dev/pci/virtio.c

1.7.2.4     skrll /*	$NetBSD: virtio.c,v 1.7.2.4 2016/03/19 11:30:18 skrll Exp $	*/
    1.1   hannken
    1.1   hannken /*
    1.1   hannken  * Copyright (c) 2010 Minoura Makoto.
    1.1   hannken  * All rights reserved.
    1.1   hannken  *
    1.1   hannken  * Redistribution and use in source and binary forms, with or without
    1.1   hannken  * modification, are permitted provided that the following conditions
    1.1   hannken  * are met:
    1.1   hannken  * 1. Redistributions of source code must retain the above copyright
    1.1   hannken  *    notice, this list of conditions and the following disclaimer.
    1.1   hannken  * 2. Redistributions in binary form must reproduce the above copyright
    1.1   hannken  *    notice, this list of conditions and the following disclaimer in the
    1.1   hannken  *    documentation and/or other materials provided with the distribution.
    1.1   hannken  *
    1.1   hannken  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
    1.1   hannken  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
    1.1   hannken  * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
    1.1   hannken  * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
    1.1   hannken  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
    1.1   hannken  * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
    1.1   hannken  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
    1.1   hannken  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
    1.1   hannken  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
    1.1   hannken  * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
    1.1   hannken  */
    1.1   hannken
    1.1   hannken #include <sys/cdefs.h>
1.7.2.4     skrll __KERNEL_RCSID(0, "$NetBSD: virtio.c,v 1.7.2.4 2016/03/19 11:30:18 skrll Exp $");
    1.1   hannken
    1.1   hannken #include <sys/param.h>
    1.1   hannken #include <sys/systm.h>
    1.1   hannken #include <sys/kernel.h>
    1.1   hannken #include <sys/atomic.h>
    1.1   hannken #include <sys/bus.h>
    1.1   hannken #include <sys/device.h>
    1.1   hannken #include <sys/kmem.h>
    1.1   hannken
    1.1   hannken #include <dev/pci/pcidevs.h>
    1.1   hannken #include <dev/pci/pcireg.h>
    1.1   hannken #include <dev/pci/pcivar.h>
    1.1   hannken
    1.1   hannken #include <dev/pci/virtioreg.h>
    1.1   hannken #include <dev/pci/virtiovar.h>
    1.1   hannken
    1.1   hannken #define MINSEG_INDIRECT		2 /* use indirect if nsegs >= this value */
    1.1   hannken
    1.1   hannken static int	virtio_match(device_t, cfdata_t, void *);
    1.1   hannken static void	virtio_attach(device_t, device_t, void *);
    1.1   hannken static int	virtio_detach(device_t, int);
    1.1   hannken static int	virtio_intr(void *arg);
1.7.2.3     skrll static int	virtio_msix_queue_intr(void *);
1.7.2.3     skrll static int	virtio_msix_config_intr(void *);
1.7.2.3     skrll static int	virtio_setup_msix_vectors(struct virtio_softc *);
1.7.2.3     skrll static int	virtio_setup_msix_interrupts(struct virtio_softc *,
1.7.2.3     skrll 		    struct pci_attach_args *);
1.7.2.3     skrll static int	virtio_setup_intx_interrupt(struct virtio_softc *,
1.7.2.3     skrll 		    struct pci_attach_args *);
1.7.2.3     skrll static int	virtio_setup_interrupts(struct virtio_softc *,
1.7.2.3     skrll 		    struct pci_attach_args *);
1.7.2.1     skrll static void	virtio_soft_intr(void *arg);
    1.1   hannken static void	virtio_init_vq(struct virtio_softc *,
    1.1   hannken 		    struct virtqueue *, const bool);
    1.1   hannken
    1.1   hannken CFATTACH_DECL3_NEW(virtio, sizeof(struct virtio_softc),
    1.1   hannken     virtio_match, virtio_attach, virtio_detach, NULL, NULL, NULL,
    1.1   hannken     DVF_DETACH_SHUTDOWN);
    1.1   hannken
    1.1   hannken static void
    1.1   hannken virtio_set_status(struct virtio_softc *sc, int status)
    1.1   hannken {
    1.1   hannken 	int old = 0;
    1.1   hannken
    1.1   hannken 	if (status != 0)
    1.1   hannken 		old = bus_space_read_1(sc->sc_iot, sc->sc_ioh,
    1.1   hannken 				       VIRTIO_CONFIG_DEVICE_STATUS);
    1.1   hannken 	bus_space_write_1(sc->sc_iot, sc->sc_ioh, VIRTIO_CONFIG_DEVICE_STATUS,
    1.1   hannken 			  status|old);
    1.1   hannken }
    1.1   hannken
    1.1   hannken #define virtio_device_reset(sc)	virtio_set_status((sc), 0)
    1.1   hannken
    1.1   hannken static int
    1.1   hannken virtio_match(device_t parent, cfdata_t match, void *aux)
    1.1   hannken {
    1.1   hannken 	struct pci_attach_args *pa;
    1.1   hannken
    1.1   hannken 	pa = (struct pci_attach_args *)aux;
    1.1   hannken 	switch (PCI_VENDOR(pa->pa_id)) {
    1.1   hannken 	case PCI_VENDOR_QUMRANET:
    1.2  jakllsch 		if ((PCI_PRODUCT_QUMRANET_VIRTIO_1000 <=
    1.2  jakllsch 		     PCI_PRODUCT(pa->pa_id)) &&
    1.2  jakllsch 		    (PCI_PRODUCT(pa->pa_id) <=
    1.3     njoly 		     PCI_PRODUCT_QUMRANET_VIRTIO_103F))
    1.1   hannken 			return 1;
    1.1   hannken 		break;
    1.1   hannken 	}
    1.1   hannken
    1.1   hannken 	return 0;
    1.1   hannken }
    1.1   hannken
    1.1   hannken static const char *virtio_device_name[] = {
1.7.2.3     skrll 	"Unknown (0)",			/* 0 */
1.7.2.3     skrll 	"Network",			/* 1 */
1.7.2.3     skrll 	"Block",			/* 2 */
1.7.2.3     skrll 	"Console",			/* 3 */
1.7.2.3     skrll 	"Entropy",			/* 4 */
1.7.2.3     skrll 	"Memory Balloon",		/* 5 */
1.7.2.3     skrll 	"I/O Memory",			/* 6 */
1.7.2.3     skrll 	"Remote Processor Messaging",	/* 7 */
1.7.2.3     skrll 	"SCSI",				/* 8 */
1.7.2.3     skrll 	"9P Transport",			/* 9 */
1.7.2.3     skrll 	"mac80211 wlan",		/* 10 */
    1.1   hannken };
1.7.2.3     skrll #define NDEVNAMES	__arraycount(virtio_device_name)
1.7.2.3     skrll
1.7.2.3     skrll #define VIRTIO_MSIX_CONFIG_VECTOR_INDEX	0
1.7.2.3     skrll #define VIRTIO_MSIX_QUEUE_VECTOR_INDEX	1
1.7.2.3     skrll
1.7.2.3     skrll static int
1.7.2.3     skrll virtio_setup_msix_vectors(struct virtio_softc *sc)
1.7.2.3     skrll {
1.7.2.3     skrll 	int offset, vector, ret, qid;
1.7.2.3     skrll
1.7.2.3     skrll 	offset = VIRTIO_CONFIG_MSI_CONFIG_VECTOR;
1.7.2.3     skrll 	vector = VIRTIO_MSIX_CONFIG_VECTOR_INDEX;
1.7.2.3     skrll
1.7.2.3     skrll 	bus_space_write_2(sc->sc_iot, sc->sc_ioh, offset, vector);
1.7.2.3     skrll 	ret = bus_space_read_2(sc->sc_iot, sc->sc_ioh, offset);
1.7.2.3     skrll 	aprint_debug_dev(sc->sc_dev, "expected=%d, actual=%d\n",
1.7.2.3     skrll 	    vector, ret);
1.7.2.3     skrll 	if (ret != vector)
1.7.2.3     skrll 		return -1;
1.7.2.3     skrll
1.7.2.3     skrll 	for (qid = 0; qid < sc->sc_nvqs; qid++) {
1.7.2.3     skrll 		offset = VIRTIO_CONFIG_QUEUE_SELECT;
1.7.2.3     skrll 		bus_space_write_2(sc->sc_iot, sc->sc_ioh, offset, qid);
1.7.2.3     skrll
1.7.2.3     skrll 		offset = VIRTIO_CONFIG_MSI_QUEUE_VECTOR;
1.7.2.3     skrll 		vector = VIRTIO_MSIX_QUEUE_VECTOR_INDEX;
