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path: root/hw/vhost.c
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/*
 * vhost support
 *
 * Copyright Red Hat, Inc. 2010
 *
 * Authors:
 *  Michael S. Tsirkin <mst@redhat.com>
 *
 * This work is licensed under the terms of the GNU GPL, version 2.  See
 * the COPYING file in the top-level directory.
 */

#include <sys/ioctl.h>
#include "vhost.h"
#include "hw/hw.h"
/* For range_get_last */
#include "pci.h"
#include <linux/vhost.h>

static void vhost_dev_sync_region(struct vhost_dev *dev,
                                  uint64_t mfirst, uint64_t mlast,
                                  uint64_t rfirst, uint64_t rlast)
{
    uint64_t start = MAX(mfirst, rfirst);
    uint64_t end = MIN(mlast, rlast);
    vhost_log_chunk_t *from = dev->log + start / VHOST_LOG_CHUNK;
    vhost_log_chunk_t *to = dev->log + end / VHOST_LOG_CHUNK + 1;
    uint64_t addr = (start / VHOST_LOG_CHUNK) * VHOST_LOG_CHUNK;

    assert(end / VHOST_LOG_CHUNK < dev->log_size);
    assert(start / VHOST_LOG_CHUNK < dev->log_size);
    if (end < start) {
        return;
    }
    for (;from < to; ++from) {
        vhost_log_chunk_t log;
        int bit;
        /* We first check with non-atomic: much cheaper,
         * and we expect non-dirty to be the common case. */
        if (!*from) {
            continue;
        }
        /* Data must be read atomically. We don't really
         * need the barrier semantics of __sync
         * builtins, but it's easier to use them than
         * roll our own. */
        log = __sync_fetch_and_and(from, 0);
        while ((bit = sizeof(log) > sizeof(int) ?
                ffsll(log) : ffs(log))) {
            bit -= 1;
            cpu_physical_memory_set_dirty(addr + bit * VHOST_LOG_PAGE);
            log &= ~(0x1ull << bit);
        }
        addr += VHOST_LOG_CHUNK;
    }
}

static int vhost_client_sync_dirty_bitmap(CPUPhysMemoryClient *client,
                                          target_phys_addr_t start_addr,
                                          target_phys_addr_t end_addr)
{
    struct vhost_dev *dev = container_of(client, struct vhost_dev, client);
    int i;
    if (!dev->log_enabled || !dev->started) {
        return 0;
    }
    for (i = 0; i < dev->mem->nregions; ++i) {
        struct vhost_memory_region *reg = dev->mem->regions + i;
        vhost_dev_sync_region(dev, start_addr, end_addr,
                              reg->guest_phys_addr,
                              range_get_last(reg->guest_phys_addr,
                                             reg->memory_size));
    }
    for (i = 0; i < dev->nvqs; ++i) {
        struct vhost_virtqueue *vq = dev->vqs + i;
        vhost_dev_sync_region(dev, start_addr, end_addr, vq->used_phys,
                              range_get_last(vq->used_phys, vq->used_size));
    }
    return 0;
}

/* Assign/unassign. Keep an unsorted array of non-overlapping
 * memory regions in dev->mem. */
static void vhost_dev_unassign_memory(struct vhost_dev *dev,
                                      uint64_t start_addr,
                                      uint64_t size)
{
    int from, to, n = dev->mem->nregions;
    /* Track overlapping/split regions for sanity checking. */
    int overlap_start = 0, overlap_end = 0, overlap_middle = 0, split = 0;

    for (from = 0, to = 0; from < n; ++from, ++to) {
        struct vhost_memory_region *reg = dev->mem->regions + to;
        uint64_t reglast;
        uint64_t memlast;
        uint64_t change;

        /* clone old region */
        if (to != from) {
            memcpy(reg, dev->mem->regions + from, sizeof *reg);
        }

        /* No overlap is simple */
        if (!ranges_overlap(reg->guest_phys_addr, reg->memory_size,
                            start_addr, size)) {
            continue;
        }

        /* Split only happens if supplied region
         * is in the middle of an existing one. Thus it can not
         * overlap with any other existing region. */
        assert(!split);

        reglast = range_get_last(reg->guest_phys_addr, reg->memory_size);
        memlast = range_get_last(start_addr, size);

