/* $OpenBSD: vioblk.c,v 1.13 2024/02/20 21:40:37 dv Exp $ */ /* * Copyright (c) 2023 Dave Voutila * Copyright (c) 2015 Mike Larkin * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #include #include /* PAGE_SIZE */ #include #include #include #include #include #include #include #include #include #include "atomicio.h" #include "pci.h" #include "virtio.h" #include "vmd.h" extern char *__progname; extern struct vmd_vm *current_vm; struct iovec io_v[VIOBLK_QUEUE_SIZE]; static const char *disk_type(int); static uint32_t handle_io_read(struct viodev_msg *, struct virtio_dev *, int8_t *); static int handle_io_write(struct viodev_msg *, struct virtio_dev *); static void vioblk_update_qs(struct vioblk_dev *); static void vioblk_update_qa(struct vioblk_dev *); static int vioblk_notifyq(struct vioblk_dev *); static ssize_t vioblk_rw(struct vioblk_dev *, int, off_t, struct vring_desc *, struct vring_desc **); static void dev_dispatch_vm(int, short, void *); static void handle_sync_io(int, short, void *); static const char * disk_type(int type) { switch (type) { case VMDF_RAW: return "raw"; case VMDF_QCOW2: return "qcow2"; } return "unknown"; } __dead void vioblk_main(int fd, int fd_vmm) { struct virtio_dev dev; struct vioblk_dev *vioblk = NULL; struct viodev_msg msg; struct vmd_vm vm; struct vm_create_params *vcp; ssize_t sz; off_t szp = 0; int i, ret, type; /* * stdio - needed for read/write to disk fds and channels to the vm. * vmm + proc - needed to create shared vm mappings. */ if (pledge("stdio vmm proc", NULL) == -1) fatal("pledge"); /* Zero and initialize io work queue. */ memset(io_v, 0, nitems(io_v)*sizeof(io_v[0])); /* Receive our virtio_dev, mostly preconfigured. */ memset(&dev, 0, sizeof(dev)); sz = atomicio(read, fd, &dev, sizeof(dev)); if (sz != sizeof(dev)) { ret = errno; log_warn("failed to receive vioblk"); goto fail; } if (dev.dev_type != VMD_DEVTYPE_DISK) { ret = EINVAL; log_warn("received invalid device type"); goto fail; } dev.sync_fd = fd; vioblk = &dev.vioblk; log_debug("%s: got viblk dev. num disk fds = %d, sync fd = %d, " "async fd = %d, capacity = %lld seg_max = %u, vmm fd = %d", __func__, vioblk->ndisk_fd, dev.sync_fd, dev.async_fd, vioblk->capacity, vioblk->seg_max, fd_vmm); /* Receive our vm information from the vm process. */ memset(&vm, 0, sizeof(vm)); sz = atomicio(read, dev.sync_fd, &vm, sizeof(vm)); if (sz != sizeof(vm)) { ret = EIO; log_warnx("failed to receive vm details"); goto fail; } vcp = &vm.vm_params.vmc_params; current_vm = &vm; setproctitle("%s/vioblk%d", vcp->vcp_name, vioblk->idx); log_procinit("vm/%s/vioblk%d", vcp->vcp_name, vioblk->idx); /* Now that we have our vm information, we can remap memory. */ ret = remap_guest_mem(&vm, fd_vmm); if (ret) { log_warnx("failed to remap guest memory"); goto fail; } /* * We no longer need /dev/vmm access. */ close_fd(fd_vmm); if (pledge("stdio", NULL) == -1) fatal("pledge2"); /* Initialize the virtio