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|
/*
* VFIO: IOMMU DMA mapping support for systems without IOMMU
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License, version 2, as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*
* Copyright (C) 2013 Freescale Semiconductor, Inc.
*
* Author: Varun Sethi <varun.sethi@freescale.com>
*
* This file is derived from driver/vfio/vfio_iommu_type1.c and
* driver/vfio/vfio_iommu_fsl_pamu.c
* This driver is primarily targeted for providing direct device assignment
* on platforms that don't have a hardware IOMMU. The driver primarily
* pins the pages corresponding to the guest memory. The driver is enabled
* via /sys/kernel/vfio_iommu_dummy/enable_iommu_dummy attribute.
*
*/
#include <linux/compat.h>
#include <linux/device.h>
#include <linux/fs.h>
#include <linux/iommu.h>
#include <linux/module.h>
#include <linux/mm.h>
#include <linux/pci.h> /* pci_bus_type */
#include <linux/sched.h>
#include <linux/slab.h>
#include <linux/uaccess.h>
#include <linux/vfio.h>
#include <linux/workqueue.h>
#include <linux/hugetlb.h>
struct vfio_iommu {
struct mutex lock;
struct list_head dma_list;
struct list_head group_list;
};
struct vfio_dma {
struct list_head next;
dma_addr_t iova; /* Device address */
unsigned long vaddr; /* Process virtual addr */
long npage; /* Number of pages */
int prot; /* IOMMU_READ/WRITE */
};
struct vfio_group {
struct iommu_group *iommu_group;
struct list_head next;
};
#define NPAGE_TO_SIZE(npage) ((size_t)(npage) << PAGE_SHIFT)
struct vwork {
struct mm_struct *mm;
long npage;
struct work_struct work;
};
static int enable_iommu_dummy;
/* delayed decrement/increment for locked_vm */
static void vfio_lock_acct_bg(struct work_struct *work)
{
struct vwork *vwork = container_of(work, struct vwork, work);
struct mm_struct *mm;
mm = vwork->mm;
down_write(&mm->mmap_sem);
mm->locked_vm += vwork->npage;
up_write(&mm->mmap_sem);
mmput(mm);
kfree(vwork);
}
static void vfio_lock_acct(long npage)
{
struct vwork *vwork;
struct mm_struct *mm;
if (!current->mm)
return; /* process exited */
if (down_write_trylock(¤t->mm->mmap_sem)) {
current->mm->locked_vm += npage;
up_write(¤t->mm->mmap_sem);
return;
}
/*
* Couldn't get mmap_sem lock, so must setup to update
* mm->locked_vm later. If locked_vm were atomic, we
* wouldn't need this silliness
*/
vwork = kmalloc(sizeof(struct vwork), GFP_KERNEL);
if (!vwork)
return;
mm = get_task_mm(current);
if (!mm) {
kfree(vwork);
return;
}
INIT_WORK(&vwork->work, vfio_lock_acct_bg);
vwork->mm = mm;
vwork->npage = npage;
schedule_work(&vwork->work);
}
/*
* Some mappings aren't backed by a struct page, for example an mmap'd
* MMIO range for our own or another device. These use a different
* pfn conversion and shouldn't be tracked as locked pages.
*/
static bool is_invalid_reserved_pfn(unsigned long pfn)
{
if (pfn_valid(pfn)) {
bool reserved;
struct page *tail = pfn_to_page(pfn);
struct page *head = compound_trans_head(tail);
reserved = !!(PageReserved(head));
if (head != tail) {
/*
* "head" is not a dangling pointer
* (compound_trans_head takes care of that)
* but the hugepage may have been split
* from under us (and we may not hold a
* reference count on the head page so it can
* be reused before we run PageReferenced), so
* we've to check PageTail before returning
* what we just read.
