freebsd-nq/sys/i386/isa/gpib.c

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/*
* GPIB driver for FreeBSD.
* Version 0.1 (No interrupts, no DMA)
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* Supports National Instruments AT-GPIB and AT-GPIB/TNT boards.
* (AT-GPIB not tested, but it should work)
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*
* Written by Fred Cawthorne (fcawth@delphi.umd.edu)
* Some sections were based partly on the lpt driver.
* (some remnants may remain)
*
* This software is distributed with NO WARRANTIES, not even the implied
* warranties for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
*
* The author grants any other persons or organizations permission to use
* or modify this software as long as this message is kept with the software,
* all derivative works or modified versions.
*
* $FreeBSD$
*/
/* Please read the README file for usage information */
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#include <sys/param.h>
#include <sys/systm.h>
#include <sys/kernel.h>
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#include <sys/conf.h>
#include <sys/uio.h>
#include <sys/malloc.h>
#include <sys/bus.h>
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#include <i386/isa/gpibreg.h>
#include <i386/isa/gpib.h>
#include <i386/isa/isa_device.h>
#ifndef COMPAT_OLDISA
#error "The gpib device requires the old isa compatibility shims"
#endif
#define MIN(a, b) ((a < b) ? a : b)
#define GPIBPRI (PZERO + 8) | PCATCH
#define SLEEP_MAX 1000
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#define SLEEP_MIN 4
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static int initgpib(void);
static void closegpib(void);
static int sendgpibfifo(unsigned char device, char *data, int count);
static int sendrawgpibfifo(unsigned char device, char *data, int count);
static int readgpibfifo(unsigned char device, char *data, int count);
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#if 0
static void showregs(void);
#endif
static void enableremote(unsigned char device);
static void gotolocal(unsigned char device);
static void menableremote(unsigned char *device);
static void mgotolocal(unsigned char *device);
static void mtrigger(unsigned char *device);
static void trigger(unsigned char device);
static char spoll(unsigned char device);
static int gpprobe(struct isa_device *dvp);
static int gpattach(struct isa_device *dvp);
struct isa_driver gpdriver = {
INTR_TYPE_TTY,
gpprobe,
gpattach,
"gp"
};
COMPAT_ISA_DRIVER(gp, gpdriver);
static d_open_t gpopen;
static d_close_t gpclose;
static d_write_t gpwrite;
static d_ioctl_t gpioctl;
#define CDEV_MAJOR 44
static struct cdevsw gp_cdevsw = {
/* open */ gpopen,
/* close */ gpclose,
/* read */ noread,
/* write */ gpwrite,
/* ioctl */ gpioctl,
/* poll */ nopoll,
/* mmap */ nommap,
/* strategy */ nostrategy,
/* name */ "gp",
/* maj */ CDEV_MAJOR,
/* dump */ nodump,
/* psize */ nopsize,
/* flags */ 0,
};
#define BUFSIZE 1024
#define ATTACHED 0x08
#define OPEN 0x04
#define INIT 0x02
static struct gpib_softc {
char *sc_cp; /* current data to send */
int sc_count; /* bytes queued in sc_inbuf */
int sc_type; /* Type of gpib controller */
u_char sc_flags; /* flags (open and internal) */
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char sc_unit; /* gpib device number */
char *sc_inbuf; /* buffer for data */
} gpib_sc; /* only support one of these? */
static int oldcount;
static char oldbytes[2];
/*
* Probe routine
* This needs to be changed to be a bit more robust
*/
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static int
gpprobe(struct isa_device *dvp)
{
int status;
struct gpib_softc *sc = &gpib_sc;
gpib_port = dvp->id_iobase;
status = 1;
sc->sc_type = 3;
if ((inb(KSR) & 0xF7) == 0x34)
sc->sc_type = 3;
else if ((inb(KSR) & 0xF7) == 0x24)
sc->sc_type = 2;
else if ((inb(KSR) & 0xF7) == 0x14)
sc->sc_type = 1;
else
status = 0;
return (status);
}
/*
* gpattach()
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* Attach device and print the type of card to the screen.
*/
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static int
gpattach(isdp)
struct isa_device *isdp;
{
struct gpib_softc *sc = &gpib_sc;
sc->sc_unit = isdp->id_unit;
if (sc->sc_type == 3)
printf ("gp%d: type AT-GPIB/TNT\n", sc->sc_unit);
if (sc->sc_type == 2)
printf ("gp%d: type AT-GPIB chip NAT4882B\n", sc->sc_unit);
if (sc->sc_type == 1)
printf ("gp%d: type AT-GPIB chip NAT4882A\n", sc->sc_unit);
sc->sc_flags |= ATTACHED;
make_dev(&gp_cdevsw, 0, 0, 0, 0600, "gp");
return (1);
}
/*
* gpopen()
* New open on device.
