vhost: use DPDK allocations for in-flight data

[dpdk.git] / lib / vhost / vhost_user.c

/* SPDX-License-Identifier: BSD-3-Clause
 * Copyright(c) 2010-2018 Intel Corporation
 */

/* Security model
 * --------------
 * The vhost-user protocol connection is an external interface, so it must be
 * robust against invalid inputs.
 *
 * This is important because the vhost-user master is only one step removed
 * from the guest.  Malicious guests that have escaped will then launch further
 * attacks from the vhost-user master.
 *
 * Even in deployments where guests are trusted, a bug in the vhost-user master
 * can still cause invalid messages to be sent.  Such messages must not
 * compromise the stability of the DPDK application by causing crashes, memory
 * corruption, or other problematic behavior.
 *
 * Do not assume received VhostUserMsg fields contain sensible values!
 */

#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include <fcntl.h>
#include <sys/ioctl.h>
#include <sys/mman.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <sys/syscall.h>
#include <assert.h>
#ifdef RTE_LIBRTE_VHOST_NUMA
#include <numaif.h>
#endif
#ifdef RTE_LIBRTE_VHOST_POSTCOPY
#include <linux/userfaultfd.h>
#endif
#ifdef F_ADD_SEALS /* if file sealing is supported, so is memfd */
#include <linux/memfd.h>
#define MEMFD_SUPPORTED
#endif

#include <rte_common.h>
#include <rte_malloc.h>
#include <rte_log.h>

#include "iotlb.h"
#include "vhost.h"
#include "vhost_user.h"

#define VIRTIO_MIN_MTU 68
#define VIRTIO_MAX_MTU 65535

#define INFLIGHT_ALIGNMENT      64
#define INFLIGHT_VERSION        0x1

static const char *vhost_message_str[VHOST_USER_MAX] = {
        [VHOST_USER_NONE] = "VHOST_USER_NONE",
        [VHOST_USER_GET_FEATURES] = "VHOST_USER_GET_FEATURES",
        [VHOST_USER_SET_FEATURES] = "VHOST_USER_SET_FEATURES",
        [VHOST_USER_SET_OWNER] = "VHOST_USER_SET_OWNER",
        [VHOST_USER_RESET_OWNER] = "VHOST_USER_RESET_OWNER",
        [VHOST_USER_SET_MEM_TABLE] = "VHOST_USER_SET_MEM_TABLE",
        [VHOST_USER_SET_LOG_BASE] = "VHOST_USER_SET_LOG_BASE",
        [VHOST_USER_SET_LOG_FD] = "VHOST_USER_SET_LOG_FD",
        [VHOST_USER_SET_VRING_NUM] = "VHOST_USER_SET_VRING_NUM",
        [VHOST_USER_SET_VRING_ADDR] = "VHOST_USER_SET_VRING_ADDR",
        [VHOST_USER_SET_VRING_BASE] = "VHOST_USER_SET_VRING_BASE",
        [VHOST_USER_GET_VRING_BASE] = "VHOST_USER_GET_VRING_BASE",
        [VHOST_USER_SET_VRING_KICK] = "VHOST_USER_SET_VRING_KICK",
        [VHOST_USER_SET_VRING_CALL] = "VHOST_USER_SET_VRING_CALL",
        [VHOST_USER_SET_VRING_ERR]  = "VHOST_USER_SET_VRING_ERR",
        [VHOST_USER_GET_PROTOCOL_FEATURES]  = "VHOST_USER_GET_PROTOCOL_FEATURES",
        [VHOST_USER_SET_PROTOCOL_FEATURES]  = "VHOST_USER_SET_PROTOCOL_FEATURES",
        [VHOST_USER_GET_QUEUE_NUM]  = "VHOST_USER_GET_QUEUE_NUM",
        [VHOST_USER_SET_VRING_ENABLE]  = "VHOST_USER_SET_VRING_ENABLE",
        [VHOST_USER_SEND_RARP]  = "VHOST_USER_SEND_RARP",
        [VHOST_USER_NET_SET_MTU]  = "VHOST_USER_NET_SET_MTU",
        [VHOST_USER_SET_SLAVE_REQ_FD]  = "VHOST_USER_SET_SLAVE_REQ_FD",
        [VHOST_USER_IOTLB_MSG]  = "VHOST_USER_IOTLB_MSG",
        [VHOST_USER_CRYPTO_CREATE_SESS] = "VHOST_USER_CRYPTO_CREATE_SESS",
        [VHOST_USER_CRYPTO_CLOSE_SESS] = "VHOST_USER_CRYPTO_CLOSE_SESS",
        [VHOST_USER_POSTCOPY_ADVISE]  = "VHOST_USER_POSTCOPY_ADVISE",
        [VHOST_USER_POSTCOPY_LISTEN]  = "VHOST_USER_POSTCOPY_LISTEN",
        [VHOST_USER_POSTCOPY_END]  = "VHOST_USER_POSTCOPY_END",
        [VHOST_USER_GET_INFLIGHT_FD] = "VHOST_USER_GET_INFLIGHT_FD",
        [VHOST_USER_SET_INFLIGHT_FD] = "VHOST_USER_SET_INFLIGHT_FD",
        [VHOST_USER_SET_STATUS] = "VHOST_USER_SET_STATUS",
        [VHOST_USER_GET_STATUS] = "VHOST_USER_GET_STATUS",
};

static int send_vhost_reply(int sockfd, struct VhostUserMsg *msg);
static int read_vhost_message(int sockfd, struct VhostUserMsg *msg);

static void
close_msg_fds(struct VhostUserMsg *msg)
{
        int i;

        for (i = 0; i < msg->fd_num; i++) {
                int fd = msg->fds[i];

                if (fd == -1)
                        continue;

                msg->fds[i] = -1;
                close(fd);
        }
}

/*
 * Ensure the expected number of FDs is received,
 * close all FDs and return an error if this is not the case.
 */
static int
validate_msg_fds(struct VhostUserMsg *msg, int expected_fds)
{
        if (msg->fd_num == expected_fds)
                return 0;

        VHOST_LOG_CONFIG(ERR,
                " Expect %d FDs for request %s, received %d\n",
                expected_fds,
                vhost_message_str[msg->request.master],
                msg->fd_num);

        close_msg_fds(msg);

        return -1;
}

static uint64_t
get_blk_size(int fd)
{
        struct stat stat;
        int ret;

        ret = fstat(fd, &stat);
        return ret == -1 ? (uint64_t)-1 : (uint64_t)stat.st_blksize;
}

static void
free_mem_region(struct virtio_net *dev)
{
        uint32_t i;
        struct rte_vhost_mem_region *reg;

        if (!dev || !dev->mem)
                return;

        for (i = 0; i < dev->mem->nregions; i++) {
                reg = &dev->mem->regions[i];
                if (reg->host_user_addr) {
                        munmap(reg->mmap_addr, reg->mmap_size);
                        close(reg->fd);
                }
        }
}

void
vhost_backend_cleanup(struct virtio_net *dev)
{
        if (dev->mem) {
                free_mem_region(dev);
                rte_free(dev->mem);
                dev->mem = NULL;
        }

        rte_free(dev->guest_pages);
        dev->guest_pages = NULL;

        if (dev->log_addr) {
                munmap((void *)(uintptr_t)dev->log_addr, dev->log_size);
                dev->log_addr = 0;
        }

        if (dev->inflight_info) {
                if (dev->inflight_info->addr) {
                        munmap(dev->inflight_info->addr,
                               dev->inflight_info->size);
                        dev->inflight_info->addr = NULL;
                }

                if (dev->inflight_info->fd >= 0) {
                        close(dev->inflight_info->fd);
                        dev->inflight_info->fd = -1;
                }

                rte_free(dev->inflight_info);
                dev->inflight_info = NULL;
        }

        if (dev->slave_req_fd >= 0) {
                close(dev->slave_req_fd);
                dev->slave_req_fd = -1;
        }

        if (dev->postcopy_ufd >= 0) {
                close(dev->postcopy_ufd);
                dev->postcopy_ufd = -1;
        }

        dev->postcopy_listening = 0;
}

static void
vhost_user_notify_queue_state(struct virtio_net *dev, uint16_t index,
                              int enable)
{
        struct rte_vdpa_device *vdpa_dev = dev->vdpa_dev;
        struct vhost_virtqueue *vq = dev->virtqueue[index];

        /* Configure guest notifications on enable */
        if (enable && vq->notif_enable != VIRTIO_UNINITIALIZED_NOTIF)
                vhost_enable_guest_notification(dev, vq, vq->notif_enable);

        if (vdpa_dev && vdpa_dev->ops->set_vring_state)
                vdpa_dev->ops->set_vring_state(dev->vid, index, enable);

        if (dev->notify_ops->vring_state_changed)
                dev->notify_ops->vring_state_changed(dev->vid,
                                index, enable);
}

/*
 * This function just returns success at the moment unless
 * the device hasn't been initialised.
 */
static int
vhost_user_set_owner(struct virtio_net **pdev __rte_unused,
                        struct VhostUserMsg *msg,
                        int main_fd __rte_unused)
{
        if (validate_msg_fds(msg, 0) != 0)
                return RTE_VHOST_MSG_RESULT_ERR;

        return RTE_VHOST_MSG_RESULT_OK;
}

static int
vhost_user_reset_owner(struct virtio_net **pdev,
                        struct VhostUserMsg *msg,
                        int main_fd __rte_unused)
{
        struct virtio_net *dev = *pdev;

        if (validate_msg_fds(msg, 0) != 0)
                return RTE_VHOST_MSG_RESULT_ERR;

        vhost_destroy_device_notify(dev);

        cleanup_device(dev, 0);
        reset_device(dev);
        return RTE_VHOST_MSG_RESULT_OK;
}

/*
 * The features that we support are requested.
 */
static int
vhost_user_get_features(struct virtio_net **pdev, struct VhostUserMsg *msg,
                        int main_fd __rte_unused)
{
        struct virtio_net *dev = *pdev;
        uint64_t features = 0;

        if (validate_msg_fds(msg, 0) != 0)
                return RTE_VHOST_MSG_RESULT_ERR;

        rte_vhost_driver_get_features(dev->ifname, &features);

        msg->payload.u64 = features;
        msg->size = sizeof(msg->payload.u64);
        msg->fd_num = 0;

        return RTE_VHOST_MSG_RESULT_REPLY;
}

/*
 * The queue number that we support are requested.
 */
static int
vhost_user_get_queue_num(struct virtio_net **pdev, struct VhostUserMsg *msg,
                        int main_fd __rte_unused)
{
        struct virtio_net *dev = *pdev;
        uint32_t queue_num = 0;

        if (validate_msg_fds(msg, 0) != 0)
                return RTE_VHOST_MSG_RESULT_ERR;

        rte_vhost_driver_get_queue_num(dev->ifname, &queue_num);

        msg->payload.u64 = (uint64_t)queue_num;
        msg->size = sizeof(msg->payload.u64);
        msg->fd_num = 0;

        return RTE_VHOST_MSG_RESULT_REPLY;
}

/*
 * We receive the negotiated features supported by us and the virtio device.
 */
static int
vhost_user_set_features(struct virtio_net **pdev, struct VhostUserMsg *msg,
                        int main_fd __rte_unused)
{
        struct virtio_net *dev = *pdev;
        uint64_t features = msg->payload.u64;
        uint64_t vhost_features = 0;
        struct rte_vdpa_device *vdpa_dev;

        if (validate_msg_fds(msg, 0) != 0)
                return RTE_VHOST_MSG_RESULT_ERR;

        rte_vhost_driver_get_features(dev->ifname, &vhost_features);
        if (features & ~vhost_features) {
                VHOST_LOG_CONFIG(ERR,
                        "(%d) received invalid negotiated features.\n",
                        dev->vid);
                dev->flags |= VIRTIO_DEV_FEATURES_FAILED;
                dev->status &= ~VIRTIO_DEVICE_STATUS_FEATURES_OK;

                return RTE_VHOST_MSG_RESULT_ERR;
        }

        if (dev->flags & VIRTIO_DEV_RUNNING) {
                if (dev->features == features)
                        return RTE_VHOST_MSG_RESULT_OK;

                /*
                 * Error out if master tries to change features while device is
                 * in running state. The exception being VHOST_F_LOG_ALL, which
                 * is enabled when the live-migration starts.
                 */
                if ((dev->features ^ features) & ~(1ULL << VHOST_F_LOG_ALL)) {
                        VHOST_LOG_CONFIG(ERR,
                                "(%d) features changed while device is running.\n",
                                dev->vid);
                        return RTE_VHOST_MSG_RESULT_ERR;
                }

                if (dev->notify_ops->features_changed)
                        dev->notify_ops->features_changed(dev->vid, features);
        }

        dev->features = features;
        if (dev->features &
                ((1ULL << VIRTIO_NET_F_MRG_RXBUF) |
                 (1ULL << VIRTIO_F_VERSION_1) |
                 (1ULL << VIRTIO_F_RING_PACKED))) {
                dev->vhost_hlen = sizeof(struct virtio_net_hdr_mrg_rxbuf);
        } else {
                dev->vhost_hlen = sizeof(struct virtio_net_hdr);
        }
        VHOST_LOG_CONFIG(INFO,
                "negotiated Virtio features: 0x%" PRIx64 "\n", dev->features);
        VHOST_LOG_CONFIG(DEBUG,
                "(%d) mergeable RX buffers %s, virtio 1 %s\n",
                dev->vid,
                (dev->features & (1 << VIRTIO_NET_F_MRG_RXBUF)) ? "on" : "off",
                (dev->features & (1ULL << VIRTIO_F_VERSION_1)) ? "on" : "off");

        if ((dev->flags & VIRTIO_DEV_BUILTIN_VIRTIO_NET) &&
            !(dev->features & (1ULL << VIRTIO_NET_F_MQ))) {
                /*
                 * Remove all but first queue pair if MQ hasn't been
                 * negotiated. This is safe because the device is not
                 * running at this stage.
                 */
                while (dev->nr_vring > 2) {
                        struct vhost_virtqueue *vq;

                        vq = dev->virtqueue[--dev->nr_vring];
                        if (!vq)
                                continue;

                        dev->virtqueue[dev->nr_vring] = NULL;
                        cleanup_vq(vq, 1);
                        cleanup_vq_inflight(dev, vq);
                        free_vq(dev, vq);
                }
        }

        vdpa_dev = dev->vdpa_dev;
        if (vdpa_dev)
                vdpa_dev->ops->set_features(dev->vid);

        dev->flags &= ~VIRTIO_DEV_FEATURES_FAILED;
        return RTE_VHOST_MSG_RESULT_OK;
}

