dev/pci/mly.c

1.6.2.3  thorpej /*	$NetBSD: mly.c,v 1.6.2.3 2001/08/25 06:16:24 thorpej Exp $	*/
1.6.2.2    lukem
1.6.2.2    lukem /*-
1.6.2.2    lukem  * Copyright (c) 2001 The NetBSD Foundation, Inc.
1.6.2.2    lukem  * All rights reserved.
1.6.2.2    lukem  *
1.6.2.2    lukem  * This code is derived from software contributed to The NetBSD Foundation
1.6.2.2    lukem  * by Andrew Doran, Thor Lancelot Simon, and Eric Haszlakiewicz.
1.6.2.2    lukem  *
1.6.2.2    lukem  * Redistribution and use in source and binary forms, with or without
1.6.2.2    lukem  * modification, are permitted provided that the following conditions
1.6.2.2    lukem  * are met:
1.6.2.2    lukem  * 1. Redistributions of source code must retain the above copyright
1.6.2.2    lukem  *    notice, this list of conditions and the following disclaimer.
1.6.2.2    lukem  * 2. Redistributions in binary form must reproduce the above copyright
1.6.2.2    lukem  *    notice, this list of conditions and the following disclaimer in the
1.6.2.2    lukem  *    documentation and/or other materials provided with the distribution.
1.6.2.2    lukem  * 3. All advertising materials mentioning features or use of this software
1.6.2.2    lukem  *    must display the following acknowledgement:
1.6.2.2    lukem  *        This product includes software developed by the NetBSD
1.6.2.2    lukem  *        Foundation, Inc. and its contributors.
1.6.2.2    lukem  * 4. Neither the name of The NetBSD Foundation nor the names of its
1.6.2.2    lukem  *    contributors may be used to endorse or promote products derived
1.6.2.2    lukem  *    from this software without specific prior written permission.
1.6.2.2    lukem  *
1.6.2.2    lukem  * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
1.6.2.2    lukem  * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
1.6.2.2    lukem  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
1.6.2.2    lukem  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
1.6.2.2    lukem  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
1.6.2.2    lukem  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
1.6.2.2    lukem  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
1.6.2.2    lukem  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
1.6.2.2    lukem  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
1.6.2.2    lukem  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
1.6.2.2    lukem  * POSSIBILITY OF SUCH DAMAGE.
1.6.2.2    lukem  */
1.6.2.2    lukem
1.6.2.2    lukem /*-
1.6.2.2    lukem  * Copyright (c) 2000, 2001 Michael Smith
1.6.2.2    lukem  * Copyright (c) 2000 BSDi
1.6.2.2    lukem  * All rights reserved.
1.6.2.2    lukem  *
1.6.2.2    lukem  * Redistribution and use in source and binary forms, with or without
1.6.2.2    lukem  * modification, are permitted provided that the following conditions
1.6.2.2    lukem  * are met:
1.6.2.2    lukem  * 1. Redistributions of source code must retain the above copyright
1.6.2.2    lukem  *    notice, this list of conditions and the following disclaimer.
1.6.2.2    lukem  * 2. Redistributions in binary form must reproduce the above copyright
1.6.2.2    lukem  *    notice, this list of conditions and the following disclaimer in the
1.6.2.2    lukem  *    documentation and/or other materials provided with the distribution.
1.6.2.2    lukem  *
1.6.2.2    lukem  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
1.6.2.2    lukem  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
1.6.2.2    lukem  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
1.6.2.2    lukem  * ARE DISCLAIMED.  IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
1.6.2.2    lukem  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
1.6.2.2    lukem  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
1.6.2.2    lukem  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
1.6.2.2    lukem  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
1.6.2.2    lukem  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
1.6.2.2    lukem  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
1.6.2.2    lukem  * SUCH DAMAGE.
1.6.2.2    lukem  *
1.6.2.2    lukem  * from FreeBSD: mly.c,v 1.8 2001/07/14 00:12:22 msmith Exp
1.6.2.2    lukem  */
1.6.2.2    lukem
1.6.2.2    lukem /*
1.6.2.2    lukem  * Driver for the Mylex AcceleRAID and eXtremeRAID family with v6 firmware.
1.6.2.2    lukem  *
1.6.2.2    lukem  * TODO:
1.6.2.2    lukem  *
1.6.2.2    lukem  * o Make mly->mly_btl a hash, then MLY_BTL_RESCAN becomes a SIMPLEQ.
1.6.2.2    lukem  * o Handle FC and multiple LUNs.
1.6.2.2    lukem  * o Fix mmbox usage.
1.6.2.2    lukem  * o Fix transfer speed fudge.
1.6.2.2    lukem  */
1.6.2.2    lukem
1.6.2.2    lukem #include <sys/param.h>
1.6.2.2    lukem #include <sys/systm.h>
1.6.2.2    lukem #include <sys/device.h>
1.6.2.2    lukem #include <sys/kernel.h>
1.6.2.2    lukem #include <sys/queue.h>
1.6.2.2    lukem #include <sys/buf.h>
1.6.2.2    lukem #include <sys/endian.h>
1.6.2.2    lukem #include <sys/conf.h>
1.6.2.2    lukem #include <sys/malloc.h>
1.6.2.2    lukem #include <sys/ioctl.h>
1.6.2.2    lukem #include <sys/scsiio.h>
1.6.2.2    lukem #include <sys/kthread.h>
1.6.2.2    lukem
1.6.2.2    lukem #include <uvm/uvm_extern.h>
1.6.2.2    lukem
1.6.2.2    lukem #include <machine/bus.h>
1.6.2.2    lukem
1.6.2.2    lukem #include <dev/scsipi/scsi_all.h>
1.6.2.2    lukem #include <dev/scsipi/scsipi_all.h>
1.6.2.2    lukem #include <dev/scsipi/scsiconf.h>
1.6.2.2    lukem
1.6.2.2    lukem #include <dev/pci/pcireg.h>
1.6.2.2    lukem #include <dev/pci/pcivar.h>
1.6.2.2    lukem #include <dev/pci/pcidevs.h>
1.6.2.2    lukem
1.6.2.2    lukem #include <dev/pci/mlyreg.h>
1.6.2.2    lukem #include <dev/pci/mlyio.h>
1.6.2.2    lukem #include <dev/pci/mlyvar.h>
1.6.2.2    lukem #include <dev/pci/mly_tables.h>
1.6.2.2    lukem
1.6.2.2    lukem static void	mly_attach(struct device *, struct device *, void *);
1.6.2.2    lukem static int	mly_match(struct device *, struct cfdata *, void *);
1.6.2.2    lukem static const	struct mly_ident *mly_find_ident(struct pci_attach_args *);
1.6.2.2    lukem static int	mly_fwhandshake(struct mly_softc *);
1.6.2.2    lukem static int	mly_flush(struct mly_softc *);
1.6.2.2    lukem static int	mly_intr(void *);
1.6.2.2    lukem static void	mly_shutdown(void *);
1.6.2.2    lukem
1.6.2.2    lukem static int	mly_alloc_ccbs(struct mly_softc *);
1.6.2.2    lukem static void	mly_check_event(struct mly_softc *);
1.6.2.2    lukem static void	mly_complete_event(struct mly_softc *, struct mly_ccb *);
1.6.2.2    lukem static void	mly_complete_rescan(struct mly_softc *, struct mly_ccb *);
1.6.2.2    lukem static int	mly_dmamem_alloc(struct mly_softc *, int, bus_dmamap_t *,
1.6.2.2    lukem 				 caddr_t *, bus_addr_t *, bus_dma_segment_t *);
1.6.2.2    lukem static void	mly_dmamem_free(struct mly_softc *, int, bus_dmamap_t,
1.6.2.2    lukem 				caddr_t, bus_dma_segment_t *);
1.6.2.2    lukem static int	mly_enable_mmbox(struct mly_softc *);
1.6.2.2    lukem static void	mly_fetch_event(struct mly_softc *);
1.6.2.2    lukem static int	mly_get_controllerinfo(struct mly_softc *);
1.6.2.2    lukem static int	mly_get_eventstatus(struct mly_softc *);
1.6.2.2    lukem static int	mly_ioctl(struct mly_softc *, struct mly_cmd_ioctl *,
1.6.2.2    lukem 			  void **, size_t, void *, size_t *);
1.6.2.2    lukem static void	mly_padstr(char *, const char *, int);
1.6.2.2    lukem static void	mly_process_event(struct mly_softc *, struct mly_event *);
1.6.2.2    lukem static void	mly_release_ccbs(struct mly_softc *);
1.6.2.2    lukem static int	mly_scan_btl(struct mly_softc *, int, int);
1.6.2.2    lukem static void	mly_scan_channel(struct mly_softc *, int);
1.6.2.2    lukem static void	mly_thread(void *);
1.6.2.2    lukem static void	mly_thread_create(void *);
1.6.2.2    lukem
1.6.2.2    lukem static int	mly_ccb_alloc(struct mly_softc *, struct mly_ccb **);
1.6.2.2    lukem static void	mly_ccb_complete(struct mly_softc *, struct mly_ccb *);
1.6.2.2    lukem static void	mly_ccb_enqueue(struct mly_softc *, struct mly_ccb *);
1.6.2.2    lukem static void	mly_ccb_free(struct mly_softc *, struct mly_ccb *);
1.6.2.2    lukem static int	mly_ccb_map(struct mly_softc *, struct mly_ccb *);
1.6.2.2    lukem static int	mly_ccb_poll(struct mly_softc *, struct mly_ccb *, int);
1.6.2.2    lukem static int	mly_ccb_submit(struct mly_softc *, struct mly_ccb *);
1.6.2.2    lukem static void	mly_ccb_unmap(struct mly_softc *, struct mly_ccb *);
1.6.2.2    lukem static int	mly_ccb_wait(struct mly_softc *, struct mly_ccb *, int);
1.6.2.2    lukem
1.6.2.2    lukem static void	mly_get_xfer_mode(struct mly_softc *, int,
1.6.2.2    lukem 				  struct scsipi_xfer_mode *);
1.6.2.2    lukem static void	mly_scsipi_complete(struct mly_softc *, struct mly_ccb *);
1.6.2.2    lukem static int	mly_scsipi_ioctl(struct scsipi_channel *, u_long, caddr_t,
1.6.2.2    lukem 				 int, struct proc *);
1.6.2.2    lukem static void	mly_scsipi_minphys(struct buf *);
1.6.2.2    lukem static void	mly_scsipi_request(struct scsipi_channel *,
1.6.2.2    lukem 				   scsipi_adapter_req_t, void *);
1.6.2.2    lukem
1.6.2.2    lukem static int	mly_user_command(struct mly_softc *, struct mly_user_command *);
1.6.2.2    lukem static int	mly_user_health(struct mly_softc *, struct mly_user_health *);
1.6.2.2    lukem
1.6.2.2    lukem cdev_decl(mly);
1.6.2.2    lukem
1.6.2.2    lukem extern struct	cfdriver mly_cd;
1.6.2.2    lukem
1.6.2.2    lukem struct cfattach mly_ca = {
1.6.2.2    lukem 	sizeof(struct mly_softc), mly_match, mly_attach
1.6.2.2    lukem };
1.6.2.2    lukem
1.6.2.2    lukem struct mly_ident {
1.6.2.2    lukem 	u_short	vendor;
1.6.2.2    lukem 	u_short	product;
1.6.2.2    lukem 	u_short	subvendor;
1.6.2.2    lukem 	u_short	subproduct;
1.6.2.2    lukem 	int	hwif;
1.6.2.2    lukem 	const char	*desc;
1.6.2.2    lukem } static const mly_ident[] = {
1.6.2.2    lukem 	{
1.6.2.2    lukem 		PCI_VENDOR_MYLEX,
1.6.2.2    lukem 		PCI_PRODUCT_MYLEX_EXTREMERAID,
1.6.2.2    lukem 		PCI_VENDOR_MYLEX,
1.6.2.2    lukem 		0x0040,
1.6.2.2    lukem 		MLY_HWIF_STRONGARM,
1.6.2.2    lukem 		"eXtremeRAID 2000"
1.6.2.2    lukem 	},
1.6.2.2    lukem 	{
1.6.2.2    lukem 		PCI_VENDOR_MYLEX,
1.6.2.2    lukem 		PCI_PRODUCT_MYLEX_EXTREMERAID,
1.6.2.2    lukem 		PCI_VENDOR_MYLEX,
1.6.2.2    lukem 		0x0030,
1.6.2.2    lukem 		MLY_HWIF_STRONGARM,
1.6.2.2    lukem 		"eXtremeRAID 3000"
1.6.2.2    lukem 	},
1.6.2.2    lukem 	{
1.6.2.2    lukem 		PCI_VENDOR_MYLEX,
1.6.2.2    lukem 		PCI_PRODUCT_MYLEX_ACCELERAID,
1.6.2.2    lukem 		PCI_VENDOR_MYLEX,
1.6.2.2    lukem 		0x0050,
1.6.2.2    lukem 		MLY_HWIF_I960RX,
1.6.2.2    lukem 		"AcceleRAID 352"
1.6.2.2    lukem 	},
1.6.2.2    lukem 	{
1.6.2.2    lukem 		PCI_VENDOR_MYLEX,
1.6.2.2    lukem 		PCI_PRODUCT_MYLEX_ACCELERAID,
1.6.2.2    lukem 		PCI_VENDOR_MYLEX,
1.6.2.2    lukem 		0x0052,
1.6.2.2    lukem 		MLY_HWIF_I960RX,
1.6.2.2    lukem 		"AcceleRAID 170"
1.6.2.2    lukem 	},
1.6.2.2    lukem 	{
1.6.2.2    lukem 		PCI_VENDOR_MYLEX,
1.6.2.2    lukem 		PCI_PRODUCT_MYLEX_ACCELERAID,
1.6.2.2    lukem 		PCI_VENDOR_MYLEX,
1.6.2.2    lukem 		0x0054,
1.6.2.2    lukem 		MLY_HWIF_I960RX,
1.6.2.2    lukem 		"AcceleRAID 160"
1.6.2.2    lukem 	},
1.6.2.2    lukem };
1.6.2.2    lukem
1.6.2.2    lukem static void	*mly_sdh;
1.6.2.2    lukem
1.6.2.2    lukem /*
1.6.2.2    lukem  * Try to find a `mly_ident' entry corresponding to this board.
1.6.2.2    lukem  */
1.6.2.2    lukem static const struct mly_ident *
1.6.2.2    lukem mly_find_ident(struct pci_attach_args *pa)
1.6.2.2    lukem {
1.6.2.2    lukem 	const struct mly_ident *mpi, *maxmpi;
1.6.2.2    lukem 	pcireg_t reg;
1.6.2.2    lukem
1.6.2.2    lukem 	mpi = mly_ident;
1.6.2.2    lukem 	maxmpi = mpi + sizeof(mly_ident) / sizeof(mly_ident[0]);
1.6.2.2    lukem
1.6.2.2    lukem 	if (PCI_CLASS(pa->pa_class) == PCI_CLASS_I2O)
1.6.2.2    lukem 		return (NULL);
1.6.2.2    lukem
1.6.2.2    lukem 	for (; mpi < maxmpi; mpi++) {
1.6.2.2    lukem 		if (PCI_VENDOR(pa->pa_id) != mpi->vendor ||
1.6.2.2    lukem 		    PCI_PRODUCT(pa->pa_id) != mpi->product)
1.6.2.2    lukem 			continue;
1.6.2.2    lukem
1.6.2.2    lukem 		if (mpi->subvendor == 0x0000)
1.6.2.2    lukem 			return (mpi);
1.6.2.2    lukem
1.6.2.2    lukem 		reg = pci_conf_read(pa->pa_pc, pa->pa_tag, PCI_SUBSYS_ID_REG);
1.6.2.2    lukem
1.6.2.2    lukem 		if (PCI_VENDOR(reg) == mpi->subvendor &&
1.6.2.2    lukem 		    PCI_PRODUCT(reg) == mpi->subproduct)
1.6.2.2    lukem 			return (mpi);
1.6.2.2    lukem 	}
1.6.2.2    lukem
1.6.2.2    lukem 	return (NULL);
1.6.2.2    lukem }
1.6.2.2    lukem
1.6.2.2    lukem /*
1.6.2.2    lukem  * Match a supported board.
1.6.2.2    lukem  */
1.6.2.2    lukem static int
1.6.2.2    lukem mly_match(struct device *parent, struct cfdata *cfdata, void *aux)
1.6.2.2    lukem {
1.6.2.2    lukem
1.6.2.2    lukem 	return (mly_find_ident(aux) != NULL);
1.6.2.2    lukem }
1.6.2.2    lukem
1.6.2.2    lukem /*
1.6.2.2    lukem  * Attach a supported board.
1.6.2.2    lukem  */
1.6.2.2    lukem static void
1.6.2.2    lukem mly_attach(struct device *parent, struct device *self, void *aux)
1.6.2.2    lukem {
1.6.2.2    lukem 	struct pci_attach_args *pa;
1.6.2.2    lukem 	struct mly_softc *mly;
1.6.2.2    lukem 	struct mly_ioctl_getcontrollerinfo *mi;
1.6.2.2    lukem 	const struct mly_ident *ident;
1.6.2.2    lukem 	pci_chipset_tag_t pc;
1.6.2.2    lukem 	pci_intr_handle_t ih;
1.6.2.2    lukem 	bus_space_handle_t memh, ioh;
1.6.2.2    lukem 	bus_space_tag_t memt, iot;
1.6.2.2    lukem 	pcireg_t reg;
1.6.2.2    lukem 	const char *intrstr;
1.6.2.2    lukem 	int ior, memr, i, rv, state;
1.6.2.2    lukem 	struct scsipi_adapter *adapt;
1.6.2.2    lukem 	struct scsipi_channel *chan;
1.6.2.2    lukem
1.6.2.2    lukem 	mly = (struct mly_softc *)self;
1.6.2.2    lukem 	pa = aux;
1.6.2.2    lukem 	pc = pa->pa_pc;
1.6.2.2    lukem 	ident = mly_find_ident(pa);
1.6.2.2    lukem 	state = 0;
1.6.2.2    lukem
1.6.2.2    lukem 	mly->mly_dmat = pa->pa_dmat;
1.6.2.2    lukem 	mly->mly_hwif = ident->hwif;
1.6.2.2    lukem
1.6.2.2    lukem 	printf(": Mylex %s\n", ident->desc);
1.6.2.2    lukem
1.6.2.2    lukem 	/*
1.6.2.2    lukem 	 * Map the PCI register window.