        /* Remove whole region */
        if (start_addr <= reg->guest_phys_addr && memlast >= reglast) {
            --dev->mem->nregions;
            --to;
            assert(to >= 0);
            ++overlap_middle;
            continue;
        }

        /* Shrink region */
        if (memlast >= reglast) {
            reg->memory_size = start_addr - reg->guest_phys_addr;
            assert(reg->memory_size);
            assert(!overlap_end);
            ++overlap_end;
            continue;
        }

        /* Shift region */
        if (start_addr <= reg->guest_phys_addr) {
            change = memlast + 1 - reg->guest_phys_addr;
            reg->memory_size -= change;
            reg->guest_phys_addr += change;
            reg->userspace_addr += change;
            assert(reg->memory_size);
            assert(!overlap_start);
            ++overlap_start;
            continue;
        }

        /* This only happens if supplied region
         * is in the middle of an existing one. Thus it can not
         * overlap with any other existing region. */
        assert(!overlap_start);
        assert(!overlap_end);
        assert(!overlap_middle);
        /* Split region: shrink first part, shift second part. */
        memcpy(dev->mem->regions + n, reg, sizeof *reg);
        reg->memory_size = start_addr - reg->guest_phys_addr;
        assert(reg->memory_size);
        change = memlast + 1 - reg->guest_phys_addr;
        reg = dev->mem->regions + n;
        reg->memory_size -= change;
        assert(reg->memory_size);
        reg->guest_phys_addr += change;
        reg->userspace_addr += change;
        /* Never add more than 1 region */
        assert(dev->mem->nregions == n);
        ++dev->mem->nregions;
        ++split;
    }
}

/* Called after unassign, so no regions overlap the given range. */
static void vhost_dev_assign_memory(struct vhost_dev *dev,
                                    uint64_t start_addr,
                                    uint64_t size,
                                    uint64_t uaddr)
{
    int from, to;
    struct vhost_memory_region *merged = NULL;
    for (from = 0, to = 0; from < dev->mem->nregions; ++from, ++to) {
        struct vhost_memory_region *reg = dev->mem->regions + to;
        uint64_t prlast, urlast;
        uint64_t pmlast, umlast;
        uint64_t s, e, u;

        /* clone old region */
        if (to != from) {
            memcpy(reg, dev->mem->regions + from, sizeof *reg);
        }
        prlast = range_get_last(reg->guest_phys_addr, reg->memory_size);
        pmlast = range_get_last(start_addr, size);
        urlast = range_get_last(reg->userspace_addr, reg->memory_size);
        umlast = range_get_last(uaddr, size);

        /* check for overlapping regions: should never happen. */
        assert(prlast < start_addr || pmlast < reg->guest_phys_addr);
        /* Not an adjacent or overlapping region - do not merge. */
        if ((prlast + 1 != start_addr || urlast + 1 != uaddr) &&
            (pmlast + 1 != reg->guest_phys_addr ||
             umlast + 1 != reg->userspace_addr)) {
            continue;
        }

        if (merged) {
            --to;
            assert(to >= 0);
        } else {
            merged = reg;
        }
        u = MIN(uaddr, reg->userspace_addr);
        s = MIN(start_addr, reg->guest_phys_addr);
        e = MAX(pmlast, prlast);
        uaddr = merged->userspace_addr = u;
        start_addr = merged->guest_phys_addr = s;
        size = merged->memory_size = e - s + 1;
        assert(merged->memory_size);
    }

    if (!merged) {
        struct vhost_memory_region *reg = dev->mem->regions + to;
        memset(reg, 0, sizeof *reg);
        reg->memory_size = size;
        assert(reg->memory_size);
        reg->guest_phys_addr = start_addr;
        reg->userspace_addr = uaddr;
        ++to;
    }
    assert(to <= dev->mem->nregions + 1);
    dev->mem->nregions = to;
}