/*
 * The virtio device sends us the size of the descriptor ring.
 */
static int
vhost_user_set_vring_num(struct virtio_net **pdev,
                        struct VhostUserMsg *msg,
                        int main_fd __rte_unused)
{
        struct virtio_net *dev = *pdev;
        struct vhost_virtqueue *vq = dev->virtqueue[msg->payload.state.index];

        if (validate_msg_fds(msg, 0) != 0)
                return RTE_VHOST_MSG_RESULT_ERR;

        if (msg->payload.state.num > 32768) {
                VHOST_LOG_CONFIG(ERR, "invalid virtqueue size %u\n", msg->payload.state.num);
                return RTE_VHOST_MSG_RESULT_ERR;
        }

        vq->size = msg->payload.state.num;

        /* VIRTIO 1.0, 2.4 Virtqueues says:
         *
         *   Queue Size value is always a power of 2. The maximum Queue Size
         *   value is 32768.
         *
         * VIRTIO 1.1 2.7 Virtqueues says:
         *
         *   Packed virtqueues support up to 2^15 entries each.
         */
        if (!vq_is_packed(dev)) {
                if (vq->size & (vq->size - 1)) {
                        VHOST_LOG_CONFIG(ERR,
                                "invalid virtqueue size %u\n", vq->size);
                        return RTE_VHOST_MSG_RESULT_ERR;
                }
        }

        if (vq_is_packed(dev)) {
                if (vq->shadow_used_packed)
                        rte_free(vq->shadow_used_packed);
                vq->shadow_used_packed = rte_malloc_socket(NULL,
                                vq->size *
                                sizeof(struct vring_used_elem_packed),
                                RTE_CACHE_LINE_SIZE, vq->numa_node);
                if (!vq->shadow_used_packed) {
                        VHOST_LOG_CONFIG(ERR,
                                        "failed to allocate memory for shadow used ring.\n");
                        return RTE_VHOST_MSG_RESULT_ERR;
                }

        } else {
                if (vq->shadow_used_split)
                        rte_free(vq->shadow_used_split);

                vq->shadow_used_split = rte_malloc_socket(NULL,
                                vq->size * sizeof(struct vring_used_elem),
                                RTE_CACHE_LINE_SIZE, vq->numa_node);

                if (!vq->shadow_used_split) {
                        VHOST_LOG_CONFIG(ERR,
                                        "failed to allocate memory for vq internal data.\n");
                        return RTE_VHOST_MSG_RESULT_ERR;
                }
        }

        if (vq->batch_copy_elems)
                rte_free(vq->batch_copy_elems);
        vq->batch_copy_elems = rte_malloc_socket(NULL,
                                vq->size * sizeof(struct batch_copy_elem),
                                RTE_CACHE_LINE_SIZE, vq->numa_node);
        if (!vq->batch_copy_elems) {
                VHOST_LOG_CONFIG(ERR,
                        "failed to allocate memory for batching copy.\n");
                return RTE_VHOST_MSG_RESULT_ERR;
        }

        return RTE_VHOST_MSG_RESULT_OK;
}

/*
 * Reallocate virtio_dev, vhost_virtqueue and related data structures to
 * make them on the same numa node as the memory of vring descriptor.
 */
#ifdef RTE_LIBRTE_VHOST_NUMA
static struct virtio_net*
numa_realloc(struct virtio_net *dev, int index)
{
        int node, dev_node;
        struct virtio_net *old_dev;
        struct vhost_virtqueue *vq;
        struct batch_copy_elem *bce;
        struct guest_page *gp;
        struct rte_vhost_memory *mem;
        size_t mem_size;
        int ret;

        old_dev = dev;
        vq = dev->virtqueue[index];

        /*
         * If VQ is ready, it is too late to reallocate, it certainly already
         * happened anyway on VHOST_USER_SET_VRING_ADRR.
         */
        if (vq->ready)
                return dev;

        ret = get_mempolicy(&node, NULL, 0, vq->desc, MPOL_F_NODE | MPOL_F_ADDR);
        if (ret) {
                VHOST_LOG_CONFIG(ERR, "Unable to get virtqueue %d numa information.\n", index);
                return dev;
        }

        if (node == vq->numa_node)
                goto out_dev_realloc;

        vq = rte_realloc_socket(vq, sizeof(*vq), 0, node);
        if (!vq) {
                VHOST_LOG_CONFIG(ERR, "Failed to realloc virtqueue %d on node %d\n",
                                index, node);
                return dev;
        }

        if (vq != dev->virtqueue[index]) {
                VHOST_LOG_CONFIG(INFO, "reallocated virtqueue on node %d\n", node);
                dev->virtqueue[index] = vq;
                vhost_user_iotlb_init(dev, index);
        }

        if (vq_is_packed(dev)) {
                struct vring_used_elem_packed *sup;

                sup = rte_realloc_socket(vq->shadow_used_packed, vq->size * sizeof(*sup),
                                RTE_CACHE_LINE_SIZE, node);
                if (!sup) {
                        VHOST_LOG_CONFIG(ERR, "Failed to realloc shadow packed on node %d\n", node);
                        return dev;
                }
                vq->shadow_used_packed = sup;
        } else {
                struct vring_used_elem *sus;

                sus = rte_realloc_socket(vq->shadow_used_split, vq->size * sizeof(*sus),
                                RTE_CACHE_LINE_SIZE, node);
                if (!sus) {
                        VHOST_LOG_CONFIG(ERR, "Failed to realloc shadow split on node %d\n", node);
                        return dev;
                }
                vq->shadow_used_split = sus;
        }

        bce = rte_realloc_socket(vq->batch_copy_elems, vq->size * sizeof(*bce),
                        RTE_CACHE_LINE_SIZE, node);
        if (!bce) {
                VHOST_LOG_CONFIG(ERR, "Failed to realloc batch copy elem on node %d\n", node);
                return dev;
        }
        vq->batch_copy_elems = bce;

        if (vq->log_cache) {
                struct log_cache_entry *lc;

                lc = rte_realloc_socket(vq->log_cache, sizeof(*lc) * VHOST_LOG_CACHE_NR, 0, node);
                if (!lc) {
                        VHOST_LOG_CONFIG(ERR, "Failed to realloc log cache on node %d\n", node);
                        return dev;
                }
                vq->log_cache = lc;
        }

        if (vq->resubmit_inflight) {
                struct rte_vhost_resubmit_info *ri;

                ri = rte_realloc_socket(vq->resubmit_inflight, sizeof(*ri), 0, node);
                if (!ri) {
                        VHOST_LOG_CONFIG(ERR, "Failed to realloc resubmit inflight on node %d\n",
                                        node);
                        return dev;
                }
                vq->resubmit_inflight = ri;

                if (ri->resubmit_list) {
                        struct rte_vhost_resubmit_desc *rd;

                        rd = rte_realloc_socket(ri->resubmit_list, sizeof(*rd) * ri->resubmit_num,
                                        0, node);
                        if (!rd) {
                                VHOST_LOG_CONFIG(ERR, "Failed to realloc resubmit list on node %d\n",
                                                node);
                                return dev;
                        }
                        ri->resubmit_list = rd;
                }
        }

        vq->numa_node = node;

out_dev_realloc:

        if (dev->flags & VIRTIO_DEV_RUNNING)
                return dev;

        ret = get_mempolicy(&dev_node, NULL, 0, dev, MPOL_F_NODE | MPOL_F_ADDR);
        if (ret) {
                VHOST_LOG_CONFIG(ERR, "Unable to get Virtio dev %d numa information.\n", dev->vid);
                return dev;
        }

        if (dev_node == node)
                return dev;

        dev = rte_realloc_socket(old_dev, sizeof(*dev), 0, node);
        if (!dev) {
                VHOST_LOG_CONFIG(ERR, "Failed to realloc dev on node %d\n", node);
                return old_dev;
        }

        VHOST_LOG_CONFIG(INFO, "reallocated device on node %d\n", node);
        vhost_devices[dev->vid] = dev;

        mem_size = sizeof(struct rte_vhost_memory) +
                sizeof(struct rte_vhost_mem_region) * dev->mem->nregions;
        mem = rte_realloc_socket(dev->mem, mem_size, 0, node);
        if (!mem) {
                VHOST_LOG_CONFIG(ERR, "Failed to realloc mem table on node %d\n", node);
                return dev;
        }
        dev->mem = mem;

        gp = rte_realloc_socket(dev->guest_pages, dev->max_guest_pages * sizeof(*gp),
                        RTE_CACHE_LINE_SIZE, node);
        if (!gp) {
                VHOST_LOG_CONFIG(ERR, "Failed to realloc guest pages on node %d\n", node);
                return dev;
        }
        dev->guest_pages = gp;

        return dev;
}
#else
static struct virtio_net*
numa_realloc(struct virtio_net *dev, int index __rte_unused)
{
        return dev;
}
#endif

/* Converts QEMU virtual address to Vhost virtual address. */
static uint64_t
qva_to_vva(struct virtio_net *dev, uint64_t qva, uint64_t *len)
{
        struct rte_vhost_mem_region *r;
        uint32_t i;

        if (unlikely(!dev || !dev->mem))
                goto out_error;

        /* Find the region where the address lives. */
        for (i = 0; i < dev->mem->nregions; i++) {
                r = &dev->mem->regions[i];

                if (qva >= r->guest_user_addr &&
                    qva <  r->guest_user_addr + r->size) {

                        if (unlikely(*len > r->guest_user_addr + r->size - qva))
                                *len = r->guest_user_addr + r->size - qva;

                        return qva - r->guest_user_addr +
                               r->host_user_addr;
                }
        }
out_error:
        *len = 0;

        return 0;
}


/*
 * Converts ring address to Vhost virtual address.
 * If IOMMU is enabled, the ring address is a guest IO virtual address,
 * else it is a QEMU virtual address.
 */
static uint64_t
ring_addr_to_vva(struct virtio_net *dev, struct vhost_virtqueue *vq,
                uint64_t ra, uint64_t *size)
{
        if (dev->features & (1ULL << VIRTIO_F_IOMMU_PLATFORM)) {
                uint64_t vva;

                vhost_user_iotlb_rd_lock(vq);
                vva = vhost_iova_to_vva(dev, vq, ra,
                                        size, VHOST_ACCESS_RW);
                vhost_user_iotlb_rd_unlock(vq);

                return vva;
        }

        return qva_to_vva(dev, ra, size);
}

static uint64_t
log_addr_to_gpa(struct virtio_net *dev, struct vhost_virtqueue *vq)
{
        uint64_t log_gpa;

        vhost_user_iotlb_rd_lock(vq);
        log_gpa = translate_log_addr(dev, vq, vq->ring_addrs.log_guest_addr);
        vhost_user_iotlb_rd_unlock(vq);

        return log_gpa;
}

static struct virtio_net *
translate_ring_addresses(struct virtio_net *dev, int vq_index)
{
        struct vhost_virtqueue *vq = dev->virtqueue[vq_index];
        struct vhost_vring_addr *addr = &vq->ring_addrs;
        uint64_t len, expected_len;

        if (addr->flags & (1 << VHOST_VRING_F_LOG)) {
                vq->log_guest_addr =
                        log_addr_to_gpa(dev, vq);
                if (vq->log_guest_addr == 0) {
                        VHOST_LOG_CONFIG(DEBUG,
                                "(%d) failed to map log_guest_addr.\n",
                                dev->vid);
                        return dev;
                }
        }

        if (vq_is_packed(dev)) {
                len = sizeof(struct vring_packed_desc) * vq->size;
                vq->desc_packed = (struct vring_packed_desc *)(uintptr_t)
                        ring_addr_to_vva(dev, vq, addr->desc_user_addr, &len);
                if (vq->desc_packed == NULL ||
                                len != sizeof(struct vring_packed_desc) *
                                vq->size) {
                        VHOST_LOG_CONFIG(DEBUG,
                                "(%d) failed to map desc_packed ring.\n",
                                dev->vid);
                        return dev;
                }

                dev = numa_realloc(dev, vq_index);
                vq = dev->virtqueue[vq_index];
                addr = &vq->ring_addrs;

                len = sizeof(struct vring_packed_desc_event);
                vq->driver_event = (struct vring_packed_desc_event *)
                                        (uintptr_t)ring_addr_to_vva(dev,
                                        vq, addr->avail_user_addr, &len);
                if (vq->driver_event == NULL ||
                                len != sizeof(struct vring_packed_desc_event)) {
                        VHOST_LOG_CONFIG(DEBUG,
                                "(%d) failed to find driver area address.\n",
                                dev->vid);
                        return dev;
                }

                len = sizeof(struct vring_packed_desc_event);
                vq->device_event = (struct vring_packed_desc_event *)
                                        (uintptr_t)ring_addr_to_vva(dev,
                                        vq, addr->used_user_addr, &len);
                if (vq->device_event == NULL ||
                                len != sizeof(struct vring_packed_desc_event)) {
                        VHOST_LOG_CONFIG(DEBUG,
                                "(%d) failed to find device area address.\n",
                                dev->vid);
                        return dev;
                }

                vq->access_ok = true;
                return dev;
        }

        /* The addresses are converted from QEMU virtual to Vhost virtual. */
        if (vq->desc && vq->avail && vq->used)
                return dev;

        len = sizeof(struct vring_desc) * vq->size;
        vq->desc = (struct vring_desc *)(uintptr_t)ring_addr_to_vva(dev,
                        vq, addr->desc_user_addr, &len);
        if (vq->desc == 0 || len != sizeof(struct vring_desc) * vq->size) {
                VHOST_LOG_CONFIG(DEBUG,
                        "(%d) failed to map desc ring.\n",
                        dev->vid);
                return dev;
        }

        dev = numa_realloc(dev, vq_index);
        vq = dev->virtqueue[vq_index];
        addr = &vq->ring_addrs;

        len = sizeof(struct vring_avail) + sizeof(uint16_t) * vq->size;
        if (dev->features & (1ULL << VIRTIO_RING_F_EVENT_IDX))
                len += sizeof(uint16_t);
        expected_len = len;
        vq->avail = (struct vring_avail *)(uintptr_t)ring_addr_to_vva(dev,
                        vq, addr->avail_user_addr, &len);
        if (vq->avail == 0 || len != expected_len) {
                VHOST_LOG_CONFIG(DEBUG,
                        "(%d) failed to map avail ring.\n",
                        dev->vid);
                return dev;
        }

        len = sizeof(struct vring_used) +
                sizeof(struct vring_used_elem) * vq->size;
        if (dev->features & (1ULL << VIRTIO_RING_F_EVENT_IDX))
                len += sizeof(uint16_t);
        expected_len = len;
        vq->used = (struct vring_used *)(uintptr_t)ring_addr_to_vva(dev,
                        vq, addr->used_user_addr, &len);
        if (vq->used == 0 || len != expected_len) {
                VHOST_LOG_CONFIG(DEBUG,
                        "(%d) failed to map used ring.\n",
                        dev->vid);
                return dev;
        }

        if (vq->last_used_idx != vq->used->idx) {
                VHOST_LOG_CONFIG(WARNING,
                        "last_used_idx (%u) and vq->used->idx (%u) mismatches; "
                        "some packets maybe resent for Tx and dropped for Rx\n",
                        vq->last_used_idx, vq->used->idx);
                vq->last_used_idx  = vq->used->idx;
                vq->last_avail_idx = vq->used->idx;
        }

        vq->access_ok = true;

