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|
/* $OpenBSD: ts102.c,v 1.9 2003/06/28 16:40:52 miod Exp $ */
/*
* Copyright (c) 2003, Miodrag Vallat.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT,
* INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
* SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
* STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN
* ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*/
/*
* Driver for the PCMCIA controller found in Tadpole SPARCbook 3 series
* notebooks.
*
* Based on the information provided in the SPARCbook 3 Technical Reference
* Manual (s3gxtrmb.pdf), chapter 7. A few ramblings against this document
* and/or the chip itself are scattered across this file.
*
* Implementation notes:
*
* - The TS102 exports its PCMCIA windows as SBus memory ranges: 64MB for
* the common memory window, and 16MB for the attribute and I/O windows.
*
* Mapping the whole windows would consume 192MB of address space, which
* is much more that what the iospace can offer.
*
* A best-effort solution would be to map the windows on demand. However,
* due to the wap mapdev() works, the va used for the mappings would be
* lost after unmapping (although using an extent to register iospace memory
* usage would fix this). So, instead, we will do a fixed mapping of a subset
* of each window upon attach - this is similar to what the stp4020 driver
* does.
*
* - IPL for the cards interrupt handles are not respected. See the stp4020
* driver source for comments about this.
*
* Endianness farce:
*
* - The documentation pretends that the endianness settings only affect the
* common memory window. Gee, thanks a lot. What about other windows, then?
* As a result, this driver runs with endianness conversions turned off.
*
* - One of the little-endian SBus and big-endian PCMCIA flags has the reverse
* meaning, actually. To achieve a ``no endianness conversion'' status,
* one has to be set and the other unset. It does not matter which one,
* though.
*/
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/conf.h>
#include <sys/device.h>
#include <sys/kthread.h>
#include <sys/malloc.h>
#include <sys/proc.h>
#include <sys/queue.h>
#include <machine/bus.h>
#include <uvm/uvm_extern.h>
#include <dev/pcmcia/pcmciareg.h>
#include <dev/pcmcia/pcmciavar.h>
#include <dev/pcmcia/pcmciachip.h>
#include <sparc/dev/sbusvar.h>
#include <sparc/dev/ts102reg.h>
#define TS102_NUM_SLOTS 2
/*
* Memory ranges
*/
#define TS102_RANGE_COMMON 0
#define TS102_RANGE_ATTR 1
#define TS102_RANGE_IO 2
#define TS102_RANGE_CNT 3
#define TS102_NUM_RANGES (TS102_RANGE_CNT * TS102_NUM_SLOTS)
#define TS102_ARBITRARY_MAP_SIZE (1 * 1024 * 1024)
struct tslot_softc;
/*
* Slot event structure
*/
struct tslot_event {
SIMPLEQ_ENTRY(tslot_event) te_q;
int te_what;
int te_slot;
};
#define TSLOT_EVENT_INSERT 0
#define TSLOT_EVENT_REMOVE 1
const char *tslot_event_descr[] = {
"insertion",
"removal"
};
/*
* Per-slot data
*/
struct tslot_data {
struct tslot_softc *td_parent;
struct device *td_pcmcia;
volatile u_int8_t *td_regs;
struct rom_reg td_rr;
vaddr_t td_space[TS102_RANGE_CNT];
/* Interrupt handler */
int (*td_intr)(void *);
void *td_intrarg;
/* Socket status */