*
* More than 1 open is not allowed on the entire device.
* i.e. even if gpib5 is open, we can't open another minor device
*/
static int
gpopen(dev, flags, fmt, td)
dev_t dev;
int flags;
int fmt;
struct thread *td;
{
struct gpib_softc *sc = &gpib_sc;
u_char unit;
int status;
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unit = minor(dev);
/* minor number out of limits ? */
if (unit >= 32)
return (ENXIO);
/* Attached ? */
if (!(sc->sc_flags&ATTACHED)) /* not attached */
return (ENXIO);
/* Already open */
if (sc->sc_flags&OPEN) /* too late .. */
return (EBUSY);
/* Have memory for buffer? */
sc->sc_inbuf = malloc(BUFSIZE, M_DEVBUF, M_WAITOK);
if (sc->sc_inbuf == 0)
return (ENOMEM);
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if (initgpib()) return (EBUSY);
sc->sc_flags |= OPEN;
sc->sc_count = 0;
oldcount = 0;
if (unit != 0) { /* Someone is trying to access an actual device */
/* So.. we'll address it to listen */
enableremote(unit);
do {
status = inb(ISR2);
} while (!(status & 8) && tsleep((caddr_t)&gpib_sc, GPIBPRI,
"gpibpoll", 1) == EWOULDBLOCK);
outb(CDOR, (unit & 31) + 32); /* address device to listen */
do
status = inb(ISR2);
while (!(status & 8) && tsleep((caddr_t)&gpib_sc, GPIBPRI,
"gpibpoll", 1) == EWOULDBLOCK);
outb(CDOR, 64); /* Address controller (me) to talk */
do {
status = inb(ISR2);
} while (!(status & 8) && tsleep((caddr_t)&gpib_sc, GPIBPRI,
"gpibpoll", 1) == EWOULDBLOCK);
outb(AUXMR, gts); /* Set to Standby (Controller) */
do {
status = inb(ISR1);
} while (!(status & 2) && tsleep((caddr_t)&gpib_sc, GPIBPRI,
"gpibpoll", 1) == EWOULDBLOCK);
/* Set up the TURBO488 registers */
outb(IMR2, 0x30); /* we have to enable DMA (0x30) for turbo488 to work */
outb(CNT0, 0); /* NOTE this does not enable DMA to the host computer!! */
outb(CNT1, 0);
outb(CNT2, 0);
outb(CNT3, 0);
outb(CMDR, 0x20);
outb(CFG, 0x47); /* 16 bit, write, fifo B first, TMOE TIM */
outb(CMDR, 0x10); /* RESET fifos */
outb(CMDR, 0x04); /* Tell TURBO488 to GO */
}
return (0);
}
/*
* gpclose()
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* Close gpib device.
*/
static int
gpclose(dev, flags, fmt, td)
dev_t dev;
int flags;
int fmt;
struct thread *td;
{
struct gpib_softc *sc = &gpib_sc;
unsigned char unit;
unsigned char status;
unit = minor(dev);
if (unit != 0) { /* Here we need to send the last character with EOS */
/* and unaddress the listening device */
status = EWOULDBLOCK;
/* Wait for fifo to become empty */
do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 1);
} while ((inb(ISR3) & 0x04) && status == EWOULDBLOCK); /* Fifo is not empty */
outb(CMDR, 0x08); /* Issue STOP to TURBO488 */
/* Wait for DONE and STOP */
if (status == EWOULDBLOCK) do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 1);
} while (!(inb(ISR3) & 0x11) && status == EWOULDBLOCK); /* not done and stop */
/* Shut down TURBO488 */
outb(IMR2, 0x00); /* DISABLE DMA to turbo488 */
outb(CMDR, 0x20); /* soft reset turbo488 */
outb(CMDR, 0x10); /* reset fifos */
/* Send last byte with EOI set */
/* Send second to last byte if there are 2 bytes left */
if (status == EWOULDBLOCK) {
do {
if (!(inb(ISR1) & 2)) status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 1);
} while (!(inb(ISR1) & 2) && (status == EWOULDBLOCK));
if (oldcount == 2) {
outb(CDOR, oldbytes[0]); /* Send second to last byte */
