dev/pci/arcmsr.c

1.8.2.4  yamt /*	$NetBSD: arcmsr.c,v 1.8.2.4 2008/03/17 09:15:10 yamt Exp $ */
1.8.2.2  yamt /*	$OpenBSD: arc.c,v 1.68 2007/10/27 03:28:27 dlg Exp $ */
1.8.2.2  yamt
1.8.2.2  yamt /*
1.8.2.4  yamt  * Copyright (c) 2007, 2008 Juan Romero Pardines <xtraeme (at) netbsd.org>
1.8.2.2  yamt  * Copyright (c) 2006 David Gwynne <dlg (at) openbsd.org>
1.8.2.2  yamt  *
1.8.2.2  yamt  * Permission to use, copy, modify, and distribute this software for any
1.8.2.2  yamt  * purpose with or without fee is hereby granted, provided that the above
1.8.2.2  yamt  * copyright notice and this permission notice appear in all copies.
1.8.2.2  yamt  *
1.8.2.2  yamt  * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
1.8.2.2  yamt  * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
1.8.2.2  yamt  * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
1.8.2.2  yamt  * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
1.8.2.2  yamt  * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
1.8.2.2  yamt  * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
1.8.2.2  yamt  * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
1.8.2.2  yamt  */
1.8.2.2  yamt
1.8.2.2  yamt #include "bio.h"
1.8.2.2  yamt
1.8.2.2  yamt #include <sys/cdefs.h>
1.8.2.4  yamt __KERNEL_RCSID(0, "$NetBSD: arcmsr.c,v 1.8.2.4 2008/03/17 09:15:10 yamt Exp $");
1.8.2.2  yamt
1.8.2.2  yamt #include <sys/param.h>
1.8.2.2  yamt #include <sys/buf.h>
1.8.2.2  yamt #include <sys/kernel.h>
1.8.2.2  yamt #include <sys/malloc.h>
1.8.2.2  yamt #include <sys/device.h>
1.8.2.2  yamt #include <sys/kmem.h>
1.8.2.2  yamt #include <sys/kthread.h>
1.8.2.2  yamt #include <sys/mutex.h>
1.8.2.2  yamt #include <sys/condvar.h>
1.8.2.2  yamt #include <sys/rwlock.h>
1.8.2.2  yamt
1.8.2.2  yamt #if NBIO > 0
1.8.2.2  yamt #include <sys/ioctl.h>
1.8.2.2  yamt #include <dev/biovar.h>
1.8.2.2  yamt #endif
1.8.2.2  yamt
1.8.2.2  yamt #include <dev/pci/pcireg.h>
1.8.2.2  yamt #include <dev/pci/pcivar.h>
1.8.2.2  yamt #include <dev/pci/pcidevs.h>
1.8.2.2  yamt
1.8.2.2  yamt #include <dev/scsipi/scsipi_all.h>
1.8.2.2  yamt #include <dev/scsipi/scsi_all.h>
1.8.2.2  yamt #include <dev/scsipi/scsiconf.h>
1.8.2.2  yamt
1.8.2.2  yamt #include <dev/sysmon/sysmonvar.h>
1.8.2.2  yamt
1.8.2.2  yamt #include <sys/bus.h>
1.8.2.2  yamt
1.8.2.2  yamt #include <uvm/uvm_extern.h>	/* for PAGE_SIZE */
1.8.2.2  yamt
1.8.2.2  yamt #include <dev/pci/arcmsrvar.h>
1.8.2.2  yamt
1.8.2.2  yamt /* #define ARC_DEBUG */
1.8.2.2  yamt #ifdef ARC_DEBUG
1.8.2.2  yamt #define ARC_D_INIT	(1<<0)
1.8.2.2  yamt #define ARC_D_RW	(1<<1)
1.8.2.2  yamt #define ARC_D_DB	(1<<2)
1.8.2.2  yamt
1.8.2.2  yamt int arcdebug = 0;
1.8.2.2  yamt
1.8.2.2  yamt #define DPRINTF(p...)		do { if (arcdebug) printf(p); } while (0)
1.8.2.2  yamt #define DNPRINTF(n, p...)	do { if ((n) & arcdebug) printf(p); } while (0)
1.8.2.2  yamt
1.8.2.2  yamt #else
1.8.2.2  yamt #define DPRINTF(p...)		/* p */
1.8.2.2  yamt #define DNPRINTF(n, p...)	/* n, p */
1.8.2.2  yamt #endif
1.8.2.2  yamt
1.8.2.2  yamt /*
1.8.2.2  yamt  * the fw header must always equal this.
1.8.2.2  yamt  */
1.8.2.2  yamt static struct arc_fw_hdr arc_fw_hdr = { 0x5e, 0x01, 0x61 };
1.8.2.2  yamt
1.8.2.2  yamt /*
1.8.2.2  yamt  * autoconf(9) glue.
1.8.2.2  yamt  */
1.8.2.4  yamt static int 	arc_match(device_t, cfdata_t, void *);
1.8.2.2  yamt static void 	arc_attach(device_t, device_t, void *);
1.8.2.2  yamt static int 	arc_detach(device_t, int);
1.8.2.4  yamt static bool 	arc_shutdown(device_t, int);
1.8.2.2  yamt static int 	arc_intr(void *);
1.8.2.2  yamt static void	arc_minphys(struct buf *);
1.8.2.2  yamt
1.8.2.4  yamt CFATTACH_DECL_NEW(arcmsr, sizeof(struct arc_softc),
1.8.2.2  yamt 	arc_match, arc_attach, arc_detach, NULL);
1.8.2.2  yamt
1.8.2.2  yamt /*
1.8.2.2  yamt  * bio(4) and sysmon_envsys(9) glue.
1.8.2.2  yamt  */
1.8.2.2  yamt #if NBIO > 0
1.8.2.4  yamt static int 	arc_bioctl(device_t, u_long, void *);
1.8.2.2  yamt static int 	arc_bio_inq(struct arc_softc *, struct bioc_inq *);
1.8.2.2  yamt static int 	arc_bio_vol(struct arc_softc *, struct bioc_vol *);
1.8.2.3  yamt static int	arc_bio_disk_volume(struct arc_softc *, struct bioc_disk *);
1.8.2.3  yamt static int	arc_bio_disk_novol(struct arc_softc *, struct bioc_disk *);
1.8.2.3  yamt static void	arc_bio_disk_filldata(struct arc_softc *, struct bioc_disk *,
1.8.2.3  yamt 				      struct arc_fw_diskinfo *, int);
1.8.2.2  yamt static int 	arc_bio_alarm(struct arc_softc *, struct bioc_alarm *);
1.8.2.2  yamt static int 	arc_bio_alarm_state(struct arc_softc *, struct bioc_alarm *);
1.8.2.2  yamt static int 	arc_bio_getvol(struct arc_softc *, int,
1.8.2.2  yamt 			       struct arc_fw_volinfo *);
1.8.2.3  yamt static int	arc_bio_setstate(struct arc_softc *, struct bioc_setstate *);
1.8.2.3  yamt static int 	arc_bio_volops(struct arc_softc *, struct bioc_volops *);
1.8.2.2  yamt static void 	arc_create_sensors(void *);
1.8.2.2  yamt static void 	arc_refresh_sensors(struct sysmon_envsys *, envsys_data_t *);
1.8.2.3  yamt static int	arc_fw_parse_status_code(struct arc_softc *, uint8_t *);
1.8.2.2  yamt #endif
1.8.2.2  yamt
1.8.2.2  yamt static int
1.8.2.4  yamt arc_match(device_t parent, cfdata_t match, void *aux)
1.8.2.2  yamt {
1.8.2.2  yamt 	struct pci_attach_args *pa = aux;
1.8.2.2  yamt
1.8.2.2  yamt 	if (PCI_VENDOR(pa->pa_id) == PCI_VENDOR_ARECA) {
1.8.2.2  yamt 		switch (PCI_PRODUCT(pa->pa_id)) {
1.8.2.2  yamt 		case PCI_PRODUCT_ARECA_ARC1110:
1.8.2.2  yamt 		case PCI_PRODUCT_ARECA_ARC1120:
1.8.2.2  yamt 		case PCI_PRODUCT_ARECA_ARC1130:
1.8.2.2  yamt 		case PCI_PRODUCT_ARECA_ARC1160:
1.8.2.2  yamt 		case PCI_PRODUCT_ARECA_ARC1170:
1.8.2.2  yamt 		case PCI_PRODUCT_ARECA_ARC1200:
1.8.2.2  yamt 		case PCI_PRODUCT_ARECA_ARC1202:
1.8.2.2  yamt 		case PCI_PRODUCT_ARECA_ARC1210:
1.8.2.2  yamt 		case PCI_PRODUCT_ARECA_ARC1220:
1.8.2.2  yamt 		case PCI_PRODUCT_ARECA_ARC1230:
1.8.2.2  yamt 		case PCI_PRODUCT_ARECA_ARC1260:
1.8.2.2  yamt 		case PCI_PRODUCT_ARECA_ARC1270:
1.8.2.2  yamt 		case PCI_PRODUCT_ARECA_ARC1280:
1.8.2.2  yamt 		case PCI_PRODUCT_ARECA_ARC1380:
1.8.2.2  yamt 		case PCI_PRODUCT_ARECA_ARC1381:
1.8.2.2  yamt 		case PCI_PRODUCT_ARECA_ARC1680:
1.8.2.2  yamt 		case PCI_PRODUCT_ARECA_ARC1681:
1.8.2.2  yamt 			return 1;
1.8.2.2  yamt 		default:
1.8.2.2  yamt 			break;
1.8.2.2  yamt 		}
1.8.2.2  yamt 	}
1.8.2.2  yamt
1.8.2.2  yamt 	return 0;
1.8.2.2  yamt }
1.8.2.2  yamt
1.8.2.2  yamt static void
1.8.2.2  yamt arc_attach(device_t parent, device_t self, void *aux)
1.8.2.2  yamt {
1.8.2.2  yamt 	struct arc_softc	*sc = device_private(self);
1.8.2.2  yamt 	struct pci_attach_args	*pa = aux;
1.8.2.2  yamt 	struct scsipi_adapter	*adapt = &sc->sc_adapter;
1.8.2.2  yamt 	struct scsipi_channel	*chan = &sc->sc_chan;
1.8.2.2  yamt
1.8.2.4  yamt 	sc->sc_dev = self;
1.8.2.2  yamt 	sc->sc_talking = 0;
1.8.2.2  yamt 	rw_init(&sc->sc_rwlock);
1.8.2.2  yamt 	mutex_init(&sc->sc_mutex, MUTEX_DEFAULT, IPL_BIO);
1.8.2.2  yamt 	cv_init(&sc->sc_condvar, "arcdb");
1.8.2.2  yamt
1.8.2.4  yamt 	if (arc_map_pci_resources(self, pa) != 0) {
1.8.2.2  yamt 		/* error message printed by arc_map_pci_resources */
1.8.2.2  yamt 		return;
1.8.2.2  yamt 	}
1.8.2.2  yamt
1.8.2.4  yamt 	if (arc_query_firmware(self) != 0) {
1.8.2.2  yamt 		/* error message printed by arc_query_firmware */
1.8.2.2  yamt 		goto unmap_pci;
1.8.2.2  yamt 	}
1.8.2.2  yamt
1.8.2.4  yamt 	if (arc_alloc_ccbs(self) != 0) {
1.8.2.2  yamt 		/* error message printed by arc_alloc_ccbs */
1.8.2.2  yamt 		goto unmap_pci;
1.8.2.2  yamt 	}
1.8.2.2  yamt
1.8.2.4  yamt 	if (!pmf_device_register1(self, NULL, NULL, arc_shutdown))
1.8.2.4  yamt 		panic("%s: couldn't establish shutdown handler\n",
1.8.2.4  yamt 		    device_xname(self));
1.8.2.2  yamt
1.8.2.2  yamt 	memset(adapt, 0, sizeof(*adapt));
1.8.2.2  yamt 	adapt->adapt_dev = self;
1.8.2.2  yamt 	adapt->adapt_nchannels = 1;
1.8.2.2  yamt 	adapt->adapt_openings = sc->sc_req_count / ARC_MAX_TARGET;
1.8.2.2  yamt 	adapt->adapt_max_periph = adapt->adapt_openings;
1.8.2.2  yamt 	adapt->adapt_minphys = arc_minphys;
1.8.2.2  yamt 	adapt->adapt_request = arc_scsi_cmd;
1.8.2.2  yamt
1.8.2.2  yamt 	memset(chan, 0, sizeof(*chan));
1.8.2.2  yamt 	chan->chan_adapter = adapt;
1.8.2.2  yamt 	chan->chan_bustype = &scsi_bustype;
1.8.2.2  yamt 	chan->chan_nluns = ARC_MAX_LUN;
1.8.2.2  yamt 	chan->chan_ntargets = ARC_MAX_TARGET;
1.8.2.2  yamt 	chan->chan_id = ARC_MAX_TARGET;
1.8.2.2  yamt 	chan->chan_flags = SCSIPI_CHAN_NOSETTLE;
1.8.2.2  yamt
1.8.2.3  yamt 	/*
1.8.2.3  yamt 	 * Save the device_t returned, because we could to attach
1.8.2.3  yamt 	 * devices via the management interface.
1.8.2.3  yamt 	 */
1.8.2.3  yamt 	sc->sc_scsibus_dv = config_found(self, &sc->sc_chan, scsiprint);
1.8.2.2  yamt
1.8.2.2  yamt 	/* enable interrupts */
1.8.2.2  yamt 	arc_write(sc, ARC_REG_INTRMASK,
1.8.2.2  yamt 	    ~(ARC_REG_INTRMASK_POSTQUEUE|ARC_REG_INTRSTAT_DOORBELL));
1.8.2.2  yamt
1.8.2.2  yamt #if NBIO > 0
1.8.2.2  yamt 	/*
1.8.2.2  yamt 	 * Register the driver to bio(4) and setup the sensors.
1.8.2.2  yamt 	 */
1.8.2.2  yamt 	if (bio_register(self, arc_bioctl) != 0)
1.8.2.2  yamt 		panic("%s: bioctl registration failed\n", device_xname(self));
1.8.2.2  yamt
1.8.2.2  yamt 	/*
1.8.2.2  yamt 	 * you need to talk to the firmware to get volume info. our firmware
1.8.2.2  yamt 	 * interface relies on being able to sleep, so we need to use a thread
1.8.2.2  yamt 	 * to do the work.