int td_slot;
int td_status;
#define TS_CARD 0x0001
};
struct tslot_softc {
struct device sc_dev;
struct sbusdev sc_sd;
struct intrhand sc_ih;
pcmcia_chipset_tag_t sc_pct;
struct proc *sc_thread; /* event thread */
SIMPLEQ_HEAD(, tslot_event) sc_events;
struct tslot_data sc_slot[TS102_NUM_SLOTS];
};
void tslot_attach(struct device *, struct device *, void *);
void tslot_create_event_thread(void *);
void tslot_event_thread(void *);
int tslot_intr(void *);
void tslot_intr_disestablish(pcmcia_chipset_handle_t, void *);
void *tslot_intr_establish(pcmcia_chipset_handle_t, struct pcmcia_function *,
int, int (*)(void *), void *, char *);
int tslot_io_alloc(pcmcia_chipset_handle_t, bus_addr_t, bus_size_t,
bus_size_t, struct pcmcia_io_handle *);
void tslot_io_free(pcmcia_chipset_handle_t, struct pcmcia_io_handle *);
int tslot_io_map(pcmcia_chipset_handle_t, int, bus_addr_t, bus_size_t,
struct pcmcia_io_handle *, int *);
void tslot_io_unmap(pcmcia_chipset_handle_t, int);
int tslot_match(struct device *, void *, void *);
int tslot_mem_alloc(pcmcia_chipset_handle_t, bus_size_t,
struct pcmcia_mem_handle *);
void tslot_mem_free(pcmcia_chipset_handle_t, struct pcmcia_mem_handle *);
int tslot_mem_map(pcmcia_chipset_handle_t, int, bus_addr_t, bus_size_t,
struct pcmcia_mem_handle *, bus_addr_t *, int *);
void tslot_mem_unmap(pcmcia_chipset_handle_t, int);
int tslot_print(void *, const char *);
int tslot_queue_event(struct tslot_softc *, int, int);
void tslot_reset(struct tslot_data *, u_int32_t);
void tslot_slot_disable(pcmcia_chipset_handle_t);
void tslot_slot_enable(pcmcia_chipset_handle_t);
void tslot_slot_intr(struct tslot_data *, int);
struct cfattach tslot_ca = {
sizeof(struct tslot_softc), tslot_match, tslot_attach
};
struct cfdriver tslot_cd = {
NULL, "tslot", DV_DULL
};
/*
* PCMCIA chipset methods
*/
struct pcmcia_chip_functions tslot_functions = {
tslot_mem_alloc,
tslot_mem_free,
tslot_mem_map,
tslot_mem_unmap,
tslot_io_alloc,
tslot_io_free,
tslot_io_map,
tslot_io_unmap,
tslot_intr_establish,
tslot_intr_disestablish,
tslot_slot_enable,
tslot_slot_disable
};
#define TSLOT_READ(slot, offset) \
*(volatile u_int16_t *)((slot)->td_regs + (offset))
#define TSLOT_WRITE(slot, offset, value) \
*(volatile u_int16_t *)((slot)->td_regs + (offset)) = (value)
/*
* Attachment and initialization
*/
int
tslot_match(struct device *parent, void *vcf, void *aux)
{
struct confargs *ca = aux;
return (strcmp("ts102", ca->ca_ra.ra_name) == 0);
}
void
tslot_attach(struct device *parent, struct device *self, void *args)
{
struct confargs *ca = args;
struct tslot_softc *sc = (struct tslot_softc *)self;
struct romaux *ra;
struct rom_range ranges[TS102_NUM_RANGES], *range;
struct tslot_data *td;
volatile u_int8_t *regs;
int node, nranges, slot, rnum;
ra = &ca->ca_ra;
node = ra->ra_node;
regs = mapiodev(&ra->ra_reg[0], 0, ra->ra_len);
/*
* Find memory ranges
*/
nranges = getproplen(node, "ranges") / sizeof(struct rom_range);
if (nranges < TS102_NUM_RANGES) {
printf(": expected %d memory ranges, got %d\n",
TS102_NUM_RANGES, nranges);
return;
}
getprop(node, "ranges", ranges, sizeof ranges);
/*
* Ranges being relative to this sbus slot, turn them into absolute
* addresses.