while (!(inb(ISR1) & 2) && (status == EWOULDBLOCK));
status = tsleep((caddr_t)&gpib_sc, GPIBPRI,
"gpibpoll", 1);
}
outb(AUXMR, seoi); /* Set EOI for the last byte */
outb(AUXMR, 0x5E); /* Clear SYNC */
if (oldcount == 1)
outb(CDOR, oldbytes[0]);
else
if (oldcount == 2)
outb(CDOR, oldbytes[1]);
else {
outb(CDOR, 13); /* Send a CR.. we've got trouble */
printf("gpib: Warning: gpclose called with nothing left in buffer\n");
}
}
do {
if (!(inb(ISR1) & 2)) status = tsleep((caddr_t)&gpib_sc,
GPIBPRI, "gpibpoll", 1);
} while (!(inb(ISR1) & 2) && (status == EWOULDBLOCK));
if (!(inb(ISR1) & 2) && status == EWOULDBLOCK) do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 1);
} while (!(inb(ISR1) & 2) && status == EWOULDBLOCK);
outb(AUXMR, tca); /* Regain full control of the bus */
do {
status = inb(ISR2);
} while (!(status & 8) && tsleep((caddr_t)&gpib_sc, GPIBPRI,
"gpibpoll", 1) == EWOULDBLOCK);
outb(CDOR, 63); /* unlisten */
do {
status = inb(ISR2);
} while (!(status & 8) && tsleep((caddr_t)&gpib_sc, GPIBPRI,
"gpibpoll", 1) == EWOULDBLOCK);
outb(AUXMR, 0x5E); /* Clear SYNC */
outb(CDOR, 95); /* untalk */
do {
status = inb(ISR2);
} while (!(status & 8) && tsleep((caddr_t)&gpib_sc, GPIBPRI,
"gpibpoll", 1) == EWOULDBLOCK);
#if 0
gotolocal(minor(dev));
#endif
}
closegpib();
sc->sc_flags = ATTACHED;
free(sc->sc_inbuf, M_DEVBUF);
sc->sc_inbuf = 0; /* Sanity */
return (0);
}
/*
* gpwrite()
* Copy from user's buffer, then write to GPIB device referenced
* by minor(dev).
*/
static int
gpwrite(dev, uio, ioflag)
dev_t dev;
struct uio *uio;
int ioflag;
{
int err, count;
/* main loop */
while ((gpib_sc.sc_count = MIN(BUFSIZE-1, uio->uio_resid)) > 0) {
/* If there were >1 bytes left over, send them */
if (oldcount == 2)
sendrawgpibfifo(minor(dev), oldbytes, 2);
/* If there was 1 character left, put it at the beginning
of the new buffer */
if (oldcount == 1) {
(gpib_sc.sc_inbuf)[0] = oldbytes[0];
gpib_sc.sc_cp = gpib_sc.sc_inbuf;
/* get from user-space */
uiomove(gpib_sc.sc_inbuf + 1, gpib_sc.sc_count, uio);
gpib_sc.sc_count++;
} else {
gpib_sc.sc_cp = gpib_sc.sc_inbuf;
/* get from user-space */
uiomove(gpib_sc.sc_inbuf, gpib_sc.sc_count, uio);
}
/*
* NOTE we always leave one byte in case this is the last write
* so close can send EOI with the last byte There may be 2 bytes
* since we are doing 16 bit transfers.(note the -1 in the count below)
*/
/* If count <= 2 we'll either pick it up on the next write or on close */
if (gpib_sc.sc_count>2) {
count = sendrawgpibfifo(minor(dev), gpib_sc.sc_cp, gpib_sc.sc_count-1);
err = !count;
if (err)
return (1);
oldcount = gpib_sc.sc_count-count; /* Set # of remaining bytes */
gpib_sc.sc_count -= count;
gpib_sc.sc_cp += count; /* point char pointer to remaining bytes */
}
else
oldcount = gpib_sc.sc_count;
oldbytes[0] = gpib_sc.sc_cp[0];
if (oldcount == 2)
oldbytes[1] = gpib_sc.sc_cp[1];
}
return (0);
}
/*
* Here is how you would usually access a GPIB device
* An exception would be a plotter or printer that you can just
* write to using a minor device = its GPIB address
*/
static int
gpioctl(dev_t dev, u_long cmd, caddr_t data, int flags, struct thread *td)
{
struct gpibdata *gd = (struct gpibdata *)data;
int error, result;
error = 0;
switch (cmd) {
case GPIBWRITE:
sendgpibfifo(gd->address, gd->data, *(gd->count));
