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|
// SPDX-License-Identifier: GPL-2.0
/* Copyright (c) 2021-2022, NVIDIA CORPORATION & AFFILIATES.
*
* The io_pagetable is the top of datastructure that maps IOVA's to PFNs. The
* PFNs can be placed into an iommu_domain, or returned to the caller as a page
* list for access by an in-kernel user.
*
* The datastructure uses the iopt_pages to optimize the storage of the PFNs
* between the domains and xarray.
*/
#include <linux/iommufd.h>
#include <linux/lockdep.h>
#include <linux/iommu.h>
#include <linux/sched/mm.h>
#include <linux/err.h>
#include <linux/slab.h>
#include <linux/errno.h>
#include "io_pagetable.h"
#include "double_span.h"
struct iopt_pages_list {
struct iopt_pages *pages;
struct iopt_area *area;
struct list_head next;
unsigned long start_byte;
unsigned long length;
};
struct iopt_area *iopt_area_contig_init(struct iopt_area_contig_iter *iter,
struct io_pagetable *iopt,
unsigned long iova,
unsigned long last_iova)
{
lockdep_assert_held(&iopt->iova_rwsem);
iter->cur_iova = iova;
iter->last_iova = last_iova;
iter->area = iopt_area_iter_first(iopt, iova, iova);
if (!iter->area)
return NULL;
if (!iter->area->pages) {
iter->area = NULL;
return NULL;
}
return iter->area;
}
struct iopt_area *iopt_area_contig_next(struct iopt_area_contig_iter *iter)
{
unsigned long last_iova;
if (!iter->area)
return NULL;
last_iova = iopt_area_last_iova(iter->area);
if (iter->last_iova <= last_iova)
return NULL;
iter->cur_iova = last_iova + 1;
iter->area = iopt_area_iter_next(iter->area, iter->cur_iova,
iter->last_iova);
if (!iter->area)
return NULL;
if (iter->cur_iova != iopt_area_iova(iter->area) ||
!iter->area->pages) {
iter->area = NULL;
return NULL;
}
return iter->area;
}
static bool __alloc_iova_check_hole(struct interval_tree_double_span_iter *span,
unsigned long length,
unsigned long iova_alignment,
unsigned long page_offset)
{
if (span->is_used || span->last_hole - span->start_hole < length - 1)
return false;
span->start_hole = ALIGN(span->start_hole, iova_alignment) |
page_offset;
if (span->start_hole > span->last_hole ||
span->last_hole - span->start_hole < length - 1)
return false;
return true;
}
static bool __alloc_iova_check_used(struct interval_tree_span_iter *span,
unsigned long length,
unsigned long iova_alignment,
unsigned long page_offset)
{
if (span->is_hole || span->last_used - span->start_used < length - 1)
return false;
span->start_used = ALIGN(span->start_used, iova_alignment) |
page_offset;
if (span->start_used > span->last_used ||
span->last_used - span->start_used < length - 1)
return false;
return true;
}
/*
* Automatically find a block of IOVA that is not being used and not reserved.
* Does not return a 0 IOVA even if it is valid.
*/
static int iopt_alloc_iova(struct io_pagetable *iopt, unsigned long *iova,
unsigned long uptr, unsigned long length)
{
unsigned long page_offset = uptr % PAGE_SIZE;
struct interval_tree_double_span_iter used_span;
struct interval_tree_span_iter allowed_span;
unsigned long iova_alignment;
lockdep_assert_held(&iopt->iova_rwsem);
/* Protect roundup_pow-of_two() from overflow */
if (length == 0 || length >= ULONG_MAX / 2)
return -EOVERFLOW;
/*
* Keep alignment present in the uptr when building the IOVA, this
* increases the chance we can map a THP.