1.8.2.2  yamt 	 */
1.8.2.2  yamt 	if (kthread_create(PRI_NONE, KTHREAD_MPSAFE, NULL,
1.8.2.2  yamt 	    arc_create_sensors, sc, &sc->sc_lwp, "arcmsr_sensors") != 0)
1.8.2.2  yamt 		panic("%s: unable to create a kernel thread for sensors\n",
1.8.2.2  yamt 		    device_xname(self));
1.8.2.2  yamt #endif
1.8.2.2  yamt
1.8.2.2  yamt         return;
1.8.2.2  yamt
1.8.2.2  yamt unmap_pci:
1.8.2.2  yamt 	arc_unmap_pci_resources(sc);
1.8.2.2  yamt }
1.8.2.2  yamt
1.8.2.2  yamt static int
1.8.2.2  yamt arc_detach(device_t self, int flags)
1.8.2.2  yamt {
1.8.2.2  yamt 	struct arc_softc		*sc = device_private(self);
1.8.2.2  yamt
1.8.2.2  yamt 	if (arc_msg0(sc, ARC_REG_INB_MSG0_STOP_BGRB) != 0)
1.8.2.4  yamt 		aprint_error_dev(self, "timeout waiting to stop bg rebuild\n");
1.8.2.2  yamt
1.8.2.2  yamt 	if (arc_msg0(sc, ARC_REG_INB_MSG0_FLUSH_CACHE) != 0)
1.8.2.4  yamt 		aprint_error_dev(self, "timeout waiting to flush cache\n");
1.8.2.2  yamt
1.8.2.2  yamt 	return 0;
1.8.2.2  yamt }
1.8.2.2  yamt
1.8.2.4  yamt static bool
1.8.2.4  yamt arc_shutdown(device_t self, int how)
1.8.2.2  yamt {
1.8.2.4  yamt 	struct arc_softc		*sc = device_private(self);
1.8.2.2  yamt
1.8.2.2  yamt 	if (arc_msg0(sc, ARC_REG_INB_MSG0_STOP_BGRB) != 0)
1.8.2.4  yamt 		aprint_error_dev(self, "timeout waiting to stop bg rebuild\n");
1.8.2.2  yamt
1.8.2.2  yamt 	if (arc_msg0(sc, ARC_REG_INB_MSG0_FLUSH_CACHE) != 0)
1.8.2.4  yamt 		aprint_error_dev(self, "timeout waiting to flush cache\n");
1.8.2.4  yamt
1.8.2.4  yamt 	return true;
1.8.2.2  yamt }
1.8.2.2  yamt
1.8.2.2  yamt static void
1.8.2.2  yamt arc_minphys(struct buf *bp)
1.8.2.2  yamt {
1.8.2.2  yamt 	if (bp->b_bcount > MAXPHYS)
1.8.2.2  yamt 		bp->b_bcount = MAXPHYS;
1.8.2.2  yamt 	minphys(bp);
1.8.2.2  yamt }
1.8.2.2  yamt
1.8.2.2  yamt static int
1.8.2.2  yamt arc_intr(void *arg)
1.8.2.2  yamt {
1.8.2.2  yamt 	struct arc_softc		*sc = arg;
1.8.2.2  yamt 	struct arc_ccb			*ccb = NULL;
1.8.2.2  yamt 	char				*kva = ARC_DMA_KVA(sc->sc_requests);
1.8.2.2  yamt 	struct arc_io_cmd		*cmd;
1.8.2.2  yamt 	uint32_t			reg, intrstat;
1.8.2.2  yamt
1.8.2.2  yamt 	mutex_spin_enter(&sc->sc_mutex);
1.8.2.2  yamt 	intrstat = arc_read(sc, ARC_REG_INTRSTAT);
1.8.2.2  yamt 	if (intrstat == 0x0) {
1.8.2.2  yamt 		mutex_spin_exit(&sc->sc_mutex);
1.8.2.2  yamt 		return 0;
1.8.2.2  yamt 	}
1.8.2.2  yamt
1.8.2.2  yamt 	intrstat &= ARC_REG_INTRSTAT_POSTQUEUE | ARC_REG_INTRSTAT_DOORBELL;
1.8.2.2  yamt 	arc_write(sc, ARC_REG_INTRSTAT, intrstat);
1.8.2.2  yamt
1.8.2.2  yamt 	if (intrstat & ARC_REG_INTRSTAT_DOORBELL) {
1.8.2.2  yamt 		if (sc->sc_talking) {
1.8.2.2  yamt 			arc_write(sc, ARC_REG_INTRMASK,
1.8.2.2  yamt 			    ~ARC_REG_INTRMASK_POSTQUEUE);
1.8.2.2  yamt 			cv_broadcast(&sc->sc_condvar);
1.8.2.2  yamt 		} else {
1.8.2.2  yamt 			/* otherwise drop it */
1.8.2.2  yamt 			reg = arc_read(sc, ARC_REG_OUTB_DOORBELL);
1.8.2.2  yamt 			arc_write(sc, ARC_REG_OUTB_DOORBELL, reg);
1.8.2.2  yamt 			if (reg & ARC_REG_OUTB_DOORBELL_WRITE_OK)
1.8.2.2  yamt 				arc_write(sc, ARC_REG_INB_DOORBELL,
1.8.2.2  yamt 				    ARC_REG_INB_DOORBELL_READ_OK);
1.8.2.2  yamt 		}
1.8.2.2  yamt 	}
1.8.2.2  yamt 	mutex_spin_exit(&sc->sc_mutex);
1.8.2.2  yamt
1.8.2.2  yamt 	while ((reg = arc_pop(sc)) != 0xffffffff) {
1.8.2.2  yamt 		cmd = (struct arc_io_cmd *)(kva +
1.8.2.2  yamt 		    ((reg << ARC_REG_REPLY_QUEUE_ADDR_SHIFT) -
1.8.2.2  yamt 		    (uint32_t)ARC_DMA_DVA(sc->sc_requests)));
1.8.2.2  yamt 		ccb = &sc->sc_ccbs[htole32(cmd->cmd.context)];
1.8.2.2  yamt
1.8.2.2  yamt 		bus_dmamap_sync(sc->sc_dmat, ARC_DMA_MAP(sc->sc_requests),
1.8.2.2  yamt 		    ccb->ccb_offset, ARC_MAX_IOCMDLEN,
1.8.2.2  yamt 		    BUS_DMASYNC_PREREAD | BUS_DMASYNC_PREWRITE);
1.8.2.2  yamt
1.8.2.2  yamt 		arc_scsi_cmd_done(sc, ccb, reg);
1.8.2.2  yamt 	}
1.8.2.2  yamt
1.8.2.3  yamt
1.8.2.2  yamt 	return 1;
1.8.2.2  yamt }
1.8.2.2  yamt
1.8.2.2  yamt void
1.8.2.2  yamt arc_scsi_cmd(struct scsipi_channel *chan, scsipi_adapter_req_t req, void *arg)
1.8.2.2  yamt {
1.8.2.2  yamt 	struct scsipi_periph		*periph;
1.8.2.2  yamt 	struct scsipi_xfer		*xs;
1.8.2.2  yamt 	struct scsipi_adapter		*adapt = chan->chan_adapter;
1.8.2.2  yamt 	struct arc_softc		*sc = device_private(adapt->adapt_dev);
1.8.2.2  yamt 	struct arc_ccb			*ccb;
1.8.2.2  yamt 	struct arc_msg_scsicmd		*cmd;
1.8.2.2  yamt 	uint32_t			reg;
1.8.2.2  yamt 	uint8_t				target;
1.8.2.2  yamt
1.8.2.2  yamt 	switch (req) {
1.8.2.2  yamt 	case ADAPTER_REQ_GROW_RESOURCES:
1.8.2.2  yamt 		/* Not supported. */
1.8.2.2  yamt 		return;
1.8.2.2  yamt 	case ADAPTER_REQ_SET_XFER_MODE:
1.8.2.2  yamt 		/* Not supported. */
1.8.2.2  yamt 		return;
1.8.2.2  yamt 	case ADAPTER_REQ_RUN_XFER:
1.8.2.2  yamt 		break;
1.8.2.2  yamt 	}
1.8.2.2  yamt
1.8.2.2  yamt 	mutex_spin_enter(&sc->sc_mutex);
1.8.2.2  yamt
1.8.2.2  yamt 	xs = arg;
1.8.2.2  yamt 	periph = xs->xs_periph;
1.8.2.2  yamt 	target = periph->periph_target;
1.8.2.2  yamt
1.8.2.2  yamt 	if (xs->cmdlen > ARC_MSG_CDBLEN) {
1.8.2.2  yamt 		memset(&xs->sense, 0, sizeof(xs->sense));
1.8.2.2  yamt 		xs->sense.scsi_sense.response_code = SSD_RCODE_VALID | 0x70;
1.8.2.2  yamt 		xs->sense.scsi_sense.flags = SKEY_ILLEGAL_REQUEST;
1.8.2.2  yamt 		xs->sense.scsi_sense.asc = 0x20;
1.8.2.2  yamt 		xs->error = XS_SENSE;
1.8.2.2  yamt 		xs->status = SCSI_CHECK;
1.8.2.2  yamt 		mutex_spin_exit(&sc->sc_mutex);
1.8.2.2  yamt 		scsipi_done(xs);
1.8.2.2  yamt 		return;
1.8.2.2  yamt 	}
1.8.2.2  yamt
1.8.2.2  yamt 	ccb = arc_get_ccb(sc);
1.8.2.2  yamt 	if (ccb == NULL) {
1.8.2.2  yamt 		xs->error = XS_RESOURCE_SHORTAGE;
1.8.2.2  yamt 		mutex_spin_exit(&sc->sc_mutex);
1.8.2.2  yamt 		scsipi_done(xs);
1.8.2.2  yamt 		return;
1.8.2.2  yamt 	}
1.8.2.2  yamt
1.8.2.2  yamt 	ccb->ccb_xs = xs;
1.8.2.2  yamt
1.8.2.2  yamt 	if (arc_load_xs(ccb) != 0) {
1.8.2.2  yamt 		xs->error = XS_DRIVER_STUFFUP;
1.8.2.2  yamt 		arc_put_ccb(sc, ccb);
1.8.2.2  yamt 		mutex_spin_exit(&sc->sc_mutex);
1.8.2.2  yamt 		scsipi_done(xs);
1.8.2.2  yamt 		return;
1.8.2.2  yamt 	}
1.8.2.2  yamt
1.8.2.2  yamt 	cmd = &ccb->ccb_cmd->cmd;
1.8.2.2  yamt 	reg = ccb->ccb_cmd_post;
1.8.2.2  yamt
1.8.2.2  yamt 	/* bus is always 0 */
1.8.2.2  yamt 	cmd->target = target;
1.8.2.2  yamt 	cmd->lun = periph->periph_lun;
1.8.2.2  yamt 	cmd->function = 1; /* XXX magic number */
1.8.2.2  yamt
1.8.2.2  yamt 	cmd->cdb_len = xs->cmdlen;
1.8.2.2  yamt 	cmd->sgl_len = ccb->ccb_dmamap->dm_nsegs;
1.8.2.2  yamt 	if (xs->xs_control & XS_CTL_DATA_OUT)
1.8.2.2  yamt 		cmd->flags = ARC_MSG_SCSICMD_FLAG_WRITE;
1.8.2.2  yamt 	if (ccb->ccb_dmamap->dm_nsegs > ARC_SGL_256LEN) {
1.8.2.2  yamt 		cmd->flags |= ARC_MSG_SCSICMD_FLAG_SGL_BSIZE_512;
1.8.2.2  yamt 		reg |= ARC_REG_POST_QUEUE_BIGFRAME;
1.8.2.2  yamt 	}
1.8.2.2  yamt
1.8.2.2  yamt 	cmd->context = htole32(ccb->ccb_id);
1.8.2.2  yamt 	cmd->data_len = htole32(xs->datalen);
1.8.2.2  yamt
1.8.2.2  yamt 	memcpy(cmd->cdb, xs->cmd, xs->cmdlen);
1.8.2.2  yamt
1.8.2.2  yamt 	/* we've built the command, let's put it on the hw */
1.8.2.2  yamt 	bus_dmamap_sync(sc->sc_dmat, ARC_DMA_MAP(sc->sc_requests),
1.8.2.2  yamt 	    ccb->ccb_offset, ARC_MAX_IOCMDLEN,
1.8.2.2  yamt 	    BUS_DMASYNC_PREREAD | BUS_DMASYNC_PREWRITE);
1.8.2.2  yamt
1.8.2.2  yamt 	arc_push(sc, reg);
1.8.2.2  yamt 	if (xs->xs_control & XS_CTL_POLL) {
1.8.2.2  yamt 		if (arc_complete(sc, ccb, xs->timeout) != 0) {
1.8.2.2  yamt 			xs->error = XS_DRIVER_STUFFUP;
1.8.2.2  yamt 			mutex_spin_exit(&sc->sc_mutex);
1.8.2.2  yamt 			scsipi_done(xs);
1.8.2.2  yamt 			return;
1.8.2.2  yamt 		}
1.8.2.2  yamt 	}
1.8.2.2  yamt
1.8.2.2  yamt 	mutex_spin_exit(&sc->sc_mutex);
1.8.2.2  yamt }
1.8.2.2  yamt
1.8.2.2  yamt int
1.8.2.2  yamt arc_load_xs(struct arc_ccb *ccb)
1.8.2.2  yamt {
1.8.2.2  yamt 	struct arc_softc		*sc = ccb->ccb_sc;
1.8.2.2  yamt 	struct scsipi_xfer		*xs = ccb->ccb_xs;
1.8.2.2  yamt 	bus_dmamap_t			dmap = ccb->ccb_dmamap;
1.8.2.2  yamt 	struct arc_sge			*sgl = ccb->ccb_cmd->sgl, *sge;
1.8.2.2  yamt 	uint64_t			addr;
1.8.2.2  yamt 	int				i, error;
1.8.2.2  yamt
1.8.2.2  yamt 	if (xs->datalen == 0)
1.8.2.2  yamt 		return 0;
1.8.2.2  yamt
1.8.2.2  yamt 	error = bus_dmamap_load(sc->sc_dmat, dmap,
1.8.2.2  yamt 	    xs->data, xs->datalen, NULL,
1.8.2.2  yamt 	    (xs->xs_control & XS_CTL_NOSLEEP) ?
1.8.2.2  yamt 	    BUS_DMA_NOWAIT : BUS_DMA_WAITOK);
1.8.2.2  yamt 	if (error != 0) {
1.8.2.2  yamt 		aprint_error("%s: error %d loading dmamap\n",
1.8.2.4  yamt 		    device_xname(sc->sc_dev), error);
1.8.2.2  yamt 		return 1;
1.8.2.2  yamt 	}
1.8.2.2  yamt
1.8.2.2  yamt 	for (i = 0; i < dmap->dm_nsegs; i++) {
1.8.2.2  yamt 		sge = &sgl[i];
1.8.2.2  yamt
1.8.2.2  yamt 		sge->sg_hdr = htole32(ARC_SGE_64BIT | dmap->dm_segs[i].ds_len);
1.8.2.2  yamt 		addr = dmap->dm_segs[i].ds_addr;
1.8.2.2  yamt 		sge->sg_hi_addr = htole32((uint32_t)(addr >> 32));
1.8.2.2  yamt 		sge->sg_lo_addr = htole32((uint32_t)addr);
1.8.2.2  yamt 	}
1.8.2.2  yamt
1.8.2.2  yamt 	bus_dmamap_sync(sc->sc_dmat, dmap, 0, dmap->dm_mapsize,
1.8.2.2  yamt 	    (xs->xs_control & XS_CTL_DATA_IN) ? BUS_DMASYNC_PREREAD :
1.8.2.2  yamt 	    BUS_DMASYNC_PREWRITE);
1.8.2.2  yamt
1.8.2.2  yamt 	return 0;
1.8.2.2  yamt }
1.8.2.2  yamt
1.8.2.2  yamt void
1.8.2.2  yamt arc_scsi_cmd_done(struct arc_softc *sc, struct arc_ccb *ccb, uint32_t reg)
1.8.2.2  yamt {
1.8.2.2  yamt 	struct scsipi_xfer		*xs = ccb->ccb_xs;
1.8.2.2  yamt 	struct arc_msg_scsicmd		*cmd;
1.8.2.2  yamt
1.8.2.2  yamt 	if (xs->datalen != 0) {
1.8.2.2  yamt 		bus_dmamap_sync(sc->sc_dmat, ccb->ccb_dmamap, 0,
1.8.2.2  yamt 		    ccb->ccb_dmamap->dm_mapsize,
1.8.2.2  yamt 		    (xs->xs_control & XS_CTL_DATA_IN) ?
