110b59a9bSPeter Grehan /*- 210b59a9bSPeter Grehan * Copyright (c) 2011, Bryan Venteicher <bryanv@daemoninthecloset.org> 310b59a9bSPeter Grehan * All rights reserved. 410b59a9bSPeter Grehan * 510b59a9bSPeter Grehan * Redistribution and use in source and binary forms, with or without 610b59a9bSPeter Grehan * modification, are permitted provided that the following conditions 710b59a9bSPeter Grehan * are met: 810b59a9bSPeter Grehan * 1. Redistributions of source code must retain the above copyright 910b59a9bSPeter Grehan * notice unmodified, this list of conditions, and the following 1010b59a9bSPeter Grehan * disclaimer. 1110b59a9bSPeter Grehan * 2. Redistributions in binary form must reproduce the above copyright 1210b59a9bSPeter Grehan * notice, this list of conditions and the following disclaimer in the 1310b59a9bSPeter Grehan * documentation and/or other materials provided with the distribution. 1410b59a9bSPeter Grehan * 1510b59a9bSPeter Grehan * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 1610b59a9bSPeter Grehan * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 1710b59a9bSPeter Grehan * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 1810b59a9bSPeter Grehan * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 1910b59a9bSPeter Grehan * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT 2010b59a9bSPeter Grehan * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 2110b59a9bSPeter Grehan * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 2210b59a9bSPeter Grehan * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 2310b59a9bSPeter Grehan * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF 2410b59a9bSPeter Grehan * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 2510b59a9bSPeter Grehan */ 2610b59a9bSPeter Grehan 2710b59a9bSPeter Grehan /* Driver for the VirtIO PCI interface. */ 2810b59a9bSPeter Grehan 2910b59a9bSPeter Grehan #include <sys/cdefs.h> 3010b59a9bSPeter Grehan __FBSDID("$FreeBSD$"); 3110b59a9bSPeter Grehan 3210b59a9bSPeter Grehan #include <sys/param.h> 3310b59a9bSPeter Grehan #include <sys/systm.h> 3410b59a9bSPeter Grehan #include <sys/bus.h> 3510b59a9bSPeter Grehan #include <sys/kernel.h> 3610b59a9bSPeter Grehan #include <sys/module.h> 3710b59a9bSPeter Grehan #include <sys/malloc.h> 3810b59a9bSPeter Grehan 3910b59a9bSPeter Grehan #include <machine/bus.h> 4010b59a9bSPeter Grehan #include <machine/resource.h> 4110b59a9bSPeter Grehan #include <sys/bus.h> 4210b59a9bSPeter Grehan #include <sys/rman.h> 4310b59a9bSPeter Grehan 4410b59a9bSPeter Grehan #include <dev/pci/pcivar.h> 4510b59a9bSPeter Grehan #include <dev/pci/pcireg.h> 4610b59a9bSPeter Grehan 4710b59a9bSPeter Grehan #include <dev/virtio/virtio.h> 4810b59a9bSPeter Grehan #include <dev/virtio/virtqueue.h> 4910b59a9bSPeter Grehan #include <dev/virtio/pci/virtio_pci.h> 5010b59a9bSPeter Grehan 5110b59a9bSPeter Grehan #include "virtio_bus_if.h" 5210b59a9bSPeter Grehan #include "virtio_if.h" 5310b59a9bSPeter Grehan 5410b59a9bSPeter Grehan struct vtpci_softc { 5510b59a9bSPeter Grehan device_t vtpci_dev; 5610b59a9bSPeter Grehan struct resource *vtpci_res; 5710b59a9bSPeter Grehan struct resource *vtpci_msix_res; 5810b59a9bSPeter Grehan uint64_t vtpci_features; 5910b59a9bSPeter Grehan uint32_t vtpci_flags; 60*310dacd0SPeter Grehan #define VTPCI_FLAG_NO_MSI 0x0001 61*310dacd0SPeter Grehan #define VTPCI_FLAG_NO_MSIX 0x0002 62*310dacd0SPeter Grehan #define VTPCI_FLAG_LEGACY 0x1000 63*310dacd0SPeter Grehan #define VTPCI_FLAG_MSI 0x2000 64*310dacd0SPeter Grehan #define VTPCI_FLAG_MSIX 0x4000 65*310dacd0SPeter Grehan #define VTPCI_FLAG_SHARED_MSIX 0x8000 66*310dacd0SPeter Grehan #define VTPCI_FLAG_ITYPE_MASK 0xF000 6710b59a9bSPeter Grehan 68*310dacd0SPeter Grehan /* This "bus" will only ever have one child. */ 6910b59a9bSPeter Grehan device_t vtpci_child_dev; 7010b59a9bSPeter Grehan struct virtio_feature_desc *vtpci_child_feat_desc; 7110b59a9bSPeter Grehan 7210b59a9bSPeter Grehan /* 7310b59a9bSPeter Grehan * Ideally, each virtqueue that the driver provides a callback for 7410b59a9bSPeter Grehan * will receive its own MSIX vector. If there are not sufficient 7510b59a9bSPeter Grehan * vectors available, we will then attempt to have all the VQs 7610b59a9bSPeter Grehan * share one vector. Note that when using MSIX, the configuration 7710b59a9bSPeter Grehan * changed notifications must be on their own vector. 7810b59a9bSPeter Grehan * 7910b59a9bSPeter Grehan * If MSIX is not available, we will attempt to have the whole 8010b59a9bSPeter Grehan * device share one MSI vector, and then, finally, one legacy 8110b59a9bSPeter Grehan * interrupt. 8210b59a9bSPeter Grehan */ 8310b59a9bSPeter Grehan int vtpci_nvqs; 8410b59a9bSPeter Grehan struct vtpci_virtqueue { 8510b59a9bSPeter Grehan struct virtqueue *vq; 86*310dacd0SPeter Grehan /* Device did not provide a callback for this virtqueue. */ 87*310dacd0SPeter Grehan int no_intr; 8810b59a9bSPeter Grehan /* Index into vtpci_intr_res[] below. Unused, then -1. */ 8910b59a9bSPeter Grehan int ires_idx; 9010b59a9bSPeter Grehan } vtpci_vqx[VIRTIO_MAX_VIRTQUEUES]; 9110b59a9bSPeter Grehan 9210b59a9bSPeter Grehan /* 9310b59a9bSPeter Grehan * When using MSIX interrupts, the first element of vtpci_intr_res[] 9410b59a9bSPeter Grehan * is always the configuration changed notifications. The remaining 9510b59a9bSPeter Grehan * element(s) are used for the virtqueues. 9610b59a9bSPeter Grehan * 9710b59a9bSPeter Grehan * With MSI and legacy interrupts, only the first element of 9810b59a9bSPeter Grehan * vtpci_intr_res[] is used. 9910b59a9bSPeter Grehan */ 10010b59a9bSPeter Grehan int vtpci_nintr_res; 10110b59a9bSPeter Grehan struct vtpci_intr_resource { 10210b59a9bSPeter Grehan struct resource *irq; 10310b59a9bSPeter Grehan int rid; 10410b59a9bSPeter Grehan void *intrhand; 10510b59a9bSPeter Grehan } vtpci_intr_res[1 + VIRTIO_MAX_VIRTQUEUES]; 10610b59a9bSPeter Grehan }; 10710b59a9bSPeter Grehan 10810b59a9bSPeter Grehan static int vtpci_probe(device_t); 10910b59a9bSPeter Grehan static int vtpci_attach(device_t); 11010b59a9bSPeter Grehan static int vtpci_detach(device_t); 11110b59a9bSPeter Grehan static int vtpci_suspend(device_t); 11210b59a9bSPeter Grehan static int vtpci_resume(device_t); 11310b59a9bSPeter Grehan static int vtpci_shutdown(device_t); 11410b59a9bSPeter Grehan static void vtpci_driver_added(device_t, driver_t *); 11510b59a9bSPeter Grehan static void vtpci_child_detached(device_t, device_t); 11610b59a9bSPeter Grehan static int vtpci_read_ivar(device_t, device_t, int, uintptr_t *); 11710b59a9bSPeter Grehan static int vtpci_write_ivar(device_t, device_t, int, uintptr_t); 11810b59a9bSPeter Grehan 11910b59a9bSPeter Grehan static uint64_t vtpci_negotiate_features(device_t, uint64_t); 12010b59a9bSPeter Grehan static int vtpci_with_feature(device_t, uint64_t); 12110b59a9bSPeter Grehan static int vtpci_alloc_virtqueues(device_t, int, int, 12210b59a9bSPeter Grehan struct vq_alloc_info *); 12310b59a9bSPeter Grehan static int vtpci_setup_intr(device_t, enum intr_type); 12410b59a9bSPeter Grehan static void vtpci_stop(device_t); 12510b59a9bSPeter Grehan static int vtpci_reinit(device_t, uint64_t); 12610b59a9bSPeter Grehan static void vtpci_reinit_complete(device_t); 12710b59a9bSPeter Grehan static void vtpci_notify_virtqueue(device_t, uint16_t); 12810b59a9bSPeter Grehan static uint8_t vtpci_get_status(device_t); 12910b59a9bSPeter Grehan static void vtpci_set_status(device_t, uint8_t); 13010b59a9bSPeter Grehan static void