*/
if (!uptr)
iova_alignment = roundup_pow_of_two(length);
else
iova_alignment = min_t(unsigned long,
roundup_pow_of_two(length),
1UL << __ffs64(uptr));
if (iova_alignment < iopt->iova_alignment)
return -EINVAL;
interval_tree_for_each_span(&allowed_span, &iopt->allowed_itree,
PAGE_SIZE, ULONG_MAX - PAGE_SIZE) {
if (RB_EMPTY_ROOT(&iopt->allowed_itree.rb_root)) {
allowed_span.start_used = PAGE_SIZE;
allowed_span.last_used = ULONG_MAX - PAGE_SIZE;
allowed_span.is_hole = false;
}
if (!__alloc_iova_check_used(&allowed_span, length,
iova_alignment, page_offset))
continue;
interval_tree_for_each_double_span(
&used_span, &iopt->reserved_itree, &iopt->area_itree,
allowed_span.start_used, allowed_span.last_used) {
if (!__alloc_iova_check_hole(&used_span, length,
iova_alignment,
page_offset))
continue;
*iova = used_span.start_hole;
return 0;
}
}
return -ENOSPC;
}
static int iopt_check_iova(struct io_pagetable *iopt, unsigned long iova,
unsigned long length)
{
unsigned long last;
lockdep_assert_held(&iopt->iova_rwsem);
if ((iova & (iopt->iova_alignment - 1)))
return -EINVAL;
if (check_add_overflow(iova, length - 1, &last))
return -EOVERFLOW;
/* No reserved IOVA intersects the range */
if (iopt_reserved_iter_first(iopt, iova, last))
return -EINVAL;
/* Check that there is not already a mapping in the range */
if (iopt_area_iter_first(iopt, iova, last))
return -EEXIST;
return 0;
}
/*
* The area takes a slice of the pages from start_bytes to start_byte + length
*/
static int iopt_insert_area(struct io_pagetable *iopt, struct iopt_area *area,
struct iopt_pages *pages, unsigned long iova,
unsigned long start_byte, unsigned long length,
int iommu_prot)
{
lockdep_assert_held_write(&iopt->iova_rwsem);
if ((iommu_prot & IOMMU_WRITE) && !pages->writable)
return -EPERM;
area->iommu_prot = iommu_prot;
area->page_offset = start_byte % PAGE_SIZE;
if (area->page_offset & (iopt->iova_alignment - 1))
return -EINVAL;
area->node.start = iova;
if (check_add_overflow(iova, length - 1, &area->node.last))
return -EOVERFLOW;
area->pages_node.start = start_byte / PAGE_SIZE;
if (check_add_overflow(start_byte, length - 1, &area->pages_node.last))
return -EOVERFLOW;
area->pages_node.last = area->pages_node.last / PAGE_SIZE;
if (WARN_ON(area->pages_node.last >= pages->npages))
return -EOVERFLOW;
/*
* The area is inserted with a NULL pages indicating it is not fully
* initialized yet.
*/
area->iopt = iopt;
interval_tree_insert(&area->node, &iopt->area_itree);
return 0;
}
static int iopt_alloc_area_pages(struct io_pagetable *iopt,
struct list_head *pages_list,
unsigned long length, unsigned long *dst_iova,
int iommu_prot, unsigned int flags)
{
struct iopt_pages_list *elm;
unsigned long iova;
int rc = 0;
list_for_each_entry(elm, pages_list, next) {
elm->area = kzalloc(sizeof(*elm->area), GFP_KERNEL_ACCOUNT);
if (!elm->area)
return -ENOMEM;
}
down_write(&iopt->iova_rwsem);
if ((length & (iopt->iova_alignment - 1)) || !length) {
rc = -EINVAL;
goto out_unlock;
}
if (flags & IOPT_ALLOC_IOVA) {
/* Use the first entry to guess the ideal IOVA alignment */
elm = list_first_entry(pages_list, struct iopt_pages_list,
next);
rc = iopt_alloc_iova(
iopt, dst_iova,
(uintptr_t)elm->pages->uptr + elm->start_byte, length);
if (rc)
goto out_unlock;
if (IS_ENABLED(CONFIG_IOMMUFD_TEST) &&
WARN_ON(iopt_check_iova(iopt, *dst_iova, length))) {
rc = -EINVAL;
goto out_unlock;
}
} else {
rc = iopt_check_iova(iopt, *dst_iova, length);
if (rc)
goto out_unlock;
}
/*
* Areas are created with a NULL pages so that the IOVA space is
* reserved and we can unlock the iova_rwsem.
*/
iova = *dst_iova;
list_for_each_entry(elm, pages_list, next) {
rc = iopt_insert_area(iopt, elm->area, elm->pages, iova,
elm->start_byte, elm->length, iommu_prot);
if (rc)
goto out_unlock;
iova += elm->length;
}
out_unlock:
up_write(&iopt->iova_rwsem);
return rc;
}
static void iopt_abort_area(struct iopt_area *area)
{
if (IS_ENABLED(CONFIG_IOMMUFD_TEST))
WARN_ON(area->pages);
if (area->iopt) {
down_write(&area->iopt->iova_rwsem);
interval_tree_remove(&area->node, &area->iopt->area_itree);
up_write(&area->iopt->iova_rwsem);
}
kfree(area);
}
void iopt_free_pages_list(struct list_head *pages_list)
{
struct iopt_pages_list *elm;
while ((elm = list_first_entry_or_null(pages_list,
struct iopt_pages_list, next))) {
if (elm->area)
iopt_abort_area(elm->area);
if (elm->pages)
iopt_put_pages(elm->pages);
list_del(&elm->next);
kfree(elm);
}
}
static int iopt_fill_domains_pages(struct list_head *pages_list)
{
struct iopt_pages_list *undo_elm;
struct iopt_pages_list *elm;
int rc;
list_for_each_entry(elm, pages_list, next) {
rc = iopt_area_fill_domains(elm->area, elm->pages);
if (rc)
goto err_undo;
}
return 0;
err_undo:
list_for_each_entry(undo_elm, pages_list, next) {
if (undo_elm == elm)
break;
iopt_area_unfill_domains(undo_elm->area, undo_elm->pages);
}
return rc;
}
int iopt_map_pages(struct io_pagetable *iopt, struct list_head *pages_list,
unsigned long length, unsigned long *dst_iova,
int iommu_prot, unsigned int flags)
{
struct iopt_pages_list *elm;
int rc;
rc = iopt_alloc_area_pages(iopt, pages_list, length, dst_iova,
iommu_prot, flags);
if (rc)
return rc;
down_read(&iopt->domains_rwsem);
rc = iopt_fill_domains_pages(pages_list);
if (rc)
goto out_unlock_domains;
down_write(&iopt->iova_rwsem);
list_for_each_entry(elm, pages_list, next) {
/*
* area->pages must be set inside the domains_rwsem to ensure
* any newly added domains will get filled. Moves the reference
* in from the list.
