpriv->ai_chanlist,
devpriv->ai_n_chan);
devpriv->dma_runs_to_end = 0;
if ((devpriv->ai_scans == 0) || (devpriv->ai_scans == -1))
- devpriv->neverending_ai = 1; //well, user want neverending
+ devpriv->neverending_ai = 1; /* well, user want neverending */
if (mode == 1) {
i8253_cascade_ns_to_timer(devpriv->i8253_osc_base, &divisor1,
outb(0, dev->iobase + PCL818_CNTENABLE); /* enable pacer */
switch (devpriv->dma) {
- case 1: // DMA
+ case 1: /* DMA */
case 3:
if (devpriv->dma_rtc == 0) {
pcl818_ai_mode13dma_int(mode, dev, s);
}
#endif
break;
- case 0: // IRQ
- // rt_printk("IRQ\n");
+ case 0: /* IRQ */
+ /* rt_printk("IRQ\n"); */
if (mode == 1) {
devpriv->ai_mode = INT_TYPE_AI1_INT;
outb(0x83 | (dev->irq << 4), dev->iobase + PCL818_CONTROL); /* Pacer+IRQ */
outb(0x82 | (dev->irq << 4), dev->iobase + PCL818_CONTROL); /* Ext trig+IRQ */
};
break;
- case -1: // FIFO
- outb(1, dev->iobase + PCL818_FI_ENABLE); // enable FIFO
+ case -1: /* FIFO */
+ outb(1, dev->iobase + PCL818_FI_ENABLE); /* enable FIFO */
if (mode == 1) {
devpriv->ai_mode = INT_TYPE_AI1_FIFO;
outb(0x03, dev->iobase + PCL818_CONTROL); /* Pacer */
if (devpriv->irq_blocked)
return -EBUSY;
- start_pacer(dev, -1, 0, 0); // stop pacer
+ start_pacer(dev, -1, 0, 0); /* stop pacer */
devpriv->int13_act_scan = it->n;
devpriv->int13_act_chan = 0;
}
if (n_chan > 1) {
- // first channel is everytime ok
+ /* first channel is everytime ok */
chansegment[0] = chanlist[0];
- // build part of chanlist
+ /* build part of chanlist */
for (i = 1, seglen = 1; i < n_chan; i++, seglen++) {
- // rt_printk("%d. %d %d\n",i,CR_CHAN(it->chanlist[i]),CR_RANGE(it->chanlist[i]));
- // we detect loop, this must by finish
+
+ /* rt_printk("%d. %d * %d\n",i,
+ * CR_CHAN(it->chanlist[i]),CR_RANGE(it->chanlist[i]));*/
+
+ /* we detect loop, this must by finish */
+
if (chanlist[0] == chanlist[i])
break;
nowmustbechan =
(CR_CHAN(chansegment[i - 1]) + 1) % s->n_chan;
- if (nowmustbechan != CR_CHAN(chanlist[i])) { // channel list isn't continous :-(
+ if (nowmustbechan != CR_CHAN(chanlist[i])) { /* channel list isn't continous :-( */
rt_printk
("comedi%d: pcl818: channel list must be continous! chanlist[%i]=%d but must be %d or %d!\n",
dev->minor, i, CR_CHAN(chanlist[i]),
nowmustbechan, CR_CHAN(chanlist[0]));
return 0;
}
- // well, this is next correct channel in list
+ /* well, this is next correct channel in list */
chansegment[i] = chanlist[i];
}
- // check whole chanlist
+ /* check whole chanlist */
for (i = 0, segpos = 0; i < n_chan; i++) {
- //rt_printk("%d %d=%d %d\n",CR_CHAN(chansegment[i%seglen]),CR_RANGE(chansegment[i%seglen]),CR_CHAN(it->chanlist[i]),CR_RANGE(it->chanlist[i]));