1.7.2.3     skrll
1.7.2.3     skrll 		bus_space_write_2(sc->sc_iot, sc->sc_ioh, offset, vector);
1.7.2.3     skrll 		ret = bus_space_read_2(sc->sc_iot, sc->sc_ioh, offset);
1.7.2.3     skrll 		aprint_debug_dev(sc->sc_dev, "expected=%d, actual=%d\n",
1.7.2.3     skrll 		    vector, ret);
1.7.2.3     skrll 		if (ret != vector)
1.7.2.3     skrll 			return -1;
1.7.2.3     skrll 	}
1.7.2.3     skrll
1.7.2.3     skrll 	return 0;
1.7.2.3     skrll }
1.7.2.3     skrll
1.7.2.3     skrll static int
1.7.2.3     skrll virtio_setup_msix_interrupts(struct virtio_softc *sc,
1.7.2.3     skrll     struct pci_attach_args *pa)
1.7.2.3     skrll {
1.7.2.3     skrll 	device_t self = sc->sc_dev;
1.7.2.3     skrll 	pci_chipset_tag_t pc = pa->pa_pc;
1.7.2.3     skrll 	char intrbuf[PCI_INTRSTR_LEN];
1.7.2.3     skrll 	char const *intrstr;
1.7.2.3     skrll 	int idx;
1.7.2.3     skrll
1.7.2.3     skrll 	idx = VIRTIO_MSIX_CONFIG_VECTOR_INDEX;
1.7.2.3     skrll 	if (sc->sc_flags & VIRTIO_F_PCI_INTR_MPSAFE)
1.7.2.3     skrll 		pci_intr_setattr(pc, &sc->sc_ihp[idx], PCI_INTR_MPSAFE, true);
1.7.2.3     skrll
1.7.2.3     skrll 	sc->sc_ihs[idx] = pci_intr_establish_xname(pc, sc->sc_ihp[idx], IPL_NET,
1.7.2.3     skrll 	    virtio_msix_config_intr, sc, device_xname(sc->sc_dev));
1.7.2.3     skrll 	if (sc->sc_ihs[idx] == NULL) {
1.7.2.3     skrll 		aprint_error_dev(self, "couldn't establish MSI-X for config\n");
1.7.2.3     skrll 		goto error;
1.7.2.3     skrll 	}
1.7.2.3     skrll
1.7.2.3     skrll 	idx = VIRTIO_MSIX_QUEUE_VECTOR_INDEX;
1.7.2.3     skrll 	if (sc->sc_flags & VIRTIO_F_PCI_INTR_MPSAFE)
1.7.2.3     skrll 		pci_intr_setattr(pc, &sc->sc_ihp[idx], PCI_INTR_MPSAFE, true);
1.7.2.3     skrll
1.7.2.3     skrll 	sc->sc_ihs[idx] = pci_intr_establish_xname(pc, sc->sc_ihp[idx], IPL_NET,
1.7.2.3     skrll 	    virtio_msix_queue_intr, sc, device_xname(sc->sc_dev));
1.7.2.3     skrll 	if (sc->sc_ihs[idx] == NULL) {
1.7.2.3     skrll 		aprint_error_dev(self, "couldn't establish MSI-X for queues\n");
1.7.2.3     skrll 		goto error;
1.7.2.3     skrll 	}
1.7.2.3     skrll
1.7.2.3     skrll 	if (virtio_setup_msix_vectors(sc) != 0) {
1.7.2.3     skrll 		aprint_error_dev(self, "couldn't setup MSI-X vectors\n");
1.7.2.3     skrll 		goto error;
1.7.2.3     skrll 	}
1.7.2.3     skrll
1.7.2.3     skrll 	idx = VIRTIO_MSIX_CONFIG_VECTOR_INDEX;
1.7.2.3     skrll 	intrstr = pci_intr_string(pc, sc->sc_ihp[idx], intrbuf, sizeof(intrbuf));
1.7.2.3     skrll 	aprint_normal_dev(self, "config interrupting at %s\n", intrstr);
1.7.2.3     skrll 	idx = VIRTIO_MSIX_QUEUE_VECTOR_INDEX;
1.7.2.3     skrll 	intrstr = pci_intr_string(pc, sc->sc_ihp[idx], intrbuf, sizeof(intrbuf));
1.7.2.3     skrll 	aprint_normal_dev(self, "queues interrupting at %s\n", intrstr);
1.7.2.3     skrll
1.7.2.3     skrll 	return 0;
1.7.2.3     skrll
1.7.2.3     skrll error:
1.7.2.3     skrll 	idx = VIRTIO_MSIX_CONFIG_VECTOR_INDEX;
1.7.2.3     skrll 	if (sc->sc_ihs[idx] != NULL)
1.7.2.3     skrll 		pci_intr_disestablish(sc->sc_pc, sc->sc_ihs[idx]);
1.7.2.3     skrll 	idx = VIRTIO_MSIX_QUEUE_VECTOR_INDEX;
1.7.2.3     skrll 	if (sc->sc_ihs[idx] != NULL)
1.7.2.3     skrll 		pci_intr_disestablish(sc->sc_pc, sc->sc_ihs[idx]);
1.7.2.3     skrll
1.7.2.3     skrll 	return -1;
1.7.2.3     skrll }
1.7.2.3     skrll
1.7.2.3     skrll static int
1.7.2.3     skrll virtio_setup_intx_interrupt(struct virtio_softc *sc, struct pci_attach_args *pa)
1.7.2.3     skrll {
1.7.2.3     skrll 	device_t self = sc->sc_dev;
1.7.2.3     skrll 	pci_chipset_tag_t pc = pa->pa_pc;
1.7.2.3     skrll 	char intrbuf[PCI_INTRSTR_LEN];
1.7.2.3     skrll 	char const *intrstr;
1.7.2.3     skrll
1.7.2.3     skrll 	if (sc->sc_flags & VIRTIO_F_PCI_INTR_MPSAFE)
1.7.2.3     skrll 		pci_intr_setattr(pc, &sc->sc_ihp[0], PCI_INTR_MPSAFE, true);
1.7.2.3     skrll
1.7.2.3     skrll 	sc->sc_ihs[0] = pci_intr_establish_xname(pc, sc->sc_ihp[0],
1.7.2.3     skrll 	    IPL_NET, virtio_intr, sc, device_xname(sc->sc_dev));
1.7.2.3     skrll 	if (sc->sc_ihs[0] == NULL) {
1.7.2.3     skrll 		aprint_error_dev(self, "couldn't establish INTx\n");
1.7.2.3     skrll 		return -1;
1.7.2.3     skrll 	}
1.7.2.3     skrll
1.7.2.3     skrll 	intrstr = pci_intr_string(pc, sc->sc_ihp[0], intrbuf, sizeof(intrbuf));
1.7.2.3     skrll 	aprint_normal_dev(self, "interrupting at %s\n", intrstr);
1.7.2.3     skrll
1.7.2.3     skrll 	return 0;
1.7.2.3     skrll }
1.7.2.3     skrll
1.7.2.3     skrll static int
1.7.2.3     skrll virtio_setup_interrupts(struct virtio_softc *sc, struct pci_attach_args *pa)
1.7.2.3     skrll {
1.7.2.3     skrll 	device_t self = sc->sc_dev;
1.7.2.3     skrll 	pci_chipset_tag_t pc = pa->pa_pc;
1.7.2.3     skrll 	int error;
1.7.2.3     skrll 	int nmsix;
1.7.2.3     skrll 	int counts[PCI_INTR_TYPE_SIZE];
1.7.2.3     skrll 	pci_intr_type_t max_type;
1.7.2.3     skrll
1.7.2.3     skrll 	nmsix = pci_msix_count(pa->pa_pc, pa->pa_tag);
1.7.2.3     skrll 	aprint_debug_dev(self, "pci_msix_count=%d\n", nmsix);
1.7.2.3     skrll
1.7.2.3     skrll 	/* We need at least two: one for config and the other for queues */
1.7.2.3     skrll 	if ((sc->sc_flags & VIRTIO_F_PCI_INTR_MSIX) == 0 || nmsix < 2) {
1.7.2.3     skrll 		/* Try INTx only */
1.7.2.3     skrll 		max_type = PCI_INTR_TYPE_INTX;
1.7.2.3     skrll 		counts[PCI_INTR_TYPE_INTX] = 1;
1.7.2.3     skrll 	} else {
1.7.2.3     skrll 		/* Try MSI-X first and INTx second */
1.7.2.3     skrll 		max_type = PCI_INTR_TYPE_MSIX;
1.7.2.3     skrll 		counts[PCI_INTR_TYPE_MSIX] = 2;
1.7.2.3     skrll 		counts[PCI_INTR_TYPE_MSI] = 0;
1.7.2.3     skrll 		counts[PCI_INTR_TYPE_INTX] = 1;
1.7.2.3     skrll 	}
1.7.2.3     skrll
1.7.2.3     skrll  retry:
1.7.2.3     skrll 	error = pci_intr_alloc(pa, &sc->sc_ihp, counts, max_type);
1.7.2.3     skrll 	if (error != 0) {
1.7.2.3     skrll 		aprint_error_dev(self, "couldn't map interrupt\n");
1.7.2.3     skrll 		return -1;
1.7.2.3     skrll 	}
1.7.2.3     skrll
1.7.2.3     skrll 	if (pci_intr_type(sc->sc_ihp[0]) == PCI_INTR_TYPE_MSIX) {
1.7.2.3     skrll 		sc->sc_ihs = kmem_alloc(sizeof(*sc->sc_ihs) * 2,
1.7.2.3     skrll 		    KM_SLEEP);
1.7.2.3     skrll 		if (sc->sc_ihs == NULL) {
1.7.2.3     skrll 			pci_intr_release(pc, sc->sc_ihp, 2);
1.7.2.3     skrll
1.7.2.3     skrll 			/* Retry INTx */
1.7.2.3     skrll 			max_type = PCI_INTR_TYPE_INTX;
1.7.2.3     skrll 			counts[PCI_INTR_TYPE_INTX] = 1;
1.7.2.3     skrll 			goto retry;
1.7.2.3     skrll 		}
1.7.2.3     skrll
1.7.2.3     skrll 		error = virtio_setup_msix_interrupts(sc, pa);
1.7.2.3     skrll 		if (error != 0) {
1.7.2.3     skrll 			kmem_free(sc->sc_ihs, sizeof(*sc->sc_ihs) * 2);
1.7.2.3     skrll 			pci_intr_release(pc, sc->sc_ihp, 2);
1.7.2.3     skrll
1.7.2.3     skrll 			/* Retry INTx */
1.7.2.3     skrll 			max_type = PCI_INTR_TYPE_INTX;
1.7.2.3     skrll 			counts[PCI_INTR_TYPE_INTX] = 1;
1.7.2.3     skrll 			goto retry;
1.7.2.3     skrll 		}
1.7.2.3     skrll