1.8.2.2  yamt 		    BUS_DMASYNC_POSTREAD : BUS_DMASYNC_POSTWRITE);
1.8.2.2  yamt 		bus_dmamap_unload(sc->sc_dmat, ccb->ccb_dmamap);
1.8.2.2  yamt 	}
1.8.2.2  yamt
1.8.2.2  yamt 	/* timeout_del */
1.8.2.2  yamt 	xs->status |= XS_STS_DONE;
1.8.2.2  yamt
1.8.2.2  yamt 	if (reg & ARC_REG_REPLY_QUEUE_ERR) {
1.8.2.2  yamt 		cmd = &ccb->ccb_cmd->cmd;
1.8.2.2  yamt
1.8.2.2  yamt 		switch (cmd->status) {
1.8.2.2  yamt 		case ARC_MSG_STATUS_SELTIMEOUT:
1.8.2.2  yamt 		case ARC_MSG_STATUS_ABORTED:
1.8.2.2  yamt 		case ARC_MSG_STATUS_INIT_FAIL:
1.8.2.2  yamt 			xs->status = SCSI_OK;
1.8.2.2  yamt 			xs->error = XS_SELTIMEOUT;
1.8.2.2  yamt 			break;
1.8.2.2  yamt
1.8.2.2  yamt 		case SCSI_CHECK:
1.8.2.2  yamt 			memset(&xs->sense, 0, sizeof(xs->sense));
1.8.2.2  yamt 			memcpy(&xs->sense, cmd->sense_data,
1.8.2.2  yamt 			    min(ARC_MSG_SENSELEN, sizeof(xs->sense)));
1.8.2.2  yamt 			xs->sense.scsi_sense.response_code =
1.8.2.2  yamt 			    SSD_RCODE_VALID | 0x70;
1.8.2.2  yamt 			xs->status = SCSI_CHECK;
1.8.2.2  yamt 			xs->error = XS_SENSE;
1.8.2.2  yamt 			xs->resid = 0;
1.8.2.2  yamt 			break;
1.8.2.2  yamt
1.8.2.2  yamt 		default:
1.8.2.2  yamt 			/* unknown device status */
1.8.2.2  yamt 			xs->error = XS_BUSY; /* try again later? */
1.8.2.2  yamt 			xs->status = SCSI_BUSY;
1.8.2.2  yamt 			break;
1.8.2.2  yamt 		}
1.8.2.2  yamt 	} else {
1.8.2.2  yamt 		xs->status = SCSI_OK;
1.8.2.2  yamt 		xs->error = XS_NOERROR;
1.8.2.2  yamt 		xs->resid = 0;
1.8.2.2  yamt 	}
1.8.2.2  yamt
1.8.2.2  yamt 	arc_put_ccb(sc, ccb);
1.8.2.2  yamt 	scsipi_done(xs);
1.8.2.2  yamt }
1.8.2.2  yamt
1.8.2.2  yamt int
1.8.2.2  yamt arc_complete(struct arc_softc *sc, struct arc_ccb *nccb, int timeout)
1.8.2.2  yamt {
1.8.2.2  yamt 	struct arc_ccb			*ccb = NULL;
1.8.2.2  yamt 	char				*kva = ARC_DMA_KVA(sc->sc_requests);
1.8.2.2  yamt 	struct arc_io_cmd		*cmd;
1.8.2.2  yamt 	uint32_t			reg;
1.8.2.2  yamt
1.8.2.2  yamt 	do {
1.8.2.2  yamt 		reg = arc_pop(sc);
1.8.2.2  yamt 		if (reg == 0xffffffff) {
1.8.2.2  yamt 			if (timeout-- == 0)
1.8.2.2  yamt 				return 1;
1.8.2.2  yamt
1.8.2.2  yamt 			delay(1000);
1.8.2.2  yamt 			continue;
1.8.2.2  yamt 		}
1.8.2.2  yamt
1.8.2.2  yamt 		cmd = (struct arc_io_cmd *)(kva +
1.8.2.2  yamt 		    ((reg << ARC_REG_REPLY_QUEUE_ADDR_SHIFT) -
1.8.2.2  yamt 		    ARC_DMA_DVA(sc->sc_requests)));
1.8.2.2  yamt 		ccb = &sc->sc_ccbs[htole32(cmd->cmd.context)];
1.8.2.2  yamt
1.8.2.2  yamt 		bus_dmamap_sync(sc->sc_dmat, ARC_DMA_MAP(sc->sc_requests),
1.8.2.2  yamt 		    ccb->ccb_offset, ARC_MAX_IOCMDLEN,
1.8.2.2  yamt 		    BUS_DMASYNC_PREREAD | BUS_DMASYNC_PREWRITE);
1.8.2.2  yamt
1.8.2.2  yamt 		arc_scsi_cmd_done(sc, ccb, reg);
1.8.2.2  yamt 	} while (nccb != ccb);
1.8.2.2  yamt
1.8.2.2  yamt 	return 0;
1.8.2.2  yamt }
1.8.2.2  yamt
1.8.2.2  yamt int
1.8.2.4  yamt arc_map_pci_resources(device_t self, struct pci_attach_args *pa)
1.8.2.2  yamt {
1.8.2.4  yamt 	struct arc_softc		*sc = device_private(self);
1.8.2.2  yamt 	pcireg_t			memtype;
1.8.2.2  yamt 	pci_intr_handle_t		ih;
1.8.2.2  yamt
1.8.2.2  yamt 	sc->sc_pc = pa->pa_pc;
1.8.2.2  yamt 	sc->sc_tag = pa->pa_tag;
1.8.2.2  yamt 	sc->sc_dmat = pa->pa_dmat;
1.8.2.2  yamt
1.8.2.2  yamt 	memtype = pci_mapreg_type(sc->sc_pc, sc->sc_tag, ARC_PCI_BAR);
1.8.2.2  yamt 	if (pci_mapreg_map(pa, ARC_PCI_BAR, memtype, 0, &sc->sc_iot,
1.8.2.2  yamt 	    &sc->sc_ioh, NULL, &sc->sc_ios) != 0) {
1.8.2.2  yamt 		aprint_error(": unable to map system interface register\n");
1.8.2.2  yamt 		return 1;
1.8.2.2  yamt 	}
1.8.2.2  yamt
1.8.2.2  yamt 	if (pci_intr_map(pa, &ih) != 0) {
1.8.2.2  yamt 		aprint_error(": unable to map interrupt\n");
1.8.2.2  yamt 		goto unmap;
1.8.2.2  yamt 	}
1.8.2.2  yamt
1.8.2.2  yamt 	sc->sc_ih = pci_intr_establish(pa->pa_pc, ih, IPL_BIO,
1.8.2.2  yamt 	    arc_intr, sc);
1.8.2.2  yamt 	if (sc->sc_ih == NULL) {
1.8.2.2  yamt 		aprint_error(": unable to map interrupt [2]\n");
1.8.2.2  yamt 		goto unmap;
1.8.2.2  yamt 	}
1.8.2.4  yamt
1.8.2.4  yamt 	aprint_normal("\n");
1.8.2.4  yamt 	aprint_normal_dev(self, "interrupting at %s\n",
1.8.2.2  yamt 	    pci_intr_string(pa->pa_pc, ih));
1.8.2.2  yamt
1.8.2.2  yamt 	return 0;
1.8.2.2  yamt
1.8.2.2  yamt unmap:
1.8.2.2  yamt 	bus_space_unmap(sc->sc_iot, sc->sc_ioh, sc->sc_ios);
1.8.2.2  yamt 	sc->sc_ios = 0;
1.8.2.2  yamt 	return 1;
1.8.2.2  yamt }
1.8.2.2  yamt
1.8.2.2  yamt void
1.8.2.2  yamt arc_unmap_pci_resources(struct arc_softc *sc)
1.8.2.2  yamt {
1.8.2.2  yamt 	pci_intr_disestablish(sc->sc_pc, sc->sc_ih);
1.8.2.2  yamt 	bus_space_unmap(sc->sc_iot, sc->sc_ioh, sc->sc_ios);
1.8.2.2  yamt 	sc->sc_ios = 0;
1.8.2.2  yamt }
1.8.2.2  yamt
1.8.2.2  yamt int
1.8.2.4  yamt arc_query_firmware(device_t self)
1.8.2.2  yamt {
1.8.2.4  yamt 	struct arc_softc 		*sc = device_private(self);
1.8.2.2  yamt 	struct arc_msg_firmware_info	fwinfo;
1.8.2.2  yamt 	char				string[81]; /* sizeof(vendor)*2+1 */
1.8.2.2  yamt
1.8.2.2  yamt 	if (arc_wait_eq(sc, ARC_REG_OUTB_ADDR1, ARC_REG_OUTB_ADDR1_FIRMWARE_OK,
1.8.2.2  yamt 	    ARC_REG_OUTB_ADDR1_FIRMWARE_OK) != 0) {
1.8.2.4  yamt 		aprint_debug_dev(self, "timeout waiting for firmware ok\n");
1.8.2.2  yamt 		return 1;
1.8.2.2  yamt 	}
1.8.2.2  yamt
1.8.2.2  yamt 	if (arc_msg0(sc, ARC_REG_INB_MSG0_GET_CONFIG) != 0) {
1.8.2.4  yamt 		aprint_debug_dev(self, "timeout waiting for get config\n");
1.8.2.2  yamt 		return 1;
1.8.2.2  yamt 	}
1.8.2.2  yamt
1.8.2.2  yamt 	if (arc_msg0(sc, ARC_REG_INB_MSG0_START_BGRB) != 0) {
1.8.2.4  yamt 		aprint_debug_dev(self, "timeout waiting to start bg rebuild\n");
1.8.2.2  yamt 		return 1;
1.8.2.2  yamt 	}
1.8.2.2  yamt
1.8.2.2  yamt 	arc_read_region(sc, ARC_REG_MSGBUF, &fwinfo, sizeof(fwinfo));
1.8.2.2  yamt
1.8.2.2  yamt 	DNPRINTF(ARC_D_INIT, "%s: signature: 0x%08x\n",
1.8.2.4  yamt 	    device_xname(self), htole32(fwinfo.signature));
1.8.2.2  yamt
1.8.2.2  yamt 	if (htole32(fwinfo.signature) != ARC_FWINFO_SIGNATURE_GET_CONFIG) {
1.8.2.4  yamt 		aprint_error_dev(self, "invalid firmware info from iop\n");
1.8.2.2  yamt 		return 1;
1.8.2.2  yamt 	}
1.8.2.2  yamt
1.8.2.2  yamt 	DNPRINTF(ARC_D_INIT, "%s: request_len: %d\n",
1.8.2.4  yamt 	    device_xname(self), htole32(fwinfo.request_len));
1.8.2.2  yamt 	DNPRINTF(ARC_D_INIT, "%s: queue_len: %d\n",
1.8.2.4  yamt 	    device_xname(self), htole32(fwinfo.queue_len));
1.8.2.2  yamt 	DNPRINTF(ARC_D_INIT, "%s: sdram_size: %d\n",
1.8.2.4  yamt 	    device_xname(self), htole32(fwinfo.sdram_size));
1.8.2.2  yamt 	DNPRINTF(ARC_D_INIT, "%s: sata_ports: %d\n",
1.8.2.4  yamt 	    device_xname(self), htole32(fwinfo.sata_ports));
1.8.2.2  yamt
1.8.2.2  yamt 	scsipi_strvis(string, 81, fwinfo.vendor, sizeof(fwinfo.vendor));
1.8.2.2  yamt 	DNPRINTF(ARC_D_INIT, "%s: vendor: \"%s\"\n",
1.8.2.4  yamt 	    device_xname(self), string);
1.8.2.2  yamt
1.8.2.2  yamt 	scsipi_strvis(string, 17, fwinfo.model, sizeof(fwinfo.model));
1.8.2.4  yamt 	aprint_normal_dev(self, "Areca %s Host Adapter RAID controller\n",
1.8.2.4  yamt 	    string);
1.8.2.2  yamt
1.8.2.2  yamt 	scsipi_strvis(string, 33, fwinfo.fw_version, sizeof(fwinfo.fw_version));
1.8.2.2  yamt 	DNPRINTF(ARC_D_INIT, "%s: version: \"%s\"\n",
1.8.2.4  yamt 	    device_xname(self), string);
1.8.2.3  yamt
1.8.2.4  yamt 	aprint_normal_dev(self, "%d ports, %dMB SDRAM, firmware <%s>\n",
1.8.2.4  yamt 	    htole32(fwinfo.sata_ports), htole32(fwinfo.sdram_size), string);
1.8.2.3  yamt
1.8.2.2  yamt 	if (htole32(fwinfo.request_len) != ARC_MAX_IOCMDLEN) {
1.8.2.4  yamt 		aprint_error_dev(self,
1.8.2.4  yamt 		    "unexpected request frame size (%d != %d)\n",
1.8.2.2  yamt 		    htole32(fwinfo.request_len), ARC_MAX_IOCMDLEN);
1.8.2.2  yamt 		return 1;
1.8.2.2  yamt 	}
1.8.2.2  yamt
1.8.2.2  yamt 	sc->sc_req_count = htole32(fwinfo.queue_len);
1.8.2.2  yamt
1.8.2.2  yamt 	return 0;
1.8.2.2  yamt }
1.8.2.2  yamt
1.8.2.2  yamt #if NBIO > 0
1.8.2.2  yamt static int
1.8.2.4  yamt arc_bioctl(device_t self, u_long cmd, void *addr)
1.8.2.2  yamt {
1.8.2.2  yamt 	struct arc_softc *sc = device_private(self);
1.8.2.2  yamt 	int error = 0;
1.8.2.2  yamt
1.8.2.2  yamt 	switch (cmd) {
1.8.2.2  yamt 	case BIOCINQ:
1.8.2.2  yamt 		error = arc_bio_inq(sc, (struct bioc_inq *)addr);
1.8.2.2  yamt 		break;
1.8.2.2  yamt
1.8.2.2  yamt 	case BIOCVOL:
1.8.2.2  yamt 		error = arc_bio_vol(sc, (struct bioc_vol *)addr);
1.8.2.2  yamt 		break;
1.8.2.2  yamt
1.8.2.2  yamt 	case BIOCDISK:
1.8.2.3  yamt 		error = arc_bio_disk_volume(sc, (struct bioc_disk *)addr);
1.8.2.3  yamt 		break;
1.8.2.3  yamt
1.8.2.3  yamt 	case BIOCDISK_NOVOL:
1.8.2.3  yamt 		error = arc_bio_disk_novol(sc, (struct bioc_disk *)addr);
1.8.2.2  yamt 		break;
1.8.2.2  yamt
1.8.2.2  yamt 	case BIOCALARM:
1.8.2.2  yamt 		error = arc_bio_alarm(sc, (struct bioc_alarm *)addr);
1.8.2.2  yamt 		break;
1.8.2.2  yamt
1.8.2.3  yamt 	case BIOCSETSTATE:
1.8.2.3  yamt 		error = arc_bio_setstate(sc, (struct bioc_setstate *)addr);
1.8.2.3  yamt 		break;
1.8.2.3  yamt
1.8.2.3  yamt 	case BIOCVOLOPS:
1.8.2.3  yamt 		error = arc_bio_volops(sc, (struct bioc_volops *)addr);
1.8.2.3  yamt 		break;
1.8.2.3  yamt
1.8.2.2  yamt 	default:
1.8.2.2  yamt 		error = ENOTTY;
1.8.2.2  yamt 		break;
1.8.2.2  yamt 	}
1.8.2.2  yamt
1.8.2.2  yamt 	return error;
1.8.2.2  yamt }
1.8.2.2  yamt
1.8.2.2  yamt static int
1.8.2.3  yamt arc_fw_parse_status_code(struct arc_softc *sc, uint8_t *reply)
1.8.2.3  yamt {
1.8.2.3  yamt 	switch (*reply) {
1.8.2.3  yamt 	case ARC_FW_CMD_RAIDINVAL:
1.8.2.3  yamt 		printf("%s: firmware error (invalid raid set)\n",
1.8.2.4  yamt 		    device_xname(sc->sc_dev));
1.8.2.3  yamt 		return EINVAL;
1.8.2.3  yamt 	case ARC_FW_CMD_VOLINVAL:
1.8.2.3  yamt 		printf("%s: firmware error (invalid volume set)\n",
1.8.2.4  yamt 		    device_xname(sc->sc_dev));
1.8.2.3  yamt 		return EINVAL;
1.8.2.3  yamt 	case ARC_FW_CMD_NORAID:
1.8.2.3  yamt 		printf("%s: firmware error (unexistent raid set)\n",
1.8.2.4  yamt 		    device_xname(sc->sc_dev));
1.8.2.3  yamt 		return ENODEV;
1.8.2.3  yamt 	case ARC_FW_CMD_NOVOLUME:
1.8.2.3  yamt 		printf("%s: firmware error (unexistent volume set)\n",
1.8.2.4  yamt 		    device_xname(sc->sc_dev));
1.8.2.3  yamt 		return ENODEV;
1.8.2.3  yamt 	case ARC_FW_CMD_NOPHYSDRV:
1.8.2.3  yamt 		printf("%s: firmware error (unexistent physical drive)\n",
1.8.2.4  yamt 		    device_xname(sc->sc_dev));
1.8.2.3  yamt 		return ENODEV;
1.8.2.3  yamt 	case ARC_FW_CMD_PARAM_ERR:
1.8.2.3  yamt 		printf("%s: firmware error (parameter error)\n",
1.8.2.4  yamt 		    device_xname(sc->sc_dev));
1.8.2.3  yamt 		return EINVAL;
1.8.2.3  yamt 	case ARC_FW_CMD_UNSUPPORTED:
1.8.2.3  yamt 		printf("%s: firmware error (unsupported command)\n",
1.8.2.4  yamt 		    device_xname(sc->sc_dev));
1.8.2.3  yamt 		return EOPNOTSUPP;
1.8.2.3  yamt 	case ARC_FW_CMD_DISKCFG_CHGD:
1.8.2.3  yamt 		printf("%s: firmware error (disk configuration changed)\n",
1.8.2.4  yamt 		    device_xname(sc->sc_dev));
1.8.2.3  yamt 		return EINVAL;
1.8.2.3  yamt 	case ARC_FW_CMD_PASS_INVAL:
1.8.2.3  yamt 		printf("%s: firmware error (invalid password)\n",
1.8.2.4  yamt 		    device_xname(sc->sc_dev));
1.8.2.3  yamt 		return EINVAL;
1.8.2.3  yamt 	case ARC_FW_CMD_NODISKSPACE:
1.8.2.3  yamt 		printf("%s: firmware error (no disk space available)\n",
1.8.2.4  yamt 		    device_xname(sc->sc_dev));
1.8.2.3  yamt 		return EOPNOTSUPP;
1.8.2.3  yamt 	case ARC_FW_CMD_CHECKSUM_ERR:
1.8.2.3  yamt 		printf("%s: firmware error (checksum error)\n",
1.8.2.4  yamt 		    device_xname(sc->sc_dev));
1.8.2.3  yamt 		return EINVAL;
1.8.2.3  yamt 	case ARC_FW_CMD_PASS_REQD:
1.8.2.3  yamt 		printf("%s: firmware error (password required)\n",
1.8.2.4  yamt 		    device_xname(sc->sc_dev));
1.8.2.3  yamt 		return EPERM;
1.8.2.3  yamt 	case ARC_FW_CMD_OK:
1.8.2.3  yamt 	default:
1.8.2.3  yamt 		return 0;
1.8.2.3  yamt 	}
1.8.2.3  yamt }
1.8.2.3  yamt
1.8.2.3  yamt static int
1.8.2.2  yamt arc_bio_alarm(struct arc_softc *sc, struct bioc_alarm *ba)
1.8.2.2  yamt {
1.8.2.2  yamt 	uint8_t	request[2], reply[1];
1.8.2.2  yamt 	size_t	len;
1.8.2.2  yamt 	int	error = 0;
1.8.2.2  yamt
1.8.2.2  yamt 	switch (ba->ba_opcode) {
1.8.2.2  yamt 	case BIOC_SAENABLE:
1.8.2.2  yamt 	case BIOC_SADISABLE:
1.8.2.2  yamt 		request[0] = ARC_FW_SET_ALARM;
1.8.2.2  yamt 		request[1] = (ba->ba_opcode == BIOC_SAENABLE) ?