vtpci_read_dev_config(device_t, bus_size_t, void *, int); 13110b59a9bSPeter Grehan static void vtpci_write_dev_config(device_t, bus_size_t, void *, int); 13210b59a9bSPeter Grehan 13310b59a9bSPeter Grehan static void vtpci_describe_features(struct vtpci_softc *, const char *, 13410b59a9bSPeter Grehan uint64_t); 13510b59a9bSPeter Grehan static void vtpci_probe_and_attach_child(struct vtpci_softc *); 13610b59a9bSPeter Grehan 13710b59a9bSPeter Grehan static int vtpci_alloc_msix(struct vtpci_softc *, int); 138*310dacd0SPeter Grehan static int vtpci_alloc_msi(struct vtpci_softc *); 139*310dacd0SPeter Grehan static int vtpci_alloc_intr_msix_pervq(struct vtpci_softc *); 140*310dacd0SPeter Grehan static int vtpci_alloc_intr_msix_shared(struct vtpci_softc *); 141*310dacd0SPeter Grehan static int vtpci_alloc_intr_msi(struct vtpci_softc *); 142*310dacd0SPeter Grehan static int vtpci_alloc_intr_legacy(struct vtpci_softc *); 143*310dacd0SPeter Grehan static int vtpci_alloc_intr_resources(struct vtpci_softc *); 144*310dacd0SPeter Grehan 145*310dacd0SPeter Grehan static int vtpci_setup_legacy_interrupt(struct vtpci_softc *, 146*310dacd0SPeter Grehan enum intr_type); 147*310dacd0SPeter Grehan static int vtpci_setup_msix_interrupts(struct vtpci_softc *, 148*310dacd0SPeter Grehan enum intr_type); 149*310dacd0SPeter Grehan static int vtpci_setup_interrupts(struct vtpci_softc *, enum intr_type); 150*310dacd0SPeter Grehan 15110b59a9bSPeter Grehan static int vtpci_register_msix_vector(struct vtpci_softc *, int, int); 152*310dacd0SPeter Grehan static int vtpci_set_host_msix_vectors(struct vtpci_softc *); 153*310dacd0SPeter Grehan static int vtpci_reinit_virtqueue(struct vtpci_softc *, int); 15410b59a9bSPeter Grehan 15510b59a9bSPeter Grehan static void vtpci_free_interrupts(struct vtpci_softc *); 15610b59a9bSPeter Grehan static void vtpci_free_virtqueues(struct vtpci_softc *); 157*310dacd0SPeter Grehan static void vtpci_cleanup_setup_intr_attempt(struct vtpci_softc *); 15810b59a9bSPeter Grehan static void vtpci_release_child_resources(struct vtpci_softc *); 15910b59a9bSPeter Grehan static void vtpci_reset(struct vtpci_softc *); 16010b59a9bSPeter Grehan 161*310dacd0SPeter Grehan static void vtpci_select_virtqueue(struct vtpci_softc *, int); 162*310dacd0SPeter Grehan 16310b59a9bSPeter Grehan static int vtpci_legacy_intr(void *); 16410b59a9bSPeter Grehan static int vtpci_vq_shared_intr(void *); 16510b59a9bSPeter Grehan static int vtpci_vq_intr(void *); 16610b59a9bSPeter Grehan static int vtpci_config_intr(void *); 16710b59a9bSPeter Grehan 168*310dacd0SPeter Grehan #define vtpci_setup_msi_interrupt vtpci_setup_legacy_interrupt 169*310dacd0SPeter Grehan 17010b59a9bSPeter Grehan /* 17110b59a9bSPeter Grehan * I/O port read/write wrappers. 17210b59a9bSPeter Grehan */ 17310b59a9bSPeter Grehan #define vtpci_read_config_1(sc, o) bus_read_1((sc)->vtpci_res, (o)) 17410b59a9bSPeter Grehan #define vtpci_read_config_2(sc, o) bus_read_2((sc)->vtpci_res, (o)) 17510b59a9bSPeter Grehan #define vtpci_read_config_4(sc, o) bus_read_4((sc)->vtpci_res, (o)) 17610b59a9bSPeter Grehan #define vtpci_write_config_1(sc, o, v) bus_write_1((sc)->vtpci_res, (o), (v)) 17710b59a9bSPeter Grehan #define vtpci_write_config_2(sc, o, v) bus_write_2((sc)->vtpci_res, (o), (v)) 17810b59a9bSPeter Grehan #define vtpci_write_config_4(sc, o, v) bus_write_4((sc)->vtpci_res, (o), (v)) 17910b59a9bSPeter Grehan 18010b59a9bSPeter Grehan /* Tunables. */ 18110b59a9bSPeter Grehan static int vtpci_disable_msix = 0; 18210b59a9bSPeter Grehan TUNABLE_INT("hw.virtio.pci.disable_msix", &vtpci_disable_msix); 18310b59a9bSPeter Grehan 18410b59a9bSPeter Grehan static device_method_t vtpci_methods[] = { 18510b59a9bSPeter Grehan /* Device interface. */ 18610b59a9bSPeter Grehan DEVMETHOD(device_probe, vtpci_probe), 18710b59a9bSPeter Grehan DEVMETHOD(device_attach, vtpci_attach), 18810b59a9bSPeter Grehan DEVMETHOD(device_detach, vtpci_detach), 18910b59a9bSPeter Grehan DEVMETHOD(device_suspend, vtpci_suspend), 19010b59a9bSPeter Grehan DEVMETHOD(device_resume, vtpci_resume), 19110b59a9bSPeter Grehan DEVMETHOD(device_shutdown, vtpci_shutdown), 19210b59a9bSPeter Grehan 19310b59a9bSPeter Grehan /* Bus interface. */ 19410b59a9bSPeter Grehan DEVMETHOD(bus_driver_added, vtpci_driver_added), 19510b59a9bSPeter Grehan DEVMETHOD(bus_child_detached, vtpci_child_detached), 19610b59a9bSPeter Grehan DEVMETHOD(bus_read_ivar, vtpci_read_ivar), 19710b59a9bSPeter Grehan DEVMETHOD(bus_write_ivar, vtpci_write_ivar), 19810b59a9bSPeter Grehan 19910b59a9bSPeter Grehan /* VirtIO bus interface. */ 20010b59a9bSPeter Grehan DEVMETHOD(virtio_bus_negotiate_features, vtpci_negotiate_features), 20110b59a9bSPeter Grehan DEVMETHOD(virtio_bus_with_feature, vtpci_with_feature), 20210b59a9bSPeter Grehan DEVMETHOD(virtio_bus_alloc_virtqueues, vtpci_alloc_virtqueues), 20310b59a9bSPeter Grehan DEVMETHOD(virtio_bus_setup_intr, vtpci_setup_intr), 20410b59a9bSPeter Grehan DEVMETHOD(virtio_bus_stop, vtpci_stop), 20510b59a9bSPeter Grehan DEVMETHOD(virtio_bus_reinit, vtpci_reinit), 20610b59a9bSPeter Grehan DEVMETHOD(virtio_bus_reinit_complete, vtpci_reinit_complete), 20710b59a9bSPeter Grehan DEVMETHOD(virtio_bus_notify_vq, vtpci_notify_virtqueue), 20810b59a9bSPeter Grehan DEVMETHOD(virtio_bus_read_device_config, vtpci_read_dev_config), 20910b59a9bSPeter Grehan DEVMETHOD(virtio_bus_write_device_config, vtpci_write_dev_config), 21010b59a9bSPeter Grehan 211b8a58707SPeter Grehan DEVMETHOD_END 21210b59a9bSPeter Grehan }; 21310b59a9bSPeter Grehan 21410b59a9bSPeter Grehan static driver_t vtpci_driver = { 21510b59a9bSPeter Grehan "virtio_pci", 21610b59a9bSPeter Grehan vtpci_methods, 21710b59a9bSPeter Grehan sizeof(struct vtpci_softc) 21810b59a9bSPeter Grehan }; 21910b59a9bSPeter Grehan 22010b59a9bSPeter Grehan devclass_t vtpci_devclass; 22110b59a9bSPeter Grehan 22210b59a9bSPeter Grehan DRIVER_MODULE(virtio_pci, pci, vtpci_driver, vtpci_devclass, 0, 0); 22310b59a9bSPeter Grehan MODULE_VERSION(virtio_pci, 1); 22410b59a9bSPeter Grehan MODULE_DEPEND(virtio_pci, pci, 1, 1, 1); 22510b59a9bSPeter Grehan MODULE_DEPEND(virtio_pci, virtio, 1, 1, 1); 22610b59a9bSPeter Grehan 22710b59a9bSPeter Grehan static int 22810b59a9bSPeter Grehan vtpci_probe(device_t dev) 22910b59a9bSPeter Grehan { 23010b59a9bSPeter Grehan char desc[36]; 23110b59a9bSPeter Grehan const char *name; 23210b59a9bSPeter Grehan 23310b59a9bSPeter Grehan if (pci_get_vendor(dev) != VIRTIO_PCI_VENDORID) 23410b59a9bSPeter Grehan return (ENXIO); 23510b59a9bSPeter Grehan 23610b59a9bSPeter Grehan if (pci_get_device(dev) < VIRTIO_PCI_DEVICEID_MIN || 23710b59a9bSPeter Grehan pci_get_device(dev) > VIRTIO_PCI_DEVICEID_MAX) 23810b59a9bSPeter Grehan return (ENXIO); 23910b59a9bSPeter Grehan 24010b59a9bSPeter Grehan if (pci_get_revid(dev) != VIRTIO_PCI_ABI_VERSION) 24110b59a9bSPeter Grehan return (ENXIO); 24210b59a9bSPeter Grehan 24310b59a9bSPeter Grehan name = virtio_device_name(pci_get_subdevice(dev)); 24410b59a9bSPeter Grehan if (name == NULL) 24510b59a9bSPeter Grehan name = "Unknown"; 24610b59a9bSPeter Grehan 24710b59a9bSPeter Grehan snprintf(desc, sizeof(desc), "VirtIO PCI %s adapter", name); 24810b59a9bSPeter Grehan device_set_desc_copy(dev, desc); 24910b59a9bSPeter Grehan 25010b59a9bSPeter Grehan return (BUS_PROBE_DEFAULT); 25110b59a9bSPeter Grehan } 25210b59a9bSPeter Grehan 25310b59a9bSPeter Grehan static int 25410b59a9bSPeter Grehan vtpci_attach(device_t dev) 25510b59a9bSPeter Grehan { 25610b59a9bSPeter Grehan struct vtpci_softc *sc; 25710b59a9bSPeter