*/
elm->area->pages = elm->pages;
elm->pages = NULL;
elm->area = NULL;
}
up_write(&iopt->iova_rwsem);
out_unlock_domains:
up_read(&iopt->domains_rwsem);
return rc;
}
/**
* iopt_map_user_pages() - Map a user VA to an iova in the io page table
* @ictx: iommufd_ctx the iopt is part of
* @iopt: io_pagetable to act on
* @iova: If IOPT_ALLOC_IOVA is set this is unused on input and contains
* the chosen iova on output. Otherwise is the iova to map to on input
* @uptr: User VA to map
* @length: Number of bytes to map
* @iommu_prot: Combination of IOMMU_READ/WRITE/etc bits for the mapping
* @flags: IOPT_ALLOC_IOVA or zero
*
* iova, uptr, and length must be aligned to iova_alignment. For domain backed
* page tables this will pin the pages and load them into the domain at iova.
* For non-domain page tables this will only setup a lazy reference and the
* caller must use iopt_access_pages() to touch them.
*
* iopt_unmap_iova() must be called to undo this before the io_pagetable can be
* destroyed.
*/
int iopt_map_user_pages(struct iommufd_ctx *ictx, struct io_pagetable *iopt,
unsigned long *iova, void __user *uptr,
unsigned long length, int iommu_prot,
unsigned int flags)
{
struct iopt_pages_list elm = {};
LIST_HEAD(pages_list);
int rc;
elm.pages = iopt_alloc_pages(uptr, length, iommu_prot & IOMMU_WRITE);
if (IS_ERR(elm.pages))
return PTR_ERR(elm.pages);
if (ictx->account_mode == IOPT_PAGES_ACCOUNT_MM &&
elm.pages->account_mode == IOPT_PAGES_ACCOUNT_USER)
elm.pages->account_mode = IOPT_PAGES_ACCOUNT_MM;
elm.start_byte = uptr - elm.pages->uptr;
elm.length = length;
list_add(&elm.next, &pages_list);
rc = iopt_map_pages(iopt, &pages_list, length, iova, iommu_prot, flags);
if (rc) {
if (elm.area)
iopt_abort_area(elm.area);
if (elm.pages)
iopt_put_pages(elm.pages);
return rc;
}
return 0;
}
int iopt_get_pages(struct io_pagetable *iopt, unsigned long iova,
unsigned long length, struct list_head *pages_list)
{
struct iopt_area_contig_iter iter;
unsigned long last_iova;
struct iopt_area *area;
int rc;
if (!length)
return -EINVAL;
if (check_add_overflow(iova, length - 1, &last_iova))
return -EOVERFLOW;
down_read(&iopt->iova_rwsem);
iopt_for_each_contig_area(&iter, area, iopt, iova, last_iova) {
struct iopt_pages_list *elm;
unsigned long last = min(last_iova, iopt_area_last_iova(area));
elm = kzalloc(sizeof(*elm), GFP_KERNEL_ACCOUNT);
if (!elm) {
rc = -ENOMEM;
goto err_free;
}
elm->start_byte = iopt_area_start_byte(area, iter.cur_iova);
elm->pages = area->pages;
elm->length = (last - iter.cur_iova) + 1;
kref_get(&elm->pages->kref);
list_add_tail(&elm->next, pages_list);
}
if (!iopt_area_contig_done(&iter)) {
rc = -ENOENT;
goto err_free;
}
up_read(&iopt->iova_rwsem);
return 0;
err_free:
up_read(&iopt->iova_rwsem);
iopt_free_pages_list(pages_list);
return rc;
}
static int iopt_unmap_iova_range(struct io_pagetable *iopt, unsigned long start,
unsigned long last, unsigned long *unmapped)
{
struct iopt_area *area;
unsigned long unmapped_bytes = 0;
int rc = -ENOENT;
/*
* The domains_rwsem must be held in read mode any time any area->pages
* is NULL. This prevents domain attach/detatch from running
* concurrently with cleaning up the area.