*/
for (rnum = 0; rnum < TS102_NUM_RANGES; rnum++) {
ranges[rnum].poffset -= TS102_OFFSET_REGISTERS;
}
sc->sc_ih.ih_fun = tslot_intr;
sc->sc_ih.ih_arg = sc;
intr_establish(ra->ra_intr[0].int_pri, &sc->sc_ih, -1);
printf(" pri %d", ra->ra_intr[0].int_pri);
sbus_establish(&sc->sc_sd, self);
printf(": %d slots\n", TS102_NUM_SLOTS);
/*
* Setup asynchronous event handler
*/
SIMPLEQ_INIT(&sc->sc_events);
kthread_create_deferred(tslot_create_event_thread, sc);
sc->sc_pct = (pcmcia_chipset_tag_t)&tslot_functions;
/*
* Setup slots
*/
for (slot = 0; slot < TS102_NUM_SLOTS; slot++) {
td = &sc->sc_slot[slot];
for (rnum = 0; rnum < TS102_RANGE_CNT; rnum++) {
range = ranges + (slot * TS102_RANGE_CNT + rnum);
td->td_rr = ra->ra_reg[0];
td->td_rr.rr_iospace = range->pspace;
td->td_rr.rr_paddr = (void *)
((u_int32_t)td->td_rr.rr_paddr + range->poffset);
td->td_space[rnum] = (vaddr_t)mapiodev(&td->td_rr, 0,
TS102_ARBITRARY_MAP_SIZE);
}
td->td_parent = sc;
td->td_regs = regs +
slot * (TS102_REG_CARD_B_INT - TS102_REG_CARD_A_INT);
td->td_slot = slot;
SET_TAG_LITTLE_ENDIAN(&td->td_rr);
tslot_reset(td, TS102_ARBITRARY_MAP_SIZE);
}
}
void
tslot_reset(struct tslot_data *td, u_int32_t iosize)
{
struct pcmciabus_attach_args paa;
int ctl, status;
paa.paa_busname = "pcmcia";
paa.pct = (pcmcia_chipset_tag_t)td->td_parent->sc_pct;
paa.pch = (pcmcia_chipset_handle_t)td;
paa.iobase = 0;
paa.iosize = iosize;
td->td_pcmcia = config_found(&td->td_parent->sc_dev, &paa, tslot_print);
if (td->td_pcmcia == NULL) {
/*
* If no pcmcia attachment, power down the slot.
*/
tslot_slot_disable((pcmcia_chipset_handle_t)td);
return;
}
/*
* Initialize the slot
*/
ctl = TSLOT_READ(td, TS102_REG_CARD_A_CTL);
/* force low addresses */
ctl &= ~(TS102_CARD_CTL_AA_MASK | TS102_CARD_CTL_IA_MASK);
/* Put SBus and PCMCIA in their respective endian mode */
ctl |= TS102_CARD_CTL_SBLE; /* this is not what it looks like! */
ctl &= ~TS102_CARD_CTL_PCMBE;
/* disable read ahead and address increment */
ctl &= ~TS102_CARD_CTL_RAHD;
ctl |= TS102_CARD_CTL_INCDIS;
/* power on */
ctl &= ~TS102_CARD_CTL_PWRD;
TSLOT_WRITE(td, TS102_REG_CARD_A_CTL, ctl);
/*
* Enable interrupt upon insertion/removal
*/
TSLOT_WRITE(td, TS102_REG_CARD_A_INT,
TS102_CARD_INT_MASK_CARDDETECT_STATUS);
status = TSLOT_READ(td, TS102_REG_CARD_A_STS);
if (status & TS102_CARD_STS_PRES) {
td->td_status = TS_CARD;
pcmcia_card_attach(td->td_pcmcia);
} else
td->td_status = 0;
}
/* XXX there ought to be a common function for this... */
int
tslot_print(void *aux, const char *description)
{
struct pcmciabus_attach_args *paa = aux;
struct tslot_data *td = (struct tslot_data *)paa->pch;
printf(" socket %d", td->td_slot);
return (UNCONF);
}
/*
* PCMCIA Helpers
*/
int
tslot_io_alloc(pcmcia_chipset_handle_t pch, bus_addr_t start, bus_size_t size,
bus_size_t align, struct pcmcia_io_handle *pih)
{
struct tslot_data *td = (struct tslot_data *)pch;
#ifdef TSLOT_DEBUG
printf("[io alloc %x]", size);
#endif
pih->iot = &td->td_rr;
pih->ioh = (bus_space_handle_t)(td->td_space[TS102_RANGE_IO]);
pih->addr = start;
pih->size = size;
pih->flags = 0;
return (0);
}
void
tslot_io_free(pcmcia_chipset_handle_t pch, struct pcmcia_io_handle *pih)
{
#ifdef TSLOT_DEBUG
printf("[io free]");
