dev/mvme/mvmebus.c

1.15     dsl /*	$NetBSD: mvmebus.c,v 1.15 2009/03/14 15:36:19 dsl Exp $	*/
 1.1     scw
 1.1     scw /*-
 1.1     scw  * Copyright (c) 2000, 2002 The NetBSD Foundation, Inc.
 1.1     scw  * All rights reserved.
 1.1     scw  *
 1.1     scw  * This code is derived from software contributed to The NetBSD Foundation
 1.1     scw  * by Steve C. Woodford.
 1.1     scw  *
 1.1     scw  * Redistribution and use in source and binary forms, with or without
 1.1     scw  * modification, are permitted provided that the following conditions
 1.1     scw  * are met:
 1.1     scw  * 1. Redistributions of source code must retain the above copyright
 1.1     scw  *    notice, this list of conditions and the following disclaimer.
 1.1     scw  * 2. Redistributions in binary form must reproduce the above copyright
 1.1     scw  *    notice, this list of conditions and the following disclaimer in the
 1.1     scw  *    documentation and/or other materials provided with the distribution.
 1.1     scw  *
 1.1     scw  * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
 1.1     scw  * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
 1.1     scw  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
 1.1     scw  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
 1.1     scw  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
 1.1     scw  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
 1.1     scw  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
 1.1     scw  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
 1.1     scw  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
 1.1     scw  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
 1.1     scw  * POSSIBILITY OF SUCH DAMAGE.
 1.1     scw  */
 1.4   lukem
 1.4   lukem #include <sys/cdefs.h>
1.15     dsl __KERNEL_RCSID(0, "$NetBSD: mvmebus.c,v 1.15 2009/03/14 15:36:19 dsl Exp $");
 1.1     scw
 1.1     scw #include <sys/param.h>
 1.1     scw #include <sys/kernel.h>
 1.1     scw #include <sys/systm.h>
 1.1     scw #include <sys/device.h>
 1.1     scw #include <sys/malloc.h>
 1.1     scw #include <sys/kcore.h>
 1.1     scw
1.12      ad #include <sys/cpu.h>
1.12      ad #include <sys/bus.h>
 1.1     scw
 1.1     scw #include <dev/vme/vmereg.h>
 1.1     scw #include <dev/vme/vmevar.h>
 1.1     scw
 1.1     scw #include <dev/mvme/mvmebus.h>
 1.1     scw
 1.1     scw #ifdef DIAGNOSTIC
 1.1     scw int	mvmebus_dummy_dmamap_create(bus_dma_tag_t, bus_size_t, int, bus_size_t,
 1.1     scw 	    bus_size_t, int, bus_dmamap_t *);
 1.1     scw void	mvmebus_dummy_dmamap_destroy(bus_dma_tag_t, bus_dmamap_t);
 1.1     scw int	mvmebus_dummy_dmamem_alloc(bus_dma_tag_t, bus_size_t, bus_size_t,
 1.1     scw 	    bus_size_t, bus_dma_segment_t *, int, int *, int);
 1.1     scw void	mvmebus_dummy_dmamem_free(bus_dma_tag_t, bus_dma_segment_t *, int);
 1.1     scw #endif
 1.1     scw
 1.1     scw #ifdef DEBUG
 1.1     scw static const char *mvmebus_mod_string(vme_addr_t, vme_size_t,
 1.1     scw 	    vme_am_t, vme_datasize_t);
 1.1     scw #endif
 1.1     scw
 1.1     scw static void mvmebus_offboard_ram(struct mvmebus_softc *);
 1.1     scw static int mvmebus_dmamap_load_common(struct mvmebus_softc *, bus_dmamap_t);
 1.1     scw
 1.1     scw vme_am_t	_mvmebus_am_cap[] = {
 1.1     scw 	MVMEBUS_AM_CAP_BLKD64 | MVMEBUS_AM_CAP_USER,
 1.1     scw 	MVMEBUS_AM_CAP_DATA   | MVMEBUS_AM_CAP_USER,
 1.1     scw 	MVMEBUS_AM_CAP_PROG   | MVMEBUS_AM_CAP_USER,
 1.1     scw 	MVMEBUS_AM_CAP_BLK    | MVMEBUS_AM_CAP_USER,
 1.1     scw 	MVMEBUS_AM_CAP_BLKD64 | MVMEBUS_AM_CAP_SUPER,
 1.1     scw 	MVMEBUS_AM_CAP_DATA   | MVMEBUS_AM_CAP_SUPER,
 1.1     scw 	MVMEBUS_AM_CAP_PROG   | MVMEBUS_AM_CAP_SUPER,
 1.1     scw 	MVMEBUS_AM_CAP_BLK    | MVMEBUS_AM_CAP_SUPER
 1.1     scw };
 1.1     scw
 1.1     scw const char *mvmebus_irq_name[] = {
 1.1     scw 	"vmeirq0", "vmeirq1", "vmeirq2", "vmeirq3",
 1.1     scw 	"vmeirq4", "vmeirq5", "vmeirq6", "vmeirq7"
 1.1     scw };
 1.1     scw
 1.1     scw extern phys_ram_seg_t mem_clusters[0];
 1.1     scw extern int mem_cluster_cnt;
 1.1     scw
 1.1     scw
 1.1     scw static void
1.15     dsl mvmebus_offboard_ram(struct mvmebus_softc *sc)
 1.1     scw {
 1.1     scw 	struct mvmebus_range *svr, *mvr;
 1.1     scw 	vme_addr_t start, end, size;
 1.1     scw 	int i;
 1.1     scw
 1.1     scw 	/*
 1.1     scw 	 * If we have any offboard RAM (i.e. a VMEbus RAM board) then
 1.1     scw 	 * we need to record its details since it's effectively another
 1.1     scw 	 * VMEbus slave image as far as we're concerned.
 1.1     scw 	 * The chip-specific backend will have reserved sc->sc_slaves[0]
 1.1     scw 	 * for exactly this purpose.