Grehan device_t child; 25810b59a9bSPeter Grehan int rid; 25910b59a9bSPeter Grehan 26010b59a9bSPeter Grehan sc = device_get_softc(dev); 26110b59a9bSPeter Grehan sc->vtpci_dev = dev; 26210b59a9bSPeter Grehan 26310b59a9bSPeter Grehan pci_enable_busmaster(dev); 26410b59a9bSPeter Grehan 26510b59a9bSPeter Grehan rid = PCIR_BAR(0); 26610b59a9bSPeter Grehan sc->vtpci_res = bus_alloc_resource_any(dev, SYS_RES_IOPORT, &rid, 26710b59a9bSPeter Grehan RF_ACTIVE); 26810b59a9bSPeter Grehan if (sc->vtpci_res == NULL) { 26910b59a9bSPeter Grehan device_printf(dev, "cannot map I/O space\n"); 27010b59a9bSPeter Grehan return (ENXIO); 27110b59a9bSPeter Grehan } 27210b59a9bSPeter Grehan 273cda6c6abSJohn Baldwin if (pci_find_cap(dev, PCIY_MSI, NULL) != 0) 274*310dacd0SPeter Grehan sc->vtpci_flags |= VTPCI_FLAG_NO_MSI; 27510b59a9bSPeter Grehan 276cda6c6abSJohn Baldwin if (pci_find_cap(dev, PCIY_MSIX, NULL) == 0) { 27710b59a9bSPeter Grehan rid = PCIR_BAR(1); 27810b59a9bSPeter Grehan sc->vtpci_msix_res = bus_alloc_resource_any(dev, 27910b59a9bSPeter Grehan SYS_RES_MEMORY, &rid, RF_ACTIVE); 28010b59a9bSPeter Grehan } 28110b59a9bSPeter Grehan 28210b59a9bSPeter Grehan if (sc->vtpci_msix_res == NULL) 283*310dacd0SPeter Grehan sc->vtpci_flags |= VTPCI_FLAG_NO_MSIX; 28410b59a9bSPeter Grehan 28510b59a9bSPeter Grehan vtpci_reset(sc); 28610b59a9bSPeter Grehan 28710b59a9bSPeter Grehan /* Tell the host we've noticed this device. */ 28810b59a9bSPeter Grehan vtpci_set_status(dev, VIRTIO_CONFIG_STATUS_ACK); 28910b59a9bSPeter Grehan 29010b59a9bSPeter Grehan if ((child = device_add_child(dev, NULL, -1)) == NULL) { 29110b59a9bSPeter Grehan device_printf(dev, "cannot create child device\n"); 29210b59a9bSPeter Grehan vtpci_set_status(dev, VIRTIO_CONFIG_STATUS_FAILED); 29310b59a9bSPeter Grehan vtpci_detach(dev); 29410b59a9bSPeter Grehan return (ENOMEM); 29510b59a9bSPeter Grehan } 29610b59a9bSPeter Grehan 29710b59a9bSPeter Grehan sc->vtpci_child_dev = child; 29810b59a9bSPeter Grehan vtpci_probe_and_attach_child(sc); 29910b59a9bSPeter Grehan 30010b59a9bSPeter Grehan return (0); 30110b59a9bSPeter Grehan } 30210b59a9bSPeter Grehan 30310b59a9bSPeter Grehan static int 30410b59a9bSPeter Grehan vtpci_detach(device_t dev) 30510b59a9bSPeter Grehan { 30610b59a9bSPeter Grehan struct vtpci_softc *sc; 30710b59a9bSPeter Grehan device_t child; 30810b59a9bSPeter Grehan int error; 30910b59a9bSPeter Grehan 31010b59a9bSPeter Grehan sc = device_get_softc(dev); 31110b59a9bSPeter Grehan 31210b59a9bSPeter Grehan if ((child = sc->vtpci_child_dev) != NULL) { 31310b59a9bSPeter Grehan error = device_delete_child(dev, child); 31410b59a9bSPeter Grehan if (error) 31510b59a9bSPeter Grehan return (error); 31610b59a9bSPeter Grehan sc->vtpci_child_dev = NULL; 31710b59a9bSPeter Grehan } 31810b59a9bSPeter Grehan 31910b59a9bSPeter Grehan vtpci_reset(sc); 32010b59a9bSPeter Grehan 32110b59a9bSPeter Grehan if (sc->vtpci_msix_res != NULL) { 32210b59a9bSPeter Grehan bus_release_resource(dev, SYS_RES_MEMORY, PCIR_BAR(1), 32310b59a9bSPeter Grehan sc->vtpci_msix_res); 32410b59a9bSPeter Grehan sc->vtpci_msix_res = NULL; 32510b59a9bSPeter Grehan } 32610b59a9bSPeter Grehan 32710b59a9bSPeter Grehan if (sc->vtpci_res != NULL) { 32810b59a9bSPeter Grehan bus_release_resource(dev, SYS_RES_IOPORT, PCIR_BAR(0), 32910b59a9bSPeter Grehan sc->vtpci_res); 33010b59a9bSPeter Grehan sc->vtpci_res = NULL; 33110b59a9bSPeter Grehan } 33210b59a9bSPeter Grehan 33310b59a9bSPeter Grehan return (0); 33410b59a9bSPeter Grehan } 33510b59a9bSPeter Grehan 33610b59a9bSPeter Grehan static int 33710b59a9bSPeter Grehan vtpci_suspend(device_t dev) 33810b59a9bSPeter Grehan { 33910b59a9bSPeter Grehan 34010b59a9bSPeter Grehan return (bus_generic_suspend(dev)); 34110b59a9bSPeter Grehan } 34210b59a9bSPeter Grehan 34310b59a9bSPeter Grehan static int 34410b59a9bSPeter Grehan vtpci_resume(device_t dev) 34510b59a9bSPeter Grehan { 34610b59a9bSPeter Grehan 34710b59a9bSPeter Grehan return (bus_generic_resume(dev)); 34810b59a9bSPeter Grehan } 34910b59a9bSPeter Grehan 35010b59a9bSPeter Grehan static int 35110b59a9bSPeter Grehan vtpci_shutdown(device_t dev) 35210b59a9bSPeter Grehan { 35310b59a9bSPeter Grehan 35410b59a9bSPeter Grehan (void) bus_generic_shutdown(dev); 35510b59a9bSPeter Grehan /* Forcibly stop the host device. */ 35610b59a9bSPeter Grehan vtpci_stop(dev); 35710b59a9bSPeter Grehan 35810b59a9bSPeter Grehan return (0); 35910b59a9bSPeter Grehan } 36010b59a9bSPeter Grehan 36110b59a9bSPeter Grehan static void 36210b59a9bSPeter Grehan vtpci_driver_added(device_t dev, driver_t *driver) 36310b59a9bSPeter Grehan { 36410b59a9bSPeter Grehan struct vtpci_softc *sc; 36510b59a9bSPeter Grehan 36610b59a9bSPeter Grehan sc = device_get_softc(dev); 36710b59a9bSPeter Grehan 36810b59a9bSPeter Grehan vtpci_probe_and_attach_child(sc); 36910b59a9bSPeter Grehan } 37010b59a9bSPeter Grehan 37110b59a9bSPeter Grehan static void 37210b59a9bSPeter Grehan vtpci_child_detached(device_t dev, device_t child) 37310b59a9bSPeter Grehan { 37410b59a9bSPeter Grehan struct vtpci_softc *sc; 37510b59a9bSPeter Grehan 37610b59a9bSPeter Grehan sc = device_get_softc(dev); 37710b59a9bSPeter Grehan 37810b59a9bSPeter Grehan vtpci_reset(sc); 37910b59a9bSPeter Grehan vtpci_release_child_resources(sc); 38010b59a9bSPeter Grehan } 38110b59a9bSPeter Grehan 38210b59a9bSPeter Grehan static int 38310b59a9bSPeter Grehan vtpci_read_ivar(device_t dev, device_t child, int index, uintptr_t *result) 38410b59a9bSPeter Grehan { 38510b59a9bSPeter Grehan struct vtpci_softc *sc; 38610b59a9bSPeter Grehan 38710b59a9bSPeter Grehan sc = device_get_softc(dev); 38810b59a9bSPeter Grehan 38910b59a9bSPeter Grehan if (sc->vtpci_child_dev != child) 39010b59a9bSPeter Grehan return (ENOENT); 39110b59a9bSPeter Grehan 39210b59a9bSPeter Grehan switch (index) { 39310b59a9bSPeter Grehan case VIRTIO_IVAR_DEVTYPE: 394*310dacd0SPeter Grehan case VIRTIO_IVAR_SUBDEVICE: 395*310dacd0SPeter Grehan *result = pci_get_subdevice(dev); 396*310dacd0SPeter Grehan break; 397*310dacd0SPeter Grehan case VIRTIO_IVAR_VENDOR: 398*310dacd0SPeter Grehan *result = pci_get_vendor(dev); 399*310dacd0SPeter Grehan break; 400*310dacd0SPeter Grehan case VIRTIO_IVAR_DEVICE: 401*310dacd0SPeter Grehan *result = pci_get_device(dev); 402*310dacd0SPeter Grehan break; 403*310dacd0SPeter Grehan case VIRTIO_IVAR_SUBVENDOR: 40410b59a9bSPeter Grehan *result = pci_get_subdevice(dev); 40510b59a9bSPeter Grehan break; 40610b59a9bSPeter Grehan default: 40710b59a9bSPeter Grehan return (ENOENT); 40810b59a9bSPeter Grehan } 40910b59a9bSPeter Grehan 41010b59a9bSPeter Grehan return (0); 41110b59a9bSPeter Grehan } 41210b59a9bSPeter Grehan 41310b59a9bSPeter Grehan static int 41410b59a9bSPeter Grehan vtpci_write_ivar(device_t dev, device_t child, int index, uintptr_t value) 41510b59a9bSPeter Grehan { 41610b59a9bSPeter Grehan struct vtpci_softc *sc; 41710b59a9bSPeter Grehan 41810b59a9bSPeter Grehan sc = device_get_softc(dev); 41910b59a9bSPeter Grehan 42010b59a9bSPeter Grehan if (sc->vtpci_child_dev != child) 42110b59a9bSPeter Grehan return (ENOENT); 42210b59a9bSPeter Grehan 42310b59a9bSPeter Grehan switch (index) { 42410b59a9bSPeter Grehan case VIRTIO_IVAR_FEATURE_DESC: 42510b59a9bSPeter Grehan sc->vtpci_child_feat_desc = (void *) value; 42610b59a9bSPeter Grehan break; 42710b59a9bSPeter Grehan default: 42810b59a9bSPeter Grehan return (ENOENT); 42910b59a9bSPeter Grehan } 43010b59a9bSPeter Grehan 43110b59a9bSPeter Grehan return (0); 43210b59a9bSPeter Grehan } 43310b59a9bSPeter Grehan 43410b59a9bSPeter Grehan static uint64_t 43510b59a9bSPeter Grehan vtpci_negotiate_features(device_t dev, uint64_t child_features) 43610b59a9bSPeter Grehan { 43710b59a9bSPeter Grehan struct vtpci_softc *sc; 43810b59a9bSPeter Grehan uint64_t host_features, features; 43910b59a9bSPeter Grehan 44010b59a9bSPeter Grehan sc = device_get_softc(dev); 44110b59a9bSPeter Grehan 44210b59a9bSPeter Grehan host_features = vtpci_read_config_4(sc, VIRTIO_PCI_HOST_FEATURES); 44310b59a9bSPeter Grehan vtpci_describe_features(sc, "host", host_features); 44410b59a9bSPeter Grehan 44510b59a9bSPeter Grehan /* 44610b59a9bSPeter Grehan * Limit negotiated features to what the driver, virtqueue, and 44710b59a9bSPeter Grehan * host all support. 