1.7.2.3     skrll 		sc->sc_ihs_num = 2;
1.7.2.3     skrll 		sc->sc_config_offset = VIRTIO_CONFIG_DEVICE_CONFIG_MSI;
1.7.2.3     skrll 	} else if (pci_intr_type(sc->sc_ihp[0]) == PCI_INTR_TYPE_INTX) {
1.7.2.3     skrll 		sc->sc_ihs = kmem_alloc(sizeof(*sc->sc_ihs) * 1,
1.7.2.3     skrll 		    KM_SLEEP);
1.7.2.3     skrll 		if (sc->sc_ihs == NULL) {
1.7.2.3     skrll 			pci_intr_release(pc, sc->sc_ihp, 1);
1.7.2.3     skrll 			return -1;
1.7.2.3     skrll 		}
1.7.2.3     skrll
1.7.2.3     skrll 		error = virtio_setup_intx_interrupt(sc, pa);
1.7.2.3     skrll 		if (error != 0) {
1.7.2.3     skrll 			kmem_free(sc->sc_ihs, sizeof(*sc->sc_ihs) * 1);
1.7.2.3     skrll 			pci_intr_release(pc, sc->sc_ihp, 1);
1.7.2.3     skrll 			return -1;
1.7.2.3     skrll 		}
1.7.2.3     skrll
1.7.2.3     skrll 		sc->sc_ihs_num = 1;
1.7.2.3     skrll 		sc->sc_config_offset = VIRTIO_CONFIG_DEVICE_CONFIG_NOMSI;
1.7.2.3     skrll 	}
1.7.2.3     skrll
1.7.2.3     skrll 	return 0;
1.7.2.3     skrll }
    1.1   hannken
    1.1   hannken static void
    1.1   hannken virtio_attach(device_t parent, device_t self, void *aux)
    1.1   hannken {
    1.1   hannken 	struct virtio_softc *sc = device_private(self);
    1.1   hannken 	struct pci_attach_args *pa = (struct pci_attach_args *)aux;
    1.1   hannken 	pci_chipset_tag_t pc = pa->pa_pc;
    1.1   hannken 	pcitag_t tag = pa->pa_tag;
    1.1   hannken 	int revision;
    1.1   hannken 	pcireg_t id;
1.7.2.3     skrll 	int r;
    1.1   hannken
    1.1   hannken 	revision = PCI_REVISION(pa->pa_class);
    1.1   hannken 	if (revision != 0) {
    1.1   hannken 		aprint_normal(": unknown revision 0x%02x; giving up\n",
    1.1   hannken 			      revision);
    1.1   hannken 		return;
    1.1   hannken 	}
    1.1   hannken 	aprint_normal("\n");
    1.1   hannken 	aprint_naive("\n");
    1.1   hannken
    1.1   hannken 	/* subsystem ID shows what I am */
    1.1   hannken 	id = pci_conf_read(pc, tag, PCI_SUBSYS_ID_REG);
    1.1   hannken 	aprint_normal_dev(self, "Virtio %s Device (rev. 0x%02x)\n",
    1.7   mlelstv 			  (PCI_SUBSYS_ID(id) < NDEVNAMES?
    1.7   mlelstv 			   virtio_device_name[PCI_SUBSYS_ID(id)] : "Unknown"),
    1.1   hannken 			  revision);
    1.1   hannken
    1.1   hannken 	sc->sc_dev = self;
    1.1   hannken 	sc->sc_pc = pc;
    1.1   hannken 	sc->sc_tag = tag;
    1.1   hannken 	sc->sc_iot = pa->pa_iot;
1.7.2.3     skrll 	if (pci_dma64_available(pa))
1.7.2.3     skrll 		sc->sc_dmat = pa->pa_dmat64;
1.7.2.3     skrll 	else
1.7.2.3     skrll 		sc->sc_dmat = pa->pa_dmat;
    1.1   hannken 	sc->sc_config_offset = VIRTIO_CONFIG_DEVICE_CONFIG_NOMSI;
    1.1   hannken
    1.1   hannken 	if (pci_mapreg_map(pa, PCI_MAPREG_START, PCI_MAPREG_TYPE_IO, 0,
    1.1   hannken 			   &sc->sc_iot, &sc->sc_ioh, NULL, &sc->sc_iosize)) {
    1.1   hannken 		aprint_error_dev(self, "can't map i/o space\n");
    1.1   hannken 		return;
    1.1   hannken 	}
    1.1   hannken
    1.1   hannken 	virtio_device_reset(sc);
    1.1   hannken 	virtio_set_status(sc, VIRTIO_CONFIG_DEVICE_STATUS_ACK);
    1.1   hannken 	virtio_set_status(sc, VIRTIO_CONFIG_DEVICE_STATUS_DRIVER);
    1.1   hannken
    1.1   hannken 	/* XXX: use softc as aux... */
    1.7   mlelstv 	sc->sc_childdevid = PCI_SUBSYS_ID(id);
    1.1   hannken 	sc->sc_child = NULL;
    1.1   hannken 	config_found(self, sc, NULL);
    1.1   hannken 	if (sc->sc_child == NULL) {
    1.1   hannken 		aprint_error_dev(self,
    1.1   hannken 				 "no matching child driver; not configured\n");
    1.1   hannken 		return;
    1.1   hannken 	}
    1.1   hannken 	if (sc->sc_child == (void*)1) { /* this shows error */
    1.1   hannken 		aprint_error_dev(self,
    1.1   hannken 				 "virtio configuration failed\n");
    1.1   hannken 		virtio_set_status(sc, VIRTIO_CONFIG_DEVICE_STATUS_FAILED);
    1.1   hannken 		return;
    1.1   hannken 	}
    1.1   hannken
1.7.2.3     skrll 	r = virtio_setup_interrupts(sc, pa);
1.7.2.3     skrll 	if (r != 0) {
1.7.2.3     skrll 		aprint_error_dev(self, "failed to setup interrupts\n");
    1.1   hannken 		virtio_set_status(sc, VIRTIO_CONFIG_DEVICE_STATUS_FAILED);
    1.1   hannken 		return;
    1.1   hannken 	}
    1.6     ozaki
1.7.2.1     skrll 	sc->sc_soft_ih = NULL;
1.7.2.1     skrll 	if (sc->sc_flags & VIRTIO_F_PCI_INTR_SOFTINT) {
1.7.2.1     skrll 		u_int flags = SOFTINT_NET;
1.7.2.1     skrll 		if (sc->sc_flags & VIRTIO_F_PCI_INTR_MPSAFE)
1.7.2.1     skrll 			flags |= SOFTINT_MPSAFE;
1.7.2.1     skrll
1.7.2.1     skrll 		sc->sc_soft_ih = softint_establish(flags, virtio_soft_intr, sc);
1.7.2.1     skrll 		if (sc->sc_soft_ih == NULL)
1.7.2.1     skrll 			aprint_error(": failed to establish soft interrupt\n");
1.7.2.1     skrll 	}
1.7.2.1     skrll
    1.1   hannken 	virtio_set_status(sc, VIRTIO_CONFIG_DEVICE_STATUS_DRIVER_OK);
    1.1   hannken
    1.1   hannken 	return;
    1.1   hannken }
    1.1   hannken
    1.1   hannken static int
    1.1   hannken virtio_detach(device_t self, int flags)
    1.1   hannken {
    1.1   hannken 	struct virtio_softc *sc = device_private(self);
    1.1   hannken 	int r;
1.7.2.3     skrll 	int i;
    1.1   hannken
    1.1   hannken 	if (sc->sc_child != 0 && sc->sc_child != (void*)1) {
    1.1   hannken 		r = config_detach(sc->sc_child, flags);
    1.1   hannken 		if (r)
    1.1   hannken 			return r;
    1.1   hannken 	}
    1.1   hannken 	KASSERT(sc->sc_child == 0 || sc->sc_child == (void*)1);
    1.1   hannken 	KASSERT(sc->sc_vqs == 0);
1.7.2.3     skrll 	for (i = 0; i < sc->sc_ihs_num; i++) {
1.7.2.3     skrll 		if (sc->sc_ihs[i] == NULL)
1.7.2.3     skrll 			continue;
1.7.2.3     skrll 		pci_intr_disestablish(sc->sc_pc, sc->sc_ihs[i]);
    1.4   tsutsui 	}
1.7.2.3     skrll 	pci_intr_release(sc->sc_pc, sc->sc_ihp, sc->sc_ihs_num);
1.7.2.3     skrll 	kmem_free(sc->sc_ihs, sizeof(*sc->sc_ihs) * sc->sc_ihs_num);
1.7.2.3     skrll 	sc->sc_ihs_num = 0;
    1.1   hannken 	if (sc->sc_iosize)
    1.1   hannken 		bus_space_unmap(sc->sc_iot, sc->sc_ioh, sc->sc_iosize);
    1.1   hannken 	sc->sc_iosize = 0;
    1.1   hannken
    1.1   hannken 	return 0;
    1.1   hannken }
    1.1   hannken
    1.1   hannken /*
    1.1   hannken  * Reset the device.
    1.1   hannken  */
    1.1   hannken /*
    1.1   hannken  * To reset the device to a known state, do following:
    1.1   hannken  *	virtio_reset(sc);	     // this will stop the device activity
    1.1   hannken  *	<dequeue finished requests>; // virtio_dequeue() still can be called
    1.1   hannken  *	<revoke pending requests in the vqs if any>;
    1.1   hannken  *	virtio_reinit_begin(sc);     // dequeue prohibitted
    1.1   hannken  *	newfeatures = virtio_negotiate_features(sc, requestedfeatures);
    1.1   hannken  *	<some other initialization>;
    1.1   hannken  *	virtio_reinit_end(sc);	     // device activated; enqueue allowed
    1.1   hannken  * Once attached, feature negotiation can only be allowed after virtio_reset.