 1.1     scw 	 */
 1.1     scw 	svr = sc->sc_slaves;
 1.1     scw 	if (mem_cluster_cnt < 2) {
 1.1     scw 		svr->vr_am = MVMEBUS_AM_DISABLED;
 1.1     scw 		return;
 1.1     scw 	}
 1.1     scw
 1.1     scw 	start = mem_clusters[1].start;
 1.1     scw 	size = mem_clusters[1].size - 1;
 1.1     scw 	end = start + size;
 1.1     scw
 1.1     scw 	/*
 1.1     scw 	 * Figure out which VMEbus master image the RAM is
 1.1     scw 	 * visible through. This will tell us the address
 1.1     scw 	 * modifier and datasizes it uses, as well as allowing
 1.1     scw 	 * us to calculate its `real' VMEbus address.
 1.1     scw 	 *
 1.1     scw 	 * XXX FIXME: This is broken if the RAM is mapped through
 1.1     scw 	 * a translated address space. For example, on mvme167 it's
 1.1     scw 	 * perfectly legal to set up the following A32 mapping:
 1.1     scw 	 *
 1.1     scw 	 *  vr_locaddr  == 0x80000000
 1.1     scw 	 *  vr_vmestart == 0x10000000
 1.1     scw 	 *  vr_vmeend   == 0x10ffffff
 1.1     scw 	 *
 1.1     scw 	 * In this case, RAM at VMEbus address 0x10800000 will appear at local
 1.1     scw 	 * address 0x80800000, but we need to set the slave vr_vmestart to
 1.1     scw 	 * 0x10800000.
 1.1     scw 	 */
 1.1     scw 	for (i = 0, mvr = sc->sc_masters; i < sc->sc_nmasters; i++, mvr++) {
 1.1     scw 		vme_addr_t vstart = mvr->vr_locstart + mvr->vr_vmestart;
 1.1     scw
 1.1     scw 		if (start >= vstart &&
 1.1     scw 		    end <= vstart + (mvr->vr_vmeend - mvr->vr_vmestart))
 1.1     scw 			break;
 1.1     scw 	}
 1.1     scw 	if (i == sc->sc_nmasters) {
 1.1     scw 		svr->vr_am = MVMEBUS_AM_DISABLED;
 1.1     scw #ifdef DEBUG
 1.1     scw 		printf("%s: No VMEbus master mapping for offboard RAM!\n",
1.13  cegger 		    device_xname(&sc->sc_dev));
 1.1     scw #endif
 1.1     scw 		return;
 1.1     scw 	}
 1.1     scw
 1.1     scw 	svr->vr_locstart = start;
 1.1     scw 	svr->vr_vmestart = start & mvr->vr_mask;
 1.1     scw 	svr->vr_vmeend = svr->vr_vmestart + size;
 1.1     scw 	svr->vr_datasize = mvr->vr_datasize;
 1.1     scw 	svr->vr_mask = mvr->vr_mask;
 1.1     scw 	svr->vr_am = mvr->vr_am & VME_AM_ADRSIZEMASK;
 1.1     scw 	svr->vr_am |= MVMEBUS_AM_CAP_DATA  | MVMEBUS_AM_CAP_PROG |
 1.1     scw 		      MVMEBUS_AM_CAP_SUPER | MVMEBUS_AM_CAP_USER;
 1.1     scw }
 1.1     scw
 1.1     scw void
1.15     dsl mvmebus_attach(struct mvmebus_softc *sc)
 1.1     scw {
 1.1     scw 	struct vmebus_attach_args vaa;
 1.1     scw 	int i;
 1.1     scw
 1.1     scw 	/* Zap the IRQ reference counts */
 1.1     scw 	for (i = 0; i < 8; i++)
 1.1     scw 		sc->sc_irqref[i] = 0;
 1.1     scw
 1.1     scw 	/* If there's offboard RAM, get its VMEbus slave attributes */
 1.1     scw 	mvmebus_offboard_ram(sc);
 1.1     scw
 1.1     scw #ifdef DEBUG
 1.1     scw 	for (i = 0; i < sc->sc_nmasters; i++) {
 1.1     scw 		struct mvmebus_range *vr = &sc->sc_masters[i];
 1.1     scw 		if (vr->vr_am == MVMEBUS_AM_DISABLED) {
 1.1     scw 			printf("%s: Master#%d: disabled\n",
1.13  cegger 			    device_xname(&sc->sc_dev), i);
 1.1     scw 			continue;
 1.1     scw 		}
 1.1     scw 		printf("%s: Master#%d: 0x%08lx -> %s\n",
1.13  cegger 		    device_xname(&sc->sc_dev), i,
 1.1     scw 		    vr->vr_locstart + (vr->vr_vmestart & vr->vr_mask),
 1.1     scw 		    mvmebus_mod_string(vr->vr_vmestart,
 1.1     scw 			(vr->vr_vmeend - vr->vr_vmestart) + 1,
 1.1     scw 			vr->vr_am, vr->vr_datasize));
 1.1     scw 	}
 1.1     scw
 1.1     scw 	for (i = 0; i < sc->sc_nslaves; i++) {
 1.1     scw 		struct mvmebus_range *vr = &sc->sc_slaves[i];
 1.1     scw 		if (vr->vr_am == MVMEBUS_AM_DISABLED) {
 1.1     scw 			printf("%s:  Slave#%d: disabled\n",
1.13  cegger 			    device_xname(&sc->sc_dev), i);
 1.1     scw 			continue;
 1.1     scw 		}
 1.1     scw 		printf("%s:  Slave#%d: 0x%08lx -> %s\n",
1.13  cegger 		    device_xname(&sc->sc_dev), i, vr->vr_locstart,