error = 0;
break;
case GPIBREAD:
result = readgpibfifo(gd->address, gd->data, *(gd->count));
*(gd->count) = result;
error = 0;
break;
case GPIBINIT:
initgpib();
error = 0;
break;
case GPIBTRIGGER:
trigger(gd->address);
error = 0;
break;
case GPIBREMOTE:
enableremote(gd->address);
error = 0;
break;
case GPIBLOCAL:
gotolocal(gd->address);
error = 0;
break;
case GPIBMTRIGGER:
mtrigger(gd->data);
error = 0;
break;
case GPIBMREMOTE:
menableremote(gd->data);
error = 0;
break;
case GPIBMLOCAL:
mgotolocal(gd->data);
error = 0;
break;
case GPIBSPOLL:
*(gd->data) = spoll(gd->address);
error = 0;
break;
default:
error = ENODEV;
}
return (error);
}
#if 0
/* Just in case you want a dump of the registers... */
static void showregs() {
printf ("NAT4882:\n");
printf ("ISR1=%X\t", inb(ISR1));
printf ("ISR2=%X\t", inb(ISR2));
printf ("SPSR=%X\t", inb(SPSR));
printf ("KSR =%X\t", inb(KSR));
printf ("ADSR=%X\t", inb(ADSR));
printf ("CPTR=%X\t", inb(CPTR));
printf ("SASR=%X\t", inb(SASR));
printf ("ADR0=%X\t", inb(ADR0));
printf ("ISR0=%X\t", inb(ISR0));
printf ("ADR1=%X\t", inb(ADR1));
printf ("BSR =%X\n", inb(BSR));
printf ("Turbo488\n");
printf ("STS1=%X ", inb(STS1));
printf ("STS2=%X ", inb(STS2));
printf ("ISR3=%X ", inb(ISR3));
printf ("CNT0=%X ", inb(CNT0));
printf ("CNT1=%X ", inb(CNT1));
printf ("CNT2=%X ", inb(CNT2));
printf ("CNT3=%X ", inb(CNT3));
printf ("IMR3=%X ", inb(IMR3));
printf ("TIMER=%X\n", inb(TIMER));
}
#endif
/*
* Set up the NAT4882 and TURBO488 registers
* This will be nonsense to you unless you have a data sheet from
* National Instruments. They should give you one if you call them
*/
static int
initgpib()
{
outb(CMDR, 0x20);
outb(CFG, 0x16);
outb(IMR3, 0);
outb(CMDR, 0x10);
outb(CNT0, 0);
outb(CNT1, 0);
outb(CNT2, 0);
outb(CNT3, 0);
outb(INTR, 0); /* Put interrupt line in tri-state mode?? */
outb(AUXMR, chip_reset);
outb(IMR1, 0x10); /* send interrupt to TURBO488 when END received */
outb(IMR2, 0);
outb(IMR0, 0x90); /* Do we want nba here too??? */
outb(ADMR, 1);
outb(ADR, 0);
outb(ADR, 128);
outb(AUXMR, 0xE9);
outb(AUXMR, 0x49);
outb(AUXMR, 0x70);
outb(AUXMR, 0xD0);
outb(AUXMR, 0xA0);
outb(EOSR, 10); /* set EOS message to newline */
/* should I make the default to interpret END as EOS? */
/* It isn't now. The following changes this */
outb(AUXMR, 0x80); /* No special EOS handling */
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#if 0
outb(AUXMR, 0x88) /* Transmit END with EOS */
outb(AUXMR, 0x84) /* Set END on EOS received */
outb(AUXMR, 0x8C) /* Do both of the above */
#endif
#if 0
/* Not currently supported */
outb(AUXMR, hldi); /* Perform RFD Holdoff for all data in */
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#endif
outb(AUXMR, pon);
outb(AUXMR, sic_rsc);
tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 1);
outb(AUXMR, sic_rsc_off);
return (0);
}
/* This is kind of Brute force.. But it works */
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static void
closegpib()
{
outb(AUXMR, chip_reset);
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}
/*
* GPIB ROUTINES:
* These will also make little sense unless you have a data sheet.
* Note that the routines with an "m" in the beginning are for
* accessing multiple devices in one call
*/
/*
* This is one thing I could not figure out how to do correctly.