#endif
}
int
tslot_io_map(pcmcia_chipset_handle_t pch, int width, bus_addr_t offset,
bus_size_t size, struct pcmcia_io_handle *pih, int *windowp)
{
struct tslot_data *td = (struct tslot_data *)pch;
#ifdef TSLOT_DEBUG
printf("[io map %x-%x", offset, size);
#endif
pih->iot = &td->td_rr;
pih->ioh = (bus_space_handle_t)(td->td_space[TS102_RANGE_IO]);
*windowp = TS102_RANGE_IO;
#ifdef TSLOT_DEBUG
printf("->%p/%x]", pih->ioh, size);
#endif
return (0);
}
void
tslot_io_unmap(pcmcia_chipset_handle_t pch, int win)
{
#ifdef TSLOT_DEBUG
printf("[io unmap]");
#endif
}
int
tslot_mem_alloc(pcmcia_chipset_handle_t pch, bus_size_t size,
struct pcmcia_mem_handle *pmh)
{
struct tslot_data *td = (struct tslot_data *)pch;
#ifdef TSLOT_DEBUG
printf("[mem alloc %x]", size);
#endif
pmh->memt = &td->td_rr;
pmh->size = round_page(size);
pmh->addr = 0;
pmh->mhandle = 0;
pmh->realsize = 0; /* nothing so far! */
return (0);
}
void
tslot_mem_free(pcmcia_chipset_handle_t pch, struct pcmcia_mem_handle *pmh)
{
#ifdef TSLOT_DEBUG
printf("[mem free]");
#endif
}
int
tslot_mem_map(pcmcia_chipset_handle_t pch, int kind, bus_addr_t addr,
bus_size_t size, struct pcmcia_mem_handle *pmh, bus_addr_t *offsetp,
int *windowp)
{
struct tslot_data *td = (struct tslot_data *)pch;
int slot;
slot = kind & PCMCIA_MEM_ATTR ? TS102_RANGE_ATTR : TS102_RANGE_COMMON;
#ifdef TSLOT_DEBUG
printf("[mem map %d %x-%x", slot, addr, size);
#endif
addr += pmh->addr;
pmh->memt = &td->td_rr;
pmh->memh = (bus_space_handle_t)(td->td_space[slot] + addr);
pmh->realsize = TS102_ARBITRARY_MAP_SIZE - addr;
*offsetp = 0;
*windowp = slot;
#ifdef TSLOT_DEBUG
printf("->%p/%x]", pmh->memh, size);
#endif
return (0);
}
void
tslot_mem_unmap(pcmcia_chipset_handle_t pch, int win)
{
#ifdef TSLOT_DEBUG
printf("[mem unmap %d]", win);
#endif
}
void
tslot_slot_disable(pcmcia_chipset_handle_t pch)
{
struct tslot_data *td = (struct tslot_data *)pch;
#ifdef TSLOT_DEBUG
printf("%s: disable slot %d\n",
td->td_parent->sc_dev.dv_xname, td->td_slot);
#endif
/*
* Disable card access.
*/
TSLOT_WRITE(td, TS102_REG_CARD_A_STS,
TSLOT_READ(td, TS102_REG_CARD_A_STS) & ~TS102_CARD_STS_ACEN);
/*
* Disable interrupts, except for insertion.
*/
TSLOT_WRITE(td, TS102_REG_CARD_A_INT,
TS102_CARD_INT_MASK_CARDDETECT_STATUS);
}
void
tslot_slot_enable(pcmcia_chipset_handle_t pch)
{
struct tslot_data *td = (struct tslot_data *)pch;
int status, intr, i;
#ifdef TSLOT_DEBUG
printf("%s: enable slot %d\n",
td->td_parent->sc_dev.dv_xname, td->td_slot);
#endif
/* Pover down the socket to reset it */
status = TSLOT_READ(td, TS102_REG_CARD_A_STS);
TSLOT_WRITE(td, TS102_REG_CARD_A_STS, status | TS102_CARD_STS_VCCEN);
/*
* wait 300ms until power fails (Tpf). Then, wait 100ms since we
* are changing Vcc (Toff).
*/
DELAY((300 + 100) * 1000);
/*
* Power on the card if not already done, and enable card access
*/
status |= TS102_CARD_STS_ACEN;
status &= ~TS102_CARD_STS_VCCEN;
TSLOT_WRITE(td, TS102_REG_CARD_A_STS, status);
/*
* wait 100ms until power raise (Tpr) and 20ms to become
* stable (Tsu(Vcc)).
*/
DELAY((100 + 20) * 1000);
status &= ~TS102_CARD_STS_VPP1_MASK;
status |= TS102_CARD_STS_VPP1_VCC;
TSLOT_WRITE(td, TS102_REG_CARD_A_STS, status);
/*
* hold RESET at least 20us.
