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|
// SPDX-License-Identifier: GPL-2.0-only
/*
* Helpers for the host side of a virtio ring.
*
* Since these may be in userspace, we use (inline) accessors.
*/
#include <linux/compiler.h>
#include <linux/module.h>
#include <linux/vringh.h>
#include <linux/virtio_ring.h>
#include <linux/kernel.h>
#include <linux/ratelimit.h>
#include <linux/uaccess.h>
#include <linux/slab.h>
#include <linux/export.h>
#if IS_REACHABLE(CONFIG_VHOST_IOTLB)
#include <linux/bvec.h>
#include <linux/highmem.h>
#include <linux/vhost_iotlb.h>
#endif
#include <uapi/linux/virtio_config.h>
static __printf(1,2) __cold void vringh_bad(const char *fmt, ...)
{
static DEFINE_RATELIMIT_STATE(vringh_rs,
DEFAULT_RATELIMIT_INTERVAL,
DEFAULT_RATELIMIT_BURST);
if (__ratelimit(&vringh_rs)) {
va_list ap;
va_start(ap, fmt);
printk(KERN_NOTICE "vringh:");
vprintk(fmt, ap);
va_end(ap);
}
}
/* Returns vring->num if empty, -ve on error. */
static inline int __vringh_get_head(const struct vringh *vrh,
int (*getu16)(const struct vringh *vrh,
u16 *val, const __virtio16 *p),
u16 *last_avail_idx)
{
u16 avail_idx, i, head;
int err;
err = getu16(vrh, &avail_idx, &vrh->vring.avail->idx);
if (err) {
vringh_bad("Failed to access avail idx at %p",
&vrh->vring.avail->idx);
return err;
}
if (*last_avail_idx == avail_idx)
return vrh->vring.num;
/* Only get avail ring entries after they have been exposed by guest. */
virtio_rmb(vrh->weak_barriers);
i = *last_avail_idx & (vrh->vring.num - 1);
err = getu16(vrh, &head, &vrh->vring.avail->ring[i]);
if (err) {
vringh_bad("Failed to read head: idx %d address %p",
*last_avail_idx, &vrh->vring.avail->ring[i]);
return err;
}
if (head >= vrh->vring.num) {
vringh_bad("Guest says index %u > %u is available",
head, vrh->vring.num);
return -EINVAL;
}
(*last_avail_idx)++;
return head;
}
/**
* vringh_kiov_advance - skip bytes from vring_kiov
* @iov: an iov passed to vringh_getdesc_*() (updated as we consume)
* @len: the maximum length to advance
*/
void vringh_kiov_advance(struct vringh_kiov *iov, size_t len)
{
while (len && iov->i < iov->used) {
size_t partlen = min(iov->iov[iov->i].iov_len, len);
iov->consumed += partlen;
iov->iov[iov->i].iov_len -= partlen;
iov->iov[iov->i].iov_base += partlen;
if (!iov->iov[iov->i].iov_len) {
/* Fix up old iov element then increment. */
iov->iov[iov->i].iov_len = iov->consumed;
iov->iov[iov->i].iov_base -= iov->consumed;
iov->consumed = 0;
iov->i++;
}
len -= partlen;
}
}
EXPORT_SYMBOL(vringh_kiov_advance);
/* Copy some bytes to/from the iovec. Returns num copied. */
static inline ssize_t vringh_iov_xfer(struct vringh *vrh,
struct vringh_kiov *iov,
void *ptr, size_t len,
int (*xfer)(const struct vringh *vrh,
void *addr, void *ptr,
size_t len))
{
int err, done = 0;
while (len && iov->i < iov->used) {
size_t partlen;
partlen = min(iov->iov[iov->i].iov_len, len);
err = xfer(vrh, iov->iov[iov->i].iov_base, ptr, partlen);
if (err)
return err;
done += partlen;
len -= partlen;
ptr += partlen;
iov->consumed += partlen;
iov->iov[iov->i].iov_len -= partlen;
iov->iov[iov->i].iov_base += partlen;
if (!iov->iov[iov->i].iov_len) {
/* Fix up old iov element then increment. */
iov->iov[iov->i].iov_len = iov->consumed;
iov->iov[iov->i].iov_base -= iov->consumed;
iov->consumed = 0;
iov->i++;
}
}
return done;
}
/* May reduce *len if range is shorter. */
static inline bool range_check(struct vringh *vrh, u64 addr, size_t *len,
struct vringh_range *range,
bool (*getrange)(struct vringh *,
u64, struct vringh_range *))
{
if (addr < range->start || addr > range->end_incl) {
if (!getrange(vrh, addr, range))
return false;
}
BUG_ON(addr < range->start || addr > range->end_incl);
/* To end of memory? */
if (unlikely(addr + *len == 0)) {
if (range->end_incl == -1ULL)
return true;
goto truncate;
}
/* Otherwise, don't wrap. */
if (addr + *len < addr) {
vringh_bad("Wrapping descriptor %zu@0x%llx",
*len, (unsigned long long)addr);
return false;
}
if (unlikely(addr + *len - 1 > range->end_incl))
goto truncate;
return true;
truncate:
*len = range->end_incl + 1 - addr;
return true;
}
static inline bool no_range_check(struct vringh *vrh, u64 addr, size_t *len,
struct vringh_range *range,
bool (*getrange)(struct vringh *,
u64, struct vringh_range *))
{
return true;
}
/* No reason for this code to be inline. */
static int move_to_indirect(const struct vringh *vrh,
int *up_next, u16 *i, void *addr,
const struct vring_desc *desc,
struct vring_desc **descs, int *desc_max)
{
u32 len;
/* Indirect tables can't have indirect. */
if (*up_next != -1) {
vringh_bad("Multilevel indirect %u->%u", *up_next, *i);
return -EINVAL;
}
len = vringh32_to_cpu(vrh, desc->len);
if (unlikely(len % sizeof(struct vring_desc))) {
vringh_bad("Strange indirect len %u", desc->len);
return -EINVAL;
}
/* We will check this when we follow it! */
if (desc->flags & cpu_to_vringh16(vrh, VRING_DESC_F_NEXT))
*up_next = vringh16_to_cpu(vrh, desc->next);
else
*up_next = -2;
