#include "kvm/virtio-pci.h" #include "kvm/ioport.h" #include "kvm/kvm.h" #include "kvm/kvm-cpu.h" #include "kvm/virtio-pci-dev.h" #include "kvm/irq.h" #include "kvm/virtio.h" #include "kvm/ioeventfd.h" #include "kvm/util.h" #include #include #include #include /* The bit of the ISR which indicates a queue change. */ #define VIRTIO_PCI_ISR_QUEUE 0x1 int virtio_pci__add_msix_route(struct virtio_pci *vpci, u32 vec) { int gsi; struct msi_msg *msg; if (vec == VIRTIO_MSI_NO_VECTOR) return -EINVAL; msg = &vpci->msix_table[vec].msg; gsi = irq__add_msix_route(vpci->kvm, msg, vpci->dev_hdr.dev_num << 3); /* * We don't need IRQ routing if we can use * MSI injection via the KVM_SIGNAL_MSI ioctl. */ if (gsi == -ENXIO && vpci->signal_msi) return gsi; if (gsi < 0) die("failed to configure MSIs"); return gsi; } static void virtio_pci__del_msix_route(struct virtio_pci *vpci, u32 gsi) { struct msi_msg msg = { 0 }; irq__update_msix_route(vpci->kvm, gsi, &msg); } static void virtio_pci__ioevent_callback(struct kvm *kvm, void *param) { struct virtio_pci_ioevent_param *ioeventfd = param; struct virtio_pci *vpci = ioeventfd->vdev->virtio; ioeventfd->vdev->ops->notify_vq(kvm, vpci->dev, ioeventfd->vq); } int virtio_pci__init_ioeventfd(struct kvm *kvm, struct virtio_device *vdev, u32 vq) { struct ioevent ioevent; struct virtio_pci *vpci = vdev->virtio; u32 mmio_addr = virtio_pci__mmio_addr(vpci); u16 port_addr = virtio_pci__port_addr(vpci); off_t offset = vpci->doorbell_offset; int r, flags = 0; int pio_fd, mmio_fd; vpci->ioeventfds[vq] = (struct virtio_pci_ioevent_param) { .vdev = vdev, .vq = vq, }; ioevent = (struct ioevent) { .fn = virtio_pci__ioevent_callback, .fn_ptr = &vpci->ioeventfds[vq], .datamatch = vq, .fn_kvm = kvm, }; /* * Vhost will poll the eventfd in host kernel side, otherwise we * need to poll in userspace. */ if (!vdev->use_vhost) flags |= IOEVENTFD_FLAG_USER_POLL; /* ioport */ ioevent.io_addr = port_addr + offset; ioevent.io_len = sizeof(u16); ioevent.fd = pio_fd = eventfd(0, 0); r = ioeventfd__add_event(&ioevent, flags | IOEVENTFD_FLAG_PIO); if (r) return r; /* mmio */ ioevent.io_addr = mmio_addr + offset; ioevent.io_len = sizeof(u16); ioevent.fd = mmio_fd = eventfd(0, 0); r = ioeventfd__add_event(&ioevent, flags); if (r) goto free_ioport_evt; if (vdev->ops->notify_vq_eventfd) vdev->ops->notify_vq_eventfd(kvm, vpci->dev, vq, vdev->legacy ? pio_fd : mmio_fd); return 0; free_ioport_evt: ioeventfd__del_event(port_addr + offset, vq); return r; } int virtio_pci_init_vq(struct kvm *kvm, struct virtio_device *vdev, int vq) { int ret; struct virtio_pci *vpci = vdev->virtio; ret = virtio_pci__init_ioeventfd(kvm, vdev, vq); if (ret) { pr_err("couldn't add ioeventfd for vq %d: %d", vq, ret); return ret; } return vdev->ops->init_vq(kvm, vpci->dev, vq); } void