44810b59a9bSPeter Grehan */ 44910b59a9bSPeter Grehan features = host_features & child_features; 45010b59a9bSPeter Grehan features = virtqueue_filter_features(features); 45110b59a9bSPeter Grehan sc->vtpci_features = features; 45210b59a9bSPeter Grehan 45310b59a9bSPeter Grehan vtpci_describe_features(sc, "negotiated", features); 45410b59a9bSPeter Grehan vtpci_write_config_4(sc, VIRTIO_PCI_GUEST_FEATURES, features); 45510b59a9bSPeter Grehan 45610b59a9bSPeter Grehan return (features); 45710b59a9bSPeter Grehan } 45810b59a9bSPeter Grehan 45910b59a9bSPeter Grehan static int 46010b59a9bSPeter Grehan vtpci_with_feature(device_t dev, uint64_t feature) 46110b59a9bSPeter Grehan { 46210b59a9bSPeter Grehan struct vtpci_softc *sc; 46310b59a9bSPeter Grehan 46410b59a9bSPeter Grehan sc = device_get_softc(dev); 46510b59a9bSPeter Grehan 46610b59a9bSPeter Grehan return ((sc->vtpci_features & feature) != 0); 46710b59a9bSPeter Grehan } 46810b59a9bSPeter Grehan 46910b59a9bSPeter Grehan static int 47010b59a9bSPeter Grehan vtpci_alloc_virtqueues(device_t dev, int flags, int nvqs, 47110b59a9bSPeter Grehan struct vq_alloc_info *vq_info) 47210b59a9bSPeter Grehan { 47310b59a9bSPeter Grehan struct vtpci_softc *sc; 474*310dacd0SPeter Grehan struct virtqueue *vq; 47510b59a9bSPeter Grehan struct vtpci_virtqueue *vqx; 47610b59a9bSPeter Grehan struct vq_alloc_info *info; 477*310dacd0SPeter Grehan int idx, error; 478*310dacd0SPeter Grehan uint16_t size; 47910b59a9bSPeter Grehan 48010b59a9bSPeter Grehan sc = device_get_softc(dev); 481*310dacd0SPeter Grehan error = 0; 48210b59a9bSPeter Grehan 483*310dacd0SPeter Grehan if (sc->vtpci_nvqs != 0) 484*310dacd0SPeter Grehan return (EALREADY); 485*310dacd0SPeter Grehan if (nvqs <= 0 || nvqs > VIRTIO_MAX_VIRTQUEUES) 48610b59a9bSPeter Grehan return (EINVAL); 48710b59a9bSPeter Grehan 488*310dacd0SPeter Grehan if (flags & VIRTIO_ALLOC_VQS_DISABLE_MSIX) 489*310dacd0SPeter Grehan sc->vtpci_flags |= VTPCI_FLAG_NO_MSIX; 490*310dacd0SPeter Grehan 491*310dacd0SPeter Grehan for (idx = 0; idx < nvqs; idx++) { 492*310dacd0SPeter Grehan vqx = &sc->vtpci_vqx[idx]; 493*310dacd0SPeter Grehan info = &vq_info[idx]; 494*310dacd0SPeter Grehan 495*310dacd0SPeter Grehan vtpci_select_virtqueue(sc, idx); 496*310dacd0SPeter Grehan size = vtpci_read_config_2(sc, VIRTIO_PCI_QUEUE_NUM); 497*310dacd0SPeter Grehan 498*310dacd0SPeter Grehan error = virtqueue_alloc(dev, idx, size, VIRTIO_PCI_VRING_ALIGN, 499*310dacd0SPeter Grehan 0xFFFFFFFFUL, info, &vq); 50010b59a9bSPeter Grehan if (error) { 501*310dacd0SPeter Grehan device_printf(dev, 502*310dacd0SPeter Grehan "cannot allocate virtqueue %d: %d\n", idx, error); 503*310dacd0SPeter Grehan break; 50410b59a9bSPeter Grehan } 50510b59a9bSPeter Grehan 50610b59a9bSPeter Grehan vtpci_write_config_4(sc, VIRTIO_PCI_QUEUE_PFN, 507*310dacd0SPeter Grehan virtqueue_paddr(vq) >> VIRTIO_PCI_QUEUE_ADDR_SHIFT); 50810b59a9bSPeter Grehan 509*310dacd0SPeter Grehan vqx->vq = *info->vqai_vq = vq; 510*310dacd0SPeter Grehan vqx->no_intr = info->vqai_intr == NULL; 511*310dacd0SPeter Grehan 51210b59a9bSPeter Grehan sc->vtpci_nvqs++; 51310b59a9bSPeter Grehan } 51410b59a9bSPeter Grehan 515*310dacd0SPeter Grehan return (error); 51610b59a9bSPeter Grehan } 51710b59a9bSPeter Grehan 51810b59a9bSPeter Grehan static int 51910b59a9bSPeter Grehan vtpci_setup_intr(device_t dev, enum intr_type type) 52010b59a9bSPeter Grehan { 52110b59a9bSPeter Grehan struct vtpci_softc *sc; 522*310dacd0SPeter Grehan int attempt, error; 52310b59a9bSPeter Grehan 52410b59a9bSPeter Grehan sc = device_get_softc(dev); 52510b59a9bSPeter Grehan 526*310dacd0SPeter Grehan for (attempt = 0; attempt < 5; attempt++) { 527*310dacd0SPeter Grehan /* 528*310dacd0SPeter Grehan * Start with the most desirable interrupt configuration and 529*310dacd0SPeter Grehan * fallback towards less desirable ones. 530*310dacd0SPeter Grehan */ 531*310dacd0SPeter Grehan switch (attempt) { 532*310dacd0SPeter Grehan case 0: 533*310dacd0SPeter Grehan error = vtpci_alloc_intr_msix_pervq(sc); 534*310dacd0SPeter Grehan break; 535*310dacd0SPeter Grehan case 1: 536*310dacd0SPeter Grehan error = vtpci_alloc_intr_msix_shared(sc); 537*310dacd0SPeter Grehan break; 538*310dacd0SPeter Grehan case 2: 539*310dacd0SPeter Grehan error = vtpci_alloc_intr_msi(sc); 540*310dacd0SPeter Grehan break; 541*310dacd0SPeter Grehan case 3: 542*310dacd0SPeter Grehan error = vtpci_alloc_intr_legacy(sc); 543*310dacd0SPeter Grehan break; 544*310dacd0SPeter Grehan default: 545*310dacd0SPeter Grehan device_printf(dev, 546*310dacd0SPeter Grehan "exhausted all interrupt allocation attempts\n"); 547*310dacd0SPeter Grehan return (ENXIO); 54810b59a9bSPeter Grehan } 54910b59a9bSPeter Grehan 550*310dacd0SPeter Grehan if (error == 0 && vtpci_setup_interrupts(sc, type) == 0) 551*310dacd0SPeter Grehan break; 55210b59a9bSPeter Grehan 553*310dacd0SPeter Grehan vtpci_cleanup_setup_intr_attempt(sc); 55410b59a9bSPeter Grehan } 55510b59a9bSPeter Grehan 556*310dacd0SPeter Grehan if (bootverbose) { 557*310dacd0SPeter Grehan if (sc->vtpci_flags & VTPCI_FLAG_LEGACY) 558*310dacd0SPeter Grehan device_printf(dev, "using legacy interrupt\n"); 559*310dacd0SPeter Grehan else if (sc->vtpci_flags & VTPCI_FLAG_MSI) 560*310dacd0SPeter Grehan device_printf(dev, "using MSI interrupt\n"); 561*310dacd0SPeter Grehan else if (sc->vtpci_flags & VTPCI_FLAG_SHARED_MSIX) 562*310dacd0SPeter Grehan device_printf(dev, "using shared MSIX interrupts\n"); 563*310dacd0SPeter Grehan else 564*310dacd0SPeter Grehan device_printf(dev, "using per VQ MSIX interrupts\n"); 56510b59a9bSPeter Grehan } 56610b59a9bSPeter Grehan 56710b59a9bSPeter Grehan return (0); 56810b59a9bSPeter Grehan } 56910b59a9bSPeter Grehan 57010b59a9bSPeter Grehan static void 57110b59a9bSPeter Grehan vtpci_stop(device_t dev) 57210b59a9bSPeter Grehan { 57310b59a9bSPeter Grehan 57410b59a9bSPeter Grehan vtpci_reset(device_get_softc(dev)); 57510b59a9bSPeter Grehan } 57610b59a9bSPeter Grehan 57710b59a9bSPeter Grehan static int 57810b59a9bSPeter Grehan vtpci_reinit(device_t dev, uint64_t features) 57910b59a9bSPeter Grehan { 58010b59a9bSPeter Grehan struct vtpci_softc *sc; 581*310dacd0SPeter Grehan int idx, error; 58210b59a9bSPeter Grehan 58310b59a9bSPeter Grehan sc = device_get_softc(dev); 58410b59a9bSPeter Grehan 58510b59a9bSPeter Grehan /* 586*310dacd0SPeter Grehan * Redrive the device initialization. This is a bit of an abuse of 587*310dacd0SPeter Grehan * the specification, but VirtualBox, QEMU/KVM, and BHyVe seem to 588*310dacd0SPeter Grehan * play nice. 589*310dacd0SPeter Grehan * 590*310dacd0SPeter Grehan * We do not allow the host device to change from what was originally 591*310dacd0SPeter Grehan * negotiated beyond what the guest driver changed. MSIX state should 592*310dacd0SPeter Grehan * not change, number of virtqueues and their size remain the same, etc. 593*310dacd0SPeter Grehan * This will need to be rethought when we want to support migration. 