1.6.2.2    lukem 	 */
1.6.2.2    lukem 	memr = -1;
1.6.2.2    lukem 	ior = -1;
1.6.2.2    lukem
1.6.2.2    lukem 	for (i = 0x10; i <= 0x14; i += 4) {
1.6.2.2    lukem 		reg = pci_conf_read(pa->pa_pc, pa->pa_tag, i);
1.6.2.2    lukem
1.6.2.2    lukem 		if (PCI_MAPREG_TYPE(reg) == PCI_MAPREG_TYPE_IO) {
1.6.2.2    lukem 			if (ior == -1 && PCI_MAPREG_IO_SIZE(reg) != 0)
1.6.2.2    lukem 				ior = i;
1.6.2.2    lukem 		} else {
1.6.2.2    lukem 			if (memr == -1 && PCI_MAPREG_MEM_SIZE(reg) != 0)
1.6.2.2    lukem 				memr = i;
1.6.2.2    lukem 		}
1.6.2.2    lukem 	}
1.6.2.2    lukem
1.6.2.2    lukem 	if (memr != -1)
1.6.2.2    lukem 		if (pci_mapreg_map(pa, memr, PCI_MAPREG_TYPE_MEM, 0,
1.6.2.2    lukem 		    &memt, &memh, NULL, NULL))
1.6.2.2    lukem 			memr = -1;
1.6.2.2    lukem 	if (ior != -1)
1.6.2.2    lukem 		if (pci_mapreg_map(pa, ior, PCI_MAPREG_TYPE_IO, 0,
1.6.2.2    lukem 		    &iot, &ioh, NULL, NULL))
1.6.2.2    lukem 		    	ior = -1;
1.6.2.2    lukem
1.6.2.2    lukem 	if (memr != -1) {
1.6.2.2    lukem 		mly->mly_iot = memt;
1.6.2.2    lukem 		mly->mly_ioh = memh;
1.6.2.2    lukem 	} else if (ior != -1) {
1.6.2.2    lukem 		mly->mly_iot = iot;
1.6.2.2    lukem 		mly->mly_ioh = ioh;
1.6.2.2    lukem 	} else {
1.6.2.2    lukem 		printf("%s: can't map i/o or memory space\n", self->dv_xname);
1.6.2.2    lukem 		return;
1.6.2.2    lukem 	}
1.6.2.2    lukem
1.6.2.2    lukem 	/*
1.6.2.2    lukem 	 * Enable the device.
1.6.2.2    lukem 	 */
1.6.2.2    lukem 	reg = pci_conf_read(pa->pa_pc, pa->pa_tag, PCI_COMMAND_STATUS_REG);
1.6.2.2    lukem 	pci_conf_write(pa->pa_pc, pa->pa_tag, PCI_COMMAND_STATUS_REG,
1.6.2.2    lukem 	    reg | PCI_COMMAND_MASTER_ENABLE);
1.6.2.2    lukem
1.6.2.2    lukem 	/*
1.6.2.2    lukem 	 * Map and establish the interrupt.
1.6.2.2    lukem 	 */
1.6.2.2    lukem 	if (pci_intr_map(pa, &ih)) {
1.6.2.2    lukem 		printf("%s: can't map interrupt\n", self->dv_xname);
1.6.2.2    lukem 		return;
1.6.2.2    lukem 	}
1.6.2.2    lukem 	intrstr = pci_intr_string(pc, ih);
1.6.2.2    lukem 	mly->mly_ih = pci_intr_establish(pc, ih, IPL_BIO, mly_intr, mly);
1.6.2.2    lukem 	if (mly->mly_ih == NULL) {
1.6.2.2    lukem 		printf("%s: can't establish interrupt", self->dv_xname);
1.6.2.2    lukem 		if (intrstr != NULL)
1.6.2.2    lukem 			printf(" at %s", intrstr);
1.6.2.2    lukem 		printf("\n");
1.6.2.2    lukem 		return;
1.6.2.2    lukem 	}
1.6.2.2    lukem
1.6.2.2    lukem 	if (intrstr != NULL)
1.6.2.2    lukem 		printf("%s: interrupting at %s\n", mly->mly_dv.dv_xname,
1.6.2.2    lukem 		    intrstr);
1.6.2.2    lukem
1.6.2.2    lukem 	/*
1.6.2.2    lukem 	 * Take care of interface-specific tasks.
1.6.2.2    lukem 	 */
1.6.2.2    lukem 	switch (mly->mly_hwif) {
1.6.2.2    lukem 	case MLY_HWIF_I960RX:
1.6.2.2    lukem 		mly->mly_doorbell_true = 0x00;
1.6.2.2    lukem 		mly->mly_cmd_mailbox = MLY_I960RX_COMMAND_MAILBOX;
1.6.2.2    lukem 		mly->mly_status_mailbox = MLY_I960RX_STATUS_MAILBOX;
1.6.2.2    lukem 		mly->mly_idbr = MLY_I960RX_IDBR;
1.6.2.2    lukem 		mly->mly_odbr = MLY_I960RX_ODBR;
1.6.2.2    lukem 		mly->mly_error_status = MLY_I960RX_ERROR_STATUS;
1.6.2.2    lukem 		mly->mly_interrupt_status = MLY_I960RX_INTERRUPT_STATUS;
1.6.2.2    lukem 		mly->mly_interrupt_mask = MLY_I960RX_INTERRUPT_MASK;
1.6.2.2    lukem 		break;
1.6.2.2    lukem
1.6.2.2    lukem 	case MLY_HWIF_STRONGARM:
1.6.2.2    lukem 		mly->mly_doorbell_true = 0xff;
1.6.2.2    lukem 		mly->mly_cmd_mailbox = MLY_STRONGARM_COMMAND_MAILBOX;
1.6.2.2    lukem 		mly->mly_status_mailbox = MLY_STRONGARM_STATUS_MAILBOX;
1.6.2.2    lukem 		mly->mly_idbr = MLY_STRONGARM_IDBR;
1.6.2.2    lukem 		mly->mly_odbr = MLY_STRONGARM_ODBR;
1.6.2.2    lukem 		mly->mly_error_status = MLY_STRONGARM_ERROR_STATUS;
1.6.2.2    lukem 		mly->mly_interrupt_status = MLY_STRONGARM_INTERRUPT_STATUS;
1.6.2.2    lukem 		mly->mly_interrupt_mask = MLY_STRONGARM_INTERRUPT_MASK;
1.6.2.2    lukem 		break;
1.6.2.2    lukem 	}
1.6.2.2    lukem
1.6.2.2    lukem 	/*
1.6.2.2    lukem 	 * Allocate and map the scatter/gather lists.
1.6.2.2    lukem 	 */
1.6.2.2    lukem 	rv = mly_dmamem_alloc(mly, MLY_SGL_SIZE * MLY_MAX_CCBS,
1.6.2.2    lukem 	    &mly->mly_sg_dmamap, (caddr_t *)&mly->mly_sg,
1.6.2.2    lukem 	    &mly->mly_sg_busaddr, &mly->mly_sg_seg);
1.6.2.2    lukem 	if (rv) {
1.6.2.2    lukem 		printf("%s: unable to allocate S/G maps\n",
1.6.2.2    lukem 		    mly->mly_dv.dv_xname);
1.6.2.2    lukem 		goto bad;
1.6.2.2    lukem 	}
1.6.2.2    lukem 	state++;
1.6.2.2    lukem
1.6.2.2    lukem 	/*
1.6.2.2    lukem 	 * Allocate and map the memory mailbox.
1.6.2.2    lukem 	 */
1.6.2.2    lukem 	rv = mly_dmamem_alloc(mly, sizeof(struct mly_mmbox),
1.6.2.2    lukem 	    &mly->mly_mmbox_dmamap, (caddr_t *)&mly->mly_mmbox,
1.6.2.2    lukem 	    &mly->mly_mmbox_busaddr, &mly->mly_mmbox_seg);
1.6.2.2    lukem 	if (rv) {
1.6.2.2    lukem 		printf("%s: unable to allocate mailboxes\n",
1.6.2.2    lukem 		    mly->mly_dv.dv_xname);
1.6.2.2    lukem 		goto bad;
1.6.2.2    lukem 	}
1.6.2.2    lukem 	state++;
1.6.2.2    lukem
1.6.2.2    lukem 	/*
1.6.2.2    lukem 	 * Initialise per-controller queues.
1.6.2.2    lukem 	 */
1.6.2.2    lukem 	SLIST_INIT(&mly->mly_ccb_free);
1.6.2.2    lukem 	SIMPLEQ_INIT(&mly->mly_ccb_queue);
1.6.2.2    lukem
1.6.2.2    lukem 	/*
1.6.2.2    lukem 	 * Disable interrupts before we start talking to the controller.
1.6.2.2    lukem 	 */
1.6.2.2    lukem 	mly_outb(mly, mly->mly_interrupt_mask, MLY_INTERRUPT_MASK_DISABLE);
1.6.2.2    lukem
1.6.2.2    lukem 	/*
1.6.2.2    lukem 	 * Wait for the controller to come ready, handshaking with the
1.6.2.2    lukem 	 * firmware if required.  This is typically only necessary on
1.6.2.2    lukem 	 * platforms where the controller BIOS does not run.
1.6.2.2    lukem 	 */
1.6.2.2    lukem 	if (mly_fwhandshake(mly)) {
1.6.2.2    lukem 		printf("%s: unable to bring controller online\n",
1.6.2.2    lukem 		    mly->mly_dv.dv_xname);
1.6.2.2    lukem 		goto bad;
1.6.2.2    lukem 	}
1.6.2.2    lukem
1.6.2.2    lukem 	/*
1.6.2.2    lukem 	 * Allocate initial command buffers, obtain controller feature
1.6.2.2    lukem 	 * information, and then reallocate command buffers, since we'll
1.6.2.2    lukem 	 * know how many we want.
1.6.2.2    lukem 	 */
1.6.2.2    lukem 	if (mly_alloc_ccbs(mly)) {
1.6.2.2    lukem 		printf("%s: unable to allocate CCBs\n",
1.6.2.2    lukem 		    mly->mly_dv.dv_xname);
1.6.2.2    lukem 		goto bad;
1.6.2.2    lukem 	}
1.6.2.2    lukem 	state++;
1.6.2.2    lukem 	if (mly_get_controllerinfo(mly)) {
1.6.2.2    lukem 		printf("%s: unable to retrieve controller info\n",
1.6.2.2    lukem 		    mly->mly_dv.dv_xname);
1.6.2.2    lukem 		goto bad;
1.6.2.2    lukem 	}
1.6.2.2    lukem 	mly_release_ccbs(mly);
1.6.2.2    lukem 	if (mly_alloc_ccbs(mly)) {
1.6.2.2    lukem 		printf("%s: unable to allocate CCBs\n",
1.6.2.2    lukem 		    mly->mly_dv.dv_xname);
1.6.2.2    lukem 		state--;
1.6.2.2    lukem 		goto bad;
1.6.2.2    lukem 	}
1.6.2.2    lukem
1.6.2.2    lukem 	/*
1.6.2.2    lukem 	 * Get the current event counter for health purposes, populate the
1.6.2.2    lukem 	 * initial health status buffer.
1.6.2.2    lukem 	 */
1.6.2.2    lukem 	if (mly_get_eventstatus(mly)) {
1.6.2.2    lukem 		printf("%s: unable to retrieve event status\n",
1.6.2.2    lukem 		    mly->mly_dv.dv_xname);
1.6.2.2    lukem 		goto bad;
1.6.2.2    lukem 	}
1.6.2.2    lukem
1.6.2.2    lukem 	/*
1.6.2.2    lukem 	 * Enable memory-mailbox mode.
1.6.2.2    lukem 	 */
1.6.2.2    lukem 	if (mly_enable_mmbox(mly)) {
1.6.2.2    lukem 		printf("%s: unable to enable memory mailbox\n",
1.6.2.2    lukem 		    mly->mly_dv.dv_xname);
1.6.2.2    lukem 		goto bad;
1.6.2.2    lukem 	}
1.6.2.2    lukem
1.6.2.2    lukem 	/*
1.6.2.2    lukem 	 * Print a little information about the controller.
1.6.2.2    lukem 	 */
1.6.2.2    lukem 	mi = mly->mly_controllerinfo;
1.6.2.2    lukem
1.6.2.2    lukem 	printf("%s: %d physical channel%s, firmware %d.%02d-%d-%02d "
1.6.2.2    lukem 	    "(%02d%02d%02d%02d), %dMB RAM\n", mly->mly_dv.dv_xname,
1.6.2.2    lukem 	    mi->physical_channels_present,
1.6.2.2    lukem 	    (mi->physical_channels_present) > 1 ? "s" : "",
1.6.2.2    lukem 	    mi->fw_major, mi->fw_minor, mi->fw_turn, mi->fw_build,
1.6.2.2    lukem 	    mi->fw_century, mi->fw_year, mi->fw_month, mi->fw_day,
1.6.2.2    lukem 	    le16toh(mi->memory_size));
1.6.2.2    lukem
1.6.2.2    lukem 	/*
1.6.2.2    lukem 	 * Register our `shutdownhook'.
1.6.2.2    lukem 	 */
1.6.2.2    lukem 	if (mly_sdh == NULL)
1.6.2.2    lukem 		shutdownhook_establish(mly_shutdown, NULL);
1.6.2.2    lukem
1.6.2.2    lukem 	/*
1.6.2.2    lukem 	 * Clear any previous BTL information.  For each bus that scsipi
1.6.2.2    lukem 	 * wants to scan, we'll receive the SCBUSIOLLSCAN ioctl and retrieve
1.6.2.2    lukem 	 * all BTL info at that point.
1.6.2.2    lukem 	 */
1.6.2.2    lukem 	memset(&mly->mly_btl, 0, sizeof(mly->mly_btl));
1.6.2.2    lukem
1.6.2.2    lukem 	mly->mly_nchans = mly->mly_controllerinfo->physical_channels_present +
1.6.2.2    lukem 	    mly->mly_controllerinfo->virtual_channels_present;
1.6.2.2    lukem
1.6.2.2    lukem 	/*
1.6.2.2    lukem 	 * Attach to scsipi.
1.6.2.2    lukem 	 */
1.6.2.2    lukem 	adapt = &mly->mly_adapt;
1.6.2.2    lukem 	memset(adapt, 0, sizeof(*adapt));
1.6.2.2    lukem 	adapt->adapt_dev = &mly->mly_dv;
1.6.2.2    lukem 	adapt->adapt_nchannels = mly->mly_nchans;
1.6.2.2    lukem 	adapt->adapt_openings = mly->mly_ncmds - MLY_CCBS_RESV;
1.6.2.2    lukem 	adapt->adapt_max_periph = mly->mly_ncmds - MLY_CCBS_RESV;
1.6.2.2    lukem 	adapt->adapt_request = mly_scsipi_request;
1.6.2.2    lukem 	adapt->adapt_minphys = mly_scsipi_minphys;
1.6.2.2    lukem 	adapt->adapt_ioctl = mly_scsipi_ioctl;
1.6.2.2    lukem
1.6.2.2    lukem 	for (i = 0; i < mly->mly_nchans; i++) {
1.6.2.2    lukem 		chan = &mly->mly_chans[i];
1.6.2.2    lukem 		memset(chan, 0, sizeof(*chan));
1.6.2.2    lukem 		chan->chan_adapter = adapt;
1.6.2.2    lukem 		chan->chan_bustype = &scsi_bustype;
1.6.2.2    lukem 		chan->chan_channel = i;
1.6.2.2    lukem 		chan->chan_ntargets = MLY_MAX_TARGETS;
1.6.2.2    lukem 		chan->chan_nluns = MLY_MAX_LUNS;
1.6.2.2    lukem 		chan->chan_id = mly->mly_controllerparam->initiator_id;
1.6.2.2    lukem 		chan->chan_flags = SCSIPI_CHAN_NOSETTLE;
1.6.2.2    lukem 		config_found(&mly->mly_dv, chan, scsiprint);
1.6.2.2    lukem 	}
1.6.2.2    lukem
1.6.2.2    lukem 	/*
1.6.2.2    lukem 	 * Now enable interrupts...
1.6.2.2    lukem 	 */
1.6.2.2    lukem 	mly_outb(mly, mly->mly_interrupt_mask, MLY_INTERRUPT_MASK_ENABLE);
1.6.2.2    lukem
1.6.2.2    lukem 	/*
1.6.2.2    lukem 	 * Finally, create our monitoring thread.
1.6.2.2    lukem 	 */
1.6.2.2    lukem 	kthread_create(mly_thread_create, mly);
1.6.2.2    lukem
1.6.2.2    lukem 	mly->mly_state |= MLY_STATE_INITOK;
1.6.2.2    lukem 	return;
1.6.2.2    lukem
1.6.2.2    lukem  bad:
1.6.2.2    lukem 	if (state > 2)
1.6.2.2    lukem 		mly_release_ccbs(mly);
1.6.2.2    lukem 	if (state > 1)
1.6.2.2    lukem 		mly_dmamem_free(mly, sizeof(struct mly_mmbox),
1.6.2.2    lukem 		    mly->mly_mmbox_dmamap, (caddr_t)mly->mly_mmbox,
1.6.2.2    lukem 		    &mly->mly_mmbox_seg);
1.6.2.2    lukem 	if (state > 0)
1.6.2.2    lukem 		mly_dmamem_free(mly, MLY_SGL_SIZE * MLY_MAX_CCBS,
1.6.2.2    lukem 		    mly->mly_sg_dmamap, (caddr_t)mly->mly_sg,
1.6.2.2    lukem 		    &mly->mly_sg_seg);
1.6.2.2    lukem }
1.6.2.2    lukem
1.6.2.2    lukem /*
1.6.2.2    lukem  * Scan all possible devices on the specified channel.
1.6.2.2    lukem  */
1.6.2.2    lukem static void
1.6.2.2    lukem mly_scan_channel(struct mly_softc *mly, int bus)
1.6.2.2    lukem {
1.6.2.2    lukem 	int s, target;
1.6.2.2    lukem
1.6.2.2    lukem 	for (target = 0; target < MLY_MAX_TARGETS; target++) {
1.6.2.2    lukem 		s = splbio();
1.6.2.2    lukem 		if (!mly_scan_btl(mly, bus, target)) {
1.6.2.2    lukem 			tsleep(&mly->mly_btl[bus][target], PRIBIO, "mlyscan",
1.6.2.2    lukem 			    0);
1.6.2.2    lukem 		}
1.6.2.2    lukem 		splx(s);
1.6.2.2    lukem 	}
1.6.2.2    lukem }
1.6.2.2    lukem
1.6.2.2    lukem /*
1.6.2.2    lukem  * Shut down all configured `mly' devices.
1.6.2.2    lukem  */
1.6.2.2    lukem static void
1.6.2.2    lukem mly_shutdown(void *cookie)
1.6.2.2    lukem {
1.6.2.2    lukem 	struct mly_softc *mly;
1.6.2.2    lukem 	int i;
1.6.2.2    lukem
1.6.2.2    lukem 	for (i = 0; i < mly_cd.cd_ndevs; i++) {
1.6.2.2    lukem 		if ((mly = device_lookup(&mly_cd, i)) == NULL)
1.6.2.2    lukem 			continue;
1.6.2.2    lukem
1.6.2.2    lukem 		if (mly_flush(mly))
1.6.2.2    lukem 			printf("%s: unable to flush cache\n",
1.6.2.2    lukem 			    mly->mly_dv.dv_xname);
1.6.2.2    lukem 	}
1.6.2.2    lukem }
1.6.2.2    lukem
1.6.2.2    lukem /*
1.6.2.2    lukem  * Fill in the mly_controllerinfo and mly_controllerparam fields in the
1.6.2.2    lukem  * softc.