* I tried to use the auxilary command to enable remote, but it
* never worked. Here, I bypass everything and write to the BSR
* to enable the remote line. NOTE that these lines are effectively
* "OR'ed" with the actual lines, so writing a 1 to the bit in the BSR
* forces the GPIB line true, no matter what the fancy circuitry of the
* NAT4882 wants to do with it
*/
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static void
enableremote(unsigned char device)
{
int status;
status = EWOULDBLOCK;
if (status == EWOULDBLOCK) do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 2);
} while (!(inb(ISR2) & 0x08) && status == EWOULDBLOCK); /* Wait to send next cmd */
outb(BSR, 1); /* Set REN bit on GPIB */
if (status == EWOULDBLOCK) do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 2);
} while (!(inb(ISR2) & 0x08) && status == EWOULDBLOCK); /* Wait to send next cmd */
outb(CDOR, (device & 31) + 32); /* address device to listen */
if (status == EWOULDBLOCK) do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 2);
} while (!(inb(ISR2) & 0x08) && status == EWOULDBLOCK); /* Wait to send next cmd */
outb(CDOR, 63); /* Unaddress device */
if (status == EWOULDBLOCK) do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 2);
} while (!(inb(ISR2) & 0x08) && status == EWOULDBLOCK); /* Wait to send next cmd */
}
/*
* This does not release the REM line on the gpib port, because if it did,
* all the remote devices would go to local mode. This only sends the
* gotolocal message to one device. Currently, REM is always held true
* after enableremote is called, and is reset only on a close of the
* gpib device
*/
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static void
gotolocal(unsigned char device)
{
int status;
status = EWOULDBLOCK;
if (status == EWOULDBLOCK) do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 2);
} while (!(inb(ISR2) & 0x08) && status == EWOULDBLOCK); /* Wait to send next cmd */
outb(CDOR, (device & 31) + 32);
if (status == EWOULDBLOCK) do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 2);
} while (!(inb(ISR2) & 0x08) && status == EWOULDBLOCK); /* Wait to send next cmd */
outb(AUXMR, 0x5E); /* Clear SYNC */
outb(CDOR, 1);
if (status == EWOULDBLOCK) do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 2);
} while (!(inb(ISR2) & 0x08) && status == EWOULDBLOCK); /* Wait to send next cmd */
outb(AUXMR, 0x5E);
outb(CDOR, 63); /* unaddress device */
if (status == EWOULDBLOCK) do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 2);
} while (!(inb(ISR2) & 0x08) && status == EWOULDBLOCK); /* Wait to send next cmd */
}
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static void
menableremote(unsigned char *device)
{
int status, counter = 0;
status = EWOULDBLOCK;
if (status == EWOULDBLOCK) do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 2);
} while (!(inb(ISR2) & 0x08) && status == EWOULDBLOCK); /* Wait to send next cmd */
outb(BSR, 1); /* Set REN bit on GPIB */
do {
if (status == EWOULDBLOCK) do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 2);
} while (!(inb(ISR2) & 0x08) && status == EWOULDBLOCK); /* Wait to send next cmd */
outb(CDOR, (device[counter] & 31) + 32); /* address device to listen */
counter++;
} while (device[counter] < 32);
if (status == EWOULDBLOCK) do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 2);
} while (!(inb(ISR2) & 0x08) && status == EWOULDBLOCK); /* Wait to send next cmd */
outb(CDOR, 63); /* Unaddress device */
if (status == EWOULDBLOCK) do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 2);
} while (!(inb(ISR2) & 0x08) && status == EWOULDBLOCK); /* Wait to send next cmd */
}
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static void
mgotolocal(unsigned char *device)
{
int status;
int counter = 0;
status = EWOULDBLOCK;
if (device[counter] < 32) do {
if (status == EWOULDBLOCK) do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 2);
} while (!(inb(ISR2) & 0x08) && status == EWOULDBLOCK); /* Wait to send next cmd */
outb(CDOR, (device[counter] & 31) + 32);
counter++;
} while (device[counter] < 32);
if (status == EWOULDBLOCK) do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 2);
} while (!(inb(ISR2) & 0x08) && status == EWOULDBLOCK); /* Wait to send next cmd */
outb(AUXMR, 0x5E); /* Clear SYNC */
outb(CDOR, 1);
if (status == EWOULDBLOCK) do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 2);
} while (!(inb(ISR2) & 0x08) && status == EWOULDBLOCK); /* Wait to send next cmd */
outb(AUXMR, 0x5E);
outb(CDOR, 63); /* unaddress device */