static uint64_t vhost_get_log_size(struct vhost_dev *dev)
{
    uint64_t log_size = 0;
    int i;
    for (i = 0; i < dev->mem->nregions; ++i) {
        struct vhost_memory_region *reg = dev->mem->regions + i;
        uint64_t last = range_get_last(reg->guest_phys_addr,
                                       reg->memory_size);
        log_size = MAX(log_size, last / VHOST_LOG_CHUNK + 1);
    }
    for (i = 0; i < dev->nvqs; ++i) {
        struct vhost_virtqueue *vq = dev->vqs + i;
        uint64_t last = vq->used_phys + vq->used_size - 1;
        log_size = MAX(log_size, last / VHOST_LOG_CHUNK + 1);
    }
    return log_size;
}

static inline void vhost_dev_log_resize(struct vhost_dev* dev, uint64_t size)
{
    vhost_log_chunk_t *log;
    uint64_t log_base;
    int r;
    if (size) {
        log = qemu_mallocz(size * sizeof *log);
    } else {
        log = NULL;
    }
    log_base = (uint64_t)(unsigned long)log;
    r = ioctl(dev->control, VHOST_SET_LOG_BASE, &log_base);
    assert(r >= 0);
    vhost_client_sync_dirty_bitmap(&dev->client, 0,
                                   (target_phys_addr_t)~0x0ull);
    if (dev->log) {
        qemu_free(dev->log);
    }
    dev->log = log;
    dev->log_size = size;
}

static int vhost_verify_ring_mappings(struct vhost_dev *dev,
                                      uint64_t start_addr,
                                      uint64_t size)
{
    int i;
    for (i = 0; i < dev->nvqs; ++i) {
        struct vhost_virtqueue *vq = dev->vqs + i;
        target_phys_addr_t l;
        void *p;

        if (!ranges_overlap(start_addr, size, vq->ring_phys, vq->ring_size)) {
            continue;
        }
        l = vq->ring_size;
        p = cpu_physical_memory_map(vq->ring_phys, &l, 1);
        if (!p || l != vq->ring_size) {
            fprintf(stderr, "Unable to map ring buffer for ring %d\n", i);
            return -ENOMEM;
        }
        if (p != vq->ring) {
            fprintf(stderr, "Ring buffer relocated for ring %d\n", i);
            return -EBUSY;
        }
        cpu_physical_memory_unmap(p, l, 0, 0);
    }
    return 0;
}

static void vhost_client_set_memory(CPUPhysMemoryClient *client,
                                    target_phys_addr_t start_addr,
                                    ram_addr_t size,
                                    ram_addr_t phys_offset)
{
    struct vhost_dev *dev = container_of(client, struct vhost_dev, client);
    ram_addr_t flags = phys_offset & ~TARGET_PAGE_MASK;
    int s = offsetof(struct vhost_memory, regions) +
        (dev->mem->nregions + 1) * sizeof dev->mem->regions[0];
    uint64_t log_size;
    int r;
    dev->mem = qemu_realloc(dev->mem, s);

    assert(size);

    vhost_dev_unassign_memory(dev, start_addr, size);
    if (flags == IO_MEM_RAM) {
        /* Add given mapping, merging adjacent regions if any */
        vhost_dev_assign_memory(dev, start_addr, size,
                                (uintptr_t)qemu_get_ram_ptr(phys_offset));
    } else {
        /* Remove old mapping for this memory, if any. */
        vhost_dev_unassign_memory(dev, start_addr, size);
    }

    if (!dev->started) {
        return;
    }

    if (dev->started) {
        r = vhost_verify_ring_mappings(dev, start_addr, size);
        assert(r >= 0);
    }

    if (!dev->log_enabled) {
        r = ioctl(dev->control, VHOST_SET_MEM_TABLE, dev->mem);
        assert(r >= 0);
        return;
    }
    log_size = vhost_get_log_size(dev);
    /* We allocate an extra 4K bytes to log,
     * to reduce the * number of reallocations. */
#define VHOST_LOG_BUFFER (0x1000 / sizeof *dev->log)
    /* To log more, must increase log size before table update. */
    if (dev->log_size < log_size) {
        vhost_dev_log_resize(dev, log_size + VHOST_LOG_BUFFER);
    }
    r = ioctl(dev->control, VHOST_SET_MEM_TABLE, dev->mem);
    assert(r >= 0);
    /* To log less, can only decrease log size after table update. */
    if (dev->log_size > log_size + VHOST_LOG_BUFFER) {
        vhost_dev_log_resize(dev, log_size);
    }
}

