/*- * SPDX-License-Identifier: BSD-2-Clause * * Copyright (c) 2017, Bryan Venteicher * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice unmodified, this list of conditions, and the following * disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "virtio_pci_if.h" #include "virtio_if.h" static void vtpci_describe_features(struct vtpci_common *, const char *, uint64_t); static int vtpci_alloc_msix(struct vtpci_common *, int); static int vtpci_alloc_msi(struct vtpci_common *); static int vtpci_alloc_intr_msix_pervq(struct vtpci_common *); static int vtpci_alloc_intr_msix_shared(struct vtpci_common *); static int vtpci_alloc_intr_msi(struct vtpci_common *); static int vtpci_alloc_intr_intx(struct vtpci_common *); static int vtpci_alloc_interrupt(struct vtpci_common *, int, int, struct vtpci_interrupt *); static void vtpci_free_interrupt(struct vtpci_common *, struct vtpci_interrupt *); static void vtpci_free_interrupts(struct vtpci_common *); static void vtpci_free_virtqueues(struct vtpci_common *); static void vtpci_cleanup_setup_intr_attempt(struct vtpci_common *); static int vtpci_alloc_intr_resources(struct vtpci_common *); static int vtpci_setup_intx_interrupt(struct vtpci_common *, enum intr_type); static int vtpci_setup_pervq_msix_interrupts(struct vtpci_common *, enum intr_type); static int vtpci_set_host_msix_vectors(struct vtpci_common *); static int vtpci_setup_msix_interrupts(struct vtpci_common *, enum intr_type); static int vtpci_setup_intrs(struct vtpci_common *, enum intr_type); static int vtpci_reinit_virtqueue(struct vtpci_common *, int); static void vtpci_intx_intr(void *); static int vtpci_vq_shared_intr_filter(void *); static void vtpci_vq_shared_intr(void *); static int vtpci_vq_intr_filter(void *); static void vtpci_vq_intr(void *); static void vtpci_config_intr(void *); static void vtpci_setup_sysctl(struct vtpci_common *); #define vtpci_setup_msi_interrupt vtpci_setup_intx_interrupt /* * This module contains two drivers: * - virtio_pci_legacy for pre-V1 support * - virtio_pci_modern for V1 support */ MODULE_VERSION(virtio_pci, 1); MODULE_DEPEND(virtio_pci, pci, 1, 1, 1); MODULE_DEPEND(virtio_pci, virtio, 1, 1, 1); int vtpci_disable_msix = 0; TUNABLE_INT("hw.virtio.pci.disable_msix", &vtpci_disable_msix); static uint8_t vtpci_read_isr(struct vtpci_common *cn) { return (VIRTIO_PCI_READ_ISR(cn->vtpci_dev)); } static uint16_t vtpci_get_vq_size(struct vtpci_common *cn, int idx) { return (VIRTIO_PCI_GET_VQ_SIZE(cn->vtpci_dev, idx)); } static bus_size_t vtpci_get_vq_notify_off(struct vtpci_common *cn, int idx) { return (VIRTIO_PCI_GET_VQ_NOTIFY_OFF(cn->vtpci_dev, idx)); } static void vtpci_set_vq(struct vtpci_common *cn, struct virtqueue *vq) { VIRTIO_PCI_SET_VQ(cn->vtpci_dev, vq); } static void vtpci_disable_vq(struct vtpci_common *cn, int idx) { VIRTIO_PCI_DISABLE_VQ(cn->vtpci_dev, idx); } static int vtpci_register_cfg_msix(struct vtpci_common *cn, struct vtpci_interrupt *intr) { return (VIRTIO_PCI_REGISTER_CFG_MSIX(cn->vtpci_dev, intr)); } static int vtpci_register_vq_msix(struct vtpci_common *cn, int idx, struct vtpci_interrupt *intr) { return (VIRTIO_PCI_REGISTER_VQ_MSIX(cn->vtpci_dev, idx, intr)); } void vtpci_init(struct