+ /* rt_printk("%d %d=%d %d\n",CR_CHAN(chansegment[i%seglen]),CR_RANGE(chansegment[i%seglen]),CR_CHAN(it->chanlist[i]),CR_RANGE(it->chanlist[i])); */
if (chanlist[i] != chansegment[i % seglen]) {
rt_printk
("comedi%d: pcl818: bad channel or range number! chanlist[%i]=%d,%d,%d and not %d,%d,%d!\n",
CR_CHAN(chanlist[i % seglen]),
CR_RANGE(chanlist[i % seglen]),
CR_AREF(chansegment[i % seglen]));
- return 0; // chan/gain list is strange
+ return 0; /* chan/gain list is strange */
}
}
} else {
devpriv->act_chanlist_len = seglen;
devpriv->act_chanlist_pos = 0;
- for (i = 0; i < seglen; i++) { // store range list to card
+ for (i = 0; i < seglen; i++) { /* store range list to card */
devpriv->act_chanlist[i] = CR_CHAN(chanlist[i]);
outb(muxonechan[CR_CHAN(chanlist[i])], dev->iobase + PCL818_MUX); /* select channel */
outb(CR_RANGE(chanlist[i]), dev->iobase + PCL818_RANGE); /* select gain */
if (cmd->chanlist) {
if (!check_channel_list(dev, s, cmd->chanlist,
cmd->chanlist_len))
- return 5; // incorrect channels list
+ return 5; /* incorrect channels list */
}
return 0;
devpriv->ai_scans = 0;
}
- if (cmd->scan_begin_src == TRIG_FOLLOW) { // mode 1, 3
- if (cmd->convert_src == TRIG_TIMER) { // mode 1
+ if (cmd->scan_begin_src == TRIG_FOLLOW) { /* mode 1, 3 */
+ if (cmd->convert_src == TRIG_TIMER) { /* mode 1 */
devpriv->ai_timer1 = cmd->convert_arg;
retval = pcl818_ai_cmd_mode(1, dev, s);
rt_printk("pcl818_ai_cmd() end\n");
return retval;
}
- if (cmd->convert_src == TRIG_EXT) { // mode 3
+ if (cmd->convert_src == TRIG_EXT) { /* mode 3 */
return pcl818_ai_cmd_mode(3, dev, s);
}
}
#ifdef unused
case INT_TYPE_AI1_DMA_RTC:
case INT_TYPE_AI3_DMA_RTC:
- set_rtc_irq_bit(0); // stop RTC
+ set_rtc_irq_bit(0); /* stop RTC */
del_timer(&devpriv->rtc_irq_timer);
#endif
case INT_TYPE_AI1_DMA:
inb(dev->iobase + PCL818_AD_HI);
outb(0, dev->iobase + PCL818_CLRINT); /* clear INT request */
outb(0, dev->iobase + PCL818_CONTROL); /* Stop A/D */
- if (devpriv->usefifo) { // FIFO shutdown
+ if (devpriv->usefifo) { /* FIFO shutdown */
outb(0, dev->iobase + PCL818_FI_INTCLR);
outb(0, dev->iobase + PCL818_FI_FLUSH);
outb(0, dev->iobase + PCL818_FI_ENABLE);
outb(0x00, iobase + PCL818_MUX);
comedi_udelay(1);
if (inb(iobase + PCL818_MUX) != 0x00)
- return 1; //there isn't card
+ return 1; /* there isn't card */
outb(0x55, iobase + PCL818_MUX);
comedi_udelay(1);
if (inb(iobase + PCL818_MUX) != 0x55)
- return 1; //there isn't card
+ return 1; /* there isn't card */
outb(0x00, iobase + PCL818_MUX);
comedi_udelay(1);
outb(0x18, iobase + PCL818_CONTROL);
comedi_udelay(1);
if (inb(iobase + PCL818_CONTROL) != 0x18)
- return 1; //there isn't card
- return 0; // ok, card exist
+ return 1; /* there isn't card */
+ return 0; /* ok, card exist */
}
/*
*/