static int vhost_virtqueue_set_addr(struct vhost_dev *dev,
                                    struct vhost_virtqueue *vq,
                                    unsigned idx, bool enable_log)
{
    struct vhost_vring_addr addr = {
        .index = idx,
        .desc_user_addr = (uint64_t)(unsigned long)vq->desc,
        .avail_user_addr = (uint64_t)(unsigned long)vq->avail,
        .used_user_addr = (uint64_t)(unsigned long)vq->used,
        .log_guest_addr = vq->used_phys,
        .flags = enable_log ? (1 << VHOST_VRING_F_LOG) : 0,
    };
    int r = ioctl(dev->control, VHOST_SET_VRING_ADDR, &addr);
    if (r < 0) {
        return -errno;
    }
    return 0;
}

static int vhost_dev_set_features(struct vhost_dev *dev, bool enable_log)
{
    uint64_t features = dev->acked_features;
    int r;
    if (enable_log) {
        features |= 0x1 << VHOST_F_LOG_ALL;
    }
    r = ioctl(dev->control, VHOST_SET_FEATURES, &features);
    return r < 0 ? -errno : 0;
}

static int vhost_dev_set_log(struct vhost_dev *dev, bool enable_log)
{
    int r, t, i;
    r = vhost_dev_set_features(dev, enable_log);
    if (r < 0) {
        goto err_features;
    }
    for (i = 0; i < dev->nvqs; ++i) {
        r = vhost_virtqueue_set_addr(dev, dev->vqs + i, i,
                                     enable_log);
        if (r < 0) {
            goto err_vq;
        }
    }
    return 0;
err_vq:
    for (; i >= 0; --i) {
        t = vhost_virtqueue_set_addr(dev, dev->vqs + i, i,
                                     dev->log_enabled);
        assert(t >= 0);
    }
    t = vhost_dev_set_features(dev, dev->log_enabled);
    assert(t >= 0);
err_features:
    return r;
}

static int vhost_client_migration_log(CPUPhysMemoryClient *client,
                                      int enable)
{
    struct vhost_dev *dev = container_of(client, struct vhost_dev, client);
    int r;
    if (!!enable == dev->log_enabled) {
        return 0;
    }
    if (!dev->started) {
        dev->log_enabled = enable;
        return 0;
    }
    if (!enable) {
        r = vhost_dev_set_log(dev, false);
        if (r < 0) {
            return r;
        }
        if (dev->log) {
            qemu_free(dev->log);
        }
        dev->log = NULL;
        dev->log_size = 0;
    } else {
        vhost_dev_log_resize(dev, vhost_get_log_size(dev));
        r = vhost_dev_set_log(dev, true);
        if (r < 0) {
            return r;
        }
    }
    dev->log_enabled = enable;
    return 0;
}

static int vhost_virtqueue_init(struct vhost_dev *dev,
                                struct VirtIODevice *vdev,
                                struct vhost_virtqueue *vq,
                                unsigned idx)
{
    target_phys_addr_t s, l, a;
    int r;
    struct vhost_vring_file file = {
        .index = idx,
    };
    struct vhost_vring_state state = {
        .index = idx,
    };
    struct VirtQueue *vvq = virtio_get_queue(vdev, idx);

    if (!vdev->binding->set_guest_notifier) {
        fprintf(stderr, "binding does not support guest notifiers\n");
        return -ENOSYS;
    }

    if (!vdev->binding->set_host_notifier) {
        fprintf(stderr, "binding does not support host notifiers\n");
        return -ENOSYS;
    }

    vq->num = state.num = virtio_queue_get_num(vdev, idx);
    r = ioctl(dev->control, VHOST_SET_VRING_NUM, &state);
    if (r) {
        return -errno;
    }

    state.num = virtio_queue_get_last_avail_idx(vdev, idx);
    r = ioctl(dev->control, VHOST_SET_VRING_BASE, &state);
    if (r) {
        return -errno;
    }