1.6.2.2    lukem  */
1.6.2.2    lukem static int
1.6.2.2    lukem mly_get_controllerinfo(struct mly_softc *mly)
1.6.2.2    lukem {
1.6.2.2    lukem 	struct mly_cmd_ioctl mci;
1.6.2.2    lukem 	int rv;
1.6.2.2    lukem
1.6.2.2    lukem 	/*
1.6.2.2    lukem 	 * Build the getcontrollerinfo ioctl and send it.
1.6.2.2    lukem 	 */
1.6.2.2    lukem 	memset(&mci, 0, sizeof(mci));
1.6.2.2    lukem 	mci.sub_ioctl = MDACIOCTL_GETCONTROLLERINFO;
1.6.2.2    lukem 	rv = mly_ioctl(mly, &mci, (void **)&mly->mly_controllerinfo,
1.6.2.2    lukem 	    sizeof(*mly->mly_controllerinfo), NULL, NULL);
1.6.2.2    lukem 	if (rv != 0)
1.6.2.2    lukem 		return (rv);
1.6.2.2    lukem
1.6.2.2    lukem 	/*
1.6.2.2    lukem 	 * Build the getcontrollerparameter ioctl and send it.
1.6.2.2    lukem 	 */
1.6.2.2    lukem 	memset(&mci, 0, sizeof(mci));
1.6.2.2    lukem 	mci.sub_ioctl = MDACIOCTL_GETCONTROLLERPARAMETER;
1.6.2.2    lukem 	rv = mly_ioctl(mly, &mci, (void **)&mly->mly_controllerparam,
1.6.2.2    lukem 	    sizeof(*mly->mly_controllerparam), NULL, NULL);
1.6.2.2    lukem
1.6.2.2    lukem 	return (rv);
1.6.2.2    lukem }
1.6.2.2    lukem
1.6.2.2    lukem /*
1.6.2.2    lukem  * Rescan a device, possibly as a consequence of getting an event which
1.6.2.2    lukem  * suggests that it may have changed.  Must be called with interrupts
1.6.2.2    lukem  * blocked.
1.6.2.2    lukem  */
1.6.2.2    lukem static int
1.6.2.2    lukem mly_scan_btl(struct mly_softc *mly, int bus, int target)
1.6.2.2    lukem {
1.6.2.2    lukem 	struct mly_ccb *mc;
1.6.2.2    lukem 	struct mly_cmd_ioctl *mci;
1.6.2.2    lukem 	int rv;
1.6.2.2    lukem
1.6.2.2    lukem 	if (target == mly->mly_controllerparam->initiator_id) {
1.6.2.2    lukem 		mly->mly_btl[bus][target].mb_flags = MLY_BTL_PROTECTED;
1.6.2.2    lukem 		return (EIO);
1.6.2.2    lukem 	}
1.6.2.2    lukem
1.6.2.2    lukem 	/* Don't re-scan if a scan is already in progress. */
1.6.2.2    lukem 	if ((mly->mly_btl[bus][target].mb_flags & MLY_BTL_SCANNING) != 0)
1.6.2.2    lukem 		return (EBUSY);
1.6.2.2    lukem
1.6.2.2    lukem 	/* Get a command. */
1.6.2.2    lukem 	if ((rv = mly_ccb_alloc(mly, &mc)) != 0)
1.6.2.2    lukem 		return (rv);
1.6.2.2    lukem
1.6.2.2    lukem 	/* Set up the data buffer. */
1.6.2.2    lukem 	mc->mc_data = malloc(sizeof(union mly_devinfo),
1.6.2.2    lukem 	    M_DEVBUF, M_NOWAIT);
1.6.2.2    lukem 	memset(mc->mc_data, 0, sizeof(union mly_devinfo));
1.6.2.2    lukem
1.6.2.2    lukem 	mc->mc_flags |= MLY_CCB_DATAIN;
1.6.2.2    lukem 	mc->mc_complete = mly_complete_rescan;
1.6.2.2    lukem
1.6.2.2    lukem 	/*
1.6.2.2    lukem 	 * Build the ioctl.
1.6.2.2    lukem 	 */
1.6.2.2    lukem 	mci = (struct mly_cmd_ioctl *)&mc->mc_packet->ioctl;
1.6.2.2    lukem 	mci->opcode = MDACMD_IOCTL;
1.6.2.2    lukem 	mci->timeout = 30 | MLY_TIMEOUT_SECONDS;
1.6.2.2    lukem 	memset(&mci->param, 0, sizeof(mci->param));
1.6.2.2    lukem
1.6.2.2    lukem 	if (MLY_BUS_IS_VIRTUAL(mly, bus)) {
1.6.2.2    lukem 		mc->mc_length = sizeof(struct mly_ioctl_getlogdevinfovalid);
1.6.2.2    lukem 		mci->data_size = htole32(mc->mc_length);
1.6.2.2    lukem 		mci->sub_ioctl = MDACIOCTL_GETLOGDEVINFOVALID;
1.6.2.2    lukem 		_lto3l(MLY_LOGADDR(0, MLY_LOGDEV_ID(mly, bus, target)),
1.6.2.2    lukem 		    mci->addr);
1.6.2.2    lukem 	} else {
1.6.2.2    lukem 		mc->mc_length = sizeof(struct mly_ioctl_getphysdevinfovalid);
1.6.2.2    lukem 		mci->data_size = htole32(mc->mc_length);
1.6.2.2    lukem 		mci->sub_ioctl = MDACIOCTL_GETPHYSDEVINFOVALID;
1.6.2.2    lukem 		_lto3l(MLY_PHYADDR(0, bus, target, 0), mci->addr);
1.6.2.2    lukem 	}
1.6.2.2    lukem
1.6.2.2    lukem 	/*
1.6.2.2    lukem 	 * Dispatch the command.
1.6.2.2    lukem 	 */
1.6.2.2    lukem 	if ((rv = mly_ccb_map(mly, mc)) != 0) {
1.6.2.2    lukem 		free(mc->mc_data, M_DEVBUF);
1.6.2.2    lukem 		mly_ccb_free(mly, mc);
1.6.2.2    lukem 		return(rv);
1.6.2.2    lukem 	}
1.6.2.2    lukem
1.6.2.2    lukem 	mly->mly_btl[bus][target].mb_flags |= MLY_BTL_SCANNING;
1.6.2.2    lukem 	mly_ccb_enqueue(mly, mc);
1.6.2.2    lukem 	return (0);
1.6.2.2    lukem }
1.6.2.2    lukem
1.6.2.2    lukem /*
1.6.2.2    lukem  * Handle the completion of a rescan operation.
1.6.2.2    lukem  */
1.6.2.2    lukem static void
1.6.2.2    lukem mly_complete_rescan(struct mly_softc *mly, struct mly_ccb *mc)
1.6.2.2    lukem {
1.6.2.2    lukem 	struct mly_ioctl_getlogdevinfovalid *ldi;
1.6.2.2    lukem 	struct mly_ioctl_getphysdevinfovalid *pdi;
1.6.2.2    lukem 	struct mly_cmd_ioctl *mci;
1.6.2.2    lukem 	struct mly_btl btl, *btlp;
1.6.2.2    lukem 	struct scsipi_xfer_mode xm;
1.6.2.2    lukem 	int bus, target, rescan;
1.6.2.2    lukem 	u_int tmp;
1.6.2.2    lukem
1.6.2.2    lukem 	mly_ccb_unmap(mly, mc);
1.6.2.2    lukem
1.6.2.2    lukem 	/*
1.6.2.2    lukem 	 * Recover the bus and target from the command.  We need these even
1.6.2.2    lukem 	 * in the case where we don't have a useful response.
1.6.2.2    lukem 	 */
1.6.2.2    lukem 	mci = (struct mly_cmd_ioctl *)&mc->mc_packet->ioctl;
1.6.2.2    lukem 	tmp = _3ltol(mci->addr);
1.6.2.2    lukem 	rescan = 0;
1.6.2.2    lukem
1.6.2.2    lukem 	if (mci->sub_ioctl == MDACIOCTL_GETLOGDEVINFOVALID) {
1.6.2.2    lukem 		bus = MLY_LOGDEV_BUS(mly, MLY_LOGADDR_DEV(tmp));
1.6.2.2    lukem 		target = MLY_LOGDEV_TARGET(mly, MLY_LOGADDR_DEV(tmp));
1.6.2.2    lukem 	} else {
1.6.2.2    lukem 		bus = MLY_PHYADDR_CHANNEL(tmp);
1.6.2.2    lukem 		target = MLY_PHYADDR_TARGET(tmp);
1.6.2.2    lukem 	}
1.6.2.2    lukem
1.6.2.2    lukem 	btlp = &mly->mly_btl[bus][target];
1.6.2.2    lukem
1.6.2.2    lukem 	/* The default result is 'no device'. */
1.6.2.2    lukem 	memset(&btl, 0, sizeof(btl));
1.6.2.2    lukem 	btl.mb_flags = MLY_BTL_PROTECTED;
1.6.2.2    lukem
1.6.2.2    lukem 	/* If the rescan completed OK, we have possibly-new BTL data. */
1.6.2.2    lukem 	if (mc->mc_status != 0)
1.6.2.2    lukem 		goto out;
1.6.2.2    lukem
1.6.2.2    lukem 	if (mc->mc_length == sizeof(*ldi)) {
1.6.2.2    lukem 		ldi = (struct mly_ioctl_getlogdevinfovalid *)mc->mc_data;
1.6.2.2    lukem 		tmp = le32toh(ldi->logical_device_number);
1.6.2.2    lukem
1.6.2.2    lukem 		if (MLY_LOGDEV_BUS(mly, tmp) != bus ||
1.6.2.2    lukem 		    MLY_LOGDEV_TARGET(mly, tmp) != target) {
1.6.2.2    lukem #ifdef MLYDEBUG
1.6.2.2    lukem 			printf("%s: WARNING: BTL rescan (logical) for %d:%d "
1.6.2.2    lukem 			    "returned data for %d:%d instead\n",
1.6.2.2    lukem 			   mly->mly_dv.dv_xname, bus, target,
1.6.2.2    lukem 			   MLY_LOGDEV_BUS(mly, tmp),
1.6.2.2    lukem 			   MLY_LOGDEV_TARGET(mly, tmp));
1.6.2.2    lukem #endif
1.6.2.2    lukem 			goto out;
1.6.2.2    lukem 		}
1.6.2.2    lukem
1.6.2.2    lukem 		btl.mb_flags = MLY_BTL_LOGICAL | MLY_BTL_TQING;
1.6.2.2    lukem 		btl.mb_type = ldi->raid_level;
1.6.2.2    lukem 		btl.mb_state = ldi->state;
1.6.2.2    lukem 	} else if (mc->mc_length == sizeof(*pdi)) {
1.6.2.2    lukem 		pdi = (struct mly_ioctl_getphysdevinfovalid *)mc->mc_data;
1.6.2.2    lukem
1.6.2.2    lukem 		if (pdi->channel != bus || pdi->target != target) {
1.6.2.2    lukem #ifdef MLYDEBUG
1.6.2.2    lukem 			printf("%s: WARNING: BTL rescan (physical) for %d:%d "
1.6.2.2    lukem 			    " returned data for %d:%d instead\n",
1.6.2.2    lukem 			   mly->mly_dv.dv_xname,
1.6.2.2    lukem 			   bus, target, pdi->channel, pdi->target);
1.6.2.2    lukem #endif
1.6.2.2    lukem 			goto out;
1.6.2.2    lukem 		}
1.6.2.2    lukem
1.6.2.2    lukem 		btl.mb_flags = MLY_BTL_PHYSICAL;
1.6.2.2    lukem 		btl.mb_type = MLY_DEVICE_TYPE_PHYSICAL;
1.6.2.2    lukem 		btl.mb_state = pdi->state;
1.6.2.2    lukem 		btl.mb_speed = pdi->speed;
1.6.2.2    lukem 		btl.mb_width = pdi->width;
1.6.2.2    lukem
1.6.2.2    lukem 		if (pdi->state != MLY_DEVICE_STATE_UNCONFIGURED)
1.6.2.2    lukem 			btl.mb_flags |= MLY_BTL_PROTECTED;
1.6.2.2    lukem 		if (pdi->command_tags != 0)
1.6.2.2    lukem 			btl.mb_flags |= MLY_BTL_TQING;
1.6.2.2    lukem 	} else {
1.6.2.2    lukem 		printf("%s: BTL rescan result invalid\n", mly->mly_dv.dv_xname);
1.6.2.2    lukem 		goto out;
1.6.2.2    lukem 	}
1.6.2.2    lukem
1.6.2.2    lukem 	/* Decide whether we need to rescan the device. */
1.6.2.2    lukem 	if (btl.mb_flags != btlp->mb_flags ||
1.6.2.2    lukem 	    btl.mb_speed != btlp->mb_speed ||
1.6.2.2    lukem 	    btl.mb_width != btlp->mb_width)
1.6.2.2    lukem 		rescan = 1;
1.6.2.2    lukem
1.6.2.2    lukem  out:
1.6.2.2    lukem 	*btlp = btl;
1.6.2.2    lukem
1.6.2.2    lukem 	if (rescan && (btl.mb_flags & MLY_BTL_PROTECTED) == 0) {
1.6.2.2    lukem 		xm.xm_target = target;
1.6.2.2    lukem 		mly_get_xfer_mode(mly, bus, &xm);
1.6.2.2    lukem 		/* XXX SCSI mid-layer rescan goes here. */
1.6.2.2    lukem 	}
1.6.2.2    lukem
1.6.2.2    lukem 	/* Wake anybody waiting on the device to be rescanned. */
1.6.2.2    lukem 	wakeup(btlp);
1.6.2.2    lukem
1.6.2.2    lukem 	free(mc->mc_data, M_DEVBUF);
1.6.2.2    lukem 	mly_ccb_free(mly, mc);
1.6.2.2    lukem }
1.6.2.2    lukem
1.6.2.2    lukem /*
1.6.2.2    lukem  * Get the current health status and set the 'next event' counter to suit.
1.6.2.2    lukem  */
1.6.2.2    lukem static int
1.6.2.2    lukem mly_get_eventstatus(struct mly_softc *mly)
1.6.2.2    lukem {
1.6.2.2    lukem 	struct mly_cmd_ioctl mci;
1.6.2.2    lukem 	struct mly_health_status *mh;
1.6.2.2    lukem 	int rv;
1.6.2.2    lukem
1.6.2.2    lukem 	/* Build the gethealthstatus ioctl and send it. */
1.6.2.2    lukem 	memset(&mci, 0, sizeof(mci));
1.6.2.2    lukem 	mh = NULL;
1.6.2.2    lukem 	mci.sub_ioctl = MDACIOCTL_GETHEALTHSTATUS;
1.6.2.2    lukem
1.6.2.2    lukem 	rv = mly_ioctl(mly, &mci, (void **)&mh, sizeof(*mh), NULL, NULL);
1.6.2.2    lukem 	if (rv)
1.6.2.2    lukem 		return (rv);
1.6.2.2    lukem
1.6.2.2    lukem 	/* Get the event counter. */
1.6.2.2    lukem 	mly->mly_event_change = le32toh(mh->change_counter);
1.6.2.2    lukem 	mly->mly_event_waiting = le32toh(mh->next_event);
1.6.2.2    lukem 	mly->mly_event_counter = le32toh(mh->next_event);
1.6.2.2    lukem
1.6.2.2    lukem 	/* Save the health status into the memory mailbox */
1.6.2.2    lukem 	memcpy(&mly->mly_mmbox->mmm_health.status, mh, sizeof(*mh));
1.6.2.2    lukem
1.6.2.2    lukem 	bus_dmamap_sync(mly->mly_dmat, mly->mly_mmbox_dmamap,
1.6.2.2    lukem 	    offsetof(struct mly_mmbox, mmm_health),
1.6.2.2    lukem 	    sizeof(mly->mly_mmbox->mmm_health),
1.6.2.2    lukem 	    BUS_DMASYNC_PREWRITE | BUS_DMASYNC_PREREAD);
1.6.2.2    lukem
1.6.2.2    lukem 	free(mh, M_DEVBUF);
1.6.2.2    lukem 	return (0);
1.6.2.2    lukem }
1.6.2.2    lukem
1.6.2.2    lukem /*
1.6.2.2    lukem  * Enable memory mailbox mode.
1.6.2.2    lukem  */
1.6.2.2    lukem static int
1.6.2.2    lukem mly_enable_mmbox(struct mly_softc *mly)
1.6.2.2    lukem {
1.6.2.2    lukem 	struct mly_cmd_ioctl mci;
1.6.2.2    lukem 	u_int8_t *sp;
1.6.2.2    lukem 	u_int64_t tmp;
1.6.2.2    lukem 	int rv;
1.6.2.2    lukem
1.6.2.2    lukem 	/* Build the ioctl and send it. */
1.6.2.2    lukem 	memset(&mci, 0, sizeof(mci));
1.6.2.2    lukem 	mci.sub_ioctl = MDACIOCTL_SETMEMORYMAILBOX;
1.6.2.2    lukem
1.6.2.2    lukem 	/* Set buffer addresses. */
1.6.2.2    lukem 	tmp = mly->mly_mmbox_busaddr + offsetof(struct mly_mmbox, mmm_command);
1.6.2.2    lukem 	mci.param.setmemorymailbox.command_mailbox_physaddr = htole64(tmp);
1.6.2.2    lukem
1.6.2.2    lukem 	tmp = mly->mly_mmbox_busaddr + offsetof(struct mly_mmbox, mmm_status);
1.6.2.2    lukem 	mci.param.setmemorymailbox.status_mailbox_physaddr = htole64(tmp);
1.6.2.2    lukem
1.6.2.2    lukem 	tmp = mly->mly_mmbox_busaddr + offsetof(struct mly_mmbox, mmm_health);
1.6.2.2    lukem 	mci.param.setmemorymailbox.health_buffer_physaddr = htole64(tmp);
1.6.2.2    lukem
1.6.2.2    lukem 	/* Set buffer sizes - abuse of data_size field is revolting. */
1.6.2.2    lukem 	sp = (u_int8_t *)&mci.data_size;
1.6.2.2    lukem 	sp[0] = (sizeof(union mly_cmd_packet) * MLY_MMBOX_COMMANDS) >> 10;
1.6.2.2    lukem 	sp[1] = (sizeof(union mly_status_packet) * MLY_MMBOX_STATUS) >> 10;
1.6.2.2    lukem 	mci.param.setmemorymailbox.health_buffer_size =
1.6.2.2    lukem 	    sizeof(union mly_health_region) >> 10;
1.6.2.2    lukem
1.6.2.2    lukem 	rv = mly_ioctl(mly, &mci, NULL, 0, NULL, NULL);
1.6.2.2    lukem 	if (rv)
1.6.2.2    lukem 		return (rv);
1.6.2.2    lukem
1.6.2.2    lukem 	mly->mly_state |= MLY_STATE_MMBOX_ACTIVE;
1.6.2.2    lukem 	return (0);
1.6.2.2    lukem }
1.6.2.2    lukem
1.6.2.2    lukem /*
1.6.2.2    lukem  * Flush all pending I/O from the controller.
