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09b6addf64
Fix a VDUSE documentation build warning:
Documentation/userspace-api/vduse.rst:21: WARNING: Title underline too short.
Fixes: 7bc7f61897
("Documentation: Add documentation for VDUSE")
Signed-off-by: Randy Dunlap <rdunlap@infradead.org>
Cc: Xie Yongji <xieyongji@bytedance.com>
Cc: Jason Wang <jasowang@redhat.com>
Cc: Michael S. Tsirkin <mst@redhat.com>
Cc: virtualization@lists.linux-foundation.org
Cc: Jonathan Corbet <corbet@lwn.net>
Cc: linux-doc@vger.kernel.org
Link: https://lore.kernel.org/r/20211006202904.30241-1-rdunlap@infradead.org
Signed-off-by: Michael S. Tsirkin <mst@redhat.com>
Reviewed-by: Xie Yongji <xieyongji@bytedance.com>
Acked-by: Jason Wang <jasowang@redhat.com>
234 lines
7.1 KiB
ReStructuredText
234 lines
7.1 KiB
ReStructuredText
==================================
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VDUSE - "vDPA Device in Userspace"
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==================================
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vDPA (virtio data path acceleration) device is a device that uses a
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datapath which complies with the virtio specifications with vendor
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specific control path. vDPA devices can be both physically located on
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the hardware or emulated by software. VDUSE is a framework that makes it
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possible to implement software-emulated vDPA devices in userspace. And
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to make the device emulation more secure, the emulated vDPA device's
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control path is handled in the kernel and only the data path is
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implemented in the userspace.
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Note that only virtio block device is supported by VDUSE framework now,
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which can reduce security risks when the userspace process that implements
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the data path is run by an unprivileged user. The support for other device
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types can be added after the security issue of corresponding device driver
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is clarified or fixed in the future.
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Create/Destroy VDUSE devices
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----------------------------
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VDUSE devices are created as follows:
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1. Create a new VDUSE instance with ioctl(VDUSE_CREATE_DEV) on
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/dev/vduse/control.
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2. Setup each virtqueue with ioctl(VDUSE_VQ_SETUP) on /dev/vduse/$NAME.
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3. Begin processing VDUSE messages from /dev/vduse/$NAME. The first
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messages will arrive while attaching the VDUSE instance to vDPA bus.
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4. Send the VDPA_CMD_DEV_NEW netlink message to attach the VDUSE
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instance to vDPA bus.
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VDUSE devices are destroyed as follows:
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1. Send the VDPA_CMD_DEV_DEL netlink message to detach the VDUSE
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instance from vDPA bus.
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2. Close the file descriptor referring to /dev/vduse/$NAME.
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3. Destroy the VDUSE instance with ioctl(VDUSE_DESTROY_DEV) on
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/dev/vduse/control.
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The netlink messages can be sent via vdpa tool in iproute2 or use the
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below sample codes:
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.. code-block:: c
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static int netlink_add_vduse(const char *name, enum vdpa_command cmd)
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{
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struct nl_sock *nlsock;
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struct nl_msg *msg;
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int famid;
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nlsock = nl_socket_alloc();
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if (!nlsock)
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return -ENOMEM;
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if (genl_connect(nlsock))
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goto free_sock;
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famid = genl_ctrl_resolve(nlsock, VDPA_GENL_NAME);
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if (famid < 0)
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goto close_sock;
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msg = nlmsg_alloc();
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if (!msg)
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goto close_sock;
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if (!genlmsg_put(msg, NL_AUTO_PORT, NL_AUTO_SEQ, famid, 0, 0, cmd, 0))
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goto nla_put_failure;
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NLA_PUT_STRING(msg, VDPA_ATTR_DEV_NAME, name);
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if (cmd == VDPA_CMD_DEV_NEW)
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NLA_PUT_STRING(msg, VDPA_ATTR_MGMTDEV_DEV_NAME, "vduse");
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if (nl_send_sync(nlsock, msg))
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goto close_sock;
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nl_close(nlsock);
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nl_socket_free(nlsock);
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return 0;
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nla_put_failure:
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nlmsg_free(msg);
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close_sock:
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nl_close(nlsock);
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free_sock:
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nl_socket_free(nlsock);
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return -1;
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}
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How VDUSE works
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---------------
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As mentioned above, a VDUSE device is created by ioctl(VDUSE_CREATE_DEV) on
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/dev/vduse/control. With this ioctl, userspace can specify some basic configuration
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such as device name (uniquely identify a VDUSE device), virtio features, virtio
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configuration space, the number of virtqueues and so on for this emulated device.