vtpci_common *cn, device_t dev, bool modern) { cn->vtpci_dev = dev; pci_enable_busmaster(dev); if (modern) cn->vtpci_flags |= VTPCI_FLAG_MODERN; if (pci_find_cap(dev, PCIY_MSI, NULL) != 0) cn->vtpci_flags |= VTPCI_FLAG_NO_MSI; if (pci_find_cap(dev, PCIY_MSIX, NULL) != 0) cn->vtpci_flags |= VTPCI_FLAG_NO_MSIX; vtpci_setup_sysctl(cn); } int vtpci_add_child(struct vtpci_common *cn) { device_t dev, child; dev = cn->vtpci_dev; child = device_add_child(dev, NULL, DEVICE_UNIT_ANY); if (child == NULL) { device_printf(dev, "cannot create child device\n"); return (ENOMEM); } cn->vtpci_child_dev = child; return (0); } int vtpci_delete_child(struct vtpci_common *cn) { device_t dev, child; int error; dev = cn->vtpci_dev; child = cn->vtpci_child_dev; if (child != NULL) { error = device_delete_child(dev, child); if (error) return (error); cn->vtpci_child_dev = NULL; } return (0); } void vtpci_child_detached(struct vtpci_common *cn) { vtpci_release_child_resources(cn); cn->vtpci_child_feat_desc = NULL; cn->vtpci_host_features = 0; cn->vtpci_features = 0; } int vtpci_reinit(struct vtpci_common *cn) { int idx, error; for (idx = 0; idx < cn->vtpci_nvqs; idx++) { error = vtpci_reinit_virtqueue(cn, idx); if (error) return (error); } if (vtpci_is_msix_enabled(cn)) { error = vtpci_set_host_msix_vectors(cn); if (error) return (error); } return (0); } static void vtpci_describe_features(struct vtpci_common *cn, const char *msg, uint64_t features) { device_t dev, child; dev = cn->vtpci_dev; child = cn->vtpci_child_dev; if (device_is_attached(child) || bootverbose == 0) return; virtio_describe(dev, msg, features, cn->vtpci_child_feat_desc); } uint64_t vtpci_negotiate_features(struct vtpci_common *cn, uint64_t child_features, uint64_t host_features) { uint64_t features; cn->vtpci_host_features = host_features; vtpci_describe_features(cn, "host", host_features); /* * Limit negotiated features to what the driver, virtqueue, and * host all support. */ features = host_features & child_features; features = virtio_filter_transport_features(features); cn->vtpci_features = features; vtpci_describe_features(cn, "negotiated", features); return (features); } bool vtpci_with_feature(struct vtpci_common *cn, uint64_t feature) { return ((cn->vtpci_features & feature) != 0); } int vtpci_read_ivar(struct vtpci_common *cn, int index, uintptr_t *result) { device_t dev; int error; dev = cn->vtpci_dev; error = 0; switch (index) { case VIRTIO_IVAR_SUBDEVICE: *result = pci_get_subdevice(dev); break; case VIRTIO_IVAR_VENDOR: *result = pci_get_vendor(dev); break; case VIRTIO_IVAR_DEVICE: *result = pci_get_device(dev); break; case VIRTIO_IVAR_SUBVENDOR: *result = pci_get_subvendor(dev); break; case VIRTIO_IVAR_MODERN: *result = vtpci_is_modern(cn); break; default: error = ENOENT; } return (error); } int vtpci_write_ivar(struct vtpci_common *cn, int index, uintptr_t value) { int error; error = 0; switch (index) { case VIRTIO_IVAR_FEATURE_DESC: cn->vtpci_child_feat_desc = (void *) value; break; default: error = ENOENT; } return (error); } int vtpci_alloc_virtqueues(struct vtpci_common *cn, int nvqs, struct vq_alloc_info *vq_info) { device_t dev; int idx, align, error; dev = cn->vtpci_dev; /* * This