if (status == EWOULDBLOCK) do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 2);
} while (!(inb(ISR2) & 0x08) && status == EWOULDBLOCK); /* Wait to send next cmd */
}
/* Trigger a device. What happens depends on how the device is configured. */
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static void
trigger(unsigned char device)
{
int status;
status = EWOULDBLOCK;
if (device < 32) {
if (!(inb(ISR2) & 0x08)) do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 1);
} while (!(inb(ISR2) & 0x08) && status == EWOULDBLOCK); /* Wait to send next cmd */
outb(CDOR, (device & 31) + 32); /* address device to listen */
if (!(inb(ISR2) & 0x08) && status == EWOULDBLOCK) do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 1);
} while (!(inb(ISR2) & 0x08) && status == EWOULDBLOCK); /* Wait to send next cmd */
outb(CDOR, 8); /* send GET */
if (!(inb(ISR2) & 0x08) && status == EWOULDBLOCK) do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 1);
} while (!(inb(ISR2) & 0x08) && status == EWOULDBLOCK); /* Wait to send next cmd */
outb(AUXMR, 0x5E);
outb(CDOR, 63); /* unaddress device */
if (!(inb(ISR2) & 0x08) && status == EWOULDBLOCK) do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 1);
} while (!(inb(ISR2) & 0x08) && status == EWOULDBLOCK); /* Wait to send next cmd */
}
}
/*
* Trigger multiple devices by addressing them all to listen, and then
* sending GET
*/
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static void
mtrigger(unsigned char *device)
{
int status = EWOULDBLOCK;
int counter = 0;
if (device[0] < 32) {
do {
if (device[counter] < 32)
if (!(inb(ISR2) & 0x08) && status == EWOULDBLOCK) do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 1);
} while (!(inb(ISR2) & 0x08) && status == EWOULDBLOCK); /* Wait to send next cmd */
outb(CDOR, (device[counter] & 31) + 32); /* address device to listen */
counter++;
} while (device[counter] < 32);
if (!(inb(ISR2) & 0x08) && status == EWOULDBLOCK) do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 1);
} while (!(inb(ISR2) & 0x08) && status == EWOULDBLOCK); /* Wait to send next cmd */
outb(CDOR, 8); /* send GET */
if (!(inb(ISR2) & 0x08) && status == EWOULDBLOCK) do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 1);
} while (!(inb(ISR2) & 0x08) && status == EWOULDBLOCK); /* Wait to send next cmd */
outb(AUXMR, 0x5E);
outb(CDOR, 63); /* unaddress device */
if (!(inb(ISR2) & 0x08) && status == EWOULDBLOCK) do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 1);
} while (!(inb(ISR2) & 0x08) && status == EWOULDBLOCK); /* Wait to send next cmd */
}
}
/*
* This is not used now, but it should work with NI's 8 bit gpib board
* since it does not use the TURBO488 registers at all
*/
/*
* Send data through the TURBO488 FIFOS to a device that is already
* addressed to listen. This is used by the write call when someone is
* writing to a printer or plotter, etc...
*
* The last byte of each write is held off until either the next
* write or close, so it can be sent with EOI set
*/
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static int
sendrawgpibfifo(unsigned char device, char *data, int count)
{
int status;
int counter;
int fifopos;
int sleeptime;
sleeptime = SLEEP_MIN;
counter = 0;
fifopos = 0;
status = EWOULDBLOCK;
do {
/* Wait for fifo to become not full if it is full */
sleeptime = SLEEP_MIN;
if (!(inb(ISR3) & 0x08)) do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", sleeptime);
if (sleeptime < SLEEP_MAX) sleeptime = sleeptime * 2;
} while (!(inb(ISR3) & 0x08) && (status == EWOULDBLOCK)); /* Fifo is full */
if ((count>1) && (inb(ISR3) & 0x08)) {
outw(FIFOB, *(unsigned *)(data + counter));
#if 0
printf ("gpib: sent:%c, %c\n", data[counter], data[counter + 1]);
#endif
counter += 2;
count -= 2;
}
}
while ((count>1) && (status == EWOULDBLOCK));
/*
* The write routine and close routine must check if there is 1
* byte left and handle it accordingly
*/
/* Return the number of bytes written to the device */
return (counter);
}
static int
sendgpibfifo(unsigned char device, char *data, int count)
{
int status;
int counter;
int fifopos;
int sleeptime;
outb(IMR2, 0x30); /* we have to enable DMA (0x30) for turbo488 to work */
outb(CNT0, 0);
outb(CNT1, 0);
outb(CNT2, 0);
outb(CNT3, 0);
status = EWOULDBLOCK;
if (!(inb(ISR2) & 8)) do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 1);
} while (!(inb(ISR2) & 8) && status == EWOULDBLOCK);
outb(CDOR, (device & 31) + 32); /* address device to listen */
if (!(inb(ISR2) & 8) && status == EWOULDBLOCK) do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 1);
} while (!(inb(ISR2) & 8) && status == EWOULDBLOCK);