*/
again:
down_read(&iopt->domains_rwsem);
down_write(&iopt->iova_rwsem);
while ((area = iopt_area_iter_first(iopt, start, last))) {
unsigned long area_last = iopt_area_last_iova(area);
unsigned long area_first = iopt_area_iova(area);
struct iopt_pages *pages;
/* Userspace should not race map/unmap's of the same area */
if (!area->pages) {
rc = -EBUSY;
goto out_unlock_iova;
}
if (area_first < start || area_last > last) {
rc = -ENOENT;
goto out_unlock_iova;
}
/*
* num_accesses writers must hold the iova_rwsem too, so we can
* safely read it under the write side of the iovam_rwsem
* without the pages->mutex.
*/
if (area->num_accesses) {
start = area_first;
area->prevent_access = true;
up_write(&iopt->iova_rwsem);
up_read(&iopt->domains_rwsem);
iommufd_access_notify_unmap(iopt, area_first,
iopt_area_length(area));
if (WARN_ON(READ_ONCE(area->num_accesses)))
return -EDEADLOCK;
goto again;
}
pages = area->pages;
area->pages = NULL;
up_write(&iopt->iova_rwsem);
iopt_area_unfill_domains(area, pages);
iopt_abort_area(area);
iopt_put_pages(pages);
unmapped_bytes += area_last - area_first + 1;
down_write(&iopt->iova_rwsem);
}
if (unmapped_bytes)
rc = 0;
out_unlock_iova:
up_write(&iopt->iova_rwsem);
up_read(&iopt->domains_rwsem);
if (unmapped)
*unmapped = unmapped_bytes;
return rc;
}
/**
* iopt_unmap_iova() - Remove a range of iova
* @iopt: io_pagetable to act on
* @iova: Starting iova to unmap
* @length: Number of bytes to unmap
* @unmapped: Return number of bytes unmapped
*
* The requested range must be a superset of existing ranges.
* Splitting/truncating IOVA mappings is not allowed.
*/
int iopt_unmap_iova(struct io_pagetable *iopt, unsigned long iova,
unsigned long length, unsigned long *unmapped)
{
unsigned long iova_last;
if (!length)
return -EINVAL;
if (check_add_overflow(iova, length - 1, &iova_last))
return -EOVERFLOW;
return iopt_unmap_iova_range(iopt, iova, iova_last, unmapped);
}
int iopt_unmap_all(struct io_pagetable *iopt, unsigned long *unmapped)
{
int rc;
rc = iopt_unmap_iova_range(iopt, 0, ULONG_MAX, unmapped);
/* If the IOVAs are empty then unmap all succeeds */
if (rc == -ENOENT)
return 0;
return rc;
}
/* The caller must always free all the nodes in the allowed_iova rb_root. */
int iopt_set_allow_iova(struct io_pagetable *iopt,
struct rb_root_cached *allowed_iova)
{
struct iopt_allowed *allowed;
down_write(&iopt->iova_rwsem);
swap(*allowed_iova, iopt->allowed_itree);
for (allowed = iopt_allowed_iter_first(iopt, 0, ULONG_MAX); allowed;
allowed = iopt_allowed_iter_next(allowed, 0, ULONG_MAX)) {
if (iopt_reserved_iter_first(iopt, allowed->node.start,
allowed->node.last)) {
swap(*allowed_iova, iopt->allowed_itree);
up_write(&iopt->iova_rwsem);
return -EADDRINUSE;
}
}
up_write(&iopt->iova_rwsem);
return 0;
}
int iopt_reserve_iova(struct io_pagetable *iopt, unsigned long start,
unsigned long last, void *owner)
{
struct iopt_reserved *reserved;
lockdep_assert_held_write(&iopt->iova_rwsem);
if (iopt_area_iter_first(iopt, start, last) ||
iopt_allowed_iter_first(iopt, start, last))
return -EADDRINUSE;
reserved = kzalloc(sizeof(*reserved), GFP_KERNEL_ACCOUNT);
if (!reserved)
return -ENOMEM;
reserved->node.start = start;
reserved->node.last = last;
reserved->owner = owner;
interval_tree_insert(&reserved->node, &iopt->reserved_itree);
return 0;
}
static void __iopt_remove_reserved_iova(struct io_pagetable *iopt, void *owner)
{
struct iopt_reserved *reserved, *next;
lockdep_assert_held_write(&iopt->iova_rwsem);
for (reserved = iopt_reserved_iter_first(iopt, 0, ULONG_MAX); reserved;
reserved = next) {
next = iopt_reserved_iter_next(reserved, 0, ULONG_MAX);
if (reserved->owner == owner) {
interval_tree_remove(&reserved->node,
&iopt->reserved_itree);
kfree(reserved);
}
}
}
void iopt_remove_reserved_iova(struct io_pagetable *iopt, void *owner)
{
down_write(&iopt->iova_rwsem);
__iopt_remove_reserved_iova(iopt, owner);
up_write(&iopt->iova_rwsem);
}
void iopt_init_table(struct io_pagetable *iopt)
{
init_rwsem(&iopt->iova_rwsem);
init_rwsem(&iopt->domains_rwsem);
iopt->area_itree = RB_ROOT_CACHED;
iopt->allowed_itree = RB_ROOT_CACHED;
iopt->reserved_itree = RB_ROOT_CACHED;
xa_init_flags(&iopt->domains, XA_FLAGS_ACCOUNT);
xa_init_flags(&iopt->access_list, XA_FLAGS_ALLOC);
/*
* iopt's start as SW tables that can use the entire size_t IOVA space
* due to the use of size_t in the APIs. They have no alignment
* restriction.