1.6.2.2    lukem  */
1.6.2.2    lukem static int
1.6.2.2    lukem mly_flush(struct mly_softc *mly)
1.6.2.2    lukem {
1.6.2.2    lukem 	struct mly_cmd_ioctl mci;
1.6.2.2    lukem
1.6.2.2    lukem 	/* Build the ioctl */
1.6.2.2    lukem 	memset(&mci, 0, sizeof(mci));
1.6.2.2    lukem 	mci.sub_ioctl = MDACIOCTL_FLUSHDEVICEDATA;
1.6.2.2    lukem 	mci.param.deviceoperation.operation_device =
1.6.2.2    lukem 	    MLY_OPDEVICE_PHYSICAL_CONTROLLER;
1.6.2.2    lukem
1.6.2.2    lukem 	/* Pass it off to the controller */
1.6.2.2    lukem 	return (mly_ioctl(mly, &mci, NULL, 0, NULL, NULL));
1.6.2.2    lukem }
1.6.2.2    lukem
1.6.2.2    lukem /*
1.6.2.2    lukem  * Perform an ioctl command.
1.6.2.2    lukem  *
1.6.2.2    lukem  * If (data) is not NULL, the command requires data transfer to the
1.6.2.2    lukem  * controller.  If (*data) is NULL the command requires data transfer from
1.6.2.2    lukem  * the controller, and we will allocate a buffer for it.
1.6.2.2    lukem  */
1.6.2.2    lukem static int
1.6.2.2    lukem mly_ioctl(struct mly_softc *mly, struct mly_cmd_ioctl *ioctl, void **data,
1.6.2.2    lukem 	  size_t datasize, void *sense_buffer,
1.6.2.2    lukem 	  size_t *sense_length)
1.6.2.2    lukem {
1.6.2.2    lukem 	struct mly_ccb *mc;
1.6.2.2    lukem 	struct mly_cmd_ioctl *mci;
1.6.2.2    lukem 	u_int8_t status;
1.6.2.2    lukem 	int rv;
1.6.2.2    lukem
1.6.2.2    lukem 	mc = NULL;
1.6.2.2    lukem 	if ((rv = mly_ccb_alloc(mly, &mc)) != 0)
1.6.2.2    lukem 		goto bad;
1.6.2.2    lukem
1.6.2.2    lukem 	/*
1.6.2.2    lukem 	 * Copy the ioctl structure, but save some important fields and then
1.6.2.2    lukem 	 * fixup.
1.6.2.2    lukem 	 */
1.6.2.2    lukem 	mci = &mc->mc_packet->ioctl;
1.6.2.2    lukem 	ioctl->sense_buffer_address = htole64(mci->sense_buffer_address);
1.6.2.2    lukem 	ioctl->maximum_sense_size = mci->maximum_sense_size;
1.6.2.2    lukem 	*mci = *ioctl;
1.6.2.2    lukem 	mci->opcode = MDACMD_IOCTL;
1.6.2.2    lukem 	mci->timeout = 30 | MLY_TIMEOUT_SECONDS;
1.6.2.2    lukem
1.6.2.2    lukem 	/* Handle the data buffer. */
1.6.2.2    lukem 	if (data != NULL) {
1.6.2.2    lukem 		if (*data == NULL) {
1.6.2.2    lukem 			/* Allocate data buffer */
1.6.2.2    lukem 			mc->mc_data = malloc(datasize, M_DEVBUF, M_NOWAIT);
1.6.2.2    lukem 			mc->mc_flags |= MLY_CCB_DATAIN;
1.6.2.2    lukem 		} else {
1.6.2.2    lukem 			mc->mc_data = *data;
1.6.2.2    lukem 			mc->mc_flags |= MLY_CCB_DATAOUT;
1.6.2.2    lukem 		}
1.6.2.2    lukem 		mc->mc_length = datasize;
1.6.2.2    lukem 		mc->mc_packet->generic.data_size = htole32(datasize);
1.6.2.2    lukem 	}
1.6.2.2    lukem
1.6.2.2    lukem 	/* Run the command. */
1.6.2.2    lukem 	if (datasize > 0)
1.6.2.2    lukem 		if ((rv = mly_ccb_map(mly, mc)) != 0)
1.6.2.2    lukem 			goto bad;
1.6.2.2    lukem 	rv = mly_ccb_poll(mly, mc, 30000);
1.6.2.2    lukem 	if (datasize > 0)
1.6.2.2    lukem 		mly_ccb_unmap(mly, mc);
1.6.2.2    lukem 	if (rv != 0)
1.6.2.2    lukem 		goto bad;
1.6.2.2    lukem
1.6.2.2    lukem 	/* Clean up and return any data. */
1.6.2.2    lukem 	status = mc->mc_status;
1.6.2.2    lukem
1.6.2.2    lukem 	if (status != 0)
1.6.2.2    lukem 		printf("mly_ioctl: command status %d\n", status);
1.6.2.2    lukem
1.6.2.2    lukem 	if (mc->mc_sense > 0 && sense_buffer != NULL) {
1.6.2.2    lukem 		memcpy(sense_buffer, mc->mc_packet, mc->mc_sense);
1.6.2.2    lukem 		*sense_length = mc->mc_sense;
1.6.2.2    lukem 		goto bad;
1.6.2.2    lukem 	}
1.6.2.2    lukem
1.6.2.2    lukem 	/* Should we return a data pointer? */
1.6.2.2    lukem 	if (data != NULL && *data == NULL)
1.6.2.2    lukem 		*data = mc->mc_data;
1.6.2.2    lukem
1.6.2.2    lukem 	/* Command completed OK. */
1.6.2.2    lukem 	rv = (status != 0 ? EIO : 0);
1.6.2.2    lukem
1.6.2.2    lukem  bad:
1.6.2.2    lukem 	if (mc != NULL) {
1.6.2.2    lukem 		/* Do we need to free a data buffer we allocated? */
1.6.2.2    lukem 		if (rv != 0 && mc->mc_data != NULL && *data == NULL)
1.6.2.2    lukem 			free(mc->mc_data, M_DEVBUF);
1.6.2.2    lukem 		mly_ccb_free(mly, mc);
1.6.2.2    lukem 	}
1.6.2.2    lukem
1.6.2.2    lukem 	return (rv);
1.6.2.2    lukem }
1.6.2.2    lukem
1.6.2.2    lukem /*
1.6.2.2    lukem  * Check for event(s) outstanding in the controller.
1.6.2.2    lukem  */
1.6.2.2    lukem static void
1.6.2.2    lukem mly_check_event(struct mly_softc *mly)
1.6.2.2    lukem {
1.6.2.2    lukem
1.6.2.2    lukem 	bus_dmamap_sync(mly->mly_dmat, mly->mly_mmbox_dmamap,
1.6.2.2    lukem 	    offsetof(struct mly_mmbox, mmm_health),
1.6.2.2    lukem 	    sizeof(mly->mly_mmbox->mmm_health),
1.6.2.2    lukem 	    BUS_DMASYNC_POSTWRITE | BUS_DMASYNC_POSTREAD);
1.6.2.2    lukem
1.6.2.2    lukem 	/*
1.6.2.2    lukem 	 * The controller may have updated the health status information, so
1.6.2.2    lukem 	 * check for it here.  Note that the counters are all in host
1.6.2.2    lukem 	 * memory, so this check is very cheap.  Also note that we depend on
1.6.2.2    lukem 	 * checking on completion
1.6.2.2    lukem 	 */
1.6.2.2    lukem 	if (le32toh(mly->mly_mmbox->mmm_health.status.change_counter) !=
1.6.2.2    lukem 	    mly->mly_event_change) {
1.6.2.2    lukem 		mly->mly_event_change =
1.6.2.2    lukem 		    le32toh(mly->mly_mmbox->mmm_health.status.change_counter);
1.6.2.2    lukem 		mly->mly_event_waiting =
1.6.2.2    lukem 		    le32toh(mly->mly_mmbox->mmm_health.status.next_event);
1.6.2.2    lukem
1.6.2.2    lukem 		/* Wake up anyone that might be interested in this. */
1.6.2.2    lukem 		wakeup(&mly->mly_event_change);
1.6.2.2    lukem 	}
1.6.2.2    lukem
1.6.2.2    lukem 	bus_dmamap_sync(mly->mly_dmat, mly->mly_mmbox_dmamap,
1.6.2.2    lukem 	    offsetof(struct mly_mmbox, mmm_health),
1.6.2.2    lukem 	    sizeof(mly->mly_mmbox->mmm_health),
1.6.2.2    lukem 	    BUS_DMASYNC_PREWRITE | BUS_DMASYNC_PREREAD);
1.6.2.2    lukem
1.6.2.2    lukem 	if (mly->mly_event_counter != mly->mly_event_waiting)
1.6.2.2    lukem 		mly_fetch_event(mly);
1.6.2.2    lukem }
1.6.2.2    lukem
1.6.2.2    lukem /*
1.6.2.2    lukem  * Fetch one event from the controller.  If we fail due to resource
1.6.2.2    lukem  * starvation, we'll be retried the next time a command completes.
1.6.2.2    lukem  */
1.6.2.2    lukem static void
1.6.2.2    lukem mly_fetch_event(struct mly_softc *mly)
1.6.2.2    lukem {
1.6.2.2    lukem 	struct mly_ccb *mc;
1.6.2.2    lukem 	struct mly_cmd_ioctl *mci;
1.6.2.2    lukem 	int s;
1.6.2.2    lukem 	u_int32_t event;
1.6.2.2    lukem
1.6.2.2    lukem 	/* Get a command. */
1.6.2.2    lukem 	if (mly_ccb_alloc(mly, &mc))
1.6.2.2    lukem 		return;
1.6.2.2    lukem
1.6.2.2    lukem 	/* Set up the data buffer. */
1.6.2.2    lukem 	mc->mc_data = malloc(sizeof(struct mly_event), M_DEVBUF, M_NOWAIT);
1.6.2.2    lukem 	memset(mc->mc_data, 0, sizeof(struct mly_event));
1.6.2.2    lukem
1.6.2.2    lukem 	mc->mc_length = sizeof(struct mly_event);
1.6.2.2    lukem 	mc->mc_flags |= MLY_CCB_DATAIN;
1.6.2.2    lukem 	mc->mc_complete = mly_complete_event;
1.6.2.2    lukem
1.6.2.2    lukem 	/*
1.6.2.2    lukem 	 * Get an event number to fetch.  It's possible that we've raced
1.6.2.2    lukem 	 * with another context for the last event, in which case there will
1.6.2.2    lukem 	 * be no more events.
1.6.2.2    lukem 	 */
1.6.2.2    lukem 	s = splbio();
1.6.2.2    lukem 	if (mly->mly_event_counter == mly->mly_event_waiting) {
1.6.2.2    lukem 		splx(s);
1.6.2.2    lukem 		free(mc->mc_data, M_DEVBUF);
1.6.2.2    lukem 		mly_ccb_free(mly, mc);
1.6.2.2    lukem 		return;
1.6.2.2    lukem 	}
1.6.2.2    lukem 	event = mly->mly_event_counter++;
1.6.2.2    lukem 	splx(s);
1.6.2.2    lukem
1.6.2.2    lukem 	/*
1.6.2.2    lukem 	 * Build the ioctl.
1.6.2.2    lukem 	 *
1.6.2.2    lukem 	 * At this point we are committed to sending this request, as it
1.6.2.2    lukem 	 * will be the only one constructed for this particular event
1.6.2.2    lukem 	 * number.
1.6.2.2    lukem 	 */
1.6.2.2    lukem 	mci = (struct mly_cmd_ioctl *)&mc->mc_packet->ioctl;
1.6.2.2    lukem 	mci->opcode = MDACMD_IOCTL;
1.6.2.2    lukem 	mci->data_size = htole32(sizeof(struct mly_event));
1.6.2.2    lukem 	_lto3l(MLY_PHYADDR(0, 0, (event >> 16) & 0xff, (event >> 24) & 0xff),
1.6.2.2    lukem 	    mci->addr);
1.6.2.2    lukem 	mci->timeout = 30 | MLY_TIMEOUT_SECONDS;
1.6.2.2    lukem 	mci->sub_ioctl = MDACIOCTL_GETEVENT;
1.6.2.2    lukem 	mci->param.getevent.sequence_number_low = htole16(event & 0xffff);
1.6.2.2    lukem
1.6.2.2    lukem 	/*
1.6.2.2    lukem 	 * Submit the command.
1.6.2.2    lukem 	 */
1.6.2.2    lukem 	if (mly_ccb_map(mly, mc) != 0)
1.6.2.2    lukem 		goto bad;
1.6.2.2    lukem 	mly_ccb_enqueue(mly, mc);
1.6.2.2    lukem 	return;
1.6.2.2    lukem
1.6.2.2    lukem  bad:
1.6.2.2    lukem 	printf("%s: couldn't fetch event %u\n", mly->mly_dv.dv_xname, event);
1.6.2.2    lukem 	free(mc->mc_data, M_DEVBUF);
1.6.2.2    lukem 	mly_ccb_free(mly, mc);
1.6.2.2    lukem }
1.6.2.2    lukem
1.6.2.2    lukem /*
1.6.2.2    lukem  * Handle the completion of an event poll.
1.6.2.2    lukem  */
1.6.2.2    lukem static void
1.6.2.2    lukem mly_complete_event(struct mly_softc *mly, struct mly_ccb *mc)
1.6.2.2    lukem {
1.6.2.2    lukem 	struct mly_event *me;
1.6.2.2    lukem
1.6.2.2    lukem 	me = (struct mly_event *)mc->mc_data;
1.6.2.2    lukem 	mly_ccb_unmap(mly, mc);
1.6.2.2    lukem 	mly_ccb_free(mly, mc);
1.6.2.2    lukem
1.6.2.2    lukem 	/* If the event was successfully fetched, process it. */
1.6.2.2    lukem 	if (mc->mc_status == SCSI_OK)
1.6.2.2    lukem 		mly_process_event(mly, me);
1.6.2.2    lukem 	else
1.6.2.2    lukem 		printf("%s: unable to fetch event; status = 0x%x\n",
1.6.2.2    lukem 		    mly->mly_dv.dv_xname, mc->mc_status);
1.6.2.2    lukem
1.6.2.2    lukem 	free(me, M_DEVBUF);
1.6.2.2    lukem
1.6.2.2    lukem 	/* Check for another event. */
1.6.2.2    lukem 	mly_check_event(mly);
1.6.2.2    lukem }
1.6.2.2    lukem
1.6.2.2    lukem /*
1.6.2.2    lukem  * Process a controller event.  Called with interupts blocked (i.e., at
1.6.2.2    lukem  * interrupt time).
1.6.2.2    lukem  */
1.6.2.2    lukem static void
1.6.2.2    lukem mly_process_event(struct mly_softc *mly, struct mly_event *me)
1.6.2.2    lukem {
1.6.2.2    lukem 	struct scsipi_sense_data *ssd;
1.6.2.2    lukem 	int bus, target, event, class, action;
1.6.2.2    lukem 	const char *fp, *tp;
1.6.2.2    lukem
1.6.2.2    lukem 	ssd = (struct scsipi_sense_data *)&me->sense[0];
1.6.2.2    lukem
1.6.2.2    lukem 	/*
1.6.2.2    lukem 	 * Errors can be reported using vendor-unique sense data.  In this
1.6.2.2    lukem 	 * case, the event code will be 0x1c (Request sense data present),
1.6.2.2    lukem 	 * the sense key will be 0x09 (vendor specific), the MSB of the ASC
1.6.2.2    lukem 	 * will be set, and the actual event code will be a 16-bit value
1.6.2.2    lukem 	 * comprised of the ASCQ (low byte) and low seven bits of the ASC
1.6.2.2    lukem 	 * (low seven bits of the high byte).
1.6.2.2    lukem 	 */
1.6.2.2    lukem 	if (le32toh(me->code) == 0x1c &&
1.6.2.2    lukem 	    (ssd->flags & SSD_KEY) == SKEY_VENDOR_UNIQUE &&
1.6.2.2    lukem 	    (ssd->add_sense_code & 0x80) != 0) {
1.6.2.2    lukem 		event = ((int)(ssd->add_sense_code & ~0x80) << 8) +
1.6.2.2    lukem 		    ssd->add_sense_code_qual;
1.6.2.2    lukem 	} else
1.6.2.2    lukem 		event = le32toh(me->code);
1.6.2.2    lukem
1.6.2.2    lukem 	/* Look up event, get codes. */
1.6.2.2    lukem 	fp = mly_describe_code(mly_table_event, event);
1.6.2.2    lukem
1.6.2.2    lukem 	/* Quiet event? */
1.6.2.2    lukem 	class = fp[0];
1.6.2.2    lukem #ifdef notyet
1.6.2.2    lukem 	if (isupper(class) && bootverbose)
1.6.2.2    lukem 		class = tolower(class);
1.6.2.2    lukem #endif
1.6.2.2    lukem
1.6.2.2    lukem 	/* Get action code, text string. */
1.6.2.2    lukem 	action = fp[1];
1.6.2.2    lukem 	tp = fp + 3;
1.6.2.2    lukem
1.6.2.2    lukem 	/*
1.6.2.2    lukem 	 * Print some information about the event.
1.6.2.2    lukem 	 *
1.6.2.2    lukem 	 * This code uses a table derived from the corresponding portion of
1.6.2.2    lukem 	 * the Linux driver, and thus the parser is very similar.
1.6.2.2    lukem 	 */
1.6.2.2    lukem 	switch (class) {
1.6.2.2    lukem 	case 'p':
1.6.2.2    lukem 		/*
1.6.2.2    lukem 		 * Error on physical drive.
1.6.2.2    lukem 		 */
1.6.2.2    lukem 		printf("%s: physical device %d:%d %s\n", mly->mly_dv.dv_xname,
1.6.2.2    lukem 		    me->channel, me->target, tp);
1.6.2.2    lukem 		if (action == 'r')
1.6.2.2    lukem 			mly->mly_btl[me->channel][me->target].mb_flags |=
1.6.2.2    lukem 			    MLY_BTL_RESCAN;
1.6.2.2    lukem 		break;
1.6.2.2    lukem
1.6.2.2    lukem 	case 'l':
1.6.2.2    lukem 	case 'm':
1.6.2.2    lukem 		/*
1.6.2.2    lukem 		 * Error on logical unit, or message about logical unit.
1.6.2.2    lukem 	 	 */
1.6.2.2    lukem 		bus = MLY_LOGDEV_BUS(mly, me->lun);
1.6.2.2    lukem 		target = MLY_LOGDEV_TARGET(mly, me->lun);
1.6.2.2    lukem 		printf("%s: logical device %d:%d %s\n", mly->mly_dv.dv_xname,
1.6.2.2    lukem 		    bus, target, tp);
1.6.2.2    lukem 		if (action == 'r')
1.6.2.2    lukem 			mly->mly_btl[bus][target].mb_flags |= MLY_BTL_RESCAN;
1.6.2.2    lukem 		break;
1.6.2.2    lukem
1.6.2.2    lukem 	case 's':
1.6.2.2    lukem 		/*
1.6.2.2    lukem 		 * Report of sense data.