1.8.2.2  yamt 		    ARC_FW_SET_ALARM_ENABLE : ARC_FW_SET_ALARM_DISABLE;
1.8.2.2  yamt 		len = sizeof(request);
1.8.2.2  yamt
1.8.2.2  yamt 		break;
1.8.2.2  yamt
1.8.2.2  yamt 	case BIOC_SASILENCE:
1.8.2.2  yamt 		request[0] = ARC_FW_MUTE_ALARM;
1.8.2.2  yamt 		len = 1;
1.8.2.2  yamt
1.8.2.2  yamt 		break;
1.8.2.2  yamt
1.8.2.2  yamt 	case BIOC_GASTATUS:
1.8.2.2  yamt 		/* system info is too big/ugly to deal with here */
1.8.2.2  yamt 		return arc_bio_alarm_state(sc, ba);
1.8.2.2  yamt
1.8.2.2  yamt 	default:
1.8.2.2  yamt 		return EOPNOTSUPP;
1.8.2.2  yamt 	}
1.8.2.2  yamt
1.8.2.2  yamt 	error = arc_msgbuf(sc, request, len, reply, sizeof(reply));
1.8.2.2  yamt 	if (error != 0)
1.8.2.2  yamt 		return error;
1.8.2.2  yamt
1.8.2.3  yamt 	return arc_fw_parse_status_code(sc, &reply[0]);
1.8.2.2  yamt }
1.8.2.2  yamt
1.8.2.2  yamt static int
1.8.2.2  yamt arc_bio_alarm_state(struct arc_softc *sc, struct bioc_alarm *ba)
1.8.2.2  yamt {
1.8.2.2  yamt 	struct arc_fw_sysinfo	*sysinfo;
1.8.2.3  yamt 	uint8_t			request;
1.8.2.2  yamt 	int			error = 0;
1.8.2.2  yamt
1.8.2.4  yamt 	sysinfo = kmem_zalloc(sizeof(*sysinfo), KM_SLEEP);
1.8.2.2  yamt
1.8.2.2  yamt 	request = ARC_FW_SYSINFO;
1.8.2.2  yamt 	error = arc_msgbuf(sc, &request, sizeof(request),
1.8.2.2  yamt 	    sysinfo, sizeof(struct arc_fw_sysinfo));
1.8.2.2  yamt
1.8.2.2  yamt 	if (error != 0)
1.8.2.2  yamt 		goto out;
1.8.2.2  yamt
1.8.2.2  yamt 	ba->ba_status = sysinfo->alarm;
1.8.2.2  yamt
1.8.2.2  yamt out:
1.8.2.2  yamt 	kmem_free(sysinfo, sizeof(*sysinfo));
1.8.2.2  yamt 	return error;
1.8.2.2  yamt }
1.8.2.2  yamt
1.8.2.3  yamt static int
1.8.2.3  yamt arc_bio_volops(struct arc_softc *sc, struct bioc_volops *bc)
1.8.2.3  yamt {
1.8.2.3  yamt 	/* to create a raid set */
1.8.2.3  yamt 	struct req_craidset {
1.8.2.3  yamt 		uint8_t		cmdcode;
1.8.2.3  yamt 		uint32_t	devmask;
1.8.2.3  yamt 		uint8_t 	raidset_name[16];
1.8.2.3  yamt 	} __packed;
1.8.2.3  yamt
1.8.2.3  yamt 	/* to create a volume set */
1.8.2.3  yamt 	struct req_cvolset {
1.8.2.3  yamt 		uint8_t 	cmdcode;
1.8.2.3  yamt 		uint8_t 	raidset;
1.8.2.3  yamt 		uint8_t 	volset_name[16];
1.8.2.3  yamt 		uint64_t	capacity;
1.8.2.3  yamt 		uint8_t 	raidlevel;
1.8.2.3  yamt 		uint8_t 	stripe;
1.8.2.3  yamt 		uint8_t 	scsi_chan;
1.8.2.3  yamt 		uint8_t 	scsi_target;
1.8.2.3  yamt 		uint8_t 	scsi_lun;
1.8.2.3  yamt 		uint8_t 	tagqueue;
1.8.2.3  yamt 		uint8_t 	cache;
1.8.2.3  yamt 		uint8_t 	speed;
1.8.2.3  yamt 		uint8_t 	quick_init;
1.8.2.3  yamt 	} __packed;
1.8.2.3  yamt
1.8.2.3  yamt 	struct scsibus_softc	*scsibus_sc = NULL;
1.8.2.3  yamt 	struct req_craidset	req_craidset;
1.8.2.3  yamt 	struct req_cvolset 	req_cvolset;
1.8.2.3  yamt 	uint8_t 		request[2];
1.8.2.3  yamt 	uint8_t 		reply[1];
1.8.2.3  yamt 	int 			error = 0;
1.8.2.3  yamt
1.8.2.3  yamt 	switch (bc->bc_opcode) {
1.8.2.3  yamt 	case BIOC_VCREATE_VOLUME:
1.8.2.3  yamt 	    {
1.8.2.3  yamt 		/*
1.8.2.3  yamt 		 * Zero out the structs so that we use some defaults
1.8.2.3  yamt 		 * in raid and volume sets.
1.8.2.3  yamt 		 */
1.8.2.3  yamt 		memset(&req_craidset, 0, sizeof(req_craidset));
1.8.2.3  yamt 		memset(&req_cvolset, 0, sizeof(req_cvolset));
1.8.2.3  yamt
1.8.2.3  yamt 		/*
1.8.2.3  yamt 		 * Firstly we have to create the raid set and
1.8.2.3  yamt 		 * use the default name for all them.
1.8.2.3  yamt 		 */
1.8.2.3  yamt 		req_craidset.cmdcode = ARC_FW_CREATE_RAIDSET;
1.8.2.3  yamt 		req_craidset.devmask = bc->bc_devmask;
1.8.2.3  yamt 		error = arc_msgbuf(sc, &req_craidset, sizeof(req_craidset),
1.8.2.3  yamt 		    reply, sizeof(reply));
1.8.2.3  yamt 		if (error != 0)
1.8.2.3  yamt 			return error;
1.8.2.3  yamt
1.8.2.3  yamt 		error = arc_fw_parse_status_code(sc, &reply[0]);
1.8.2.3  yamt 		if (error) {
1.8.2.3  yamt 			printf("%s: create raidset%d failed\n",
1.8.2.4  yamt 			    device_xname(sc->sc_dev), bc->bc_volid);
1.8.2.3  yamt 			return error;
1.8.2.3  yamt 		}
1.8.2.3  yamt
1.8.2.3  yamt 		/*
1.8.2.3  yamt 		 * At this point the raid set was created, so it's
1.8.2.3  yamt 		 * time to create the volume set.
1.8.2.3  yamt 		 */
1.8.2.3  yamt 		req_cvolset.cmdcode = ARC_FW_CREATE_VOLUME;
1.8.2.3  yamt 		req_cvolset.raidset = bc->bc_volid;
1.8.2.3  yamt 		req_cvolset.capacity = bc->bc_size * ARC_BLOCKSIZE;
1.8.2.3  yamt
1.8.2.3  yamt 		/*
1.8.2.3  yamt 		 * Set the RAID level.
1.8.2.3  yamt 		 */
1.8.2.3  yamt 		switch (bc->bc_level) {
1.8.2.3  yamt 		case 0:
1.8.2.3  yamt 		case 1:
1.8.2.3  yamt 			req_cvolset.raidlevel = bc->bc_level;
1.8.2.3  yamt 			break;
1.8.2.4  yamt 		case BIOC_SVOL_RAID10:
1.8.2.4  yamt 			req_cvolset.raidlevel = 1;
1.8.2.4  yamt 			break;
1.8.2.3  yamt 		case 3:
1.8.2.3  yamt 			req_cvolset.raidlevel = ARC_FW_VOL_RAIDLEVEL_3;
1.8.2.3  yamt 			break;
1.8.2.3  yamt 		case 5:
1.8.2.3  yamt 			req_cvolset.raidlevel = ARC_FW_VOL_RAIDLEVEL_5;
1.8.2.3  yamt 			break;
1.8.2.3  yamt 		case 6:
1.8.2.3  yamt 			req_cvolset.raidlevel = ARC_FW_VOL_RAIDLEVEL_6;
1.8.2.3  yamt 			break;
1.8.2.3  yamt 		default:
1.8.2.3  yamt 			return EOPNOTSUPP;
1.8.2.3  yamt 		}
1.8.2.3  yamt
1.8.2.3  yamt 		/*
1.8.2.3  yamt 		 * Set the stripe size.
1.8.2.3  yamt 		 */
1.8.2.3  yamt 		switch (bc->bc_stripe) {
1.8.2.3  yamt 		case 4:
1.8.2.3  yamt 			req_cvolset.stripe = 0;
1.8.2.3  yamt 			break;
1.8.2.3  yamt 		case 8:
1.8.2.3  yamt 			req_cvolset.stripe = 1;
1.8.2.3  yamt 			break;
1.8.2.3  yamt 		case 16:
1.8.2.3  yamt 			req_cvolset.stripe = 2;
1.8.2.3  yamt 			break;
1.8.2.3  yamt 		case 32:
1.8.2.3  yamt 			req_cvolset.stripe = 3;
1.8.2.3  yamt 			break;
1.8.2.3  yamt 		case 64:
1.8.2.3  yamt 			req_cvolset.stripe = 4;
1.8.2.3  yamt 			break;
1.8.2.3  yamt 		case 128:
1.8.2.3  yamt 			req_cvolset.stripe = 5;
1.8.2.3  yamt 			break;
1.8.2.3  yamt 		default:
1.8.2.3  yamt 			req_cvolset.stripe = 4; /* by default 64K */
1.8.2.3  yamt 			break;
1.8.2.3  yamt 		}
1.8.2.3  yamt
1.8.2.3  yamt 		req_cvolset.scsi_chan = bc->bc_channel;
1.8.2.3  yamt 		req_cvolset.scsi_target = bc->bc_target;
1.8.2.3  yamt 		req_cvolset.scsi_lun = bc->bc_lun;
1.8.2.3  yamt 		req_cvolset.tagqueue = 1; /* always enabled */
1.8.2.3  yamt 		req_cvolset.cache = 1; /* always enabled */
1.8.2.3  yamt 		req_cvolset.speed = 4; /* always max speed */
1.8.2.3  yamt
1.8.2.4  yamt 		/* RAID 1 and 1+0 levels need foreground initialization */
1.8.2.4  yamt 		if (bc->bc_level == 1 || bc->bc_level == BIOC_SVOL_RAID10)
1.8.2.4  yamt 			req_cvolset.quick_init = 1; /* foreground init */
1.8.2.4  yamt
1.8.2.3  yamt 		error = arc_msgbuf(sc, &req_cvolset, sizeof(req_cvolset),
1.8.2.3  yamt 		    reply, sizeof(reply));
1.8.2.3  yamt 		if (error != 0)
1.8.2.3  yamt 			return error;
1.8.2.3  yamt
1.8.2.3  yamt 		error = arc_fw_parse_status_code(sc, &reply[0]);
1.8.2.3  yamt 		if (error) {
1.8.2.3  yamt 			printf("%s: create volumeset%d failed\n",
1.8.2.4  yamt 			    device_xname(sc->sc_dev), bc->bc_volid);
1.8.2.3  yamt 			return error;
1.8.2.3  yamt 		}
1.8.2.3  yamt
1.8.2.3  yamt 		/*
1.8.2.4  yamt 		 * If we are creating a RAID 1 or RAID 1+0 volume,
1.8.2.4  yamt 		 * the volume will be created immediately but it won't
1.8.2.4  yamt 		 * be available until the initialization is done... so
1.8.2.4  yamt 		 * don't bother attaching the sd(4) device.
1.8.2.4  yamt 		 */
1.8.2.4  yamt 		if (bc->bc_level == 1 || bc->bc_level == BIOC_SVOL_RAID10)
1.8.2.4  yamt 			break;
1.8.2.4  yamt
1.8.2.4  yamt 		/*
1.8.2.3  yamt 		 * Do a rescan on the bus to attach the device associated
1.8.2.3  yamt 		 * with the new volume.
1.8.2.3  yamt 		 */
1.8.2.3  yamt 		scsibus_sc = device_private(sc->sc_scsibus_dv);
1.8.2.3  yamt 		(void)scsi_probe_bus(scsibus_sc, bc->bc_target, bc->bc_lun);
1.8.2.3  yamt
1.8.2.3  yamt 		break;
1.8.2.3  yamt 	    }
1.8.2.3  yamt 	case BIOC_VREMOVE_VOLUME:
1.8.2.3  yamt 	    {
1.8.2.3  yamt 		/*
1.8.2.3  yamt 		 * Remove the volume set specified in bc_volid.
1.8.2.3  yamt 		 */
1.8.2.3  yamt 		request[0] = ARC_FW_DELETE_VOLUME;
1.8.2.3  yamt 		request[1] = bc->bc_volid;
1.8.2.3  yamt 		error = arc_msgbuf(sc, request, sizeof(request),
1.8.2.3  yamt 		    reply, sizeof(reply));
1.8.2.3  yamt 		if (error != 0)
1.8.2.3  yamt 			return error;
1.8.2.3  yamt
1.8.2.3  yamt 		error = arc_fw_parse_status_code(sc, &reply[0]);
1.8.2.3  yamt 		if (error) {
1.8.2.3  yamt 			printf("%s: delete volumeset%d failed\n",
1.8.2.4  yamt 			    device_xname(sc->sc_dev), bc->bc_volid);
1.8.2.3  yamt 			return error;
1.8.2.3  yamt 		}
1.8.2.3  yamt
1.8.2.3  yamt 		/*
1.8.2.3  yamt 		 * Detach the sd(4) device associated with the volume,
1.8.2.3  yamt 		 * but if there's an error don't make it a priority.
1.8.2.3  yamt 		 */
1.8.2.3  yamt 		error = scsipi_target_detach(&sc->sc_chan, bc->bc_target,
1.8.2.3  yamt 					     bc->bc_lun, 0);
1.8.2.3  yamt 		if (error)
1.8.2.3  yamt 			printf("%s: couldn't detach sd device for volume %d "
1.8.2.3  yamt 			    "at %u:%u.%u (error=%d)\n",
1.8.2.4  yamt 			    device_xname(sc->sc_dev), bc->bc_volid,
1.8.2.3  yamt 			    bc->bc_channel, bc->bc_target, bc->bc_lun, error);
1.8.2.3  yamt
1.8.2.3  yamt 		/*
1.8.2.3  yamt 		 * and remove the raid set specified in bc_volid,
1.8.2.3  yamt 		 * we only care about volumes.