block abstractions. */ type = vm.vm_params.vmc_disktypes[vioblk->idx]; switch (type) { case VMDF_RAW: ret = virtio_raw_init(&vioblk->file, &szp, vioblk->disk_fd, vioblk->ndisk_fd); break; case VMDF_QCOW2: ret = virtio_qcow2_init(&vioblk->file, &szp, vioblk->disk_fd, vioblk->ndisk_fd); break; default: log_warnx("invalid disk image type"); goto fail; } if (ret || szp < 0) { log_warnx("failed to init disk %s image", disk_type(type)); goto fail; } vioblk->capacity = szp / 512; log_debug("%s: initialized vioblk%d with %s image (capacity=%lld)", __func__, vioblk->idx, disk_type(type), vioblk->capacity); /* If we're restoring hardware, reinitialize the virtqueue hva. */ if (vm.vm_state & VM_STATE_RECEIVED) vioblk_update_qa(vioblk); /* Initialize libevent so we can start wiring event handlers. */ event_init(); /* Wire up an async imsg channel. */ log_debug("%s: wiring in async vm event handler (fd=%d)", __func__, dev.async_fd); if (vm_device_pipe(&dev, dev_dispatch_vm, NULL)) { ret = EIO; log_warnx("vm_device_pipe"); goto fail; } /* Configure our sync channel event handler. */ log_debug("%s: wiring in sync channel handler (fd=%d)", __func__, dev.sync_fd); imsg_init(&dev.sync_iev.ibuf, dev.sync_fd); dev.sync_iev.handler = handle_sync_io; dev.sync_iev.data = &dev; dev.sync_iev.events = EV_READ; imsg_event_add(&dev.sync_iev); /* Send a ready message over the sync channel. */ log_debug("%s: telling vm %s device is ready", __func__, vcp->vcp_name); memset(&msg, 0, sizeof(msg)); msg.type = VIODEV_MSG_READY; imsg_compose_event(&dev.sync_iev, IMSG_DEVOP_MSG, 0, 0, -1, &msg, sizeof(msg)); /* Send a ready message over the async channel. */ log_debug("%s: sending heartbeat", __func__); ret = imsg_compose_event(&dev.async_iev, IMSG_DEVOP_MSG, 0, 0, -1, &msg, sizeof(msg)); if (ret == -1) { log_warnx("%s: failed to send async ready message!", __func__); goto fail; } /* Engage the event loop! */ ret = event_dispatch(); if (ret == 0) { /* Clean shutdown. */ close_fd(dev.sync_fd); close_fd(dev.async_fd); for (i = 0; i < vioblk->ndisk_fd; i++) close_fd(vioblk->disk_fd[i]); _exit(0); /* NOTREACHED */ } fail: /* Try letting the vm know we've failed something. */ memset(&msg, 0, sizeof(msg)); msg.type = VIODEV_MSG_ERROR; msg.data = ret; imsg_compose(&dev.sync_iev.ibuf, IMSG_DEVOP_MSG, 0, 0, -1, &msg, sizeof(msg)); imsg_flush(&dev.sync_iev.ibuf); close_fd(dev.sync_fd); close_fd(dev.async_fd); if (vioblk != NULL) { for (i = 0; i < vioblk->ndisk_fd; i++) close_fd(vioblk->disk_fd[i]); } _exit(ret); /* NOTREACHED */ } const char * vioblk_cmd_name(uint32_t type) { switch (type) { case VIRTIO_BLK_T_IN: return "read"; case VIRTIO_BLK_T_OUT: return "write"; case VIRTIO_BLK_T_SCSI_CMD: return "scsi read"; case VIRTIO_BLK_T_SCSI_CMD_OUT: return "scsi write"; case VIRTIO_BLK_T_FLUSH: return "flush"; case VIRTIO_BLK_T_FLUSH_OUT: return "flush out"; case VIRTIO_BLK_T_GET_ID: return "get id"; default: return "unknown"; } } static