1.6.2.2    lukem 		 */
1.6.2.2    lukem 		if (((ssd->flags & SSD_KEY) == SKEY_NO_SENSE ||
1.6.2.2    lukem 		    (ssd->flags & SSD_KEY) == SKEY_NOT_READY) &&
1.6.2.2    lukem 		    ssd->add_sense_code == 0x04 &&
1.6.2.2    lukem 		    (ssd->add_sense_code_qual == 0x01 ||
1.6.2.2    lukem 		    ssd->add_sense_code_qual == 0x02)) {
1.6.2.2    lukem 			/* Ignore NO_SENSE or NOT_READY in one case */
1.6.2.2    lukem 			break;
1.6.2.2    lukem 		}
1.6.2.2    lukem
1.6.2.2    lukem 		/*
1.6.2.2    lukem 		 * XXX Should translate this if SCSIVERBOSE.
1.6.2.2    lukem 		 */
1.6.2.2    lukem 		printf("%s: physical device %d:%d %s\n", mly->mly_dv.dv_xname,
1.6.2.2    lukem 		    me->channel, me->target, tp);
1.6.2.2    lukem 		printf("%s:  sense key %d  asc %02x  ascq %02x\n",
1.6.2.2    lukem 		    mly->mly_dv.dv_xname, ssd->flags & SSD_KEY,
1.6.2.2    lukem 		    ssd->add_sense_code, ssd->add_sense_code_qual);
1.6.2.2    lukem 		printf("%s:  info %x%x%x%x  csi %x%x%x%x\n",
1.6.2.2    lukem 		    mly->mly_dv.dv_xname, ssd->info[0], ssd->info[1],
1.6.2.2    lukem 		    ssd->info[2], ssd->info[3], ssd->cmd_spec_info[0],
1.6.2.2    lukem 		    ssd->cmd_spec_info[1], ssd->cmd_spec_info[2],
1.6.2.2    lukem 		    ssd->cmd_spec_info[3]);
1.6.2.2    lukem 		if (action == 'r')
1.6.2.2    lukem 			mly->mly_btl[me->channel][me->target].mb_flags |=
1.6.2.2    lukem 			    MLY_BTL_RESCAN;
1.6.2.2    lukem 		break;
1.6.2.2    lukem
1.6.2.2    lukem 	case 'e':
1.6.2.2    lukem 		printf("%s: ", mly->mly_dv.dv_xname);
1.6.2.2    lukem 		printf(tp, me->target, me->lun);
1.6.2.2    lukem 		break;
1.6.2.2    lukem
1.6.2.2    lukem 	case 'c':
1.6.2.2    lukem 		printf("%s: controller %s\n", mly->mly_dv.dv_xname, tp);
1.6.2.2    lukem 		break;
1.6.2.2    lukem
1.6.2.2    lukem 	case '?':
1.6.2.2    lukem 		printf("%s: %s - %d\n", mly->mly_dv.dv_xname, tp, event);
1.6.2.2    lukem 		break;
1.6.2.2    lukem
1.6.2.2    lukem 	default:
1.6.2.2    lukem 		/* Probably a 'noisy' event being ignored. */
1.6.2.2    lukem 		break;
1.6.2.2    lukem 	}
1.6.2.2    lukem }
1.6.2.2    lukem
1.6.2.2    lukem /*
1.6.2.2    lukem  * Create the monitoring thread.  Called after the standard kernel threads
1.6.2.2    lukem  * have been created.
1.6.2.2    lukem  */
1.6.2.2    lukem static void
1.6.2.2    lukem mly_thread_create(void *cookie)
1.6.2.2    lukem {
1.6.2.2    lukem 	struct mly_softc *mly;
1.6.2.2    lukem 	int rv;
1.6.2.2    lukem
1.6.2.2    lukem 	mly = cookie;
1.6.2.2    lukem
1.6.2.2    lukem 	rv = kthread_create1(mly_thread, mly, &mly->mly_thread, "%s",
1.6.2.2    lukem 	    mly->mly_dv.dv_xname);
1.6.2.2    lukem  	if (rv != 0)
1.6.2.2    lukem 		printf("%s: unable to create thread (%d)\n",
1.6.2.2    lukem 		    mly->mly_dv.dv_xname, rv);
1.6.2.2    lukem }
1.6.2.2    lukem
1.6.2.2    lukem /*
1.6.2.2    lukem  * Perform periodic activities.
1.6.2.2    lukem  */
1.6.2.2    lukem static void
1.6.2.2    lukem mly_thread(void *cookie)
1.6.2.2    lukem {
1.6.2.2    lukem 	struct mly_softc *mly;
1.6.2.2    lukem 	struct mly_btl *btl;
1.6.2.2    lukem 	int s, bus, target, done;
1.6.2.2    lukem
1.6.2.2    lukem 	mly = (struct mly_softc *)cookie;
1.6.2.2    lukem
1.6.2.2    lukem 	for (;;) {
1.6.2.2    lukem 		/* Check for new events. */
1.6.2.2    lukem 		mly_check_event(mly);
1.6.2.2    lukem
1.6.2.2    lukem 		/* Re-scan up to 1 device. */
1.6.2.2    lukem 		s = splbio();
1.6.2.2    lukem 		done = 0;
1.6.2.2    lukem 		for (bus = 0; bus < mly->mly_nchans && !done; bus++) {
1.6.2.2    lukem 			for (target = 0; target < MLY_MAX_TARGETS; target++) {
1.6.2.2    lukem 				/* Perform device rescan? */
1.6.2.2    lukem 				btl = &mly->mly_btl[bus][target];
1.6.2.2    lukem 				if ((btl->mb_flags & MLY_BTL_RESCAN) != 0) {
1.6.2.2    lukem 					btl->mb_flags ^= MLY_BTL_RESCAN;
1.6.2.2    lukem 					mly_scan_btl(mly, bus, target);
1.6.2.2    lukem 					done = 1;
1.6.2.2    lukem 					break;
1.6.2.2    lukem 				}
1.6.2.2    lukem 			}
1.6.2.2    lukem 		}
1.6.2.2    lukem 		splx(s);
1.6.2.2    lukem
1.6.2.2    lukem 		/* Sleep for N seconds. */
1.6.2.2    lukem 		tsleep(mly_thread, PWAIT, "mlyzzz",
1.6.2.2    lukem 		    hz * MLY_PERIODIC_INTERVAL);
1.6.2.2    lukem 	}
1.6.2.2    lukem }
1.6.2.2    lukem
1.6.2.2    lukem /*
1.6.2.2    lukem  * Submit a command to the controller and poll on completion.  Return
1.6.2.2    lukem  * non-zero on timeout.
1.6.2.2    lukem  */
1.6.2.2    lukem static int
1.6.2.2    lukem mly_ccb_poll(struct mly_softc *mly, struct mly_ccb *mc, int timo)
1.6.2.2    lukem {
1.6.2.2    lukem 	int rv;
1.6.2.2    lukem
1.6.2.2    lukem 	if ((rv = mly_ccb_submit(mly, mc)) != 0)
1.6.2.2    lukem 		return (rv);
1.6.2.2    lukem
1.6.2.2    lukem 	for (timo *= 10; timo != 0; timo--) {
1.6.2.2    lukem 		if ((mc->mc_flags & MLY_CCB_COMPLETE) != 0)
1.6.2.2    lukem 			break;
1.6.2.2    lukem 		mly_intr(mly);
1.6.2.2    lukem 		DELAY(100);
1.6.2.2    lukem 	}
1.6.2.2    lukem
1.6.2.2    lukem 	return (timo == 0);
1.6.2.2    lukem }
1.6.2.2    lukem
1.6.2.2    lukem /*
1.6.2.2    lukem  * Submit a command to the controller and sleep on completion.  Return
1.6.2.2    lukem  * non-zero on timeout.
1.6.2.2    lukem  */
1.6.2.2    lukem static int
1.6.2.2    lukem mly_ccb_wait(struct mly_softc *mly, struct mly_ccb *mc, int timo)
1.6.2.2    lukem {
1.6.2.2    lukem 	int rv, s;
1.6.2.2    lukem
1.6.2.2    lukem 	mly_ccb_enqueue(mly, mc);
1.6.2.2    lukem
1.6.2.2    lukem 	s = splbio();
1.6.2.2    lukem 	if ((mc->mc_flags & MLY_CCB_COMPLETE) != 0) {
1.6.2.2    lukem 		splx(s);
1.6.2.2    lukem 		return (0);
1.6.2.2    lukem 	}
1.6.2.2    lukem 	rv = tsleep(mc, PRIBIO, "mlywccb", timo * hz / 1000);
1.6.2.2    lukem 	splx(s);
1.6.2.2    lukem
1.6.2.2    lukem 	return (rv);
1.6.2.2    lukem }
1.6.2.2    lukem
1.6.2.2    lukem /*
1.6.2.2    lukem  * If a CCB is specified, enqueue it.  Pull CCBs off the software queue in
1.6.2.2    lukem  * the order that they were enqueued and try to submit their command blocks
1.6.2.2    lukem  * to the controller for execution.
1.6.2.2    lukem  */
1.6.2.2    lukem void
1.6.2.2    lukem mly_ccb_enqueue(struct mly_softc *mly, struct mly_ccb *mc)
1.6.2.2    lukem {
1.6.2.2    lukem 	int s;
1.6.2.2    lukem
1.6.2.2    lukem 	s = splbio();
1.6.2.2    lukem
1.6.2.2    lukem 	if (mc != NULL)
1.6.2.2    lukem 		SIMPLEQ_INSERT_TAIL(&mly->mly_ccb_queue, mc, mc_link.simpleq);
1.6.2.2    lukem
1.6.2.2    lukem 	while ((mc = SIMPLEQ_FIRST(&mly->mly_ccb_queue)) != NULL) {
1.6.2.2    lukem 		if (mly_ccb_submit(mly, mc))
1.6.2.2    lukem 			break;
1.6.2.2    lukem 		SIMPLEQ_REMOVE_HEAD(&mly->mly_ccb_queue, mc, mc_link.simpleq);
1.6.2.2    lukem 	}
1.6.2.2    lukem
1.6.2.2    lukem 	splx(s);
1.6.2.2    lukem }
1.6.2.2    lukem
1.6.2.2    lukem /*
1.6.2.2    lukem  * Deliver a command to the controller.
1.6.2.2    lukem  */
1.6.2.2    lukem static int
1.6.2.2    lukem mly_ccb_submit(struct mly_softc *mly, struct mly_ccb *mc)
1.6.2.2    lukem {
1.6.2.2    lukem 	union mly_cmd_packet *pkt;
1.6.2.2    lukem 	int s, off;
1.6.2.2    lukem
1.6.2.2    lukem 	mc->mc_packet->generic.command_id = htole16(mc->mc_slot);
1.6.2.2    lukem
1.6.2.2    lukem 	bus_dmamap_sync(mly->mly_dmat, mly->mly_pkt_dmamap,
1.6.2.2    lukem 	    mc->mc_packetphys - mly->mly_pkt_busaddr,
1.6.2.2    lukem 	    sizeof(union mly_cmd_packet),
1.6.2.2    lukem 	    BUS_DMASYNC_PREREAD | BUS_DMASYNC_PREWRITE);
1.6.2.2    lukem
1.6.2.2    lukem 	s = splbio();
1.6.2.2    lukem
1.6.2.2    lukem 	/*
1.6.2.2    lukem 	 * Do we have to use the hardware mailbox?
1.6.2.2    lukem 	 */
1.6.2.2    lukem 	if ((mly->mly_state & MLY_STATE_MMBOX_ACTIVE) == 0) {
1.6.2.2    lukem 		/*
1.6.2.2    lukem 		 * Check to see if the controller is ready for us.
1.6.2.2    lukem 		 */
1.6.2.2    lukem 		if (mly_idbr_true(mly, MLY_HM_CMDSENT)) {
1.6.2.2    lukem 			splx(s);
1.6.2.2    lukem 			return (EBUSY);
1.6.2.2    lukem 		}
1.6.2.2    lukem
1.6.2.2    lukem 		/*
1.6.2.2    lukem 		 * It's ready, send the command.
1.6.2.2    lukem 		 */
1.6.2.2    lukem 		mly_outl(mly, mly->mly_cmd_mailbox,
1.6.2.2    lukem 		    (u_int64_t)mc->mc_packetphys & 0xffffffff);
1.6.2.2    lukem 		mly_outl(mly, mly->mly_cmd_mailbox + 4,
1.6.2.2    lukem 		    (u_int64_t)mc->mc_packetphys >> 32);
1.6.2.2    lukem 		mly_outb(mly, mly->mly_idbr, MLY_HM_CMDSENT);
1.6.2.2    lukem 	} else {
1.6.2.2    lukem 		pkt = &mly->mly_mmbox->mmm_command[mly->mly_mmbox_cmd_idx];
1.6.2.2    lukem 		off = (caddr_t)pkt - (caddr_t)mly->mly_mmbox;
1.6.2.2    lukem
1.6.2.2    lukem 		bus_dmamap_sync(mly->mly_dmat, mly->mly_mmbox_dmamap,
1.6.2.2    lukem 		    off, sizeof(mly->mly_mmbox->mmm_command[0]),
1.6.2.2    lukem 		    BUS_DMASYNC_POSTWRITE | BUS_DMASYNC_POSTREAD);
1.6.2.2    lukem
1.6.2.2    lukem 		/* Check to see if the next index is free yet. */
1.6.2.2    lukem 		if (pkt->mmbox.flag != 0) {
1.6.2.2    lukem 			splx(s);
1.6.2.2    lukem 			return (EBUSY);
1.6.2.2    lukem 		}
1.6.2.2    lukem
1.6.2.2    lukem 		/* Copy in new command */
1.6.2.2    lukem 		memcpy(pkt->mmbox.data, mc->mc_packet->mmbox.data,
1.6.2.2    lukem 		    sizeof(pkt->mmbox.data));
1.6.2.2    lukem
1.6.2.2    lukem 		/* Copy flag last. */
1.6.2.2    lukem 		pkt->mmbox.flag = mc->mc_packet->mmbox.flag;
1.6.2.2    lukem
1.6.2.2    lukem 		bus_dmamap_sync(mly->mly_dmat, mly->mly_mmbox_dmamap,
1.6.2.2    lukem 		    off, sizeof(mly->mly_mmbox->mmm_command[0]),
1.6.2.2    lukem 		    BUS_DMASYNC_PREWRITE | BUS_DMASYNC_PREREAD);
1.6.2.2    lukem
1.6.2.2    lukem 		/* Signal controller and update index. */
1.6.2.2    lukem 		mly_outb(mly, mly->mly_idbr, MLY_AM_CMDSENT);
1.6.2.2    lukem 		mly->mly_mmbox_cmd_idx =
1.6.2.2    lukem 		    (mly->mly_mmbox_cmd_idx + 1) % MLY_MMBOX_COMMANDS;
1.6.2.2    lukem 	}
1.6.2.2    lukem
1.6.2.2    lukem 	splx(s);
1.6.2.2    lukem 	return (0);
1.6.2.2    lukem }
1.6.2.2    lukem
1.6.2.2    lukem /*
1.6.2.2    lukem  * Pick up completed commands from the controller and handle accordingly.
1.6.2.2    lukem  */
1.6.2.2    lukem int
1.6.2.2    lukem mly_intr(void *cookie)
1.6.2.2    lukem {
1.6.2.2    lukem 	struct mly_ccb *mc;
1.6.2.2    lukem 	union mly_status_packet	*sp;
1.6.2.2    lukem 	u_int16_t slot;
1.6.2.2    lukem 	int forus, off;
1.6.2.2    lukem 	struct mly_softc *mly;
1.6.2.2    lukem
1.6.2.2    lukem 	mly = cookie;
1.6.2.2    lukem 	forus = 0;
1.6.2.2    lukem
1.6.2.2    lukem 	/*
1.6.2.2    lukem 	 * Pick up hardware-mailbox commands.
1.6.2.2    lukem 	 */
1.6.2.2    lukem 	if (mly_odbr_true(mly, MLY_HM_STSREADY)) {
1.6.2.2    lukem 		slot = mly_inw(mly, mly->mly_status_mailbox);
1.6.2.2    lukem
1.6.2.2    lukem 		if (slot < MLY_SLOT_MAX) {
1.6.2.2    lukem 			mc = mly->mly_ccbs + (slot - MLY_SLOT_START);
1.6.2.2    lukem 			mc->mc_status =
1.6.2.2    lukem 			    mly_inb(mly, mly->mly_status_mailbox + 2);
1.6.2.2    lukem 			mc->mc_sense =
1.6.2.2    lukem 			    mly_inb(mly, mly->mly_status_mailbox + 3);
1.6.2.2    lukem 			mc->mc_resid =
1.6.2.2    lukem 			    mly_inl(mly, mly->mly_status_mailbox + 4);
1.6.2.2    lukem
1.6.2.2    lukem 			mly_ccb_complete(mly, mc);
1.6.2.2    lukem 		} else {
1.6.2.2    lukem 			/* Slot 0xffff may mean "extremely bogus command". */
1.6.2.2    lukem 			printf("%s: got HM completion for illegal slot %u\n",
1.6.2.2    lukem 			    mly->mly_dv.dv_xname, slot);
1.6.2.2    lukem 		}
1.6.2.2    lukem
1.6.2.2    lukem 		/* Unconditionally acknowledge status. */
1.6.2.2    lukem 		mly_outb(mly, mly->mly_odbr, MLY_HM_STSREADY);
1.6.2.2    lukem 		mly_outb(mly, mly->mly_idbr, MLY_HM_STSACK);
1.6.2.2    lukem 		forus = 1;
1.6.2.2    lukem 	}
1.6.2.2    lukem
1.6.2.2    lukem 	/*
1.6.2.2    lukem 	 * Pick up memory-mailbox commands.
1.6.2.2    lukem 	 */
1.6.2.2    lukem 	if (mly_odbr_true(mly, MLY_AM_STSREADY)) {
1.6.2.2    lukem 		for (;;) {
1.6.2.2    lukem 			sp = &mly->mly_mmbox->mmm_status[mly->mly_mmbox_sts_idx];
1.6.2.2    lukem 			off = (caddr_t)sp - (caddr_t)mly->mly_mmbox;
1.6.2.2    lukem
1.6.2.2    lukem 			bus_dmamap_sync(mly->mly_dmat, mly->mly_mmbox_dmamap,
1.6.2.2    lukem 			    off, sizeof(mly->mly_mmbox->mmm_command[0]),
1.6.2.2    lukem 			    BUS_DMASYNC_POSTWRITE | BUS_DMASYNC_POSTREAD);
1.6.2.2    lukem
1.6.2.2    lukem 			/* Check for more status. */
1.6.2.2    lukem 			if (sp->mmbox.flag == 0)
1.6.2.2    lukem 				break;
1.6.2.2    lukem
1.6.2.2    lukem 			/* Get slot number. */
1.6.2.2    lukem 			slot = le16toh(sp->status.command_id);
1.6.2.2    lukem 			if (slot < MLY_SLOT_MAX) {
1.6.2.2    lukem 				mc = mly->mly_ccbs + (slot - MLY_SLOT_START);
1.6.2.2    lukem 				mc->mc_status = sp->status.status;
1.6.2.2    lukem 				mc->mc_sense = sp->status.sense_length;
1.6.2.2    lukem 				mc->mc_resid = le32toh(sp->status.residue);
1.6.2.2    lukem 				mly_ccb_complete(mly, mc);
1.6.2.2    lukem 			} else {
1.6.2.2    lukem 				/*
1.6.2.2    lukem 				 * Slot 0xffff may mean "extremely bogus
1.6.2.2    lukem 				 * command".