    s = l = virtio_queue_get_desc_size(vdev, idx);
    a = virtio_queue_get_desc_addr(vdev, idx);
    vq->desc = cpu_physical_memory_map(a, &l, 0);
    if (!vq->desc || l != s) {
        r = -ENOMEM;
        goto fail_alloc_desc;
    }
    s = l = virtio_queue_get_avail_size(vdev, idx);
    a = virtio_queue_get_avail_addr(vdev, idx);
    vq->avail = cpu_physical_memory_map(a, &l, 0);
    if (!vq->avail || l != s) {
        r = -ENOMEM;
        goto fail_alloc_avail;
    }
    vq->used_size = s = l = virtio_queue_get_used_size(vdev, idx);
    vq->used_phys = a = virtio_queue_get_used_addr(vdev, idx);
    vq->used = cpu_physical_memory_map(a, &l, 1);
    if (!vq->used || l != s) {
        r = -ENOMEM;
        goto fail_alloc_used;
    }

    vq->ring_size = s = l = virtio_queue_get_ring_size(vdev, idx);
    vq->ring_phys = a = virtio_queue_get_ring_addr(vdev, idx);
    vq->ring = cpu_physical_memory_map(a, &l, 1);
    if (!vq->ring || l != s) {
        r = -ENOMEM;
        goto fail_alloc_ring;
    }

    r = vhost_virtqueue_set_addr(dev, vq, idx, dev->log_enabled);
    if (r < 0) {
        r = -errno;
        goto fail_alloc;
    }
    r = vdev->binding->set_guest_notifier(vdev->binding_opaque, idx, true);
    if (r < 0) {
        fprintf(stderr, "Error binding guest notifier: %d\n", -r);
        goto fail_guest_notifier;
    }

    r = vdev->binding->set_host_notifier(vdev->binding_opaque, idx, true);
    if (r < 0) {
        fprintf(stderr, "Error binding host notifier: %d\n", -r);
        goto fail_host_notifier;
    }

    file.fd = event_notifier_get_fd(virtio_queue_get_host_notifier(vvq));
    r = ioctl(dev->control, VHOST_SET_VRING_KICK, &file);
    if (r) {
        goto fail_kick;
    }

    file.fd = event_notifier_get_fd(virtio_queue_get_guest_notifier(vvq));
    r = ioctl(dev->control, VHOST_SET_VRING_CALL, &file);
    if (r) {
        goto fail_call;
    }

    return 0;

fail_call:
fail_kick:
    vdev->binding->set_host_notifier(vdev->binding_opaque, idx, false);
fail_host_notifier:
    vdev->binding->set_guest_notifier(vdev->binding_opaque, idx, false);
fail_guest_notifier:
fail_alloc:
    cpu_physical_memory_unmap(vq->ring, virtio_queue_get_ring_size(vdev, idx),
                              0, 0);
fail_alloc_ring:
    cpu_physical_memory_unmap(vq->used, virtio_queue_get_used_size(vdev, idx),
                              0, 0);
fail_alloc_used:
    cpu_physical_memory_unmap(vq->avail, virtio_queue_get_avail_size(vdev, idx),
                              0, 0);
fail_alloc_avail:
    cpu_physical_memory_unmap(vq->desc, virtio_queue_get_desc_size(vdev, idx),
                              0, 0);
fail_alloc_desc:
    return r;
}

static void vhost_virtqueue_cleanup(struct vhost_dev *dev,
                                    struct VirtIODevice *vdev,
                                    struct vhost_virtqueue *vq,
                                    unsigned idx)
{
    struct vhost_vring_state state = {
        .index = idx,
    };
    int r;
    r = vdev->binding->set_guest_notifier(vdev->binding_opaque, idx, false);
    if (r < 0) {
        fprintf(stderr, "vhost VQ %d guest cleanup failed: %d\n", idx, r);
        fflush(stderr);
    }
    assert (r >= 0);