*descs = addr;
*desc_max = len / sizeof(struct vring_desc);
/* Now, start at the first indirect. */
*i = 0;
return 0;
}
static int resize_iovec(struct vringh_kiov *iov, gfp_t gfp)
{
struct kvec *new;
unsigned int flag, new_num = (iov->max_num & ~VRINGH_IOV_ALLOCATED) * 2;
if (new_num < 8)
new_num = 8;
flag = (iov->max_num & VRINGH_IOV_ALLOCATED);
if (flag)
new = krealloc_array(iov->iov, new_num,
sizeof(struct iovec), gfp);
else {
new = kmalloc_array(new_num, sizeof(struct iovec), gfp);
if (new) {
memcpy(new, iov->iov,
iov->max_num * sizeof(struct iovec));
flag = VRINGH_IOV_ALLOCATED;
}
}
if (!new)
return -ENOMEM;
iov->iov = new;
iov->max_num = (new_num | flag);
return 0;
}
static u16 __cold return_from_indirect(const struct vringh *vrh, int *up_next,
struct vring_desc **descs, int *desc_max)
{
u16 i = *up_next;
*up_next = -1;
*descs = vrh->vring.desc;
*desc_max = vrh->vring.num;
return i;
}
static int slow_copy(struct vringh *vrh, void *dst, const void *src,
bool (*rcheck)(struct vringh *vrh, u64 addr, size_t *len,
struct vringh_range *range,
bool (*getrange)(struct vringh *vrh,
u64,
struct vringh_range *)),
bool (*getrange)(struct vringh *vrh,
u64 addr,
struct vringh_range *r),
struct vringh_range *range,
int (*copy)(const struct vringh *vrh,
void *dst, const void *src, size_t len))
{
size_t part, len = sizeof(struct vring_desc);
do {
u64 addr;
int err;
part = len;
addr = (u64)(unsigned long)src - range->offset;
if (!rcheck(vrh, addr, &part, range, getrange))
return -EINVAL;
err = copy(vrh, dst, src, part);
if (err)
return err;
dst += part;
src += part;
len -= part;
} while (len);
return 0;
}
static inline int
__vringh_iov(struct vringh *vrh, u16 i,
struct vringh_kiov *riov,
struct vringh_kiov *wiov,
bool (*rcheck)(struct vringh *vrh, u64 addr, size_t *len,
struct vringh_range *range,
bool (*getrange)(struct vringh *, u64,
struct vringh_range *)),
bool (*getrange)(struct vringh *, u64, struct vringh_range *),
gfp_t gfp,
int (*copy)(const struct vringh *vrh,
void *dst, const void *src, size_t len))
{
int err, count = 0, indirect_count = 0, up_next, desc_max;
struct vring_desc desc, *descs;
struct vringh_range range = { -1ULL, 0 }, slowrange;
bool slow = false;
/* We start traversing vring's descriptor table. */
descs = vrh->vring.desc;
desc_max = vrh->vring.num;
up_next = -1;
/* You must want something! */
if (WARN_ON(!riov && !wiov))
return -EINVAL;
if (riov)
riov->i = riov->used = riov->consumed = 0;
if (wiov)
wiov->i = wiov->used = wiov->consumed = 0;
for (;;) {
void *addr;
struct vringh_kiov *iov;
size_t len;
if (unlikely(slow))
err = slow_copy(vrh, &desc, &descs[i], rcheck, getrange,
&slowrange, copy);
else
err = copy(vrh, &desc, &descs[i], sizeof(desc));
if (unlikely(err))
goto fail;
if (unlikely(desc.flags &
cpu_to_vringh16(vrh, VRING_DESC_F_INDIRECT))) {
u64 a = vringh64_to_cpu(vrh, desc.addr);
/* Make sure it's OK, and get offset. */
len = vringh32_to_cpu(vrh, desc.len);
if (!rcheck(vrh, a, &len, &range, getrange)) {
err = -EINVAL;
goto fail;
}
if (unlikely(len != vringh32_to_cpu(vrh, desc.len))) {
slow = true;
/* We need to save this range to use offset */
slowrange = range;
}
addr = (void *)(long)(a + range.offset);
err = move_to_indirect(vrh, &up_next, &i, addr, &desc,
&descs, &desc_max);
if (err)
goto fail;
continue;
}
if (up_next == -1)
count++;
else
indirect_count++;
if (count > vrh->vring.num || indirect_count > desc_max) {
vringh_bad("Descriptor loop in %p", descs);
err = -ELOOP;
goto fail;
}
if (desc.flags & cpu_to_vringh16(vrh, VRING_DESC_F_WRITE))
iov = wiov;
else {
iov = riov;
if (unlikely(wiov && wiov->used)) {
vringh_bad("Readable desc %p after writable",
&descs[i]);
err = -EINVAL;
goto fail;
}
}
if (!iov) {
vringh_bad("Unexpected %s desc",
!wiov ? "writable" : "readable");
err = -EPROTO;
goto fail;
}
again:
/* Make sure it's OK, and get offset. */
len = vringh32_to_cpu(vrh, desc.len);
if (!rcheck(vrh, vringh64_to_cpu(vrh, desc.addr), &len, &range,
getrange)) {
err = -EINVAL;
goto fail;
}
addr = (void *)(unsigned long)(vringh64_to_cpu(vrh, desc.addr) +
range.offset);
if (unlikely(iov->used == (iov->max_num & ~VRINGH_IOV_ALLOCATED))) {
err = resize_iovec(iov, gfp);
if (err)
goto fail;
}
iov->iov[iov->used].iov_base = addr;
iov->iov[iov->used].iov_len = len;
iov->used++;
if (unlikely(len != vringh32_to_cpu(vrh, desc.len))) {
desc.len = cpu_to_vringh32(vrh,
vringh32_to_cpu(vrh, desc.len) - len);
desc.addr = cpu_to_vringh64(vrh,
vringh64_to_cpu(vrh, desc.addr) + len);
goto again;
}
if (desc.flags & cpu_to_vringh16(vrh, VRING_DESC_F_NEXT)) {
i = vringh16_to_cpu(vrh, desc.next);
} else {
/* Just in case we need to finish traversing above. */
if (unlikely(up_next > 0)) {
i = return_from_indirect(vrh, &up_next,
&descs, &desc_max);
slow = false;
indirect_count = 0;
} else
break;
}
if (i >= desc_max) {
vringh_bad("Chained index %u > %u", i, desc_max);
err = -EINVAL;
goto fail;
}
}
return 0;
fail:
return err;
}
static inline int __vringh_complete(struct vringh *vrh,