static void pcl818_reset(struct comedi_device * dev)
{
- if (devpriv->usefifo) { // FIFO shutdown
+ if (devpriv->usefifo) { /* FIFO shutdown */
outb(0, dev->iobase + PCL818_FI_INTCLR);
outb(0, dev->iobase + PCL818_FI_FLUSH);
outb(0, dev->iobase + PCL818_FI_ENABLE);
}
- outb(0, dev->iobase + PCL818_DA_LO); // DAC=0V
+ outb(0, dev->iobase + PCL818_DA_LO); /* DAC=0V */
outb(0, dev->iobase + PCL818_DA_HI);
comedi_udelay(1);
- outb(0, dev->iobase + PCL818_DO_HI); // DO=$0000
+ outb(0, dev->iobase + PCL818_DO_HI); /* DO=$0000 */
outb(0, dev->iobase + PCL818_DO_LO);
comedi_udelay(1);
outb(0, dev->iobase + PCL818_CONTROL);
*/
static void free_resources(struct comedi_device * dev)
{
- //rt_printk("free_resource()\n");
+ /* rt_printk("free_resource()\n"); */
if (dev->private) {
pcl818_ai_cancel(dev, devpriv->sub_ai);
pcl818_reset(dev);
free_irq(dev->irq, dev);
if (dev->iobase)
release_region(dev->iobase, devpriv->io_range);
- //rt_printk("free_resource() end\n");
+ /* rt_printk("free_resource() end\n"); */
}
/*
printk("comedi%d: pcl818: board=%s, ioport=0x%03lx",
dev->minor, this_board->name, iobase);
devpriv->io_range = this_board->io_range;
- if ((this_board->fifo) && (it->options[2] == -1)) { // we've board with FIFO and we want to use FIFO
+ if ((this_board->fifo) && (it->options[2] == -1)) { /* we've board with FIFO and we want to use FIFO */
devpriv->io_range = PCLx1xFIFO_RANGE;
devpriv->usefifo = 1;
}
#ifdef unused
/* grab RTC for DMA operations */
devpriv->dma_rtc = 0;
- if (it->options[2] > 0) { // we want to use DMA
+ if (it->options[2] > 0) { /* we want to use DMA */
if (RTC_lock == 0) {
if (!request_region(RTC_PORT(0), RTC_IO_EXTENT,
"pcl818 (RTC)"))
devpriv->dmapages[0] = pages;
devpriv->hwdmaptr[0] = virt_to_bus((void *)devpriv->dmabuf[0]);
devpriv->hwdmasize[0] = (1 << pages) * PAGE_SIZE;
- //rt_printk("%d %d %ld, ",devpriv->dmapages[0],devpriv->hwdmasize[0],PAGE_SIZE);
- if (devpriv->dma_rtc == 0) { // we must do duble buff :-(
+ /* rt_printk("%d %d %ld, ",devpriv->dmapages[0],devpriv->hwdmasize[0],PAGE_SIZE); */
+ if (devpriv->dma_rtc == 0) { /* we must do duble buff :-( */
devpriv->dmabuf[1] = __get_dma_pages(GFP_KERNEL, pages);
if (!devpriv->dmabuf[1]) {
rt_printk
}
if (this_board->is_818) {
if ((it->options[4] == 1) || (it->options[4] == 10))
- s->range_table = &range_pcl818l_h_ai; // secondary range list jumper selectable
+ s->range_table = &range_pcl818l_h_ai; /* secondary range list jumper selectable */
} else {
switch (it->options[4]) {
case 0:
*/
static int pcl818_detach(struct comedi_device * dev)
{
- // rt_printk("comedi%d: pcl818: remove\n", dev->minor);
+ /* rt_printk("comedi%d: pcl818: remove\n", dev->minor); */
free_resources(dev);
return 0;
}