59410b59a9bSPeter Grehan */ 59510b59a9bSPeter Grehan 59610b59a9bSPeter Grehan if (vtpci_get_status(dev) != VIRTIO_CONFIG_STATUS_RESET) 59710b59a9bSPeter Grehan vtpci_stop(dev); 59810b59a9bSPeter Grehan 59910b59a9bSPeter Grehan /* 60010b59a9bSPeter Grehan * Quickly drive the status through ACK and DRIVER. The device 60110b59a9bSPeter Grehan * does not become usable again until vtpci_reinit_complete(). 60210b59a9bSPeter Grehan */ 60310b59a9bSPeter Grehan vtpci_set_status(dev, VIRTIO_CONFIG_STATUS_ACK); 60410b59a9bSPeter Grehan vtpci_set_status(dev, VIRTIO_CONFIG_STATUS_DRIVER); 60510b59a9bSPeter Grehan 60610b59a9bSPeter Grehan vtpci_negotiate_features(dev, features); 60710b59a9bSPeter Grehan 608*310dacd0SPeter Grehan for (idx = 0; idx < sc->vtpci_nvqs; idx++) { 609*310dacd0SPeter Grehan error = vtpci_reinit_virtqueue(sc, idx); 61010b59a9bSPeter Grehan if (error) 61110b59a9bSPeter Grehan return (error); 61210b59a9bSPeter Grehan } 61310b59a9bSPeter Grehan 614*310dacd0SPeter Grehan if (sc->vtpci_flags & VTPCI_FLAG_MSIX) { 615*310dacd0SPeter Grehan error = vtpci_set_host_msix_vectors(sc); 61610b59a9bSPeter Grehan if (error) 61710b59a9bSPeter Grehan return (error); 61810b59a9bSPeter Grehan } 61910b59a9bSPeter Grehan 62010b59a9bSPeter Grehan return (0); 62110b59a9bSPeter Grehan } 62210b59a9bSPeter Grehan 62310b59a9bSPeter Grehan static void 62410b59a9bSPeter Grehan vtpci_reinit_complete(device_t dev) 62510b59a9bSPeter Grehan { 62610b59a9bSPeter Grehan 62710b59a9bSPeter Grehan vtpci_set_status(dev, VIRTIO_CONFIG_STATUS_DRIVER_OK); 62810b59a9bSPeter Grehan } 62910b59a9bSPeter Grehan 63010b59a9bSPeter Grehan static void 63110b59a9bSPeter Grehan vtpci_notify_virtqueue(device_t dev, uint16_t queue) 63210b59a9bSPeter Grehan { 63310b59a9bSPeter Grehan struct vtpci_softc *sc; 63410b59a9bSPeter Grehan 63510b59a9bSPeter Grehan sc = device_get_softc(dev); 63610b59a9bSPeter Grehan 63710b59a9bSPeter Grehan vtpci_write_config_2(sc, VIRTIO_PCI_QUEUE_NOTIFY, queue); 63810b59a9bSPeter Grehan } 63910b59a9bSPeter Grehan 64010b59a9bSPeter Grehan static uint8_t 64110b59a9bSPeter Grehan vtpci_get_status(device_t dev) 64210b59a9bSPeter Grehan { 64310b59a9bSPeter Grehan struct vtpci_softc *sc; 64410b59a9bSPeter Grehan 64510b59a9bSPeter Grehan sc = device_get_softc(dev); 64610b59a9bSPeter Grehan 64710b59a9bSPeter Grehan return (vtpci_read_config_1(sc, VIRTIO_PCI_STATUS)); 64810b59a9bSPeter Grehan } 64910b59a9bSPeter Grehan 65010b59a9bSPeter Grehan static void 65110b59a9bSPeter Grehan vtpci_set_status(device_t dev, uint8_t status) 65210b59a9bSPeter Grehan { 65310b59a9bSPeter Grehan struct vtpci_softc *sc; 65410b59a9bSPeter Grehan 65510b59a9bSPeter Grehan sc = device_get_softc(dev); 65610b59a9bSPeter Grehan 65710b59a9bSPeter Grehan if (status != VIRTIO_CONFIG_STATUS_RESET) 65810b59a9bSPeter Grehan status |= vtpci_get_status(dev); 65910b59a9bSPeter Grehan 66010b59a9bSPeter Grehan vtpci_write_config_1(sc, VIRTIO_PCI_STATUS, status); 66110b59a9bSPeter Grehan } 66210b59a9bSPeter Grehan 66310b59a9bSPeter Grehan static void 66410b59a9bSPeter Grehan vtpci_read_dev_config(device_t dev, bus_size_t offset, 66510b59a9bSPeter Grehan void *dst, int length) 66610b59a9bSPeter Grehan { 66710b59a9bSPeter Grehan struct vtpci_softc *sc; 66810b59a9bSPeter Grehan bus_size_t off; 66910b59a9bSPeter Grehan uint8_t *d; 67010b59a9bSPeter Grehan int size; 67110b59a9bSPeter Grehan 67210b59a9bSPeter Grehan sc = device_get_softc(dev); 67310b59a9bSPeter Grehan off = VIRTIO_PCI_CONFIG(sc) + offset; 67410b59a9bSPeter Grehan 67510b59a9bSPeter Grehan for (d = dst; length > 0; d += size, off += size, length -= size) { 67610b59a9bSPeter Grehan if (length >= 4) { 67710b59a9bSPeter Grehan size = 4; 67810b59a9bSPeter Grehan *(uint32_t *)d = vtpci_read_config_4(sc, off); 67910b59a9bSPeter Grehan } else if (length >= 2) { 68010b59a9bSPeter Grehan size = 2; 68110b59a9bSPeter Grehan *(uint16_t *)d = vtpci_read_config_2(sc, off); 68210b59a9bSPeter Grehan } else { 68310b59a9bSPeter Grehan size = 1; 68410b59a9bSPeter Grehan *d = vtpci_read_config_1(sc, off); 68510b59a9bSPeter Grehan } 68610b59a9bSPeter Grehan } 68710b59a9bSPeter Grehan } 68810b59a9bSPeter Grehan 68910b59a9bSPeter Grehan static void 69010b59a9bSPeter Grehan vtpci_write_dev_config(device_t dev, bus_size_t offset, 69110b59a9bSPeter Grehan void *src, int length) 69210b59a9bSPeter Grehan { 69310b59a9bSPeter Grehan struct vtpci_softc *sc; 69410b59a9bSPeter Grehan bus_size_t off; 69510b59a9bSPeter Grehan uint8_t *s; 69610b59a9bSPeter Grehan int size; 69710b59a9bSPeter Grehan 69810b59a9bSPeter Grehan sc = device_get_softc(dev); 69910b59a9bSPeter Grehan off = VIRTIO_PCI_CONFIG(sc) + offset; 70010b59a9bSPeter Grehan 70110b59a9bSPeter Grehan for (s = src; length > 0; s += size, off += size, length -= size) { 70210b59a9bSPeter Grehan if (length >= 4) { 70310b59a9bSPeter Grehan size = 4; 70410b59a9bSPeter Grehan vtpci_write_config_4(sc, off, *(uint32_t *)s); 70510b59a9bSPeter Grehan } else if (length >= 2) { 70610b59a9bSPeter Grehan size = 2; 70710b59a9bSPeter Grehan vtpci_write_config_2(sc, off, *(uint16_t *)s); 70810b59a9bSPeter Grehan } else { 70910b59a9bSPeter Grehan size = 1; 71010b59a9bSPeter Grehan vtpci_write_config_1(sc, off, *s); 71110b59a9bSPeter Grehan } 71210b59a9bSPeter Grehan } 71310b59a9bSPeter Grehan } 71410b59a9bSPeter Grehan 71510b59a9bSPeter Grehan static void 71610b59a9bSPeter Grehan vtpci_describe_features(struct vtpci_softc *sc, const char *msg, 71710b59a9bSPeter Grehan uint64_t features) 71810b59a9bSPeter Grehan { 71910b59a9bSPeter Grehan device_t dev, child; 72010b59a9bSPeter Grehan 72110b59a9bSPeter Grehan dev = sc->vtpci_dev; 72210b59a9bSPeter Grehan child = sc->vtpci_child_dev; 72310b59a9bSPeter Grehan 72410b59a9bSPeter Grehan if (device_is_attached(child) && bootverbose == 0) 72510b59a9bSPeter Grehan return; 72610b59a9bSPeter Grehan 72710b59a9bSPeter Grehan virtio_describe(dev, msg, features, sc->vtpci_child_feat_desc); 72810b59a9bSPeter Grehan } 72910b59a9bSPeter Grehan 73010b59a9bSPeter Grehan static void 73110b59a9bSPeter Grehan vtpci_probe_and_attach_child(struct vtpci_softc *sc) 73210b59a9bSPeter Grehan { 73310b59a9bSPeter Grehan device_t dev, child; 73410b59a9bSPeter Grehan 73510b59a9bSPeter Grehan dev = sc->vtpci_dev; 73610b59a9bSPeter Grehan child = sc->vtpci_child_dev; 73710b59a9bSPeter Grehan 73810b59a9bSPeter Grehan if (child == NULL) 73910b59a9bSPeter Grehan return; 74010b59a9bSPeter Grehan 74110b59a9bSPeter Grehan if (device_get_state(child) != DS_NOTPRESENT) 74210b59a9bSPeter Grehan return; 74310b59a9bSPeter Grehan 74410b59a9bSPeter Grehan if (device_probe(child) != 0) 74510b59a9bSPeter Grehan return; 74610b59a9bSPeter Grehan 74710b59a9bSPeter Grehan vtpci_set_status(dev, VIRTIO_CONFIG_STATUS_DRIVER); 74810b59a9bSPeter Grehan if (device_attach(child) != 0) { 74910b59a9bSPeter Grehan vtpci_set_status(dev, VIRTIO_CONFIG_STATUS_FAILED); 75010b59a9bSPeter Grehan vtpci_reset(sc); 75110b59a9bSPeter Grehan vtpci_release_child_resources(sc); 75210b59a9bSPeter Grehan /* Reset status for future attempt. */ 75310b59a9bSPeter Grehan vtpci_set_status(dev, VIRTIO_CONFIG_STATUS_ACK); 75410b59a9bSPeter Grehan } else 75510b59a9bSPeter Grehan vtpci_set_status(dev, VIRTIO_CONFIG_STATUS_DRIVER_OK); 75610b59a9bSPeter Grehan } 75710b59a9bSPeter Grehan 75810b59a9bSPeter Grehan static int 759*310dacd0SPeter