const struct vring_used_elem *used,
unsigned int num_used,
int (*putu16)(const struct vringh *vrh,
__virtio16 *p, u16 val),
int (*putused)(const struct vringh *vrh,
struct vring_used_elem *dst,
const struct vring_used_elem
*src, unsigned num))
{
struct vring_used *used_ring;
int err;
u16 used_idx, off;
used_ring = vrh->vring.used;
used_idx = vrh->last_used_idx + vrh->completed;
off = used_idx % vrh->vring.num;
/* Compiler knows num_used == 1 sometimes, hence extra check */
if (num_used > 1 && unlikely(off + num_used >= vrh->vring.num)) {
u16 part = vrh->vring.num - off;
err = putused(vrh, &used_ring->ring[off], used, part);
if (!err)
err = putused(vrh, &used_ring->ring[0], used + part,
num_used - part);
} else
err = putused(vrh, &used_ring->ring[off], used, num_used);
if (err) {
vringh_bad("Failed to write %u used entries %u at %p",
num_used, off, &used_ring->ring[off]);
return err;
}
/* Make sure buffer is written before we update index. */
virtio_wmb(vrh->weak_barriers);
err = putu16(vrh, &vrh->vring.used->idx, used_idx + num_used);
if (err) {
vringh_bad("Failed to update used index at %p",
&vrh->vring.used->idx);
return err;
}
vrh->completed += num_used;
return 0;
}
static inline int __vringh_need_notify(struct vringh *vrh,
int (*getu16)(const struct vringh *vrh,
u16 *val,
const __virtio16 *p))
{
bool notify;
u16 used_event;
int err;
/* Flush out used index update. This is paired with the
* barrier that the Guest executes when enabling
* interrupts. */
virtio_mb(vrh->weak_barriers);
/* Old-style, without event indices. */
if (!vrh->event_indices) {
u16 flags;
err = getu16(vrh, &flags, &vrh->vring.avail->flags);
if (err) {
vringh_bad("Failed to get flags at %p",
&vrh->vring.avail->flags);
return err;
}
return (!(flags & VRING_AVAIL_F_NO_INTERRUPT));
}
/* Modern: we know when other side wants to know. */
err = getu16(vrh, &used_event, &vring_used_event(&vrh->vring));
if (err) {
vringh_bad("Failed to get used event idx at %p",
&vring_used_event(&vrh->vring));
return err;
}
/* Just in case we added so many that we wrap. */
if (unlikely(vrh->completed > 0xffff))
notify = true;
else
notify = vring_need_event(used_event,
vrh->last_used_idx + vrh->completed,
vrh->last_used_idx);
vrh->last_used_idx += vrh->completed;
vrh->completed = 0;
return notify;
}
static inline bool __vringh_notify_enable(struct vringh *vrh,
int (*getu16)(const struct vringh *vrh,
u16 *val, const __virtio16 *p),
int (*putu16)(const struct vringh *vrh,
__virtio16 *p, u16 val))
{
u16 avail;
if (!vrh->event_indices) {
/* Old-school; update flags. */
if (putu16(vrh, &vrh->vring.used->flags, 0) != 0) {
vringh_bad("Clearing used flags %p",
&vrh->vring.used->flags);
return true;
}
} else {
if (putu16(vrh, &vring_avail_event(&vrh->vring),
vrh->last_avail_idx) != 0) {
vringh_bad("Updating avail event index %p",
&vring_avail_event(&vrh->vring));
return true;
}
}
/* They could have slipped one in as we were doing that: make
* sure it's written, then check again. */
virtio_mb(vrh->weak_barriers);
if (getu16(vrh, &avail, &vrh->vring.avail->idx) != 0) {
vringh_bad("Failed to check avail idx at %p",
&vrh->vring.avail->idx);
return true;
}
/* This is unlikely, so we just leave notifications enabled
* (if we're using event_indices, we'll only get one
* notification anyway). */
return avail == vrh->last_avail_idx;
}
static inline void __vringh_notify_disable(struct vringh *vrh,
int (*putu16)(const struct vringh *vrh,
__virtio16 *p, u16 val))
{
if (!vrh->event_indices) {
/* Old-school; update flags. */
if (putu16(vrh, &vrh->vring.used->flags,
VRING_USED_F_NO_NOTIFY)) {
vringh_bad("Setting used flags %p",
&vrh->vring.used->flags);
}
}
}
/* Userspace access helpers: in this case, addresses are really userspace. */
static inline int getu16_user(const struct vringh *vrh, u16 *val, const __virtio16 *p)
{
__virtio16 v = 0;
int rc = get_user(v, (__force __virtio16 __user *)p);
*val = vringh16_to_cpu(vrh, v);
return rc;
}
static inline int putu16_user(const struct vringh *vrh, __virtio16 *p, u16 val)
{
__virtio16 v = cpu_to_vringh16(vrh, val);
return put_user(v, (__force __virtio16 __user *)p);
}
static inline int copydesc_user(const struct vringh *vrh,
void *dst, const void *src, size_t len)
{
return copy_from_user(dst, (__force void __user *)src, len) ?
-EFAULT : 0;
}
static inline int putused_user(const struct vringh *vrh,
struct vring_used_elem *dst,
const struct vring_used_elem *src,
unsigned int num)
{
return copy_to_user((__force void __user *)dst, src,
sizeof(*dst) * num) ? -EFAULT : 0;
}
static inline int xfer_from_user(const struct vringh *vrh, void *src,
void *dst, size_t len)
{
return copy_from_user(dst, (__force void __user *)src, len) ?
-EFAULT : 0;
}
static inline int xfer_to_user(const struct vringh *vrh,
void *dst, void *src, size_t len)
{
return copy_to_user((__force void __user *)dst, src, len) ?
-EFAULT : 0;
}
/**
* vringh_init_user - initialize a vringh for a userspace vring.