 1.1     scw 		    mvmebus_mod_string(vr->vr_vmestart,
 1.1     scw 			(vr->vr_vmeend - vr->vr_vmestart) + 1,
 1.1     scw 			vr->vr_am, vr->vr_datasize));
 1.1     scw 	}
 1.1     scw #endif
 1.1     scw
 1.1     scw 	sc->sc_vct.cookie = sc;
 1.1     scw 	sc->sc_vct.vct_probe = mvmebus_probe;
 1.1     scw 	sc->sc_vct.vct_map = mvmebus_map;
 1.1     scw 	sc->sc_vct.vct_unmap = mvmebus_unmap;
 1.1     scw 	sc->sc_vct.vct_int_map = mvmebus_intmap;
 1.1     scw 	sc->sc_vct.vct_int_evcnt = mvmebus_intr_evcnt;
 1.1     scw 	sc->sc_vct.vct_int_establish = mvmebus_intr_establish;
 1.1     scw 	sc->sc_vct.vct_int_disestablish = mvmebus_intr_disestablish;
 1.1     scw 	sc->sc_vct.vct_dmamap_create = mvmebus_dmamap_create;
 1.1     scw 	sc->sc_vct.vct_dmamap_destroy = mvmebus_dmamap_destroy;
 1.1     scw 	sc->sc_vct.vct_dmamem_alloc = mvmebus_dmamem_alloc;
 1.1     scw 	sc->sc_vct.vct_dmamem_free = mvmebus_dmamem_free;
 1.1     scw
 1.1     scw 	sc->sc_mvmedmat._cookie = sc;
 1.1     scw 	sc->sc_mvmedmat._dmamap_load = mvmebus_dmamap_load;
 1.1     scw 	sc->sc_mvmedmat._dmamap_load_mbuf = mvmebus_dmamap_load_mbuf;
 1.1     scw 	sc->sc_mvmedmat._dmamap_load_uio = mvmebus_dmamap_load_uio;
 1.1     scw 	sc->sc_mvmedmat._dmamap_load_raw = mvmebus_dmamap_load_raw;
 1.1     scw 	sc->sc_mvmedmat._dmamap_unload = mvmebus_dmamap_unload;
 1.1     scw 	sc->sc_mvmedmat._dmamap_sync = mvmebus_dmamap_sync;
 1.1     scw 	sc->sc_mvmedmat._dmamem_map = mvmebus_dmamem_map;
 1.1     scw 	sc->sc_mvmedmat._dmamem_unmap = mvmebus_dmamem_unmap;
 1.1     scw 	sc->sc_mvmedmat._dmamem_mmap = mvmebus_dmamem_mmap;
 1.1     scw
 1.1     scw #ifdef DIAGNOSTIC
 1.1     scw 	sc->sc_mvmedmat._dmamap_create = mvmebus_dummy_dmamap_create;
 1.1     scw 	sc->sc_mvmedmat._dmamap_destroy = mvmebus_dummy_dmamap_destroy;
 1.1     scw 	sc->sc_mvmedmat._dmamem_alloc = mvmebus_dummy_dmamem_alloc;
 1.1     scw 	sc->sc_mvmedmat._dmamem_free = mvmebus_dummy_dmamem_free;
 1.1     scw #else
 1.1     scw 	sc->sc_mvmedmat._dmamap_create = NULL;
 1.1     scw 	sc->sc_mvmedmat._dmamap_destroy = NULL;
 1.1     scw 	sc->sc_mvmedmat._dmamem_alloc = NULL;
 1.1     scw 	sc->sc_mvmedmat._dmamem_free = NULL;
 1.1     scw #endif
 1.1     scw
 1.1     scw 	vaa.va_vct = &sc->sc_vct;
 1.1     scw 	vaa.va_bdt = &sc->sc_mvmedmat;
 1.1     scw 	vaa.va_slaveconfig = NULL;
 1.1     scw
 1.1     scw 	config_found(&sc->sc_dev, &vaa, 0);
 1.1     scw }
 1.1     scw
 1.1     scw int
1.15     dsl mvmebus_map(void *vsc, vme_addr_t vmeaddr, vme_size_t len, vme_am_t am, vme_datasize_t datasize, vme_swap_t swap, bus_space_tag_t *tag, bus_space_handle_t *handle, vme_mapresc_t *resc)
 1.1     scw {
 1.1     scw 	struct mvmebus_softc *sc;
 1.1     scw 	struct mvmebus_mapresc *mr;
 1.1     scw 	struct mvmebus_range *vr;
 1.1     scw 	vme_addr_t end;
 1.1     scw 	vme_am_t cap, as;
 1.1     scw 	paddr_t paddr;
 1.1     scw 	int rv, i;
 1.1     scw
 1.1     scw 	sc = vsc;
 1.1     scw 	end = (vmeaddr + len) - 1;
 1.1     scw 	paddr = 0;
 1.1     scw 	vr = sc->sc_masters;
 1.1     scw 	cap = MVMEBUS_AM2CAP(am);
 1.1     scw 	as = am & VME_AM_ADRSIZEMASK;
 1.1     scw
 1.1     scw 	for (i = 0; i < sc->sc_nmasters && paddr == 0; i++, vr++) {
 1.1     scw 		if (vr->vr_am == MVMEBUS_AM_DISABLED)
 1.1     scw 			continue;
 1.1     scw
 1.1     scw 		if (cap == (vr->vr_am & cap) &&
 1.1     scw 		    as == (vr->vr_am & VME_AM_ADRSIZEMASK) &&
 1.1     scw 		    datasize <= vr->vr_datasize &&
 1.1     scw 		    vmeaddr >= vr->vr_vmestart && end < vr->vr_vmeend)
 1.1     scw 			paddr = vr->vr_locstart + (vmeaddr & vr->vr_mask);
 1.1     scw 	}
 1.1     scw 	if (paddr == 0)
 1.1     scw 		return (ENOMEM);
 1.1     scw
 1.1     scw 	rv = bus_space_map(sc->sc_bust, paddr, len, 0, handle);
 1.1     scw 	if (rv != 0)
 1.1     scw 		return (rv);
 1.1     scw
 1.1     scw 	/* Allocate space for the resource tag */