outb(CDOR, 64); /* Address controller (me) to talk */
if (!(inb(ISR2) & 8) && status == EWOULDBLOCK) do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 1);
} while (!(inb(ISR2) & 8) && status == EWOULDBLOCK);
outb(AUXMR, gts); /* Set to Standby (Controller) */
fifopos = 0;
sleeptime = SLEEP_MIN;
counter = 0;
fifopos = 0;
outb(CMDR, 0x20);
outb(CFG, 0x47); /* 16 bit, write, fifo B first, TMOE TIM */
outb(CMDR, 0x10); /* RESET fifos */
outb(CCRG, seoi); /* program to send EOI at end */
outb(CMDR, 0x04); /* Tell TURBO488 to GO */
status = EWOULDBLOCK;
do {
/* Wait for fifo to become not full if it is full */
sleeptime = SLEEP_MIN;
if (!(inb(ISR3) & 0x08)) do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", sleeptime);
if (sleeptime < SLEEP_MAX) sleeptime = sleeptime * 2;
} while (!(inb(ISR3) & 0x08) && (status == EWOULDBLOCK)); /* Fifo is full */
if ((count>1) && (inb(ISR3) & 0x08)) {
#if 0
if (count == 2) outb(CFG, 15 + 0x40); /* send eoi when done */
#endif
outw(FIFOB, *(unsigned *)(data + counter));
counter += 2;
count -= 2;
}
} while ((count>2) && (status == EWOULDBLOCK));
if (count == 2 && status == EWOULDBLOCK) {
/* Wait for fifo to become not full */
if (status == EWOULDBLOCK && !(inb(ISR3) & 0x08)) do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", SLEEP_MIN);
} while (!(inb(ISR3) & 0x08) && status == EWOULDBLOCK); /* Fifo is full */
#if 0
outb(CFG, 0x40 + 15); /* send eoi when done */
#endif
outb(FIFOB, data[counter]);
counter++;
count--;
}
#if 0
outb(CMDR, 0x04);
#endif
/* Wait for fifo to become empty */
if (status == EWOULDBLOCK) do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 1);
} while ((inb(ISR3) & 0x04) && status == EWOULDBLOCK); /* Fifo is not empty */
outb(CMDR, 0x08); /* Issue STOP to TURBO488 */
/* Wait for DONE and STOP */
if (status == EWOULDBLOCK) do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 1);
} while (!(inb(ISR3) & 0x11) && status == EWOULDBLOCK); /* not done and stop */
outb(IMR2, 0x00); /* we have to enable DMA (0x30) for turbo488 to work */
outb(CMDR, 0x20); /* soft reset turbo488 */
outb(CMDR, 0x10); /* reset fifos */
/*
* Send last byte with EOI set
* Here EOI is handled correctly since the string to be sent
* is actually all sent during the ioctl. (See above)
*/
if (count == 1 && status == EWOULDBLOCK) { /* Count should always=1 here */
do {
if (!(inb(ISR1) & 2)) status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 1);
} while (!(inb(ISR1) & 2) && (status == EWOULDBLOCK));
outb(AUXMR, seoi); /* Set EOI for the last byte */
outb(AUXMR, 0x5E); /* Clear SYNC */
outb(CDOR, data[counter]);
counter++;
count--;
}
do {
if (!(inb(ISR1) & 2)) status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 1);
} while (!(inb(ISR1) & 2) && (status == EWOULDBLOCK));
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if (!(inb(ISR1) & 2) && status == EWOULDBLOCK) do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 1);
} while (!(inb(ISR1) & 2) && status == EWOULDBLOCK);
outb(AUXMR, tca); /* Regain full control of the bus */
if (!(inb(ISR2) & 8) && status == EWOULDBLOCK) do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 1);
} while (!(inb(ISR2) & 8) && status == EWOULDBLOCK);
outb(CDOR, 63); /* unlisten */
if (!(inb(ISR2) & 8) && status == EWOULDBLOCK) do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 1);
} while (!(inb(ISR2) & 8) && status == EWOULDBLOCK);
outb(AUXMR, 0x5E); /* Clear SYNC */
outb(CDOR, 95); /* untalk */
if (!(inb(ISR2) & 8) && status == EWOULDBLOCK) do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 1);
} while (!(inb(ISR2) & 8) && status == EWOULDBLOCK);
return (counter);
}
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static int
readgpibfifo(unsigned char device, char *data, int count)
{
int status;
int status2 = 0;
int status1;
int counter;
int fifopos;
unsigned inword;
outb(IMR2, 0x30); /* we have to enable DMA (0x30) for turbo488 to work */
#if 0
outb(IMR3, 0x1F);
outb(INTR, 1);
#endif
outb(CMDR, 0x20);
outb(CFG, 14 + 0x60 + 1); /* Halt on int, read, fifo B first, CCEN TMOE TIM */
outb(CMDR, 0x10); /* RESET fifos */
outb(CCRG, tcs); /* program to tcs at end */
outb(CMDR, 0x08); /* STOP?? */
status = EWOULDBLOCK;
do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 1);
} while (!(inb(ISR2) & 8) && status == EWOULDBLOCK);
outb(CDOR, 32); /* Address controller (me) to listen */
do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 1);
} while (!(inb(ISR2) & 8) && status == EWOULDBLOCK);
outb(CDOR, (device & 31) + 64); /* address device to talk */