    1.1   hannken  */
    1.1   hannken void
    1.1   hannken virtio_reset(struct virtio_softc *sc)
    1.1   hannken {
    1.1   hannken 	virtio_device_reset(sc);
    1.1   hannken }
    1.1   hannken
    1.1   hannken void
    1.1   hannken virtio_reinit_start(struct virtio_softc *sc)
    1.1   hannken {
    1.1   hannken 	int i;
    1.1   hannken
    1.1   hannken 	virtio_set_status(sc, VIRTIO_CONFIG_DEVICE_STATUS_ACK);
    1.1   hannken 	virtio_set_status(sc, VIRTIO_CONFIG_DEVICE_STATUS_DRIVER);
    1.1   hannken 	for (i = 0; i < sc->sc_nvqs; i++) {
    1.1   hannken 		int n;
    1.1   hannken 		struct virtqueue *vq = &sc->sc_vqs[i];
    1.1   hannken 		bus_space_write_2(sc->sc_iot, sc->sc_ioh,
    1.1   hannken 				  VIRTIO_CONFIG_QUEUE_SELECT,
    1.1   hannken 				  vq->vq_index);
    1.1   hannken 		n = bus_space_read_2(sc->sc_iot, sc->sc_ioh,
    1.1   hannken 				     VIRTIO_CONFIG_QUEUE_SIZE);
    1.1   hannken 		if (n == 0)	/* vq disappeared */
    1.1   hannken 			continue;
    1.1   hannken 		if (n != vq->vq_num) {
    1.1   hannken 			panic("%s: virtqueue size changed, vq index %d\n",
    1.1   hannken 			      device_xname(sc->sc_dev),
    1.1   hannken 			      vq->vq_index);
    1.1   hannken 		}
    1.1   hannken 		virtio_init_vq(sc, vq, true);
    1.1   hannken 		bus_space_write_4(sc->sc_iot, sc->sc_ioh,
    1.1   hannken 				  VIRTIO_CONFIG_QUEUE_ADDRESS,
    1.1   hannken 				  (vq->vq_dmamap->dm_segs[0].ds_addr
    1.1   hannken 				   / VIRTIO_PAGE_SIZE));
    1.1   hannken 	}
1.7.2.3     skrll
1.7.2.3     skrll 	/* MSI-X should have more than one handles where INTx has just one */
1.7.2.3     skrll 	if (sc->sc_ihs_num > 1) {
1.7.2.3     skrll 		if (virtio_setup_msix_vectors(sc) != 0) {
1.7.2.3     skrll 			aprint_error_dev(sc->sc_dev, "couldn't setup MSI-X vectors\n");
1.7.2.3     skrll 			return;
1.7.2.3     skrll 		}
1.7.2.3     skrll 	}
    1.1   hannken }
    1.1   hannken
    1.1   hannken void
    1.1   hannken virtio_reinit_end(struct virtio_softc *sc)
    1.1   hannken {
    1.1   hannken 	virtio_set_status(sc, VIRTIO_CONFIG_DEVICE_STATUS_DRIVER_OK);
    1.1   hannken }
    1.1   hannken
    1.1   hannken /*
    1.1   hannken  * Feature negotiation.
    1.1   hannken  */
    1.1   hannken uint32_t
    1.1   hannken virtio_negotiate_features(struct virtio_softc *sc, uint32_t guest_features)
    1.1   hannken {
    1.1   hannken 	uint32_t r;
    1.1   hannken
    1.1   hannken 	if (!(device_cfdata(sc->sc_dev)->cf_flags & 1) &&
    1.1   hannken 	    !(device_cfdata(sc->sc_child)->cf_flags & 1)) /* XXX */
    1.1   hannken 		guest_features |= VIRTIO_F_RING_INDIRECT_DESC;
    1.1   hannken 	r = bus_space_read_4(sc->sc_iot, sc->sc_ioh,
    1.1   hannken 			     VIRTIO_CONFIG_DEVICE_FEATURES);
    1.1   hannken 	r &= guest_features;
    1.1   hannken 	bus_space_write_4(sc->sc_iot, sc->sc_ioh,
    1.1   hannken 			  VIRTIO_CONFIG_GUEST_FEATURES, r);
    1.1   hannken 	sc->sc_features = r;
    1.1   hannken 	if (r & VIRTIO_F_RING_INDIRECT_DESC)
    1.1   hannken 		sc->sc_indirect = true;
    1.1   hannken 	else
    1.1   hannken 		sc->sc_indirect = false;
    1.1   hannken
    1.1   hannken 	return r;
    1.1   hannken }
    1.1   hannken
    1.1   hannken /*
    1.1   hannken  * Device configuration registers.
    1.1   hannken  */
    1.1   hannken uint8_t
    1.1   hannken virtio_read_device_config_1(struct virtio_softc *sc, int index)
    1.1   hannken {
    1.1   hannken 	return bus_space_read_1(sc->sc_iot, sc->sc_ioh,
    1.1   hannken 				sc->sc_config_offset + index);
    1.1   hannken }
    1.1   hannken
    1.1   hannken uint16_t
    1.1   hannken virtio_read_device_config_2(struct virtio_softc *sc, int index)
    1.1   hannken {
    1.1   hannken 	return bus_space_read_2(sc->sc_iot, sc->sc_ioh,
    1.1   hannken 				sc->sc_config_offset + index);
    1.1   hannken }
    1.1   hannken
    1.1   hannken uint32_t
    1.1   hannken virtio_read_device_config_4(struct virtio_softc *sc, int index)
    1.1   hannken {
    1.1   hannken 	return bus_space_read_4(sc->sc_iot, sc->sc_ioh,
    1.1   hannken 				sc->sc_config_offset + index);
    1.1   hannken }
    1.1   hannken
    1.1   hannken uint64_t
    1.1   hannken virtio_read_device_config_8(struct virtio_softc *sc, int index)
    1.1   hannken {
    1.1   hannken 	uint64_t r;
    1.1   hannken
    1.1   hannken 	r = bus_space_read_4(sc->sc_iot, sc->sc_ioh,
    1.1   hannken 			     sc->sc_config_offset + index + sizeof(uint32_t));
    1.1   hannken 	r <<= 32;
    1.1   hannken 	r += bus_space_read_4(sc->sc_iot, sc->sc_ioh,
    1.1   hannken 			      sc->sc_config_offset + index);
    1.1   hannken 	return r;
    1.1   hannken }
    1.1   hannken
    1.1   hannken void
    1.1   hannken virtio_write_device_config_1(struct virtio_softc *sc,
    1.1   hannken 			     int index, uint8_t value)
    1.1   hannken {
    1.1   hannken 	bus_space_write_1(sc->sc_iot, sc->sc_ioh,
    1.1   hannken 			  sc->sc_config_offset + index, value);
    1.1   hannken }
    1.1   hannken
    1.1   hannken void
    1.1   hannken virtio_write_device_config_2(struct virtio_softc *sc,
    1.1   hannken 			     int index, uint16_t value)
    1.1   hannken {
    1.1   hannken 	bus_space_write_2(sc->sc_iot, sc->sc_ioh,
    1.1   hannken 			  sc->sc_config_offset + index, value);
    1.1   hannken }
    1.1   hannken
    1.1   hannken void
    1.1   hannken virtio_write_device_config_4(struct virtio_softc *sc,
    1.1   hannken 			     int index, uint32_t value)
    1.1   hannken {
    1.1   hannken 	bus_space_write_4(sc->sc_iot, sc->sc_ioh,
    1.1   hannken 			  sc->sc_config_offset + index, value);
    1.1   hannken }
    1.1   hannken
    1.1   hannken void
    1.1   hannken virtio_write_device_config_8(struct virtio_softc *sc,
    1.1   hannken 			     int index, uint64_t value)
    1.1   hannken {
    1.1   hannken 	bus_space_write_4(sc->sc_iot, sc->sc_ioh,
    1.1   hannken 			  sc->sc_config_offset + index,
    1.1   hannken 			  value & 0xffffffff);
    1.1   hannken 	bus_space_write_4(sc->sc_iot, sc->sc_ioh,
    1.1   hannken 			  sc->sc_config_offset + index + sizeof(uint32_t),
    1.1   hannken 			  value >> 32);
    1.1   hannken }
    1.1   hannken
    1.1   hannken /*
    1.1   hannken  * Interrupt handler.