        VHOST_LOG_CONFIG(DEBUG, "(%d) mapped address desc: %p\n",
                        dev->vid, vq->desc);
        VHOST_LOG_CONFIG(DEBUG, "(%d) mapped address avail: %p\n",
                        dev->vid, vq->avail);
        VHOST_LOG_CONFIG(DEBUG, "(%d) mapped address used: %p\n",
                        dev->vid, vq->used);
        VHOST_LOG_CONFIG(DEBUG, "(%d) log_guest_addr: %" PRIx64 "\n",
                        dev->vid, vq->log_guest_addr);

        return dev;
}

/*
 * The virtio device sends us the desc, used and avail ring addresses.
 * This function then converts these to our address space.
 */
static int
vhost_user_set_vring_addr(struct virtio_net **pdev, struct VhostUserMsg *msg,
                        int main_fd __rte_unused)
{
        struct virtio_net *dev = *pdev;
        struct vhost_virtqueue *vq;
        struct vhost_vring_addr *addr = &msg->payload.addr;
        bool access_ok;

        if (validate_msg_fds(msg, 0) != 0)
                return RTE_VHOST_MSG_RESULT_ERR;

        if (dev->mem == NULL)
                return RTE_VHOST_MSG_RESULT_ERR;

        /* addr->index refers to the queue index. The txq 1, rxq is 0. */
        vq = dev->virtqueue[msg->payload.addr.index];

        access_ok = vq->access_ok;

        /*
         * Rings addresses should not be interpreted as long as the ring is not
         * started and enabled
         */
        memcpy(&vq->ring_addrs, addr, sizeof(*addr));

        vring_invalidate(dev, vq);

        if ((vq->enabled && (dev->features &
                                (1ULL << VHOST_USER_F_PROTOCOL_FEATURES))) ||
                        access_ok) {
                dev = translate_ring_addresses(dev, msg->payload.addr.index);
                if (!dev)
                        return RTE_VHOST_MSG_RESULT_ERR;

                *pdev = dev;
        }

        return RTE_VHOST_MSG_RESULT_OK;
}

/*
 * The virtio device sends us the available ring last used index.
 */
static int
vhost_user_set_vring_base(struct virtio_net **pdev,
                        struct VhostUserMsg *msg,
                        int main_fd __rte_unused)
{
        struct virtio_net *dev = *pdev;
        struct vhost_virtqueue *vq = dev->virtqueue[msg->payload.state.index];
        uint64_t val = msg->payload.state.num;

        if (validate_msg_fds(msg, 0) != 0)
                return RTE_VHOST_MSG_RESULT_ERR;

        if (vq_is_packed(dev)) {
                /*
                 * Bit[0:14]: avail index
                 * Bit[15]: avail wrap counter
                 */
                vq->last_avail_idx = val & 0x7fff;
                vq->avail_wrap_counter = !!(val & (0x1 << 15));
                /*
                 * Set used index to same value as available one, as
                 * their values should be the same since ring processing
                 * was stopped at get time.
                 */
                vq->last_used_idx = vq->last_avail_idx;
                vq->used_wrap_counter = vq->avail_wrap_counter;
        } else {
                vq->last_used_idx = msg->payload.state.num;
                vq->last_avail_idx = msg->payload.state.num;
        }

        return RTE_VHOST_MSG_RESULT_OK;
}

static int
add_one_guest_page(struct virtio_net *dev, uint64_t guest_phys_addr,
                   uint64_t host_phys_addr, uint64_t size)
{
        struct guest_page *page, *last_page;
        struct guest_page *old_pages;

        if (dev->nr_guest_pages == dev->max_guest_pages) {
                dev->max_guest_pages *= 2;
                old_pages = dev->guest_pages;
                dev->guest_pages = rte_realloc(dev->guest_pages,
                                        dev->max_guest_pages * sizeof(*page),
                                        RTE_CACHE_LINE_SIZE);
                if (dev->guest_pages == NULL) {
                        VHOST_LOG_CONFIG(ERR, "cannot realloc guest_pages\n");
                        rte_free(old_pages);
                        return -1;
                }
        }

        if (dev->nr_guest_pages > 0) {
                last_page = &dev->guest_pages[dev->nr_guest_pages - 1];
                /* merge if the two pages are continuous */
                if (host_phys_addr == last_page->host_phys_addr +
                                      last_page->size) {
                        last_page->size += size;
                        return 0;
                }
        }

        page = &dev->guest_pages[dev->nr_guest_pages++];
        page->guest_phys_addr = guest_phys_addr;
        page->host_phys_addr  = host_phys_addr;
        page->size = size;

        return 0;
}

static int
add_guest_pages(struct virtio_net *dev, struct rte_vhost_mem_region *reg,
                uint64_t page_size)
{
        uint64_t reg_size = reg->size;
        uint64_t host_user_addr  = reg->host_user_addr;
        uint64_t guest_phys_addr = reg->guest_phys_addr;
        uint64_t host_phys_addr;
        uint64_t size;

        host_phys_addr = rte_mem_virt2iova((void *)(uintptr_t)host_user_addr);
        size = page_size - (guest_phys_addr & (page_size - 1));
        size = RTE_MIN(size, reg_size);

        if (add_one_guest_page(dev, guest_phys_addr, host_phys_addr, size) < 0)
                return -1;

        host_user_addr  += size;
        guest_phys_addr += size;
        reg_size -= size;

        while (reg_size > 0) {
                size = RTE_MIN(reg_size, page_size);
                host_phys_addr = rte_mem_virt2iova((void *)(uintptr_t)
                                                  host_user_addr);
                if (add_one_guest_page(dev, guest_phys_addr, host_phys_addr,
                                size) < 0)
                        return -1;

                host_user_addr  += size;
                guest_phys_addr += size;
                reg_size -= size;
        }

        /* sort guest page array if over binary search threshold */
        if (dev->nr_guest_pages >= VHOST_BINARY_SEARCH_THRESH) {
                qsort((void *)dev->guest_pages, dev->nr_guest_pages,
                        sizeof(struct guest_page), guest_page_addrcmp);
        }

        return 0;
}

#ifdef RTE_LIBRTE_VHOST_DEBUG
/* TODO: enable it only in debug mode? */
static void
dump_guest_pages(struct virtio_net *dev)
{
        uint32_t i;
        struct guest_page *page;

        for (i = 0; i < dev->nr_guest_pages; i++) {
                page = &dev->guest_pages[i];

                VHOST_LOG_CONFIG(INFO,
                        "guest physical page region %u\n"
                        "\t guest_phys_addr: %" PRIx64 "\n"
                        "\t host_phys_addr : %" PRIx64 "\n"
                        "\t size           : %" PRIx64 "\n",
                        i,
                        page->guest_phys_addr,
                        page->host_phys_addr,
                        page->size);
        }
}
#else
#define dump_guest_pages(dev)
#endif

static bool
vhost_memory_changed(struct VhostUserMemory *new,
                     struct rte_vhost_memory *old)
{
        uint32_t i;

        if (new->nregions != old->nregions)
                return true;

        for (i = 0; i < new->nregions; ++i) {
                VhostUserMemoryRegion *new_r = &new->regions[i];
                struct rte_vhost_mem_region *old_r = &old->regions[i];

                if (new_r->guest_phys_addr != old_r->guest_phys_addr)
                        return true;
                if (new_r->memory_size != old_r->size)
                        return true;
                if (new_r->userspace_addr != old_r->guest_user_addr)
                        return true;
        }

        return false;
}

#ifdef RTE_LIBRTE_VHOST_POSTCOPY
static int
vhost_user_postcopy_region_register(struct virtio_net *dev,
                struct rte_vhost_mem_region *reg)
{
        struct uffdio_register reg_struct;

        /*
         * Let's register all the mmap'ed area to ensure
         * alignment on page boundary.
         */
        reg_struct.range.start = (uint64_t)(uintptr_t)reg->mmap_addr;
        reg_struct.range.len = reg->mmap_size;
        reg_struct.mode = UFFDIO_REGISTER_MODE_MISSING;

        if (ioctl(dev->postcopy_ufd, UFFDIO_REGISTER,
                                &reg_struct)) {
                VHOST_LOG_CONFIG(ERR, "Failed to register ufd for region "
                                "%" PRIx64 " - %" PRIx64 " (ufd = %d) %s\n",
                                (uint64_t)reg_struct.range.start,
                                (uint64_t)reg_struct.range.start +
                                (uint64_t)reg_struct.range.len - 1,
                                dev->postcopy_ufd,
                                strerror(errno));
                return -1;
        }

        VHOST_LOG_CONFIG(INFO, "\t userfaultfd registered for range : %" PRIx64 " - %" PRIx64 "\n",
                        (uint64_t)reg_struct.range.start,
                        (uint64_t)reg_struct.range.start +
                        (uint64_t)reg_struct.range.len - 1);

        return 0;
}
#else
static int
vhost_user_postcopy_region_register(struct virtio_net *dev __rte_unused,
                struct rte_vhost_mem_region *reg __rte_unused)
{
        return -1;
}
#endif

static int
vhost_user_postcopy_register(struct virtio_net *dev, int main_fd,
                struct VhostUserMsg *msg)
{
        struct VhostUserMemory *memory;
        struct rte_vhost_mem_region *reg;
        VhostUserMsg ack_msg;
        uint32_t i;

        if (!dev->postcopy_listening)
                return 0;

        /*
         * We haven't a better way right now than sharing
         * DPDK's virtual address with Qemu, so that Qemu can
         * retrieve the region offset when handling userfaults.
         */
        memory = &msg->payload.memory;
        for (i = 0; i < memory->nregions; i++) {
                reg = &dev->mem->regions[i];
                memory->regions[i].userspace_addr = reg->host_user_addr;
        }

        /* Send the addresses back to qemu */
        msg->fd_num = 0;
        send_vhost_reply(main_fd, msg);

        /* Wait for qemu to acknolwedge it's got the addresses
         * we've got to wait before we're allowed to generate faults.
         */
        if (read_vhost_message(main_fd, &ack_msg) <= 0) {
                VHOST_LOG_CONFIG(ERR,
                                "Failed to read qemu ack on postcopy set-mem-table\n");
                return -1;
        }

        if (validate_msg_fds(&ack_msg, 0) != 0)
                return -1;

        if (ack_msg.request.master != VHOST_USER_SET_MEM_TABLE) {
                VHOST_LOG_CONFIG(ERR,
                                "Bad qemu ack on postcopy set-mem-table (%d)\n",
                                ack_msg.request.master);
                return -1;
        }

        /* Now userfault register and we can use the memory */
        for (i = 0; i < memory->nregions; i++) {
                reg = &dev->mem->regions[i];
                if (vhost_user_postcopy_region_register(dev, reg) < 0)
                        return -1;
        }

        return 0;
}

static int
vhost_user_mmap_region(struct virtio_net *dev,
                struct rte_vhost_mem_region *region,
                uint64_t mmap_offset)
{
        void *mmap_addr;
        uint64_t mmap_size;
        uint64_t alignment;
        int populate;

        /* Check for memory_size + mmap_offset overflow */
        if (mmap_offset >= -region->size) {
                VHOST_LOG_CONFIG(ERR,
                                "mmap_offset (%#"PRIx64") and memory_size "
                                "(%#"PRIx64") overflow\n",
                                mmap_offset, region->size);
                return -1;
        }

        mmap_size = region->size + mmap_offset;

        /* mmap() without flag of MAP_ANONYMOUS, should be called with length
         * argument aligned with hugepagesz at older longterm version Linux,
         * like 2.6.32 and 3.2.72, or mmap() will fail with EINVAL.
         *
         * To avoid failure, make sure in caller to keep length aligned.
         */
        alignment = get_blk_size(region->fd);
        if (alignment == (uint64_t)-1) {
                VHOST_LOG_CONFIG(ERR,
                                "couldn't get hugepage size through fstat\n");
                return -1;
        }
        mmap_size = RTE_ALIGN_CEIL(mmap_size, alignment);
        if (mmap_size == 0) {
                /*
                 * It could happen if initial mmap_size + alignment overflows
                 * the sizeof uint64, which could happen if either mmap_size or
                 * alignment value is wrong.
                 *
                 * mmap() kernel implementation would return an error, but
                 * better catch it before and provide useful info in the logs.
                 */
                VHOST_LOG_CONFIG(ERR, "mmap size (0x%" PRIx64 ") "
                                "or alignment (0x%" PRIx64 ") is invalid\n",
                                region->size + mmap_offset, alignment);
                return -1;
        }

        populate = dev->async_copy ? MAP_POPULATE : 0;
        mmap_addr = mmap(NULL, mmap_size, PROT_READ | PROT_WRITE,
                        MAP_SHARED | populate, region->fd, 0);

        if (mmap_addr == MAP_FAILED) {
                VHOST_LOG_CONFIG(ERR, "mmap failed (%s).\n", strerror(errno));
                return -1;
        }

        region->mmap_addr = mmap_addr;
        region->mmap_size = mmap_size;
        region->host_user_addr = (uint64_t)(uintptr_t)mmap_addr + mmap_offset;

        if (dev->async_copy)
                if (add_guest_pages(dev, region, alignment) < 0) {
                        VHOST_LOG_CONFIG(ERR,
                                        "adding guest pages to region failed.\n");
                        return -1;
                }