1.8.2.3  yamt 		 */
1.8.2.3  yamt 		request[0] = ARC_FW_DELETE_RAIDSET;
1.8.2.3  yamt 		request[1] = bc->bc_volid;
1.8.2.3  yamt 		error = arc_msgbuf(sc, request, sizeof(request),
1.8.2.3  yamt 		    reply, sizeof(reply));
1.8.2.3  yamt 		if (error != 0)
1.8.2.3  yamt 			return error;
1.8.2.3  yamt
1.8.2.3  yamt 		error = arc_fw_parse_status_code(sc, &reply[0]);
1.8.2.3  yamt 		if (error) {
1.8.2.3  yamt 			printf("%s: delete raidset%d failed\n",
1.8.2.4  yamt 			    device_xname(sc->sc_dev), bc->bc_volid);
1.8.2.3  yamt 			return error;
1.8.2.3  yamt 		}
1.8.2.3  yamt
1.8.2.3  yamt 		break;
1.8.2.3  yamt 	    }
1.8.2.3  yamt 	default:
1.8.2.3  yamt 		return EOPNOTSUPP;
1.8.2.3  yamt 	}
1.8.2.3  yamt
1.8.2.3  yamt 	return error;
1.8.2.3  yamt }
1.8.2.3  yamt
1.8.2.3  yamt static int
1.8.2.3  yamt arc_bio_setstate(struct arc_softc *sc, struct bioc_setstate *bs)
1.8.2.3  yamt {
1.8.2.3  yamt 	/* for a hotspare disk */
1.8.2.3  yamt 	struct request_hs {
1.8.2.3  yamt 		uint8_t		cmdcode;
1.8.2.3  yamt 		uint32_t	devmask;
1.8.2.3  yamt 	} __packed;
1.8.2.3  yamt
1.8.2.3  yamt 	/* for a pass-through disk */
1.8.2.3  yamt 	struct request_pt {
1.8.2.3  yamt 		uint8_t 	cmdcode;
1.8.2.3  yamt 		uint8_t		devid;
1.8.2.3  yamt 		uint8_t		scsi_chan;
1.8.2.3  yamt 		uint8_t 	scsi_id;
1.8.2.3  yamt 		uint8_t 	scsi_lun;
1.8.2.3  yamt 		uint8_t 	tagged_queue;
1.8.2.3  yamt 		uint8_t 	cache_mode;
1.8.2.3  yamt 		uint8_t 	max_speed;
1.8.2.3  yamt 	} __packed;
1.8.2.3  yamt
1.8.2.3  yamt 	struct scsibus_softc	*scsibus_sc = NULL;
1.8.2.3  yamt 	struct request_hs	req_hs; /* to add/remove hotspare */
1.8.2.3  yamt 	struct request_pt	req_pt;	/* to add a pass-through */
1.8.2.3  yamt 	uint8_t			req_gen[2];
1.8.2.3  yamt 	uint8_t			reply[1];
1.8.2.3  yamt 	int			error = 0;
1.8.2.3  yamt
1.8.2.3  yamt 	switch (bs->bs_status) {
1.8.2.3  yamt 	case BIOC_SSHOTSPARE:
1.8.2.3  yamt 	    {
1.8.2.3  yamt 		req_hs.cmdcode = ARC_FW_CREATE_HOTSPARE;
1.8.2.3  yamt 		req_hs.devmask = (1 << bs->bs_target);
1.8.2.3  yamt 		goto hotspare;
1.8.2.3  yamt 	    }
1.8.2.3  yamt 	case BIOC_SSDELHOTSPARE:
1.8.2.3  yamt 	    {
1.8.2.3  yamt 		req_hs.cmdcode = ARC_FW_DELETE_HOTSPARE;
1.8.2.3  yamt 		req_hs.devmask = (1 << bs->bs_target);
1.8.2.3  yamt 		goto hotspare;
1.8.2.3  yamt 	    }
1.8.2.3  yamt 	case BIOC_SSPASSTHRU:
1.8.2.3  yamt 	    {
1.8.2.3  yamt 		req_pt.cmdcode = ARC_FW_CREATE_PASSTHRU;
1.8.2.3  yamt 		req_pt.devid = bs->bs_other_id; /* this wants device# */
1.8.2.3  yamt 		req_pt.scsi_chan = bs->bs_channel;
1.8.2.3  yamt 		req_pt.scsi_id = bs->bs_target;
1.8.2.3  yamt 		req_pt.scsi_lun = bs->bs_lun;
1.8.2.3  yamt 		req_pt.tagged_queue = 1; /* always enabled */
1.8.2.3  yamt 		req_pt.cache_mode = 1; /* always enabled */
1.8.2.3  yamt 		req_pt.max_speed = 4; /* always max speed */
1.8.2.3  yamt
1.8.2.3  yamt 		error = arc_msgbuf(sc, &req_pt, sizeof(req_pt),
1.8.2.3  yamt 		    reply, sizeof(reply));
1.8.2.3  yamt 		if (error != 0)
1.8.2.3  yamt 			return error;
1.8.2.3  yamt
1.8.2.3  yamt 		/*
1.8.2.3  yamt 		 * Do a rescan on the bus to attach the new device
1.8.2.3  yamt 		 * associated with the pass-through disk.
1.8.2.3  yamt 		 */
1.8.2.3  yamt 		scsibus_sc = device_private(sc->sc_scsibus_dv);
1.8.2.3  yamt 		(void)scsi_probe_bus(scsibus_sc, bs->bs_target, bs->bs_lun);
1.8.2.3  yamt
1.8.2.3  yamt 		goto out;
1.8.2.3  yamt 	    }
1.8.2.3  yamt 	case BIOC_SSDELPASSTHRU:
1.8.2.3  yamt 	    {
1.8.2.3  yamt 		req_gen[0] = ARC_FW_DELETE_PASSTHRU;
1.8.2.3  yamt 		req_gen[1] = bs->bs_target;
1.8.2.3  yamt 		error = arc_msgbuf(sc, &req_gen, sizeof(req_gen),
1.8.2.3  yamt 		    reply, sizeof(reply));
1.8.2.3  yamt 		if (error != 0)
1.8.2.3  yamt 			return error;
1.8.2.3  yamt
1.8.2.3  yamt 		/*
1.8.2.3  yamt 		 * Detach the sd device associated with this pass-through disk.
1.8.2.3  yamt 		 */
1.8.2.3  yamt 		error = scsipi_target_detach(&sc->sc_chan, bs->bs_target,
1.8.2.3  yamt 					     bs->bs_lun, 0);
1.8.2.3  yamt 		if (error)
1.8.2.3  yamt 			printf("%s: couldn't detach sd device for the "
1.8.2.3  yamt 			    "pass-through disk at %u:%u.%u (error=%d)\n",
1.8.2.4  yamt 			    device_xname(sc->sc_dev),
1.8.2.3  yamt 			    bs->bs_channel, bs->bs_target, bs->bs_lun, error);
1.8.2.3  yamt
1.8.2.3  yamt 		goto out;
1.8.2.3  yamt 	    }
1.8.2.3  yamt 	case BIOC_SSCHECKSTART_VOL:
1.8.2.3  yamt 	    {
1.8.2.3  yamt 		req_gen[0] = ARC_FW_START_CHECKVOL;
1.8.2.3  yamt 		req_gen[1] = bs->bs_volid;
1.8.2.3  yamt 		error = arc_msgbuf(sc, &req_gen, sizeof(req_gen),
1.8.2.3  yamt 		    reply, sizeof(reply));
1.8.2.3  yamt 		if (error != 0)
1.8.2.3  yamt 			return error;
1.8.2.3  yamt
1.8.2.3  yamt 		goto out;
1.8.2.3  yamt 	    }
1.8.2.3  yamt 	case BIOC_SSCHECKSTOP_VOL:
1.8.2.3  yamt 	    {
1.8.2.3  yamt 		uint8_t req = ARC_FW_STOP_CHECKVOL;
1.8.2.3  yamt 		error = arc_msgbuf(sc, &req, 1, reply, sizeof(reply));
1.8.2.3  yamt 		if (error != 0)
1.8.2.3  yamt 			return error;
1.8.2.3  yamt
1.8.2.3  yamt 		goto out;
1.8.2.3  yamt 	    }
1.8.2.3  yamt 	default:
1.8.2.3  yamt 		return EOPNOTSUPP;
1.8.2.3  yamt 	}
1.8.2.3  yamt
1.8.2.3  yamt hotspare:
1.8.2.3  yamt 	error = arc_msgbuf(sc, &req_hs, sizeof(req_hs),
1.8.2.3  yamt 	    reply, sizeof(reply));
1.8.2.3  yamt 	if (error != 0)
1.8.2.3  yamt 		return error;
1.8.2.3  yamt
1.8.2.3  yamt out:
1.8.2.3  yamt 	return arc_fw_parse_status_code(sc, &reply[0]);
1.8.2.3  yamt }
1.8.2.2  yamt
1.8.2.2  yamt static int
1.8.2.2  yamt arc_bio_inq(struct arc_softc *sc, struct bioc_inq *bi)
1.8.2.2  yamt {
1.8.2.2  yamt 	uint8_t			request[2];
1.8.2.4  yamt 	struct arc_fw_sysinfo	*sysinfo = NULL;
1.8.2.3  yamt 	struct arc_fw_raidinfo	*raidinfo;
1.8.2.4  yamt 	int			nvols = 0, i;
1.8.2.2  yamt 	int			error = 0;
1.8.2.2  yamt
1.8.2.4  yamt 	raidinfo = kmem_zalloc(sizeof(*raidinfo), KM_SLEEP);
1.8.2.2  yamt
1.8.2.4  yamt 	if (!sc->sc_maxraidset || !sc->sc_maxvolset || !sc->sc_cchans) {
1.8.2.4  yamt 		sysinfo = kmem_zalloc(sizeof(*sysinfo), KM_SLEEP);
1.8.2.2  yamt
1.8.2.4  yamt 		request[0] = ARC_FW_SYSINFO;
1.8.2.4  yamt 		error = arc_msgbuf(sc, request, 1, sysinfo,
1.8.2.4  yamt 		    sizeof(struct arc_fw_sysinfo));
1.8.2.4  yamt 		if (error != 0)
1.8.2.4  yamt 			goto out;
1.8.2.4  yamt
1.8.2.4  yamt 		sc->sc_maxraidset = sysinfo->max_raid_set;
1.8.2.4  yamt 		sc->sc_maxvolset = sysinfo->max_volume_set;
1.8.2.4  yamt 		sc->sc_cchans = sysinfo->ide_channels;
1.8.2.4  yamt 	}
1.8.2.2  yamt
1.8.2.3  yamt 	request[0] = ARC_FW_RAIDINFO;
1.8.2.4  yamt 	for (i = 0; i < sc->sc_maxraidset; i++) {
1.8.2.2  yamt 		request[1] = i;
1.8.2.3  yamt 		error = arc_msgbuf(sc, request, sizeof(request), raidinfo,
1.8.2.3  yamt 		    sizeof(struct arc_fw_raidinfo));
1.8.2.2  yamt 		if (error != 0)
1.8.2.2  yamt 			goto out;
1.8.2.2  yamt
1.8.2.3  yamt 		if (raidinfo->volumes)
1.8.2.2  yamt 			nvols++;
1.8.2.2  yamt 	}
1.8.2.2  yamt
1.8.2.4  yamt 	strlcpy(bi->bi_dev, device_xname(sc->sc_dev), sizeof(bi->bi_dev));
1.8.2.2  yamt 	bi->bi_novol = nvols;
1.8.2.4  yamt 	bi->bi_nodisk = sc->sc_cchans;
1.8.2.3  yamt
1.8.2.2  yamt out:
1.8.2.4  yamt 	if (sysinfo)
1.8.2.4  yamt 		kmem_free(sysinfo, sizeof(*sysinfo));
1.8.2.3  yamt 	kmem_free(raidinfo, sizeof(*raidinfo));
1.8.2.2  yamt 	return error;
1.8.2.2  yamt }
1.8.2.2  yamt
1.8.2.2  yamt static int
1.8.2.2  yamt arc_bio_getvol(struct arc_softc *sc, int vol, struct arc_fw_volinfo *volinfo)
1.8.2.2  yamt {
1.8.2.2  yamt 	uint8_t			request[2];
1.8.2.2  yamt 	int			error = 0;
1.8.2.4  yamt 	int			nvols = 0, i;
1.8.2.2  yamt
1.8.2.2  yamt 	request[0] = ARC_FW_VOLINFO;
1.8.2.4  yamt 	for (i = 0; i < sc->sc_maxvolset; i++) {
1.8.2.2  yamt 		request[1] = i;
1.8.2.2  yamt 		error = arc_msgbuf(sc, request, sizeof(request), volinfo,
1.8.2.2  yamt 		    sizeof(struct arc_fw_volinfo));
1.8.2.2  yamt 		if (error != 0)
1.8.2.2  yamt 			goto out;
1.8.2.2  yamt
1.8.2.3  yamt 		if (volinfo->capacity == 0 && volinfo->capacity2 == 0)
1.8.2.2  yamt 			continue;
1.8.2.2  yamt
1.8.2.2  yamt 		if (nvols == vol)
1.8.2.2  yamt 			break;
1.8.2.2  yamt
1.8.2.2  yamt 		nvols++;
1.8.2.2  yamt 	}
1.8.2.2  yamt
1.8.2.2  yamt 	if (nvols != vol ||
1.8.2.3  yamt 	    (volinfo->capacity == 0 && volinfo->capacity2 == 0)) {
1.8.2.2  yamt 		error = ENODEV;
1.8.2.2  yamt 		goto out;
1.8.2.2  yamt 	}
1.8.2.2  yamt
1.8.2.2  yamt out:
1.8.2.2  yamt 	return error;
1.8.2.2  yamt }
1.8.2.2  yamt
1.8.2.2  yamt static int
1.8.2.2  yamt arc_bio_vol(struct arc_softc *sc, struct bioc_vol *bv)
1.8.2.2  yamt {
1.8.2.2  yamt 	struct arc_fw_volinfo	*volinfo;
1.8.2.2  yamt 	uint64_t		blocks;
1.8.2.2  yamt 	uint32_t		status;
1.8.2.2  yamt 	int			error = 0;
1.8.2.2  yamt
1.8.2.4  yamt 	volinfo = kmem_zalloc(sizeof(*volinfo), KM_SLEEP);
1.8.2.2  yamt
1.8.2.2  yamt 	error = arc_bio_getvol(sc, bv->bv_volid, volinfo);
1.8.2.2  yamt 	if (error != 0)
1.8.2.2  yamt 		goto out;
1.8.2.2  yamt
1.8.2.2  yamt 	bv->bv_percent = -1;
1.8.2.2  yamt 	bv->bv_seconds = 0;
1.8.2.2  yamt
1.8.2.2  yamt 	status = htole32(volinfo->volume_status);
1.8.2.2  yamt 	if (status == 0x0) {
1.8.2.2  yamt 		if (htole32(volinfo->fail_mask) == 0x0)
1.8.2.2  yamt 			bv->bv_status = BIOC_SVONLINE;
1.8.2.2  yamt 		else
1.8.2.2  yamt 			bv->bv_status = BIOC_SVDEGRADED;
1.8.2.2  yamt 	} else if (status & ARC_FW_VOL_STATUS_NEED_REGEN) {
1.8.2.2  yamt 		bv->bv_status = BIOC_SVDEGRADED;
1.8.2.2  yamt 	} else if (status & ARC_FW_VOL_STATUS_FAILED) {
1.8.2.2  yamt 		bv->bv_status = BIOC_SVOFFLINE;
1.8.2.2  yamt 	} else if (status & ARC_FW_VOL_STATUS_INITTING) {
1.8.2.2  yamt 		bv->bv_status = BIOC_SVBUILDING;
1.8.2.3  yamt 		bv->bv_percent = htole32(volinfo->progress);
1.8.2.2  yamt 	} else if (status & ARC_FW_VOL_STATUS_REBUILDING) {
1.8.2.2  yamt 		bv->bv_status = BIOC_SVREBUILD;
1.8.2.3  yamt 		bv->bv_percent = htole32(volinfo->progress);
1.8.2.2  yamt 	} else if (status & ARC_FW_VOL_STATUS_MIGRATING) {