    1.1   hannken  */
    1.1   hannken static int
    1.1   hannken virtio_intr(void *arg)
    1.1   hannken {
    1.1   hannken 	struct virtio_softc *sc = arg;
    1.1   hannken 	int isr, r = 0;
    1.1   hannken
    1.1   hannken 	/* check and ack the interrupt */
    1.1   hannken 	isr = bus_space_read_1(sc->sc_iot, sc->sc_ioh,
    1.1   hannken 			       VIRTIO_CONFIG_ISR_STATUS);
    1.1   hannken 	if (isr == 0)
    1.1   hannken 		return 0;
    1.1   hannken 	if ((isr & VIRTIO_CONFIG_ISR_CONFIG_CHANGE) &&
    1.1   hannken 	    (sc->sc_config_change != NULL))
    1.1   hannken 		r = (sc->sc_config_change)(sc);
1.7.2.1     skrll 	if (sc->sc_intrhand != NULL) {
1.7.2.1     skrll 		if (sc->sc_soft_ih != NULL)
1.7.2.1     skrll 			softint_schedule(sc->sc_soft_ih);
1.7.2.1     skrll 		else
1.7.2.1     skrll 			r |= (sc->sc_intrhand)(sc);
1.7.2.1     skrll 	}
    1.1   hannken
    1.1   hannken 	return r;
    1.1   hannken }
    1.1   hannken
1.7.2.3     skrll static int
1.7.2.3     skrll virtio_msix_queue_intr(void *arg)
1.7.2.3     skrll {
1.7.2.3     skrll 	struct virtio_softc *sc = arg;
1.7.2.3     skrll 	int r = 0;
1.7.2.3     skrll
1.7.2.3     skrll 	if (sc->sc_intrhand != NULL) {
1.7.2.3     skrll 		if (sc->sc_soft_ih != NULL)
1.7.2.3     skrll 			softint_schedule(sc->sc_soft_ih);
1.7.2.3     skrll 		else
1.7.2.3     skrll 			r |= (sc->sc_intrhand)(sc);
1.7.2.3     skrll 	}
1.7.2.3     skrll
1.7.2.3     skrll 	return r;
1.7.2.3     skrll }
1.7.2.3     skrll
1.7.2.3     skrll static int
1.7.2.3     skrll virtio_msix_config_intr(void *arg)
1.7.2.3     skrll {
1.7.2.3     skrll 	struct virtio_softc *sc = arg;
1.7.2.3     skrll
1.7.2.3     skrll 	/* TODO: handle events */
1.7.2.3     skrll 	aprint_debug_dev(sc->sc_dev, "%s\n", __func__);
1.7.2.3     skrll 	return 1;
1.7.2.3     skrll }
1.7.2.3     skrll
1.7.2.1     skrll static void
1.7.2.1     skrll virtio_soft_intr(void *arg)
1.7.2.1     skrll {
1.7.2.1     skrll 	struct virtio_softc *sc = arg;
1.7.2.1     skrll
1.7.2.1     skrll 	KASSERT(sc->sc_intrhand != NULL);
1.7.2.1     skrll
1.7.2.1     skrll 	(sc->sc_intrhand)(sc);
1.7.2.1     skrll }
1.7.2.1     skrll
    1.1   hannken /*
    1.1   hannken  * dmamap sync operations for a virtqueue.
    1.1   hannken  */
    1.1   hannken static inline void
    1.1   hannken vq_sync_descs(struct virtio_softc *sc, struct virtqueue *vq, int ops)
    1.1   hannken {
    1.1   hannken 	/* availoffset == sizeof(vring_desc)*vq_num */
    1.1   hannken 	bus_dmamap_sync(sc->sc_dmat, vq->vq_dmamap, 0, vq->vq_availoffset,
    1.1   hannken 			ops);
    1.1   hannken }
    1.1   hannken
    1.1   hannken static inline void
    1.1   hannken vq_sync_aring(struct virtio_softc *sc, struct virtqueue *vq, int ops)
    1.1   hannken {
    1.1   hannken 	bus_dmamap_sync(sc->sc_dmat, vq->vq_dmamap,
    1.1   hannken 			vq->vq_availoffset,
    1.1   hannken 			offsetof(struct vring_avail, ring)
    1.1   hannken 			 + vq->vq_num * sizeof(uint16_t),
    1.1   hannken 			ops);
    1.1   hannken }
    1.1   hannken
    1.1   hannken static inline void
    1.1   hannken vq_sync_uring(struct virtio_softc *sc, struct virtqueue *vq, int ops)
    1.1   hannken {
    1.1   hannken 	bus_dmamap_sync(sc->sc_dmat, vq->vq_dmamap,
    1.1   hannken 			vq->vq_usedoffset,
    1.1   hannken 			offsetof(struct vring_used, ring)
    1.1   hannken 			 + vq->vq_num * sizeof(struct vring_used_elem),
    1.1   hannken 			ops);
    1.1   hannken }
    1.1   hannken
    1.1   hannken static inline void
    1.1   hannken vq_sync_indirect(struct virtio_softc *sc, struct virtqueue *vq, int slot,
    1.1   hannken 		     int ops)
    1.1   hannken {
    1.1   hannken 	int offset = vq->vq_indirectoffset
    1.1   hannken 		      + sizeof(struct vring_desc) * vq->vq_maxnsegs * slot;
    1.1   hannken
    1.1   hannken 	bus_dmamap_sync(sc->sc_dmat, vq->vq_dmamap,
    1.1   hannken 			offset, sizeof(struct vring_desc) * vq->vq_maxnsegs,
    1.1   hannken 			ops);
    1.1   hannken }
    1.1   hannken
    1.1   hannken /*
    1.1   hannken  * Can be used as sc_intrhand.
    1.1   hannken  */
    1.1   hannken /*
    1.1   hannken  * Scan vq, bus_dmamap_sync for the vqs (not for the payload),
    1.1   hannken  * and calls (*vq_done)() if some entries are consumed.
    1.1   hannken  */
    1.1   hannken int
    1.1   hannken virtio_vq_intr(struct virtio_softc *sc)
    1.1   hannken {
    1.1   hannken 	struct virtqueue *vq;
    1.1   hannken 	int i, r = 0;
    1.1   hannken
    1.1   hannken 	for (i = 0; i < sc->sc_nvqs; i++) {
    1.1   hannken 		vq = &sc->sc_vqs[i];
    1.1   hannken 		if (vq->vq_queued) {
    1.1   hannken 			vq->vq_queued = 0;
    1.1   hannken 			vq_sync_aring(sc, vq, BUS_DMASYNC_POSTWRITE);
    1.1   hannken 		}
    1.1   hannken 		vq_sync_uring(sc, vq, BUS_DMASYNC_POSTREAD);
    1.1   hannken 		membar_consumer();
    1.1   hannken 		if (vq->vq_used_idx != vq->vq_used->idx) {
    1.1   hannken 			if (vq->vq_done)
    1.1   hannken 				r |= (vq->vq_done)(vq);
    1.1   hannken 		}
    1.1   hannken 	}
    1.1   hannken
    1.1   hannken 	return r;
    1.1   hannken }
    1.1   hannken
    1.1   hannken /*
    1.1   hannken  * Start/stop vq interrupt.  No guarantee.
    1.1   hannken  */
    1.1   hannken void
    1.1   hannken virtio_stop_vq_intr(struct virtio_softc *sc, struct virtqueue *vq)
    1.1   hannken {
    1.1   hannken 	vq->vq_avail->flags |= VRING_AVAIL_F_NO_INTERRUPT;
    1.1   hannken 	vq_sync_aring(sc, vq, BUS_DMASYNC_PREWRITE);
    1.1   hannken 	vq->vq_queued++;
    1.1   hannken }
    1.1   hannken
    1.1   hannken void
    1.1   hannken virtio_start_vq_intr(struct virtio_softc *sc, struct virtqueue *vq)
    1.1   hannken {
    1.1   hannken 	vq->vq_avail->flags &= ~VRING_AVAIL_F_NO_INTERRUPT;
    1.1   hannken 	vq_sync_aring(sc, vq, BUS_DMASYNC_PREWRITE);
    1.1   hannken 	vq->vq_queued++;
    1.1   hannken }
    1.1   hannken
    1.1   hannken /*
    1.1   hannken  * Initialize vq structure.
    1.1   hannken  */
    1.1   hannken static void
    1.1   hannken virtio_init_vq(struct virtio_softc *sc, struct virtqueue *vq, const bool reinit)
    1.1   hannken {
    1.1   hannken 	int i, j;
    1.1   hannken 	int vq_size = vq->vq_num;
    1.1   hannken
    1.1   hannken 	memset(vq->vq_vaddr, 0, vq->vq_bytesize);
    1.1   hannken
    1.1   hannken 	/* build the indirect descriptor chain */
    1.1   hannken 	if (vq->vq_indirect != NULL) {
    1.1   hannken 		struct vring_desc *vd;
    1.1   hannken
    1.1   hannken 		for (i = 0; i < vq_size; i++) {
    1.1   hannken 			vd = vq->vq_indirect;
    1.1   hannken 			vd += vq->vq_maxnsegs * i;
    1.1   hannken 			for (j = 0; j < vq->vq_maxnsegs-1; j++)
    1.1   hannken 				vd[j].next = j + 1;
    1.1   hannken 		}
    1.1   hannken 	}
    1.1   hannken
    1.1   hannken 	/* free slot management */
    1.1   hannken 	SIMPLEQ_INIT(&vq->vq_freelist);
    1.1   hannken 	for (i = 0; i < vq_size; i++) {
    1.1   hannken 		SIMPLEQ_INSERT_TAIL(&vq->vq_freelist,
    1.1   hannken 				    &vq->vq_entries[i], qe_list);
    1.1   hannken 		vq->vq_entries[i].qe_index = i;
    1.1   hannken 	}
    1.1   hannken 	if (!reinit)
    1.1   hannken 		mutex_init(&vq->vq_freelist_lock, MUTEX_SPIN, sc->sc_ipl);
    1.1   hannken
    1.1   hannken 	/* enqueue/dequeue status */
    1.1   hannken 	vq->vq_avail_idx = 0;
    1.1   hannken 	vq->vq_used_idx = 0;
    1.1   hannken 	vq->vq_queued = 0;
    1.1   hannken 	if (!reinit) {
    1.1   hannken 		mutex_init(&vq->vq_aring_lock, MUTEX_SPIN, sc->sc_ipl);
    1.1   hannken 		mutex_init(&vq->vq_uring_lock, MUTEX_SPIN, sc->sc_ipl);
    1.1   hannken 	}
    1.1   hannken 	vq_sync_aring(sc, vq, BUS_DMASYNC_PREWRITE);
    1.1   hannken 	vq_sync_uring(sc, vq, BUS_DMASYNC_PREREAD);
    1.1   hannken 	vq->vq_queued++;
    1.1   hannken }
1.7.2.2     skrll
    1.1   hannken /*
    1.1   hannken  * Allocate/free a vq.