void vioblk_update_qa(struct vioblk_dev *dev) { struct virtio_vq_info *vq_info; void *hva = NULL; /* Invalid queue? */ if (dev->cfg.queue_select > 0) return; vq_info = &dev->vq[dev->cfg.queue_select]; vq_info->q_gpa = (uint64_t)dev->cfg.queue_pfn * VIRTIO_PAGE_SIZE; hva = hvaddr_mem(vq_info->q_gpa, vring_size(VIOBLK_QUEUE_SIZE)); if (hva == NULL) fatal("vioblk_update_qa"); vq_info->q_hva = hva; } static void vioblk_update_qs(struct vioblk_dev *dev) { struct virtio_vq_info *vq_info; /* Invalid queue? */ if (dev->cfg.queue_select > 0) { dev->cfg.queue_size = 0; return; } vq_info = &dev->vq[dev->cfg.queue_select]; /* Update queue pfn/size based on queue select */ dev->cfg.queue_pfn = vq_info->q_gpa >> 12; dev->cfg.queue_size = vq_info->qs; } /* * Process virtqueue notifications. If an unrecoverable error occurs, puts * device into a "needs reset" state. * * Returns 1 if an we need to assert an IRQ. */ static int vioblk_notifyq(struct vioblk_dev *dev) { uint32_t cmd_len; uint16_t idx, cmd_desc_idx; uint8_t ds; off_t offset; ssize_t sz; int is_write, notify = 0, i; char *vr; struct vring_desc *table, *desc; struct vring_avail *avail; struct vring_used *used; struct virtio_blk_req_hdr *cmd; struct virtio_vq_info *vq_info; /* Invalid queue? */ if (dev->cfg.queue_notify > 0) return (0); vq_info = &dev->vq[dev->cfg.queue_notify]; idx = vq_info->last_avail; vr = vq_info->q_hva; if (vr == NULL) fatalx("%s: null vring", __func__); /* Compute offsets in table of descriptors, avail ring, and used ring */ table = (struct vring_desc *)(vr); avail = (struct vring_avail *)(vr + vq_info->vq_availoffset); used = (struct vring_used *)(vr + vq_info->vq_usedoffset); while (idx != avail->idx) { /* Retrieve Command descriptor. */ cmd_desc_idx = avail->ring[idx & VIOBLK_QUEUE_MASK]; desc = &table[cmd_desc_idx]; cmd_len = desc->len; /* * Validate Command descriptor. It should be chained to another * descriptor and not be itself writable. */ if ((desc->flags & VRING_DESC_F_NEXT) == 0) { log_warnx("%s: unchained cmd descriptor", __func__); goto reset; } if (DESC_WRITABLE(desc)) { log_warnx("%s: invalid cmd descriptor state", __func__); goto reset; } /* Retrieve the vioblk command request. */ cmd = hvaddr_mem(desc->addr, sizeof(*cmd)); if (cmd == NULL) goto reset; /* Advance to the 2nd descriptor. */ desc = &table[desc->next & VIOBLK_QUEUE_MASK]; /* Process each available command & chain. */ switch (cmd->type) { case VIRTIO_BLK_T_IN: case VIRTIO_BLK_T_OUT: /* Read (IN) & Write (OUT) */ is_write = (cmd->type == VIRTIO_BLK_T_OUT) ? 