*/
intr = TSLOT_READ(td, TS102_REG_CARD_A_INT);
TSLOT_WRITE(td, TS102_REG_CARD_A_INT, TS102_CARD_INT_SOFT_RESET);
DELAY(20);
TSLOT_WRITE(td, TS102_REG_CARD_A_INT, intr);
/* wait 20ms as per pc card standard (r2.01) section 4.3.6 */
DELAY(20 * 1000);
/*
* Wait until the card is unbusy. If it is still busy after 3 seconds,
* give up. We could enable card interrupts and wait for the interrupt
* to happen when BUSY is released, but the interrupt could also be
* triggered by the card itself if it's an I/O card, so better poll
* here.
*/
for (i = 30000; i != 0; i--) {
status = TSLOT_READ(td, TS102_REG_CARD_A_STS);
if ((status & TS102_CARD_STS_PRES) == 0) {
tslot_slot_disable(pch);
return;
}
if (status & TS102_CARD_STS_RDY)
break;
else
DELAY(100);
}
if (i == 0) {
printf("%s: slot %d still busy after 3 seconds, status 0x%x\n",
td->td_parent->sc_dev.dv_xname, td->td_slot,
TSLOT_READ(td, TS102_REG_CARD_A_STS));
return;
}
/*
* Enable the card interrupts if this is an I/O card.
* Note that the TS102_CARD_STS_IO bit in the status register will
* never get set, despite what the documentation says!
*/
if (pcmcia_card_gettype(td->td_pcmcia) == PCMCIA_IFTYPE_IO) {
TSLOT_WRITE(td, TS102_REG_CARD_A_STS,
TSLOT_READ(td, TS102_REG_CARD_A_STS) | TS102_CARD_STS_IO);
TSLOT_WRITE(td, TS102_REG_CARD_A_INT,
TS102_CARD_INT_MASK_CARDDETECT_STATUS |
TS102_CARD_INT_MASK_IRQ);
}
}
/*
* Event management
*/
void
tslot_create_event_thread(void *v)
{
struct tslot_softc *sc = v;
const char *name = sc->sc_dev.dv_xname;
if (kthread_create(tslot_event_thread, sc, &sc->sc_thread, "%s",
name) != 0) {
panic("%s: unable to create event kthread", name);
}
}
void
tslot_event_thread(void *v)
{
struct tslot_softc *sc = v;
struct tslot_data *td;
struct tslot_event *te;
int s;
for (;;) {
s = splhigh();
if ((te = SIMPLEQ_FIRST(&sc->sc_events)) == NULL) {
splx(s);
tsleep(&sc->sc_events, PWAIT, "tslot_event", 0);
continue;
}
SIMPLEQ_REMOVE_HEAD(&sc->sc_events, te, te_q);
splx(s);
if (te->te_slot >= TS102_NUM_SLOTS) {
printf("%s: invalid slot number %d\n",
sc->sc_dev.dv_xname, te->te_slot);
} else {
td = &sc->sc_slot[te->te_slot];
switch (te->te_what) {
case TSLOT_EVENT_INSERT:
if ((td->td_status & TS_CARD) == 0) {
td->td_status |= TS_CARD;
pcmcia_card_attach(td->td_pcmcia);
}
break;
case TSLOT_EVENT_REMOVE:
if ((td->td_status & TS_CARD) != 0) {
td->td_status &= ~TS_CARD;
pcmcia_card_detach(td->td_pcmcia,
DETACH_FORCE);
}
break;
default:
printf("%s: invalid event type %d on slot %d\n",
sc->sc_dev.dv_xname,
te->te_slot, te->te_what);
}
}
free(te, M_TEMP);
}
}
/*
* Interrupt handling
*/
int
tslot_intr(void *v)
{
struct tslot_softc *sc = v;
struct tslot_data *td;
int intregs[TS102_NUM_SLOTS], *intreg;
int i, rc = 0;
/*
* Scan slots, and acknowledge the interrupt if necessary first
*/
for (i = 0; i < TS102_NUM_SLOTS; i++) {
td = &sc->sc_slot[i];
intreg = &intregs[i];
*intreg = TSLOT_READ(td, TS102_REG_CARD_A_INT);
/*
* Acknowledge all interrupt situations at once, even if they
* did not occur.