        VHOST_LOG_CONFIG(INFO,
                        "guest memory region size: 0x%" PRIx64 "\n"
                        "\t guest physical addr: 0x%" PRIx64 "\n"
                        "\t guest virtual  addr: 0x%" PRIx64 "\n"
                        "\t host  virtual  addr: 0x%" PRIx64 "\n"
                        "\t mmap addr : 0x%" PRIx64 "\n"
                        "\t mmap size : 0x%" PRIx64 "\n"
                        "\t mmap align: 0x%" PRIx64 "\n"
                        "\t mmap off  : 0x%" PRIx64 "\n",
                        region->size,
                        region->guest_phys_addr,
                        region->guest_user_addr,
                        region->host_user_addr,
                        (uint64_t)(uintptr_t)mmap_addr,
                        mmap_size,
                        alignment,
                        mmap_offset);

        return 0;
}

static int
vhost_user_set_mem_table(struct virtio_net **pdev, struct VhostUserMsg *msg,
                        int main_fd)
{
        struct virtio_net *dev = *pdev;
        struct VhostUserMemory *memory = &msg->payload.memory;
        struct rte_vhost_mem_region *reg;
        int numa_node = SOCKET_ID_ANY;
        uint64_t mmap_offset;
        uint32_t i;

        if (validate_msg_fds(msg, memory->nregions) != 0)
                return RTE_VHOST_MSG_RESULT_ERR;

        if (memory->nregions > VHOST_MEMORY_MAX_NREGIONS) {
                VHOST_LOG_CONFIG(ERR,
                        "too many memory regions (%u)\n", memory->nregions);
                goto close_msg_fds;
        }

        if (dev->mem && !vhost_memory_changed(memory, dev->mem)) {
                VHOST_LOG_CONFIG(INFO,
                        "(%d) memory regions not changed\n", dev->vid);

                close_msg_fds(msg);

                return RTE_VHOST_MSG_RESULT_OK;
        }

        if (dev->mem) {
                if (dev->flags & VIRTIO_DEV_VDPA_CONFIGURED) {
                        struct rte_vdpa_device *vdpa_dev = dev->vdpa_dev;

                        if (vdpa_dev && vdpa_dev->ops->dev_close)
                                vdpa_dev->ops->dev_close(dev->vid);
                        dev->flags &= ~VIRTIO_DEV_VDPA_CONFIGURED;
                }
                free_mem_region(dev);
                rte_free(dev->mem);
                dev->mem = NULL;
        }

        /* Flush IOTLB cache as previous HVAs are now invalid */
        if (dev->features & (1ULL << VIRTIO_F_IOMMU_PLATFORM))
                for (i = 0; i < dev->nr_vring; i++)
                        vhost_user_iotlb_flush_all(dev->virtqueue[i]);

        /*
         * If VQ 0 has already been allocated, try to allocate on the same
         * NUMA node. It can be reallocated later in numa_realloc().
         */
        if (dev->nr_vring > 0)
                numa_node = dev->virtqueue[0]->numa_node;

        dev->nr_guest_pages = 0;
        if (dev->guest_pages == NULL) {
                dev->max_guest_pages = 8;
                dev->guest_pages = rte_zmalloc_socket(NULL,
                                        dev->max_guest_pages *
                                        sizeof(struct guest_page),
                                        RTE_CACHE_LINE_SIZE,
                                        numa_node);
                if (dev->guest_pages == NULL) {
                        VHOST_LOG_CONFIG(ERR,
                                "(%d) failed to allocate memory "
                                "for dev->guest_pages\n",
                                dev->vid);
                        goto close_msg_fds;
                }
        }

        dev->mem = rte_zmalloc_socket("vhost-mem-table", sizeof(struct rte_vhost_memory) +
                sizeof(struct rte_vhost_mem_region) * memory->nregions, 0, numa_node);
        if (dev->mem == NULL) {
                VHOST_LOG_CONFIG(ERR,
                        "(%d) failed to allocate memory for dev->mem\n",
                        dev->vid);
                goto free_guest_pages;
        }

        for (i = 0; i < memory->nregions; i++) {
                reg = &dev->mem->regions[i];

                reg->guest_phys_addr = memory->regions[i].guest_phys_addr;
                reg->guest_user_addr = memory->regions[i].userspace_addr;
                reg->size            = memory->regions[i].memory_size;
                reg->fd              = msg->fds[i];

                /*
                 * Assign invalid file descriptor value to avoid double
                 * closing on error path.
                 */
                msg->fds[i] = -1;

                mmap_offset = memory->regions[i].mmap_offset;

                if (vhost_user_mmap_region(dev, reg, mmap_offset) < 0) {
                        VHOST_LOG_CONFIG(ERR, "Failed to mmap region %u\n", i);
                        goto free_mem_table;
                }

                dev->mem->nregions++;
        }

        if (vhost_user_postcopy_register(dev, main_fd, msg) < 0)
                goto free_mem_table;

        for (i = 0; i < dev->nr_vring; i++) {
                struct vhost_virtqueue *vq = dev->virtqueue[i];

                if (!vq)
                        continue;

                if (vq->desc || vq->avail || vq->used) {
                        /*
                         * If the memory table got updated, the ring addresses
                         * need to be translated again as virtual addresses have
                         * changed.
                         */
                        vring_invalidate(dev, vq);

                        dev = translate_ring_addresses(dev, i);
                        if (!dev) {
                                dev = *pdev;
                                goto free_mem_table;
                        }

                        *pdev = dev;
                }
        }

        dump_guest_pages(dev);

        return RTE_VHOST_MSG_RESULT_OK;

free_mem_table:
        free_mem_region(dev);
        rte_free(dev->mem);
        dev->mem = NULL;
free_guest_pages:
        rte_free(dev->guest_pages);
        dev->guest_pages = NULL;
close_msg_fds:
        close_msg_fds(msg);
        return RTE_VHOST_MSG_RESULT_ERR;
}

static bool
vq_is_ready(struct virtio_net *dev, struct vhost_virtqueue *vq)
{
        bool rings_ok;

        if (!vq)
                return false;

        if (vq_is_packed(dev))
                rings_ok = vq->desc_packed && vq->driver_event &&
                        vq->device_event;
        else
                rings_ok = vq->desc && vq->avail && vq->used;

        return rings_ok &&
               vq->kickfd != VIRTIO_UNINITIALIZED_EVENTFD &&
               vq->callfd != VIRTIO_UNINITIALIZED_EVENTFD &&
               vq->enabled;
}

#define VIRTIO_BUILTIN_NUM_VQS_TO_BE_READY 2u

static int
virtio_is_ready(struct virtio_net *dev)
{
        struct vhost_virtqueue *vq;
        uint32_t i, nr_vring = dev->nr_vring;

        if (dev->flags & VIRTIO_DEV_READY)
                return 1;

        if (!dev->nr_vring)
                return 0;

        if (dev->flags & VIRTIO_DEV_BUILTIN_VIRTIO_NET) {
                nr_vring = VIRTIO_BUILTIN_NUM_VQS_TO_BE_READY;

                if (dev->nr_vring < nr_vring)
                        return 0;
        }

        for (i = 0; i < nr_vring; i++) {
                vq = dev->virtqueue[i];

                if (!vq_is_ready(dev, vq))
                        return 0;
        }

        /* If supported, ensure the frontend is really done with config */
        if (dev->protocol_features & (1ULL << VHOST_USER_PROTOCOL_F_STATUS))
                if (!(dev->status & VIRTIO_DEVICE_STATUS_DRIVER_OK))
                        return 0;

        dev->flags |= VIRTIO_DEV_READY;

        if (!(dev->flags & VIRTIO_DEV_RUNNING))
                VHOST_LOG_CONFIG(INFO,
                        "virtio is now ready for processing.\n");
        return 1;
}

static void *
inflight_mem_alloc(const char *name, size_t size, int *fd)
{
        void *ptr;
        int mfd = -1;
        char fname[20] = "/tmp/memfd-XXXXXX";

        *fd = -1;
#ifdef MEMFD_SUPPORTED
        mfd = memfd_create(name, MFD_CLOEXEC);
#else
        RTE_SET_USED(name);
#endif
        if (mfd == -1) {
                mfd = mkstemp(fname);
                if (mfd == -1) {
                        VHOST_LOG_CONFIG(ERR,
                                "failed to get inflight buffer fd\n");
                        return NULL;
                }

                unlink(fname);
        }

        if (ftruncate(mfd, size) == -1) {
                VHOST_LOG_CONFIG(ERR,
                        "failed to alloc inflight buffer\n");
                close(mfd);
                return NULL;
        }

        ptr = mmap(0, size, PROT_READ | PROT_WRITE, MAP_SHARED, mfd, 0);
        if (ptr == MAP_FAILED) {
                VHOST_LOG_CONFIG(ERR,
                        "failed to mmap inflight buffer\n");
                close(mfd);
                return NULL;
        }

        *fd = mfd;
        return ptr;
}

static uint32_t
get_pervq_shm_size_split(uint16_t queue_size)
{
        return RTE_ALIGN_MUL_CEIL(sizeof(struct rte_vhost_inflight_desc_split) *
                                  queue_size + sizeof(uint64_t) +
                                  sizeof(uint16_t) * 4, INFLIGHT_ALIGNMENT);
}

static uint32_t
get_pervq_shm_size_packed(uint16_t queue_size)
{
        return RTE_ALIGN_MUL_CEIL(sizeof(struct rte_vhost_inflight_desc_packed)
                                  * queue_size + sizeof(uint64_t) +
                                  sizeof(uint16_t) * 6 + sizeof(uint8_t) * 9,
                                  INFLIGHT_ALIGNMENT);
}

static int
vhost_user_get_inflight_fd(struct virtio_net **pdev,
                           VhostUserMsg *msg,
                           int main_fd __rte_unused)
{
        struct rte_vhost_inflight_info_packed *inflight_packed;
        uint64_t pervq_inflight_size, mmap_size;
        uint16_t num_queues, queue_size;
        struct virtio_net *dev = *pdev;
        int fd, i, j;
        int numa_node = SOCKET_ID_ANY;
        void *addr;

        if (msg->size != sizeof(msg->payload.inflight)) {
                VHOST_LOG_CONFIG(ERR,
                        "invalid get_inflight_fd message size is %d\n",
                        msg->size);
                return RTE_VHOST_MSG_RESULT_ERR;
        }

        /*
         * If VQ 0 has already been allocated, try to allocate on the same
         * NUMA node. It can be reallocated later in numa_realloc().
         */
        if (dev->nr_vring > 0)
                numa_node = dev->virtqueue[0]->numa_node;

        if (dev->inflight_info == NULL) {
                dev->inflight_info = rte_zmalloc_socket("inflight_info",
                                sizeof(struct inflight_mem_info), 0, numa_node);
                if (!dev->inflight_info) {
                        VHOST_LOG_CONFIG(ERR,
                                "failed to alloc dev inflight area\n");
                        return RTE_VHOST_MSG_RESULT_ERR;
                }
                dev->inflight_info->fd = -1;
        }

        num_queues = msg->payload.inflight.num_queues;
        queue_size = msg->payload.inflight.queue_size;

        VHOST_LOG_CONFIG(INFO, "get_inflight_fd num_queues: %u\n",
                msg->payload.inflight.num_queues);
        VHOST_LOG_CONFIG(INFO, "get_inflight_fd queue_size: %u\n",
                msg->payload.inflight.queue_size);

        if (vq_is_packed(dev))
                pervq_inflight_size = get_pervq_shm_size_packed(queue_size);
        else
                pervq_inflight_size = get_pervq_shm_size_split(queue_size);

        mmap_size = num_queues * pervq_inflight_size;
        addr = inflight_mem_alloc("vhost-inflight", mmap_size, &fd);
        if (!addr) {
                VHOST_LOG_CONFIG(ERR,
                        "failed to alloc vhost inflight area\n");
                        msg->payload.inflight.mmap_size = 0;
                return RTE_VHOST_MSG_RESULT_ERR;
        }
        memset(addr, 0, mmap_size);

        if (dev->inflight_info->addr) {
                munmap(dev->inflight_info->addr, dev->inflight_info->size);
                dev->inflight_info->addr = NULL;
        }

        if (dev->inflight_info->fd >= 0) {
                close(dev->inflight_info->fd);
                dev->inflight_info->fd = -1;
        }

        dev->inflight_info->addr = addr;
        dev->inflight_info->size = msg->payload.inflight.mmap_size = mmap_size;
        dev->inflight_info->fd = msg->fds[0] = fd;
        msg->payload.inflight.mmap_offset = 0;
        msg->fd_num = 1;

        if (vq_is_packed(dev)) {
                for (i = 0; i < num_queues; i++) {
                        inflight_packed =
                                (struct rte_vhost_inflight_info_packed *)addr;
                        inflight_packed->used_wrap_counter = 1;
                        inflight_packed->old_used_wrap_counter = 1;
                        for (j = 0; j < queue_size; j++)
                                inflight_packed->desc[j].next = j + 1;
                        addr = (void *)((char *)addr + pervq_inflight_size);
                }
        }

        VHOST_LOG_CONFIG(INFO,
                "send inflight mmap_size: %"PRIu64"\n",
                msg->payload.inflight.mmap_size);
        VHOST_LOG_CONFIG(INFO,
                "send inflight mmap_offset: %"PRIu64"\n",
                msg->payload.inflight.mmap_offset);
        VHOST_LOG_CONFIG(INFO,
                "send inflight fd: %d\n", msg->fds[0]);

        return RTE_VHOST_MSG_RESULT_REPLY;
}

static int
vhost_user_set_inflight_fd(struct virtio_net **pdev, VhostUserMsg *msg,
                           int main_fd __rte_unused)
{
        uint64_t mmap_size, mmap_offset;
        uint16_t num_queues, queue_size;
        struct virtio_net *dev = *pdev;
        uint32_t pervq_inflight_size;
        struct vhost_virtqueue *vq;
        void *addr;
        int fd, i;
        int numa_node = SOCKET_ID_ANY;

        fd = msg->fds[0];
        if (msg->size != sizeof(msg->payload.inflight) || fd < 0) {
                VHOST_LOG_CONFIG(ERR,
                        "invalid set_inflight_fd message size is %d,fd is %d\n",
                        msg->size, fd);
                return RTE_VHOST_MSG_RESULT_ERR;
        }

        mmap_size = msg->payload.inflight.mmap_size;
        mmap_offset = msg->payload.inflight.mmap_offset;
        num_queues = msg->payload.inflight.num_queues;
        queue_size = msg->payload.inflight.queue_size;

        if (vq_is_packed(dev))
                pervq_inflight_size = get_pervq_shm_size_packed(queue_size);
        else
                pervq_inflight_size = get_pervq_shm_size_split(queue_size);

