/* * pccard.c - Interface code for PC-CARD controllers. * * June 1995, Andrew McRae (andrew@mega.com.au) *------------------------------------------------------------------------- * * Copyright (c) 1995 Andrew McRae. All rights reserved. * * 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. * 3. The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission. * * 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. */ #include #include #include #include #include #include #include #include #ifdef DEVFS #include #endif /*DEVFS*/ #include #include #include #include #include #include "apm.h" #if NAPM > 0 #include #endif /* NAPM > 0 */ #include #include #include #include #include /* * XXX We shouldn't be using processor-specific/bus-specific code in * here, but we need the start of the ISA hole (IOM_BEGIN). */ #include SYSCTL_NODE(_machdep, OID_AUTO, pccard, CTLFLAG_RW, 0, "pccard"); static int pcic_resume_reset = #ifdef PCIC_RESUME_RESET 1; #else 0; #endif SYSCTL_INT(_machdep_pccard, OID_AUTO, pcic_resume_reset, CTLFLAG_RW, &pcic_resume_reset, 0, ""); #define PCCARD_MEMSIZE (4*1024) #define MIN(a,b) ((a)<(b)?(a):(b)) static int allocate_driver(struct slot *, struct dev_desc *); static void inserted(void *); static void unregister_device_interrupt(struct pccard_devinfo *); static void disable_slot(struct slot *); static int invalid_io_memory(unsigned long, int); static struct pccard_device *find_driver(char *); static void remove_device(struct pccard_devinfo *); static void slot_irq_handler(int); static void power_off_slot(void *); #if NAPM > 0 /* * For the APM stuff, the apmhook structure is kept * separate from the slot structure so that the slot * drivers do not need to know about the hooks (or the * data structures). */ static int slot_suspend(void *arg); static int slot_resume(void *arg); static struct apmhook s_hook[MAXSLOT]; /* APM suspend */ static struct apmhook r_hook[MAXSLOT]; /* APM resume */ #endif /* NAPM > 0 */ static struct slot *pccard_slots[MAXSLOT]; /* slot entries */ static struct slot *slot_list; static struct slot_ctrl *cont_list; static struct pccard_device *drivers; /* Card drivers */ /* * The driver interface for read/write uses a block * of memory in the ISA I/O memory space allocated via * an ioctl setting. */ static unsigned long pccard_mem; /* Physical memory */ static unsigned char *pccard_kmem; /* Kernel virtual address */ static d_open_t crdopen; static d_close_t crdclose; static d_read_t crdread; static d_write_t crdwrite; static d_ioctl_t crdioctl; static d_poll_t crdpoll; #define CDEV_MAJOR 50 static struct cdevsw crd_cdevsw = { crdopen, crdclose, crdread, crdwrite, /*50*/ crdioctl, nostop, nullreset, nodevtotty,/* pcmcia */ crdpoll, nommap, NULL, "crd", NULL, -1 }; /* * pccard_configure - called by autoconf code. * Probes for various PC-CARD controllers, and * initialises data structures to point to the * various slots. * * Each controller indicates the number of slots * that it sees, and these are mapped to a master * slot number accessed via the character device entries. */ void pccard_configure() { #include "pcic.h" #if NPCIC > 0 pcic_probe(); #endif } /* * pccard_add_driver - Add a new driver to the list of * drivers available for allocation. */ void pccard_add_driver(struct pccard_device *drv) { /* * If already loaded, then reject the