    1.1   hannken  */
    1.1   hannken int
    1.1   hannken virtio_alloc_vq(struct virtio_softc *sc,
    1.1   hannken 		struct virtqueue *vq, int index, int maxsegsize, int maxnsegs,
    1.1   hannken 		const char *name)
    1.1   hannken {
    1.1   hannken 	int vq_size, allocsize1, allocsize2, allocsize3, allocsize = 0;
    1.1   hannken 	int rsegs, r;
    1.1   hannken #define VIRTQUEUE_ALIGN(n)	(((n)+(VIRTIO_PAGE_SIZE-1))&	\
    1.1   hannken 				 ~(VIRTIO_PAGE_SIZE-1))
    1.1   hannken
    1.1   hannken 	memset(vq, 0, sizeof(*vq));
    1.1   hannken
    1.1   hannken 	bus_space_write_2(sc->sc_iot, sc->sc_ioh,
    1.1   hannken 			  VIRTIO_CONFIG_QUEUE_SELECT, index);
    1.1   hannken 	vq_size = bus_space_read_2(sc->sc_iot, sc->sc_ioh,
    1.1   hannken 				   VIRTIO_CONFIG_QUEUE_SIZE);
    1.1   hannken 	if (vq_size == 0) {
    1.1   hannken 		aprint_error_dev(sc->sc_dev,
    1.1   hannken 				 "virtqueue not exist, index %d for %s\n",
    1.1   hannken 				 index, name);
    1.1   hannken 		goto err;
    1.1   hannken 	}
    1.1   hannken 	/* allocsize1: descriptor table + avail ring + pad */
    1.1   hannken 	allocsize1 = VIRTQUEUE_ALIGN(sizeof(struct vring_desc)*vq_size
    1.1   hannken 				     + sizeof(uint16_t)*(2+vq_size));
    1.1   hannken 	/* allocsize2: used ring + pad */
    1.1   hannken 	allocsize2 = VIRTQUEUE_ALIGN(sizeof(uint16_t)*2
    1.1   hannken 				     + sizeof(struct vring_used_elem)*vq_size);
    1.1   hannken 	/* allocsize3: indirect table */
    1.1   hannken 	if (sc->sc_indirect && maxnsegs >= MINSEG_INDIRECT)
    1.1   hannken 		allocsize3 = sizeof(struct vring_desc) * maxnsegs * vq_size;
    1.1   hannken 	else
    1.1   hannken 		allocsize3 = 0;
    1.1   hannken 	allocsize = allocsize1 + allocsize2 + allocsize3;
    1.1   hannken
    1.1   hannken 	/* alloc and map the memory */
    1.1   hannken 	r = bus_dmamem_alloc(sc->sc_dmat, allocsize, VIRTIO_PAGE_SIZE, 0,
    1.1   hannken 			     &vq->vq_segs[0], 1, &rsegs, BUS_DMA_NOWAIT);
    1.1   hannken 	if (r != 0) {
    1.1   hannken 		aprint_error_dev(sc->sc_dev,
    1.1   hannken 				 "virtqueue %d for %s allocation failed, "
    1.1   hannken 				 "error code %d\n", index, name, r);
    1.1   hannken 		goto err;
    1.1   hannken 	}
    1.1   hannken 	r = bus_dmamem_map(sc->sc_dmat, &vq->vq_segs[0], 1, allocsize,
    1.1   hannken 			   &vq->vq_vaddr, BUS_DMA_NOWAIT);
    1.1   hannken 	if (r != 0) {
    1.1   hannken 		aprint_error_dev(sc->sc_dev,
    1.1   hannken 				 "virtqueue %d for %s map failed, "
    1.1   hannken 				 "error code %d\n", index, name, r);
    1.1   hannken 		goto err;
    1.1   hannken 	}
    1.1   hannken 	r = bus_dmamap_create(sc->sc_dmat, allocsize, 1, allocsize, 0,
    1.1   hannken 			      BUS_DMA_NOWAIT, &vq->vq_dmamap);
    1.1   hannken 	if (r != 0) {
    1.1   hannken 		aprint_error_dev(sc->sc_dev,
    1.1   hannken 				 "virtqueue %d for %s dmamap creation failed, "
    1.1   hannken 				 "error code %d\n", index, name, r);
    1.1   hannken 		goto err;
    1.1   hannken 	}
    1.1   hannken 	r = bus_dmamap_load(sc->sc_dmat, vq->vq_dmamap,
    1.1   hannken 			    vq->vq_vaddr, allocsize, NULL, BUS_DMA_NOWAIT);
    1.1   hannken 	if (r != 0) {
    1.1   hannken 		aprint_error_dev(sc->sc_dev,
    1.1   hannken 				 "virtqueue %d for %s dmamap load failed, "
    1.1   hannken 				 "error code %d\n", index, name, r);
    1.1   hannken 		goto err;
    1.1   hannken 	}
    1.1   hannken
    1.1   hannken 	/* set the vq address */
    1.1   hannken 	bus_space_write_4(sc->sc_iot, sc->sc_ioh,
    1.1   hannken 			  VIRTIO_CONFIG_QUEUE_ADDRESS,
    1.1   hannken 			  (vq->vq_dmamap->dm_segs[0].ds_addr
    1.1   hannken 			   / VIRTIO_PAGE_SIZE));
    1.1   hannken
    1.1   hannken 	/* remember addresses and offsets for later use */
    1.1   hannken 	vq->vq_owner = sc;
    1.1   hannken 	vq->vq_num = vq_size;
    1.1   hannken 	vq->vq_index = index;
    1.1   hannken 	vq->vq_desc = vq->vq_vaddr;
    1.1   hannken 	vq->vq_availoffset = sizeof(struct vring_desc)*vq_size;
    1.1   hannken 	vq->vq_avail = (void*)(((char*)vq->vq_desc) + vq->vq_availoffset);
    1.1   hannken 	vq->vq_usedoffset = allocsize1;
    1.1   hannken 	vq->vq_used = (void*)(((char*)vq->vq_desc) + vq->vq_usedoffset);
    1.1   hannken 	if (allocsize3 > 0) {
    1.1   hannken 		vq->vq_indirectoffset = allocsize1 + allocsize2;
    1.1   hannken 		vq->vq_indirect = (void*)(((char*)vq->vq_desc)
    1.1   hannken 					  + vq->vq_indirectoffset);
    1.1   hannken 	}
    1.1   hannken 	vq->vq_bytesize = allocsize;
    1.1   hannken 	vq->vq_maxsegsize = maxsegsize;
    1.1   hannken 	vq->vq_maxnsegs = maxnsegs;
    1.1   hannken
    1.1   hannken 	/* free slot management */
    1.1   hannken 	vq->vq_entries = kmem_zalloc(sizeof(struct vq_entry)*vq_size,
    1.1   hannken 				     KM_NOSLEEP);
    1.1   hannken 	if (vq->vq_entries == NULL) {
    1.1   hannken 		r = ENOMEM;
    1.1   hannken 		goto err;
    1.1   hannken 	}
    1.1   hannken
    1.1   hannken 	virtio_init_vq(sc, vq, false);
    1.1   hannken
    1.1   hannken 	aprint_verbose_dev(sc->sc_dev,
    1.1   hannken 			   "allocated %u byte for virtqueue %d for %s, "
    1.1   hannken 			   "size %d\n", allocsize, index, name, vq_size);
    1.1   hannken 	if (allocsize3 > 0)
    1.1   hannken 		aprint_verbose_dev(sc->sc_dev,
    1.1   hannken 				   "using %d byte (%d entries) "
    1.1   hannken 				   "indirect descriptors\n",
    1.1   hannken 				   allocsize3, maxnsegs * vq_size);
    1.1   hannken 	return 0;
    1.1   hannken
    1.1   hannken err:
    1.1   hannken 	bus_space_write_4(sc->sc_iot, sc->sc_ioh,
    1.1   hannken 			  VIRTIO_CONFIG_QUEUE_ADDRESS, 0);
    1.1   hannken 	if (vq->vq_dmamap)
    1.1   hannken 		bus_dmamap_destroy(sc->sc_dmat, vq->vq_dmamap);
    1.1   hannken 	if (vq->vq_vaddr)
    1.1   hannken 		bus_dmamem_unmap(sc->sc_dmat, vq->vq_vaddr, allocsize);
    1.1   hannken 	if (vq->vq_segs[0].ds_addr)
    1.1   hannken 		bus_dmamem_free(sc->sc_dmat, &vq->vq_segs[0], 1);
    1.1   hannken 	memset(vq, 0, sizeof(*vq));
    1.1   hannken
    1.1   hannken 	return -1;
    1.1   hannken }
    1.1   hannken
    1.1   hannken int
    1.1   hannken virtio_free_vq(struct virtio_softc *sc, struct virtqueue *vq)
    1.1   hannken {
    1.1   hannken 	struct vq_entry *qe;
    1.1   hannken 	int i = 0;
    1.1   hannken
    1.1   hannken 	/* device must be already deactivated */
    1.1   hannken 	/* confirm the vq is empty */
    1.1   hannken 	SIMPLEQ_FOREACH(qe, &vq->vq_freelist, qe_list) {
    1.1   hannken 		i++;
    1.1   hannken 	}
    1.1   hannken 	if (i != vq->vq_num) {
    1.1   hannken 		printf("%s: freeing non-empty vq, index %d\n",
    1.1   hannken 		       device_xname(sc->sc_dev), vq->vq_index);
    1.1   hannken 		return EBUSY;
    1.1   hannken 	}
    1.1   hannken
    1.1   hannken 	/* tell device that there's no virtqueue any longer */
    1.1   hannken 	bus_space_write_2(sc->sc_iot, sc->sc_ioh,
    1.1   hannken 			  VIRTIO_CONFIG_QUEUE_SELECT, vq->vq_index);
    1.1   hannken 	bus_space_write_4(sc->sc_iot, sc->sc_ioh,
    1.1   hannken 			  VIRTIO_CONFIG_QUEUE_ADDRESS, 0);
    1.1   hannken
1.7.2.4     skrll 	kmem_free(vq->vq_entries, sizeof(*vq->vq_entries) * vq->vq_num);
    1.1   hannken 	bus_dmamap_unload(sc->sc_dmat, vq->vq_dmamap);
    1.1   hannken 	bus_dmamap_destroy(sc->sc_dmat, vq->vq_dmamap);
    1.1   hannken 	bus_dmamem_unmap(sc->sc_dmat, vq->vq_vaddr, vq->vq_bytesize);
    1.1   hannken 	bus_dmamem_free(sc->sc_dmat, &vq->vq_segs[0], 1);
    1.1   hannken 	mutex_destroy(&vq->vq_freelist_lock);
    1.1   hannken 	mutex_destroy(&vq->vq_uring_lock);
    1.1   hannken 	mutex_destroy(&vq->vq_aring_lock);
    1.1   hannken 	memset(vq, 0, sizeof(*vq));
    1.1   hannken
    1.1   hannken 	return 0;
    1.1   hannken }
    1.1   hannken
    1.1   hannken /*
    1.1   hannken  * Free descriptor management.