 1.1     scw 	if ((mr = malloc(sizeof(*mr), M_DEVBUF, M_NOWAIT)) == NULL) {
 1.1     scw 		bus_space_unmap(sc->sc_bust, *handle, len);
 1.1     scw 		return (ENOMEM);
 1.1     scw 	}
 1.1     scw
 1.1     scw 	/* Record the range's details */
 1.1     scw 	mr->mr_am = am;
 1.1     scw 	mr->mr_datasize = datasize;
 1.1     scw 	mr->mr_addr = vmeaddr;
 1.1     scw 	mr->mr_size = len;
 1.1     scw 	mr->mr_handle = *handle;
 1.1     scw 	mr->mr_range = i;
 1.1     scw
 1.1     scw 	*tag = sc->sc_bust;
 1.1     scw 	*resc = (vme_mapresc_t *) mr;
 1.1     scw
 1.1     scw 	return (0);
 1.1     scw }
 1.1     scw
 1.1     scw /* ARGSUSED */
 1.1     scw void
1.15     dsl mvmebus_unmap(void *vsc, vme_mapresc_t resc)
 1.1     scw {
 1.1     scw 	struct mvmebus_softc *sc = vsc;
 1.1     scw 	struct mvmebus_mapresc *mr = (struct mvmebus_mapresc *) resc;
 1.1     scw
 1.1     scw 	bus_space_unmap(sc->sc_bust, mr->mr_handle, mr->mr_size);
 1.1     scw
 1.1     scw 	free(mr, M_DEVBUF);
 1.1     scw }
 1.1     scw
 1.1     scw int
 1.1     scw mvmebus_probe(vsc, vmeaddr, len, am, datasize, callback, arg)
 1.1     scw 	void *vsc;
 1.1     scw 	vme_addr_t vmeaddr;
 1.1     scw 	vme_size_t len;
 1.1     scw 	vme_am_t am;
 1.1     scw 	vme_datasize_t datasize;
 1.1     scw 	int (*callback)(void *, bus_space_tag_t, bus_space_handle_t);
 1.1     scw 	void *arg;
 1.1     scw {
 1.1     scw 	bus_space_tag_t tag;
 1.1     scw 	bus_space_handle_t handle;
 1.1     scw 	vme_mapresc_t resc;
 1.1     scw 	vme_size_t offs;
 1.1     scw 	int rv;
 1.1     scw
 1.1     scw 	/* Get a temporary mapping to the VMEbus range */
 1.1     scw 	rv = mvmebus_map(vsc, vmeaddr, len, am, datasize, 0,
 1.1     scw 	    &tag, &handle, &resc);
 1.1     scw 	if (rv)
 1.1     scw 		return (rv);
 1.1     scw
 1.1     scw 	if (callback)
 1.1     scw 		rv = (*callback) (arg, tag, handle);
 1.1     scw 	else
 1.1     scw 		for (offs = 0; offs < len && rv == 0;) {
 1.1     scw 			switch (datasize) {
 1.1     scw 			case VME_D8:
 1.1     scw 				rv = bus_space_peek_1(tag, handle, offs, NULL);
 1.1     scw 				offs += 1;
 1.1     scw 				break;
 1.1     scw
 1.1     scw 			case VME_D16:
 1.1     scw 				rv = bus_space_peek_2(tag, handle, offs, NULL);
 1.1     scw 				offs += 2;
 1.1     scw 				break;
 1.1     scw
 1.1     scw 			case VME_D32:
 1.1     scw 				rv = bus_space_peek_4(tag, handle, offs, NULL);
 1.1     scw 				offs += 4;
 1.1     scw 				break;
 1.1     scw 			}
 1.1     scw 		}
 1.1     scw
 1.1     scw 	mvmebus_unmap(vsc, resc);
 1.1     scw
 1.1     scw 	return (rv);
 1.1     scw }
 1.1     scw
 1.1     scw /* ARGSUSED */
 1.1     scw int
 1.1     scw mvmebus_intmap(vsc, level, vector, handlep)
 1.1     scw 	void *vsc;
 1.1     scw 	int level, vector;
 1.1     scw 	vme_intr_handle_t *handlep;
 1.1     scw {
 1.1     scw
 1.1     scw 	if (level < 1 || level > 7 || vector < 0x80 || vector > 0xff)
 1.1     scw 		return (EINVAL);
 1.1     scw
 1.1     scw 	/* This is rather gross */
 1.1     scw 	*handlep = (void *) (int) ((level << 8) | vector);
 1.1     scw 	return (0);
 1.1     scw }
 1.1     scw
 1.1     scw /* ARGSUSED */
 1.1     scw const struct evcnt *
1.15     dsl mvmebus_intr_evcnt(void *vsc, vme_intr_handle_t handle)
 1.1     scw {
 1.1     scw 	struct mvmebus_softc *sc = vsc;
 1.1     scw
 1.1     scw 	return (&sc->sc_evcnt[(((int) handle) >> 8) - 1]);
 1.1     scw }
 1.1     scw
 1.1     scw void *
 1.1     scw mvmebus_intr_establish(vsc, handle, prior, func, arg)
 1.1     scw 	void *vsc;
 1.1     scw 	vme_intr_handle_t handle;
 1.1     scw 	int prior;
 1.1     scw 	int (*func)(void *);
 1.1     scw 	void *arg;
 1.1     scw {
 1.1     scw 	struct mvmebus_softc *sc;
 1.1     scw 	int level, vector, first;
 1.1     scw
 1.1     scw 	sc = vsc;
 1.1     scw
 1.1     scw 	/* Extract the interrupt's level and vector */
 1.1     scw 	level = ((int) handle) >> 8;