do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 1);
} while (!(inb(ISR2) & 8) && status == EWOULDBLOCK);
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outb(AUXMR, gts); /* Set to Standby (Controller) */
counter = 0;
fifopos = 0;
outb(CMDR, 0x04); /* Tell TURBO488 to GO */
do {
status1 = inb(ISR3);
if (!(status1 & 0x01) && (status1 & 0x04)) {
status2 = inb(STS2);
inword = inw(FIFOB);
*(unsigned *)(data + counter) = inword;
#if 0
printf ("Read:%c, %c\n", data[counter], data[counter + 1]);
#endif
counter += 2;
} else {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 4);
}
} while (!(status1 & 0x01) && status == EWOULDBLOCK);
if (!(status2 & 0x04)) { /* Only 1 byte came in on last 16 bit transfer */
data[counter-1] = 0;
counter--;
} else
data[counter] = 0;
outb(CMDR, 0x08); /* send STOP */
do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 1);
} while (!(inb(ISR3) & 0x11) && status == EWOULDBLOCK); /* wait for DONE and STOP */
outb(AUXMR, 0x55);
outb(IMR2, 0x00); /* we have to enable DMA (0x30) for turbo488 to work */
outb(CMDR, 0x20); /* soft reset turbo488 */
outb(CMDR, 0x10); /* reset fifos */
#if 0
do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 1);
} while (!(inb(ISR1) & 2));
#endif
outb(AUXMR, tca); /* Regain full control of the bus */
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do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 1);
} while (!(inb(ISR2) & 8) && status == EWOULDBLOCK);
outb(CDOR, 63); /* unlisten */
do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 1);
} while (!(inb(ISR2) & 8) && status == EWOULDBLOCK);
outb(AUXMR, 0x5E); /* Clear SYNC */
outb(CDOR, 95); /* untalk */
do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 1);
} while (!(inb(ISR2) & 8) && status == EWOULDBLOCK);
return (counter);
}
/* Return the status byte from device */
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static char
spoll(unsigned char device)
{
int status = EWOULDBLOCK;
unsigned int statusbyte;
if (!(inb(ISR2) & 8)) do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 1);
} while (!(inb(ISR2) & 8) && status == EWOULDBLOCK);
outb(CDOR, (device & 31) + 64); /* address device to talk */
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if (!(inb(ISR2) & 8) && status == EWOULDBLOCK) do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 1);
} while (!(inb(ISR2) & 8) && status == EWOULDBLOCK);
outb(CDOR, 32); /* Address controller (me) to listen */
if (!(inb(ISR2) & 8) && status == EWOULDBLOCK) do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 1);
} while (!(inb(ISR2) & 8) && status == EWOULDBLOCK);
outb(AUXMR, 0x5E);
outb(CDOR, 0x18); /* Send SPE (serial poll enable) */
if (!(inb(ISR2) & 8) && status == EWOULDBLOCK) do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 1);
} while (!(inb(ISR2) & 8) && status == EWOULDBLOCK);
/* wait for bus to be synced */
if (!(inb(ISR0) & 1) && status == EWOULDBLOCK) do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 1);
} while (!(inb(ISR0) & 1) && status == EWOULDBLOCK);
outb(AUXMR, gts); /* Set to Standby (Controller) */
if (!(inb(ISR1) & 1) && status == EWOULDBLOCK) do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 1);
} while (!(inb(ISR1) & 1) && status == EWOULDBLOCK);
outb(AUXMR, 0x5E);
outb(AUXMR, tcs); /* Take control after next read */
statusbyte = inb(DIR);
if (!(inb(ISR2) & 8) && status == EWOULDBLOCK) do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 1);
} while (!(inb(ISR2) & 8) && status == EWOULDBLOCK);
outb(CDOR, 0x19); /* SPD (serial poll disable) */
1995-05-30 08:16:23 +00:00
/* wait for bus to be synced */
if (!(inb(ISR0) & 1) && status == EWOULDBLOCK) do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 1);
} while (!(inb(ISR0) & 1) && status == EWOULDBLOCK);
if (!(inb(ISR2) & 8) && status == EWOULDBLOCK) do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 1);
} while (!(inb(ISR2) & 8) && status == EWOULDBLOCK);
outb(CDOR, 95); /* untalk */
if (!(inb(ISR2) & 8) && status == EWOULDBLOCK) do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 1);
} while (!(inb(ISR2) & 8) && status == EWOULDBLOCK);
outb(AUXMR, 0x5E);
outb(CDOR, 63); /* unlisten */
if (!(inb(ISR2) & 8) && status == EWOULDBLOCK) do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 1);
} while (!(inb(ISR2) & 8) && status == EWOULDBLOCK);
/* wait for bus to be synced */
if (!(inb(ISR0) & 1) && status == EWOULDBLOCK) do {
status = tsleep((caddr_t)&gpib_sc, GPIBPRI, "gpibpoll", 1);
} while (!(inb(ISR0) & 1) && status == EWOULDBLOCK);
return (statusbyte);
}