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Then a char device interface (/dev/vduse/$NAME) is exported to userspace for device
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emulation. Userspace can use the VDUSE_VQ_SETUP ioctl on /dev/vduse/$NAME to
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add per-virtqueue configuration such as the max size of virtqueue to the device.
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After the initialization, the VDUSE device can be attached to vDPA bus via
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the VDPA_CMD_DEV_NEW netlink message. Userspace needs to read()/write() on
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/dev/vduse/$NAME to receive/reply some control messages from/to VDUSE kernel
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module as follows:
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.. code-block:: c
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static int vduse_message_handler(int dev_fd)
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{
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int len;
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struct vduse_dev_request req;
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struct vduse_dev_response resp;
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len = read(dev_fd, &req, sizeof(req));
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if (len != sizeof(req))
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return -1;
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resp.request_id = req.request_id;
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switch (req.type) {
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/* handle different types of messages */
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}
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len = write(dev_fd, &resp, sizeof(resp));
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if (len != sizeof(resp))
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return -1;
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return 0;
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}
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There are now three types of messages introduced by VDUSE framework:
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- VDUSE_GET_VQ_STATE: Get the state for virtqueue, userspace should return
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avail index for split virtqueue or the device/driver ring wrap counters and
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the avail and used index for packed virtqueue.
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- VDUSE_SET_STATUS: Set the device status, userspace should follow
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the virtio spec: https://docs.oasis-open.org/virtio/virtio/v1.1/virtio-v1.1.html
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to process this message. For example, fail to set the FEATURES_OK device
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status bit if the device can not accept the negotiated virtio features
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get from the VDUSE_DEV_GET_FEATURES ioctl.
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- VDUSE_UPDATE_IOTLB: Notify userspace to update the memory mapping for specified
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IOVA range, userspace should firstly remove the old mapping, then setup the new
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mapping via the VDUSE_IOTLB_GET_FD ioctl.
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After DRIVER_OK status bit is set via the VDUSE_SET_STATUS message, userspace is
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able to start the dataplane processing as follows:
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1. Get the specified virtqueue's information with the VDUSE_VQ_GET_INFO ioctl,
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including the size, the IOVAs of descriptor table, available ring and used ring,
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the state and the ready status.
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2. Pass the above IOVAs to the VDUSE_IOTLB_GET_FD ioctl so that those IOVA regions
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can be mapped into userspace. Some sample codes is shown below:
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.. code-block:: c
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static int perm_to_prot(uint8_t perm)
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{
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int prot = 0;
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switch (perm) {
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case VDUSE_ACCESS_WO:
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prot |= PROT_WRITE;
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break;
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case VDUSE_ACCESS_RO:
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prot |= PROT_READ;
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break;
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case VDUSE_ACCESS_RW:
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prot |= PROT_READ | PROT_WRITE;
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break;
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}
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return prot;
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}
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static void *iova_to_va(int dev_fd, uint64_t iova, uint64_t *len)
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{
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int fd;
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void *addr;
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size_t size;
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struct vduse_iotlb_entry entry;
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entry.start = iova;
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entry.last = iova;
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/*
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* Find the first IOVA region that overlaps with the specified
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* range [start, last] and return the corresponding file descriptor.
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*/
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fd = ioctl(dev_fd, VDUSE_IOTLB_GET_FD, &entry);
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if (fd < 0)
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return NULL;
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size = entry.last - entry.start + 1;
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*len = entry.last - iova + 1;
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addr = mmap(0, size, perm_to_prot(entry.perm), MAP_SHARED,
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fd, entry.offset);
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close(fd);
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if (addr == MAP_FAILED)
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return NULL;
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/*
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* Using some data structures such as linked list to store
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* the iotlb mapping. The munmap(2) should be called for the
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* cached mapping when the corresponding VDUSE_UPDATE_IOTLB
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* message is received or the device is reset.
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*/
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return addr + iova - entry.start;
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}
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3. Setup the kick eventfd for the specified virtqueues with the VDUSE_VQ_SETUP_KICKFD
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ioctl. The kick eventfd is used by VDUSE kernel module to notify userspace to
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consume the available ring. This is optional since userspace can choose to poll the
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available ring instead.
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4. Listen to the kick eventfd (optional) and consume the available ring. The buffer
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described by the descriptors in the descriptor table should be also mapped into
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userspace via the VDUSE_IOTLB_GET_FD ioctl before accessing.
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5. Inject an interrupt for specific virtqueue with the VDUSE_INJECT_VQ_IRQ ioctl
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after the used ring is filled.
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For more details on the uAPI, please see include/uapi/linux/vduse.h.
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