 1.1     scw 	vector = ((int) handle) & 0xff;
 1.1     scw
 1.1     scw #ifdef DIAGNOSTIC
 1.1     scw 	if (vector < 0 || vector > 0xff) {
 1.1     scw 		printf("%s: Illegal vector offset: 0x%x\n",
1.13  cegger 		    device_xname(&sc->sc_dev), vector);
 1.1     scw 		panic("mvmebus_intr_establish");
 1.1     scw 	}
 1.1     scw 	if (level < 1 || level > 7) {
 1.1     scw 		printf("%s: Illegal interrupt level: %d\n",
1.13  cegger 		    device_xname(&sc->sc_dev), level);
 1.1     scw 		panic("mvmebus_intr_establish");
 1.1     scw 	}
 1.1     scw #endif
 1.1     scw
 1.1     scw 	first = (sc->sc_irqref[level]++ == 0);
 1.1     scw
 1.1     scw 	(*sc->sc_intr_establish)(sc->sc_chip, prior, level, vector, first,
 1.1     scw 	    func, arg, &sc->sc_evcnt[level - 1]);
 1.1     scw
 1.1     scw 	return ((void *) handle);
 1.1     scw }
 1.1     scw
 1.1     scw void
1.15     dsl mvmebus_intr_disestablish(void *vsc, vme_intr_handle_t handle)
 1.1     scw {
 1.1     scw 	struct mvmebus_softc *sc;
 1.1     scw 	int level, vector, last;
 1.1     scw
 1.1     scw 	sc = vsc;
 1.1     scw
 1.1     scw 	/* Extract the interrupt's level and vector */
 1.1     scw 	level = ((int) handle) >> 8;
 1.1     scw 	vector = ((int) handle) & 0xff;
 1.1     scw
 1.1     scw #ifdef DIAGNOSTIC
 1.1     scw 	if (vector < 0 || vector > 0xff) {
 1.1     scw 		printf("%s: Illegal vector offset: 0x%x\n",
1.13  cegger 		    device_xname(&sc->sc_dev), vector);
 1.1     scw 		panic("mvmebus_intr_disestablish");
 1.1     scw 	}
 1.1     scw 	if (level < 1 || level > 7) {
 1.1     scw 		printf("%s: Illegal interrupt level: %d\n",
1.13  cegger 		    device_xname(&sc->sc_dev), level);
 1.1     scw 		panic("mvmebus_intr_disestablish");
 1.1     scw 	}
 1.1     scw 	if (sc->sc_irqref[level] == 0) {
 1.1     scw 		printf("%s: VMEirq#%d: Reference count already zero!\n",
1.13  cegger 		    device_xname(&sc->sc_dev), level);
 1.1     scw 		panic("mvmebus_intr_disestablish");
 1.1     scw 	}
 1.1     scw #endif
 1.1     scw
 1.1     scw 	last = (--(sc->sc_irqref[level]) == 0);
 1.1     scw
 1.1     scw 	(*sc->sc_intr_disestablish)(sc->sc_chip, level, vector, last,
 1.1     scw 	    &sc->sc_evcnt[level - 1]);
 1.1     scw }
 1.1     scw
 1.1     scw #ifdef DIAGNOSTIC
 1.1     scw /* ARGSUSED */
 1.1     scw int
1.15     dsl mvmebus_dummy_dmamap_create(bus_dma_tag_t t, bus_size_t size, int nsegs, bus_size_t maxsegsz, bus_size_t boundary, int flags, bus_dmamap_t *dmamp)
 1.1     scw {
 1.1     scw
 1.1     scw 	panic("Must use vme_dmamap_create() in place of bus_dmamap_create()");
 1.1     scw 	return (0);	/* Shutup the compiler */
 1.1     scw }
 1.1     scw
 1.1     scw /* ARGSUSED */
 1.1     scw void
1.15     dsl mvmebus_dummy_dmamap_destroy(bus_dma_tag_t t, bus_dmamap_t map)
 1.1     scw {
 1.1     scw
 1.1     scw 	panic("Must use vme_dmamap_destroy() in place of bus_dmamap_destroy()");
 1.1     scw }
 1.1     scw #endif
 1.1     scw
 1.1     scw /* ARGSUSED */
 1.1     scw int
 1.1     scw mvmebus_dmamap_create(vsc, len, am, datasize, swap, nsegs,
 1.1     scw     segsz, bound, flags, mapp)
 1.1     scw 	void *vsc;
 1.1     scw 	vme_size_t len;
 1.1     scw 	vme_am_t am;
 1.1     scw 	vme_datasize_t datasize;
 1.1     scw 	vme_swap_t swap;
 1.1     scw 	int nsegs;
 1.1     scw 	vme_size_t segsz;
 1.1     scw 	vme_addr_t bound;
 1.1     scw 	int flags;
 1.1     scw 	bus_dmamap_t *mapp;
 1.1     scw {
 1.1     scw 	struct mvmebus_softc *sc = vsc;
 1.1     scw 	struct mvmebus_dmamap *vmap;
 1.1     scw 	struct mvmebus_range *vr;
 1.1     scw 	vme_am_t cap, as;
 1.1     scw 	int i, rv;
 1.1     scw
 1.1     scw 	cap = MVMEBUS_AM2CAP(am);
 1.1     scw 	as = am & VME_AM_ADRSIZEMASK;
 1.1     scw
 1.1     scw 	/*
 1.1     scw 	 * Verify that we even stand a chance of satisfying
 1.1     scw 	 * the VMEbus address space and datasize requested.