*/
iopt->iova_alignment = 1;
}
void iopt_destroy_table(struct io_pagetable *iopt)
{
struct interval_tree_node *node;
if (IS_ENABLED(CONFIG_IOMMUFD_TEST))
iopt_remove_reserved_iova(iopt, NULL);
while ((node = interval_tree_iter_first(&iopt->allowed_itree, 0,
ULONG_MAX))) {
interval_tree_remove(node, &iopt->allowed_itree);
kfree(container_of(node, struct iopt_allowed, node));
}
WARN_ON(!RB_EMPTY_ROOT(&iopt->reserved_itree.rb_root));
WARN_ON(!xa_empty(&iopt->domains));
WARN_ON(!xa_empty(&iopt->access_list));
WARN_ON(!RB_EMPTY_ROOT(&iopt->area_itree.rb_root));
}
/**
* iopt_unfill_domain() - Unfill a domain with PFNs
* @iopt: io_pagetable to act on
* @domain: domain to unfill
*
* This is used when removing a domain from the iopt. Every area in the iopt
* will be unmapped from the domain. The domain must already be removed from the
* domains xarray.
*/
static void iopt_unfill_domain(struct io_pagetable *iopt,
struct iommu_domain *domain)
{
struct iopt_area *area;
lockdep_assert_held(&iopt->iova_rwsem);
lockdep_assert_held_write(&iopt->domains_rwsem);
/*
* Some other domain is holding all the pfns still, rapidly unmap this
* domain.
*/
if (iopt->next_domain_id != 0) {
/* Pick an arbitrary remaining domain to act as storage */
struct iommu_domain *storage_domain =
xa_load(&iopt->domains, 0);
for (area = iopt_area_iter_first(iopt, 0, ULONG_MAX); area;
area = iopt_area_iter_next(area, 0, ULONG_MAX)) {
struct iopt_pages *pages = area->pages;
if (!pages)
continue;
mutex_lock(&pages->mutex);
if (IS_ENABLED(CONFIG_IOMMUFD_TEST))
WARN_ON(!area->storage_domain);
if (area->storage_domain == domain)
area->storage_domain = storage_domain;
mutex_unlock(&pages->mutex);
iopt_area_unmap_domain(area, domain);
}
return;
}
for (area = iopt_area_iter_first(iopt, 0, ULONG_MAX); area;
area = iopt_area_iter_next(area, 0, ULONG_MAX)) {
struct iopt_pages *pages = area->pages;
if (!pages)
continue;
mutex_lock(&pages->mutex);
interval_tree_remove(&area->pages_node, &pages->domains_itree);
WARN_ON(area->storage_domain != domain);
area->storage_domain = NULL;
iopt_area_unfill_domain(area, pages, domain);
mutex_unlock(&pages->mutex);
}
}
/**
* iopt_fill_domain() - Fill a domain with PFNs
* @iopt: io_pagetable to act on
* @domain: domain to fill
*
* Fill the domain with PFNs from every area in the iopt. On failure the domain
* is left unchanged.