        VHOST_LOG_CONFIG(INFO,
                "set_inflight_fd mmap_size: %"PRIu64"\n", mmap_size);
        VHOST_LOG_CONFIG(INFO,
                "set_inflight_fd mmap_offset: %"PRIu64"\n", mmap_offset);
        VHOST_LOG_CONFIG(INFO,
                "set_inflight_fd num_queues: %u\n", num_queues);
        VHOST_LOG_CONFIG(INFO,
                "set_inflight_fd queue_size: %u\n", queue_size);
        VHOST_LOG_CONFIG(INFO,
                "set_inflight_fd fd: %d\n", fd);
        VHOST_LOG_CONFIG(INFO,
                "set_inflight_fd pervq_inflight_size: %d\n",
                pervq_inflight_size);

        /*
         * If VQ 0 has already been allocated, try to allocate on the same
         * NUMA node. It can be reallocated later in numa_realloc().
         */
        if (dev->nr_vring > 0)
                numa_node = dev->virtqueue[0]->numa_node;

        if (!dev->inflight_info) {
                dev->inflight_info = rte_zmalloc_socket("inflight_info",
                                sizeof(struct inflight_mem_info), 0, numa_node);
                if (dev->inflight_info == NULL) {
                        VHOST_LOG_CONFIG(ERR,
                                "failed to alloc dev inflight area\n");
                        return RTE_VHOST_MSG_RESULT_ERR;
                }
                dev->inflight_info->fd = -1;
        }

        if (dev->inflight_info->addr) {
                munmap(dev->inflight_info->addr, dev->inflight_info->size);
                dev->inflight_info->addr = NULL;
        }

        addr = mmap(0, mmap_size, PROT_READ | PROT_WRITE, MAP_SHARED,
                    fd, mmap_offset);
        if (addr == MAP_FAILED) {
                VHOST_LOG_CONFIG(ERR, "failed to mmap share memory.\n");
                return RTE_VHOST_MSG_RESULT_ERR;
        }

        if (dev->inflight_info->fd >= 0) {
                close(dev->inflight_info->fd);
                dev->inflight_info->fd = -1;
        }

        dev->inflight_info->fd = fd;
        dev->inflight_info->addr = addr;
        dev->inflight_info->size = mmap_size;

        for (i = 0; i < num_queues; i++) {
                vq = dev->virtqueue[i];
                if (!vq)
                        continue;

                if (vq_is_packed(dev)) {
                        vq->inflight_packed = addr;
                        vq->inflight_packed->desc_num = queue_size;
                } else {
                        vq->inflight_split = addr;
                        vq->inflight_split->desc_num = queue_size;
                }
                addr = (void *)((char *)addr + pervq_inflight_size);
        }

        return RTE_VHOST_MSG_RESULT_OK;
}

static int
vhost_user_set_vring_call(struct virtio_net **pdev, struct VhostUserMsg *msg,
                        int main_fd __rte_unused)
{
        struct virtio_net *dev = *pdev;
        struct vhost_vring_file file;
        struct vhost_virtqueue *vq;
        int expected_fds;

        expected_fds = (msg->payload.u64 & VHOST_USER_VRING_NOFD_MASK) ? 0 : 1;
        if (validate_msg_fds(msg, expected_fds) != 0)
                return RTE_VHOST_MSG_RESULT_ERR;

        file.index = msg->payload.u64 & VHOST_USER_VRING_IDX_MASK;
        if (msg->payload.u64 & VHOST_USER_VRING_NOFD_MASK)
                file.fd = VIRTIO_INVALID_EVENTFD;
        else
                file.fd = msg->fds[0];
        VHOST_LOG_CONFIG(INFO,
                "vring call idx:%d file:%d\n", file.index, file.fd);

        vq = dev->virtqueue[file.index];

        if (vq->ready) {
                vq->ready = false;
                vhost_user_notify_queue_state(dev, file.index, 0);
        }

        if (vq->callfd >= 0)
                close(vq->callfd);

        vq->callfd = file.fd;

        return RTE_VHOST_MSG_RESULT_OK;
}

static int vhost_user_set_vring_err(struct virtio_net **pdev __rte_unused,
                        struct VhostUserMsg *msg,
                        int main_fd __rte_unused)
{
        int expected_fds;

        expected_fds = (msg->payload.u64 & VHOST_USER_VRING_NOFD_MASK) ? 0 : 1;
        if (validate_msg_fds(msg, expected_fds) != 0)
                return RTE_VHOST_MSG_RESULT_ERR;

        if (!(msg->payload.u64 & VHOST_USER_VRING_NOFD_MASK))
                close(msg->fds[0]);
        VHOST_LOG_CONFIG(INFO, "not implemented\n");

        return RTE_VHOST_MSG_RESULT_OK;
}

static int
resubmit_desc_compare(const void *a, const void *b)
{
        const struct rte_vhost_resubmit_desc *desc0 = a;
        const struct rte_vhost_resubmit_desc *desc1 = b;

        if (desc1->counter > desc0->counter)
                return 1;

        return -1;
}

static int
vhost_check_queue_inflights_split(struct virtio_net *dev,
                                  struct vhost_virtqueue *vq)
{
        uint16_t i;
        uint16_t resubmit_num = 0, last_io, num;
        struct vring_used *used = vq->used;
        struct rte_vhost_resubmit_info *resubmit;
        struct rte_vhost_inflight_info_split *inflight_split;

        if (!(dev->protocol_features &
            (1ULL << VHOST_USER_PROTOCOL_F_INFLIGHT_SHMFD)))
                return RTE_VHOST_MSG_RESULT_OK;

        /* The frontend may still not support the inflight feature
         * although we negotiate the protocol feature.
         */
        if ((!vq->inflight_split))
                return RTE_VHOST_MSG_RESULT_OK;

        if (!vq->inflight_split->version) {
                vq->inflight_split->version = INFLIGHT_VERSION;
                return RTE_VHOST_MSG_RESULT_OK;
        }

        if (vq->resubmit_inflight)
                return RTE_VHOST_MSG_RESULT_OK;

        inflight_split = vq->inflight_split;
        vq->global_counter = 0;
        last_io = inflight_split->last_inflight_io;

        if (inflight_split->used_idx != used->idx) {
                inflight_split->desc[last_io].inflight = 0;
                rte_atomic_thread_fence(__ATOMIC_SEQ_CST);
                inflight_split->used_idx = used->idx;
        }

        for (i = 0; i < inflight_split->desc_num; i++) {
                if (inflight_split->desc[i].inflight == 1)
                        resubmit_num++;
        }

        vq->last_avail_idx += resubmit_num;

        if (resubmit_num) {
                resubmit = rte_zmalloc_socket("resubmit", sizeof(struct rte_vhost_resubmit_info),
                                0, vq->numa_node);
                if (!resubmit) {
                        VHOST_LOG_CONFIG(ERR,
                                "failed to allocate memory for resubmit info.\n");
                        return RTE_VHOST_MSG_RESULT_ERR;
                }

                resubmit->resubmit_list = rte_zmalloc_socket("resubmit_list",
                                resubmit_num * sizeof(struct rte_vhost_resubmit_desc),
                                0, vq->numa_node);
                if (!resubmit->resubmit_list) {
                        VHOST_LOG_CONFIG(ERR,
                                "failed to allocate memory for inflight desc.\n");
                        rte_free(resubmit);
                        return RTE_VHOST_MSG_RESULT_ERR;
                }

                num = 0;
                for (i = 0; i < vq->inflight_split->desc_num; i++) {
                        if (vq->inflight_split->desc[i].inflight == 1) {
                                resubmit->resubmit_list[num].index = i;
                                resubmit->resubmit_list[num].counter =
                                        inflight_split->desc[i].counter;
                                num++;
                        }
                }
                resubmit->resubmit_num = num;

                if (resubmit->resubmit_num > 1)
                        qsort(resubmit->resubmit_list, resubmit->resubmit_num,
                              sizeof(struct rte_vhost_resubmit_desc),
                              resubmit_desc_compare);

                vq->global_counter = resubmit->resubmit_list[0].counter + 1;
                vq->resubmit_inflight = resubmit;
        }

        return RTE_VHOST_MSG_RESULT_OK;
}

static int
vhost_check_queue_inflights_packed(struct virtio_net *dev,
                                   struct vhost_virtqueue *vq)
{
        uint16_t i;
        uint16_t resubmit_num = 0, old_used_idx, num;
        struct rte_vhost_resubmit_info *resubmit;
        struct rte_vhost_inflight_info_packed *inflight_packed;

        if (!(dev->protocol_features &
            (1ULL << VHOST_USER_PROTOCOL_F_INFLIGHT_SHMFD)))
                return RTE_VHOST_MSG_RESULT_OK;

        /* The frontend may still not support the inflight feature
         * although we negotiate the protocol feature.
         */
        if ((!vq->inflight_packed))
                return RTE_VHOST_MSG_RESULT_OK;

        if (!vq->inflight_packed->version) {
                vq->inflight_packed->version = INFLIGHT_VERSION;
                return RTE_VHOST_MSG_RESULT_OK;
        }

        if (vq->resubmit_inflight)
                return RTE_VHOST_MSG_RESULT_OK;

        inflight_packed = vq->inflight_packed;
        vq->global_counter = 0;
        old_used_idx = inflight_packed->old_used_idx;

        if (inflight_packed->used_idx != old_used_idx) {
                if (inflight_packed->desc[old_used_idx].inflight == 0) {
                        inflight_packed->old_used_idx =
                                inflight_packed->used_idx;
                        inflight_packed->old_used_wrap_counter =
                                inflight_packed->used_wrap_counter;
                        inflight_packed->old_free_head =
                                inflight_packed->free_head;
                } else {
                        inflight_packed->used_idx =
                                inflight_packed->old_used_idx;
                        inflight_packed->used_wrap_counter =
                                inflight_packed->old_used_wrap_counter;
                        inflight_packed->free_head =
                                inflight_packed->old_free_head;
                }
        }

        for (i = 0; i < inflight_packed->desc_num; i++) {
                if (inflight_packed->desc[i].inflight == 1)
                        resubmit_num++;
        }

        if (resubmit_num) {
                resubmit = rte_zmalloc_socket("resubmit", sizeof(struct rte_vhost_resubmit_info),
                                0, vq->numa_node);
                if (resubmit == NULL) {
                        VHOST_LOG_CONFIG(ERR,
                                "failed to allocate memory for resubmit info.\n");
                        return RTE_VHOST_MSG_RESULT_ERR;
                }

                resubmit->resubmit_list = rte_zmalloc_socket("resubmit_list",
                                resubmit_num * sizeof(struct rte_vhost_resubmit_desc),
                                0, vq->numa_node);
                if (resubmit->resubmit_list == NULL) {
                        VHOST_LOG_CONFIG(ERR,
                                "failed to allocate memory for resubmit desc.\n");
                        rte_free(resubmit);
                        return RTE_VHOST_MSG_RESULT_ERR;
                }

                num = 0;
                for (i = 0; i < inflight_packed->desc_num; i++) {
                        if (vq->inflight_packed->desc[i].inflight == 1) {
                                resubmit->resubmit_list[num].index = i;
                                resubmit->resubmit_list[num].counter =
                                        inflight_packed->desc[i].counter;
                                num++;
                        }
                }
                resubmit->resubmit_num = num;

                if (resubmit->resubmit_num > 1)
                        qsort(resubmit->resubmit_list, resubmit->resubmit_num,
                              sizeof(struct rte_vhost_resubmit_desc),
                              resubmit_desc_compare);

                vq->global_counter = resubmit->resubmit_list[0].counter + 1;
                vq->resubmit_inflight = resubmit;
        }

        return RTE_VHOST_MSG_RESULT_OK;
}

static int
vhost_user_set_vring_kick(struct virtio_net **pdev, struct VhostUserMsg *msg,
                        int main_fd __rte_unused)
{
        struct virtio_net *dev = *pdev;
        struct vhost_vring_file file;
        struct vhost_virtqueue *vq;
        int expected_fds;

        expected_fds = (msg->payload.u64 & VHOST_USER_VRING_NOFD_MASK) ? 0 : 1;
        if (validate_msg_fds(msg, expected_fds) != 0)
                return RTE_VHOST_MSG_RESULT_ERR;

        file.index = msg->payload.u64 & VHOST_USER_VRING_IDX_MASK;
        if (msg->payload.u64 & VHOST_USER_VRING_NOFD_MASK)
                file.fd = VIRTIO_INVALID_EVENTFD;
        else
                file.fd = msg->fds[0];
        VHOST_LOG_CONFIG(INFO,
                "vring kick idx:%d file:%d\n", file.index, file.fd);

        /* Interpret ring addresses only when ring is started. */
        dev = translate_ring_addresses(dev, file.index);
        if (!dev) {
                if (file.fd != VIRTIO_INVALID_EVENTFD)
                        close(file.fd);

                return RTE_VHOST_MSG_RESULT_ERR;
        }

        *pdev = dev;

        vq = dev->virtqueue[file.index];

        /*
         * When VHOST_USER_F_PROTOCOL_FEATURES is not negotiated,
         * the ring starts already enabled. Otherwise, it is enabled via
         * the SET_VRING_ENABLE message.
         */
        if (!(dev->features & (1ULL << VHOST_USER_F_PROTOCOL_FEATURES))) {
                vq->enabled = true;
        }

        if (vq->ready) {
                vq->ready = false;
                vhost_user_notify_queue_state(dev, file.index, 0);
        }

        if (vq->kickfd >= 0)
                close(vq->kickfd);
        vq->kickfd = file.fd;

        if (vq_is_packed(dev)) {
                if (vhost_check_queue_inflights_packed(dev, vq)) {
                        VHOST_LOG_CONFIG(ERR,
                                "failed to inflights for vq: %d\n", file.index);
                        return RTE_VHOST_MSG_RESULT_ERR;
                }
        } else {
                if (vhost_check_queue_inflights_split(dev, vq)) {
                        VHOST_LOG_CONFIG(ERR,
                                "failed to inflights for vq: %d\n", file.index);
                        return RTE_VHOST_MSG_RESULT_ERR;
                }
        }

        return RTE_VHOST_MSG_RESULT_OK;
}

/*
 * when virtio is stopped, qemu will send us the GET_VRING_BASE message.
 */
static int
vhost_user_get_vring_base(struct virtio_net **pdev,
                        struct VhostUserMsg *msg,
                        int main_fd __rte_unused)
{
        struct virtio_net *dev = *pdev;
        struct vhost_virtqueue *vq = dev->virtqueue[msg->payload.state.index];
        uint64_t val;

        if (validate_msg_fds(msg, 0) != 0)
                return RTE_VHOST_MSG_RESULT_ERR;