driver. */ if (find_driver(drv->name)) { printf("Driver %s already loaded\n", drv->name); return; } printf("pccard driver %s added\n", drv->name); drv->next = drivers; drivers = drv; } #ifdef unused /* * pccard_remove_driver - called to unlink driver * from devices. Usually called when drivers are * are unloaded from kernel. */ void pccard_remove_driver(struct pccard_device *drv) { struct slot *slt; struct pccard_devinfo *devi, *next; struct pccard_device *drvlist; for (slt = slot_list; slt; slt = slt->next) for (devi = slt->devices; devi; devi = next) { next = devi->next; if (devi->drv == drv) remove_device(devi); } /* * Once all the devices belonging to this driver have been * freed, then remove the driver from the list * of registered drivers. */ if (drivers == drv) drivers = drv->next; else for (drvlist = drivers; drvlist->next; drvlist = drvlist->next) if (drvlist->next == drv) { drvlist->next = drv->next; break; } } #endif /* * pccard_remove_controller - Called when the slot * driver is unloaded. The plan is to unload * drivers from the slots, and then remove the * slots from the slot list, and then finally * remove the controller structure. Messy... */ void pccard_remove_controller(struct slot_ctrl *ctrl) { struct slot *slt, *next, *last = 0; struct slot_ctrl *cl; struct pccard_devinfo *devi; for (slt = slot_list; slt; slt = next) { next = slt->next; /* * If this slot belongs to this controller, * remove this slot. */ if (slt->ctrl == ctrl) { pccard_slots[slt->slotnum] = 0; if (slt->insert_seq) untimeout(inserted, (void *)slt, slt->insert_ch); /* * Unload the drivers attached to this slot. */ while (devi = slt->devices) remove_device(devi); /* * Disable the slot and unlink the slot from the * slot list. */ disable_slot(slt); if (last) last->next = next; else slot_list = next; #if NAPM > 0 apm_hook_disestablish(APM_HOOK_SUSPEND, &s_hook[slt->slotnum]); apm_hook_disestablish(APM_HOOK_RESUME, &r_hook[slt->slotnum]); #endif if (ctrl->extra && slt->cdata) FREE(slt->cdata, M_DEVBUF); FREE(slt, M_DEVBUF); /* * Can't use slot after we have freed it. */ } else { last = slt; } } /* * Unlink controller structure from controller list. */ if (cont_list == ctrl) cont_list = ctrl->next; else for (cl = cont_list; cl->next; cl = cl->next) if (cl->next == ctrl) { cl->next = ctrl->next; break; } } /* * Power off the slot. * (doing it immediately makes the removal of some cards unstable) */ static void power_off_slot(void *arg) { struct slot *slt = (struct slot *)arg; /* Power off the slot. */ slt->pwr_off_pending = 0; slt->ctrl->disable(slt); } /* * unregister_device_interrupt - Disable the interrupt generation to * the device driver which is handling it, so we can remove it. */ static void unregister_device_interrupt(struct pccard_devinfo *devi) { struct slot *slt = devi->slt; int s; if (devi->running) { s = splhigh(); devi->drv->disable(devi); devi->running = 0; if (devi->isahd.id_irq && --slt->irqref <= 0) { printf("Return IRQ=%d\n",slt->irq); slt->ctrl->mapirq(slt, 0); INTRDIS(1<irq); unregister_intr(slt->irq, slot_irq_handler); if (devi->drv->imask) INTRUNMASK(*devi->drv->imask,(1<irq)); /* Remove from the PCIC controller imask */ if (slt->ctrl->imask) INTRUNMASK(*(slt->ctrl->imask), (1<irq)); slt->irq = 0; } splx(s); } } /* * disable_slot - Disables the slot by removing * the power and unmapping