*/
static int iopt_fill_domain(struct io_pagetable *iopt,
struct iommu_domain *domain)
{
struct iopt_area *end_area;
struct iopt_area *area;
int rc;
lockdep_assert_held(&iopt->iova_rwsem);
lockdep_assert_held_write(&iopt->domains_rwsem);
for (area = iopt_area_iter_first(iopt, 0, ULONG_MAX); area;
area = iopt_area_iter_next(area, 0, ULONG_MAX)) {
struct iopt_pages *pages = area->pages;
if (!pages)
continue;
mutex_lock(&pages->mutex);
rc = iopt_area_fill_domain(area, domain);
if (rc) {
mutex_unlock(&pages->mutex);
goto out_unfill;
}
if (!area->storage_domain) {
WARN_ON(iopt->next_domain_id != 0);
area->storage_domain = domain;
interval_tree_insert(&area->pages_node,
&pages->domains_itree);
}
mutex_unlock(&pages->mutex);
}
return 0;
out_unfill:
end_area = area;
for (area = iopt_area_iter_first(iopt, 0, ULONG_MAX); area;
area = iopt_area_iter_next(area, 0, ULONG_MAX)) {
struct iopt_pages *pages = area->pages;
if (area == end_area)
break;
if (!pages)
continue;
mutex_lock(&pages->mutex);
if (iopt->next_domain_id == 0) {
interval_tree_remove(&area->pages_node,
&pages->domains_itree);
area->storage_domain = NULL;
}
iopt_area_unfill_domain(area, pages, domain);
mutex_unlock(&pages->mutex);
}
return rc;
}
/* All existing area's conform to an increased page size */
static int iopt_check_iova_alignment(struct io_pagetable *iopt,
unsigned long new_iova_alignment)
{
unsigned long align_mask = new_iova_alignment - 1;
struct iopt_area *area;
lockdep_assert_held(&iopt->iova_rwsem);
lockdep_assert_held(&iopt->domains_rwsem);
for (area = iopt_area_iter_first(iopt, 0, ULONG_MAX); area;
area = iopt_area_iter_next(area, 0, ULONG_MAX))
if ((iopt_area_iova(area) & align_mask) ||
(iopt_area_length(area) & align_mask) ||
(area->page_offset & align_mask))
return -EADDRINUSE;
if (IS_ENABLED(CONFIG_IOMMUFD_TEST)) {
struct iommufd_access *access;
unsigned long index;
xa_for_each(&iopt->access_list, index, access)
if (WARN_ON(access->iova_alignment >
new_iova_alignment))
return -EADDRINUSE;
}
return 0;
}
int iopt_table_add_domain(struct io_pagetable *iopt,
struct iommu_domain *domain)
{
const struct iommu_domain_geometry *geometry = &domain->geometry;
struct iommu_domain *iter_domain;
unsigned int new_iova_alignment;
unsigned long index;
int rc;
down_write(&iopt->domains_rwsem);
down_write(&iopt->iova_rwsem);
xa_for_each(&iopt->domains, index, iter_domain) {
if (WARN_ON(iter_domain == domain)) {
rc = -EEXIST;
goto out_unlock;
}
}
/*
* The io page size drives the iova_alignment. Internally the iopt_pages
* works in PAGE_SIZE units and we adjust when mapping sub-PAGE_SIZE
* objects into the iommu_domain.
*
* A iommu_domain must always be able to accept PAGE_SIZE to be
* compatible as we can't guarantee higher contiguity.
*/
new_iova_alignment = max_t(unsigned long,
1UL << __ffs(domain->pgsize_bitmap),
iopt->iova_alignment);
if (new_iova_alignment > PAGE_SIZE) {
rc = -EINVAL;
goto out_unlock;
}
if (new_iova_alignment != iopt->iova_alignment) {
rc = iopt_check_iova_alignment(iopt, new_iova_alignment);
if (rc)
goto out_unlock;
}
/* No area exists that is outside the allowed domain aperture */
if (geometry->aperture_start != 0) {
rc = iopt_reserve_iova(iopt, 0, geometry->aperture_start - 1,
domain);
if (rc)
goto out_reserved;
}
if (geometry->aperture_end != ULONG_MAX) {
rc = iopt_reserve_iova(iopt, geometry->aperture_end + 1,
ULONG_MAX, domain);
if (rc)
goto out_reserved;
}
rc = xa_reserve(&iopt->domains, iopt->next_domain_id, GFP_KERNEL);
if (rc)
goto out_reserved;
rc = iopt_fill_domain(iopt, domain);
if (rc)
goto out_release;
iopt->iova_alignment = new_iova_alignment;
xa_store(&iopt->domains, iopt->next_domain_id, domain, GFP_KERNEL);
iopt->next_domain_id++;
up_write(&iopt->iova_rwsem);
up_write(&iopt->domains_rwsem);
return 0;
out_release:
xa_release(&iopt->domains, iopt->next_domain_id);
out_reserved:
__iopt_remove_reserved_iova(iopt, domain);
out_unlock:
up_write(&iopt->iova_rwsem);
up_write(&iopt->domains_rwsem);
return rc;
}
static int iopt_calculate_iova_alignment(struct io_pagetable *iopt)
{
unsigned long new_iova_alignment;
struct iommufd_access *access;
struct iommu_domain *domain;
unsigned long index;
lockdep_assert_held_write(&iopt->iova_rwsem);
lockdep_assert_held(&iopt->domains_rwsem);
/* See batch_iommu_map_small() */
if (iopt->disable_large_pages)
new_iova_alignment = PAGE_SIZE;
else
new_iova_alignment = 1;
xa_for_each(&iopt->domains, index, domain)
new_iova_alignment = max_t(unsigned long,
1UL << __ffs(domain->pgsize_bitmap),
new_iova_alignment);
xa_for_each(&iopt->access_list, index, access)
new_iova_alignment = max_t(unsigned long,
access->iova_alignment,
new_iova_alignment);
if (new_iova_alignment > iopt->iova_alignment) {
int rc;
rc = iopt_check_iova_alignment(iopt, new_iova_alignment);
if (rc)
return rc;
}
iopt->iova_alignment = new_iova_alignment;
return 0;
}
void iopt_table_remove_domain(struct io_pagetable *iopt,
struct iommu_domain *domain)
{
struct iommu_domain *iter_domain = NULL;
unsigned long index;
down_write(&iopt->domains_rwsem);
down_write(&iopt->iova_rwsem);
xa_for_each(&iopt->domains, index, iter_domain)
if (iter_domain == domain)
break;
if (WARN_ON(iter_domain != domain) || index >= iopt->next_domain_id)
goto out_unlock;
/*
* Compress the xarray to keep it linear by swapping the entry to erase
* with the tail entry and shrinking the tail.