is VIRTIO_PCI_VRING_ALIGN from legacy VirtIO. In modern VirtIO, * the tables do not have to be allocated contiguously, but we do so * anyways. */ align = 4096; if (cn->vtpci_nvqs != 0) return (EALREADY); if (nvqs <= 0) return (EINVAL); cn->vtpci_vqs = malloc(nvqs * sizeof(struct vtpci_virtqueue), M_DEVBUF, M_NOWAIT | M_ZERO); if (cn->vtpci_vqs == NULL) return (ENOMEM); for (idx = 0; idx < nvqs; idx++) { struct vtpci_virtqueue *vqx; struct vq_alloc_info *info; struct virtqueue *vq; bus_size_t notify_offset; uint16_t size; vqx = &cn->vtpci_vqs[idx]; info = &vq_info[idx]; size = vtpci_get_vq_size(cn, idx); notify_offset = vtpci_get_vq_notify_off(cn, idx); error = virtqueue_alloc(dev, idx, size, notify_offset, align, ~(vm_paddr_t)0, info, &vq); if (error) { device_printf(dev, "cannot allocate virtqueue %d: %d\n", idx, error); break; } vtpci_set_vq(cn, vq); vqx->vtv_vq = *info->vqai_vq = vq; vqx->vtv_no_intr = info->vqai_intr == NULL; cn->vtpci_nvqs++; } if (error) vtpci_free_virtqueues(cn); return (error); } static int vtpci_alloc_msix(struct vtpci_common *cn, int nvectors) { device_t dev; int nmsix, cnt, required; dev = cn->vtpci_dev; /* Allocate an additional vector for the config changes. */ required = nvectors + 1; nmsix = pci_msix_count(dev); if (nmsix < required) return (1); cnt = required; if (pci_alloc_msix(dev, &cnt) == 0 && cnt >= required) { cn->vtpci_nmsix_resources = required; return (0); } pci_release_msi(dev); return (1); } static int vtpci_alloc_msi(struct vtpci_common *cn) { device_t dev; int nmsi, cnt, required; dev = cn->vtpci_dev; required = 1; nmsi = pci_msi_count(dev); if (nmsi < required) return (1); cnt = required; if (pci_alloc_msi(dev, &cnt) == 0 && cnt >= required) return (0); pci_release_msi(dev); return (1); } static int vtpci_alloc_intr_msix_pervq(struct vtpci_common *cn) { int i, nvectors, error; if (vtpci_disable_msix != 0 || cn->vtpci_flags & VTPCI_FLAG_NO_MSIX) return (ENOTSUP); for (nvectors = 0, i = 0; i < cn->vtpci_nvqs; i++) { if (cn->vtpci_vqs[i].vtv_no_intr == 0) nvectors++; } error = vtpci_alloc_msix(cn, nvectors); if (error) return (error); cn->vtpci_flags |= VTPCI_FLAG_MSIX; return (0); } static int vtpci_alloc_intr_msix_shared(struct vtpci_common *cn) { int error; if (vtpci_disable_msix != 0 || cn->vtpci_flags & VTPCI_FLAG_NO_MSIX) return (ENOTSUP); error = vtpci_alloc_msix(cn, 1); if (error) return (error); cn->vtpci_flags |= VTPCI_FLAG_MSIX | VTPCI_FLAG_SHARED_MSIX; return (0); } static int vtpci_alloc_intr_msi(struct vtpci_common *cn) { int error; /* Only BHyVe supports MSI. */ if (cn->vtpci_flags & VTPCI_FLAG_NO_MSI) return (ENOTSUP); error = vtpci_alloc_msi(cn); if (error) return (error); cn->vtpci_flags |= VTPCI_FLAG_MSI; return (0); } static int vtpci_alloc_intr_intx(struct vtpci_common *cn) { cn->vtpci_flags |= VTPCI_FLAG_INTX; return (0); } static int vtpci_alloc_interrupt(struct vtpci_common *cn, int rid, int flags, struct vtpci_interrupt *intr) { struct resource *irq; irq = bus_alloc_resource_any(cn->vtpci_dev, SYS_RES_IRQ, &rid, flags); if (irq == NULL) return (ENXIO); intr->vti_irq = irq; intr->vti_rid = rid; return (0); } static void vtpci_free_interrupt(struct vtpci_common *cn, struct