* @vrh: the vringh to initialize.
* @features: the feature bits for this ring.
* @num: the number of elements.
* @weak_barriers: true if we only need memory barriers, not I/O.
* @desc: the userspace descriptor pointer.
* @avail: the userspace avail pointer.
* @used: the userspace used pointer.
*
* Returns an error if num is invalid: you should check pointers
* yourself!
*/
int vringh_init_user(struct vringh *vrh, u64 features,
unsigned int num, bool weak_barriers,
vring_desc_t __user *desc,
vring_avail_t __user *avail,
vring_used_t __user *used)
{
/* Sane power of 2 please! */
if (!num || num > 0xffff || (num & (num - 1))) {
vringh_bad("Bad ring size %u", num);
return -EINVAL;
}
vrh->little_endian = (features & (1ULL << VIRTIO_F_VERSION_1));
vrh->event_indices = (features & (1 << VIRTIO_RING_F_EVENT_IDX));
vrh->weak_barriers = weak_barriers;
vrh->completed = 0;
vrh->last_avail_idx = 0;
vrh->last_used_idx = 0;
vrh->vring.num = num;
/* vring expects kernel addresses, but only used via accessors. */
vrh->vring.desc = (__force struct vring_desc *)desc;
vrh->vring.avail = (__force struct vring_avail *)avail;
vrh->vring.used = (__force struct vring_used *)used;
return 0;
}
EXPORT_SYMBOL(vringh_init_user);
/**
* vringh_getdesc_user - get next available descriptor from userspace ring.
* @vrh: the userspace vring.
* @riov: where to put the readable descriptors (or NULL)
* @wiov: where to put the writable descriptors (or NULL)
* @getrange: function to call to check ranges.
* @head: head index we received, for passing to vringh_complete_user().
*
* Returns 0 if there was no descriptor, 1 if there was, or -errno.
*
* Note that on error return, you can tell the difference between an
* invalid ring and a single invalid descriptor: in the former case,
* *head will be vrh->vring.num. You may be able to ignore an invalid
* descriptor, but there's not much you can do with an invalid ring.
*
* Note that you can reuse riov and wiov with subsequent calls. Content is
* overwritten and memory reallocated if more space is needed.
* When you don't have to use riov and wiov anymore, you should clean up them
* calling vringh_iov_cleanup() to release the memory, even on error!
*/
int vringh_getdesc_user(struct vringh *vrh,
struct vringh_iov *riov,
struct vringh_iov *wiov,
bool (*getrange)(struct vringh *vrh,
u64 addr, struct vringh_range *r),
u16 *head)
{
int err;
*head = vrh->vring.num;
err = __vringh_get_head(vrh, getu16_user, &vrh->last_avail_idx);
if (err < 0)
return err;
/* Empty... */
if (err == vrh->vring.num)
return 0;
/* We need the layouts to be the identical for this to work */
BUILD_BUG_ON(sizeof(struct vringh_kiov) != sizeof(struct vringh_iov));
BUILD_BUG_ON(offsetof(struct vringh_kiov, iov) !=
offsetof(struct vringh_iov, iov));
BUILD_BUG_ON(offsetof(struct vringh_kiov, i) !=
offsetof(struct vringh_iov, i));
BUILD_BUG_ON(offsetof(struct vringh_kiov, used) !=
offsetof(struct vringh_iov, used));
BUILD_BUG_ON(offsetof(struct vringh_kiov, max_num) !=
offsetof(struct vringh_iov, max_num));
BUILD_BUG_ON(sizeof(struct iovec) != sizeof(struct kvec));
BUILD_BUG_ON(offsetof(struct iovec, iov_base) !=
offsetof(struct kvec, iov_base));
BUILD_BUG_ON(offsetof(struct iovec, iov_len) !=
offsetof(struct kvec, iov_len));
BUILD_BUG_ON(sizeof(((struct iovec *)NULL)->iov_base)
!= sizeof(((struct kvec *)NULL)->iov_base));
BUILD_BUG_ON(sizeof(((struct iovec *)NULL)->iov_len)
!= sizeof(((struct kvec *)NULL)->iov_len));
*head = err;
err = __vringh_iov(vrh, *head, (struct vringh_kiov *)riov,
(struct vringh_kiov *)wiov,
range_check, getrange, GFP_KERNEL, copydesc_user);
if (err)
return err;
return 1;
}
EXPORT_SYMBOL(vringh_getdesc_user);
/**
* vringh_iov_pull_user - copy bytes from vring_iov.
* @riov: the riov as passed to vringh_getdesc_user() (updated as we consume)
* @dst: the place to copy.
* @len: the maximum length to copy.
*
* Returns the bytes copied <= len or a negative errno.
*/
ssize_t vringh_iov_pull_user(struct vringh_iov *riov, void *dst, size_t len)
{
return vringh_iov_xfer(NULL, (struct vringh_kiov *)riov,
dst, len, xfer_from_user);
}
EXPORT_SYMBOL(vringh_iov_pull_user);
/**
* vringh_iov_push_user - copy bytes into vring_iov.
* @wiov: the wiov as passed to vringh_getdesc_user() (updated as we consume)
* @src: the place to copy from.
* @len: the maximum length to copy.
*
* Returns the bytes copied <= len or a negative errno.
*/
ssize_t vringh_iov_push_user(struct vringh_iov *wiov,
const void *src, size_t len)
{
return vringh_iov_xfer(NULL, (struct vringh_kiov *)wiov,
(void *)src, len, xfer_to_user);
}
EXPORT_SYMBOL(vringh_iov_push_user);
/**
* vringh_abandon_user - we've decided not to handle the descriptor(s).
* @vrh: the vring.
* @num: the number of descriptors to put back (ie. num
* vringh_get_user() to undo).
*
* The next vringh_get_user() will return the old descriptor(s) again.
*/
void vringh_abandon_user(struct vringh *vrh, unsigned int num)
{
/* We only update vring_avail_event(vr) when we want to be notified,
* so we haven't changed that yet. */
vrh->last_avail_idx -= num;
}
EXPORT_SYMBOL(vringh_abandon_user);
/**
* vringh_complete_user - we've finished with descriptor, publish it.