the I/O */ static void disable_slot(struct slot *slt) { struct pccard_devinfo *devi; int i; /* * Unload all the drivers on this slot. Note we can't * remove the device structures themselves, because this * may be called from the event routine, which is called * from the slot controller's ISR, and removing the structures * shouldn't happen during the middle of some driver activity. * * Note that a race condition is possible here; if a * driver is accessing the device and it is removed, then * all bets are off... */ for (devi = slt->devices; devi; devi = devi->next) unregister_device_interrupt(devi); /* Power off the slot 1/2 second after removal of the card */ slt->poff_ch = timeout(power_off_slot, (caddr_t)slt, hz / 2); slt->pwr_off_pending = 1; /* De-activate all contexts. */ for (i = 0; i < slt->ctrl->maxmem; i++) if (slt->mem[i].flags & MDF_ACTIVE) { slt->mem[i].flags = 0; (void)slt->ctrl->mapmem(slt, i); } for (i = 0; i < slt->ctrl->maxio; i++) if (slt->io[i].flags & IODF_ACTIVE) { slt->io[i].flags = 0; (void)slt->ctrl->mapio(slt, i); } } /* * APM hooks for suspending and resuming. */ #if NAPM > 0 static int slot_suspend(void *arg) { struct slot *slt = arg; slt->ctrl->disable(slt); return (0); } static int slot_resume(void *arg) { struct slot *slt = arg; if (pcic_resume_reset) slt->ctrl->resume(slt); /* Fake card removal/insertion events */ if (slt->state == filled) { int s; s = splhigh(); disable_slot(slt); slt->state = empty; splx(s); slt->insert_seq = 1; slt->insert_ch = timeout(inserted, (void *)slt, hz); selwakeup(&slt->selp); } return (0); } #endif /* NAPM > 0 */ /* * pccard_alloc_slot - Called from controller probe * routine, this function allocates a new PC-CARD slot * and initialises the data structures using the data provided. * It returns the allocated structure to the probe routine * to allow the controller specific data to be initialised. */ struct slot * pccard_alloc_slot(struct slot_ctrl *ctrl) { struct slot *slt; int slotno; for (slotno = 0; slotno < MAXSLOT; slotno++) if (pccard_slots[slotno] == 0) break; if (slotno == MAXSLOT) return(0); MALLOC(slt, struct slot *, sizeof(*slt), M_DEVBUF, M_WAITOK); bzero(slt, sizeof(*slt)); #ifdef DEVFS slt->devfs_token = devfs_add_devswf(&crd_cdevsw, 0, DV_CHR, 0, 0, 0600, "card%d", slotno); #endif if (ctrl->extra) { MALLOC(slt->cdata, void *, ctrl->extra, M_DEVBUF, M_WAITOK); bzero(slt->cdata, ctrl->extra); } slt->ctrl = ctrl; slt->slotnum = slotno; pccard_slots[slotno] = slt; slt->next = slot_list; slot_list = slt; /* * If this controller hasn't been seen before, then * link it into the list of controllers. */ if (ctrl->slots++ == 0) { ctrl->next = cont_list; cont_list = ctrl; if (ctrl->maxmem > NUM_MEM_WINDOWS) ctrl->maxmem = NUM_MEM_WINDOWS; if (ctrl->maxio > NUM_IO_WINDOWS) ctrl->maxio = NUM_IO_WINDOWS; printf("PC-Card %s (%d mem & %d I/O windows)\n", ctrl->name, ctrl->maxmem, ctrl->maxio); } callout_handle_init(&slt->insert_ch); callout_handle_init(&slt->poff_ch); #if NAPM > 0 { struct apmhook *ap; ap = &s_hook[slt->slotnum]; ap->ah_fun = slot_suspend; ap->ah_arg = (void *)slt; ap->ah_name = ctrl->name; ap->ah_order = APM_MID_ORDER; apm_hook_establish(APM_HOOK_SUSPEND, ap); ap = &r_hook[slt->slotnum]; ap->ah_fun = slot_resume; ap->ah_arg = (void *)slt; ap->ah_name = ctrl->name; ap->ah_order = APM_MID_ORDER; apm_hook_establish(APM_HOOK_RESUME, ap); } #endif /* NAPM > 0 */ return(slt); } /* * pccard_alloc_intr - allocate an interrupt from the * free interrupts and return its number. The interrupts * allowed are passed as a mask. */ int pccard_alloc_intr(u_int imask, inthand2_t *hand, int unit, u_int *maskp, u_int *pcic_imask) { int irq; unsigned int mask; for (irq = 1; irq < ICU_LEN; irq++) { mask = 1ul << irq; if (!