vtpci_interrupt *intr) { device_t dev; dev = cn->vtpci_dev; if (intr->vti_handler != NULL) { bus_teardown_intr(dev, intr->vti_irq, intr->vti_handler); intr->vti_handler = NULL; } if (intr->vti_irq != NULL) { bus_release_resource(dev, SYS_RES_IRQ, intr->vti_rid, intr->vti_irq); intr->vti_irq = NULL; intr->vti_rid = -1; } } static void vtpci_free_interrupts(struct vtpci_common *cn) { struct vtpci_interrupt *intr; int i, nvq_intrs; vtpci_free_interrupt(cn, &cn->vtpci_device_interrupt); if (cn->vtpci_nmsix_resources != 0) { nvq_intrs = cn->vtpci_nmsix_resources - 1; cn->vtpci_nmsix_resources = 0; if ((intr = cn->vtpci_msix_vq_interrupts) != NULL) { for (i = 0; i < nvq_intrs; i++, intr++) vtpci_free_interrupt(cn, intr); free(cn->vtpci_msix_vq_interrupts, M_DEVBUF); cn->vtpci_msix_vq_interrupts = NULL; } } if (cn->vtpci_flags & (VTPCI_FLAG_MSI | VTPCI_FLAG_MSIX)) pci_release_msi(cn->vtpci_dev); cn->vtpci_flags &= ~VTPCI_FLAG_ITYPE_MASK; } static void vtpci_free_virtqueues(struct vtpci_common *cn) { struct vtpci_virtqueue *vqx; int idx; for (idx = 0; idx < cn->vtpci_nvqs; idx++) { vtpci_disable_vq(cn, idx); vqx = &cn->vtpci_vqs[idx]; virtqueue_free(vqx->vtv_vq); vqx->vtv_vq = NULL; } free(cn->vtpci_vqs, M_DEVBUF); cn->vtpci_vqs = NULL; cn->vtpci_nvqs = 0; } void vtpci_release_child_resources(struct vtpci_common *cn) { vtpci_free_interrupts(cn); vtpci_free_virtqueues(cn); } static void vtpci_cleanup_setup_intr_attempt(struct vtpci_common *cn) { int idx; if (cn->vtpci_flags & VTPCI_FLAG_MSIX) { vtpci_register_cfg_msix(cn, NULL); for (idx = 0; idx < cn->vtpci_nvqs; idx++) vtpci_register_vq_msix(cn, idx, NULL); } vtpci_free_interrupts(cn); } static int vtpci_alloc_intr_resources(struct vtpci_common *cn) { struct vtpci_interrupt *intr; int i, rid, flags, nvq_intrs, error; flags = RF_ACTIVE; if (cn->vtpci_flags & VTPCI_FLAG_INTX) { rid = 0; flags |= RF_SHAREABLE; } else rid = 1; /* * When using INTX or MSI interrupts, this resource handles all * interrupts. When using MSIX, this resource handles just the * configuration changed interrupt. */ intr = &cn->vtpci_device_interrupt; error = vtpci_alloc_interrupt(cn, rid, flags, intr); if (error || cn->vtpci_flags & (VTPCI_FLAG_INTX | VTPCI_FLAG_MSI)) return (error); /* * Now allocate the interrupts for the virtqueues. This may be one * for all the virtqueues, or one for each virtqueue. Subtract one * below for because of the configuration changed interrupt. */ nvq_intrs = cn->vtpci_nmsix_resources - 1; cn->vtpci_msix_vq_interrupts = malloc(nvq_intrs * sizeof(struct vtpci_interrupt), M_DEVBUF, M_NOWAIT | M_ZERO); if (cn->vtpci_msix_vq_interrupts == NULL) return (ENOMEM); intr = cn->vtpci_msix_vq_interrupts; for (i = 0, rid++; i < nvq_intrs; i++, rid++, intr++) { error = vtpci_alloc_interrupt(cn, rid, flags, intr); if (error) return (error); } return (0); } static int vtpci_setup_intx_interrupt(struct vtpci_common *cn, enum intr_type type) { struct vtpci_interrupt *intr; int error; intr = &cn->vtpci_device_interrupt; error = bus_setup_intr(cn->vtpci_dev, intr->vti_irq, type, NULL, vtpci_intx_intr, cn, &intr->vti_handler); return (error); } static int vtpci_setup_pervq_msix_interrupts(struct vtpci_common *cn, enum intr_type