1.6.2.2    lukem 				 */
1.6.2.2    lukem 				printf("%s: got AM completion for illegal "
1.6.2.2    lukem 				    "slot %u at %d\n", mly->mly_dv.dv_xname,
1.6.2.2    lukem 				    slot, mly->mly_mmbox_sts_idx);
1.6.2.2    lukem 			}
1.6.2.2    lukem
1.6.2.2    lukem 			/* Clear and move to next index. */
1.6.2.2    lukem 			sp->mmbox.flag = 0;
1.6.2.2    lukem 			mly->mly_mmbox_sts_idx =
1.6.2.2    lukem 			    (mly->mly_mmbox_sts_idx + 1) % MLY_MMBOX_STATUS;
1.6.2.2    lukem 		}
1.6.2.2    lukem
1.6.2.2    lukem 		/* Acknowledge that we have collected status value(s). */
1.6.2.2    lukem 		mly_outb(mly, mly->mly_odbr, MLY_AM_STSREADY);
1.6.2.2    lukem 		forus = 1;
1.6.2.2    lukem 	}
1.6.2.2    lukem
1.6.2.2    lukem 	/*
1.6.2.2    lukem 	 * Run the queue.
1.6.2.2    lukem 	 */
1.6.2.2    lukem 	if (forus && SIMPLEQ_FIRST(&mly->mly_ccb_queue) != NULL)
1.6.2.2    lukem 		mly_ccb_enqueue(mly, NULL);
1.6.2.2    lukem
1.6.2.2    lukem 	return (forus);
1.6.2.2    lukem }
1.6.2.2    lukem
1.6.2.2    lukem /*
1.6.2.2    lukem  * Process completed commands
1.6.2.2    lukem  */
1.6.2.2    lukem static void
1.6.2.2    lukem mly_ccb_complete(struct mly_softc *mly, struct mly_ccb *mc)
1.6.2.2    lukem {
1.6.2.2    lukem 	void (*complete)(struct mly_softc *, struct mly_ccb *);
1.6.2.2    lukem
1.6.2.2    lukem 	bus_dmamap_sync(mly->mly_dmat, mly->mly_pkt_dmamap,
1.6.2.2    lukem 	    mc->mc_packetphys - mly->mly_pkt_busaddr,
1.6.2.2    lukem 	    sizeof(union mly_cmd_packet),
1.6.2.2    lukem 	    BUS_DMASYNC_POSTREAD | BUS_DMASYNC_POSTWRITE);
1.6.2.2    lukem
1.6.2.2    lukem 	complete = mc->mc_complete;
1.6.2.2    lukem 	mc->mc_flags |= MLY_CCB_COMPLETE;
1.6.2.2    lukem
1.6.2.2    lukem 	/*
1.6.2.2    lukem 	 * Call completion handler or wake up sleeping consumer.
1.6.2.2    lukem 	 */
1.6.2.2    lukem 	if (complete != NULL)
1.6.2.2    lukem 		(*complete)(mly, mc);
1.6.2.2    lukem 	else
1.6.2.2    lukem 		wakeup(mc);
1.6.2.2    lukem }
1.6.2.2    lukem
1.6.2.2    lukem /*
1.6.2.2    lukem  * Allocate a command.
1.6.2.2    lukem  */
1.6.2.2    lukem int
1.6.2.2    lukem mly_ccb_alloc(struct mly_softc *mly, struct mly_ccb **mcp)
1.6.2.2    lukem {
1.6.2.2    lukem 	struct mly_ccb *mc;
1.6.2.2    lukem 	int s;
1.6.2.2    lukem
1.6.2.2    lukem 	s = splbio();
1.6.2.2    lukem 	mc = SLIST_FIRST(&mly->mly_ccb_free);
1.6.2.2    lukem 	if (mc != NULL)
1.6.2.2    lukem 		SLIST_REMOVE_HEAD(&mly->mly_ccb_free, mc_link.slist);
1.6.2.2    lukem 	splx(s);
1.6.2.2    lukem
1.6.2.2    lukem 	*mcp = mc;
1.6.2.2    lukem 	return (mc == NULL ? EAGAIN : 0);
1.6.2.2    lukem }
1.6.2.2    lukem
1.6.2.2    lukem /*
1.6.2.2    lukem  * Release a command back to the freelist.
1.6.2.2    lukem  */
1.6.2.2    lukem void
1.6.2.2    lukem mly_ccb_free(struct mly_softc *mly, struct mly_ccb *mc)
1.6.2.2    lukem {
1.6.2.2    lukem 	int s;
1.6.2.2    lukem
1.6.2.2    lukem 	/*
1.6.2.2    lukem 	 * Fill in parts of the command that may cause confusion if a
1.6.2.2    lukem 	 * consumer doesn't when we are later allocated.
1.6.2.2    lukem 	 */
1.6.2.2    lukem 	mc->mc_data = NULL;
1.6.2.2    lukem 	mc->mc_flags = 0;
1.6.2.2    lukem 	mc->mc_complete = NULL;
1.6.2.2    lukem 	mc->mc_private = NULL;
1.6.2.2    lukem 	mc->mc_packet->generic.command_control = 0;
1.6.2.2    lukem
1.6.2.2    lukem 	/*
1.6.2.2    lukem 	 * By default, we set up to overwrite the command packet with sense
1.6.2.2    lukem 	 * information.
1.6.2.2    lukem 	 */
1.6.2.2    lukem 	mc->mc_packet->generic.sense_buffer_address =
1.6.2.2    lukem 	    htole64(mc->mc_packetphys);
1.6.2.2    lukem 	mc->mc_packet->generic.maximum_sense_size =
1.6.2.2    lukem 	    sizeof(union mly_cmd_packet);
1.6.2.2    lukem
1.6.2.2    lukem 	s = splbio();
1.6.2.2    lukem 	SLIST_INSERT_HEAD(&mly->mly_ccb_free, mc, mc_link.slist);
1.6.2.2    lukem 	splx(s);
1.6.2.2    lukem }
1.6.2.2    lukem
1.6.2.2    lukem /*
1.6.2.2    lukem  * Allocate and initialise command and packet structures.
1.6.2.2    lukem  *
1.6.2.2    lukem  * If the controller supports fewer than MLY_MAX_CCBS commands, limit our
1.6.2.2    lukem  * allocation to that number.  If we don't yet know how many commands the
1.6.2.2    lukem  * controller supports, allocate a very small set (suitable for initialisation
1.6.2.2    lukem  * purposes only).
1.6.2.2    lukem  */
1.6.2.2    lukem static int
1.6.2.2    lukem mly_alloc_ccbs(struct mly_softc *mly)
1.6.2.2    lukem {
1.6.2.2    lukem 	struct mly_ccb *mc;
1.6.2.2    lukem 	int i, rv;
1.6.2.2    lukem
1.6.2.2    lukem 	if (mly->mly_controllerinfo == NULL)
1.6.2.2    lukem 		mly->mly_ncmds = MLY_CCBS_RESV;
1.6.2.2    lukem 	else {
1.6.2.2    lukem 		i = le16toh(mly->mly_controllerinfo->maximum_parallel_commands);
1.6.2.2    lukem 		mly->mly_ncmds = min(MLY_MAX_CCBS, i);
1.6.2.2    lukem 	}
1.6.2.2    lukem
1.6.2.2    lukem 	/*
1.6.2.2    lukem 	 * Allocate enough space for all the command packets in one chunk
1.6.2.2    lukem 	 * and map them permanently into controller-visible space.
1.6.2.2    lukem 	 */
1.6.2.2    lukem 	rv = mly_dmamem_alloc(mly,
1.6.2.2    lukem 	    mly->mly_ncmds * sizeof(union mly_cmd_packet),
1.6.2.2    lukem 	    &mly->mly_pkt_dmamap, (caddr_t *)&mly->mly_pkt,
1.6.2.2    lukem 	    &mly->mly_pkt_busaddr, &mly->mly_pkt_seg);
1.6.2.2    lukem 	if (rv)
1.6.2.2    lukem 		return (rv);
1.6.2.2    lukem
1.6.2.2    lukem 	mly->mly_ccbs = malloc(sizeof(struct mly_ccb) * mly->mly_ncmds,
1.6.2.2    lukem 	    M_DEVBUF, M_NOWAIT);
1.6.2.2    lukem 	memset(mly->mly_ccbs, 0, sizeof(struct mly_ccb) * mly->mly_ncmds);
1.6.2.2    lukem
1.6.2.2    lukem 	for (i = 0; i < mly->mly_ncmds; i++) {
1.6.2.2    lukem 		mc = mly->mly_ccbs + i;
1.6.2.2    lukem 		mc->mc_slot = MLY_SLOT_START + i;
1.6.2.2    lukem 		mc->mc_packet = mly->mly_pkt + i;
1.6.2.2    lukem 		mc->mc_packetphys = mly->mly_pkt_busaddr +
1.6.2.2    lukem 		    (i * sizeof(union mly_cmd_packet));
1.6.2.2    lukem
1.6.2.2    lukem 		rv = bus_dmamap_create(mly->mly_dmat, MLY_MAX_XFER,
1.6.2.2    lukem 		    MLY_MAX_SEGS, MLY_MAX_XFER, 0,
1.6.2.2    lukem 		    BUS_DMA_NOWAIT | BUS_DMA_ALLOCNOW,
1.6.2.2    lukem 		    &mc->mc_datamap);
1.6.2.2    lukem 		if (rv) {
1.6.2.2    lukem 			mly_release_ccbs(mly);
1.6.2.2    lukem 			return (rv);
1.6.2.2    lukem 		}
1.6.2.2    lukem
1.6.2.2    lukem 		mly_ccb_free(mly, mc);
1.6.2.2    lukem 	}
1.6.2.2    lukem
1.6.2.2    lukem 	return (0);
1.6.2.2    lukem }
1.6.2.2    lukem
1.6.2.2    lukem /*
1.6.2.2    lukem  * Free all the storage held by commands.
1.6.2.2    lukem  *
1.6.2.2    lukem  * Must be called with all commands on the free list.
1.6.2.2    lukem  */
1.6.2.2    lukem static void
1.6.2.2    lukem mly_release_ccbs(struct mly_softc *mly)
1.6.2.2    lukem {
1.6.2.2    lukem 	struct mly_ccb *mc;
1.6.2.2    lukem
1.6.2.2    lukem 	/* Throw away command buffer DMA maps. */
1.6.2.2    lukem 	while (mly_ccb_alloc(mly, &mc) == 0)
1.6.2.2    lukem 		bus_dmamap_destroy(mly->mly_dmat, mc->mc_datamap);
1.6.2.2    lukem
1.6.2.2    lukem 	/* Release CCB storage. */
1.6.2.2    lukem 	free(mly->mly_ccbs, M_DEVBUF);
1.6.2.2    lukem
1.6.2.2    lukem 	/* Release the packet storage. */
1.6.2.2    lukem 	mly_dmamem_free(mly, mly->mly_ncmds * sizeof(union mly_cmd_packet),
1.6.2.2    lukem 	    mly->mly_pkt_dmamap, (caddr_t)mly->mly_pkt, &mly->mly_pkt_seg);
1.6.2.2    lukem }
1.6.2.2    lukem
1.6.2.2    lukem /*
1.6.2.2    lukem  * Map a command into controller-visible space.
1.6.2.2    lukem  */
1.6.2.2    lukem static int
1.6.2.2    lukem mly_ccb_map(struct mly_softc *mly, struct mly_ccb *mc)
1.6.2.2    lukem {
1.6.2.2    lukem 	struct mly_cmd_generic *gen;
1.6.2.2    lukem 	struct mly_sg_entry *sg;
1.6.2.2    lukem 	bus_dma_segment_t *ds;
1.6.2.2    lukem 	int flg, nseg, rv;
1.6.2.2    lukem
1.6.2.2    lukem #ifdef DIAGNOSTIC
1.6.2.2    lukem 	/* Don't map more than once. */
1.6.2.2    lukem 	if ((mc->mc_flags & MLY_CCB_MAPPED) != 0)
1.6.2.2    lukem 		panic("mly_ccb_map: already mapped");
1.6.2.2    lukem 	mc->mc_flags |= MLY_CCB_MAPPED;
1.6.2.2    lukem
1.6.2.2    lukem 	/* Does the command have a data buffer? */
1.6.2.2    lukem 	if (mc->mc_data == NULL)
1.6.2.2    lukem 		panic("mly_ccb_map: no data buffer");
1.6.2.2    lukem #endif
1.6.2.2    lukem
1.6.2.2    lukem 	rv = bus_dmamap_load(mly->mly_dmat, mc->mc_datamap, mc->mc_data,
1.6.2.2    lukem 	    mc->mc_length, NULL, BUS_DMA_NOWAIT | BUS_DMA_STREAMING |
1.6.2.2    lukem 	    ((mc->mc_flags & MLY_CCB_DATAIN) != 0 ?
1.6.2.2    lukem 	    BUS_DMA_READ : BUS_DMA_WRITE));
1.6.2.2    lukem 	if (rv != 0)
1.6.2.2    lukem 		return (rv);
1.6.2.2    lukem
1.6.2.2    lukem 	gen = &mc->mc_packet->generic;
1.6.2.2    lukem
1.6.2.2    lukem 	/*
1.6.2.2    lukem 	 * Can we use the transfer structure directly?
1.6.2.2    lukem 	 */
1.6.2.2    lukem 	if ((nseg = mc->mc_datamap->dm_nsegs) <= 2) {
1.6.2.2    lukem 		mc->mc_sgoff = -1;
1.6.2.2    lukem 		sg = &gen->transfer.direct.sg[0];
1.6.2.2    lukem 	} else {
1.6.2.2    lukem 		mc->mc_sgoff = (mc->mc_slot - MLY_SLOT_START) *
1.6.2.2    lukem 		    MLY_MAX_SEGS;
1.6.2.2    lukem 		sg = mly->mly_sg + mc->mc_sgoff;
1.6.2.2    lukem 		gen->command_control |= MLY_CMDCTL_EXTENDED_SG_TABLE;
1.6.2.2    lukem 		gen->transfer.indirect.entries[0] = htole16(nseg);
1.6.2.2    lukem 		gen->transfer.indirect.table_physaddr[0] =
1.6.2.2    lukem 		    htole64(mly->mly_sg_busaddr +
1.6.2.2    lukem 		    (mc->mc_sgoff * sizeof(struct mly_sg_entry)));
1.6.2.2    lukem 	}
1.6.2.2    lukem
1.6.2.2    lukem 	/*
1.6.2.2    lukem 	 * Fill the S/G table.
1.6.2.2    lukem 	 */
1.6.2.2    lukem 	for (ds = mc->mc_datamap->dm_segs; nseg != 0; nseg--, sg++, ds++) {
1.6.2.2    lukem 		sg->physaddr = htole64(ds->ds_addr);
1.6.2.2    lukem 		sg->length = htole64(ds->ds_len);
1.6.2.2    lukem 	}
1.6.2.2    lukem
1.6.2.2    lukem 	/*
1.6.2.2    lukem 	 * Sync up the data map.
1.6.2.2    lukem 	 */
1.6.2.2    lukem 	if ((mc->mc_flags & MLY_CCB_DATAIN) != 0)
1.6.2.2    lukem 		flg = BUS_DMASYNC_PREREAD;
1.6.2.2    lukem 	else /* if ((mc->mc_flags & MLY_CCB_DATAOUT) != 0) */ {
1.6.2.2    lukem 		gen->command_control |= MLY_CMDCTL_DATA_DIRECTION;
1.6.2.2    lukem 		flg = BUS_DMASYNC_PREWRITE;
1.6.2.2    lukem 	}
1.6.2.2    lukem
1.6.2.2    lukem 	bus_dmamap_sync(mly->mly_dmat, mc->mc_datamap, 0, mc->mc_length, flg);
1.6.2.2    lukem
1.6.2.2    lukem 	/*
1.6.2.2    lukem 	 * Sync up the chained S/G table, if we're using one.
1.6.2.2    lukem 	 */
1.6.2.2    lukem 	if (mc->mc_sgoff == -1)
1.6.2.2    lukem 		return (0);
1.6.2.2    lukem
1.6.2.2    lukem 	bus_dmamap_sync(mly->mly_dmat, mly->mly_sg_dmamap, mc->mc_sgoff,
1.6.2.2    lukem 	    MLY_SGL_SIZE, BUS_DMASYNC_PREWRITE);
1.6.2.2    lukem
1.6.2.2    lukem 	return (0);
1.6.2.2    lukem }
1.6.2.2    lukem
1.6.2.2    lukem /*
1.6.2.2    lukem  * Unmap a command from controller-visible space.
1.6.2.2    lukem  */
1.6.2.2    lukem static void
1.6.2.2    lukem mly_ccb_unmap(struct mly_softc *mly, struct mly_ccb *mc)
1.6.2.2    lukem {
1.6.2.2    lukem 	int flg;
1.6.2.2    lukem
1.6.2.2    lukem #ifdef DIAGNOSTIC
1.6.2.2    lukem 	if ((mc->mc_flags & MLY_CCB_MAPPED) == 0)
1.6.2.2    lukem 		panic("mly_ccb_unmap: not mapped");
1.6.2.2    lukem 	mc->mc_flags &= ~MLY_CCB_MAPPED;
1.6.2.2    lukem #endif
1.6.2.2    lukem
1.6.2.2    lukem 	if ((mc->mc_flags & MLY_CCB_DATAIN) != 0)
1.6.2.2    lukem 		flg = BUS_DMASYNC_POSTREAD;
1.6.2.2    lukem 	else /* if ((mc->mc_flags & MLY_CCB_DATAOUT) != 0) */
1.6.2.2    lukem 		flg = BUS_DMASYNC_POSTWRITE;
1.6.2.2    lukem
1.6.2.2    lukem 	bus_dmamap_sync(mly->mly_dmat, mc->mc_datamap, 0, mc->mc_length, flg);
1.6.2.2    lukem 	bus_dmamap_unload(mly->mly_dmat, mc->mc_datamap);
1.6.2.2    lukem
1.6.2.2    lukem 	if (mc->mc_sgoff == -1)
1.6.2.2    lukem 		return;
1.6.2.2    lukem
1.6.2.2    lukem 	bus_dmamap_sync(mly->mly_dmat, mly->mly_sg_dmamap, mc->mc_sgoff,
1.6.2.2    lukem 	    MLY_SGL_SIZE, BUS_DMASYNC_POSTWRITE);
1.6.2.2    lukem }
1.6.2.2    lukem
1.6.2.2    lukem /*
1.6.2.2    lukem  * Adjust the size of each I/O before it passes to the SCSI layer.