1.8.2.2  yamt 		bv->bv_status = BIOC_SVMIGRATING;
1.8.2.3  yamt 		bv->bv_percent = htole32(volinfo->progress);
1.8.2.3  yamt 	} else if (status & ARC_FW_VOL_STATUS_CHECKING) {
1.8.2.3  yamt 		bv->bv_status = BIOC_SVCHECKING;
1.8.2.3  yamt 		bv->bv_percent = htole32(volinfo->progress);
1.8.2.4  yamt 	} else if (status & ARC_FW_VOL_STATUS_NEED_INIT) {
1.8.2.4  yamt 		bv->bv_status = BIOC_SVOFFLINE;
1.8.2.4  yamt 	} else {
1.8.2.4  yamt 		printf("%s: volume %d status 0x%x\n",
1.8.2.4  yamt 		    device_xname(sc->sc_dev), bv->bv_volid, status);
1.8.2.2  yamt 	}
1.8.2.2  yamt
1.8.2.2  yamt 	blocks = (uint64_t)htole32(volinfo->capacity2) << 32;
1.8.2.2  yamt 	blocks += (uint64_t)htole32(volinfo->capacity);
1.8.2.2  yamt 	bv->bv_size = blocks * ARC_BLOCKSIZE; /* XXX */
1.8.2.2  yamt
1.8.2.2  yamt 	switch (volinfo->raid_level) {
1.8.2.2  yamt 	case ARC_FW_VOL_RAIDLEVEL_0:
1.8.2.2  yamt 		bv->bv_level = 0;
1.8.2.2  yamt 		break;
1.8.2.2  yamt 	case ARC_FW_VOL_RAIDLEVEL_1:
1.8.2.4  yamt 		if (volinfo->member_disks > 2)
1.8.2.4  yamt 			bv->bv_level = BIOC_SVOL_RAID10;
1.8.2.4  yamt 		else
1.8.2.4  yamt 			bv->bv_level = 1;
1.8.2.2  yamt 		break;
1.8.2.2  yamt 	case ARC_FW_VOL_RAIDLEVEL_3:
1.8.2.2  yamt 		bv->bv_level = 3;
1.8.2.2  yamt 		break;
1.8.2.2  yamt 	case ARC_FW_VOL_RAIDLEVEL_5:
1.8.2.2  yamt 		bv->bv_level = 5;
1.8.2.2  yamt 		break;
1.8.2.2  yamt 	case ARC_FW_VOL_RAIDLEVEL_6:
1.8.2.2  yamt 		bv->bv_level = 6;
1.8.2.2  yamt 		break;
1.8.2.2  yamt 	case ARC_FW_VOL_RAIDLEVEL_PASSTHRU:
1.8.2.3  yamt 		bv->bv_level = BIOC_SVOL_PASSTHRU;
1.8.2.3  yamt 		break;
1.8.2.2  yamt 	default:
1.8.2.2  yamt 		bv->bv_level = -1;
1.8.2.2  yamt 		break;
1.8.2.2  yamt 	}
1.8.2.2  yamt
1.8.2.2  yamt 	bv->bv_nodisk = volinfo->member_disks;
1.8.2.3  yamt 	bv->bv_stripe_size = volinfo->stripe_size / 2;
1.8.2.3  yamt 	snprintf(bv->bv_dev, sizeof(bv->bv_dev), "sd%d", bv->bv_volid);
1.8.2.3  yamt 	scsipi_strvis(bv->bv_vendor, sizeof(bv->bv_vendor), volinfo->set_name,
1.8.2.3  yamt 	    sizeof(volinfo->set_name));
1.8.2.2  yamt
1.8.2.2  yamt out:
1.8.2.2  yamt 	kmem_free(volinfo, sizeof(*volinfo));
1.8.2.2  yamt 	return error;
1.8.2.2  yamt }
1.8.2.2  yamt
1.8.2.2  yamt static int
1.8.2.3  yamt arc_bio_disk_novol(struct arc_softc *sc, struct bioc_disk *bd)
1.8.2.2  yamt {
1.8.2.2  yamt 	struct arc_fw_diskinfo	*diskinfo;
1.8.2.3  yamt 	uint8_t			request[2];
1.8.2.2  yamt 	int			error = 0;
1.8.2.3  yamt
1.8.2.4  yamt 	diskinfo = kmem_zalloc(sizeof(*diskinfo), KM_SLEEP);
1.8.2.3  yamt
1.8.2.4  yamt 	if (bd->bd_diskid >= sc->sc_cchans) {
1.8.2.3  yamt 		error = ENODEV;
1.8.2.3  yamt 		goto out;
1.8.2.3  yamt 	}
1.8.2.3  yamt
1.8.2.3  yamt 	request[0] = ARC_FW_DISKINFO;
1.8.2.3  yamt 	request[1] = bd->bd_diskid;
1.8.2.3  yamt 	error = arc_msgbuf(sc, request, sizeof(request),
1.8.2.3  yamt 	    diskinfo, sizeof(struct arc_fw_diskinfo));
1.8.2.3  yamt 	if (error != 0)
1.8.2.4  yamt 		goto out;
1.8.2.3  yamt
1.8.2.3  yamt 	/* skip disks with no capacity */
1.8.2.3  yamt 	if (htole32(diskinfo->capacity) == 0 &&
1.8.2.3  yamt 	    htole32(diskinfo->capacity2) == 0)
1.8.2.3  yamt 		goto out;
1.8.2.3  yamt
1.8.2.3  yamt 	bd->bd_disknovol = true;
1.8.2.3  yamt 	arc_bio_disk_filldata(sc, bd, diskinfo, bd->bd_diskid);
1.8.2.3  yamt
1.8.2.3  yamt out:
1.8.2.3  yamt 	kmem_free(diskinfo, sizeof(*diskinfo));
1.8.2.3  yamt 	return error;
1.8.2.3  yamt }
1.8.2.3  yamt
1.8.2.3  yamt static void
1.8.2.3  yamt arc_bio_disk_filldata(struct arc_softc *sc, struct bioc_disk *bd,
1.8.2.3  yamt 		     struct arc_fw_diskinfo *diskinfo, int diskid)
1.8.2.3  yamt {
1.8.2.2  yamt 	uint64_t		blocks;
1.8.2.2  yamt 	char			model[81];
1.8.2.2  yamt 	char			serial[41];
1.8.2.2  yamt 	char			rev[17];
1.8.2.2  yamt
1.8.2.3  yamt 	switch (htole32(diskinfo->device_state)) {
1.8.2.3  yamt 	case ARC_FW_DISK_PASSTHRU:
1.8.2.3  yamt 		bd->bd_status = BIOC_SDPASSTHRU;
1.8.2.3  yamt 		break;
1.8.2.3  yamt 	case ARC_FW_DISK_RAIDMEMBER:
1.8.2.3  yamt 		bd->bd_status = BIOC_SDONLINE;
1.8.2.3  yamt 		break;
1.8.2.3  yamt 	case ARC_FW_DISK_HOTSPARE:
1.8.2.3  yamt 		bd->bd_status = BIOC_SDHOTSPARE;
1.8.2.3  yamt 		break;
1.8.2.3  yamt 	case ARC_FW_DISK_UNUSED:
1.8.2.3  yamt 		bd->bd_status = BIOC_SDUNUSED;
1.8.2.3  yamt 		break;
1.8.2.4  yamt 	case 0:
1.8.2.4  yamt 		/* disk has been disconnected */
1.8.2.4  yamt 		bd->bd_status = BIOC_SDOFFLINE;
1.8.2.4  yamt 		bd->bd_channel = 1;
1.8.2.4  yamt 		bd->bd_target = 0;
1.8.2.4  yamt 		bd->bd_lun = 0;
1.8.2.4  yamt 		strlcpy(bd->bd_vendor, "disk missing", sizeof(bd->bd_vendor));
1.8.2.4  yamt 		break;
1.8.2.3  yamt 	default:
1.8.2.3  yamt 		printf("%s: unknown disk device_state: 0x%x\n", __func__,
1.8.2.3  yamt 		    htole32(diskinfo->device_state));
1.8.2.3  yamt 		bd->bd_status = BIOC_SDINVALID;
1.8.2.3  yamt 		return;
1.8.2.3  yamt 	}
1.8.2.3  yamt
1.8.2.3  yamt 	blocks = (uint64_t)htole32(diskinfo->capacity2) << 32;
1.8.2.3  yamt 	blocks += (uint64_t)htole32(diskinfo->capacity);
1.8.2.3  yamt 	bd->bd_size = blocks * ARC_BLOCKSIZE; /* XXX */
1.8.2.3  yamt
1.8.2.3  yamt 	scsipi_strvis(model, 81, diskinfo->model, sizeof(diskinfo->model));
1.8.2.3  yamt 	scsipi_strvis(serial, 41, diskinfo->serial, sizeof(diskinfo->serial));
1.8.2.3  yamt 	scsipi_strvis(rev, 17, diskinfo->firmware_rev,
1.8.2.3  yamt 	    sizeof(diskinfo->firmware_rev));
1.8.2.3  yamt
1.8.2.3  yamt 	snprintf(bd->bd_vendor, sizeof(bd->bd_vendor), "%s %s", model, rev);
1.8.2.3  yamt 	strlcpy(bd->bd_serial, serial, sizeof(bd->bd_serial));
1.8.2.3  yamt
1.8.2.3  yamt #if 0
1.8.2.3  yamt 	bd->bd_channel = diskinfo->scsi_attr.channel;
1.8.2.3  yamt 	bd->bd_target = diskinfo->scsi_attr.target;
1.8.2.3  yamt 	bd->bd_lun = diskinfo->scsi_attr.lun;
1.8.2.3  yamt #endif
1.8.2.3  yamt
1.8.2.3  yamt 	/*
1.8.2.3  yamt 	 * the firwmare doesnt seem to fill scsi_attr in, so fake it with
1.8.2.3  yamt 	 * the diskid.
1.8.2.3  yamt 	 */
1.8.2.3  yamt 	bd->bd_channel = 0;
1.8.2.3  yamt 	bd->bd_target = diskid;
1.8.2.3  yamt 	bd->bd_lun = 0;
1.8.2.3  yamt }
1.8.2.3  yamt
1.8.2.3  yamt static int
1.8.2.3  yamt arc_bio_disk_volume(struct arc_softc *sc, struct bioc_disk *bd)
1.8.2.3  yamt {
1.8.2.3  yamt 	struct arc_fw_raidinfo	*raidinfo;
1.8.2.3  yamt 	struct arc_fw_volinfo	*volinfo;
1.8.2.3  yamt 	struct arc_fw_diskinfo	*diskinfo;
1.8.2.4  yamt 	uint8_t			request[2];
1.8.2.3  yamt 	int			error = 0;
1.8.2.3  yamt
1.8.2.4  yamt 	volinfo = kmem_zalloc(sizeof(*volinfo), KM_SLEEP);
1.8.2.4  yamt 	raidinfo = kmem_zalloc(sizeof(*raidinfo), KM_SLEEP);
1.8.2.4  yamt 	diskinfo = kmem_zalloc(sizeof(*diskinfo), KM_SLEEP);
1.8.2.2  yamt
1.8.2.2  yamt 	error = arc_bio_getvol(sc, bd->bd_volid, volinfo);
1.8.2.2  yamt 	if (error != 0)
1.8.2.2  yamt 		goto out;
1.8.2.2  yamt
1.8.2.2  yamt 	request[0] = ARC_FW_RAIDINFO;
1.8.2.2  yamt 	request[1] = volinfo->raid_set_number;
1.8.2.2  yamt
1.8.2.2  yamt 	error = arc_msgbuf(sc, request, sizeof(request), raidinfo,
1.8.2.2  yamt 	    sizeof(struct arc_fw_raidinfo));
1.8.2.2  yamt 	if (error != 0)
1.8.2.2  yamt 		goto out;
1.8.2.2  yamt
1.8.2.4  yamt 	if (bd->bd_diskid >= sc->sc_cchans ||
1.8.2.4  yamt 	    bd->bd_diskid >= raidinfo->member_devices) {
1.8.2.2  yamt 		error = ENODEV;
1.8.2.2  yamt 		goto out;
1.8.2.2  yamt 	}
1.8.2.2  yamt
1.8.2.4  yamt 	if (raidinfo->device_array[bd->bd_diskid] == 0xff) {
1.8.2.4  yamt 		/*
1.8.2.4  yamt 		 * The disk has been disconnected, mark it offline
1.8.2.4  yamt 		 * and put it on another bus.
1.8.2.4  yamt 		 */
1.8.2.4  yamt 		bd->bd_channel = 1;
1.8.2.4  yamt 		bd->bd_target = 0;
1.8.2.4  yamt 		bd->bd_lun = 0;
1.8.2.4  yamt 		bd->bd_status = BIOC_SDOFFLINE;
1.8.2.4  yamt 		strlcpy(bd->bd_vendor, "disk missing", sizeof(bd->bd_vendor));
1.8.2.4  yamt 		goto out;
1.8.2.4  yamt 	}
1.8.2.4  yamt
1.8.2.2  yamt 	request[0] = ARC_FW_DISKINFO;
1.8.2.2  yamt 	request[1] = raidinfo->device_array[bd->bd_diskid];
1.8.2.2  yamt 	error = arc_msgbuf(sc, request, sizeof(request), diskinfo,
1.8.2.2  yamt 	    sizeof(struct arc_fw_diskinfo));
1.8.2.2  yamt 	if (error != 0)
1.8.2.2  yamt 		goto out;
1.8.2.2  yamt
1.8.2.3  yamt 	/* now fill our bio disk with data from the firmware */
1.8.2.3  yamt 	arc_bio_disk_filldata(sc, bd, diskinfo,
1.8.2.3  yamt 	    raidinfo->device_array[bd->bd_diskid]);
1.8.2.2  yamt
1.8.2.2  yamt out:
1.8.2.2  yamt 	kmem_free(raidinfo, sizeof(*raidinfo));
1.8.2.2  yamt 	kmem_free(volinfo, sizeof(*volinfo));
1.8.2.3  yamt 	kmem_free(diskinfo, sizeof(*diskinfo));
1.8.2.2  yamt 	return error;
1.8.2.2  yamt }
1.8.2.2  yamt #endif /* NBIO > 0 */
1.8.2.2  yamt
1.8.2.2  yamt uint8_t
1.8.2.2  yamt arc_msg_cksum(void *cmd, uint16_t len)
1.8.2.2  yamt {
1.8.2.2  yamt 	uint8_t	*buf = cmd;
1.8.2.2  yamt 	uint8_t	cksum;
1.8.2.2  yamt 	int	i;
1.8.2.2  yamt
1.8.2.2  yamt 	cksum = (uint8_t)(len >> 8) + (uint8_t)len;
1.8.2.2  yamt 	for (i = 0; i < len; i++)
1.8.2.2  yamt 		cksum += buf[i];
1.8.2.2  yamt
1.8.2.2  yamt 	return cksum;
1.8.2.2  yamt }
1.8.2.2  yamt
1.8.2.2  yamt
1.8.2.2  yamt int
1.8.2.2  yamt arc_msgbuf(struct arc_softc *sc, void *wptr, size_t wbuflen, void *rptr,
1.8.2.2  yamt 	   size_t rbuflen)
1.8.2.2  yamt {
1.8.2.2  yamt 	uint8_t			rwbuf[ARC_REG_IOC_RWBUF_MAXLEN];
1.8.2.2  yamt 	uint8_t			*wbuf, *rbuf;
1.8.2.2  yamt 	int			wlen, wdone = 0, rlen, rdone = 0;
1.8.2.2  yamt 	struct arc_fw_bufhdr	*bufhdr;
1.8.2.2  yamt 	uint32_t		reg, rwlen;
1.8.2.2  yamt 	int			error = 0;
1.8.2.2  yamt #ifdef ARC_DEBUG
1.8.2.2  yamt 	int			i;
1.8.2.2  yamt #endif
1.8.2.2  yamt
1.8.2.2  yamt 	wbuf = rbuf = NULL;
1.8.2.2  yamt
1.8.2.2  yamt 	DNPRINTF(ARC_D_DB, "%s: arc_msgbuf wbuflen: %d rbuflen: %d\n",
1.8.2.4  yamt 	    device_xname(sc->sc_dev), wbuflen, rbuflen);
1.8.2.2  yamt
1.8.2.2  yamt 	wlen = sizeof(struct arc_fw_bufhdr) + wbuflen + 1; /* 1 for cksum */
1.8.2.2  yamt 	wbuf = kmem_alloc(wlen, KM_SLEEP);
1.8.2.2  yamt