    r = vdev->binding->set_host_notifier(vdev->binding_opaque, idx, false);
    if (r < 0) {
        fprintf(stderr, "vhost VQ %d host cleanup failed: %d\n", idx, r);
        fflush(stderr);
    }
    assert (r >= 0);
    r = ioctl(dev->control, VHOST_GET_VRING_BASE, &state);
    if (r < 0) {
        fprintf(stderr, "vhost VQ %d ring restore failed: %d\n", idx, r);
        fflush(stderr);
    }
    virtio_queue_set_last_avail_idx(vdev, idx, state.num);
    assert (r >= 0);
    cpu_physical_memory_unmap(vq->ring, virtio_queue_get_ring_size(vdev, idx),
                              0, virtio_queue_get_ring_size(vdev, idx));
    cpu_physical_memory_unmap(vq->used, virtio_queue_get_used_size(vdev, idx),
                              1, virtio_queue_get_used_size(vdev, idx));
    cpu_physical_memory_unmap(vq->avail, virtio_queue_get_avail_size(vdev, idx),
                              0, virtio_queue_get_avail_size(vdev, idx));
    cpu_physical_memory_unmap(vq->desc, virtio_queue_get_desc_size(vdev, idx),
                              0, virtio_queue_get_desc_size(vdev, idx));
}

int vhost_dev_init(struct vhost_dev *hdev, int devfd)
{
    uint64_t features;
    int r;
    if (devfd >= 0) {
        hdev->control = devfd;
    } else {
        hdev->control = open("/dev/vhost-net", O_RDWR);
        if (hdev->control < 0) {
            return -errno;
        }
    }
    r = ioctl(hdev->control, VHOST_SET_OWNER, NULL);
    if (r < 0) {
        goto fail;
    }

    r = ioctl(hdev->control, VHOST_GET_FEATURES, &features);
    if (r < 0) {
        goto fail;
    }
    hdev->features = features;

    hdev->client.set_memory = vhost_client_set_memory;
    hdev->client.sync_dirty_bitmap = vhost_client_sync_dirty_bitmap;
    hdev->client.migration_log = vhost_client_migration_log;
    hdev->mem = qemu_mallocz(offsetof(struct vhost_memory, regions));
    hdev->log = NULL;
    hdev->log_size = 0;
    hdev->log_enabled = false;
    hdev->started = false;
    cpu_register_phys_memory_client(&hdev->client);
    return 0;
fail:
    r = -errno;
    close(hdev->control);
    return r;
}

void vhost_dev_cleanup(struct vhost_dev *hdev)
{
    cpu_unregister_phys_memory_client(&hdev->client);
    qemu_free(hdev->mem);
    close(hdev->control);
}

int vhost_dev_start(struct vhost_dev *hdev, VirtIODevice *vdev)
{
    int i, r;

    r = vhost_dev_set_features(hdev, hdev->log_enabled);
    if (r < 0) {
        goto fail;
    }
    r = ioctl(hdev->control, VHOST_SET_MEM_TABLE, hdev->mem);
    if (r < 0) {
        r = -errno;
        goto fail;
    }
    for (i = 0; i < hdev->nvqs; ++i) {
        r = vhost_virtqueue_init(hdev,
                                 vdev,
                                 hdev->vqs + i,
                                 i);
        if (r < 0) {
            goto fail_vq;
        }
    }

    if (hdev->log_enabled) {
        hdev->log_size = vhost_get_log_size(hdev);
        hdev->log = hdev->log_size ?
            qemu_mallocz(hdev->log_size * sizeof *hdev->log) : NULL;
        r = ioctl(hdev->control, VHOST_SET_LOG_BASE,
                  (uint64_t)(unsigned long)hdev->log);
        if (r < 0) {
            r = -errno;
            goto fail_vq;
        }
    }

    hdev->started = true;

    return 0;
fail_vq:
    while (--i >= 0) {
        vhost_virtqueue_cleanup(hdev,
                                vdev,
                                hdev->vqs + i,
                                i);
    }
fail:
    return r;
}

void vhost_dev_stop(struct vhost_dev *hdev, VirtIODevice *vdev)
{
    int i;
    for (i = 0; i < hdev->nvqs; ++i) {
        vhost_virtqueue_cleanup(hdev,
                                vdev,
                                hdev->vqs + i,
                                i);
    }
    vhost_client_sync_dirty_bitmap(&hdev->client, 0,
                                   (target_phys_addr_t)~0x0ull);
    hdev->started = false;
    qemu_free(hdev->log);
    hdev->log_size = 0;
}