type) { struct vtpci_virtqueue *vqx; struct vtpci_interrupt *intr; int i, error; intr = cn->vtpci_msix_vq_interrupts; for (i = 0; i < cn->vtpci_nvqs; i++) { vqx = &cn->vtpci_vqs[i]; if (vqx->vtv_no_intr) continue; error = bus_setup_intr(cn->vtpci_dev, intr->vti_irq, type, vtpci_vq_intr_filter, vtpci_vq_intr, vqx->vtv_vq, &intr->vti_handler); if (error) return (error); intr++; } return (0); } static int vtpci_set_host_msix_vectors(struct vtpci_common *cn) { struct vtpci_interrupt *intr, *tintr; int idx, error; intr = &cn->vtpci_device_interrupt; error = vtpci_register_cfg_msix(cn, intr); if (error) return (error); intr = cn->vtpci_msix_vq_interrupts; for (idx = 0; idx < cn->vtpci_nvqs; idx++) { if (cn->vtpci_vqs[idx].vtv_no_intr) tintr = NULL; else tintr = intr; error = vtpci_register_vq_msix(cn, idx, tintr); if (error) break; /* * For shared MSIX, all the virtqueues share the first * interrupt. */ if (!cn->vtpci_vqs[idx].vtv_no_intr && (cn->vtpci_flags & VTPCI_FLAG_SHARED_MSIX) == 0) intr++; } return (error); } static int vtpci_setup_msix_interrupts(struct vtpci_common *cn, enum intr_type type) { struct vtpci_interrupt *intr; int error; intr = &cn->vtpci_device_interrupt; error = bus_setup_intr(cn->vtpci_dev, intr->vti_irq, type, NULL, vtpci_config_intr, cn, &intr->vti_handler); if (error) return (error); if (cn->vtpci_flags & VTPCI_FLAG_SHARED_MSIX) { intr = &cn->vtpci_msix_vq_interrupts[0]; error = bus_setup_intr(cn->vtpci_dev, intr->vti_irq, type, vtpci_vq_shared_intr_filter, vtpci_vq_shared_intr, cn, &intr->vti_handler); } else error = vtpci_setup_pervq_msix_interrupts(cn, type); return (error ? error : vtpci_set_host_msix_vectors(cn)); } static int vtpci_setup_intrs(struct vtpci_common *cn, enum intr_type type) { int error; type |= INTR_MPSAFE; KASSERT(cn->vtpci_flags & VTPCI_FLAG_ITYPE_MASK, ("%s: no interrupt type selected %#x", __func__, cn->vtpci_flags)); error = vtpci_alloc_intr_resources(cn); if (error) return (error); if (cn->vtpci_flags & VTPCI_FLAG_INTX) error = vtpci_setup_intx_interrupt(cn, type); else if (cn->vtpci_flags & VTPCI_FLAG_MSI) error = vtpci_setup_msi_interrupt(cn, type); else error = vtpci_setup_msix_interrupts(cn, type); return (error); } int vtpci_setup_interrupts(struct vtpci_common *cn, enum intr_type type) { device_t dev; int attempt, error; dev = cn->vtpci_dev; for (attempt = 0; attempt < 5; attempt++) { /* * Start with the most desirable interrupt configuration and * fallback towards less desirable ones. */ switch (attempt) { case 0: error = vtpci_alloc_intr_msix_pervq(cn); break; case 1: error = vtpci_alloc_intr_msix_shared(cn); break; case 2: error = vtpci_alloc_intr_msi(cn); break; case 3: error = vtpci_alloc_intr_intx(cn); break; default: device_printf(dev, "exhausted all interrupt allocation attempts\n"); return (ENXIO); } if (error == 0 && vtpci_setup_intrs(cn, type) == 0) break; vtpci_cleanup_setup_intr_attempt(cn); } if (bootverbose) { if (cn->vtpci_flags & VTPCI_FLAG_INTX) device_printf(dev, "using legacy interrupt\n"); else if (cn->vtpci_flags & VTPCI_FLAG_MSI) device_printf(dev, "using MSI interrupt\n"); else if (cn->vtpci_flags & VTPCI_FLAG_SHARED_MSIX) device_printf(dev, "using shared MSIX interrupts\n"); else