(mask & imask)) continue; if (maskp) INTRMASK(*maskp, mask); if (register_intr(irq, 0, 0, hand, maskp, unit) == 0) { /* add this to the PCIC controller's mask */ INTRMASK(*pcic_imask, (1 << irq)); INTREN(mask); return(irq); } /* No luck, remove from mask again... */ if (maskp) INTRUNMASK(*maskp, mask); } return(-1); } /* * allocate_driver - Create a new device entry for this * slot, and attach a driver to it. */ static int allocate_driver(struct slot *slt, struct dev_desc *desc) { struct pccard_devinfo *devi; struct pccard_device *drv; int err, irq = 0, s; drv = find_driver(desc->name); if (drv == 0) return(ENXIO); /* * If an instance of this driver is already installed, * but not running, then remove it. If it is running, * then reject the request. */ for (devi = slt->devices; devi; devi = devi->next) if (devi->drv == drv && devi->isahd.id_unit == desc->unit) { if (devi->running) return(EBUSY); remove_device(devi); break; } /* * If an interrupt mask has been given, then check it * against the slot interrupt (if one has been allocated). */ if (desc->irqmask && drv->imask) { if ((slt->ctrl->irqs & desc->irqmask) == 0) return(EINVAL); if (slt->irq) { if (((1 << slt->irq) & desc->irqmask) == 0) return(EINVAL); slt->irqref++; irq = slt->irq; } else { /* * Attempt to allocate an interrupt. * XXX We lose at the moment if the second * device relies on a different interrupt mask. */ irq = pccard_alloc_intr(desc->irqmask, slot_irq_handler, (int)slt, drv->imask, slt->ctrl->imask); if (irq < 0) return(EINVAL); slt->irq = irq; slt->irqref = 1; slt->ctrl->mapirq(slt, slt->irq); } } MALLOC(devi, struct pccard_devinfo *, sizeof(*devi), M_DEVBUF, M_WAITOK); bzero(devi, sizeof(*devi)); /* * Create an entry for the device under this slot. */ devi->drv = drv; devi->slt = slt; devi->isahd.id_irq = irq; devi->isahd.id_unit = desc->unit; devi->isahd.id_msize = desc->memsize; devi->isahd.id_iobase = desc->iobase; bcopy(desc->misc, devi->misc, sizeof(desc->misc)); if (irq) devi->isahd.id_irq = 1 << irq; devi->isahd.id_flags = desc->flags; /* * Convert the memory to kernel space. */ if (desc->mem) devi->isahd.id_maddr = (caddr_t)(desc->mem + atdevbase - IOM_BEGIN); else devi->isahd.id_maddr = 0; devi->next = slt->devices; slt->devices = devi; s = splhigh(); err = drv->enable(devi); splx(s); /* * If the enable functions returns no error, then the * device has been successfully installed. If so, then * attach it to the slot, otherwise free it and return * the error. */ if (err) remove_device(devi); else devi->running = 1; return(err); } static void remove_device(struct pccard_devinfo *devi) { struct slot *slt = devi->slt; struct pccard_devinfo *list; /* * If an interrupt is enabled on this slot, * then unregister it if no-one else is using it. */ unregister_device_interrupt(devi); /* * Remove from device list on this slot. */ if (slt->devices == devi) slt->devices = devi->next; else for (list = slt->devices; list->next; list = list->next) if (list->next == devi) { list->next = devi->next; break; } /* * Finally, free the memory space. */ FREE(devi, M_DEVBUF); } /* * card insert routine - Called from a timeout to debounce * insertion events. */ static void inserted(void *arg) { struct slot *slt = arg; slt->state = filled; /* * Enable 5V to the card so that the CIS can be read. */ slt->pwr.vcc = 50; slt->pwr.vpp = 0; /* * Disable any pending timeouts for this slot, and explicitly * power it off right now. Then, re-enable the power using * the (possibly new) power settings. */ untimeout(power_off_slot, (caddr_t)slt, slt->poff_ch); power_off_slot(slt); slt->ctrl->power(slt); printf("Card inserted, slot %d\n", slt->slotnum); /* * Now start resetting the card. */ slt->ctrl->reset(slt); } /* * Insert/Remove beep */ static int beepok = 0; static void enable_beep(void *dummy) { beepok = 1; } /* * Card event callback. Called at splhigh to prevent * device interrupts from interceding. */ void pccard_event(struct slot *slt, enum card_event event) { if (slt->insert_seq) { slt->insert_seq = 0; untimeout(inserted, (void *)slt, slt->insert_ch); } switch(event) { case card_removed: /* * The slot and devices are disabled, but the * data structures are not unlinked. */ if (slt->state == filled) { int s = splhigh(); disable_slot(slt); slt->state = empty; splx(s); printf("Card removed, slot %d\n", slt->slotnum); if (beepok) sysbeep(PCCARD_BEEP_PITCH0, PCCARD_BEEP_DURATION0); beepok = 0; timeout(enable_beep, (void *)NULL, hz/5); selwakeup(&slt->selp); } break; case card_inserted: slt->insert_seq = 1; slt->insert_ch = timeout(inserted, (void *)slt, hz/4); if (beepok) sysbeep(PCCARD_BEEP_PITCH0, PCCARD_BEEP_DURATION0); beepok = 0; timeout(enable_beep, (void *)NULL, hz/5); break; } } /* * slot_irq_handler - Interrupt handler for shared irq devices. */ static void slot_irq_handler(int arg) { struct pccard_devinfo *devi; struct slot *slt = (struct slot *)arg; /* * For each device that has the shared interrupt, * call the interrupt handler. If the interrupt was * caught, the handler returns true. */ for (devi = slt->devices; devi; devi = devi->next) if (devi->isahd.id_irq && devi->running && devi->drv->handler(devi)) return; /* * XXX - Should 'debounce' these for drivers that have recently * been removed. */ printf("Slot %d, unfielded interrupt (%d)\n", slt->slotnum, slt->irq); } /* * Device driver interface. */ static int crdopen(dev_t dev, int oflags, int devtype, struct proc *p) { struct slot *slt; if (minor(dev) >= MAXSLOT) return(ENXIO); slt = pccard_slots[minor(dev)]; if (slt == 0) return(ENXIO); if (slt->rwmem == 0) slt->rwmem = MDF_ATTR; return(0); } /* * Close doesn't de-allocate any resources, since * slots may be assigned to drivers already. */ static int crdclose(dev_t dev, int fflag, int devtype, struct proc *p) { return(0); } /* * read interface. Map memory at lseek offset, * then transfer to user space. */ static int crdread(dev_t dev, struct uio *uio, int ioflag) { struct slot *slt = pccard_slots[minor(dev)]; struct mem_desc *mp, oldmap; unsigned char *p; unsigned int offs; int error = 0, win, count; if (slt == 0 || slt->state != filled) return(ENXIO); if (pccard_mem == 0) return(ENOMEM); for (win = 0; win < slt->ctrl->maxmem; win++) if ((slt->mem[win].flags & MDF_ACTIVE) == 0) break; if (win >= slt->ctrl->maxmem) return(EBUSY); mp = &slt->mem[win]; oldmap = *mp; mp->flags = slt->rwmem|MDF_ACTIVE; #if 0 printf("Rd at offs %d, size %d\n", (int)uio->uio_offset, uio->uio_resid); #endif while (uio->uio_resid && error == 0) { mp->card = uio->uio_offset; mp->size = PCCARD_MEMSIZE; mp->start = (caddr_t)pccard_mem; if (error = slt->ctrl->mapmem(slt, win)) break; offs = (unsigned int)uio->uio_offset & (PCCARD_MEMSIZE - 1); p = pccard_kmem + offs; count = MIN(PCCARD_MEMSIZE - offs, uio->uio_resid); error = uiomove(p, count, uio); } /* * Restore original map. */ *mp = oldmap; slt->ctrl->mapmem(slt, win); return(error); } /* * crdwrite - Write data to card memory. * Handles wrap around so that only one memory * window is used. */ static int crdwrite(dev_t dev, struct uio *uio, int ioflag) { struct slot *slt = pccard_slots[minor(dev)]; struct mem_desc *mp, oldmap; unsigned char *p; unsigned int offs; int error = 0, win, count; if (slt == 0 || slt->state != filled) return(ENXIO); if (pccard_mem == 0) return(ENOMEM); for (win = 0; win < slt->ctrl->maxmem; win++) if ((slt->mem[win].flags & MDF_ACTIVE)==0) break; if (win >= slt->ctrl->maxmem) return(EBUSY); mp = &slt->mem[win]; oldmap = *mp; mp->flags = slt->rwmem|MDF_ACTIVE; #if 0 printf("Wr at offs %d, size %d\n", (int)uio->uio_offset, uio->uio_resid); #endif while (uio->uio_resid && error == 0) { mp->card = uio->uio_offset; mp->size = PCCARD_MEMSIZE; mp->start = (caddr_t)pccard_mem; if (error = slt->ctrl->mapmem(slt, win)) break; offs = (unsigned int)uio->uio_offset & (PCCARD_MEMSIZE - 1); p = pccard_kmem + offs; count = MIN(PCCARD_MEMSIZE - offs, uio->uio_resid); #if 0 printf("Writing %d bytes to address 0x%x\n", count, p); #endif error = uiomove(p, count, uio); } /* * Restore original map. */ *mp = oldmap; slt->ctrl->mapmem(slt, win); return(error); } /* * ioctl calls - allows setting/getting of memory and I/O * descriptors, and assignment of drivers. */ static int crdioctl(dev_t dev, int cmd, caddr_t data, int fflag, struct proc *p) { struct slot *slt = pccard_slots[minor(dev)]; struct mem_desc *mp; struct io_desc *ip; int s, err; /* beep is disabled until the 1st call of crdioctl() */ enable_beep(NULL); if (slt == 0 && cmd != PIOCRWMEM) return(ENXIO); switch(cmd) { default: if (slt->ctrl->ioctl) return(slt->ctrl->ioctl(slt, cmd, data)); return(EINVAL); /* * Get slot state. */ case PIOCGSTATE: s = splhigh(); ((struct slotstate *)data)->state = slt->state; slt->laststate = slt->state; splx(s); ((struct slotstate *)data)->maxmem = slt->ctrl->maxmem; ((struct slotstate *)data)->maxio = slt->ctrl->maxio; ((struct slotstate *)data)->irqs = slt->ctrl->irqs; break; /* * Get memory context. */ case PIOCGMEM: s = ((struct mem_desc *)data)->window; if (s < 0 || s >= slt->ctrl->maxmem) return(EINVAL); mp = &slt->mem[s]; ((struct mem_desc *)data)->flags = mp->flags; ((struct mem_desc *)data)->start = mp->start; ((struct mem_desc *)data)->size = mp->size; ((struct mem_desc *)data)->card = mp->card; break; /* * Set memory context. If context already active, then unmap it. * It is hard to see how the parameters can be checked. * At the very least, we only allow root to set the context. */ case PIOCSMEM: if (suser(p->p_ucred, &p->p_acflag)) return(EPERM); if (slt->state != filled) return(ENXIO); s = ((struct mem_desc *)data)->window; if (s < 0 || s >= slt->ctrl->maxmem) return(EINVAL); slt->mem[s] = *((struct mem_desc *)data); return(slt->ctrl->mapmem(slt, s)); /* * Get I/O port context. */ case PIOCGIO: s = ((struct io_desc *)data)->window; if (s < 0 || s >= slt->ctrl->maxio) return(EINVAL); ip = &slt->io[s]; ((struct io_desc *)data)->flags = ip->flags; ((struct io_desc *)data)->start = ip->start; ((struct io_desc *)data)->size = ip->size; break; /* * Set I/O port context. */ case PIOCSIO: if (suser(p->p_ucred, &p->p_acflag)) return(EPERM); if (slt->state != filled) return(ENXIO); s = ((struct io_desc *)data)->window; if (s < 0 || s >= slt->ctrl->maxio) return(EINVAL); slt->io[s] = *((struct io_desc *)data); return(slt->ctrl->mapio(slt, s)); break; /* * Set memory window flags for read/write interface. */ case PIOCRWFLAG: slt->rwmem = *(int *)data; break; /* * Set the memory window to be used for the read/write interface. */ case PIOCRWMEM: if (*(unsigned long *)data == 0) { if (pccard_mem) *(unsigned long *)data = pccard_mem; break; } if (suser(p->p_ucred, &p->p_acflag)) return(EPERM); /* * Validate the memory by checking it against the I/O * memory range. It must also start on an aligned block size. */ if (invalid_io_memory(*(unsigned long *)data, PCCARD_MEMSIZE)) return(EINVAL); if (*(unsigned long *)data & (PCCARD_MEMSIZE-1)) return(EINVAL); /* * Map it to kernel VM. */ pccard_mem = *(unsigned long *)data; pccard_kmem = (unsigned char *)(pccard_mem + atdevbase - IOM_BEGIN); break; /* * Set power values. */ case PIOCSPOW: slt->pwr = *(struct power *)data; return(slt->ctrl->power(slt)); /* * Allocate a driver to this slot. */ case PIOCSDRV: if (suser(p->p_ucred, &p->p_acflag)) return(EPERM); err = allocate_driver(slt, (struct dev_desc *)data); if (!err) sysbeep(PCCARD_BEEP_PITCH1, PCCARD_BEEP_DURATION1); else sysbeep(PCCARD_BEEP_PITCH2, PCCARD_BEEP_DURATION2); return err; } return(0); } /* * poll - Poll on exceptions will return true * when a change in card status occurs. */ static int crdpoll(dev_t dev, int events, struct proc *p) { int s; struct slot *slt = pccard_slots[minor(dev)]; int revents = 0; if (events & (POLLIN | POLLRDNORM)) revents |= events & (POLLIN | POLLRDNORM); if (events & (POLLOUT | POLLWRNORM)) revents |= events & (POLLIN | POLLRDNORM); s = splhigh(); /* * select for exception - card event. */ if (events & POLLRDBAND) if (slt == 0 || slt->laststate != slt->state) revents |= POLLRDBAND; if (revents == 0) selrecord(p, &slt->selp); splx(s); return (revents); } /* * invalid_io_memory - verify that the ISA I/O memory block * is a valid and unallocated address. * A simple check of the range is done, and then a * search of the current devices is done to check for * overlapping regions. */ static int invalid_io_memory(unsigned long adr, int size) { /* XXX - What's magic about 0xC0000?? */ if (adr < 0xC0000 || (adr+size) > IOM_END) return(1); return(0); } static struct pccard_device * find_driver(char *name) { struct pccard_device *drv; for (drv = drivers; drv; drv = drv->next) if (strcmp(drv->name, name)==0) return(drv); return(0); } static crd_devsw_installed = 0; static void crd_drvinit(void *unused) { dev_t dev; if (!crd_devsw_installed) { dev = makedev(CDEV_MAJOR, 0); cdevsw_add(&dev, &crd_cdevsw, NULL); crd_devsw_installed = 1; } } SYSINIT(crddev,SI_SUB_DRIVERS,SI_ORDER_MIDDLE+CDEV_MAJOR,crd_drvinit,NULL)