1 : 0; offset = cmd->sector * VIRTIO_BLK_SECTOR_SIZE; sz = vioblk_rw(dev, is_write, offset, table, &desc); if (sz == -1) ds = VIRTIO_BLK_S_IOERR; else ds = VIRTIO_BLK_S_OK; break; case VIRTIO_BLK_T_GET_ID: /* * We don't support this command yet. While it's not * officially part of the virtio spec (will be in v1.2) * there's no feature to negotiate. Linux drivers will * often send this command regardless. */ ds = VIRTIO_BLK_S_UNSUPP; default: log_warnx("%s: unsupported vioblk command %d", __func__, cmd->type); ds = VIRTIO_BLK_S_UNSUPP; break; } /* Advance to the end of the chain, if needed. */ i = 0; while (desc->flags & VRING_DESC_F_NEXT) { desc = &table[desc->next & VIOBLK_QUEUE_MASK]; if (++i >= VIOBLK_QUEUE_SIZE) { /* * If we encounter an infinite/looping chain, * not much we can do but say we need a reset. */ log_warnx("%s: descriptor chain overflow", __func__); goto reset; } } /* Provide the status of our command processing. */ if (!DESC_WRITABLE(desc)) { log_warnx("%s: status descriptor unwritable", __func__); goto reset; } /* Overkill as ds is 1 byte, but validates gpa. */ if (write_mem(desc->addr, &ds, sizeof(ds))) log_warnx("%s: can't write device status data " "@ 0x%llx",__func__, desc->addr); dev->cfg.isr_status |= 1; notify = 1; used->ring[used->idx & VIOBLK_QUEUE_MASK].id = cmd_desc_idx; used->ring[used->idx & VIOBLK_QUEUE_MASK].len = cmd_len; __sync_synchronize(); used->idx++; idx++; } vq_info->last_avail = idx; return (notify); reset: /* * When setting the "needs reset" flag, the driver is notified * via a configuration change interrupt. */ dev->cfg.device_status |= DEVICE_NEEDS_RESET; dev->cfg.isr_status |= VIRTIO_CONFIG_ISR_CONFIG_CHANGE; return (1); } static void dev_dispatch_vm(int fd, short event, void *arg) { struct virtio_dev *dev = (struct virtio_dev *)arg; struct imsgev *iev = &dev->async_iev; struct imsgbuf *ibuf = &iev->ibuf; struct imsg imsg; ssize_t n = 0; int verbose; if (event & EV_READ) { if ((n = imsg_read(ibuf)) == -1 && errno != EAGAIN) fatal("%s: imsg_read", __func__); if (n == 0) { /* this pipe is dead, so remove the event handler */ log_debug("%s: pipe dead (EV_READ)", __func__); event_del(&iev->ev); event_loopexit(NULL); return; } } if (event & EV_WRITE) { if ((n = msgbuf_write(&ibuf->w)) == -1 && errno != EAGAIN) fatal("%s: msgbuf_write", __func__); if (n == 0) { /* this pipe is dead, so remove the event handler */ log_debug("%s: pipe dead (EV_WRITE)", __func__); event_del(&iev->ev); event_loopbreak(); return; } } for (;;) { if ((n = imsg_get(ibuf, &imsg)) == -1) fatal("%s: imsg_get", __func__); if (n == 0) break; switch (imsg.hdr.type) { case IMSG_VMDOP_PAUSE_VM: log_debug("%s: pausing", __func__); break; case IMSG_VMDOP_UNPAUSE_VM: log_debug("%s: unpausing", __func__); break; case IMSG_CTL_VERBOSE: IMSG_SIZE_CHECK(&imsg, &verbose); memcpy(&verbose, imsg.data, sizeof(verbose)); log_setverbose(verbose); break; default: log_warnx("%s: unhandled imsg type %d", __func__, imsg.hdr.type); break; } imsg_free(&imsg); } imsg_event_add(iev); } /* * Synchronous IO handler. * */ static void handle_sync_io(int fd, short event, void *arg) { struct virtio_dev *dev = (struct virtio_dev *)arg; struct imsgev *iev = &dev->sync_iev; struct imsgbuf *ibuf = &iev->ibuf; struct viodev_msg msg; struct imsg imsg; ssize_t n; int8_t