        /* We have to stop the queue (virtio) if it is running. */
        vhost_destroy_device_notify(dev);

        dev->flags &= ~VIRTIO_DEV_READY;
        dev->flags &= ~VIRTIO_DEV_VDPA_CONFIGURED;

        /* Here we are safe to get the indexes */
        if (vq_is_packed(dev)) {
                /*
                 * Bit[0:14]: avail index
                 * Bit[15]: avail wrap counter
                 */
                val = vq->last_avail_idx & 0x7fff;
                val |= vq->avail_wrap_counter << 15;
                msg->payload.state.num = val;
        } else {
                msg->payload.state.num = vq->last_avail_idx;
        }

        VHOST_LOG_CONFIG(INFO,
                "vring base idx:%d file:%d\n", msg->payload.state.index,
                msg->payload.state.num);
        /*
         * Based on current qemu vhost-user implementation, this message is
         * sent and only sent in vhost_vring_stop.
         * TODO: cleanup the vring, it isn't usable since here.
         */
        if (vq->kickfd >= 0)
                close(vq->kickfd);

        vq->kickfd = VIRTIO_UNINITIALIZED_EVENTFD;

        if (vq->callfd >= 0)
                close(vq->callfd);

        vq->callfd = VIRTIO_UNINITIALIZED_EVENTFD;

        vq->signalled_used_valid = false;

        if (vq_is_packed(dev)) {
                rte_free(vq->shadow_used_packed);
                vq->shadow_used_packed = NULL;
        } else {
                rte_free(vq->shadow_used_split);
                vq->shadow_used_split = NULL;
        }

        rte_free(vq->batch_copy_elems);
        vq->batch_copy_elems = NULL;

        rte_free(vq->log_cache);
        vq->log_cache = NULL;

        msg->size = sizeof(msg->payload.state);
        msg->fd_num = 0;

        vring_invalidate(dev, vq);

        return RTE_VHOST_MSG_RESULT_REPLY;
}

/*
 * when virtio queues are ready to work, qemu will send us to
 * enable the virtio queue pair.
 */
static int
vhost_user_set_vring_enable(struct virtio_net **pdev,
                        struct VhostUserMsg *msg,
                        int main_fd __rte_unused)
{
        struct virtio_net *dev = *pdev;
        bool enable = !!msg->payload.state.num;
        int index = (int)msg->payload.state.index;

        if (validate_msg_fds(msg, 0) != 0)
                return RTE_VHOST_MSG_RESULT_ERR;

        VHOST_LOG_CONFIG(INFO,
                "set queue enable: %d to qp idx: %d\n",
                enable, index);

        if (enable && dev->virtqueue[index]->async_registered) {
                if (dev->virtqueue[index]->async_pkts_inflight_n) {
                        VHOST_LOG_CONFIG(ERR, "failed to enable vring. "
                        "async inflight packets must be completed first\n");
                        return RTE_VHOST_MSG_RESULT_ERR;
                }
        }

        dev->virtqueue[index]->enabled = enable;

        return RTE_VHOST_MSG_RESULT_OK;
}

static int
vhost_user_get_protocol_features(struct virtio_net **pdev,
                        struct VhostUserMsg *msg,
                        int main_fd __rte_unused)
{
        struct virtio_net *dev = *pdev;
        uint64_t features, protocol_features;

        if (validate_msg_fds(msg, 0) != 0)
                return RTE_VHOST_MSG_RESULT_ERR;

        rte_vhost_driver_get_features(dev->ifname, &features);
        rte_vhost_driver_get_protocol_features(dev->ifname, &protocol_features);

        msg->payload.u64 = protocol_features;
        msg->size = sizeof(msg->payload.u64);
        msg->fd_num = 0;

        return RTE_VHOST_MSG_RESULT_REPLY;
}

static int
vhost_user_set_protocol_features(struct virtio_net **pdev,
                        struct VhostUserMsg *msg,
                        int main_fd __rte_unused)
{
        struct virtio_net *dev = *pdev;
        uint64_t protocol_features = msg->payload.u64;
        uint64_t slave_protocol_features = 0;

        if (validate_msg_fds(msg, 0) != 0)
                return RTE_VHOST_MSG_RESULT_ERR;

        rte_vhost_driver_get_protocol_features(dev->ifname,
                        &slave_protocol_features);
        if (protocol_features & ~slave_protocol_features) {
                VHOST_LOG_CONFIG(ERR,
                        "(%d) received invalid protocol features.\n",
                        dev->vid);
                return RTE_VHOST_MSG_RESULT_ERR;
        }

        dev->protocol_features = protocol_features;
        VHOST_LOG_CONFIG(INFO,
                "negotiated Vhost-user protocol features: 0x%" PRIx64 "\n",
                dev->protocol_features);

        return RTE_VHOST_MSG_RESULT_OK;
}

static int
vhost_user_set_log_base(struct virtio_net **pdev, struct VhostUserMsg *msg,
                        int main_fd __rte_unused)
{
        struct virtio_net *dev = *pdev;
        int fd = msg->fds[0];
        uint64_t size, off;
        void *addr;
        uint32_t i;

        if (validate_msg_fds(msg, 1) != 0)
                return RTE_VHOST_MSG_RESULT_ERR;

        if (fd < 0) {
                VHOST_LOG_CONFIG(ERR, "invalid log fd: %d\n", fd);
                return RTE_VHOST_MSG_RESULT_ERR;
        }

        if (msg->size != sizeof(VhostUserLog)) {
                VHOST_LOG_CONFIG(ERR,
                        "invalid log base msg size: %"PRId32" != %d\n",
                        msg->size, (int)sizeof(VhostUserLog));
                goto close_msg_fds;
        }

        size = msg->payload.log.mmap_size;
        off  = msg->payload.log.mmap_offset;

        /* Check for mmap size and offset overflow. */
        if (off >= -size) {
                VHOST_LOG_CONFIG(ERR,
                        "log offset %#"PRIx64" and log size %#"PRIx64" overflow\n",
                        off, size);
                goto close_msg_fds;
        }

        VHOST_LOG_CONFIG(INFO,
                "log mmap size: %"PRId64", offset: %"PRId64"\n",
                size, off);

        /*
         * mmap from 0 to workaround a hugepage mmap bug: mmap will
         * fail when offset is not page size aligned.
         */
        addr = mmap(0, size + off, PROT_READ | PROT_WRITE, MAP_SHARED, fd, 0);
        close(fd);
        if (addr == MAP_FAILED) {
                VHOST_LOG_CONFIG(ERR, "mmap log base failed!\n");
                return RTE_VHOST_MSG_RESULT_ERR;
        }

        /*
         * Free previously mapped log memory on occasionally
         * multiple VHOST_USER_SET_LOG_BASE.
         */
        if (dev->log_addr) {
                munmap((void *)(uintptr_t)dev->log_addr, dev->log_size);
        }
        dev->log_addr = (uint64_t)(uintptr_t)addr;
        dev->log_base = dev->log_addr + off;
        dev->log_size = size;

        for (i = 0; i < dev->nr_vring; i++) {
                struct vhost_virtqueue *vq = dev->virtqueue[i];

                rte_free(vq->log_cache);
                vq->log_cache = NULL;
                vq->log_cache_nb_elem = 0;
                vq->log_cache = rte_malloc_socket("vq log cache",
                                sizeof(struct log_cache_entry) * VHOST_LOG_CACHE_NR,
                                0, vq->numa_node);
                /*
                 * If log cache alloc fail, don't fail migration, but no
                 * caching will be done, which will impact performance
                 */
                if (!vq->log_cache)
                        VHOST_LOG_CONFIG(ERR, "Failed to allocate VQ logging cache\n");
        }

        /*
         * The spec is not clear about it (yet), but QEMU doesn't expect
         * any payload in the reply.
         */
        msg->size = 0;
        msg->fd_num = 0;

        return RTE_VHOST_MSG_RESULT_REPLY;

close_msg_fds:
        close_msg_fds(msg);
        return RTE_VHOST_MSG_RESULT_ERR;
}

static int vhost_user_set_log_fd(struct virtio_net **pdev __rte_unused,
                        struct VhostUserMsg *msg,
                        int main_fd __rte_unused)
{
        if (validate_msg_fds(msg, 1) != 0)
                return RTE_VHOST_MSG_RESULT_ERR;

        close(msg->fds[0]);
        VHOST_LOG_CONFIG(INFO, "not implemented.\n");

        return RTE_VHOST_MSG_RESULT_OK;
}

/*
 * An rarp packet is constructed and broadcasted to notify switches about
 * the new location of the migrated VM, so that packets from outside will
 * not be lost after migration.
 *
 * However, we don't actually "send" a rarp packet here, instead, we set
 * a flag 'broadcast_rarp' to let rte_vhost_dequeue_burst() inject it.
 */
static int
vhost_user_send_rarp(struct virtio_net **pdev, struct VhostUserMsg *msg,
                        int main_fd __rte_unused)
{
        struct virtio_net *dev = *pdev;
        uint8_t *mac = (uint8_t *)&msg->payload.u64;
        struct rte_vdpa_device *vdpa_dev;

        if (validate_msg_fds(msg, 0) != 0)
                return RTE_VHOST_MSG_RESULT_ERR;

        VHOST_LOG_CONFIG(DEBUG,
                ":: mac: %02x:%02x:%02x:%02x:%02x:%02x\n",
                mac[0], mac[1], mac[2], mac[3], mac[4], mac[5]);
        memcpy(dev->mac.addr_bytes, mac, 6);

        /*
         * Set the flag to inject a RARP broadcast packet at
         * rte_vhost_dequeue_burst().
         *
         * __ATOMIC_RELEASE ordering is for making sure the mac is
         * copied before the flag is set.
         */
        __atomic_store_n(&dev->broadcast_rarp, 1, __ATOMIC_RELEASE);
        vdpa_dev = dev->vdpa_dev;
        if (vdpa_dev && vdpa_dev->ops->migration_done)
                vdpa_dev->ops->migration_done(dev->vid);

        return RTE_VHOST_MSG_RESULT_OK;
}

static int
vhost_user_net_set_mtu(struct virtio_net **pdev, struct VhostUserMsg *msg,
                        int main_fd __rte_unused)
{
        struct virtio_net *dev = *pdev;

        if (validate_msg_fds(msg, 0) != 0)
                return RTE_VHOST_MSG_RESULT_ERR;

        if (msg->payload.u64 < VIRTIO_MIN_MTU ||
                        msg->payload.u64 > VIRTIO_MAX_MTU) {
                VHOST_LOG_CONFIG(ERR, "Invalid MTU size (%"PRIu64")\n",
                                msg->payload.u64);

                return RTE_VHOST_MSG_RESULT_ERR;
        }

        dev->mtu = msg->payload.u64;

        return RTE_VHOST_MSG_RESULT_OK;
}

static int
vhost_user_set_req_fd(struct virtio_net **pdev, struct VhostUserMsg *msg,
                        int main_fd __rte_unused)
{
        struct virtio_net *dev = *pdev;
        int fd = msg->fds[0];

        if (validate_msg_fds(msg, 1) != 0)
                return RTE_VHOST_MSG_RESULT_ERR;

        if (fd < 0) {
                VHOST_LOG_CONFIG(ERR,
                                "Invalid file descriptor for slave channel (%d)\n",
                                fd);
                return RTE_VHOST_MSG_RESULT_ERR;
        }

        if (dev->slave_req_fd >= 0)
                close(dev->slave_req_fd);

        dev->slave_req_fd = fd;

        return RTE_VHOST_MSG_RESULT_OK;
}

static int
is_vring_iotlb_split(struct vhost_virtqueue *vq, struct vhost_iotlb_msg *imsg)
{
        struct vhost_vring_addr *ra;
        uint64_t start, end, len;

        start = imsg->iova;
        end = start + imsg->size;

        ra = &vq->ring_addrs;
        len = sizeof(struct vring_desc) * vq->size;
        if (ra->desc_user_addr < end && (ra->desc_user_addr + len) > start)
                return 1;

        len = sizeof(struct vring_avail) + sizeof(uint16_t) * vq->size;
        if (ra->avail_user_addr < end && (ra->avail_user_addr + len) > start)
                return 1;

        len = sizeof(struct vring_used) +
               sizeof(struct vring_used_elem) * vq->size;
        if (ra->used_user_addr < end && (ra->used_user_addr + len) > start)
                return 1;

        if (ra->flags & (1 << VHOST_VRING_F_LOG)) {
                len = sizeof(uint64_t);
                if (ra->log_guest_addr < end &&
                    (ra->log_guest_addr + len) > start)
                        return 1;
        }

        return 0;
}

static int
is_vring_iotlb_packed(struct vhost_virtqueue *vq, struct vhost_iotlb_msg *imsg)
{
        struct vhost_vring_addr *ra;
        uint64_t start, end, len;

        start = imsg->iova;
        end = start + imsg->size;

        ra = &vq->ring_addrs;
        len = sizeof(struct vring_packed_desc) * vq->size;
        if (ra->desc_user_addr < end && (ra->desc_user_addr + len) > start)
                return 1;

        len = sizeof(struct vring_packed_desc_event);
        if (ra->avail_user_addr < end && (ra->avail_user_addr + len) > start)
                return 1;

        len = sizeof(struct vring_packed_desc_event);
        if (ra->used_user_addr < end && (ra->used_user_addr + len) > start)
                return 1;

        if (ra->flags & (1 << VHOST_VRING_F_LOG)) {
                len = sizeof(uint64_t);
                if (ra->log_guest_addr < end &&
                    (ra->log_guest_addr + len) > start)
                        return 1;
        }

        return 0;
}

static int is_vring_iotlb(struct virtio_net *dev,
                          struct vhost_virtqueue *vq,
                          struct vhost_iotlb_msg *imsg)
{
        if (vq_is_packed(dev))
                return is_vring_iotlb_packed(vq, imsg);
        else
                return is_vring_iotlb_split(vq, imsg);
}

static int
vhost_user_iotlb_msg(struct virtio_net **pdev, struct VhostUserMsg *msg,
                        int main_fd __rte_unused)
{
        struct virtio_net *dev = *pdev;
        struct vhost_iotlb_msg *imsg = &msg->payload.iotlb;
        uint16_t i;
        uint64_t vva, len;

        if (validate_msg_fds(msg, 0) != 0)
                return RTE_VHOST_MSG_RESULT_ERR;

        switch (imsg->type) {
        case VHOST_IOTLB_UPDATE:
                len = imsg->size;
                vva = qva_to_vva(dev, imsg->uaddr, &len);
                if (!vva)
                        return RTE_VHOST_MSG_RESULT_ERR;

                for (i = 0; i < dev->nr_vring; i++) {
                        struct vhost_virtqueue *vq = dev->virtqueue[i];