* @vrh: the vring.
* @head: the head as filled in by vringh_getdesc_user.
* @len: the length of data we have written.
*
* You should check vringh_need_notify_user() after one or more calls
* to this function.
*/
int vringh_complete_user(struct vringh *vrh, u16 head, u32 len)
{
struct vring_used_elem used;
used.id = cpu_to_vringh32(vrh, head);
used.len = cpu_to_vringh32(vrh, len);
return __vringh_complete(vrh, &used, 1, putu16_user, putused_user);
}
EXPORT_SYMBOL(vringh_complete_user);
/**
* vringh_complete_multi_user - we've finished with many descriptors.
* @vrh: the vring.
* @used: the head, length pairs.
* @num_used: the number of used elements.
*
* You should check vringh_need_notify_user() after one or more calls
* to this function.
*/
int vringh_complete_multi_user(struct vringh *vrh,
const struct vring_used_elem used[],
unsigned num_used)
{
return __vringh_complete(vrh, used, num_used,
putu16_user, putused_user);
}
EXPORT_SYMBOL(vringh_complete_multi_user);
/**
* vringh_notify_enable_user - we want to know if something changes.
* @vrh: the vring.
*
* This always enables notifications, but returns false if there are
* now more buffers available in the vring.
*/
bool vringh_notify_enable_user(struct vringh *vrh)
{
return __vringh_notify_enable(vrh, getu16_user, putu16_user);
}
EXPORT_SYMBOL(vringh_notify_enable_user);
/**
* vringh_notify_disable_user - don't tell us if something changes.
* @vrh: the vring.
*
* This is our normal running state: we disable and then only enable when
* we're going to sleep.
*/
void vringh_notify_disable_user(struct vringh *vrh)
{
__vringh_notify_disable(vrh, putu16_user);
}
EXPORT_SYMBOL(vringh_notify_disable_user);
/**
* vringh_need_notify_user - must we tell the other side about used buffers?
* @vrh: the vring we've called vringh_complete_user() on.
*
* Returns -errno or 0 if we don't need to tell the other side, 1 if we do.
*/
int vringh_need_notify_user(struct vringh *vrh)
{
return __vringh_need_notify(vrh, getu16_user);
}
EXPORT_SYMBOL(vringh_need_notify_user);
/* Kernelspace access helpers. */
static inline int getu16_kern(const struct vringh *vrh,
u16 *val, const __virtio16 *p)
{
*val = vringh16_to_cpu(vrh, READ_ONCE(*p));
return 0;
}
static inline int putu16_kern(const struct vringh *vrh, __virtio16 *p, u16 val)
{
WRITE_ONCE(*p, cpu_to_vringh16(vrh, val));
return 0;
}
static inline int copydesc_kern(const struct vringh *vrh,
void *dst, const void *src, size_t len)
{
memcpy(dst, src, len);
return 0;
}
static inline int putused_kern(const struct vringh *vrh,
struct vring_used_elem *dst,
const struct vring_used_elem *src,
unsigned int num)
{
memcpy(dst, src, num * sizeof(*dst));
return 0;
}
static inline int xfer_kern(const struct vringh *vrh, void *src,
void *dst, size_t len)
{
memcpy(dst, src, len);
return 0;
}
static inline int kern_xfer(const struct vringh *vrh, void *dst,
void *src, size_t len)
{
memcpy(dst, src, len);
return 0;
}
/**
* vringh_init_kern - initialize a vringh for a kernelspace vring.
* @vrh: the vringh to initialize.
* @features: the feature bits for this ring.
* @num: the number of elements.
* @weak_barriers: true if we only need memory barriers, not I/O.
* @desc: the userspace descriptor pointer.
* @avail: the userspace avail pointer.
* @used: the userspace used pointer.
*
* Returns an error if num is invalid.
*/
int vringh_init_kern(struct vringh *vrh, u64 features,
unsigned int num, bool weak_barriers,
struct vring_desc *desc,
struct vring_avail *avail,
struct vring_used *used)
{
/* Sane power of 2 please! */
if (!num || num > 0xffff || (num & (num - 1))) {
vringh_bad("Bad ring size %u", num);
return -EINVAL;
}
vrh->little_endian = (features & (1ULL << VIRTIO_F_VERSION_1));
vrh->event_indices = (features & (1 << VIRTIO_RING_F_EVENT_IDX));
vrh->weak_barriers = weak_barriers;
vrh->completed = 0;
vrh->last_avail_idx = 0;
vrh->last_used_idx = 0;
vrh->vring.num = num;
vrh->vring.desc = desc;
vrh->vring.avail = avail;
vrh->vring.used = used;
return 0;
}
EXPORT_SYMBOL(vringh_init_kern);
/**
* vringh_getdesc_kern - get next available descriptor from kernelspace ring.
* @vrh: the kernelspace vring.
* @riov: where to put the readable descriptors (or NULL)
* @wiov: where to put the writable descriptors (or NULL)
* @head: head index we received, for passing to vringh_complete_kern().
* @gfp: flags for allocating larger riov/wiov.
*
* Returns 0 if there was no descriptor, 1 if there was, or -errno.
*
* Note that on error return, you can tell the difference between an
* invalid ring and a single invalid descriptor: in the former case,
* *head will be vrh->vring.num. You may be able to ignore an invalid
* descriptor, but there's not much you can do with an invalid ring.
*
* Note that you can reuse riov and wiov with subsequent calls. Content is
* overwritten and memory reallocated if more space is needed.
* When you don't have to use riov and wiov anymore, you should clean up them
* calling vringh_kiov_cleanup() to release the memory, even on error!
*/
int vringh_getdesc_kern(struct vringh *vrh,
struct vringh_kiov *riov,
struct vringh_kiov *wiov,
u16 *head,
gfp_t gfp)
{
int err;
err = __vringh_get_head(vrh, getu16_kern, &vrh->last_avail_idx);
if (err < 0)
return err;
/* Empty... */
if (err == vrh->vring.num)
return 0;
*head = err;
err = __vringh_iov(vrh, *head, riov, wiov, no_range_check, NULL,
gfp, copydesc_kern);
if (err)
return err;
return 1;
}
EXPORT_SYMBOL(vringh_getdesc_kern);
/**
* vringh_iov_pull_kern - copy bytes from vring_iov.