 1.1     scw 	 */
 1.1     scw 	for (i = 0, vr = sc->sc_slaves; i < sc->sc_nslaves; i++, vr++) {
 1.1     scw 		if (vr->vr_am == MVMEBUS_AM_DISABLED)
 1.1     scw 			continue;
 1.1     scw
 1.1     scw 		if (as == (vr->vr_am & VME_AM_ADRSIZEMASK) &&
 1.1     scw 		    cap == (vr->vr_am & cap) && datasize <= vr->vr_datasize &&
 1.1     scw 		    len <= (vr->vr_vmeend - vr->vr_vmestart))
 1.1     scw 			break;
 1.1     scw 	}
 1.1     scw
 1.1     scw 	if (i == sc->sc_nslaves)
 1.1     scw 		return (EINVAL);
 1.1     scw
 1.1     scw 	if ((vmap = malloc(sizeof(*vmap), M_DMAMAP,
 1.1     scw 	    (flags & BUS_DMA_NOWAIT) ? M_NOWAIT : M_WAITOK)) == NULL)
 1.1     scw 		return (ENOMEM);
 1.1     scw
 1.1     scw
 1.1     scw 	rv = bus_dmamap_create(sc->sc_dmat, len, nsegs, segsz,
 1.1     scw 	    bound, flags, mapp);
 1.1     scw 	if (rv != 0) {
 1.1     scw 		free(vmap, M_DMAMAP);
 1.1     scw 		return (rv);
 1.1     scw 	}
 1.1     scw
 1.1     scw 	vmap->vm_am = am;
 1.1     scw 	vmap->vm_datasize = datasize;
 1.1     scw 	vmap->vm_swap = swap;
 1.1     scw 	vmap->vm_slave = vr;
 1.1     scw
 1.1     scw 	(*mapp)->_dm_cookie = vmap;
 1.1     scw
 1.1     scw 	return (0);
 1.1     scw }
 1.1     scw
 1.1     scw void
1.15     dsl mvmebus_dmamap_destroy(void *vsc, bus_dmamap_t map)
 1.1     scw {
 1.1     scw 	struct mvmebus_softc *sc = vsc;
 1.1     scw
 1.1     scw 	free(map->_dm_cookie, M_DMAMAP);
 1.1     scw 	bus_dmamap_destroy(sc->sc_dmat, map);
 1.1     scw }
 1.1     scw
 1.1     scw static int
1.15     dsl mvmebus_dmamap_load_common(struct mvmebus_softc *sc, bus_dmamap_t map)
 1.1     scw {
 1.1     scw 	struct mvmebus_dmamap *vmap = map->_dm_cookie;
 1.1     scw 	struct mvmebus_range *vr = vmap->vm_slave;
 1.1     scw 	bus_dma_segment_t *ds;
 1.1     scw 	vme_am_t cap, am;
 1.1     scw 	int i;
 1.1     scw
 1.1     scw 	cap = MVMEBUS_AM2CAP(vmap->vm_am);
 1.1     scw 	am = vmap->vm_am & VME_AM_ADRSIZEMASK;
 1.1     scw
 1.1     scw 	/*
 1.1     scw 	 * Traverse the list of segments which make up this map, and
 1.7     wiz 	 * convert the CPU-relative addresses therein to VMEbus addresses.
 1.1     scw 	 */
 1.1     scw 	for (ds = &map->dm_segs[0]; ds < &map->dm_segs[map->dm_nsegs]; ds++) {
 1.1     scw 		/*
 1.1     scw 		 * First, see if this map's slave image can access the
 1.1     scw 		 * segment, otherwise we have to waste time scanning all
 1.1     scw 		 * the slave images.
 1.1     scw 		 */
 1.1     scw 		vr = vmap->vm_slave;
 1.1     scw 		if (am == (vr->vr_am & VME_AM_ADRSIZEMASK) &&
 1.1     scw 		    cap == (vr->vr_am & cap) &&
 1.1     scw 		    vmap->vm_datasize <= vr->vr_datasize &&
 1.1     scw 		    ds->_ds_cpuaddr >= vr->vr_locstart &&
 1.1     scw 		    ds->ds_len <= (vr->vr_vmeend - vr->vr_vmestart))
 1.1     scw 			goto found;
 1.1     scw
 1.1     scw 		for (i = 0, vr = sc->sc_slaves; i < sc->sc_nslaves; i++, vr++) {
 1.1     scw 			if (vr->vr_am == MVMEBUS_AM_DISABLED)
 1.1     scw 				continue;
 1.1     scw
 1.1     scw 			/*
 1.1     scw 			 * Filter out any slave images which don't have the
 1.1     scw 			 * same VMEbus address modifier and datasize as
 1.1     scw 			 * this DMA map, and those which don't cover the
 1.1     scw 			 * physical address region containing the segment.
 1.1     scw 			 */
 1.1     scw 			if (vr != vmap->vm_slave &&
 1.1     scw 			    am == (vr->vr_am & VME_AM_ADRSIZEMASK) &&
 1.1     scw 			    cap == (vr->vr_am & cap) &&
 1.1     scw 			    vmap->vm_datasize <= vr->vr_datasize &&
 1.1     scw 			    ds->_ds_cpuaddr >= vr->vr_locstart &&
 1.1     scw 			    ds->ds_len <= (vr->vr_vmeend - vr->vr_vmestart))
 1.1     scw 				break;
 1.1     scw 		}
 1.1     scw
 1.1     scw 		/*
 1.1     scw 		 * Did we find an applicable slave image which covers this
 1.1     scw 		 * segment?
 1.1     scw 		 */
 1.1     scw 		if (i == sc->sc_nslaves) {
 1.1     scw 			/*
 1.1     scw 			 * XXX TODO:
 1.1     scw 			 *
 1.1     scw 			 * Bounce this segment via a bounce buffer allocated
 1.1     scw 			 * from this DMA map.