                        if (!vq)
                                continue;

                        vhost_user_iotlb_cache_insert(vq, imsg->iova, vva,
                                        len, imsg->perm);

                        if (is_vring_iotlb(dev, vq, imsg))
                                *pdev = dev = translate_ring_addresses(dev, i);
                }
                break;
        case VHOST_IOTLB_INVALIDATE:
                for (i = 0; i < dev->nr_vring; i++) {
                        struct vhost_virtqueue *vq = dev->virtqueue[i];

                        if (!vq)
                                continue;

                        vhost_user_iotlb_cache_remove(vq, imsg->iova,
                                        imsg->size);

                        if (is_vring_iotlb(dev, vq, imsg))
                                vring_invalidate(dev, vq);
                }
                break;
        default:
                VHOST_LOG_CONFIG(ERR, "Invalid IOTLB message type (%d)\n",
                                imsg->type);
                return RTE_VHOST_MSG_RESULT_ERR;
        }

        return RTE_VHOST_MSG_RESULT_OK;
}

static int
vhost_user_set_postcopy_advise(struct virtio_net **pdev,
                        struct VhostUserMsg *msg,
                        int main_fd __rte_unused)
{
        struct virtio_net *dev = *pdev;
#ifdef RTE_LIBRTE_VHOST_POSTCOPY
        struct uffdio_api api_struct;

        if (validate_msg_fds(msg, 0) != 0)
                return RTE_VHOST_MSG_RESULT_ERR;

        dev->postcopy_ufd = syscall(__NR_userfaultfd, O_CLOEXEC | O_NONBLOCK);

        if (dev->postcopy_ufd == -1) {
                VHOST_LOG_CONFIG(ERR, "Userfaultfd not available: %s\n",
                        strerror(errno));
                return RTE_VHOST_MSG_RESULT_ERR;
        }
        api_struct.api = UFFD_API;
        api_struct.features = 0;
        if (ioctl(dev->postcopy_ufd, UFFDIO_API, &api_struct)) {
                VHOST_LOG_CONFIG(ERR, "UFFDIO_API ioctl failure: %s\n",
                        strerror(errno));
                close(dev->postcopy_ufd);
                dev->postcopy_ufd = -1;
                return RTE_VHOST_MSG_RESULT_ERR;
        }
        msg->fds[0] = dev->postcopy_ufd;
        msg->fd_num = 1;

        return RTE_VHOST_MSG_RESULT_REPLY;
#else
        dev->postcopy_ufd = -1;
        msg->fd_num = 0;

        return RTE_VHOST_MSG_RESULT_ERR;
#endif
}

static int
vhost_user_set_postcopy_listen(struct virtio_net **pdev,
                        struct VhostUserMsg *msg __rte_unused,
                        int main_fd __rte_unused)
{
        struct virtio_net *dev = *pdev;

        if (validate_msg_fds(msg, 0) != 0)
                return RTE_VHOST_MSG_RESULT_ERR;

        if (dev->mem && dev->mem->nregions) {
                VHOST_LOG_CONFIG(ERR,
                        "Regions already registered at postcopy-listen\n");
                return RTE_VHOST_MSG_RESULT_ERR;
        }
        dev->postcopy_listening = 1;

        return RTE_VHOST_MSG_RESULT_OK;
}

static int
vhost_user_postcopy_end(struct virtio_net **pdev, struct VhostUserMsg *msg,
                        int main_fd __rte_unused)
{
        struct virtio_net *dev = *pdev;

        if (validate_msg_fds(msg, 0) != 0)
                return RTE_VHOST_MSG_RESULT_ERR;

        dev->postcopy_listening = 0;
        if (dev->postcopy_ufd >= 0) {
                close(dev->postcopy_ufd);
                dev->postcopy_ufd = -1;
        }

        msg->payload.u64 = 0;
        msg->size = sizeof(msg->payload.u64);
        msg->fd_num = 0;

        return RTE_VHOST_MSG_RESULT_REPLY;
}

static int
vhost_user_get_status(struct virtio_net **pdev, struct VhostUserMsg *msg,
                      int main_fd __rte_unused)
{
        struct virtio_net *dev = *pdev;

        if (validate_msg_fds(msg, 0) != 0)
                return RTE_VHOST_MSG_RESULT_ERR;

        msg->payload.u64 = dev->status;
        msg->size = sizeof(msg->payload.u64);
        msg->fd_num = 0;

        return RTE_VHOST_MSG_RESULT_REPLY;
}

static int
vhost_user_set_status(struct virtio_net **pdev, struct VhostUserMsg *msg,
                        int main_fd __rte_unused)
{
        struct virtio_net *dev = *pdev;

        if (validate_msg_fds(msg, 0) != 0)
                return RTE_VHOST_MSG_RESULT_ERR;

        /* As per Virtio specification, the device status is 8bits long */
        if (msg->payload.u64 > UINT8_MAX) {
                VHOST_LOG_CONFIG(ERR, "Invalid VHOST_USER_SET_STATUS payload 0x%" PRIx64 "\n",
                                msg->payload.u64);
                return RTE_VHOST_MSG_RESULT_ERR;
        }

        dev->status = msg->payload.u64;

        if ((dev->status & VIRTIO_DEVICE_STATUS_FEATURES_OK) &&
            (dev->flags & VIRTIO_DEV_FEATURES_FAILED)) {
                VHOST_LOG_CONFIG(ERR, "FEATURES_OK bit is set but feature negotiation failed\n");
                /*
                 * Clear the bit to let the driver know about the feature
                 * negotiation failure
                 */
                dev->status &= ~VIRTIO_DEVICE_STATUS_FEATURES_OK;
        }

        VHOST_LOG_CONFIG(INFO, "New device status(0x%08x):\n"
                        "\t-RESET: %u\n"
                        "\t-ACKNOWLEDGE: %u\n"
                        "\t-DRIVER: %u\n"
                        "\t-FEATURES_OK: %u\n"
                        "\t-DRIVER_OK: %u\n"
                        "\t-DEVICE_NEED_RESET: %u\n"
                        "\t-FAILED: %u\n",
                        dev->status,
                        (dev->status == VIRTIO_DEVICE_STATUS_RESET),
                        !!(dev->status & VIRTIO_DEVICE_STATUS_ACK),
                        !!(dev->status & VIRTIO_DEVICE_STATUS_DRIVER),
                        !!(dev->status & VIRTIO_DEVICE_STATUS_FEATURES_OK),
                        !!(dev->status & VIRTIO_DEVICE_STATUS_DRIVER_OK),
                        !!(dev->status & VIRTIO_DEVICE_STATUS_DEV_NEED_RESET),
                        !!(dev->status & VIRTIO_DEVICE_STATUS_FAILED));

        return RTE_VHOST_MSG_RESULT_OK;
}

typedef int (*vhost_message_handler_t)(struct virtio_net **pdev,
                                        struct VhostUserMsg *msg,
                                        int main_fd);
static vhost_message_handler_t vhost_message_handlers[VHOST_USER_MAX] = {
        [VHOST_USER_NONE] = NULL,
        [VHOST_USER_GET_FEATURES] = vhost_user_get_features,
        [VHOST_USER_SET_FEATURES] = vhost_user_set_features,
        [VHOST_USER_SET_OWNER] = vhost_user_set_owner,
        [VHOST_USER_RESET_OWNER] = vhost_user_reset_owner,
        [VHOST_USER_SET_MEM_TABLE] = vhost_user_set_mem_table,
        [VHOST_USER_SET_LOG_BASE] = vhost_user_set_log_base,
        [VHOST_USER_SET_LOG_FD] = vhost_user_set_log_fd,
        [VHOST_USER_SET_VRING_NUM] = vhost_user_set_vring_num,
        [VHOST_USER_SET_VRING_ADDR] = vhost_user_set_vring_addr,
        [VHOST_USER_SET_VRING_BASE] = vhost_user_set_vring_base,
        [VHOST_USER_GET_VRING_BASE] = vhost_user_get_vring_base,
        [VHOST_USER_SET_VRING_KICK] = vhost_user_set_vring_kick,
        [VHOST_USER_SET_VRING_CALL] = vhost_user_set_vring_call,
        [VHOST_USER_SET_VRING_ERR] = vhost_user_set_vring_err,
        [VHOST_USER_GET_PROTOCOL_FEATURES] = vhost_user_get_protocol_features,
        [VHOST_USER_SET_PROTOCOL_FEATURES] = vhost_user_set_protocol_features,
        [VHOST_USER_GET_QUEUE_NUM] = vhost_user_get_queue_num,
        [VHOST_USER_SET_VRING_ENABLE] = vhost_user_set_vring_enable,
        [VHOST_USER_SEND_RARP] = vhost_user_send_rarp,
        [VHOST_USER_NET_SET_MTU] = vhost_user_net_set_mtu,
        [VHOST_USER_SET_SLAVE_REQ_FD] = vhost_user_set_req_fd,
        [VHOST_USER_IOTLB_MSG] = vhost_user_iotlb_msg,
        [VHOST_USER_POSTCOPY_ADVISE] = vhost_user_set_postcopy_advise,
        [VHOST_USER_POSTCOPY_LISTEN] = vhost_user_set_postcopy_listen,
        [VHOST_USER_POSTCOPY_END] = vhost_user_postcopy_end,
        [VHOST_USER_GET_INFLIGHT_FD] = vhost_user_get_inflight_fd,
        [VHOST_USER_SET_INFLIGHT_FD] = vhost_user_set_inflight_fd,
        [VHOST_USER_SET_STATUS] = vhost_user_set_status,
        [VHOST_USER_GET_STATUS] = vhost_user_get_status,
};

/* return bytes# of read on success or negative val on failure. */
static int
read_vhost_message(int sockfd, struct VhostUserMsg *msg)
{
        int ret;

        ret = read_fd_message(sockfd, (char *)msg, VHOST_USER_HDR_SIZE,
                msg->fds, VHOST_MEMORY_MAX_NREGIONS, &msg->fd_num);
        if (ret <= 0) {
                return ret;
        } else if (ret != VHOST_USER_HDR_SIZE) {
                VHOST_LOG_CONFIG(ERR, "Unexpected header size read\n");
                close_msg_fds(msg);
                return -1;
        }

        if (msg->size) {
                if (msg->size > sizeof(msg->payload)) {
                        VHOST_LOG_CONFIG(ERR,
                                "invalid msg size: %d\n", msg->size);
                        return -1;
                }
                ret = read(sockfd, &msg->payload, msg->size);
                if (ret <= 0)
                        return ret;
                if (ret != (int)msg->size) {
                        VHOST_LOG_CONFIG(ERR,
                                "read control message failed\n");
                        return -1;
                }
        }

        return ret;
}

static int
send_vhost_message(int sockfd, struct VhostUserMsg *msg)
{
        if (!msg)
                return 0;

        return send_fd_message(sockfd, (char *)msg,
                VHOST_USER_HDR_SIZE + msg->size, msg->fds, msg->fd_num);
}

static int
send_vhost_reply(int sockfd, struct VhostUserMsg *msg)
{
        if (!msg)
                return 0;

        msg->flags &= ~VHOST_USER_VERSION_MASK;
        msg->flags &= ~VHOST_USER_NEED_REPLY;
        msg->flags |= VHOST_USER_VERSION;
        msg->flags |= VHOST_USER_REPLY_MASK;

        return send_vhost_message(sockfd, msg);
}

static int
send_vhost_slave_message(struct virtio_net *dev, struct VhostUserMsg *msg)
{
        int ret;

        if (msg->flags & VHOST_USER_NEED_REPLY)
                rte_spinlock_lock(&dev->slave_req_lock);

        ret = send_vhost_message(dev->slave_req_fd, msg);
        if (ret < 0 && (msg->flags & VHOST_USER_NEED_REPLY))
                rte_spinlock_unlock(&dev->slave_req_lock);

        return ret;
}

/*
 * Allocate a queue pair if it hasn't been allocated yet
 */
static int
vhost_user_check_and_alloc_queue_pair(struct virtio_net *dev,
                        struct VhostUserMsg *msg)
{
        uint32_t vring_idx;

        switch (msg->request.master) {
        case VHOST_USER_SET_VRING_KICK:
        case VHOST_USER_SET_VRING_CALL:
        case VHOST_USER_SET_VRING_ERR:
                vring_idx = msg->payload.u64 & VHOST_USER_VRING_IDX_MASK;
                break;
        case VHOST_USER_SET_VRING_NUM:
        case VHOST_USER_SET_VRING_BASE:
        case VHOST_USER_SET_VRING_ENABLE:
                vring_idx = msg->payload.state.index;
                break;
        case VHOST_USER_SET_VRING_ADDR:
                vring_idx = msg->payload.addr.index;
                break;
        default:
                return 0;
        }

        if (vring_idx >= VHOST_MAX_VRING) {
                VHOST_LOG_CONFIG(ERR,
                        "invalid vring index: %u\n", vring_idx);
                return -1;
        }

        if (dev->virtqueue[vring_idx])
                return 0;

        return alloc_vring_queue(dev, vring_idx);
}

static void
vhost_user_lock_all_queue_pairs(struct virtio_net *dev)
{
        unsigned int i = 0;
        unsigned int vq_num = 0;

        while (vq_num < dev->nr_vring) {
                struct vhost_virtqueue *vq = dev->virtqueue[i];

                if (vq) {
                        rte_spinlock_lock(&vq->access_lock);
                        vq_num++;
                }
                i++;
        }
}

static void
vhost_user_unlock_all_queue_pairs(struct virtio_net *dev)
{
        unsigned int i = 0;
        unsigned int vq_num = 0;

        while (vq_num < dev->nr_vring) {
                struct vhost_virtqueue *vq = dev->virtqueue[i];

                if (vq) {
                        rte_spinlock_unlock(&vq->access_lock);
                        vq_num++;
                }
                i++;
        }
}

int
vhost_user_msg_handler(int vid, int fd)
{
        struct virtio_net *dev;
        struct VhostUserMsg msg;
        struct rte_vdpa_device *vdpa_dev;
        int ret;
        int unlock_required = 0;
        bool handled;
        int request;
        uint32_t i;

        dev = get_device(vid);
        if (dev == NULL)
                return -1;

        if (!dev->notify_ops) {
                dev->notify_ops = vhost_driver_callback_get(dev->ifname);
                if (!dev->notify_ops) {
                        VHOST_LOG_CONFIG(ERR,
                                "failed to get callback ops for driver %s\n",
                                dev->ifname);
                        return -1;
                }
        }

        ret = read_vhost_message(fd, &msg);
        if (ret <= 0) {
                if (ret < 0)
                        VHOST_LOG_CONFIG(ERR,
                                "vhost read message failed\n");
                else
                        VHOST_LOG_CONFIG(INFO,
                                "vhost peer closed\n");

                return -1;
        }

        ret = 0;
        request = msg.request.master;
        if (request > VHOST_USER_NONE && request < VHOST_USER_MAX &&
                        vhost_message_str[request]) {
                if (request != VHOST_USER_IOTLB_MSG)
                        VHOST_LOG_CONFIG(INFO, "read message %s\n",
                                vhost_message_str[request]);
                else
                        VHOST_LOG_CONFIG(DEBUG, "read message %s\n",
                                vhost_message_str[request]);
        } else {
                VHOST_LOG_CONFIG(DEBUG, "External request %d\n", request);
        }

        ret = vhost_user_check_and_alloc_queue_pair(dev, &msg);
        if (ret < 0) {
                VHOST_LOG_CONFIG(ERR,
                        "failed to alloc queue\n");
                return -1;
        }