    1.1   hannken  */
    1.1   hannken static struct vq_entry *
    1.1   hannken vq_alloc_entry(struct virtqueue *vq)
    1.1   hannken {
    1.1   hannken 	struct vq_entry *qe;
    1.1   hannken
    1.1   hannken 	mutex_enter(&vq->vq_freelist_lock);
    1.1   hannken 	if (SIMPLEQ_EMPTY(&vq->vq_freelist)) {
    1.1   hannken 		mutex_exit(&vq->vq_freelist_lock);
    1.1   hannken 		return NULL;
    1.1   hannken 	}
    1.1   hannken 	qe = SIMPLEQ_FIRST(&vq->vq_freelist);
    1.1   hannken 	SIMPLEQ_REMOVE_HEAD(&vq->vq_freelist, qe_list);
    1.1   hannken 	mutex_exit(&vq->vq_freelist_lock);
    1.1   hannken
    1.1   hannken 	return qe;
    1.1   hannken }
    1.1   hannken
    1.1   hannken static void
    1.1   hannken vq_free_entry(struct virtqueue *vq, struct vq_entry *qe)
    1.1   hannken {
    1.1   hannken 	mutex_enter(&vq->vq_freelist_lock);
    1.1   hannken 	SIMPLEQ_INSERT_TAIL(&vq->vq_freelist, qe, qe_list);
    1.1   hannken 	mutex_exit(&vq->vq_freelist_lock);
    1.1   hannken
    1.1   hannken 	return;
    1.1   hannken }
    1.1   hannken
    1.1   hannken /*
    1.1   hannken  * Enqueue several dmamaps as a single request.
    1.1   hannken  */
    1.1   hannken /*
    1.1   hannken  * Typical usage:
    1.1   hannken  *  <queue size> number of followings are stored in arrays
    1.1   hannken  *  - command blocks (in dmamem) should be pre-allocated and mapped
    1.1   hannken  *  - dmamaps for command blocks should be pre-allocated and loaded
    1.1   hannken  *  - dmamaps for payload should be pre-allocated
    1.1   hannken  *      r = virtio_enqueue_prep(sc, vq, &slot);		// allocate a slot
    1.1   hannken  *	if (r)		// currently 0 or EAGAIN
    1.1   hannken  *	  return r;
    1.1   hannken  *	r = bus_dmamap_load(dmat, dmamap_payload[slot], data, count, ..);
    1.1   hannken  *	if (r) {
    1.1   hannken  *	  virtio_enqueue_abort(sc, vq, slot);
    1.1   hannken  *	  bus_dmamap_unload(dmat, dmamap_payload[slot]);
    1.1   hannken  *	  return r;
    1.1   hannken  *	}
1.7.2.2     skrll  *	r = virtio_enqueue_reserve(sc, vq, slot,
    1.1   hannken  *				   dmamap_payload[slot]->dm_nsegs+1);
    1.1   hannken  *							// ^ +1 for command
    1.1   hannken  *	if (r) {	// currently 0 or EAGAIN
    1.1   hannken  *	  bus_dmamap_unload(dmat, dmamap_payload[slot]);
    1.1   hannken  *	  return r;					// do not call abort()
    1.1   hannken  *	}
    1.1   hannken  *	<setup and prepare commands>
    1.1   hannken  *	bus_dmamap_sync(dmat, dmamap_cmd[slot],... BUS_DMASYNC_PREWRITE);
    1.1   hannken  *	bus_dmamap_sync(dmat, dmamap_payload[slot],...);
    1.1   hannken  *	virtio_enqueue(sc, vq, slot, dmamap_cmd[slot], false);
    1.1   hannken  *	virtio_enqueue(sc, vq, slot, dmamap_payload[slot], iswrite);
    1.1   hannken  *	virtio_enqueue_commit(sc, vq, slot, true);
    1.1   hannken  */
    1.1   hannken
    1.1   hannken /*
    1.1   hannken  * enqueue_prep: allocate a slot number
    1.1   hannken  */
    1.1   hannken int
    1.1   hannken virtio_enqueue_prep(struct virtio_softc *sc, struct virtqueue *vq, int *slotp)
    1.1   hannken {
    1.1   hannken 	struct vq_entry *qe1;
    1.1   hannken
    1.1   hannken 	KASSERT(slotp != NULL);
    1.1   hannken
    1.1   hannken 	qe1 = vq_alloc_entry(vq);
    1.1   hannken 	if (qe1 == NULL)
    1.1   hannken 		return EAGAIN;
    1.1   hannken 	/* next slot is not allocated yet */
    1.1   hannken 	qe1->qe_next = -1;
    1.1   hannken 	*slotp = qe1->qe_index;
    1.1   hannken
    1.1   hannken 	return 0;
    1.1   hannken }
    1.1   hannken
    1.1   hannken /*
    1.1   hannken  * enqueue_reserve: allocate remaining slots and build the descriptor chain.
    1.1   hannken  */
    1.1   hannken int
    1.1   hannken virtio_enqueue_reserve(struct virtio_softc *sc, struct virtqueue *vq,
    1.1   hannken 		       int slot, int nsegs)
    1.1   hannken {
    1.1   hannken 	int indirect;
    1.1   hannken 	struct vq_entry *qe1 = &vq->vq_entries[slot];
    1.1   hannken
    1.1   hannken 	KASSERT(qe1->qe_next == -1);
    1.1   hannken 	KASSERT(1 <= nsegs && nsegs <= vq->vq_num);
    1.1   hannken
    1.1   hannken 	if ((vq->vq_indirect != NULL) &&
    1.1   hannken 	    (nsegs >= MINSEG_INDIRECT) &&
    1.1   hannken 	    (nsegs <= vq->vq_maxnsegs))
    1.1   hannken 		indirect = 1;
    1.1   hannken 	else
    1.1   hannken 		indirect = 0;
    1.1   hannken 	qe1->qe_indirect = indirect;
    1.1   hannken
    1.1   hannken 	if (indirect) {
    1.1   hannken 		struct vring_desc *vd;
    1.1   hannken 		int i;
    1.1   hannken
    1.1   hannken 		vd = &vq->vq_desc[qe1->qe_index];
    1.1   hannken 		vd->addr = vq->vq_dmamap->dm_segs[0].ds_addr
    1.1   hannken 			+ vq->vq_indirectoffset;
    1.1   hannken 		vd->addr += sizeof(struct vring_desc)
    1.1   hannken 			* vq->vq_maxnsegs * qe1->qe_index;
    1.1   hannken 		vd->len = sizeof(struct vring_desc) * nsegs;
    1.1   hannken 		vd->flags = VRING_DESC_F_INDIRECT;
    1.1   hannken
    1.1   hannken 		vd = vq->vq_indirect;
    1.1   hannken 		vd += vq->vq_maxnsegs * qe1->qe_index;
    1.1   hannken 		qe1->qe_desc_base = vd;
    1.1   hannken
    1.1   hannken 		for (i = 0; i < nsegs-1; i++) {
    1.1   hannken 			vd[i].flags = VRING_DESC_F_NEXT;
    1.1   hannken 		}
    1.1   hannken 		vd[i].flags = 0;
    1.1   hannken 		qe1->qe_next = 0;
    1.1   hannken
    1.1   hannken 		return 0;
    1.1   hannken 	} else {
    1.1   hannken 		struct vring_desc *vd;
    1.1   hannken 		struct vq_entry *qe;
    1.1   hannken 		int i, s;
    1.1   hannken
    1.1   hannken 		vd = &vq->vq_desc[0];
    1.1   hannken 		qe1->qe_desc_base = vd;
    1.1   hannken 		qe1->qe_next = qe1->qe_index;
    1.1   hannken 		s = slot;
    1.1   hannken 		for (i = 0; i < nsegs - 1; i++) {
    1.1   hannken 			qe = vq_alloc_entry(vq);
    1.1   hannken 			if (qe == NULL) {
    1.1   hannken 				vd[s].flags = 0;
    1.1   hannken 				virtio_enqueue_abort(sc, vq, slot);
    1.1   hannken 				return EAGAIN;
    1.1   hannken 			}
    1.1   hannken 			vd[s].flags = VRING_DESC_F_NEXT;
    1.1   hannken 			vd[s].next = qe->qe_index;
    1.1   hannken 			s = qe->qe_index;
    1.1   hannken 		}
    1.1   hannken 		vd[s].flags = 0;
    1.1   hannken
    1.1   hannken 		return 0;
    1.1   hannken 	}
    1.1   hannken }
    1.1   hannken
    1.1   hannken /*
    1.1   hannken  * enqueue: enqueue a single dmamap.