 1.1     scw 			 */
 1.1     scw 			printf("mvmebus_dmamap_load_common: bounce needed!\n");
 1.1     scw 			return (EINVAL);
 1.1     scw 		}
 1.1     scw
 1.1     scw found:
 1.1     scw 		/*
 1.1     scw 		 * Generate the VMEbus address of this segment
 1.1     scw 		 */
 1.1     scw 		ds->ds_addr = (ds->_ds_cpuaddr - vr->vr_locstart) +
 1.1     scw 		    vr->vr_vmestart;
 1.1     scw 	}
 1.1     scw
 1.1     scw 	return (0);
 1.1     scw }
 1.1     scw
 1.1     scw int
1.15     dsl mvmebus_dmamap_load(bus_dma_tag_t t, bus_dmamap_t map, void *buf, bus_size_t buflen, struct proc *p, int flags)
 1.1     scw {
 1.1     scw 	struct mvmebus_softc *sc = t->_cookie;
 1.1     scw 	int rv;
 1.1     scw
 1.1     scw 	rv = bus_dmamap_load(sc->sc_dmat, map, buf, buflen, p, flags);
 1.1     scw 	if (rv != 0)
 1.1     scw 		return rv;
 1.1     scw
 1.1     scw 	return mvmebus_dmamap_load_common(sc, map);
 1.1     scw }
 1.1     scw
 1.1     scw int
1.15     dsl mvmebus_dmamap_load_mbuf(bus_dma_tag_t t, bus_dmamap_t map, struct mbuf *chain, int flags)
 1.1     scw {
 1.1     scw 	struct mvmebus_softc *sc = t->_cookie;
 1.1     scw 	int rv;
 1.1     scw
 1.1     scw 	rv = bus_dmamap_load_mbuf(sc->sc_dmat, map, chain, flags);
 1.1     scw 	if (rv != 0)
 1.1     scw 		return rv;
 1.1     scw
 1.1     scw 	return mvmebus_dmamap_load_common(sc, map);
 1.1     scw }
 1.1     scw
 1.1     scw int
1.15     dsl mvmebus_dmamap_load_uio(bus_dma_tag_t t, bus_dmamap_t map, struct uio *uio, int flags)
 1.1     scw {
 1.1     scw 	struct mvmebus_softc *sc = t->_cookie;
 1.1     scw 	int rv;
 1.1     scw
 1.1     scw 	rv = bus_dmamap_load_uio(sc->sc_dmat, map, uio, flags);
 1.1     scw 	if (rv != 0)
 1.1     scw 		return rv;
 1.1     scw
 1.1     scw 	return mvmebus_dmamap_load_common(sc, map);
 1.1     scw }
 1.1     scw
 1.1     scw int
1.15     dsl mvmebus_dmamap_load_raw(bus_dma_tag_t t, bus_dmamap_t map, bus_dma_segment_t *segs, int nsegs, bus_size_t size, int flags)
 1.1     scw {
 1.1     scw 	struct mvmebus_softc *sc = t->_cookie;
 1.1     scw 	int rv;
 1.1     scw
 1.1     scw 	/*
 1.1     scw 	 * mvmebus_dmamem_alloc() will ensure that the physical memory
 1.1     scw 	 * backing these segments is 100% accessible in at least one
 1.1     scw 	 * of the board's VMEbus slave images.
 1.1     scw 	 */
 1.1     scw 	rv = bus_dmamap_load_raw(sc->sc_dmat, map, segs, nsegs, size, flags);
 1.1     scw 	if (rv != 0)
 1.1     scw 		return rv;
 1.1     scw
 1.1     scw 	return mvmebus_dmamap_load_common(sc, map);
 1.1     scw }
 1.1     scw
 1.1     scw void
1.15     dsl mvmebus_dmamap_unload(bus_dma_tag_t t, bus_dmamap_t map)
 1.1     scw {
 1.1     scw 	struct mvmebus_softc *sc = t->_cookie;
 1.1     scw
 1.1     scw 	/* XXX Deal with bounce buffers */
 1.1     scw
 1.1     scw 	bus_dmamap_unload(sc->sc_dmat, map);
 1.1     scw }
 1.1     scw
 1.1     scw void
1.15     dsl mvmebus_dmamap_sync(bus_dma_tag_t t, bus_dmamap_t map, bus_addr_t offset, bus_size_t len, int ops)
 1.1     scw {
 1.1     scw 	struct mvmebus_softc *sc = t->_cookie;
 1.1     scw
 1.1     scw 	/* XXX Bounce buffers */
 1.1     scw
 1.1     scw 	bus_dmamap_sync(sc->sc_dmat, map, offset, len, ops);
 1.1     scw }
 1.1     scw
 1.1     scw #ifdef DIAGNOSTIC
 1.1     scw /* ARGSUSED */
 1.1     scw int
1.15     dsl mvmebus_dummy_dmamem_alloc(bus_dma_tag_t t, bus_size_t size, bus_size_t align, bus_size_t boundary, bus_dma_segment_t *segs, int nsegs, int *rsegs, int flags)
 1.1     scw {
 1.1     scw
 1.2  provos 	panic("Must use vme_dmamem_alloc() in place of bus_dmamem_alloc()");
 1.1     scw }
 1.1     scw
 1.1     scw /* ARGSUSED */
 1.1     scw void
1.15     dsl mvmebus_dummy_dmamem_free(bus_dma_tag_t t, bus_dma_segment_t *segs, int nsegs)
 1.1     scw {
 1.1     scw
 1.1     scw 	panic("Must use vme_dmamem_free() in place of bus_dmamem_free()");
 1.1     scw }
 1.1     scw #endif
 1.1     scw
 1.1     scw /* ARGSUSED */
 1.1     scw int
1.15     dsl mvmebus_dmamem_alloc(void *vsc, vme_size_t len, vme_am_t am, vme_datasize_t datasize, vme_swap_t swap, bus_dma_segment_t *segs, int nsegs, int *rsegs, int flags)
 1.1     scw {
 1.1     scw 	extern paddr_t avail_start;
 1.1     scw 	struct mvmebus_softc *sc = vsc;
 1.1     scw 	struct mvmebus_range *vr;
 1.1     scw 	bus_addr_t low, high;
 1.1     scw 	bus_size_t bound;
 1.1     scw 	vme_am_t cap;
 1.1     scw 	int i;
 1.1     scw
 1.1     scw 	cap = MVMEBUS_AM2CAP(am);
 1.1     scw 	am &= VME_AM_ADRSIZEMASK;
 1.1     scw
 1.1     scw 	/*
 1.1     scw 	 * Find a slave mapping in the requested VMEbus address space.
 1.1     scw 	 */
 1.1     scw 	for (i = 0, vr = sc->sc_slaves; i < sc->sc_nslaves; i++, vr++) {
 1.1     scw 		if (vr->vr_am == MVMEBUS_AM_DISABLED)
 1.1     scw 			continue;
 1.1     scw
 1.1     scw 		if (i == 0 && (flags & BUS_DMA_ONBOARD_RAM) != 0)
 1.1     scw 			continue;
 1.1     scw
 1.1     scw 		if (am == (vr->vr_am & VME_AM_ADRSIZEMASK) &&
 1.1     scw 		    cap == (vr->vr_am & cap) && datasize <= vr->vr_datasize &&
 1.1     scw 		    len <= (vr->vr_vmeend - vr->vr_vmestart))
 1.1     scw 			break;
 1.1     scw 	}
 1.1     scw 	if (i == sc->sc_nslaves)
 1.1     scw 		return (EINVAL);
 1.1     scw
 1.1     scw 	/*
 1.1     scw 	 * Set up the constraints so we can allocate physical memory which
 1.1     scw 	 * is visible in the requested address space
 1.1     scw 	 */
 1.1     scw 	low = max(vr->vr_locstart, avail_start);
 1.1     scw 	high = vr->vr_locstart + (vr->vr_vmeend - vr->vr_vmestart) + 1;
 1.1     scw 	bound = (bus_size_t) vr->vr_mask + 1;
 1.1     scw
 1.1     scw 	/*
 1.1     scw 	 * Allocate physical memory.