* @riov: the riov as passed to vringh_getdesc_kern() (updated as we consume)
* @dst: the place to copy.
* @len: the maximum length to copy.
*
* Returns the bytes copied <= len or a negative errno.
*/
ssize_t vringh_iov_pull_kern(struct vringh_kiov *riov, void *dst, size_t len)
{
return vringh_iov_xfer(NULL, riov, dst, len, xfer_kern);
}
EXPORT_SYMBOL(vringh_iov_pull_kern);
/**
* vringh_iov_push_kern - copy bytes into vring_iov.
* @wiov: the wiov as passed to vringh_getdesc_kern() (updated as we consume)
* @src: the place to copy from.
* @len: the maximum length to copy.
*
* Returns the bytes copied <= len or a negative errno.
*/
ssize_t vringh_iov_push_kern(struct vringh_kiov *wiov,
const void *src, size_t len)
{
return vringh_iov_xfer(NULL, wiov, (void *)src, len, kern_xfer);
}
EXPORT_SYMBOL(vringh_iov_push_kern);
/**
* vringh_abandon_kern - we've decided not to handle the descriptor(s).
* @vrh: the vring.
* @num: the number of descriptors to put back (ie. num
* vringh_get_kern() to undo).
*
* The next vringh_get_kern() will return the old descriptor(s) again.
*/
void vringh_abandon_kern(struct vringh *vrh, unsigned int num)
{
/* We only update vring_avail_event(vr) when we want to be notified,
* so we haven't changed that yet. */
vrh->last_avail_idx -= num;
}
EXPORT_SYMBOL(vringh_abandon_kern);
/**
* vringh_complete_kern - we've finished with descriptor, publish it.
* @vrh: the vring.
* @head: the head as filled in by vringh_getdesc_kern.
* @len: the length of data we have written.
*
* You should check vringh_need_notify_kern() after one or more calls
* to this function.
*/
int vringh_complete_kern(struct vringh *vrh, u16 head, u32 len)
{
struct vring_used_elem used;
used.id = cpu_to_vringh32(vrh, head);
used.len = cpu_to_vringh32(vrh, len);
return __vringh_complete(vrh, &used, 1, putu16_kern, putused_kern);
}
EXPORT_SYMBOL(vringh_complete_kern);
/**
* vringh_notify_enable_kern - we want to know if something changes.
* @vrh: the vring.
*
* This always enables notifications, but returns false if there are
* now more buffers available in the vring.
*/
bool vringh_notify_enable_kern(struct vringh *vrh)
{
return __vringh_notify_enable(vrh, getu16_kern, putu16_kern);
}
EXPORT_SYMBOL(vringh_notify_enable_kern);
/**
* vringh_notify_disable_kern - don't tell us if something changes.
* @vrh: the vring.
*
* This is our normal running state: we disable and then only enable when
* we're going to sleep.
*/
void vringh_notify_disable_kern(struct vringh *vrh)
{
__vringh_notify_disable(vrh, putu16_kern);
}
EXPORT_SYMBOL(vringh_notify_disable_kern);
/**
* vringh_need_notify_kern - must we tell the other side about used buffers?
* @vrh: the vring we've called vringh_complete_kern() on.
*
* Returns -errno or 0 if we don't need to tell the other side, 1 if we do.
*/
int vringh_need_notify_kern(struct vringh *vrh)
{
return __vringh_need_notify(vrh, getu16_kern);
}
EXPORT_SYMBOL(vringh_need_notify_kern);
#if IS_REACHABLE(CONFIG_VHOST_IOTLB)
struct iotlb_vec {
union {
struct iovec *iovec;
struct bio_vec *bvec;
} iov;
size_t count;
};
static int iotlb_translate(const struct vringh *vrh,
u64 addr, u64 len, u64 *translated,
struct iotlb_vec *ivec, u32 perm)
{
struct vhost_iotlb_map *map;
struct vhost_iotlb *iotlb = vrh->iotlb;
int ret = 0;
u64 s = 0, last = addr + len - 1;
spin_lock(vrh->iotlb_lock);
while (len > s) {
uintptr_t io_addr;
size_t io_len;
u64 size;
if (unlikely(ret >= ivec->count)) {
ret = -ENOBUFS;
break;
}
map = vhost_iotlb_itree_first(iotlb, addr, last);
if (!map || map->start > addr) {
ret = -EINVAL;
break;
} else if (!(map->perm & perm)) {
ret = -EPERM;
break;
}
size = map->size - addr + map->start;
io_len = min(len - s, size);
io_addr = map->addr - map->start + addr;
if (vrh->use_va) {
struct iovec *iovec = ivec->iov.iovec;
iovec[ret].iov_len = io_len;
iovec[ret].iov_base = (void __user *)io_addr;
} else {
u64 pfn = io_addr >> PAGE_SHIFT;
struct bio_vec *bvec = ivec->iov.bvec;
bvec_set_page(&bvec[ret], pfn_to_page(pfn), io_len,
io_addr & (PAGE_SIZE - 1));
}
s += size;
addr += size;
++ret;
}
spin_unlock(vrh->iotlb_lock);
if (translated)
*translated = min(len, s);
return ret;
}
#define IOTLB_IOV_STRIDE 16
static inline int copy_from_iotlb(const struct vringh *vrh, void *dst,
void *src, size_t len)
{
struct iotlb_vec ivec;
union {
struct iovec iovec[IOTLB_IOV_STRIDE];
struct bio_vec bvec[IOTLB_IOV_STRIDE];
} iov;
u64 total_translated = 0;
ivec.iov.iovec = iov.iovec;
ivec.count = IOTLB_IOV_STRIDE;
while (total_translated < len) {
struct iov_iter iter;
u64 translated;
int ret;
ret = iotlb_translate(vrh, (u64)(uintptr_t)src,
len - total_translated, &translated,
&ivec, VHOST_MAP_RO);
if (ret == -ENOBUFS)
ret = IOTLB_IOV_STRIDE;