    1.1   hannken  */
    1.1   hannken int
    1.1   hannken virtio_enqueue(struct virtio_softc *sc, struct virtqueue *vq, int slot,
    1.1   hannken 	       bus_dmamap_t dmamap, bool write)
    1.1   hannken {
    1.1   hannken 	struct vq_entry *qe1 = &vq->vq_entries[slot];
    1.1   hannken 	struct vring_desc *vd = qe1->qe_desc_base;
    1.1   hannken 	int i;
    1.1   hannken 	int s = qe1->qe_next;
    1.1   hannken
    1.1   hannken 	KASSERT(s >= 0);
    1.1   hannken 	KASSERT(dmamap->dm_nsegs > 0);
    1.1   hannken
    1.1   hannken 	for (i = 0; i < dmamap->dm_nsegs; i++) {
    1.1   hannken 		vd[s].addr = dmamap->dm_segs[i].ds_addr;
    1.1   hannken 		vd[s].len = dmamap->dm_segs[i].ds_len;
    1.1   hannken 		if (!write)
    1.1   hannken 			vd[s].flags |= VRING_DESC_F_WRITE;
    1.1   hannken 		s = vd[s].next;
    1.1   hannken 	}
    1.1   hannken 	qe1->qe_next = s;
    1.1   hannken
    1.1   hannken 	return 0;
    1.1   hannken }
    1.1   hannken
    1.1   hannken int
    1.1   hannken virtio_enqueue_p(struct virtio_softc *sc, struct virtqueue *vq, int slot,
    1.1   hannken 		 bus_dmamap_t dmamap, bus_addr_t start, bus_size_t len,
    1.1   hannken 		 bool write)
    1.1   hannken {
    1.1   hannken 	struct vq_entry *qe1 = &vq->vq_entries[slot];
    1.1   hannken 	struct vring_desc *vd = qe1->qe_desc_base;
    1.1   hannken 	int s = qe1->qe_next;
    1.1   hannken
    1.1   hannken 	KASSERT(s >= 0);
    1.1   hannken 	KASSERT(dmamap->dm_nsegs == 1); /* XXX */
    1.1   hannken 	KASSERT((dmamap->dm_segs[0].ds_len > start) &&
    1.1   hannken 		(dmamap->dm_segs[0].ds_len >= start + len));
    1.1   hannken
    1.1   hannken 	vd[s].addr = dmamap->dm_segs[0].ds_addr + start;
    1.1   hannken 	vd[s].len = len;
    1.1   hannken 	if (!write)
    1.1   hannken 		vd[s].flags |= VRING_DESC_F_WRITE;
    1.1   hannken 	qe1->qe_next = vd[s].next;
    1.1   hannken
    1.1   hannken 	return 0;
    1.1   hannken }
    1.1   hannken
    1.1   hannken /*
    1.1   hannken  * enqueue_commit: add it to the aring.
    1.1   hannken  */
    1.1   hannken int
    1.1   hannken virtio_enqueue_commit(struct virtio_softc *sc, struct virtqueue *vq, int slot,
    1.1   hannken 		      bool notifynow)
    1.1   hannken {
    1.1   hannken 	struct vq_entry *qe1;
    1.1   hannken
    1.1   hannken 	if (slot < 0) {
    1.1   hannken 		mutex_enter(&vq->vq_aring_lock);
    1.1   hannken 		goto notify;
    1.1   hannken 	}
    1.1   hannken 	vq_sync_descs(sc, vq, BUS_DMASYNC_PREWRITE);
    1.1   hannken 	qe1 = &vq->vq_entries[slot];
    1.1   hannken 	if (qe1->qe_indirect)
    1.1   hannken 		vq_sync_indirect(sc, vq, slot, BUS_DMASYNC_PREWRITE);
    1.1   hannken 	mutex_enter(&vq->vq_aring_lock);
    1.1   hannken 	vq->vq_avail->ring[(vq->vq_avail_idx++) % vq->vq_num] = slot;
    1.1   hannken
    1.1   hannken notify:
    1.1   hannken 	if (notifynow) {
    1.1   hannken 		vq_sync_aring(sc, vq, BUS_DMASYNC_PREWRITE);
    1.1   hannken 		vq_sync_uring(sc, vq, BUS_DMASYNC_PREREAD);
    1.1   hannken 		membar_producer();
    1.1   hannken 		vq->vq_avail->idx = vq->vq_avail_idx;
    1.1   hannken 		vq_sync_aring(sc, vq, BUS_DMASYNC_PREWRITE);
    1.1   hannken 		membar_producer();
    1.1   hannken 		vq->vq_queued++;
    1.1   hannken 		vq_sync_uring(sc, vq, BUS_DMASYNC_POSTREAD);
    1.1   hannken 		membar_consumer();
    1.1   hannken 		if (!(vq->vq_used->flags & VRING_USED_F_NO_NOTIFY))
    1.1   hannken 			bus_space_write_2(sc->sc_iot, sc->sc_ioh,
    1.1   hannken 					  VIRTIO_CONFIG_QUEUE_NOTIFY,
    1.1   hannken 					  vq->vq_index);
    1.1   hannken 	}
    1.1   hannken 	mutex_exit(&vq->vq_aring_lock);
    1.1   hannken
    1.1   hannken 	return 0;
    1.1   hannken }
    1.1   hannken
    1.1   hannken /*
    1.1   hannken  * enqueue_abort: rollback.
    1.1   hannken  */
    1.1   hannken int
    1.1   hannken virtio_enqueue_abort(struct virtio_softc *sc, struct virtqueue *vq, int slot)
    1.1   hannken {
    1.1   hannken 	struct vq_entry *qe = &vq->vq_entries[slot];
    1.1   hannken 	struct vring_desc *vd;
    1.1   hannken 	int s;
    1.1   hannken
    1.1   hannken 	if (qe->qe_next < 0) {
    1.1   hannken 		vq_free_entry(vq, qe);
    1.1   hannken 		return 0;
    1.1   hannken 	}
    1.1   hannken
    1.1   hannken 	s = slot;
    1.1   hannken 	vd = &vq->vq_desc[0];
    1.1   hannken 	while (vd[s].flags & VRING_DESC_F_NEXT) {
    1.1   hannken 		s = vd[s].next;
    1.1   hannken 		vq_free_entry(vq, qe);
    1.1   hannken 		qe = &vq->vq_entries[s];
    1.1   hannken 	}
    1.1   hannken 	vq_free_entry(vq, qe);
    1.1   hannken 	return 0;
    1.1   hannken }
    1.1   hannken
    1.1   hannken /*
    1.1   hannken  * Dequeue a request.
    1.1   hannken  */
    1.1   hannken /*
    1.1   hannken  * dequeue: dequeue a request from uring; dmamap_sync for uring is
    1.1   hannken  *	    already done in the interrupt handler.
    1.1   hannken  */
    1.1   hannken int
    1.1   hannken virtio_dequeue(struct virtio_softc *sc, struct virtqueue *vq,
    1.1   hannken 	       int *slotp, int *lenp)
    1.1   hannken {
    1.1   hannken 	uint16_t slot, usedidx;
    1.1   hannken 	struct vq_entry *qe;
    1.1   hannken
    1.1   hannken 	if (vq->vq_used_idx == vq->vq_used->idx)
    1.1   hannken 		return ENOENT;
    1.1   hannken 	mutex_enter(&vq->vq_uring_lock);
    1.1   hannken 	usedidx = vq->vq_used_idx++;
    1.1   hannken 	mutex_exit(&vq->vq_uring_lock);
    1.1   hannken 	usedidx %= vq->vq_num;
    1.1   hannken 	slot = vq->vq_used->ring[usedidx].id;
    1.1   hannken 	qe = &vq->vq_entries[slot];
    1.1   hannken
    1.1   hannken 	if (qe->qe_indirect)
    1.1   hannken 		vq_sync_indirect(sc, vq, slot, BUS_DMASYNC_POSTWRITE);
    1.1   hannken
    1.1   hannken 	if (slotp)
    1.1   hannken 		*slotp = slot;
    1.1   hannken 	if (lenp)
    1.1   hannken 		*lenp = vq->vq_used->ring[usedidx].len;
    1.1   hannken
    1.1   hannken 	return 0;
    1.1   hannken }
    1.1   hannken
    1.1   hannken /*
    1.1   hannken  * dequeue_commit: complete dequeue; the slot is recycled for future use.
    1.1   hannken  *                 if you forget to call this the slot will be leaked.
    1.1   hannken  */
    1.1   hannken int
    1.1   hannken virtio_dequeue_commit(struct virtio_softc *sc, struct virtqueue *vq, int slot)
    1.1   hannken {
    1.1   hannken 	struct vq_entry *qe = &vq->vq_entries[slot];
    1.1   hannken 	struct vring_desc *vd = &vq->vq_desc[0];
    1.1   hannken 	int s = slot;
    1.1   hannken
    1.1   hannken 	while (vd[s].flags & VRING_DESC_F_NEXT) {
    1.1   hannken 		s = vd[s].next;
    1.1   hannken 		vq_free_entry(vq, qe);
    1.1   hannken 		qe = &vq->vq_entries[s];
    1.1   hannken 	}
    1.1   hannken 	vq_free_entry(vq, qe);
    1.1   hannken
    1.1   hannken 	return 0;
    1.1   hannken }