1.6.2.2    lukem  */
1.6.2.2    lukem static void
1.6.2.2    lukem mly_scsipi_minphys(struct buf *bp)
1.6.2.2    lukem {
1.6.2.2    lukem
1.6.2.2    lukem 	if (bp->b_bcount > MLY_MAX_XFER)
1.6.2.2    lukem 		bp->b_bcount = MLY_MAX_XFER;
1.6.2.2    lukem 	minphys(bp);
1.6.2.2    lukem }
1.6.2.2    lukem
1.6.2.2    lukem /*
1.6.2.2    lukem  * Start a SCSI command.
1.6.2.2    lukem  */
1.6.2.2    lukem static void
1.6.2.2    lukem mly_scsipi_request(struct scsipi_channel *chan, scsipi_adapter_req_t req,
1.6.2.2    lukem 		   void *arg)
1.6.2.2    lukem {
1.6.2.2    lukem 	struct mly_ccb *mc;
1.6.2.2    lukem 	struct mly_cmd_scsi_small *ss;
1.6.2.2    lukem 	struct scsipi_xfer *xs;
1.6.2.2    lukem 	struct scsipi_periph *periph;
1.6.2.2    lukem 	struct mly_softc *mly;
1.6.2.2    lukem 	struct mly_btl *btl;
1.6.2.2    lukem 	int s, tmp;
1.6.2.2    lukem
1.6.2.2    lukem 	mly = (void *)chan->chan_adapter->adapt_dev;
1.6.2.2    lukem
1.6.2.2    lukem 	switch (req) {
1.6.2.2    lukem 	case ADAPTER_REQ_RUN_XFER:
1.6.2.2    lukem 		xs = arg;
1.6.2.2    lukem 		periph = xs->xs_periph;
1.6.2.2    lukem 		btl = &mly->mly_btl[chan->chan_channel][periph->periph_target];
1.6.2.2    lukem 		s = splbio();
1.6.2.2    lukem 		tmp = btl->mb_flags;
1.6.2.2    lukem 		splx(s);
1.6.2.2    lukem
1.6.2.2    lukem 		/*
1.6.2.2    lukem 		 * Check for I/O attempt to a protected or non-existant
1.6.2.2    lukem 		 * device.
1.6.2.2    lukem 		 */
1.6.2.2    lukem 		if ((tmp & MLY_BTL_PROTECTED) != 0) {
1.6.2.2    lukem 			xs->error = XS_SELTIMEOUT;
1.6.2.2    lukem 			scsipi_done(xs);
1.6.2.2    lukem 			break;
1.6.2.2    lukem 		}
1.6.2.2    lukem
1.6.2.2    lukem #ifdef DIAGNOSTIC
1.6.2.2    lukem 		/* XXX Increase if/when we support large SCSI commands. */
1.6.2.2    lukem 		if (xs->cmdlen > MLY_CMD_SCSI_SMALL_CDB) {
1.6.2.2    lukem 			printf("%s: cmd too large\n", mly->mly_dv.dv_xname);
1.6.2.2    lukem 			xs->error = XS_DRIVER_STUFFUP;
1.6.2.2    lukem 			scsipi_done(xs);
1.6.2.2    lukem 			break;
1.6.2.2    lukem 		}
1.6.2.2    lukem #endif
1.6.2.2    lukem
1.6.2.2    lukem 		if (mly_ccb_alloc(mly, &mc)) {
1.6.2.2    lukem 			xs->error = XS_RESOURCE_SHORTAGE;
1.6.2.2    lukem 			scsipi_done(xs);
1.6.2.2    lukem 			break;
1.6.2.2    lukem 		}
1.6.2.2    lukem
1.6.2.2    lukem 		/* Build the command. */
1.6.2.2    lukem 		mc->mc_data = xs->data;
1.6.2.2    lukem 		mc->mc_length = xs->datalen;
1.6.2.2    lukem 		mc->mc_complete = mly_scsipi_complete;
1.6.2.2    lukem 		mc->mc_private = xs;
1.6.2.2    lukem
1.6.2.2    lukem 		/* Build the packet for the controller. */
1.6.2.2    lukem 		ss = &mc->mc_packet->scsi_small;
1.6.2.2    lukem 		ss->opcode = MDACMD_SCSI;
1.6.2.2    lukem #ifdef notdef
1.6.2.2    lukem 		/*
1.6.2.2    lukem 		 * XXX FreeBSD does this, but it doesn't fix anything,
1.6.2.2    lukem 		 * XXX and appears potentially harmful.
1.6.2.2    lukem 		 */
1.6.2.2    lukem 		ss->command_control |= MLY_CMDCTL_DISABLE_DISCONNECT;
1.6.2.2    lukem #endif
1.6.2.2    lukem
1.6.2.2    lukem 		ss->data_size = htole32(xs->datalen);
1.6.2.2    lukem 		_lto3l(MLY_PHYADDR(0, chan->chan_channel,
1.6.2.2    lukem 		    periph->periph_target, periph->periph_lun), ss->addr);
1.6.2.2    lukem
1.6.2.2    lukem 		if (xs->timeout < 60 * 1000)
1.6.2.2    lukem 			ss->timeout = xs->timeout / 1000 |
1.6.2.2    lukem 			    MLY_TIMEOUT_SECONDS;
1.6.2.2    lukem 		else if (xs->timeout < 60 * 60 * 1000)
1.6.2.2    lukem 			ss->timeout = xs->timeout / (60 * 1000) |
1.6.2.2    lukem 			    MLY_TIMEOUT_MINUTES;
1.6.2.2    lukem 		else
1.6.2.2    lukem 			ss->timeout = xs->timeout / (60 * 60 * 1000) |
1.6.2.2    lukem 			    MLY_TIMEOUT_HOURS;
1.6.2.2    lukem
1.6.2.2    lukem 		ss->maximum_sense_size = sizeof(xs->sense);
1.6.2.2    lukem 		ss->cdb_length = xs->cmdlen;
1.6.2.2    lukem 		memcpy(ss->cdb, xs->cmd, xs->cmdlen);
1.6.2.2    lukem
1.6.2.3  thorpej 		if (mc->mc_length != 0) {
1.6.2.3  thorpej 			if ((xs->xs_control & XS_CTL_DATA_OUT) != 0)
1.6.2.3  thorpej 				mc->mc_flags |= MLY_CCB_DATAOUT;
1.6.2.3  thorpej 			else /* if ((xs->xs_control & XS_CTL_DATA_IN) != 0) */
1.6.2.3  thorpej 				mc->mc_flags |= MLY_CCB_DATAIN;
1.6.2.3  thorpej
1.6.2.2    lukem 			if (mly_ccb_map(mly, mc) != 0) {
1.6.2.2    lukem 				xs->error = XS_DRIVER_STUFFUP;
1.6.2.2    lukem 				mly_ccb_free(mly, mc);
1.6.2.2    lukem 				scsipi_done(xs);
1.6.2.2    lukem 				break;
1.6.2.2    lukem 			}
1.6.2.3  thorpej 		}
1.6.2.2    lukem
1.6.2.2    lukem 		/*
1.6.2.2    lukem 		 * Give the command to the controller.
1.6.2.2    lukem 		 */
1.6.2.2    lukem 		if ((xs->xs_control & XS_CTL_POLL) != 0) {
1.6.2.2    lukem 			if (mly_ccb_poll(mly, mc, xs->timeout + 5000)) {
1.6.2.2    lukem 				xs->error = XS_REQUEUE;
1.6.2.2    lukem 				if (mc->mc_length != 0)
1.6.2.2    lukem 					mly_ccb_unmap(mly, mc);
1.6.2.2    lukem 				mly_ccb_free(mly, mc);
1.6.2.2    lukem 				scsipi_done(xs);
1.6.2.2    lukem 			}
1.6.2.2    lukem 		} else
1.6.2.2    lukem 			mly_ccb_enqueue(mly, mc);
1.6.2.2    lukem
1.6.2.2    lukem 		break;
1.6.2.2    lukem
1.6.2.2    lukem 	case ADAPTER_REQ_GROW_RESOURCES:
1.6.2.2    lukem 		/*
1.6.2.2    lukem 		 * Not supported.
1.6.2.2    lukem 		 */
1.6.2.2    lukem 		break;
1.6.2.2    lukem
1.6.2.2    lukem 	case ADAPTER_REQ_SET_XFER_MODE:
1.6.2.2    lukem 		/*
1.6.2.2    lukem 		 * We can't change the transfer mode, but at least let
1.6.2.2    lukem 		 * scsipi know what the adapter has negotiated.
1.6.2.2    lukem 		 */
1.6.2.2    lukem 		mly_get_xfer_mode(mly, chan->chan_channel, arg);
1.6.2.2    lukem 		break;
1.6.2.2    lukem 	}
1.6.2.2    lukem }
1.6.2.2    lukem
1.6.2.2    lukem /*
1.6.2.2    lukem  * Handle completion of a SCSI command.
1.6.2.2    lukem  */
1.6.2.2    lukem static void
1.6.2.2    lukem mly_scsipi_complete(struct mly_softc *mly, struct mly_ccb *mc)
1.6.2.2    lukem {
1.6.2.2    lukem 	struct scsipi_xfer *xs;
1.6.2.2    lukem 	struct scsipi_channel *chan;
1.6.2.2    lukem 	struct scsipi_inquiry_data *inq;
1.6.2.2    lukem 	struct mly_btl *btl;
1.6.2.2    lukem 	int target, sl, s;
1.6.2.2    lukem 	const char *p;
1.6.2.2    lukem
1.6.2.2    lukem 	xs = mc->mc_private;
1.6.2.2    lukem 	xs->status = mc->mc_status;
1.6.2.2    lukem
1.6.2.2    lukem 	/*
1.6.2.2    lukem 	 * XXX The `resid' value as returned by the controller appears to be
1.6.2.2    lukem 	 * bogus, so we always set it to zero.  Is it perhaps the transfer
1.6.2.2    lukem 	 * count?
1.6.2.2    lukem 	 */
1.6.2.2    lukem 	xs->resid = 0; /* mc->mc_resid; */
1.6.2.2    lukem
1.6.2.2    lukem 	if (mc->mc_length != 0)
1.6.2.2    lukem 		mly_ccb_unmap(mly, mc);
1.6.2.2    lukem
1.6.2.2    lukem 	switch (mc->mc_status) {
1.6.2.2    lukem 	case SCSI_OK:
1.6.2.2    lukem 		/*
1.6.2.2    lukem 		 * In order to report logical device type and status, we
1.6.2.2    lukem 		 * overwrite the result of the INQUIRY command to logical
1.6.2.2    lukem 		 * devices.
1.6.2.2    lukem 		 */
1.6.2.2    lukem 		if (xs->cmd->opcode == INQUIRY) {
1.6.2.2    lukem 			chan = xs->xs_periph->periph_channel;
1.6.2.2    lukem 			target = xs->xs_periph->periph_target;
1.6.2.2    lukem 			btl = &mly->mly_btl[chan->chan_channel][target];
1.6.2.2    lukem
1.6.2.2    lukem 			s = splbio();
1.6.2.2    lukem 			if ((btl->mb_flags & MLY_BTL_LOGICAL) != 0) {
1.6.2.2    lukem 				inq = (struct scsipi_inquiry_data *)xs->data;
1.6.2.2    lukem 				mly_padstr(inq->vendor, "MYLEX", 8);
1.6.2.2    lukem 				p = mly_describe_code(mly_table_device_type,
1.6.2.2    lukem 				    btl->mb_type);
1.6.2.2    lukem 				mly_padstr(inq->product, p, 16);
1.6.2.2    lukem 				p = mly_describe_code(mly_table_device_state,
1.6.2.2    lukem 				    btl->mb_state);
1.6.2.2    lukem 				mly_padstr(inq->revision, p, 4);
1.6.2.2    lukem 			}
1.6.2.2    lukem 			splx(s);
1.6.2.2    lukem 		}
1.6.2.2    lukem
1.6.2.2    lukem 		xs->error = XS_NOERROR;
1.6.2.2    lukem 		break;
1.6.2.2    lukem
1.6.2.2    lukem 	case SCSI_CHECK:
1.6.2.2    lukem 		sl = mc->mc_sense;
1.6.2.2    lukem 		if (sl > sizeof(xs->sense.scsi_sense))
1.6.2.2    lukem 			sl = sizeof(xs->sense.scsi_sense);
1.6.2.2    lukem 		memcpy(&xs->sense.scsi_sense, mc->mc_packet, sl);
1.6.2.2    lukem 		xs->error = XS_SENSE;
1.6.2.2    lukem 		break;
1.6.2.2    lukem
1.6.2.2    lukem 	case SCSI_BUSY:
1.6.2.2    lukem 	case SCSI_QUEUE_FULL:
1.6.2.2    lukem 		xs->error = XS_BUSY;
1.6.2.2    lukem 		break;
1.6.2.2    lukem
1.6.2.2    lukem 	default:
1.6.2.2    lukem 		printf("%s: unknown SCSI status 0x%x\n",
1.6.2.2    lukem 		    mly->mly_dv.dv_xname, xs->status);
1.6.2.2    lukem 		xs->error = XS_DRIVER_STUFFUP;
1.6.2.2    lukem 		break;
1.6.2.2    lukem 	}
1.6.2.2    lukem
1.6.2.2    lukem 	mly_ccb_free(mly, mc);
1.6.2.2    lukem 	scsipi_done(xs);
1.6.2.2    lukem }
1.6.2.2    lukem
1.6.2.2    lukem /*
1.6.2.2    lukem  * Notify scsipi about a target's transfer mode.
1.6.2.2    lukem  */
1.6.2.2    lukem static void
1.6.2.2    lukem mly_get_xfer_mode(struct mly_softc *mly, int bus, struct scsipi_xfer_mode *xm)
1.6.2.2    lukem {
1.6.2.2    lukem 	struct mly_btl *btl;
1.6.2.2    lukem 	int s;
1.6.2.2    lukem
1.6.2.2    lukem 	btl = &mly->mly_btl[bus][xm->xm_target];
1.6.2.2    lukem 	xm->xm_mode = 0;
1.6.2.2    lukem
1.6.2.2    lukem 	s = splbio();
1.6.2.2    lukem
1.6.2.2    lukem 	if ((btl->mb_flags & MLY_BTL_PHYSICAL) != 0) {
1.6.2.2    lukem 		if (btl->mb_speed == 0) {
1.6.2.2    lukem 			xm->xm_period = 0;
1.6.2.2    lukem 			xm->xm_offset = 0;
1.6.2.2    lukem 		} else {
1.6.2.2    lukem 			xm->xm_period = 12;			/* XXX */
1.6.2.2    lukem 			xm->xm_offset = 8;			/* XXX */
1.6.2.2    lukem 			xm->xm_mode |= PERIPH_CAP_SYNC;		/* XXX */
1.6.2.2    lukem 		}
1.6.2.2    lukem
1.6.2.2    lukem 		switch (btl->mb_width) {
1.6.2.2    lukem 		case 32:
1.6.2.2    lukem 			xm->xm_mode = PERIPH_CAP_WIDE32;
1.6.2.2    lukem 			break;
1.6.2.2    lukem 		case 16:
1.6.2.2    lukem 			xm->xm_mode = PERIPH_CAP_WIDE16;
1.6.2.2    lukem 			break;
1.6.2.2    lukem 		default:
1.6.2.2    lukem 			xm->xm_mode = 0;
1.6.2.2    lukem 			break;
1.6.2.2    lukem 		}
1.6.2.2    lukem 	} else /* ((btl->mb_flags & MLY_BTL_LOGICAL) != 0) */ {
1.6.2.2    lukem 		xm->xm_mode = PERIPH_CAP_WIDE16 | PERIPH_CAP_SYNC;
1.6.2.2    lukem 		xm->xm_period = 12;
1.6.2.2    lukem 		xm->xm_offset = 8;
1.6.2.2    lukem 	}
1.6.2.2    lukem
1.6.2.2    lukem 	if ((btl->mb_flags & MLY_BTL_TQING) != 0)
1.6.2.2    lukem 		xm->xm_mode |= PERIPH_CAP_TQING;
1.6.2.2    lukem
1.6.2.2    lukem 	splx(s);
1.6.2.2    lukem
1.6.2.2    lukem 	scsipi_async_event(&mly->mly_chans[bus], ASYNC_EVENT_XFER_MODE, xm);
1.6.2.2    lukem }
1.6.2.2    lukem
1.6.2.2    lukem /*
1.6.2.2    lukem  * ioctl hook; used here only to initiate low-level rescans.
1.6.2.2    lukem  */
1.6.2.2    lukem static int
1.6.2.2    lukem mly_scsipi_ioctl(struct scsipi_channel *chan, u_long cmd, caddr_t data,
1.6.2.2    lukem 		 int flag, struct proc *p)
1.6.2.2    lukem {
1.6.2.2    lukem 	struct mly_softc *mly;
1.6.2.2    lukem 	int rv;
1.6.2.2    lukem
1.6.2.2    lukem 	mly = (struct mly_softc *)chan->chan_adapter->adapt_dev;
1.6.2.2    lukem
1.6.2.2    lukem 	switch (cmd) {
1.6.2.2    lukem 	case SCBUSIOLLSCAN:
1.6.2.2    lukem 		mly_scan_channel(mly, chan->chan_channel);
1.6.2.2    lukem 		rv = 0;
1.6.2.2    lukem 		break;
1.6.2.2    lukem 	default:
1.6.2.2    lukem 		rv = ENOTTY;
1.6.2.2    lukem 		break;
1.6.2.2    lukem 	}
1.6.2.2    lukem
1.6.2.2    lukem 	return (rv);
1.6.2.2    lukem }
1.6.2.2    lukem
1.6.2.2    lukem /*
1.6.2.2    lukem  * Handshake with the firmware while the card is being initialised.
1.6.2.2    lukem  */
1.6.2.2    lukem static int
1.6.2.2    lukem mly_fwhandshake(struct mly_softc *mly)
1.6.2.2    lukem {
1.6.2.2    lukem 	u_int8_t error, param0, param1;
1.6.2.2    lukem 	int spinup;
1.6.2.2    lukem
1.6.2.2    lukem 	spinup = 0;
1.6.2.2    lukem
1.6.2.2    lukem 	/* Set HM_STSACK and let the firmware initialise. */
1.6.2.2    lukem 	mly_outb(mly, mly->mly_idbr, MLY_HM_STSACK);
1.6.2.2    lukem 	DELAY(1000);	/* too short? */
1.6.2.2    lukem
1.6.2.2    lukem 	/* If HM_STSACK is still true, the controller is initialising. */
1.6.2.2    lukem 	if (!mly_idbr_true(mly, MLY_HM_STSACK))
1.6.2.2    lukem 		return (0);
1.6.2.2    lukem
1.6.2.2    lukem 	printf("%s: controller initialisation started\n",
1.6.2.2    lukem 	    mly->mly_dv.dv_xname);
1.6.2.2    lukem
1.6.2.2    lukem 	/*
1.6.2.2    lukem 	 * Spin waiting for initialisation to finish, or for a message to be
1.6.2.2    lukem 	 * delivered.