Grehan vtpci_alloc_msix(struct vtpci_softc *sc, int nvectors) 76010b59a9bSPeter Grehan { 761*310dacd0SPeter Grehan device_t dev; 762*310dacd0SPeter Grehan int nmsix, cnt, required; 76310b59a9bSPeter Grehan 764*310dacd0SPeter Grehan dev = sc->vtpci_dev; 76510b59a9bSPeter Grehan 766*310dacd0SPeter Grehan /* Allocate an additional vector for the config changes. */ 767*310dacd0SPeter Grehan required = nvectors + 1; 76810b59a9bSPeter Grehan 769*310dacd0SPeter Grehan nmsix = pci_msix_count(dev); 770*310dacd0SPeter Grehan if (nmsix < required) 771*310dacd0SPeter Grehan return (1); 772*310dacd0SPeter Grehan 773*310dacd0SPeter Grehan cnt = required; 774*310dacd0SPeter Grehan if (pci_alloc_msix(dev, &cnt) == 0 && cnt >= required) { 775*310dacd0SPeter Grehan sc->vtpci_nintr_res = required; 776*310dacd0SPeter Grehan return (0); 77710b59a9bSPeter Grehan } 77810b59a9bSPeter Grehan 779*310dacd0SPeter Grehan pci_release_msi(dev); 78010b59a9bSPeter Grehan 781*310dacd0SPeter Grehan return (1); 78210b59a9bSPeter Grehan } 78310b59a9bSPeter Grehan 78410b59a9bSPeter Grehan static int 785*310dacd0SPeter Grehan vtpci_alloc_msi(struct vtpci_softc *sc) 786*310dacd0SPeter Grehan { 787*310dacd0SPeter Grehan device_t dev; 788*310dacd0SPeter Grehan int nmsi, cnt, required; 789*310dacd0SPeter Grehan 790*310dacd0SPeter Grehan dev = sc->vtpci_dev; 791*310dacd0SPeter Grehan required = 1; 792*310dacd0SPeter Grehan 793*310dacd0SPeter Grehan nmsi = pci_msi_count(dev); 794*310dacd0SPeter Grehan if (nmsi < required) 795*310dacd0SPeter Grehan return (1); 796*310dacd0SPeter Grehan 797*310dacd0SPeter Grehan cnt = required; 798*310dacd0SPeter Grehan if (pci_alloc_msi(dev, &cnt) == 0 && cnt >= required) { 799*310dacd0SPeter Grehan sc->vtpci_nintr_res = required; 800*310dacd0SPeter Grehan return (0); 801*310dacd0SPeter Grehan } 802*310dacd0SPeter Grehan 803*310dacd0SPeter Grehan pci_release_msi(dev); 804*310dacd0SPeter Grehan 805*310dacd0SPeter Grehan return (1); 806*310dacd0SPeter Grehan } 807*310dacd0SPeter Grehan 808*310dacd0SPeter Grehan static int 809*310dacd0SPeter Grehan vtpci_alloc_intr_msix_pervq(struct vtpci_softc *sc) 810*310dacd0SPeter Grehan { 811*310dacd0SPeter Grehan int i, nvectors, error; 812*310dacd0SPeter Grehan 813*310dacd0SPeter Grehan if (vtpci_disable_msix != 0 || 814*310dacd0SPeter Grehan sc->vtpci_flags & VTPCI_FLAG_NO_MSIX) 815*310dacd0SPeter Grehan return (ENOTSUP); 816*310dacd0SPeter Grehan 817*310dacd0SPeter Grehan for (nvectors = 0, i = 0; i < sc->vtpci_nvqs; i++) { 818*310dacd0SPeter Grehan if (sc->vtpci_vqx[i].no_intr == 0) 819*310dacd0SPeter Grehan nvectors++; 820*310dacd0SPeter Grehan } 821*310dacd0SPeter Grehan 822*310dacd0SPeter Grehan error = vtpci_alloc_msix(sc, nvectors); 823*310dacd0SPeter Grehan if (error) 824*310dacd0SPeter Grehan return (error); 825*310dacd0SPeter Grehan 826*310dacd0SPeter Grehan sc->vtpci_flags |= VTPCI_FLAG_MSIX; 827*310dacd0SPeter Grehan 828*310dacd0SPeter Grehan return (0); 829*310dacd0SPeter Grehan } 830*310dacd0SPeter Grehan 831*310dacd0SPeter Grehan static int 832*310dacd0SPeter Grehan vtpci_alloc_intr_msix_shared(struct vtpci_softc *sc) 833*310dacd0SPeter Grehan { 834*310dacd0SPeter Grehan int error; 835*310dacd0SPeter Grehan 836*310dacd0SPeter Grehan if (vtpci_disable_msix != 0 || 837*310dacd0SPeter Grehan sc->vtpci_flags & VTPCI_FLAG_NO_MSIX) 838*310dacd0SPeter Grehan return (ENOTSUP); 839*310dacd0SPeter Grehan 840*310dacd0SPeter Grehan error = vtpci_alloc_msix(sc, 1); 841*310dacd0SPeter Grehan if (error) 842*310dacd0SPeter Grehan return (error); 843*310dacd0SPeter Grehan 844*310dacd0SPeter Grehan sc->vtpci_flags |= VTPCI_FLAG_MSIX | VTPCI_FLAG_SHARED_MSIX; 845*310dacd0SPeter Grehan 846*310dacd0SPeter Grehan return (0); 847*310dacd0SPeter Grehan } 848*310dacd0SPeter Grehan 849*310dacd0SPeter Grehan static int 850*310dacd0SPeter Grehan vtpci_alloc_intr_msi(struct vtpci_softc *sc) 851*310dacd0SPeter Grehan { 852*310dacd0SPeter Grehan int error; 853*310dacd0SPeter Grehan 854*310dacd0SPeter Grehan /* Only BHyVe supports MSI. */ 855*310dacd0SPeter Grehan if (sc->vtpci_flags & VTPCI_FLAG_NO_MSI) 856*310dacd0SPeter Grehan return (ENOTSUP); 857*310dacd0SPeter Grehan 858*310dacd0SPeter Grehan error = vtpci_alloc_msi(sc); 859*310dacd0SPeter Grehan if (error) 860*310dacd0SPeter Grehan return (error); 861*310dacd0SPeter Grehan 862*310dacd0SPeter Grehan sc->vtpci_flags |= VTPCI_FLAG_MSI; 863*310dacd0SPeter Grehan 864*310dacd0SPeter Grehan return (0); 865*310dacd0SPeter Grehan } 866*310dacd0SPeter Grehan 867*310dacd0SPeter Grehan static int 868*310dacd0SPeter Grehan vtpci_alloc_intr_legacy(struct vtpci_softc *sc) 869*310dacd0SPeter Grehan { 870*310dacd0SPeter Grehan 871*310dacd0SPeter Grehan sc->vtpci_flags |= VTPCI_FLAG_LEGACY; 872*310dacd0SPeter Grehan sc->vtpci_nintr_res = 1; 873*310dacd0SPeter Grehan 874*310dacd0SPeter Grehan return (0); 875*310dacd0SPeter Grehan } 876*310dacd0SPeter Grehan 877*310dacd0SPeter Grehan static int 878*310dacd0SPeter Grehan vtpci_alloc_intr_resources(struct vtpci_softc *sc) 87910b59a9bSPeter Grehan { 88010b59a9bSPeter Grehan device_t dev; 88110b59a9bSPeter Grehan struct resource *irq; 88210b59a9bSPeter Grehan struct vtpci_virtqueue *vqx; 88310b59a9bSPeter Grehan int i, rid, flags, res_idx; 88410b59a9bSPeter Grehan 88510b59a9bSPeter Grehan dev = sc->vtpci_dev; 88610b59a9bSPeter Grehan 887*310dacd0SPeter Grehan if (sc->vtpci_flags & VTPCI_FLAG_LEGACY) { 88810b59a9bSPeter Grehan rid = 0; 889*310dacd0SPeter Grehan flags = RF_ACTIVE | RF_SHAREABLE; 890*310dacd0SPeter Grehan } else { 89110b59a9bSPeter Grehan rid = 1; 892*310dacd0SPeter Grehan flags = RF_ACTIVE; 893*310dacd0SPeter Grehan } 89410b59a9bSPeter Grehan 89510b59a9bSPeter Grehan for (i = 0; i < sc->vtpci_nintr_res; i++) { 89610b59a9bSPeter Grehan irq = bus_alloc_resource_any(dev, SYS_RES_IRQ, &rid, flags); 89710b59a9bSPeter Grehan if (irq == NULL) 89810b59a9bSPeter Grehan return (ENXIO); 89910b59a9bSPeter Grehan 90010b59a9bSPeter Grehan sc->vtpci_intr_res[i].irq = irq; 90110b59a9bSPeter Grehan sc->vtpci_intr_res[i].rid = rid++; 90210b59a9bSPeter Grehan } 90310b59a9bSPeter Grehan 90410b59a9bSPeter Grehan /* 905*310dacd0SPeter Grehan * Map the virtqueue into the correct index in vq_intr_res[]. The 906*310dacd0SPeter Grehan * first index is reserved for configuration changed notifications. 90710b59a9bSPeter Grehan */ 908*310dacd0SPeter Grehan for (i = 0, res_idx = 1; i < sc->vtpci_nvqs; i++) { 90910b59a9bSPeter Grehan vqx = &sc->vtpci_vqx[i]; 91010b59a9bSPeter Grehan 911*310dacd0SPeter Grehan if (sc->vtpci_flags & VTPCI_FLAG_MSIX) { 912*310dacd0SPeter Grehan if (vqx->no_intr != 0) 91310b59a9bSPeter Grehan vqx->ires_idx = -1; 914*310dacd0SPeter Grehan else if (sc->vtpci_flags & VTPCI_FLAG_SHARED_MSIX) 91510b59a9bSPeter Grehan vqx->ires_idx = res_idx; 91610b59a9bSPeter Grehan else 91710b59a9bSPeter Grehan vqx->ires_idx = res_idx++; 91810b59a9bSPeter Grehan } else 91910b59a9bSPeter Grehan vqx->ires_idx = -1; 92010b59a9bSPeter Grehan } 92110b59a9bSPeter Grehan 92210b59a9bSPeter Grehan return (0); 92310b59a9bSPeter Grehan } 92410b59a9bSPeter Grehan 92510b59a9bSPeter Grehan static int 926*310dacd0SPeter Grehan vtpci_setup_legacy_interrupt(struct vtpci_softc *sc, enum intr_type type) 92710b59a9bSPeter Grehan { 92810b59a9bSPeter Grehan device_t dev; 929*310dacd0SPeter Grehan struct vtpci_intr_resource *ires; 930*310dacd0SPeter Grehan int error; 93110b59a9bSPeter Grehan 93210b59a9bSPeter Grehan dev = sc->vtpci_dev; 93310b59a9bSPeter Grehan 934*310dacd0SPeter Grehan ires = &sc->vtpci_intr_res[0]; 935*310dacd0SPeter Grehan error = bus_setup_intr(dev, ires->irq, type, vtpci_legacy_intr, NULL, 936*310dacd0SPeter Grehan sc, &ires->intrhand); 93710b59a9bSPeter Grehan 938*310dacd0SPeter Grehan return (error); 93910b59a9bSPeter Grehan } 94010b59a9bSPeter Grehan 94110b59a9bSPeter Grehan static int 942*310dacd0SPeter Grehan vtpci_setup_msix_interrupts(struct vtpci_softc *sc, enum intr_type type) 94310b59a9bSPeter Grehan { 94410b59a9bSPeter Grehan device_t dev; 945*310dacd0SPeter Grehan struct vtpci_intr_resource *ires; 946*310dacd0SPeter Grehan struct vtpci_virtqueue *vqx; 947*310dacd0SPeter Grehan int i, error; 94810b59a9bSPeter Grehan 94910b59a9bSPeter Grehan dev = sc->vtpci_dev; 95010b59a9bSPeter Grehan 951*310dacd0SPeter Grehan /* 952*310dacd0SPeter Grehan * The first resource is used for configuration changed interrupts. 