*/
if ((*intreg & (TS102_CARD_INT_STATUS_IRQ |
TS102_CARD_INT_STATUS_WP_STATUS_CHANGED |
TS102_CARD_INT_STATUS_BATTERY_STATUS_CHANGED |
TS102_CARD_INT_STATUS_CARDDETECT_STATUS_CHANGED)) != 0) {
rc = 1;
TSLOT_WRITE(td, TS102_REG_CARD_A_INT, *intreg |
TS102_CARD_INT_RQST_IRQ |
TS102_CARD_INT_RQST_WP_STATUS_CHANGED |
TS102_CARD_INT_RQST_BATTERY_STATUS_CHANGED |
TS102_CARD_INT_RQST_CARDDETECT_STATUS_CHANGED);
}
}
/*
* Invoke the interrupt handler for each slot
*/
for (i = 0; i < TS102_NUM_SLOTS; i++) {
td = &sc->sc_slot[i];
intreg = &intregs[i];
if ((*intreg & (TS102_CARD_INT_STATUS_IRQ |
TS102_CARD_INT_STATUS_WP_STATUS_CHANGED |
TS102_CARD_INT_STATUS_BATTERY_STATUS_CHANGED |
TS102_CARD_INT_STATUS_CARDDETECT_STATUS_CHANGED)) != 0)
tslot_slot_intr(td, *intreg);
}
return (rc);
}
int
tslot_queue_event(struct tslot_softc *sc, int slot, int what)
{
struct tslot_event *te;
int s;
te = malloc(sizeof(*te), M_TEMP, M_NOWAIT);
if (te == NULL) {
printf("%s: %s event lost on slot %d\n",
sc->sc_dev.dv_xname, tslot_event_descr[what], slot);
return (ENOMEM);
}
te->te_what = what;
te->te_slot = slot;
s = splhigh();
SIMPLEQ_INSERT_TAIL(&sc->sc_events, te, te_q);
splx(s);
wakeup(&sc->sc_events);
return (0);
}
void
tslot_slot_intr(struct tslot_data *td, int intreg)
{
int status, sockstat;
status = TSLOT_READ(td, TS102_REG_CARD_A_STS);
#ifdef TSLOT_DEBUG
printf("%s: interrupt on socket %d ir %x sts %x\n",
td->td_parent->sc_dev.dv_xname, td->td_slot, intreg, status);
#endif
sockstat = td->td_status;
/*
* The TS102 queues interrupt request, and may trigger an interrupt
* for a condition the driver does not want to receive anymore (for
* example, after a card gets removed).
* Thus, only proceed if the driver is currently allowing a particular
* condition.
*/
if ((intreg & TS102_CARD_INT_STATUS_CARDDETECT_STATUS_CHANGED) != 0 &&
(intreg & TS102_CARD_INT_MASK_CARDDETECT_STATUS) != 0) {
if (status & TS102_CARD_STS_PRES) {
tslot_queue_event(td->td_parent,
td->td_slot, TSLOT_EVENT_INSERT);
} else {
tslot_queue_event(td->td_parent, td->td_slot,
TSLOT_EVENT_REMOVE);
}
#ifdef TSLOT_DEBUG
printf("%s: slot %d status changed from %d to %d\n",
td->td_parent->sc_dev.dv_xname,
td->td_slot, sockstat, td->td_status);
#endif
/*
* Ignore extra interrupt bits, they are part of the change.
*/
return;
}
if ((intreg & TS102_CARD_INT_STATUS_IRQ) != 0 &&
(intreg & TS102_CARD_INT_MASK_IRQ) != 0) {
if (sockstat != TS_CARD) {
printf("%s: spurious interrupt on slot %d isr %x\n",
td->td_parent->sc_dev.dv_xname, td->td_slot, intreg);
return;
}
if (td->td_intr != NULL) {
/*
* XXX There is no way to honour the interrupt handler
* requested IPL level...
*/
(*td->td_intr)(td->td_intrarg);
}
}
}
void
tslot_intr_disestablish(pcmcia_chipset_handle_t pch, void *ih)
{
struct tslot_data *td = (struct tslot_data *)pch;
td->td_intr = NULL;
td->td_intrarg = NULL;
}
void *
tslot_intr_establish(pcmcia_chipset_handle_t pch, struct pcmcia_function *pf,
int ipl, int (*handler)(void *), void *arg, char *xname)
{
struct tslot_data *td = (struct tslot_data *)pch;
td->td_intr = handler;
td->td_intrarg = arg;
return (td);
}
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