virtio_pci_exit_vq(struct kvm *kvm, struct virtio_device *vdev, int vq) { struct virtio_pci *vpci = vdev->virtio; u32 mmio_addr = virtio_pci__mmio_addr(vpci); u16 port_addr = virtio_pci__port_addr(vpci); off_t offset = vpci->doorbell_offset; virtio_pci__del_msix_route(vpci, vpci->gsis[vq]); vpci->gsis[vq] = 0; vpci->vq_vector[vq] = VIRTIO_MSI_NO_VECTOR; ioeventfd__del_event(mmio_addr + offset, vq); ioeventfd__del_event(port_addr + offset, vq); virtio_exit_vq(kvm, vdev, vpci->dev, vq); } static void update_msix_map(struct virtio_pci *vpci, struct msix_table *msix_entry, u32 vecnum) { u32 gsi, i; /* Find the GSI number used for that vector */ if (vecnum == vpci->config_vector) { gsi = vpci->config_gsi; } else { for (i = 0; i < VIRTIO_PCI_MAX_VQ; i++) if (vpci->vq_vector[i] == vecnum) break; if (i == VIRTIO_PCI_MAX_VQ) return; gsi = vpci->gsis[i]; } if (gsi == 0) return; msix_entry = &msix_entry[vecnum]; irq__update_msix_route(vpci->kvm, gsi, &msix_entry->msg); } static void virtio_pci__msix_mmio_callback(struct kvm_cpu *vcpu, u64 addr, u8 *data, u32 len, u8 is_write, void *ptr) { struct virtio_device *vdev = ptr; struct virtio_pci *vpci = vdev->virtio; struct msix_table *table; u32 msix_io_addr = virtio_pci__msix_io_addr(vpci); u32 pba_offset; int vecnum; size_t offset; BUILD_BUG_ON(VIRTIO_NR_MSIX > (sizeof(vpci->msix_pba) * 8)); pba_offset = vpci->pci_hdr.msix.pba_offset & ~PCI_MSIX_TABLE_BIR; if (addr >= msix_io_addr + pba_offset) { /* Read access to PBA */ if (is_write) return; offset = addr - (msix_io_addr + pba_offset); if ((offset + len) > sizeof (vpci->msix_pba)) return; memcpy(data, (void *)&vpci->msix_pba + offset, len); return; } table = vpci->msix_table; offset = addr - msix_io_addr; vecnum = offset / sizeof(struct msix_table); offset = offset % sizeof(struct msix_table); if (!is_write) { memcpy(data, (void *)&table[vecnum] + offset, len); return; } memcpy((void *)&table[vecnum] + offset, data, len); /* Did we just update the address or payload? */ if (offset < offsetof(struct msix_table, ctrl)) update_msix_map(vpci, table, vecnum); } static void virtio_pci__signal_msi(struct kvm *kvm, struct virtio_pci *vpci, int vec) { struct kvm_msi msi = { .address_lo = vpci->msix_table[vec].msg.address_lo, .address_hi = vpci->msix_table[vec].msg.address_hi, .data = vpci->msix_table[vec].msg.data, }; if (kvm->msix_needs_devid) { msi.flags = KVM_MSI_VALID_DEVID; msi.devid = vpci->dev_hdr.dev_num << 3; } irq__signal_msi(kvm, &msi); } int virtio_pci__signal_vq(struct kvm *kvm, struct virtio_device *vdev, u32 vq) { struct virtio_pci *vpci = vdev->virtio; int tbl = vpci->vq_vector[vq]; if (virtio_pci__msix_enabled(vpci) && tbl != VIRTIO_MSI_NO_VECTOR) { if (vpci->pci_hdr.msix.ctrl & cpu_to_le16(PCI_MSIX_FLAGS_MASKALL) || vpci->msix_table[tbl].ctrl & cpu_to_le16(PCI_MSIX_ENTRY_CTRL_MASKBIT)) { vpci->msix_pba |= 1 << tbl; return 0; } if (vpci->signal_msi) virtio_pci__signal_msi(kvm, vpci, vpci->vq_vector[vq]); else kvm__irq_trigger(kvm, vpci->gsis[vq]); } else { vpci->isr |= VIRTIO_PCI_ISR_QUEUE; kvm__irq_line(kvm, vpci->legacy_irq_line, VIRTIO_IRQ_HIGH); } return 0; } int virtio_pci__signal_config(struct kvm *kvm, struct virtio_device *vdev) { struct virtio_pci *vpci = vdev->virtio; int tbl = vpci->config_vector; if (virtio_pci__msix_enabled(vpci) && tbl != VIRTIO_MSI_NO_VECTOR) { if (vpci->pci_hdr.msix.ctrl & cpu_to_le16(PCI_MSIX_FLAGS_MASKALL) || vpci->msix_table[tbl].ctrl & cpu_to_le16(PCI_MSIX_ENTRY_CTRL_MASKBIT)) { vpci->msix_pba |= 1 << tbl; return 0; } if (vpci->signal_msi) virtio_pci__signal_msi(kvm, vpci, tbl); else kvm__irq_trigger(kvm, vpci->config_gsi); } else { vpci->isr |= VIRTIO_PCI_ISR_CONFIG; kvm__irq_line(kvm, vpci->legacy_irq_line, VIRTIO_IRQ_HIGH); } return 0; } static int virtio_pci__bar_activate(struct kvm *kvm, struct pci_device_header *pci_hdr, int bar_num, void *data) { struct virtio_device *vdev = data; mmio_handler_fn mmio_fn; u32 bar_addr, bar_size; int r = -EINVAL; if (vdev->legacy) mmio_fn = &virtio_pci_legacy__io_mmio_callback; else mmio_fn = &virtio_pci_modern__io_mmio_callback; assert(bar_num <= 2); bar_addr = pci__bar_address(pci_hdr, bar_num); bar_size = pci__bar_size(pci_hdr, bar_num); switch (bar_num) { case 0: r = kvm__register_pio(kvm, bar_addr, bar_size, mmio_fn, vdev); break; case 1: r = kvm__register_mmio(kvm, bar_addr, bar_size, false, mmio_fn, vdev); break; case 2: r = kvm__register_mmio(kvm, bar_addr, bar_size, false, virtio_pci__msix_mmio_callback, vdev); break; } return r; } static int virtio_pci__bar_deactivate(struct kvm *kvm, struct pci_device_header *pci_hdr, int bar_num, void *data) { u32 bar_addr; bool success; int r = -EINVAL; assert(bar_num <= 2); bar_addr = pci__bar_address(pci_hdr, bar_num); switch (bar_num) { case 0: r = kvm__deregister_pio(kvm, bar_addr); break; case 1: case 2: success = kvm__deregister_mmio(kvm, bar_addr); /* kvm__deregister_mmio fails when the region is not found. */ r = (success ? 0 : -ENOENT); break; } return r; } int virtio_pci__init(struct kvm *kvm, void *dev, struct virtio_device *vdev, int device_id, int subsys_id, int class) { struct virtio_pci *vpci = vdev->virtio; u32 mmio_addr, msix_io_block; u16 port_addr; int r; vpci->kvm = kvm; vpci->dev = dev; BUILD_BUG_ON(!is_power_of_two(PCI_IO_SIZE)); port_addr = pci_get_io_port_block(PCI_IO_SIZE); mmio_addr = pci_get_mmio_block(PCI_IO_SIZE); msix_io_block = pci_get_mmio_block(VIRTIO_MSIX_BAR_SIZE); vpci->pci_hdr = (struct pci_device_header) { .vendor_id = cpu_to_le16(PCI_VENDOR_ID_REDHAT_QUMRANET), .device_id = cpu_to_le16(device_id), .command = PCI_COMMAND_IO | PCI_COMMAND_MEMORY, .header_type = PCI_HEADER_TYPE_NORMAL, .revision_id = vdev->legacy ? 