else if (ret < 0)
return ret;
if (vrh->use_va) {
iov_iter_init(&iter, ITER_SOURCE, ivec.iov.iovec, ret,
translated);
} else {
iov_iter_bvec(&iter, ITER_SOURCE, ivec.iov.bvec, ret,
translated);
}
ret = copy_from_iter(dst, translated, &iter);
if (ret < 0)
return ret;
src += translated;
dst += translated;
total_translated += translated;
}
return total_translated;
}
static inline int copy_to_iotlb(const struct vringh *vrh, void *dst,
void *src, size_t len)
{
struct iotlb_vec ivec;
union {
struct iovec iovec[IOTLB_IOV_STRIDE];
struct bio_vec bvec[IOTLB_IOV_STRIDE];
} iov;
u64 total_translated = 0;
ivec.iov.iovec = iov.iovec;
ivec.count = IOTLB_IOV_STRIDE;
while (total_translated < len) {
struct iov_iter iter;
u64 translated;
int ret;
ret = iotlb_translate(vrh, (u64)(uintptr_t)dst,
len - total_translated, &translated,
&ivec, VHOST_MAP_WO);
if (ret == -ENOBUFS)
ret = IOTLB_IOV_STRIDE;
else if (ret < 0)
return ret;
if (vrh->use_va) {
iov_iter_init(&iter, ITER_DEST, ivec.iov.iovec, ret,
translated);
} else {
iov_iter_bvec(&iter, ITER_DEST, ivec.iov.bvec, ret,
translated);
}
ret = copy_to_iter(src, translated, &iter);
if (ret < 0)
return ret;
src += translated;
dst += translated;
total_translated += translated;
}
return total_translated;
}
static inline int getu16_iotlb(const struct vringh *vrh,
u16 *val, const __virtio16 *p)
{
struct iotlb_vec ivec;
union {
struct iovec iovec[1];
struct bio_vec bvec[1];
} iov;
__virtio16 tmp;
int ret;
ivec.iov.iovec = iov.iovec;
ivec.count = 1;
/* Atomic read is needed for getu16 */
ret = iotlb_translate(vrh, (u64)(uintptr_t)p, sizeof(*p),
NULL, &ivec, VHOST_MAP_RO);
if (ret < 0)
return ret;
if (vrh->use_va) {
ret = __get_user(tmp, (__virtio16 __user *)ivec.iov.iovec[0].iov_base);
if (ret)
return ret;
} else {
void *kaddr = kmap_local_page(ivec.iov.bvec[0].bv_page);
void *from = kaddr + ivec.iov.bvec[0].bv_offset;
tmp = READ_ONCE(*(__virtio16 *)from);
kunmap_local(kaddr);
}
*val = vringh16_to_cpu(vrh, tmp);
return 0;
}
static inline int putu16_iotlb(const struct vringh *vrh,
__virtio16 *p, u16 val)
{
struct iotlb_vec ivec;
union {
struct iovec iovec;
struct bio_vec bvec;
} iov;
__virtio16 tmp;
int ret;
ivec.iov.iovec = &iov.iovec;
ivec.count = 1;
/* Atomic write is needed for putu16 */
ret = iotlb_translate(vrh, (u64)(uintptr_t)p, sizeof(*p),
NULL, &ivec, VHOST_MAP_RO);
if (ret < 0)
return ret;
tmp = cpu_to_vringh16(vrh, val);
if (vrh->use_va) {
ret = __put_user(tmp, (__virtio16 __user *)ivec.iov.iovec[0].iov_base);
if (ret)
return ret;
} else {
void *kaddr = kmap_local_page(ivec.iov.bvec[0].bv_page);
void *to = kaddr + ivec.iov.bvec[0].bv_offset;
WRITE_ONCE(*(__virtio16 *)to, tmp);
kunmap_local(kaddr);
}
return 0;
}
static inline int copydesc_iotlb(const struct vringh *vrh,
void *dst, const void *src, size_t len)
{
int ret;
ret = copy_from_iotlb(vrh, dst, (void *)src, len);
if (ret != len)
return -EFAULT;
return 0;
}
static inline int xfer_from_iotlb(const struct vringh *vrh, void *src,
void *dst, size_t len)
{
int ret;
ret = copy_from_iotlb(vrh, dst, src, len);
if (ret != len)
return -EFAULT;
return 0;
}
static inline int xfer_to_iotlb(const struct vringh *vrh,
void *dst, void *src, size_t len)
{
int ret;
ret = copy_to_iotlb(vrh, dst, src, len);
if (ret != len)
return -EFAULT;
return 0;
}
static inline int putused_iotlb(const struct vringh *vrh,
struct vring_used_elem *dst,
const struct vring_used_elem *src,
unsigned int num)
{
int size = num * sizeof(*dst);
int ret;
ret = copy_to_iotlb(vrh, dst, (void *)src, num * sizeof(*dst));
if (ret != size)
return -EFAULT;
return 0;
}
/**
* vringh_init_iotlb - initialize a vringh for a ring with IOTLB.
* @vrh: the vringh to initialize.
* @features: the feature bits for this ring.
* @num: the number of elements.
* @weak_barriers: true if we only need memory barriers, not I/O.
* @desc: the userspace descriptor pointer.
* @avail: the userspace avail pointer.
* @used: the userspace used pointer.
*
* Returns an error if num is invalid.
*/
int vringh_init_iotlb(struct vringh *vrh, u64 features,
unsigned int num, bool weak_barriers,
struct vring_desc *desc,
struct vring_avail *avail,
struct vring_used *used)
{
vrh->use_va = false;
return vringh_init_kern(vrh, features, num, weak_barriers,
desc, avail, used);
}
EXPORT_SYMBOL(vringh_init_iotlb);
/**
* vringh_init_iotlb_va - initialize a vringh for a ring with IOTLB containing
* user VA.
* @vrh: the vringh to initialize.
* @features: the feature bits for this ring.
* @num: the number of elements.
* @weak_barriers: true if we only need memory barriers, not I/O.
* @desc: the userspace descriptor pointer.
* @avail: the userspace avail pointer.
* @used: the userspace used pointer.
*
* Returns an error if num is invalid.