device_printf(dev, "using per VQ MSIX interrupts\n"); } return (0); } static int vtpci_reinit_virtqueue(struct vtpci_common *cn, int idx) { struct vtpci_virtqueue *vqx; struct virtqueue *vq; int error; vqx = &cn->vtpci_vqs[idx]; vq = vqx->vtv_vq; KASSERT(vq != NULL, ("%s: vq %d not allocated", __func__, idx)); error = virtqueue_reinit(vq, vtpci_get_vq_size(cn, idx)); if (error == 0) vtpci_set_vq(cn, vq); return (error); } static void vtpci_intx_intr(void *xcn) { struct vtpci_common *cn; struct vtpci_virtqueue *vqx; int i; uint8_t isr; cn = xcn; isr = vtpci_read_isr(cn); if (isr & VIRTIO_PCI_ISR_CONFIG) vtpci_config_intr(cn); if (isr & VIRTIO_PCI_ISR_INTR) { vqx = &cn->vtpci_vqs[0]; for (i = 0; i < cn->vtpci_nvqs; i++, vqx++) { if (vqx->vtv_no_intr == 0) virtqueue_intr(vqx->vtv_vq); } } } static int vtpci_vq_shared_intr_filter(void *xcn) { struct vtpci_common *cn; struct vtpci_virtqueue *vqx; int i, rc; cn = xcn; vqx = &cn->vtpci_vqs[0]; rc = 0; for (i = 0; i < cn->vtpci_nvqs; i++, vqx++) { if (vqx->vtv_no_intr == 0) rc |= virtqueue_intr_filter(vqx->vtv_vq); } return (rc ? FILTER_SCHEDULE_THREAD : FILTER_STRAY); } static void vtpci_vq_shared_intr(void *xcn) { struct vtpci_common *cn; struct vtpci_virtqueue *vqx; int i; cn = xcn; vqx = &cn->vtpci_vqs[0]; for (i = 0; i < cn->vtpci_nvqs; i++, vqx++) { if (vqx->vtv_no_intr == 0) virtqueue_intr(vqx->vtv_vq); } } static int vtpci_vq_intr_filter(void *xvq) { struct virtqueue *vq; int rc; vq = xvq; rc = virtqueue_intr_filter(vq); return (rc ? FILTER_SCHEDULE_THREAD : FILTER_STRAY); } static void vtpci_vq_intr(void *xvq) { struct virtqueue *vq; vq = xvq; virtqueue_intr(vq); } static void vtpci_config_intr(void *xcn) { struct vtpci_common *cn; device_t child; cn = xcn; child = cn->vtpci_child_dev; if (child != NULL) VIRTIO_CONFIG_CHANGE(child); } static int vtpci_feature_sysctl(struct sysctl_req *req, struct vtpci_common *cn, uint64_t features) { struct sbuf *sb; int error; sb = sbuf_new_for_sysctl(NULL, NULL, 256, req); if (sb == NULL) return (ENOMEM); error = virtio_describe_sbuf(sb, features, cn->vtpci_child_feat_desc); sbuf_delete(sb); return (error); } static int vtpci_host_features_sysctl(SYSCTL_HANDLER_ARGS) { struct vtpci_common *cn; cn = arg1; return (vtpci_feature_sysctl(req, cn, cn->vtpci_host_features)); } static int vtpci_negotiated_features_sysctl(SYSCTL_HANDLER_ARGS) { struct vtpci_common *cn; cn = arg1; return (vtpci_feature_sysctl(req, cn, cn->vtpci_features)); } static void vtpci_setup_sysctl(struct vtpci_common *cn) { device_t dev; struct sysctl_ctx_list *ctx; struct sysctl_oid *tree; struct sysctl_oid_list *child; dev = cn->vtpci_dev; ctx = device_get_sysctl_ctx(dev); tree = device_get_sysctl_tree(dev); child = SYSCTL_CHILDREN(tree); SYSCTL_ADD_INT(ctx, child, OID_AUTO, "nvqs", CTLFLAG_RD, &cn->vtpci_nvqs, 0, "Number of virtqueues"); SYSCTL_ADD_PROC(ctx, child, OID_AUTO, "host_features", CTLTYPE_STRING | CTLFLAG_RD | CTLFLAG_MPSAFE, cn, 0, vtpci_host_features_sysctl, "A", "Features supported by the host"); SYSCTL_ADD_PROC(ctx, child, OID_AUTO, "negotiated_features", CTLTYPE_STRING | CTLFLAG_RD | CTLFLAG_MPSAFE, cn, 0, vtpci_negotiated_features_sysctl, "A", "Features negotiated"); }