1.6.2.2    lukem 	 */
1.6.2.2    lukem 	while (mly_idbr_true(mly, MLY_HM_STSACK)) {
1.6.2.2    lukem 		/* Check for a message */
1.6.2.2    lukem 		if (!mly_error_valid(mly))
1.6.2.2    lukem 			continue;
1.6.2.2    lukem
1.6.2.2    lukem 		error = mly_inb(mly, mly->mly_error_status) & ~MLY_MSG_EMPTY;
1.6.2.2    lukem 		param0 = mly_inb(mly, mly->mly_cmd_mailbox);
1.6.2.2    lukem 		param1 = mly_inb(mly, mly->mly_cmd_mailbox + 1);
1.6.2.2    lukem
1.6.2.2    lukem 		switch (error) {
1.6.2.2    lukem 		case MLY_MSG_SPINUP:
1.6.2.2    lukem 			if (!spinup) {
1.6.2.2    lukem 				printf("%s: drive spinup in progress\n",
1.6.2.2    lukem 				    mly->mly_dv.dv_xname);
1.6.2.2    lukem 				spinup = 1;
1.6.2.2    lukem 			}
1.6.2.2    lukem 			break;
1.6.2.2    lukem
1.6.2.2    lukem 		case MLY_MSG_RACE_RECOVERY_FAIL:
1.6.2.2    lukem 			printf("%s: mirror race recovery failed - \n",
1.6.2.2    lukem 			    mly->mly_dv.dv_xname);
1.6.2.2    lukem 			printf("%s: one or more drives offline\n",
1.6.2.2    lukem 			    mly->mly_dv.dv_xname);
1.6.2.2    lukem 			break;
1.6.2.2    lukem
1.6.2.2    lukem 		case MLY_MSG_RACE_IN_PROGRESS:
1.6.2.2    lukem 			printf("%s: mirror race recovery in progress\n",
1.6.2.2    lukem 			    mly->mly_dv.dv_xname);
1.6.2.2    lukem 			break;
1.6.2.2    lukem
1.6.2.2    lukem 		case MLY_MSG_RACE_ON_CRITICAL:
1.6.2.2    lukem 			printf("%s: mirror race recovery on critical drive\n",
1.6.2.2    lukem 			    mly->mly_dv.dv_xname);
1.6.2.2    lukem 			break;
1.6.2.2    lukem
1.6.2.2    lukem 		case MLY_MSG_PARITY_ERROR:
1.6.2.2    lukem 			printf("%s: FATAL MEMORY PARITY ERROR\n",
1.6.2.2    lukem 			    mly->mly_dv.dv_xname);
1.6.2.2    lukem 			return (ENXIO);
1.6.2.2    lukem
1.6.2.2    lukem 		default:
1.6.2.2    lukem 			printf("%s: unknown initialisation code 0x%x\n",
1.6.2.2    lukem 			    mly->mly_dv.dv_xname, error);
1.6.2.2    lukem 			break;
1.6.2.2    lukem 		}
1.6.2.2    lukem 	}
1.6.2.2    lukem
1.6.2.2    lukem 	return (0);
1.6.2.2    lukem }
1.6.2.2    lukem
1.6.2.2    lukem /*
1.6.2.2    lukem  * Space-fill a character string
1.6.2.2    lukem  */
1.6.2.2    lukem static void
1.6.2.2    lukem mly_padstr(char *dst, const char *src, int len)
1.6.2.2    lukem {
1.6.2.2    lukem
1.6.2.2    lukem 	while (len-- > 0) {
1.6.2.2    lukem 		if (*src != '\0')
1.6.2.2    lukem 			*dst++ = *src++;
1.6.2.2    lukem 		else
1.6.2.2    lukem 			*dst++ = ' ';
1.6.2.2    lukem 	}
1.6.2.2    lukem }
1.6.2.2    lukem
1.6.2.2    lukem /*
1.6.2.2    lukem  * Allocate DMA safe memory.
1.6.2.2    lukem  */
1.6.2.2    lukem static int
1.6.2.2    lukem mly_dmamem_alloc(struct mly_softc *mly, int size, bus_dmamap_t *dmamap,
1.6.2.2    lukem 		 caddr_t *kva, bus_addr_t *paddr, bus_dma_segment_t *seg)
1.6.2.2    lukem {
1.6.2.2    lukem 	int rseg, rv, state;
1.6.2.2    lukem
1.6.2.2    lukem 	state = 0;
1.6.2.2    lukem
1.6.2.2    lukem 	if ((rv = bus_dmamem_alloc(mly->mly_dmat, size, NBPG, 0,
1.6.2.2    lukem 	    seg, 1, &rseg, BUS_DMA_NOWAIT)) != 0) {
1.6.2.2    lukem 		printf("%s: dmamem_alloc = %d\n", mly->mly_dv.dv_xname, rv);
1.6.2.2    lukem 		goto bad;
1.6.2.2    lukem 	}
1.6.2.2    lukem
1.6.2.2    lukem 	state++;
1.6.2.2    lukem
1.6.2.2    lukem 	if ((rv = bus_dmamem_map(mly->mly_dmat, seg, 1, size, kva,
1.6.2.2    lukem 	    BUS_DMA_NOWAIT | BUS_DMA_COHERENT)) != 0) {
1.6.2.2    lukem 		printf("%s: dmamem_map = %d\n", mly->mly_dv.dv_xname, rv);
1.6.2.2    lukem 		goto bad;
1.6.2.2    lukem 	}
1.6.2.2    lukem
1.6.2.2    lukem 	state++;
1.6.2.2    lukem
1.6.2.2    lukem 	if ((rv = bus_dmamap_create(mly->mly_dmat, size, size, 1, 0,
1.6.2.2    lukem 	    BUS_DMA_NOWAIT, dmamap)) != 0) {
1.6.2.2    lukem 		printf("%s: dmamap_create = %d\n", mly->mly_dv.dv_xname, rv);
1.6.2.2    lukem 		goto bad;
1.6.2.2    lukem 	}
1.6.2.2    lukem
1.6.2.2    lukem 	state++;
1.6.2.2    lukem
1.6.2.2    lukem 	if ((rv = bus_dmamap_load(mly->mly_dmat, *dmamap, *kva, size,
1.6.2.2    lukem 	    NULL, BUS_DMA_NOWAIT)) != 0) {
1.6.2.2    lukem 		printf("%s: dmamap_load = %d\n", mly->mly_dv.dv_xname, rv);
1.6.2.2    lukem 		goto bad;
1.6.2.2    lukem 	}
1.6.2.2    lukem
1.6.2.2    lukem 	*paddr = (*dmamap)->dm_segs[0].ds_addr;
1.6.2.2    lukem 	memset(*kva, 0, size);
1.6.2.2    lukem 	return (0);
1.6.2.2    lukem
1.6.2.2    lukem  bad:
1.6.2.2    lukem 	if (state > 2)
1.6.2.2    lukem 		bus_dmamap_destroy(mly->mly_dmat, *dmamap);
1.6.2.2    lukem 	if (state > 1)
1.6.2.2    lukem 		bus_dmamem_unmap(mly->mly_dmat, *kva, size);
1.6.2.2    lukem 	if (state > 0)
1.6.2.2    lukem 		bus_dmamem_free(mly->mly_dmat, seg, 1);
1.6.2.2    lukem
1.6.2.2    lukem 	return (rv);
1.6.2.2    lukem }
1.6.2.2    lukem
1.6.2.2    lukem /*
1.6.2.2    lukem  * Free DMA safe memory.
1.6.2.2    lukem  */
1.6.2.2    lukem static void
1.6.2.2    lukem mly_dmamem_free(struct mly_softc *mly, int size, bus_dmamap_t dmamap,
1.6.2.2    lukem 		caddr_t kva, bus_dma_segment_t *seg)
1.6.2.2    lukem {
1.6.2.2    lukem
1.6.2.2    lukem 	bus_dmamap_unload(mly->mly_dmat, dmamap);
1.6.2.2    lukem 	bus_dmamap_destroy(mly->mly_dmat, dmamap);
1.6.2.2    lukem 	bus_dmamem_unmap(mly->mly_dmat, kva, size);
1.6.2.2    lukem 	bus_dmamem_free(mly->mly_dmat, seg, 1);
1.6.2.2    lukem }
1.6.2.2    lukem
1.6.2.2    lukem
1.6.2.2    lukem /*
1.6.2.2    lukem  * Accept an open operation on the control device.
1.6.2.2    lukem  */
1.6.2.2    lukem int
1.6.2.2    lukem mlyopen(dev_t dev, int flag, int mode, struct proc *p)
1.6.2.2    lukem {
1.6.2.2    lukem 	struct mly_softc *mly;
1.6.2.2    lukem
1.6.2.2    lukem 	if ((mly = device_lookup(&mly_cd, minor(dev))) == NULL)
1.6.2.2    lukem 		return (ENXIO);
1.6.2.2    lukem 	if ((mly->mly_state & MLY_STATE_INITOK) == 0)
1.6.2.2    lukem 		return (ENXIO);
1.6.2.2    lukem 	if ((mly->mly_state & MLY_STATE_OPEN) != 0)
1.6.2.2    lukem 		return (EBUSY);
1.6.2.2    lukem
1.6.2.2    lukem 	mly->mly_state |= MLY_STATE_OPEN;
1.6.2.2    lukem 	return (0);
1.6.2.2    lukem }
1.6.2.2    lukem
1.6.2.2    lukem /*
1.6.2.2    lukem  * Accept the last close on the control device.
1.6.2.2    lukem  */
1.6.2.2    lukem int
1.6.2.2    lukem mlyclose(dev_t dev, int flag, int mode, struct proc *p)
1.6.2.2    lukem {
1.6.2.2    lukem 	struct mly_softc *mly;
1.6.2.2    lukem
1.6.2.2    lukem 	mly = device_lookup(&mly_cd, minor(dev));
1.6.2.2    lukem 	mly->mly_state &= ~MLY_STATE_OPEN;
1.6.2.2    lukem 	return (0);
1.6.2.2    lukem }
1.6.2.2    lukem
1.6.2.2    lukem /*
1.6.2.2    lukem  * Handle control operations.
1.6.2.2    lukem  */
1.6.2.2    lukem int
1.6.2.2    lukem mlyioctl(dev_t dev, u_long cmd, caddr_t data, int flag, struct proc *p)
1.6.2.2    lukem {
1.6.2.2    lukem 	struct mly_softc *mly;
1.6.2.2    lukem 	int rv;
1.6.2.2    lukem
1.6.2.2    lukem 	if (securelevel >= 2)
1.6.2.2    lukem 		return (EPERM);
1.6.2.2    lukem
1.6.2.2    lukem 	mly = device_lookup(&mly_cd, minor(dev));
1.6.2.2    lukem
1.6.2.2    lukem 	switch (cmd) {
1.6.2.2    lukem 	case MLYIO_COMMAND:
1.6.2.2    lukem 		rv = mly_user_command(mly, (void *)data);
1.6.2.2    lukem 		break;
1.6.2.2    lukem 	case MLYIO_HEALTH:
1.6.2.2    lukem 		rv = mly_user_health(mly, (void *)data);
1.6.2.2    lukem 		break;
1.6.2.2    lukem 	default:
1.6.2.2    lukem 		rv = ENOTTY;
1.6.2.2    lukem 		break;
1.6.2.2    lukem 	}
1.6.2.2    lukem
1.6.2.2    lukem 	return (rv);
1.6.2.2    lukem }
1.6.2.2    lukem
1.6.2.2    lukem /*
1.6.2.2    lukem  * Execute a command passed in from userspace.
1.6.2.2    lukem  *
1.6.2.2    lukem  * The control structure contains the actual command for the controller, as
1.6.2.2    lukem  * well as the user-space data pointer and data size, and an optional sense
1.6.2.2    lukem  * buffer size/pointer.  On completion, the data size is adjusted to the
1.6.2.2    lukem  * command residual, and the sense buffer size to the size of the returned
1.6.2.2    lukem  * sense data.
1.6.2.2    lukem  */
1.6.2.2    lukem static int
1.6.2.2    lukem mly_user_command(struct mly_softc *mly, struct mly_user_command *uc)
1.6.2.2    lukem {
1.6.2.2    lukem 	struct mly_ccb	*mc;
1.6.2.2    lukem 	int rv, mapped;
1.6.2.2    lukem
1.6.2.2    lukem 	if ((rv = mly_ccb_alloc(mly, &mc)) != 0)
1.6.2.2    lukem 		return (rv);
1.6.2.2    lukem
1.6.2.2    lukem 	mapped = 0;
1.6.2.2    lukem 	mc->mc_data = NULL;
1.6.2.2    lukem
1.6.2.2    lukem 	/*
1.6.2.2    lukem 	 * Handle data size/direction.
1.6.2.2    lukem 	 */
1.6.2.2    lukem 	if ((mc->mc_length = abs(uc->DataTransferLength)) != 0) {
1.6.2.2    lukem 		if (mc->mc_length > MAXPHYS) {
1.6.2.2    lukem 			rv = EINVAL;
1.6.2.2    lukem 			goto out;
1.6.2.2    lukem 		}
1.6.2.2    lukem
1.6.2.2    lukem 		mc->mc_data = malloc(mc->mc_length, M_DEVBUF, M_WAITOK);
1.6.2.2    lukem 		if (mc->mc_data == NULL) {
1.6.2.2    lukem 			rv = ENOMEM;
1.6.2.2    lukem 			goto out;
1.6.2.2    lukem 		}
1.6.2.2    lukem
1.6.2.2    lukem 		if (uc->DataTransferLength > 0) {
1.6.2.2    lukem 			mc->mc_flags |= MLY_CCB_DATAIN;
1.6.2.2    lukem 			memset(mc->mc_data, 0, mc->mc_length);
1.6.2.2    lukem 		}
1.6.2.2    lukem
1.6.2.2    lukem 		if (uc->DataTransferLength < 0) {
1.6.2.2    lukem 			mc->mc_flags |= MLY_CCB_DATAOUT;
1.6.2.2    lukem 			rv = copyin(uc->DataTransferBuffer, mc->mc_data,
1.6.2.2    lukem 			    mc->mc_length);
1.6.2.2    lukem 			if (rv != 0)
1.6.2.2    lukem 				goto out;
1.6.2.2    lukem 		}
1.6.2.2    lukem
1.6.2.2    lukem 		if ((rv = mly_ccb_map(mly, mc)) != 0)
1.6.2.2    lukem 			goto out;
1.6.2.2    lukem 		mapped = 1;
1.6.2.2    lukem 	}
1.6.2.2    lukem
1.6.2.2    lukem 	/* Copy in the command and execute it. */
1.6.2.2    lukem 	memcpy(mc->mc_packet, &uc->CommandMailbox, sizeof(uc->CommandMailbox));
1.6.2.2    lukem
1.6.2.2    lukem 	if ((rv = mly_ccb_wait(mly, mc, 60000)) != 0)
1.6.2.2    lukem 		goto out;
1.6.2.2    lukem
1.6.2.2    lukem 	/* Return the data to userspace. */
1.6.2.2    lukem 	if (uc->DataTransferLength > 0) {
1.6.2.2    lukem 		rv = copyout(mc->mc_data, uc->DataTransferBuffer,
1.6.2.2    lukem 		    mc->mc_length);
1.6.2.2    lukem 		if (rv != 0)
1.6.2.2    lukem 			goto out;
1.6.2.2    lukem 	}
1.6.2.2    lukem
1.6.2.2    lukem 	/* Return the sense buffer to userspace. */
1.6.2.2    lukem 	if (uc->RequestSenseLength > 0 && mc->mc_sense > 0) {
1.6.2.2    lukem 		rv = copyout(mc->mc_packet, uc->RequestSenseBuffer,
1.6.2.2    lukem 		    min(uc->RequestSenseLength, mc->mc_sense));
1.6.2.2    lukem 		if (rv != 0)
1.6.2.2    lukem 			goto out;
1.6.2.2    lukem 	}
1.6.2.2    lukem
1.6.2.2    lukem 	/* Return command results to userspace (caller will copy out). */
1.6.2.2    lukem 	uc->DataTransferLength = mc->mc_resid;
1.6.2.2    lukem 	uc->RequestSenseLength = min(uc->RequestSenseLength, mc->mc_sense);
1.6.2.2    lukem 	uc->CommandStatus = mc->mc_status;
1.6.2.2    lukem 	rv = 0;
1.6.2.2    lukem
1.6.2.2    lukem  out:
1.6.2.2    lukem  	if (mapped)
1.6.2.2    lukem  		mly_ccb_unmap(mly, mc);
1.6.2.2    lukem 	if (mc->mc_data != NULL)
1.6.2.2    lukem 		free(mc->mc_data, M_DEVBUF);
1.6.2.2    lukem 	if (mc != NULL)
1.6.2.2    lukem 		mly_ccb_free(mly, mc);
1.6.2.2    lukem
1.6.2.2    lukem 	return (rv);
1.6.2.2    lukem }
1.6.2.2    lukem
1.6.2.2    lukem /*
1.6.2.2    lukem  * Return health status to userspace.  If the health change index in the
1.6.2.2    lukem  * user structure does not match that currently exported by the controller,
1.6.2.2    lukem  * we return the current status immediately.  Otherwise, we block until
1.6.2.2    lukem  * either interrupted or new status is delivered.
1.6.2.2    lukem  */
1.6.2.2    lukem static int
1.6.2.2    lukem mly_user_health(struct mly_softc *mly, struct mly_user_health *uh)
1.6.2.2    lukem {
1.6.2.2    lukem 	struct mly_health_status mh;
1.6.2.2    lukem 	int rv, s;
1.6.2.2    lukem
1.6.2.2    lukem 	/* Fetch the current health status from userspace. */
1.6.2.2    lukem 	rv = copyin(uh->HealthStatusBuffer, &mh, sizeof(mh));
1.6.2.2    lukem 	if (rv != 0)
1.6.2.2    lukem 		return (rv);
1.6.2.2    lukem
1.6.2.2    lukem 	/* spin waiting for a status update */
1.6.2.2    lukem 	s = splbio();
1.6.2.2    lukem 	if (mly->mly_event_change == mh.change_counter)
1.6.2.2    lukem 		rv = tsleep(&mly->mly_event_change, PRIBIO | PCATCH,
1.6.2.2    lukem 		    "mlyhealth", 0);
1.6.2.2    lukem 	splx(s);
1.6.2.2    lukem
1.6.2.2    lukem 	if (rv == 0) {
1.6.2.2    lukem 		/*
1.6.2.2    lukem 		 * Copy the controller's health status buffer out (there is
1.6.2.2    lukem 		 * a race here if it changes again).
1.6.2.2    lukem 		 */
1.6.2.2    lukem 		rv = copyout(&mly->mly_mmbox->mmm_health.status,
1.6.2.2    lukem 		    uh->HealthStatusBuffer, sizeof(uh->HealthStatusBuffer));
1.6.2.2    lukem 	}
1.6.2.2    lukem
1.6.2.2    lukem 	return (rv);
1.6.2.2    lukem }