intr = INTR_STATE_NOOP; if (event & EV_READ) { if ((n = imsg_read(ibuf)) == -1 && errno != EAGAIN) fatal("%s: imsg_read", __func__); if (n == 0) { /* this pipe is dead, so remove the event handler */ log_debug("%s: vioblk pipe dead (EV_READ)", __func__); event_del(&iev->ev); event_loopexit(NULL); return; } } if (event & EV_WRITE) { if ((n = msgbuf_write(&ibuf->w)) == -1 && errno != EAGAIN) fatal("%s: msgbuf_write", __func__); if (n == 0) { /* this pipe is dead, so remove the event handler */ log_debug("%s: vioblk pipe dead (EV_WRITE)", __func__); event_del(&iev->ev); event_loopexit(NULL); return; } } for (;;) { if ((n = imsg_get(ibuf, &imsg)) == -1) fatalx("%s: imsg_get (n=%ld)", __func__, n); if (n == 0) break; /* Unpack our message. They ALL should be dev messeges! */ IMSG_SIZE_CHECK(&imsg, &msg); memcpy(&msg, imsg.data, sizeof(msg)); imsg_free(&imsg); switch (msg.type) { case VIODEV_MSG_DUMP: /* Dump device */ n = atomicio(vwrite, dev->sync_fd, dev, sizeof(*dev)); if (n != sizeof(*dev)) { log_warnx("%s: failed to dump vioblk device", __func__); break; } case VIODEV_MSG_IO_READ: /* Read IO: make sure to send a reply */ msg.data = handle_io_read(&msg, dev, &intr); msg.data_valid = 1; msg.state = intr; imsg_compose_event(iev, IMSG_DEVOP_MSG, 0, 0, -1, &msg, sizeof(msg)); break; case VIODEV_MSG_IO_WRITE: /* Write IO: no reply needed */ if (handle_io_write(&msg, dev) == 1) virtio_assert_pic_irq(dev, 0); break; case VIODEV_MSG_SHUTDOWN: event_del(&dev->sync_iev.ev); event_loopbreak(); return; default: fatalx("%s: invalid msg type %d", __func__, msg.type); } } imsg_event_add(iev); } static int handle_io_write(struct viodev_msg *msg, struct virtio_dev *dev) { struct vioblk_dev *vioblk = &dev->vioblk; uint32_t data = msg->data; int intr = 0; switch (msg->reg) { case VIRTIO_CONFIG_DEVICE_FEATURES: case VIRTIO_CONFIG_QUEUE_SIZE: case VIRTIO_CONFIG_ISR_STATUS: log_warnx("%s: illegal write %x to %s", __progname, data, virtio_reg_name(msg->reg)); break; case VIRTIO_CONFIG_GUEST_FEATURES: vioblk->cfg.guest_feature = data; break; case VIRTIO_CONFIG_QUEUE_PFN: vioblk->cfg.queue_pfn = data; vioblk_update_qa(vioblk); break; case VIRTIO_CONFIG_QUEUE_SELECT: vioblk->cfg.queue_select = data; vioblk_update_qs(vioblk); break; case VIRTIO_CONFIG_QUEUE_NOTIFY: /* XXX We should be stricter about status checks. */ if (!(vioblk->cfg.device_status & DEVICE_NEEDS_RESET)) { vioblk->cfg.queue_notify = data; if (vioblk_notifyq(vioblk)) intr = 1; } break; case VIRTIO_CONFIG_DEVICE_STATUS: vioblk->cfg.device_status = data; if (vioblk->cfg.device_status == 0) { vioblk->cfg.guest_feature = 0; vioblk->cfg.queue_pfn = 0; vioblk_update_qa(vioblk); vioblk->cfg.queue_size = 0; vioblk_update_qs(vioblk); vioblk->cfg.queue_select = 0; vioblk->cfg.queue_notify = 0; vioblk->cfg.isr_status = 0; vioblk->vq[0].last_avail = 0; vioblk->vq[0].notified_avail = 0; virtio_deassert_pic_irq(dev, msg->vcpu); } break; default: break; } return (intr); } static uint32_t handle_io_read(struct viodev_msg *msg, struct virtio_dev *dev, int8_t *intr) { struct vioblk_dev *vioblk = &dev->vioblk; uint8_t sz = msg->io_sz; uint32_t data; if (msg->data_valid) data = msg->data; else data = 0; switch (msg->reg) { case VIRTIO_CONFIG_DEVICE_CONFIG_NOMSI: switch (sz) { case 4: data = (uint32_t)(vioblk->capacity); break; case 2: data &= 0xFFFF0000; data |= (uint32_t)(vioblk->capacity) & 0xFFFF; break; case 1: data &= 0xFFFFFF00; data |= (uint32_t)(vioblk->capacity) & 0xFF; break; } /* XXX handle invalid sz */ break; case VIRTIO_CONFIG_DEVICE_CONFIG_NOMSI + 1: if (sz == 1) { data &= 0xFFFFFF00; data |= (uint32_t)(vioblk->capacity >> 8) & 0xFF; } /* XXX handle invalid sz */ break; case VIRTIO_CONFIG_DEVICE_CONFIG_NOMSI + 2: if (sz == 1) { data &= 0xFFFFFF00; data |= (uint32_t)(vioblk->capacity >> 16) & 0xFF; } else if (sz == 2) { data &= 0xFFFF0000; data |= (uint32_t)(vioblk->capacity >> 16) & 0xFFFF; } /* XXX handle invalid sz */ break; case VIRTIO_CONFIG_DEVICE_CONFIG_NOMSI + 3: if (sz == 1) { data &= 0xFFFFFF00; data |= (uint32_t)(vioblk->capacity >> 24) & 0xFF; } /* XXX handle invalid sz */ break; case VIRTIO_CONFIG_DEVICE_CONFIG_NOMSI + 4: switch (sz) { case 4: data = (uint32_t)(vioblk->capacity >> 32); break; case 2: data &= 0xFFFF0000; data |= (uint32_t)(vioblk->capacity >> 32) & 0xFFFF; break; case 1: data &= 0xFFFFFF00; data |= (uint32_t)(vioblk->capacity >> 32) & 0xFF; break; } /* XXX handle invalid sz */ break; case VIRTIO_CONFIG_DEVICE_CONFIG_NOMSI + 5: if (sz == 1) { data &= 0xFFFFFF00; data |= (uint32_t)(vioblk->capacity >> 40) & 0xFF; } /* XXX handle invalid sz */ break; case VIRTIO_CONFIG_DEVICE_CONFIG_NOMSI + 6: if (sz == 1) { data &= 0xFFFFFF00; data |= (uint32_t)(vioblk->capacity >> 48) & 0xFF; } else if (sz == 2) { data &= 0xFFFF0000; data |= (uint32_t)(vioblk->capacity >> 48) & 0xFFFF; } /* XXX handle invalid sz */ break; case VIRTIO_CONFIG_DEVICE_CONFIG_NOMSI + 7: if (sz == 1) { data &= 0xFFFFFF00; data |= (uint32_t)(vioblk->capacity >> 56) & 0xFF; } /* XXX handle invalid sz */ break; case VIRTIO_CONFIG_DEVICE_CONFIG_NOMSI + 12: switch (sz) { case 4: data = (uint32_t)(vioblk->seg_max); break; case 2: data &= 0xFFFF0000; data |= (uint32_t)(vioblk->seg_max) & 0xFFFF; break; case 1: data &= 0xFFFFFF00; data |= (uint32_t)(vioblk->seg_max) & 0xFF; break; } /* XXX handle invalid sz */ break; case VIRTIO_CONFIG_DEVICE_CONFIG_NOMSI + 13: if (sz == 1) { data &= 0xFFFFFF00; data |= (uint32_t)(vioblk->seg_max >> 8) & 0xFF; } /* XXX handle invalid sz */ break; case VIRTIO_CONFIG_DEVICE_CONFIG_NOMSI + 14: if (sz == 1) { data &= 0xFFFFFF00; data |= (uint32_t)(vioblk->seg_max >> 16) & 0xFF; } else if (sz == 2) { data &= 0xFFFF0000; data |= (uint32_t)(vioblk->seg_max >> 16) & 0xFFFF; } /* XXX handle invalid sz */ break; case VIRTIO_CONFIG_DEVICE_CONFIG_NOMSI + 15: if (sz == 1) { data &= 0xFFFFFF00; data |= (uint32_t)(vioblk->seg_max >> 24) & 0xFF; } /* XXX handle invalid sz */ break; case VIRTIO_CONFIG_DEVICE_FEATURES: data = vioblk->cfg.device_feature; break; case VIRTIO_CONFIG_GUEST_FEATURES: data = vioblk->cfg.guest_feature; break; case VIRTIO_CONFIG_QUEUE_PFN: data = vioblk->cfg.queue_pfn; break; case VIRTIO_CONFIG_QUEUE_SIZE: data = vioblk->cfg.queue_size; break; case VIRTIO_CONFIG_QUEUE_SELECT: data = vioblk->cfg.queue_select; break; case VIRTIO_CONFIG_QUEUE_NOTIFY: data = vioblk->cfg.queue_notify; break; case VIRTIO_CONFIG_DEVICE_STATUS: data = vioblk->cfg.device_status; break; case VIRTIO_CONFIG_ISR_STATUS: data = vioblk->cfg.isr_status; vioblk->cfg.isr_status = 0; if (intr != NULL) *intr = INTR_STATE_DEASSERT; break; default: return (0xFFFFFFFF); } return (data); } /* * Emulate read/write io. Walks the descriptor chain, collecting io work and * then emulates the read or write. * * On success, returns bytes read/written. * On error, returns -1 and descriptor (desc) remains at its current position. */ static ssize_t vioblk_rw(struct vioblk_dev *dev, int is_write, off_t offset, struct vring_desc *desc_tbl, struct vring_desc **desc) { struct iovec *iov = NULL; ssize_t sz = 0; size_t io_idx = 0; /* Index into iovec workqueue. */ size_t xfer_sz = 0; /* Total accumulated io bytes. */ do { iov = &io_v[io_idx]; /* * Reads require writable descriptors. Writes require * non-writeable descriptors. */ if ((!is_write) ^ DESC_WRITABLE(*desc)) { log_warnx("%s: invalid descriptor for %s command", __func__, is_write ? "write" : "read"); return (-1); } /* Collect the IO segment information. */ iov->iov_len = (size_t)(*desc)->len; iov->iov_base = hvaddr_mem((*desc)->addr, iov->iov_len); if (iov->iov_base == NULL) return (-1); /* Move our counters. */ xfer_sz += iov->iov_len; io_idx++; /* Guard against infinite chains */ if (io_idx >= nitems(io_v)) { log_warnx("%s: descriptor table " "invalid", __func__); return (-1); } /* Advance to the next descriptor. */ *desc = &desc_tbl[(*desc)->next & VIOBLK_QUEUE_MASK]; } while ((*desc)->flags & VRING_DESC_F_NEXT); /* * Validate the requested block io operation alignment and size. * Checking offset is just an extra caution as it is derived from * a disk sector and is done for completeness in bounds checking. */ if (offset % VIRTIO_BLK_SECTOR_SIZE != 0 && xfer_sz % VIRTIO_BLK_SECTOR_SIZE != 0) { log_warnx("%s: unaligned read", __func__); return (-1); } if (xfer_sz > SSIZE_MAX) { /* iovec_copyin limit */ log_warnx("%s: invalid %s size: %zu", __func__, is_write ? "write" : "read", xfer_sz); return (-1); } /* Emulate the Read or Write operation. */ if (is_write) sz = dev->file.pwritev(dev->file.p, io_v, io_idx, offset); else sz = dev->file.preadv(dev->file.p, io_v, io_idx, offset); if (sz != (ssize_t)xfer_sz) { log_warnx("%s: %s failure at offset 0x%llx, xfer_sz=%zu, " "sz=%ld", __func__, (is_write ? "write" : "read"), offset, xfer_sz, sz); return (-1); } return (sz); }