1.8.2.2  yamt 	rlen = sizeof(struct arc_fw_bufhdr) + rbuflen + 1; /* 1 for cksum */
1.8.2.2  yamt 	rbuf = kmem_alloc(rlen, KM_SLEEP);
1.8.2.2  yamt
1.8.2.2  yamt 	DNPRINTF(ARC_D_DB, "%s: arc_msgbuf wlen: %d rlen: %d\n",
1.8.2.4  yamt 	    device_xname(sc->sc_dev), wlen, rlen);
1.8.2.2  yamt
1.8.2.2  yamt 	bufhdr = (struct arc_fw_bufhdr *)wbuf;
1.8.2.2  yamt 	bufhdr->hdr = arc_fw_hdr;
1.8.2.2  yamt 	bufhdr->len = htole16(wbuflen);
1.8.2.2  yamt 	memcpy(wbuf + sizeof(struct arc_fw_bufhdr), wptr, wbuflen);
1.8.2.2  yamt 	wbuf[wlen - 1] = arc_msg_cksum(wptr, wbuflen);
1.8.2.2  yamt
1.8.2.2  yamt 	arc_lock(sc);
1.8.2.2  yamt 	if (arc_read(sc, ARC_REG_OUTB_DOORBELL) != 0) {
1.8.2.2  yamt 		error = EBUSY;
1.8.2.2  yamt 		goto out;
1.8.2.2  yamt 	}
1.8.2.2  yamt
1.8.2.2  yamt 	reg = ARC_REG_OUTB_DOORBELL_READ_OK;
1.8.2.2  yamt
1.8.2.2  yamt 	do {
1.8.2.2  yamt 		if ((reg & ARC_REG_OUTB_DOORBELL_READ_OK) && wdone < wlen) {
1.8.2.2  yamt 			memset(rwbuf, 0, sizeof(rwbuf));
1.8.2.2  yamt 			rwlen = (wlen - wdone) % sizeof(rwbuf);
1.8.2.2  yamt 			memcpy(rwbuf, &wbuf[wdone], rwlen);
1.8.2.2  yamt
1.8.2.2  yamt #ifdef ARC_DEBUG
1.8.2.2  yamt 			if (arcdebug & ARC_D_DB) {
1.8.2.2  yamt 				printf("%s: write %d:",
1.8.2.4  yamt 				    device_xname(sc->sc_dev), rwlen);
1.8.2.2  yamt 				for (i = 0; i < rwlen; i++)
1.8.2.2  yamt 					printf(" 0x%02x", rwbuf[i]);
1.8.2.2  yamt 				printf("\n");
1.8.2.2  yamt 			}
1.8.2.2  yamt #endif
1.8.2.2  yamt
1.8.2.2  yamt 			/* copy the chunk to the hw */
1.8.2.2  yamt 			arc_write(sc, ARC_REG_IOC_WBUF_LEN, rwlen);
1.8.2.2  yamt 			arc_write_region(sc, ARC_REG_IOC_WBUF, rwbuf,
1.8.2.2  yamt 			    sizeof(rwbuf));
1.8.2.2  yamt
1.8.2.2  yamt 			/* say we have a buffer for the hw */
1.8.2.2  yamt 			arc_write(sc, ARC_REG_INB_DOORBELL,
1.8.2.2  yamt 			    ARC_REG_INB_DOORBELL_WRITE_OK);
1.8.2.2  yamt
1.8.2.2  yamt 			wdone += rwlen;
1.8.2.2  yamt 		}
1.8.2.2  yamt
1.8.2.2  yamt 		while ((reg = arc_read(sc, ARC_REG_OUTB_DOORBELL)) == 0)
1.8.2.2  yamt 			arc_wait(sc);
1.8.2.3  yamt
1.8.2.2  yamt 		arc_write(sc, ARC_REG_OUTB_DOORBELL, reg);
1.8.2.2  yamt
1.8.2.2  yamt 		DNPRINTF(ARC_D_DB, "%s: reg: 0x%08x\n",
1.8.2.4  yamt 		    device_xname(sc->sc_dev), reg);
1.8.2.2  yamt
1.8.2.2  yamt 		if ((reg & ARC_REG_OUTB_DOORBELL_WRITE_OK) && rdone < rlen) {
1.8.2.2  yamt 			rwlen = arc_read(sc, ARC_REG_IOC_RBUF_LEN);
1.8.2.2  yamt 			if (rwlen > sizeof(rwbuf)) {
1.8.2.2  yamt 				DNPRINTF(ARC_D_DB, "%s:  rwlen too big\n",
1.8.2.4  yamt 				    device_xname(sc->sc_dev));
1.8.2.2  yamt 				error = EIO;
1.8.2.2  yamt 				goto out;
1.8.2.2  yamt 			}
1.8.2.2  yamt
1.8.2.2  yamt 			arc_read_region(sc, ARC_REG_IOC_RBUF, rwbuf,
1.8.2.2  yamt 			    sizeof(rwbuf));
1.8.2.2  yamt
1.8.2.2  yamt 			arc_write(sc, ARC_REG_INB_DOORBELL,
1.8.2.2  yamt 			    ARC_REG_INB_DOORBELL_READ_OK);
1.8.2.2  yamt
1.8.2.2  yamt #ifdef ARC_DEBUG
1.8.2.2  yamt 			printf("%s:  len: %d+%d=%d/%d\n",
1.8.2.4  yamt 			    device_xname(sc->sc_dev),
1.8.2.2  yamt 			    rwlen, rdone, rwlen + rdone, rlen);
1.8.2.2  yamt 			if (arcdebug & ARC_D_DB) {
1.8.2.2  yamt 				printf("%s: read:",
1.8.2.4  yamt 				    device_xname(sc->sc_dev));
1.8.2.2  yamt 				for (i = 0; i < rwlen; i++)
1.8.2.2  yamt 					printf(" 0x%02x", rwbuf[i]);
1.8.2.2  yamt 				printf("\n");
1.8.2.2  yamt 			}
1.8.2.2  yamt #endif
1.8.2.2  yamt
1.8.2.2  yamt 			if ((rdone + rwlen) > rlen) {
1.8.2.2  yamt 				DNPRINTF(ARC_D_DB, "%s:  rwbuf too big\n",
1.8.2.4  yamt 				    device_xname(sc->sc_dev));
1.8.2.2  yamt 				error = EIO;
1.8.2.2  yamt 				goto out;
1.8.2.2  yamt 			}
1.8.2.2  yamt
1.8.2.2  yamt 			memcpy(&rbuf[rdone], rwbuf, rwlen);
1.8.2.2  yamt 			rdone += rwlen;
1.8.2.2  yamt 		}
1.8.2.2  yamt 	} while (rdone != rlen);
1.8.2.2  yamt
1.8.2.2  yamt 	bufhdr = (struct arc_fw_bufhdr *)rbuf;
1.8.2.2  yamt 	if (memcmp(&bufhdr->hdr, &arc_fw_hdr, sizeof(bufhdr->hdr)) != 0 ||
1.8.2.2  yamt 	    bufhdr->len != htole16(rbuflen)) {
1.8.2.2  yamt 		DNPRINTF(ARC_D_DB, "%s:  rbuf hdr is wrong\n",
1.8.2.4  yamt 		    device_xname(sc->sc_dev));
1.8.2.2  yamt 		error = EIO;
1.8.2.2  yamt 		goto out;
1.8.2.2  yamt 	}
1.8.2.2  yamt
1.8.2.2  yamt 	memcpy(rptr, rbuf + sizeof(struct arc_fw_bufhdr), rbuflen);
1.8.2.2  yamt
1.8.2.2  yamt 	if (rbuf[rlen - 1] != arc_msg_cksum(rptr, rbuflen)) {
1.8.2.2  yamt 		DNPRINTF(ARC_D_DB, "%s:  invalid cksum\n",
1.8.2.4  yamt 		    device_xname(sc->sc_dev));
1.8.2.2  yamt 		error = EIO;
1.8.2.2  yamt 		goto out;
1.8.2.2  yamt 	}
1.8.2.2  yamt
1.8.2.2  yamt out:
1.8.2.2  yamt 	arc_unlock(sc);
1.8.2.2  yamt 	kmem_free(wbuf, wlen);
1.8.2.2  yamt 	kmem_free(rbuf, rlen);
1.8.2.2  yamt
1.8.2.2  yamt 	return error;
1.8.2.2  yamt }
1.8.2.2  yamt
1.8.2.2  yamt void
1.8.2.2  yamt arc_lock(struct arc_softc *sc)
1.8.2.2  yamt {
1.8.2.2  yamt 	rw_enter(&sc->sc_rwlock, RW_WRITER);
1.8.2.2  yamt 	mutex_spin_enter(&sc->sc_mutex);
1.8.2.2  yamt 	arc_write(sc, ARC_REG_INTRMASK, ~ARC_REG_INTRMASK_POSTQUEUE);
1.8.2.2  yamt 	sc->sc_talking = 1;
1.8.2.2  yamt }
1.8.2.2  yamt
1.8.2.2  yamt void
1.8.2.2  yamt arc_unlock(struct arc_softc *sc)
1.8.2.2  yamt {
1.8.2.2  yamt 	KASSERT(mutex_owned(&sc->sc_mutex));
1.8.2.2  yamt
1.8.2.2  yamt 	arc_write(sc, ARC_REG_INTRMASK,
1.8.2.2  yamt 	    ~(ARC_REG_INTRMASK_POSTQUEUE|ARC_REG_INTRMASK_DOORBELL));
1.8.2.3  yamt 	sc->sc_talking = 0;
1.8.2.2  yamt 	mutex_spin_exit(&sc->sc_mutex);
1.8.2.2  yamt 	rw_exit(&sc->sc_rwlock);
1.8.2.2  yamt }
1.8.2.2  yamt
1.8.2.2  yamt void
1.8.2.2  yamt arc_wait(struct arc_softc *sc)
1.8.2.2  yamt {
1.8.2.2  yamt 	KASSERT(mutex_owned(&sc->sc_mutex));
1.8.2.2  yamt
1.8.2.2  yamt 	arc_write(sc, ARC_REG_INTRMASK,
1.8.2.2  yamt 	    ~(ARC_REG_INTRMASK_POSTQUEUE|ARC_REG_INTRMASK_DOORBELL));
1.8.2.3  yamt 	if (cv_timedwait(&sc->sc_condvar, &sc->sc_mutex, hz) == EWOULDBLOCK)
1.8.2.2  yamt 		arc_write(sc, ARC_REG_INTRMASK, ~ARC_REG_INTRMASK_POSTQUEUE);
1.8.2.2  yamt }
1.8.2.2  yamt
1.8.2.2  yamt #if NBIO > 0
1.8.2.2  yamt static void
1.8.2.2  yamt arc_create_sensors(void *arg)
1.8.2.2  yamt {
1.8.2.2  yamt 	struct arc_softc	*sc = arg;
1.8.2.2  yamt 	struct bioc_inq		bi;
1.8.2.2  yamt 	struct bioc_vol		bv;
1.8.2.4  yamt 	int			i, j;
1.8.2.4  yamt 	size_t			slen, count = 0;
1.8.2.2  yamt
1.8.2.2  yamt 	memset(&bi, 0, sizeof(bi));
1.8.2.2  yamt 	if (arc_bio_inq(sc, &bi) != 0) {
1.8.2.2  yamt 		aprint_error("%s: unable to query firmware for sensor info\n",
1.8.2.4  yamt 		    device_xname(sc->sc_dev));
1.8.2.2  yamt 		kthread_exit(0);
1.8.2.2  yamt 	}
1.8.2.2  yamt
1.8.2.4  yamt 	/* There's no point to continue if there are no volumes */
1.8.2.4  yamt 	if (!bi.bi_novol)
1.8.2.4  yamt 		kthread_exit(0);
1.8.2.4  yamt
1.8.2.4  yamt 	for (i = 0; i < bi.bi_novol; i++) {
1.8.2.4  yamt 		memset(&bv, 0, sizeof(bv));
1.8.2.4  yamt 		bv.bv_volid = i;
1.8.2.4  yamt 		if (arc_bio_vol(sc, &bv) != 0)
1.8.2.4  yamt 			kthread_exit(0);
1.8.2.4  yamt
1.8.2.4  yamt 		/* Skip passthrough volumes */
1.8.2.4  yamt 		if (bv.bv_level == BIOC_SVOL_PASSTHRU)
1.8.2.4  yamt 			continue;
1.8.2.4  yamt
1.8.2.4  yamt 		/* new volume found */
1.8.2.4  yamt 		sc->sc_nsensors++;
1.8.2.4  yamt 		/* new disk in a volume found */
1.8.2.4  yamt 		sc->sc_nsensors+= bv.bv_nodisk;
1.8.2.4  yamt 	}
1.8.2.4  yamt
1.8.2.4  yamt 	/* No valid volumes */
1.8.2.2  yamt 	if (!sc->sc_nsensors)
1.8.2.2  yamt 		kthread_exit(0);
1.8.2.2  yamt
1.8.2.2  yamt 	sc->sc_sme = sysmon_envsys_create();
1.8.2.2  yamt 	slen = sizeof(envsys_data_t) * sc->sc_nsensors;
1.8.2.2  yamt 	sc->sc_sensors = kmem_zalloc(slen, KM_SLEEP);
1.8.2.2  yamt
1.8.2.4  yamt 	/* Attach sensors for volumes and disks */
1.8.2.4  yamt 	for (i = 0; i < bi.bi_novol; i++) {
1.8.2.2  yamt 		memset(&bv, 0, sizeof(bv));
1.8.2.2  yamt 		bv.bv_volid = i;
1.8.2.2  yamt 		if (arc_bio_vol(sc, &bv) != 0)
1.8.2.2  yamt 			goto bad;
1.8.2.2  yamt
1.8.2.4  yamt 		sc->sc_sensors[count].units = ENVSYS_DRIVE;
1.8.2.4  yamt 		sc->sc_sensors[count].monitor = true;
1.8.2.4  yamt 		sc->sc_sensors[count].flags = ENVSYS_FMONSTCHANGED;
1.8.2.4  yamt
1.8.2.4  yamt 		/* Skip passthrough volumes */
1.8.2.4  yamt 		if (bv.bv_level == BIOC_SVOL_PASSTHRU)
1.8.2.4  yamt 			continue;
1.8.2.4  yamt
1.8.2.4  yamt 		if (bv.bv_level == BIOC_SVOL_RAID10)
1.8.2.4  yamt 			snprintf(sc->sc_sensors[count].desc,
1.8.2.4  yamt 			    sizeof(sc->sc_sensors[count].desc),
1.8.2.4  yamt 			    "RAID 1+0 volume%d (%s)", i, bv.bv_dev);
1.8.2.4  yamt 		else
1.8.2.4  yamt 			snprintf(sc->sc_sensors[count].desc,
1.8.2.4  yamt 			    sizeof(sc->sc_sensors[count].desc),
1.8.2.4  yamt 			    "RAID %d volume%d (%s)", bv.bv_level, i,
1.8.2.4  yamt 			    bv.bv_dev);
1.8.2.4  yamt
1.8.2.4  yamt 		sc->sc_sensors[count].value_max = i;
1.8.2.4  yamt
1.8.2.4  yamt 		if (sysmon_envsys_sensor_attach(sc->sc_sme,
1.8.2.4  yamt 		    &sc->sc_sensors[count]))
1.8.2.2  yamt 			goto bad;
1.8.2.4  yamt
1.8.2.4  yamt 		count++;
1.8.2.4  yamt
1.8.2.4  yamt 		/* Attach disk sensors for this volume */
1.8.2.4  yamt 		for (j = 0; j < bv.bv_nodisk; j++) {
1.8.2.4  yamt 			sc->sc_sensors[count].units = ENVSYS_DRIVE;
1.8.2.4  yamt 			sc->sc_sensors[count].monitor = true;
1.8.2.4  yamt 			sc->sc_sensors[count].flags = ENVSYS_FMONSTCHANGED;
1.8.2.4  yamt
1.8.2.4  yamt 			snprintf(sc->sc_sensors[count].desc,
1.8.2.4  yamt 			    sizeof(sc->sc_sensors[count].desc),
1.8.2.4  yamt 			    "disk%d volume%d (%s)", j, i, bv.bv_dev);
1.8.2.4  yamt 			sc->sc_sensors[count].value_max = i;
1.8.2.4  yamt 			sc->sc_sensors[count].value_avg = j + 10;
1.8.2.4  yamt
1.8.2.4  yamt 			if (sysmon_envsys_sensor_attach(sc->sc_sme,
1.8.2.4  yamt 			    &sc->sc_sensors[count]))
1.8.2.4  yamt 				goto bad;
1.8.2.4  yamt
1.8.2.4  yamt 			count++;
1.8.2.4  yamt 		}
1.8.2.2  yamt 	}
1.8.2.2  yamt
1.8.2.4  yamt 	/*
1.8.2.4  yamt 	 * Register our envsys driver with the framework now that the
1.8.2.4  yamt 	 * sensors were all attached.