953*310dacd0SPeter Grehan */ 954*310dacd0SPeter Grehan ires = &sc->vtpci_intr_res[0]; 955*310dacd0SPeter Grehan error = bus_setup_intr(dev, ires->irq, type, vtpci_config_intr, 956*310dacd0SPeter Grehan NULL, sc, &ires->intrhand); 957*310dacd0SPeter Grehan if (error) 958*310dacd0SPeter Grehan return (error); 95910b59a9bSPeter Grehan 960*310dacd0SPeter Grehan if (sc->vtpci_flags & VTPCI_FLAG_SHARED_MSIX) { 961*310dacd0SPeter Grehan ires = &sc->vtpci_intr_res[1]; 96210b59a9bSPeter Grehan 963*310dacd0SPeter Grehan error = bus_setup_intr(dev, ires->irq, type, 964*310dacd0SPeter Grehan vtpci_vq_shared_intr, NULL, sc, &ires->intrhand); 965*310dacd0SPeter Grehan if (error) 966*310dacd0SPeter Grehan return (error); 967*310dacd0SPeter Grehan } else { 968*310dacd0SPeter Grehan /* 969*310dacd0SPeter Grehan * Each remaining resource is assigned to a specific virtqueue. 970*310dacd0SPeter Grehan */ 971*310dacd0SPeter Grehan for (i = 0; i < sc->vtpci_nvqs; i++) { 972*310dacd0SPeter Grehan vqx = &sc->vtpci_vqx[i]; 973*310dacd0SPeter Grehan if (vqx->ires_idx < 1) 974*310dacd0SPeter Grehan continue; 975*310dacd0SPeter Grehan 976*310dacd0SPeter Grehan ires = &sc->vtpci_intr_res[vqx->ires_idx]; 977*310dacd0SPeter Grehan error = bus_setup_intr(dev, ires->irq, type, 978*310dacd0SPeter Grehan vtpci_vq_intr, NULL, vqx->vq, &ires->intrhand); 979*310dacd0SPeter Grehan if (error) 980*310dacd0SPeter Grehan return (error); 981*310dacd0SPeter Grehan } 98210b59a9bSPeter Grehan } 98310b59a9bSPeter Grehan 984*310dacd0SPeter Grehan error = vtpci_set_host_msix_vectors(sc); 985*310dacd0SPeter Grehan if (error) 986*310dacd0SPeter Grehan return (error); 98710b59a9bSPeter Grehan 98810b59a9bSPeter Grehan return (0); 98910b59a9bSPeter Grehan } 99010b59a9bSPeter Grehan 99110b59a9bSPeter Grehan static int 992*310dacd0SPeter Grehan vtpci_setup_interrupts(struct vtpci_softc *sc, enum intr_type type) 993*310dacd0SPeter Grehan { 994*310dacd0SPeter Grehan int error; 995*310dacd0SPeter Grehan 996*310dacd0SPeter Grehan type |= INTR_MPSAFE; 997*310dacd0SPeter Grehan KASSERT(sc->vtpci_flags & VTPCI_FLAG_ITYPE_MASK, 998*310dacd0SPeter Grehan ("no interrupt type selected: %#x", sc->vtpci_flags)); 999*310dacd0SPeter Grehan 1000*310dacd0SPeter Grehan error = vtpci_alloc_intr_resources(sc); 1001*310dacd0SPeter Grehan if (error) 1002*310dacd0SPeter Grehan return (error); 1003*310dacd0SPeter Grehan 1004*310dacd0SPeter Grehan if (sc->vtpci_flags & VTPCI_FLAG_LEGACY) 1005*310dacd0SPeter Grehan error = vtpci_setup_legacy_interrupt(sc, type); 1006*310dacd0SPeter Grehan else if (sc->vtpci_flags & VTPCI_FLAG_MSI) 1007*310dacd0SPeter Grehan error = vtpci_setup_msi_interrupt(sc, type); 1008*310dacd0SPeter Grehan else 1009*310dacd0SPeter Grehan error = vtpci_setup_msix_interrupts(sc, type); 1010*310dacd0SPeter Grehan 1011*310dacd0SPeter Grehan return (error); 1012*310dacd0SPeter Grehan } 1013*310dacd0SPeter Grehan 1014*310dacd0SPeter Grehan static int 101510b59a9bSPeter Grehan vtpci_register_msix_vector(struct vtpci_softc *sc, int offset, int res_idx) 101610b59a9bSPeter Grehan { 101710b59a9bSPeter Grehan device_t dev; 1018*310dacd0SPeter Grehan uint16_t vector, rdvector; 101910b59a9bSPeter Grehan 102010b59a9bSPeter Grehan dev = sc->vtpci_dev; 102110b59a9bSPeter Grehan 102210b59a9bSPeter Grehan if (res_idx != -1) { 1023*310dacd0SPeter Grehan /* Map from guest rid to host vector. */ 102410b59a9bSPeter Grehan vector = sc->vtpci_intr_res[res_idx].rid - 1; 102510b59a9bSPeter Grehan } else 102610b59a9bSPeter Grehan vector = VIRTIO_MSI_NO_VECTOR; 102710b59a9bSPeter Grehan 1028*310dacd0SPeter Grehan /* 1029*310dacd0SPeter Grehan * Assert the first resource is always used for the configuration 1030*310dacd0SPeter Grehan * changed interrupts. 1031*310dacd0SPeter Grehan */ 103210b59a9bSPeter Grehan if (res_idx == 0) { 1033*310dacd0SPeter Grehan KASSERT(vector == 0 && offset == VIRTIO_MSI_CONFIG_VECTOR, 1034*310dacd0SPeter Grehan ("bad first res use vector:%d offset:%d", vector, offset)); 1035*310dacd0SPeter Grehan } else 1036*310dacd0SPeter Grehan KASSERT(offset == VIRTIO_MSI_QUEUE_VECTOR, ("bad offset")); 103710b59a9bSPeter Grehan 103810b59a9bSPeter Grehan vtpci_write_config_2(sc, offset, vector); 103910b59a9bSPeter Grehan 1040*310dacd0SPeter Grehan /* Read vector to determine if the host had sufficient resources. */ 1041*310dacd0SPeter Grehan rdvector = vtpci_read_config_2(sc, offset); 1042*310dacd0SPeter Grehan if (rdvector != vector) { 1043*310dacd0SPeter Grehan device_printf(dev, 1044*310dacd0SPeter Grehan "insufficient host resources for MSIX interrupts\n"); 104510b59a9bSPeter Grehan return (ENODEV); 104610b59a9bSPeter Grehan } 104710b59a9bSPeter Grehan 104810b59a9bSPeter Grehan return (0); 104910b59a9bSPeter Grehan } 105010b59a9bSPeter Grehan 1051*310dacd0SPeter Grehan static int 1052*310dacd0SPeter Grehan vtpci_set_host_msix_vectors(struct vtpci_softc *sc) 1053*310dacd0SPeter Grehan { 1054*310dacd0SPeter Grehan struct vtpci_virtqueue *vqx; 1055*310dacd0SPeter Grehan int idx, error; 1056*310dacd0SPeter Grehan 1057*310dacd0SPeter Grehan error = vtpci_register_msix_vector(sc, VIRTIO_MSI_CONFIG_VECTOR, 0); 1058*310dacd0SPeter Grehan if (error) 1059*310dacd0SPeter Grehan return (error); 1060*310dacd0SPeter Grehan 1061*310dacd0SPeter Grehan for (idx = 0; idx < sc->vtpci_nvqs; idx++) { 1062*310dacd0SPeter Grehan vqx = &sc->vtpci_vqx[idx]; 1063*310dacd0SPeter Grehan 1064*310dacd0SPeter Grehan vtpci_select_virtqueue(sc, idx); 1065*310dacd0SPeter Grehan error = vtpci_register_msix_vector(sc, VIRTIO_MSI_QUEUE_VECTOR, 1066*310dacd0SPeter Grehan vqx->ires_idx); 1067*310dacd0SPeter Grehan if (error) 1068*310dacd0SPeter Grehan return (error); 1069*310dacd0SPeter Grehan } 1070*310dacd0SPeter Grehan 1071*310dacd0SPeter Grehan return (0); 1072*310dacd0SPeter Grehan } 1073*310dacd0SPeter Grehan 1074*310dacd0SPeter Grehan static int 1075*310dacd0SPeter Grehan vtpci_reinit_virtqueue(struct vtpci_softc *sc, int idx) 1076*310dacd0SPeter Grehan { 1077*310dacd0SPeter Grehan struct vtpci_virtqueue *vqx; 1078*310dacd0SPeter Grehan struct virtqueue *vq; 1079*310dacd0SPeter Grehan int error; 1080*310dacd0SPeter Grehan uint16_t size; 1081*310dacd0SPeter Grehan 1082*310dacd0SPeter Grehan vqx = &sc->vtpci_vqx[idx]; 1083*310dacd0SPeter Grehan vq = vqx->vq; 1084*310dacd0SPeter Grehan 1085*310dacd0SPeter Grehan KASSERT(vq != NULL, ("vq %d not allocated", idx)); 1086*310dacd0SPeter Grehan 1087*310dacd0SPeter Grehan vtpci_select_virtqueue(sc, idx); 1088*310dacd0SPeter Grehan size = vtpci_read_config_2(sc, VIRTIO_PCI_QUEUE_NUM); 1089*310dacd0SPeter Grehan 