        /*
         * Note: we don't lock all queues on VHOST_USER_GET_VRING_BASE
         * and VHOST_USER_RESET_OWNER, since it is sent when virtio stops
         * and device is destroyed. destroy_device waits for queues to be
         * inactive, so it is safe. Otherwise taking the access_lock
         * would cause a dead lock.
         */
        switch (request) {
        case VHOST_USER_SET_FEATURES:
        case VHOST_USER_SET_PROTOCOL_FEATURES:
        case VHOST_USER_SET_OWNER:
        case VHOST_USER_SET_MEM_TABLE:
        case VHOST_USER_SET_LOG_BASE:
        case VHOST_USER_SET_LOG_FD:
        case VHOST_USER_SET_VRING_NUM:
        case VHOST_USER_SET_VRING_ADDR:
        case VHOST_USER_SET_VRING_BASE:
        case VHOST_USER_SET_VRING_KICK:
        case VHOST_USER_SET_VRING_CALL:
        case VHOST_USER_SET_VRING_ERR:
        case VHOST_USER_SET_VRING_ENABLE:
        case VHOST_USER_SEND_RARP:
        case VHOST_USER_NET_SET_MTU:
        case VHOST_USER_SET_SLAVE_REQ_FD:
                if (!(dev->flags & VIRTIO_DEV_VDPA_CONFIGURED)) {
                        vhost_user_lock_all_queue_pairs(dev);
                        unlock_required = 1;
                }
                break;
        default:
                break;

        }

        handled = false;
        if (dev->extern_ops.pre_msg_handle) {
                ret = (*dev->extern_ops.pre_msg_handle)(dev->vid,
                                (void *)&msg);
                switch (ret) {
                case RTE_VHOST_MSG_RESULT_REPLY:
                        send_vhost_reply(fd, &msg);
                        /* Fall-through */
                case RTE_VHOST_MSG_RESULT_ERR:
                case RTE_VHOST_MSG_RESULT_OK:
                        handled = true;
                        goto skip_to_post_handle;
                case RTE_VHOST_MSG_RESULT_NOT_HANDLED:
                default:
                        break;
                }
        }

        if (request > VHOST_USER_NONE && request < VHOST_USER_MAX) {
                if (!vhost_message_handlers[request])
                        goto skip_to_post_handle;
                ret = vhost_message_handlers[request](&dev, &msg, fd);

                switch (ret) {
                case RTE_VHOST_MSG_RESULT_ERR:
                        VHOST_LOG_CONFIG(ERR,
                                "Processing %s failed.\n",
                                vhost_message_str[request]);
                        handled = true;
                        break;
                case RTE_VHOST_MSG_RESULT_OK:
                        VHOST_LOG_CONFIG(DEBUG,
                                "Processing %s succeeded.\n",
                                vhost_message_str[request]);
                        handled = true;
                        break;
                case RTE_VHOST_MSG_RESULT_REPLY:
                        VHOST_LOG_CONFIG(DEBUG,
                                "Processing %s succeeded and needs reply.\n",
                                vhost_message_str[request]);
                        send_vhost_reply(fd, &msg);
                        handled = true;
                        break;
                default:
                        break;
                }
        }

skip_to_post_handle:
        if (ret != RTE_VHOST_MSG_RESULT_ERR &&
                        dev->extern_ops.post_msg_handle) {
                ret = (*dev->extern_ops.post_msg_handle)(dev->vid,
                                (void *)&msg);
                switch (ret) {
                case RTE_VHOST_MSG_RESULT_REPLY:
                        send_vhost_reply(fd, &msg);
                        /* Fall-through */
                case RTE_VHOST_MSG_RESULT_ERR:
                case RTE_VHOST_MSG_RESULT_OK:
                        handled = true;
                case RTE_VHOST_MSG_RESULT_NOT_HANDLED:
                default:
                        break;
                }
        }

        if (unlock_required)
                vhost_user_unlock_all_queue_pairs(dev);

        /* If message was not handled at this stage, treat it as an error */
        if (!handled) {
                VHOST_LOG_CONFIG(ERR,
                        "vhost message (req: %d) was not handled.\n", request);
                close_msg_fds(&msg);
                ret = RTE_VHOST_MSG_RESULT_ERR;
        }

        /*
         * If the request required a reply that was already sent,
         * this optional reply-ack won't be sent as the
         * VHOST_USER_NEED_REPLY was cleared in send_vhost_reply().
         */
        if (msg.flags & VHOST_USER_NEED_REPLY) {
                msg.payload.u64 = ret == RTE_VHOST_MSG_RESULT_ERR;
                msg.size = sizeof(msg.payload.u64);
                msg.fd_num = 0;
                send_vhost_reply(fd, &msg);
        } else if (ret == RTE_VHOST_MSG_RESULT_ERR) {
                VHOST_LOG_CONFIG(ERR,
                        "vhost message handling failed.\n");
                return -1;
        }

        for (i = 0; i < dev->nr_vring; i++) {
                struct vhost_virtqueue *vq = dev->virtqueue[i];
                bool cur_ready = vq_is_ready(dev, vq);

                if (cur_ready != (vq && vq->ready)) {
                        vq->ready = cur_ready;
                        vhost_user_notify_queue_state(dev, i, cur_ready);
                }
        }


        if (!virtio_is_ready(dev))
                goto out;

        /*
         * Virtio is now ready. If not done already, it is time
         * to notify the application it can process the rings and
         * configure the vDPA device if present.
         */

        if (!(dev->flags & VIRTIO_DEV_RUNNING)) {
                if (dev->notify_ops->new_device(dev->vid) == 0)
                        dev->flags |= VIRTIO_DEV_RUNNING;
        }

        vdpa_dev = dev->vdpa_dev;
        if (!vdpa_dev)
                goto out;

        if (!(dev->flags & VIRTIO_DEV_VDPA_CONFIGURED)) {
                if (vdpa_dev->ops->dev_conf(dev->vid))
                        VHOST_LOG_CONFIG(ERR,
                                         "Failed to configure vDPA device\n");
                else
                        dev->flags |= VIRTIO_DEV_VDPA_CONFIGURED;
        }

out:
        return 0;
}

static int process_slave_message_reply(struct virtio_net *dev,
                                       const struct VhostUserMsg *msg)
{
        struct VhostUserMsg msg_reply;
        int ret;

        if ((msg->flags & VHOST_USER_NEED_REPLY) == 0)
                return 0;

        ret = read_vhost_message(dev->slave_req_fd, &msg_reply);
        if (ret <= 0) {
                if (ret < 0)
                        VHOST_LOG_CONFIG(ERR,
                                "vhost read slave message reply failed\n");
                else
                        VHOST_LOG_CONFIG(INFO,
                                "vhost peer closed\n");
                ret = -1;
                goto out;
        }

        ret = 0;
        if (msg_reply.request.slave != msg->request.slave) {
                VHOST_LOG_CONFIG(ERR,
                        "Received unexpected msg type (%u), expected %u\n",
                        msg_reply.request.slave, msg->request.slave);
                ret = -1;
                goto out;
        }

        ret = msg_reply.payload.u64 ? -1 : 0;

out:
        rte_spinlock_unlock(&dev->slave_req_lock);
        return ret;
}

int
vhost_user_iotlb_miss(struct virtio_net *dev, uint64_t iova, uint8_t perm)
{
        int ret;
        struct VhostUserMsg msg = {
                .request.slave = VHOST_USER_SLAVE_IOTLB_MSG,
                .flags = VHOST_USER_VERSION,
                .size = sizeof(msg.payload.iotlb),
                .payload.iotlb = {
                        .iova = iova,
                        .perm = perm,
                        .type = VHOST_IOTLB_MISS,
                },
        };

        ret = send_vhost_message(dev->slave_req_fd, &msg);
        if (ret < 0) {
                VHOST_LOG_CONFIG(ERR,
                                "Failed to send IOTLB miss message (%d)\n",
                                ret);
                return ret;
        }

        return 0;
}

static int
vhost_user_slave_config_change(struct virtio_net *dev, bool need_reply)
{
        int ret;
        struct VhostUserMsg msg = {
                .request.slave = VHOST_USER_SLAVE_CONFIG_CHANGE_MSG,
                .flags = VHOST_USER_VERSION,
                .size = 0,
        };

        if (need_reply)
                msg.flags |= VHOST_USER_NEED_REPLY;

        ret = send_vhost_slave_message(dev, &msg);
        if (ret < 0) {
                VHOST_LOG_CONFIG(ERR,
                                "Failed to send config change (%d)\n",
                                ret);
                return ret;
        }

        return process_slave_message_reply(dev, &msg);
}

int
rte_vhost_slave_config_change(int vid, bool need_reply)
{
        struct virtio_net *dev;

        dev = get_device(vid);
        if (!dev)
                return -ENODEV;

        return vhost_user_slave_config_change(dev, need_reply);
}

static int vhost_user_slave_set_vring_host_notifier(struct virtio_net *dev,
                                                    int index, int fd,
                                                    uint64_t offset,
                                                    uint64_t size)
{
        int ret;
        struct VhostUserMsg msg = {
                .request.slave = VHOST_USER_SLAVE_VRING_HOST_NOTIFIER_MSG,
                .flags = VHOST_USER_VERSION | VHOST_USER_NEED_REPLY,
                .size = sizeof(msg.payload.area),
                .payload.area = {
                        .u64 = index & VHOST_USER_VRING_IDX_MASK,
                        .size = size,
                        .offset = offset,
                },
        };

        if (fd < 0)
                msg.payload.area.u64 |= VHOST_USER_VRING_NOFD_MASK;
        else {
                msg.fds[0] = fd;
                msg.fd_num = 1;
        }

        ret = send_vhost_slave_message(dev, &msg);
        if (ret < 0) {
                VHOST_LOG_CONFIG(ERR,
                        "Failed to set host notifier (%d)\n", ret);
                return ret;
        }

        return process_slave_message_reply(dev, &msg);
}

int rte_vhost_host_notifier_ctrl(int vid, uint16_t qid, bool enable)
{
        struct virtio_net *dev;
        struct rte_vdpa_device *vdpa_dev;
        int vfio_device_fd, ret = 0;
        uint64_t offset, size;
        unsigned int i, q_start, q_last;

        dev = get_device(vid);
        if (!dev)
                return -ENODEV;

        vdpa_dev = dev->vdpa_dev;
        if (vdpa_dev == NULL)
                return -ENODEV;

        if (!(dev->features & (1ULL << VIRTIO_F_VERSION_1)) ||
            !(dev->features & (1ULL << VHOST_USER_F_PROTOCOL_FEATURES)) ||
            !(dev->protocol_features &
                        (1ULL << VHOST_USER_PROTOCOL_F_SLAVE_REQ)) ||
            !(dev->protocol_features &
                        (1ULL << VHOST_USER_PROTOCOL_F_SLAVE_SEND_FD)) ||
            !(dev->protocol_features &
                        (1ULL << VHOST_USER_PROTOCOL_F_HOST_NOTIFIER)))
                return -ENOTSUP;

        if (qid == RTE_VHOST_QUEUE_ALL) {
                q_start = 0;
                q_last = dev->nr_vring - 1;
        } else {
                if (qid >= dev->nr_vring)
                        return -EINVAL;
                q_start = qid;
                q_last = qid;
        }

        RTE_FUNC_PTR_OR_ERR_RET(vdpa_dev->ops->get_vfio_device_fd, -ENOTSUP);
        RTE_FUNC_PTR_OR_ERR_RET(vdpa_dev->ops->get_notify_area, -ENOTSUP);

        vfio_device_fd = vdpa_dev->ops->get_vfio_device_fd(vid);
        if (vfio_device_fd < 0)
                return -ENOTSUP;

        if (enable) {
                for (i = q_start; i <= q_last; i++) {
                        if (vdpa_dev->ops->get_notify_area(vid, i, &offset,
                                        &size) < 0) {
                                ret = -ENOTSUP;
                                goto disable;
                        }

                        if (vhost_user_slave_set_vring_host_notifier(dev, i,
                                        vfio_device_fd, offset, size) < 0) {
                                ret = -EFAULT;
                                goto disable;
                        }
                }
        } else {
disable:
                for (i = q_start; i <= q_last; i++) {
                        vhost_user_slave_set_vring_host_notifier(dev, i, -1,
                                        0, 0);
                }
        }

        return ret;
}