1.8.2.4  yamt 	 */
1.8.2.4  yamt 	sc->sc_sme->sme_name = device_xname(sc->sc_dev);
1.8.2.2  yamt 	sc->sc_sme->sme_cookie = sc;
1.8.2.2  yamt 	sc->sc_sme->sme_refresh = arc_refresh_sensors;
1.8.2.4  yamt
1.8.2.2  yamt 	if (sysmon_envsys_register(sc->sc_sme)) {
1.8.2.2  yamt 		aprint_debug("%s: unable to register with sysmon\n",
1.8.2.4  yamt 		    device_xname(sc->sc_dev));
1.8.2.2  yamt 		goto bad;
1.8.2.2  yamt 	}
1.8.2.2  yamt 	kthread_exit(0);
1.8.2.2  yamt
1.8.2.2  yamt bad:
1.8.2.2  yamt 	kmem_free(sc->sc_sensors, slen);
1.8.2.2  yamt 	sysmon_envsys_destroy(sc->sc_sme);
1.8.2.2  yamt 	kthread_exit(0);
1.8.2.2  yamt }
1.8.2.2  yamt
1.8.2.2  yamt static void
1.8.2.2  yamt arc_refresh_sensors(struct sysmon_envsys *sme, envsys_data_t *edata)
1.8.2.2  yamt {
1.8.2.2  yamt 	struct arc_softc	*sc = sme->sme_cookie;
1.8.2.2  yamt 	struct bioc_vol		bv;
1.8.2.4  yamt 	struct bioc_disk	bd;
1.8.2.4  yamt
1.8.2.4  yamt 	/* sanity check */
1.8.2.4  yamt 	if (edata->units != ENVSYS_DRIVE)
1.8.2.4  yamt 		return;
1.8.2.2  yamt
1.8.2.2  yamt 	memset(&bv, 0, sizeof(bv));
1.8.2.4  yamt 	bv.bv_volid = edata->value_max;
1.8.2.2  yamt
1.8.2.2  yamt 	if (arc_bio_vol(sc, &bv)) {
1.8.2.2  yamt 		edata->value_cur = ENVSYS_DRIVE_EMPTY;
1.8.2.2  yamt 		edata->state = ENVSYS_SINVALID;
1.8.2.2  yamt 		return;
1.8.2.2  yamt 	}
1.8.2.2  yamt
1.8.2.4  yamt 	/* Current sensor is handling a disk volume member */
1.8.2.4  yamt 	if (edata->value_avg) {
1.8.2.4  yamt 		memset(&bd, 0, sizeof(bd));
1.8.2.4  yamt 		bd.bd_volid = edata->value_max;
1.8.2.4  yamt 		bd.bd_diskid = edata->value_avg - 10;
1.8.2.4  yamt
1.8.2.4  yamt 		if (arc_bio_disk_volume(sc, &bd)) {
1.8.2.4  yamt 			edata->value_cur = ENVSYS_DRIVE_OFFLINE;
1.8.2.4  yamt 			edata->state = ENVSYS_SCRITICAL;
1.8.2.4  yamt 			return;
1.8.2.4  yamt 		}
1.8.2.4  yamt
1.8.2.4  yamt 		switch (bd.bd_status) {
1.8.2.4  yamt 		case BIOC_SDONLINE:
1.8.2.4  yamt 			edata->value_cur = ENVSYS_DRIVE_ONLINE;
1.8.2.4  yamt 			edata->state = ENVSYS_SVALID;
1.8.2.4  yamt 			break;
1.8.2.4  yamt 		case BIOC_SDOFFLINE:
1.8.2.4  yamt 			edata->value_cur = ENVSYS_DRIVE_OFFLINE;
1.8.2.4  yamt 			edata->state = ENVSYS_SCRITICAL;
1.8.2.4  yamt 			break;
1.8.2.4  yamt 		default:
1.8.2.4  yamt 			edata->value_cur = ENVSYS_DRIVE_FAIL;
1.8.2.4  yamt 			edata->state = ENVSYS_SCRITICAL;
1.8.2.4  yamt 			break;
1.8.2.4  yamt 		}
1.8.2.4  yamt
1.8.2.4  yamt 		return;
1.8.2.4  yamt 	}
1.8.2.4  yamt
1.8.2.4  yamt 	/* Current sensor is handling a volume */
1.8.2.2  yamt 	switch (bv.bv_status) {
1.8.2.2  yamt 	case BIOC_SVOFFLINE:
1.8.2.4  yamt 		edata->value_cur = ENVSYS_DRIVE_OFFLINE;
1.8.2.2  yamt 		edata->state = ENVSYS_SCRITICAL;
1.8.2.2  yamt 		break;
1.8.2.2  yamt 	case BIOC_SVDEGRADED:
1.8.2.2  yamt 		edata->value_cur = ENVSYS_DRIVE_PFAIL;
1.8.2.2  yamt 		edata->state = ENVSYS_SCRITICAL;
1.8.2.2  yamt 		break;
1.8.2.2  yamt 	case BIOC_SVBUILDING:
1.8.2.4  yamt 		edata->value_cur = ENVSYS_DRIVE_BUILD;
1.8.2.2  yamt 		edata->state = ENVSYS_SVALID;
1.8.2.2  yamt 		break;
1.8.2.2  yamt 	case BIOC_SVMIGRATING:
1.8.2.2  yamt 		edata->value_cur = ENVSYS_DRIVE_MIGRATING;
1.8.2.2  yamt 		edata->state = ENVSYS_SVALID;
1.8.2.2  yamt 		break;
1.8.2.4  yamt 	case BIOC_SVCHECKING:
1.8.2.4  yamt 		edata->value_cur = ENVSYS_DRIVE_CHECK;
1.8.2.4  yamt 		edata->state = ENVSYS_SVALID;
1.8.2.4  yamt 		break;
1.8.2.4  yamt 	case BIOC_SVREBUILD:
1.8.2.4  yamt 		edata->value_cur = ENVSYS_DRIVE_REBUILD;
1.8.2.4  yamt 		edata->state = ENVSYS_SCRITICAL;
1.8.2.4  yamt 		break;
1.8.2.2  yamt 	case BIOC_SVSCRUB:
1.8.2.2  yamt 	case BIOC_SVONLINE:
1.8.2.2  yamt 		edata->value_cur = ENVSYS_DRIVE_ONLINE;
1.8.2.2  yamt 		edata->state = ENVSYS_SVALID;
1.8.2.2  yamt 		break;
1.8.2.2  yamt 	case BIOC_SVINVALID:
1.8.2.4  yamt 		/* FALLTHROUGH */
1.8.2.2  yamt 	default:
1.8.2.2  yamt 		edata->value_cur = ENVSYS_DRIVE_EMPTY; /* unknown state */
1.8.2.2  yamt 		edata->state = ENVSYS_SINVALID;
1.8.2.2  yamt 		break;
1.8.2.2  yamt 	}
1.8.2.2  yamt }
1.8.2.2  yamt #endif /* NBIO > 0 */
1.8.2.2  yamt
1.8.2.2  yamt uint32_t
1.8.2.2  yamt arc_read(struct arc_softc *sc, bus_size_t r)
1.8.2.2  yamt {
1.8.2.2  yamt 	uint32_t			v;
1.8.2.2  yamt
1.8.2.2  yamt 	bus_space_barrier(sc->sc_iot, sc->sc_ioh, r, 4,
1.8.2.2  yamt 	    BUS_SPACE_BARRIER_READ);
1.8.2.2  yamt 	v = bus_space_read_4(sc->sc_iot, sc->sc_ioh, r);
1.8.2.2  yamt
1.8.2.2  yamt 	DNPRINTF(ARC_D_RW, "%s: arc_read 0x%lx 0x%08x\n",
1.8.2.4  yamt 	    device_xname(sc->sc_dev), r, v);
1.8.2.2  yamt
1.8.2.2  yamt 	return v;
1.8.2.2  yamt }
1.8.2.2  yamt
1.8.2.2  yamt void
1.8.2.2  yamt arc_read_region(struct arc_softc *sc, bus_size_t r, void *buf, size_t len)
1.8.2.2  yamt {
1.8.2.2  yamt 	bus_space_barrier(sc->sc_iot, sc->sc_ioh, r, len,
1.8.2.2  yamt 	    BUS_SPACE_BARRIER_READ);
1.8.2.2  yamt 	bus_space_read_region_4(sc->sc_iot, sc->sc_ioh, r,
1.8.2.2  yamt 	    (uint32_t *)buf, len >> 2);
1.8.2.2  yamt }
1.8.2.2  yamt
1.8.2.2  yamt void
1.8.2.2  yamt arc_write(struct arc_softc *sc, bus_size_t r, uint32_t v)
1.8.2.2  yamt {
1.8.2.2  yamt 	DNPRINTF(ARC_D_RW, "%s: arc_write 0x%lx 0x%08x\n",
1.8.2.4  yamt 	    device_xname(sc->sc_dev), r, v);
1.8.2.2  yamt
1.8.2.2  yamt 	bus_space_write_4(sc->sc_iot, sc->sc_ioh, r, v);
1.8.2.2  yamt 	bus_space_barrier(sc->sc_iot, sc->sc_ioh, r, 4,
1.8.2.2  yamt 	    BUS_SPACE_BARRIER_WRITE);
1.8.2.2  yamt }
1.8.2.2  yamt
1.8.2.2  yamt void
1.8.2.2  yamt arc_write_region(struct arc_softc *sc, bus_size_t r, void *buf, size_t len)
1.8.2.2  yamt {
1.8.2.2  yamt 	bus_space_write_region_4(sc->sc_iot, sc->sc_ioh, r,
1.8.2.2  yamt 	    (const uint32_t *)buf, len >> 2);
1.8.2.2  yamt 	bus_space_barrier(sc->sc_iot, sc->sc_ioh, r, len,
1.8.2.2  yamt 	    BUS_SPACE_BARRIER_WRITE);
1.8.2.2  yamt }
1.8.2.2  yamt
1.8.2.2  yamt int
1.8.2.2  yamt arc_wait_eq(struct arc_softc *sc, bus_size_t r, uint32_t mask,
1.8.2.2  yamt 	    uint32_t target)
1.8.2.2  yamt {
1.8.2.2  yamt 	int i;
1.8.2.2  yamt
1.8.2.2  yamt 	DNPRINTF(ARC_D_RW, "%s: arc_wait_eq 0x%lx 0x%08x 0x%08x\n",
1.8.2.4  yamt 	    device_xname(sc->sc_dev), r, mask, target);
1.8.2.2  yamt
1.8.2.2  yamt 	for (i = 0; i < 10000; i++) {
1.8.2.2  yamt 		if ((arc_read(sc, r) & mask) == target)
1.8.2.2  yamt 			return 0;
1.8.2.2  yamt 		delay(1000);
1.8.2.2  yamt 	}
1.8.2.2  yamt
1.8.2.2  yamt 	return 1;
1.8.2.2  yamt }
1.8.2.2  yamt
1.8.2.2  yamt int
1.8.2.2  yamt arc_wait_ne(struct arc_softc *sc, bus_size_t r, uint32_t mask,
1.8.2.2  yamt 	    uint32_t target)
1.8.2.2  yamt {
1.8.2.2  yamt 	int i;
1.8.2.2  yamt
1.8.2.2  yamt 	DNPRINTF(ARC_D_RW, "%s: arc_wait_ne 0x%lx 0x%08x 0x%08x\n",
1.8.2.4  yamt 	    device_xname(sc->sc_dev), r, mask, target);
1.8.2.2  yamt
1.8.2.2  yamt 	for (i = 0; i < 10000; i++) {
1.8.2.2  yamt 		if ((arc_read(sc, r) & mask) != target)
1.8.2.2  yamt 			return 0;
1.8.2.2  yamt 		delay(1000);
1.8.2.2  yamt 	}
1.8.2.2  yamt
1.8.2.2  yamt 	return 1;
1.8.2.2  yamt }
1.8.2.2  yamt
1.8.2.2  yamt int
1.8.2.2  yamt arc_msg0(struct arc_softc *sc, uint32_t m)
1.8.2.2  yamt {
1.8.2.2  yamt 	/* post message */
1.8.2.2  yamt 	arc_write(sc, ARC_REG_INB_MSG0, m);
1.8.2.2  yamt 	/* wait for the fw to do it */
1.8.2.2  yamt 	if (arc_wait_eq(sc, ARC_REG_INTRSTAT, ARC_REG_INTRSTAT_MSG0,
1.8.2.2  yamt 	    ARC_REG_INTRSTAT_MSG0) != 0)
1.8.2.2  yamt 		return 1;
1.8.2.2  yamt
1.8.2.2  yamt 	/* ack it */
1.8.2.2  yamt 	arc_write(sc, ARC_REG_INTRSTAT, ARC_REG_INTRSTAT_MSG0);
1.8.2.2  yamt
1.8.2.2  yamt 	return 0;
1.8.2.2  yamt }
1.8.2.2  yamt
1.8.2.2  yamt struct arc_dmamem *
1.8.2.2  yamt arc_dmamem_alloc(struct arc_softc *sc, size_t size)
1.8.2.2  yamt {
1.8.2.2  yamt 	struct arc_dmamem		*adm;
1.8.2.2  yamt 	int				nsegs;
1.8.2.2  yamt
1.8.2.2  yamt 	adm = kmem_zalloc(sizeof(*adm), KM_NOSLEEP);
1.8.2.2  yamt 	if (adm == NULL)
1.8.2.2  yamt 		return NULL;
1.8.2.2  yamt
1.8.2.2  yamt 	adm->adm_size = size;
1.8.2.2  yamt
1.8.2.2  yamt 	if (bus_dmamap_create(sc->sc_dmat, size, 1, size, 0,
1.8.2.2  yamt 	    BUS_DMA_NOWAIT|BUS_DMA_ALLOCNOW, &adm->adm_map) != 0)
1.8.2.2  yamt 		goto admfree;
1.8.2.2  yamt
1.8.2.2  yamt 	if (bus_dmamem_alloc(sc->sc_dmat, size, PAGE_SIZE, 0, &adm->adm_seg,
1.8.2.2  yamt 	    1, &nsegs, BUS_DMA_NOWAIT) != 0)
1.8.2.2  yamt 		goto destroy;
1.8.2.2  yamt
1.8.2.2  yamt 	if (bus_dmamem_map(sc->sc_dmat, &adm->adm_seg, nsegs, size,
1.8.2.2  yamt 	    &adm->adm_kva, BUS_DMA_NOWAIT|BUS_DMA_COHERENT) != 0)
1.8.2.2  yamt 		goto free;
1.8.2.2  yamt
1.8.2.2  yamt 	if (bus_dmamap_load(sc->sc_dmat, adm->adm_map, adm->adm_kva, size,
1.8.2.2  yamt 	    NULL, BUS_DMA_NOWAIT) != 0)
1.8.2.2  yamt 		goto unmap;
1.8.2.2  yamt
1.8.2.2  yamt 	memset(adm->adm_kva, 0, size);
1.8.2.2  yamt
1.8.2.2  yamt 	return adm;
1.8.2.2  yamt
1.8.2.2  yamt unmap:
1.8.2.2  yamt 	bus_dmamem_unmap(sc->sc_dmat, adm->adm_kva, size);
1.8.2.2  yamt free:
1.8.2.2  yamt 	bus_dmamem_free(sc->sc_dmat, &adm->adm_seg, 1);
1.8.2.2  yamt destroy:
1.8.2.2  yamt 	bus_dmamap_destroy(sc->sc_dmat, adm->adm_map);
1.8.2.2  yamt admfree:
1.8.2.2  yamt 	kmem_free(adm, sizeof(*adm));
1.8.2.2  yamt
1.8.2.2  yamt 	return NULL;
1.8.2.2  yamt }
1.8.2.2  yamt
1.8.2.2  yamt void
1.8.2.2  yamt arc_dmamem_free(struct arc_softc *sc, struct arc_dmamem *adm)
1.8.2.2  yamt {
1.8.2.2  yamt 	bus_dmamap_unload(sc->sc_dmat, adm->adm_map);
1.8.2.2  yamt 	bus_dmamem_unmap(sc->sc_dmat, adm->adm_kva, adm->adm_size);
1.8.2.2  yamt 	bus_dmamem_free(sc->sc_dmat, &adm->adm_seg, 1);
1.8.2.2  yamt 	bus_dmamap_destroy(sc->sc_dmat, adm->adm_map);
1.8.2.2  yamt 	kmem_free(adm, sizeof(*adm));
1.8.2.2  yamt }
1.8.2.2  yamt
1.8.2.2  yamt int
1.8.2.4  yamt arc_alloc_ccbs(device_t self)
1.8.2.2  yamt {
1.8.2.4  yamt 	struct arc_softc 	*sc = device_private(self);
1.8.2.2  yamt 	struct arc_ccb		*ccb;
1.8.2.2  yamt 	uint8_t			*cmd;
1.8.2.2  yamt 	int			i;
1.8.2.2  yamt 	size_t			ccbslen;
1.8.2.2  yamt
1.8.2.2  yamt 	TAILQ_INIT(&sc->sc_ccb_free);
1.8.2.2  yamt
1.8.2.2  yamt 	ccbslen = sizeof(struct arc_ccb) * sc->sc_req_count;
1.8.2.2  yamt 	sc->sc_ccbs = kmem_zalloc(ccbslen, KM_SLEEP);
1.8.2.2  yamt
1.8.2.2  yamt 	sc->sc_requests = arc_dmamem_alloc(sc,
1.8.2.2  yamt 	    ARC_MAX_IOCMDLEN * sc->sc_req_count);
1.8.2.2  yamt 	if (sc->sc_requests == NULL) {
1.8.2.4  yamt 		aprint_error_dev(self, "unable to allocate ccb dmamem\n");
1.8.2.2  yamt 		goto free_ccbs;
1.8.2.2  yamt 	}
1.8.2.2  yamt 	cmd = ARC_DMA_KVA(sc->sc_requests);
1.8.2.2  yamt
1.8.2.2  yamt 	for (i = 0; i < sc->sc_req_count; i++) {
1.8.2.2  yamt 		ccb = &sc->sc_ccbs[i];
1.8.2.2  yamt
1.8.2.2  yamt 		if (bus_dmamap_create(sc->sc_dmat, MAXPHYS, ARC_SGL_MAXLEN,
1.8.2.2  yamt 		    MAXPHYS, 0, 0, &ccb->ccb_dmamap) != 0) {
1.8.2.4  yamt 			aprint_error_dev(self,
1.8.2.4  yamt 			    "unable to create dmamap for ccb %d\n", i);
1.8.2.2  yamt 			goto free_maps;
1.8.2.2  yamt 		}
1.8.2.2  yamt
1.8.2.2  yamt 		ccb->ccb_sc = sc;
1.8.2.2  yamt 		ccb->ccb_id = i;
1.8.2.2  yamt 		ccb->ccb_offset = ARC_MAX_IOCMDLEN * i;
1.8.2.2  yamt
1.8.2.2  yamt 		ccb->ccb_cmd = (struct arc_io_cmd *)&cmd[ccb->ccb_offset];
1.8.2.2  yamt 		ccb->ccb_cmd_post = (ARC_DMA_DVA(sc->sc_requests) +
1.8.2.2  yamt 		    ccb->ccb_offset) >> ARC_REG_POST_QUEUE_ADDR_SHIFT;
1.8.2.2  yamt
1.8.2.2  yamt 		arc_put_ccb(sc, ccb);
1.8.2.2  yamt 	}
1.8.2.2  yamt
1.8.2.2  yamt 	return 0;
1.8.2.2  yamt
1.8.2.2  yamt free_maps:
1.8.2.2  yamt 	while ((ccb = arc_get_ccb(sc)) != NULL)
1.8.2.2  yamt 	    bus_dmamap_destroy(sc->sc_dmat, ccb->ccb_dmamap);
1.8.2.2  yamt 	arc_dmamem_free(sc, sc->sc_requests);
1.8.2.2  yamt
1.8.2.2  yamt free_ccbs:
1.8.2.2  yamt 	kmem_free(sc->sc_ccbs, ccbslen);
1.8.2.2  yamt
1.8.2.2  yamt 	return 1;
1.8.2.2  yamt }
1.8.2.2  yamt
1.8.2.2  yamt struct arc_ccb *
1.8.2.2  yamt arc_get_ccb(struct arc_softc *sc)
1.8.2.2  yamt {
1.8.2.2  yamt 	struct arc_ccb			*ccb;
1.8.2.2  yamt
1.8.2.2  yamt 	ccb = TAILQ_FIRST(&sc->sc_ccb_free);
1.8.2.2  yamt 	if (ccb != NULL)
1.8.2.2  yamt 		TAILQ_REMOVE(&sc->sc_ccb_free, ccb, ccb_link);
1.8.2.2  yamt
1.8.2.2  yamt 	return ccb;
1.8.2.2  yamt }
1.8.2.2  yamt
1.8.2.2  yamt void
1.8.2.2  yamt arc_put_ccb(struct arc_softc *sc, struct arc_ccb *ccb)
1.8.2.2  yamt {
1.8.2.2  yamt 	ccb->ccb_xs = NULL;
1.8.2.2  yamt 	memset(ccb->ccb_cmd, 0, ARC_MAX_IOCMDLEN);
1.8.2.2  yamt 	TAILQ_INSERT_TAIL(&sc->sc_ccb_free, ccb, ccb_link);
1.8.2.2  yamt }