 1.1     scw 	 *
 1.7     wiz 	 * Note: This fills in the segments with CPU-relative physical
 1.1     scw 	 * addresses. A further call to bus_dmamap_load_raw() (with a
 1.3     wiz 	 * DMA map which specifies the same VMEbus address space and
 1.1     scw 	 * constraints as the call to here) must be made. The segments
 1.3     wiz 	 * of the DMA map will then contain VMEbus-relative physical
 1.1     scw 	 * addresses of the memory allocated here.
 1.1     scw 	 */
 1.1     scw 	return _bus_dmamem_alloc_common(sc->sc_dmat, low, high,
 1.1     scw 	    len, 0, bound, segs, nsegs, rsegs, flags);
 1.1     scw }
 1.1     scw
 1.1     scw void
1.15     dsl mvmebus_dmamem_free(void *vsc, bus_dma_segment_t *segs, int nsegs)
 1.1     scw {
 1.1     scw 	struct mvmebus_softc *sc = vsc;
 1.1     scw
 1.1     scw 	bus_dmamem_free(sc->sc_dmat, segs, nsegs);
 1.1     scw }
 1.1     scw
 1.1     scw int
1.15     dsl mvmebus_dmamem_map(bus_dma_tag_t t, bus_dma_segment_t *segs, int nsegs, size_t size, void **kvap, int flags)
 1.1     scw {
 1.1     scw 	struct mvmebus_softc *sc = t->_cookie;
 1.1     scw
 1.1     scw 	return bus_dmamem_map(sc->sc_dmat, segs, nsegs, size, kvap, flags);
 1.1     scw }
 1.1     scw
 1.1     scw void
1.15     dsl mvmebus_dmamem_unmap(bus_dma_tag_t t, void *kva, size_t size)
 1.1     scw {
 1.1     scw 	struct mvmebus_softc *sc = t->_cookie;
 1.1     scw
 1.1     scw 	bus_dmamem_unmap(sc->sc_dmat, kva, size);
 1.1     scw }
 1.1     scw
 1.1     scw paddr_t
1.15     dsl mvmebus_dmamem_mmap(bus_dma_tag_t t, bus_dma_segment_t *segs, int nsegs, off_t offset, int prot, int flags)
 1.1     scw {
 1.1     scw 	struct mvmebus_softc *sc = t->_cookie;
 1.1     scw
 1.1     scw 	return bus_dmamem_mmap(sc->sc_dmat, segs, nsegs, offset, prot, flags);
 1.1     scw }
 1.1     scw
 1.1     scw #ifdef DEBUG
 1.1     scw static const char *
1.15     dsl mvmebus_mod_string(vme_addr_t addr, vme_size_t len, vme_am_t am, vme_datasize_t ds)
 1.1     scw {
 1.1     scw 	static const char *mode[] = {"BLT64)", "DATA)", "PROG)", "BLT32)"};
 1.1     scw 	static const char *dsiz[] = {"(", "(D8,", "(D16,", "(D16-D8,",
 1.1     scw 	"(D32,", "(D32,D8,", "(D32-D16,", "(D32-D8,"};
 1.6     scw 	static const char *adrfmt[] = { "A32:%08x-%08x ", "USR:%08x-%08x ",
 1.6     scw 	    "A16:%04x-%04x ", "A24:%06x-%06x " };
 1.1     scw 	static char mstring[40];
 1.1     scw
 1.8  itojun 	snprintf(mstring, sizeof(mstring),
 1.5    matt 	    adrfmt[(am & VME_AM_ADRSIZEMASK) >> VME_AM_ADRSIZESHIFT],
 1.5    matt 	    addr, addr + len - 1);
 1.9      he 	strlcat(mstring, dsiz[ds & 0x7], sizeof(mstring));
 1.1     scw
 1.1     scw 	if (MVMEBUS_AM_HAS_CAP(am)) {
 1.1     scw 		if (am & MVMEBUS_AM_CAP_DATA)
 1.8  itojun 			strlcat(mstring, "D", sizeof(mstring));
 1.1     scw 		if (am & MVMEBUS_AM_CAP_PROG)
 1.8  itojun 			strlcat(mstring, "P", sizeof(mstring));
 1.1     scw 		if (am & MVMEBUS_AM_CAP_USER)
 1.8  itojun 			strlcat(mstring, "U", sizeof(mstring));
 1.1     scw 		if (am & MVMEBUS_AM_CAP_SUPER)
 1.8  itojun 			strlcat(mstring, "S", sizeof(mstring));
 1.1     scw 		if (am & MVMEBUS_AM_CAP_BLK)
 1.8  itojun 			strlcat(mstring, "B", sizeof(mstring));
 1.1     scw 		if (am & MVMEBUS_AM_CAP_BLKD64)
 1.8  itojun 			strlcat(mstring, "6", sizeof(mstring));
 1.8  itojun 		strlcat(mstring, ")", sizeof(mstring));
 1.1     scw 	} else {
 1.8  itojun 		strlcat(mstring, ((am & VME_AM_PRIVMASK) == VME_AM_USER) ?
 1.8  itojun 		    "USER," : "SUPER,", sizeof(mstring));
 1.8  itojun 		strlcat(mstring, mode[am & VME_AM_MODEMASK], sizeof(mstring));
 1.1     scw 	}
 1.1     scw
 1.1     scw 	return (mstring);
 1.1     scw }
 1.1     scw #endif