*/
int vringh_init_iotlb_va(struct vringh *vrh, u64 features,
unsigned int num, bool weak_barriers,
struct vring_desc *desc,
struct vring_avail *avail,
struct vring_used *used)
{
vrh->use_va = true;
return vringh_init_kern(vrh, features, num, weak_barriers,
desc, avail, used);
}
EXPORT_SYMBOL(vringh_init_iotlb_va);
/**
* vringh_set_iotlb - initialize a vringh for a ring with IOTLB.
* @vrh: the vring
* @iotlb: iotlb associated with this vring
* @iotlb_lock: spinlock to synchronize the iotlb accesses
*/
void vringh_set_iotlb(struct vringh *vrh, struct vhost_iotlb *iotlb,
spinlock_t *iotlb_lock)
{
vrh->iotlb = iotlb;
vrh->iotlb_lock = iotlb_lock;
}
EXPORT_SYMBOL(vringh_set_iotlb);
/**
* vringh_getdesc_iotlb - get next available descriptor from ring with
* IOTLB.
* @vrh: the kernelspace vring.
* @riov: where to put the readable descriptors (or NULL)
* @wiov: where to put the writable descriptors (or NULL)
* @head: head index we received, for passing to vringh_complete_iotlb().
* @gfp: flags for allocating larger riov/wiov.
*
* Returns 0 if there was no descriptor, 1 if there was, or -errno.
*
* Note that on error return, you can tell the difference between an
* invalid ring and a single invalid descriptor: in the former case,
* *head will be vrh->vring.num. You may be able to ignore an invalid
* descriptor, but there's not much you can do with an invalid ring.
*
* Note that you can reuse riov and wiov with subsequent calls. Content is
* overwritten and memory reallocated if more space is needed.
* When you don't have to use riov and wiov anymore, you should clean up them
* calling vringh_kiov_cleanup() to release the memory, even on error!
*/
int vringh_getdesc_iotlb(struct vringh *vrh,
struct vringh_kiov *riov,
struct vringh_kiov *wiov,
u16 *head,
gfp_t gfp)
{
int err;
err = __vringh_get_head(vrh, getu16_iotlb, &vrh->last_avail_idx);
if (err < 0)
return err;
/* Empty... */
if (err == vrh->vring.num)
return 0;
*head = err;
err = __vringh_iov(vrh, *head, riov, wiov, no_range_check, NULL,
gfp, copydesc_iotlb);
if (err)
return err;
return 1;
}
EXPORT_SYMBOL(vringh_getdesc_iotlb);
/**
* vringh_iov_pull_iotlb - copy bytes from vring_iov.
* @vrh: the vring.
* @riov: the riov as passed to vringh_getdesc_iotlb() (updated as we consume)
* @dst: the place to copy.
* @len: the maximum length to copy.
*
* Returns the bytes copied <= len or a negative errno.
*/
ssize_t vringh_iov_pull_iotlb(struct vringh *vrh,
struct vringh_kiov *riov,
void *dst, size_t len)
{
return vringh_iov_xfer(vrh, riov, dst, len, xfer_from_iotlb);
}
EXPORT_SYMBOL(vringh_iov_pull_iotlb);
/**
* vringh_iov_push_iotlb - copy bytes into vring_iov.
* @vrh: the vring.
* @wiov: the wiov as passed to vringh_getdesc_iotlb() (updated as we consume)
* @src: the place to copy from.
* @len: the maximum length to copy.
*
* Returns the bytes copied <= len or a negative errno.
*/
ssize_t vringh_iov_push_iotlb(struct vringh *vrh,
struct vringh_kiov *wiov,
const void *src, size_t len)
{
return vringh_iov_xfer(vrh, wiov, (void *)src, len, xfer_to_iotlb);
}
EXPORT_SYMBOL(vringh_iov_push_iotlb);
/**
* vringh_abandon_iotlb - we've decided not to handle the descriptor(s).
* @vrh: the vring.
* @num: the number of descriptors to put back (ie. num
* vringh_get_iotlb() to undo).
*
* The next vringh_get_iotlb() will return the old descriptor(s) again.
*/
void vringh_abandon_iotlb(struct vringh *vrh, unsigned int num)
{
/* We only update vring_avail_event(vr) when we want to be notified,
* so we haven't changed that yet.
*/
vrh->last_avail_idx -= num;
}
EXPORT_SYMBOL(vringh_abandon_iotlb);
/**
* vringh_complete_iotlb - we've finished with descriptor, publish it.
* @vrh: the vring.
* @head: the head as filled in by vringh_getdesc_iotlb.
* @len: the length of data we have written.
*
* You should check vringh_need_notify_iotlb() after one or more calls
* to this function.
*/
int vringh_complete_iotlb(struct vringh *vrh, u16 head, u32 len)
{
struct vring_used_elem used;
used.id = cpu_to_vringh32(vrh, head);
used.len = cpu_to_vringh32(vrh, len);
return __vringh_complete(vrh, &used, 1, putu16_iotlb, putused_iotlb);
}
EXPORT_SYMBOL(vringh_complete_iotlb);
/**
* vringh_notify_enable_iotlb - we want to know if something changes.
* @vrh: the vring.
*
* This always enables notifications, but returns false if there are
* now more buffers available in the vring.
*/
bool vringh_notify_enable_iotlb(struct vringh *vrh)
{
return __vringh_notify_enable(vrh, getu16_iotlb, putu16_iotlb);
}
EXPORT_SYMBOL(vringh_notify_enable_iotlb);
/**
* vringh_notify_disable_iotlb - don't tell us if something changes.
* @vrh: the vring.
*
* This is our normal running state: we disable and then only enable when
* we're going to sleep.
*/
void vringh_notify_disable_iotlb(struct vringh *vrh)
{
__vringh_notify_disable(vrh, putu16_iotlb);
}
EXPORT_SYMBOL(vringh_notify_disable_iotlb);
/**
* vringh_need_notify_iotlb - must we tell the other side about used buffers?
* @vrh: the vring we've called vringh_complete_iotlb() on.
*
* Returns -errno or 0 if we don't need to tell the other side, 1 if we do.
*/
int vringh_need_notify_iotlb(struct vringh *vrh)
{
return __vringh_need_notify(vrh, getu16_iotlb);
}
EXPORT_SYMBOL(vringh_need_notify_iotlb);
#endif
MODULE_LICENSE("GPL");
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