// SPDX-License-Identifier: GPL-2.0-or-later /* * virtio API, vring and virtqueue functions definition * * Copyright Red Hat * Author: Laurent Vivier */ #ifndef VIRTIO_H #define VIRTIO_H #include #include /* Maximum size of a virtqueue */ #define VIRTQUEUE_MAX_SIZE 1024 /** * struct vu_ring - Virtqueue rings * @num: Size of the queue * @desc: Descriptor ring * @avail: Available ring * @used: Used ring * @log_guest_addr: Guest address for logging * @flags: Vring flags * VHOST_VRING_F_LOG is set if log address is valid */ struct vu_ring { unsigned int num; struct vring_desc *desc; struct vring_avail *avail; struct vring_used *used; uint64_t log_guest_addr; uint32_t flags; }; /** * struct vu_virtq - Virtqueue definition * @vring: Virtqueue rings * @last_avail_idx: Next head to pop * @shadow_avail_idx: Last avail_idx read from VQ. * @used_idx: Descriptor ring current index * @signalled_used: Last used index value we have signalled on * @signalled_used_valid: True if signalled_used if valid * @notification: True if the queues notify (via event * index or interrupt) * @inuse: Number of entries in use * @call_fd: The event file descriptor to signal when * buffers are used. * @kick_fd: The event file descriptor for adding * buffers to the vring * @err_fd: The event file descriptor to signal when * error occurs * @enable: True if the virtqueue is enabled * @started: True if the virtqueue is started * @vra: QEMU address of our rings */ struct vu_virtq { struct vu_ring vring; uint16_t last_avail_idx; uint16_t shadow_avail_idx; uint16_t used_idx; uint16_t signalled_used; bool signalled_used_valid; bool notification; unsigned int inuse; int call_fd; int kick_fd; int err_fd; unsigned int enable; bool started; struct vhost_vring_addr vra; }; /** * struct vu_dev_region - guest shared memory region * @gpa: Guest physical address of the region * @size: Memory size in bytes * @qva: QEMU virtual address * @mmap_offset: Offset where the region starts in the mapped memory * @mmap_addr: Address of the mapped memory */ struct vu_dev_region { uint64_t gpa; uint64_t size; uint64_t qva; uint64_t mmap_offset; uint64_t mmap_addr; }; #define VHOST_USER_MAX_QUEUES 2 /* * Set a reasonable maximum number of ram slots, which will be supported by * any architecture. */ #define VHOST_USER_MAX_RAM_SLOTS 32 /** * struct vu_dev - vhost-user device information * @context: Execution context * @nregions: Number of shared memory regions * @regions: Guest shared memory regions * @features: Vhost-user features * @protocol_features: Vhost-user protocol features */ struct vu_dev { struct ctx *context; uint32_t nregions; struct vu_dev_region regions[VHOST_USER_MAX_RAM_SLOTS]; struct vu_virtq vq[VHOST_USER_MAX_QUEUES]; uint64_t features; uint64_t protocol_features; }; /** * struct vu_virtq_element - virtqueue element * @index: Descriptor ring index * @out_num: Number of outgoing iovec buffers * @in_num: Number of incoming iovec buffers * @in_sg: Incoming iovec buffers * @out_sg: Outgoing iovec buffers */ struct vu_virtq_element { unsigned int index; unsigned int out_num; unsigned int in_num; struct iovec *in_sg; struct iovec *out_sg; }; /** * has_feature() - Check a feature bit in a features set * @features: Features set * @fb: Feature bit to check * * Return: True if the feature bit is set */ static inline bool has_feature(uint64_t features, unsigned int fbit) { return !!(features & (1ULL << fbit)); } /** * vu_has_feature() - Check if a virtio-net feature is available * @vdev: Vhost-user device * @bit: Feature to check * * Return: True if the feature is available */ static inline bool vu_has_feature(const struct vu_dev *vdev, unsigned int fbit) { return has_feature(vdev->features, fbit); } /** * vu_has_protocol_feature() - Check if a vhost-user feature is available * @vdev: Vhost-user device * @bit: Feature to check * * Return: True if the feature is available */ /* cppcheck-suppress unusedFunction */ static inline bool vu_has_protocol_feature(const struct vu_dev *vdev, unsigned int fbit) { return has_feature(vdev->protocol_features, fbit); } bool vu_queue_empty(struct vu_virtq *vq); void vu_queue_notify(const struct vu_dev *dev, struct vu_virtq *vq); int vu_queue_pop(struct vu_dev *dev, struct vu_virtq *vq, struct vu_virtq_element *elem); void vu_queue_detach_element(struct vu_virtq *vq); void vu_queue_unpop(struct vu_virtq *vq); bool vu_queue_rewind(struct vu_virtq *vq, unsigned int num); void vu_queue_fill_by_index(struct vu_virtq *vq, unsigned int index, unsigned int len, unsigned int idx); void vu_queue_fill(struct vu_virtq *vq, const struct vu_virtq_element *elem, unsigned int len, unsigned int idx); void vu_queue_flush(struct vu_virtq *vq, unsigned int count); #endif /* VIRTIO_H */