*/
iopt->next_domain_id--;
iter_domain = xa_erase(&iopt->domains, iopt->next_domain_id);
if (index != iopt->next_domain_id)
xa_store(&iopt->domains, index, iter_domain, GFP_KERNEL);
iopt_unfill_domain(iopt, domain);
__iopt_remove_reserved_iova(iopt, domain);
WARN_ON(iopt_calculate_iova_alignment(iopt));
out_unlock:
up_write(&iopt->iova_rwsem);
up_write(&iopt->domains_rwsem);
}
/**
* iopt_area_split - Split an area into two parts at iova
* @area: The area to split
* @iova: Becomes the last of a new area
*
* This splits an area into two. It is part of the VFIO compatibility to allow
* poking a hole in the mapping. The two areas continue to point at the same
* iopt_pages, just with different starting bytes.
*/
static int iopt_area_split(struct iopt_area *area, unsigned long iova)
{
unsigned long alignment = area->iopt->iova_alignment;
unsigned long last_iova = iopt_area_last_iova(area);
unsigned long start_iova = iopt_area_iova(area);
unsigned long new_start = iova + 1;
struct io_pagetable *iopt = area->iopt;
struct iopt_pages *pages = area->pages;
struct iopt_area *lhs;
struct iopt_area *rhs;
int rc;
lockdep_assert_held_write(&iopt->iova_rwsem);
if (iova == start_iova || iova == last_iova)
return 0;
if (!pages || area->prevent_access)
return -EBUSY;
if (new_start & (alignment - 1) ||
iopt_area_start_byte(area, new_start) & (alignment - 1))
return -EINVAL;
lhs = kzalloc(sizeof(*area), GFP_KERNEL_ACCOUNT);
if (!lhs)
return -ENOMEM;
rhs = kzalloc(sizeof(*area), GFP_KERNEL_ACCOUNT);
if (!rhs) {
rc = -ENOMEM;
goto err_free_lhs;
}
mutex_lock(&pages->mutex);
/*
* Splitting is not permitted if an access exists, we don't track enough
* information to split existing accesses.
*/
if (area->num_accesses) {
rc = -EINVAL;
goto err_unlock;
}
/*
* Splitting is not permitted if a domain could have been mapped with
* huge pages.