0 : 1, .class[0] = class & 0xff, .class[1] = (class >> 8) & 0xff, .class[2] = (class >> 16) & 0xff, .subsys_vendor_id = cpu_to_le16(PCI_SUBSYSTEM_VENDOR_ID_REDHAT_QUMRANET), .subsys_id = cpu_to_le16(subsys_id), .bar[0] = cpu_to_le32(port_addr | PCI_BASE_ADDRESS_SPACE_IO), .bar[1] = cpu_to_le32(mmio_addr | PCI_BASE_ADDRESS_SPACE_MEMORY), .bar[2] = cpu_to_le32(msix_io_block | PCI_BASE_ADDRESS_SPACE_MEMORY), .status = cpu_to_le16(PCI_STATUS_CAP_LIST), .capabilities = PCI_CAP_OFF(&vpci->pci_hdr, msix), .bar_size[0] = cpu_to_le32(PCI_IO_SIZE), .bar_size[1] = cpu_to_le32(PCI_IO_SIZE), .bar_size[2] = cpu_to_le32(VIRTIO_MSIX_BAR_SIZE), }; r = pci__register_bar_regions(kvm, &vpci->pci_hdr, virtio_pci__bar_activate, virtio_pci__bar_deactivate, vdev); if (r < 0) return r; vpci->dev_hdr = (struct device_header) { .bus_type = DEVICE_BUS_PCI, .data = &vpci->pci_hdr, }; vpci->pci_hdr.msix.cap = PCI_CAP_ID_MSIX; vpci->pci_hdr.msix.next = 0; /* * We at most have VIRTIO_NR_MSIX entries (VIRTIO_PCI_MAX_VQ * entries for virt queue, VIRTIO_PCI_MAX_CONFIG entries for * config). * * To quote the PCI spec: * * System software reads this field to determine the * MSI-X Table Size N, which is encoded as N-1. * For example, a returned value of "00000000011" * indicates a table size of 4. */ vpci->pci_hdr.msix.ctrl = cpu_to_le16(VIRTIO_NR_MSIX - 1); /* Both table and PBA are mapped to the same BAR (2) */ vpci->pci_hdr.msix.table_offset = cpu_to_le32(2); vpci->pci_hdr.msix.pba_offset = cpu_to_le32(2 | VIRTIO_MSIX_TABLE_SIZE); vpci->config_vector = VIRTIO_MSI_NO_VECTOR; /* Initialize all vq vectors to NO_VECTOR */ memset(vpci->vq_vector, 0xff, sizeof(vpci->vq_vector)); if (irq__can_signal_msi(kvm)) vpci->signal_msi = true; vpci->legacy_irq_line = pci__assign_irq(&vpci->pci_hdr); r = device__register(&vpci->dev_hdr); if (r < 0) return r; if (vdev->legacy) vpci->doorbell_offset = VIRTIO_PCI_QUEUE_NOTIFY; else return virtio_pci_modern_init(vdev); return 0; } int virtio_pci__reset(struct kvm *kvm, struct virtio_device *vdev) { unsigned int vq; struct virtio_pci *vpci = vdev->virtio; virtio_pci__del_msix_route(vpci, vpci->config_gsi); vpci->config_gsi = 0; vpci->config_vector = VIRTIO_MSI_NO_VECTOR; for (vq = 0; vq < vdev->ops->get_vq_count(kvm, vpci->dev); vq++) virtio_pci_exit_vq(kvm, vdev, vq); return 0; } int virtio_pci__exit(struct kvm *kvm, struct virtio_device *vdev) { struct virtio_pci *vpci = vdev->virtio; virtio_pci__reset(kvm, vdev); kvm__deregister_mmio(kvm, virtio_pci__mmio_addr(vpci)); kvm__deregister_mmio(kvm, virtio_pci__msix_io_addr(vpci)); kvm__deregister_pio(kvm, virtio_pci__port_addr(vpci)); return 0; }