1090*310dacd0SPeter Grehan error = virtqueue_reinit(vq, size); 1091*310dacd0SPeter Grehan if (error) 1092*310dacd0SPeter Grehan return (error); 1093*310dacd0SPeter Grehan 1094*310dacd0SPeter Grehan vtpci_write_config_4(sc, VIRTIO_PCI_QUEUE_PFN, 1095*310dacd0SPeter Grehan virtqueue_paddr(vq) >> VIRTIO_PCI_QUEUE_ADDR_SHIFT); 1096*310dacd0SPeter Grehan 1097*310dacd0SPeter Grehan return (0); 1098*310dacd0SPeter Grehan } 1099*310dacd0SPeter Grehan 110010b59a9bSPeter Grehan static void 110110b59a9bSPeter Grehan vtpci_free_interrupts(struct vtpci_softc *sc) 110210b59a9bSPeter Grehan { 110310b59a9bSPeter Grehan device_t dev; 110410b59a9bSPeter Grehan struct vtpci_intr_resource *ires; 110510b59a9bSPeter Grehan int i; 110610b59a9bSPeter Grehan 110710b59a9bSPeter Grehan dev = sc->vtpci_dev; 110810b59a9bSPeter Grehan 1109*310dacd0SPeter Grehan for (i = 0; i < sc->vtpci_nintr_res; i++) { 111010b59a9bSPeter Grehan ires = &sc->vtpci_intr_res[i]; 111110b59a9bSPeter Grehan 111210b59a9bSPeter Grehan if (ires->intrhand != NULL) { 111310b59a9bSPeter Grehan bus_teardown_intr(dev, ires->irq, ires->intrhand); 111410b59a9bSPeter Grehan ires->intrhand = NULL; 111510b59a9bSPeter Grehan } 111610b59a9bSPeter Grehan 111710b59a9bSPeter Grehan if (ires->irq != NULL) { 111810b59a9bSPeter Grehan bus_release_resource(dev, SYS_RES_IRQ, ires->rid, 111910b59a9bSPeter Grehan ires->irq); 112010b59a9bSPeter Grehan ires->irq = NULL; 112110b59a9bSPeter Grehan } 112210b59a9bSPeter Grehan 112310b59a9bSPeter Grehan ires->rid = -1; 112410b59a9bSPeter Grehan } 1125*310dacd0SPeter Grehan 1126*310dacd0SPeter Grehan if (sc->vtpci_flags & (VTPCI_FLAG_MSI | VTPCI_FLAG_MSIX)) 1127*310dacd0SPeter Grehan pci_release_msi(dev); 1128*310dacd0SPeter Grehan 1129*310dacd0SPeter Grehan sc->vtpci_nintr_res = 0; 1130*310dacd0SPeter Grehan sc->vtpci_flags &= ~VTPCI_FLAG_ITYPE_MASK; 113110b59a9bSPeter Grehan } 113210b59a9bSPeter Grehan 113310b59a9bSPeter Grehan static void 113410b59a9bSPeter Grehan vtpci_free_virtqueues(struct vtpci_softc *sc) 113510b59a9bSPeter Grehan { 113610b59a9bSPeter Grehan struct vtpci_virtqueue *vqx; 113710b59a9bSPeter Grehan int i; 113810b59a9bSPeter Grehan 1139*310dacd0SPeter Grehan for (i = 0; i < sc->vtpci_nvqs; i++) { 114010b59a9bSPeter Grehan vqx = &sc->vtpci_vqx[i]; 114110b59a9bSPeter Grehan 114210b59a9bSPeter Grehan virtqueue_free(vqx->vq); 114310b59a9bSPeter Grehan vqx->vq = NULL; 114410b59a9bSPeter Grehan } 1145*310dacd0SPeter Grehan 1146*310dacd0SPeter Grehan sc->vtpci_nvqs = 0; 114710b59a9bSPeter Grehan } 1148*310dacd0SPeter Grehan 1149*310dacd0SPeter Grehan static void 1150*310dacd0SPeter Grehan vtpci_cleanup_setup_intr_attempt(struct vtpci_softc *sc) 1151*310dacd0SPeter Grehan { 1152*310dacd0SPeter Grehan int idx; 1153*310dacd0SPeter Grehan 1154*310dacd0SPeter Grehan if (sc->vtpci_flags & VTPCI_FLAG_MSIX) { 1155*310dacd0SPeter Grehan vtpci_write_config_2(sc, VIRTIO_MSI_CONFIG_VECTOR, 1156*310dacd0SPeter Grehan VIRTIO_MSI_NO_VECTOR); 1157*310dacd0SPeter Grehan 1158*310dacd0SPeter Grehan for (idx = 0; idx < sc->vtpci_nvqs; idx++) { 1159*310dacd0SPeter Grehan vtpci_select_virtqueue(sc, idx); 1160*310dacd0SPeter Grehan vtpci_write_config_2(sc, VIRTIO_MSI_QUEUE_VECTOR, 1161*310dacd0SPeter Grehan VIRTIO_MSI_NO_VECTOR); 1162*310dacd0SPeter Grehan } 1163*310dacd0SPeter Grehan } 1164*310dacd0SPeter Grehan 1165*310dacd0SPeter Grehan vtpci_free_interrupts(sc); 116610b59a9bSPeter Grehan } 116710b59a9bSPeter Grehan 116810b59a9bSPeter Grehan static void 116910b59a9bSPeter Grehan vtpci_release_child_resources(struct vtpci_softc *sc) 117010b59a9bSPeter Grehan { 117110b59a9bSPeter Grehan 117210b59a9bSPeter Grehan vtpci_free_interrupts(sc); 117310b59a9bSPeter Grehan vtpci_free_virtqueues(sc); 117410b59a9bSPeter Grehan } 117510b59a9bSPeter Grehan 117610b59a9bSPeter Grehan static void 117710b59a9bSPeter Grehan vtpci_reset(struct vtpci_softc *sc) 117810b59a9bSPeter Grehan { 117910b59a9bSPeter Grehan 118010b59a9bSPeter Grehan /* 118110b59a9bSPeter Grehan * Setting the status to RESET sets the host device to 118210b59a9bSPeter Grehan * the original, uninitialized state. 118310b59a9bSPeter Grehan */ 118410b59a9bSPeter Grehan vtpci_set_status(sc->vtpci_dev, VIRTIO_CONFIG_STATUS_RESET); 118510b59a9bSPeter Grehan } 118610b59a9bSPeter Grehan 1187*310dacd0SPeter Grehan static void 1188*310dacd0SPeter Grehan vtpci_select_virtqueue(struct vtpci_softc *sc, int idx) 1189*310dacd0SPeter Grehan { 1190*310dacd0SPeter Grehan 1191*310dacd0SPeter Grehan vtpci_write_config_2(sc, VIRTIO_PCI_QUEUE_SEL, idx); 1192*310dacd0SPeter Grehan } 1193*310dacd0SPeter Grehan 119410b59a9bSPeter Grehan static int 119510b59a9bSPeter Grehan vtpci_legacy_intr(void *xsc) 119610b59a9bSPeter Grehan { 119710b59a9bSPeter Grehan struct vtpci_softc *sc; 119810b59a9bSPeter Grehan struct vtpci_virtqueue *vqx; 119910b59a9bSPeter Grehan int i; 120010b59a9bSPeter Grehan uint8_t isr; 120110b59a9bSPeter Grehan 120210b59a9bSPeter Grehan sc = xsc; 120310b59a9bSPeter Grehan vqx = &sc->vtpci_vqx[0]; 120410b59a9bSPeter Grehan 120510b59a9bSPeter Grehan /* Reading the ISR also clears it. */ 120610b59a9bSPeter Grehan isr = vtpci_read_config_1(sc, VIRTIO_PCI_ISR); 120710b59a9bSPeter Grehan 120810b59a9bSPeter Grehan if (isr & VIRTIO_PCI_ISR_CONFIG) 120910b59a9bSPeter Grehan vtpci_config_intr(sc); 121010b59a9bSPeter Grehan 121110b59a9bSPeter Grehan if (isr & VIRTIO_PCI_ISR_INTR) 121210b59a9bSPeter Grehan for (i = 0; i < sc->vtpci_nvqs; i++, vqx++) 121310b59a9bSPeter Grehan virtqueue_intr(vqx->vq); 121410b59a9bSPeter Grehan 121510b59a9bSPeter Grehan return (isr ? FILTER_HANDLED : FILTER_STRAY); 121610b59a9bSPeter Grehan } 121710b59a9bSPeter Grehan 121810b59a9bSPeter Grehan static int 121910b59a9bSPeter Grehan vtpci_vq_shared_intr(void *xsc) 122010b59a9bSPeter Grehan { 122110b59a9bSPeter Grehan struct vtpci_softc *sc; 122210b59a9bSPeter Grehan struct vtpci_virtqueue *vqx; 122310b59a9bSPeter Grehan int i, rc; 122410b59a9bSPeter Grehan 122510b59a9bSPeter Grehan rc = 0; 122610b59a9bSPeter Grehan sc = xsc; 122710b59a9bSPeter Grehan vqx = &sc->vtpci_vqx[0]; 122810b59a9bSPeter Grehan 122910b59a9bSPeter Grehan for (i = 0; i < sc->vtpci_nvqs; i++, vqx++) 123010b59a9bSPeter Grehan rc |= virtqueue_intr(vqx->vq); 123110b59a9bSPeter Grehan 123210b59a9bSPeter Grehan return (rc ? FILTER_HANDLED : FILTER_STRAY); 123310b59a9bSPeter Grehan } 123410b59a9bSPeter Grehan 123510b59a9bSPeter Grehan static int 123610b59a9bSPeter Grehan vtpci_vq_intr(void *xvq) 123710b59a9bSPeter Grehan { 123810b59a9bSPeter Grehan struct virtqueue *vq; 123910b59a9bSPeter Grehan int rc; 124010b59a9bSPeter Grehan 124110b59a9bSPeter Grehan vq = xvq; 124210b59a9bSPeter Grehan rc = virtqueue_intr(vq); 124310b59a9bSPeter Grehan 124410b59a9bSPeter Grehan return (rc ? FILTER_HANDLED : FILTER_STRAY); 124510b59a9bSPeter Grehan } 124610b59a9bSPeter Grehan 124710b59a9bSPeter Grehan static int 124810b59a9bSPeter Grehan vtpci_config_intr(void *xsc) 124910b59a9bSPeter Grehan { 125010b59a9bSPeter Grehan struct vtpci_softc *sc; 125110b59a9bSPeter Grehan device_t child; 125210b59a9bSPeter Grehan int rc; 125310b59a9bSPeter Grehan 125410b59a9bSPeter Grehan rc = 0; 125510b59a9bSPeter Grehan sc = xsc; 125610b59a9bSPeter Grehan child = sc->vtpci_child_dev; 125710b59a9bSPeter Grehan 125810b59a9bSPeter Grehan if (child != NULL) 125910b59a9bSPeter Grehan rc = VIRTIO_CONFIG_CHANGE(child); 126010b59a9bSPeter Grehan 126110b59a9bSPeter Grehan return (rc ? FILTER_HANDLED : FILTER_STRAY); 126210b59a9bSPeter Grehan } 1263