*/
if (area->storage_domain && !iopt->disable_large_pages) {
rc = -EINVAL;
goto err_unlock;
}
interval_tree_remove(&area->node, &iopt->area_itree);
rc = iopt_insert_area(iopt, lhs, area->pages, start_iova,
iopt_area_start_byte(area, start_iova),
(new_start - 1) - start_iova + 1,
area->iommu_prot);
if (WARN_ON(rc))
goto err_insert;
rc = iopt_insert_area(iopt, rhs, area->pages, new_start,
iopt_area_start_byte(area, new_start),
last_iova - new_start + 1, area->iommu_prot);
if (WARN_ON(rc))
goto err_remove_lhs;
lhs->storage_domain = area->storage_domain;
lhs->pages = area->pages;
rhs->storage_domain = area->storage_domain;
rhs->pages = area->pages;
kref_get(&rhs->pages->kref);
kfree(area);
mutex_unlock(&pages->mutex);
/*
* No change to domains or accesses because the pages hasn't been
* changed
*/
return 0;
err_remove_lhs:
interval_tree_remove(&lhs->node, &iopt->area_itree);
err_insert:
interval_tree_insert(&area->node, &iopt->area_itree);
err_unlock:
mutex_unlock(&pages->mutex);
kfree(rhs);
err_free_lhs:
kfree(lhs);
return rc;
}
int iopt_cut_iova(struct io_pagetable *iopt, unsigned long *iovas,
size_t num_iovas)
{
int rc = 0;
int i;
down_write(&iopt->iova_rwsem);
for (i = 0; i < num_iovas; i++) {
struct iopt_area *area;
area = iopt_area_iter_first(iopt, iovas[i], iovas[i]);
if (!area)
continue;
rc = iopt_area_split(area, iovas[i]);
if (rc)
break;
}
up_write(&iopt->iova_rwsem);
return rc;
}
void iopt_enable_large_pages(struct io_pagetable *iopt)
{
int rc;
down_write(&iopt->domains_rwsem);
down_write(&iopt->iova_rwsem);
WRITE_ONCE(iopt->disable_large_pages, false);
rc = iopt_calculate_iova_alignment(iopt);
WARN_ON(rc);
up_write(&iopt->iova_rwsem);
up_write(&iopt->domains_rwsem);
}
int iopt_disable_large_pages(struct io_pagetable *iopt)
{
int rc = 0;
down_write(&iopt->domains_rwsem);
down_write(&iopt->iova_rwsem);
if (iopt->disable_large_pages)
goto out_unlock;
/* Won't do it if domains already have pages mapped in them */
if (!xa_empty(&iopt->domains) &&
!RB_EMPTY_ROOT(&iopt->area_itree.rb_root)) {
rc = -EINVAL;
goto out_unlock;
}
WRITE_ONCE(iopt->disable_large_pages, true);
rc = iopt_calculate_iova_alignment(iopt);
if (rc)
WRITE_ONCE(iopt->disable_large_pages, false);
out_unlock:
up_write(&iopt->iova_rwsem);
up_write(&iopt->domains_rwsem);
return rc;
}
int iopt_add_access(struct io_pagetable *iopt, struct iommufd_access *access)
{
int rc;
down_write(&iopt->domains_rwsem);
down_write(&iopt->iova_rwsem);
rc = xa_alloc(&iopt->access_list, &access->iopt_access_list_id, access,
xa_limit_16b, GFP_KERNEL_ACCOUNT);
if (rc)
goto out_unlock;
rc = iopt_calculate_iova_alignment(iopt);
if (rc) {
xa_erase(&iopt->access_list, access->iopt_access_list_id);
goto out_unlock;
}
out_unlock:
up_write(&iopt->iova_rwsem);
up_write(&iopt->domains_rwsem);
return rc;
}
void iopt_remove_access(struct io_pagetable *iopt,
struct iommufd_access *access)
{
down_write(&iopt->domains_rwsem);
down_write(&iopt->iova_rwsem);
WARN_ON(xa_erase(&iopt->access_list, access->iopt_access_list_id) !=
access);
WARN_ON(iopt_calculate_iova_alignment(iopt));
up_write(&iopt->iova_rwsem);
up_write(&iopt->domains_rwsem);
}
/* Narrow the valid_iova_itree to include reserved ranges from a group. */
int iopt_table_enforce_group_resv_regions(struct io_pagetable *iopt,
struct device *device,
struct iommu_group *group,
phys_addr_t *sw_msi_start)
{
struct iommu_resv_region *resv;
struct iommu_resv_region *tmp;
LIST_HEAD(group_resv_regions);
unsigned int num_hw_msi = 0;
unsigned int num_sw_msi = 0;
int rc;
down_write(&iopt->iova_rwsem);
rc = iommu_get_group_resv_regions(group, &group_resv_regions);
if (rc)
goto out_unlock;
list_for_each_entry(resv, &group_resv_regions, list) {
if (resv->type == IOMMU_RESV_DIRECT_RELAXABLE)
continue;
if (sw_msi_start && resv->type == IOMMU_RESV_MSI)
num_hw_msi++;
if (sw_msi_start && resv->type == IOMMU_RESV_SW_MSI) {
*sw_msi_start = resv->start;
num_sw_msi++;
}
rc = iopt_reserve_iova(iopt, resv->start,
resv->length - 1 + resv->start, device);
if (rc)
goto out_reserved;
}
/* Drivers must offer sane combinations of regions */
if (WARN_ON(num_sw_msi && num_hw_msi) || WARN_ON(num_sw_msi > 1)) {
rc = -EINVAL;
goto out_reserved;
}
rc = 0;
goto out_free_resv;
out_reserved:
__iopt_remove_reserved_iova(iopt, device);
out_free_resv:
list_for_each_entry_safe(resv, tmp, &group_resv_regions, list)
kfree(resv);
out_unlock:
up_write(&iopt->iova_rwsem);
return rc;
}
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