*/
smp_rmb();
if (PageTail(tail))
return reserved;
}
return PageReserved(tail);
}
return true;
}
static int put_pfn(unsigned long pfn, int prot)
{
if (!is_invalid_reserved_pfn(pfn)) {
struct page *page = pfn_to_page(pfn);
if (prot & IOMMU_WRITE)
SetPageDirty(page);
put_page(page);
return 1;
}
return 0;
}
static int vaddr_get_pfn(unsigned long vaddr, int prot, unsigned int nr_pages)
{
struct page **pages;
int i, ret;
long locked = 0;
pages = kzalloc(sizeof(*pages) * nr_pages, GFP_KERNEL | __GFP_ZERO);
ret = get_user_pages_fast(vaddr, nr_pages, !!(prot & IOMMU_WRITE), pages);
if (ret != nr_pages)
goto error;
/* All Pages should be contiguous */
for (i = 1; i < nr_pages; i++) {
if (page_to_pfn(pages[i]) != page_to_pfn(pages[i - 1]) + 1)
goto error;
if (!is_invalid_reserved_pfn(page_to_pfn(pages[i])))
locked++;
}
vfio_lock_acct(locked);
kfree(pages);
return 0;
error:
for (i = 0; i < nr_pages; i++)
if (pages[i])
put_page(pages[i]);
kfree(pages);
return -EFAULT;
}
/* Unmap DMA region */
static long __vfio_dma_do_unmap(struct vfio_iommu *iommu, dma_addr_t iova,
long npage, int prot)
{
long unlocked = 0;
unsigned long size;
unsigned long pfn;
int i;
/* currently we support at most one huge page mapping */
size = npage << PAGE_SHIFT;
/* Release the pinned pages */
/* one is to one mapping iova = host physical*/
pfn = iova >> PAGE_SHIFT;
if (pfn) {
for (i = 0; i < npage; i++, pfn++)
unlocked += put_pfn(pfn, prot);
}
return unlocked;
}
static void vfio_dma_unmap(struct vfio_iommu *iommu, dma_addr_t iova,
long npage, int prot)
{
long unlocked;
unlocked = __vfio_dma_do_unmap(iommu, iova, npage, prot);
vfio_lock_acct(-unlocked);
}
static inline bool ranges_overlap(dma_addr_t start1, size_t size1,
dma_addr_t start2, size_t size2)
{
if (start1 < start2)
return (start2 - start1 < size1);
else if (start2 < start1)
return (start1 - start2 < size2);
return (size1 > 0 && size2 > 0);
}
static struct vfio_dma *vfio_find_dma(struct vfio_iommu *iommu,
dma_addr_t start, size_t size)
{
struct vfio_dma *dma;
list_for_each_entry(dma, &iommu->dma_list, next) {
if (ranges_overlap(dma->iova, NPAGE_TO_SIZE(dma->npage),
start, size))
return dma;
}
return NULL;
}
static long vfio_remove_dma_overlap(struct vfio_iommu *iommu, dma_addr_t start,
size_t size, struct vfio_dma *dma)
{
struct vfio_dma *split;
long npage_lo, npage_hi;
/* Existing dma region is completely covered, unmap all */
if (start <= dma->iova &&
start + size >= dma->iova + NPAGE_TO_SIZE(dma->npage)) {
vfio_dma_unmap(iommu, dma->iova, dma->npage, dma->prot);
list_del(&dma->next);
npage_lo = dma->npage;
kfree(dma);
return npage_lo;
}
/* Overlap low address of existing range */
if (start <= dma->iova) {
size_t overlap;
overlap = start + size - dma->iova;
npage_lo = overlap >> PAGE_SHIFT;
vfio_dma_unmap(iommu, dma->iova, npage_lo, dma->prot);
dma->iova += overlap;
dma->vaddr += overlap;
dma->npage -= npage_lo;
return npage_lo;
}
/* Overlap high address of existing range */
if (start + size >= dma->iova + NPAGE_TO_SIZE(dma->npage)) {
size_t overlap;
overlap = dma->iova + NPAGE_TO_SIZE(dma->npage) - start;
npage_hi = overlap >> PAGE_SHIFT;
vfio_dma_unmap(iommu, start, npage_hi, dma->prot);
dma->npage -= npage_hi;
return npage_hi;
}
/* Split existing */
npage_lo = (start - dma->iova) >> PAGE_SHIFT;
npage_hi = dma->npage - (size >> PAGE_SHIFT) - npage_lo;
split = kzalloc(sizeof(*split), GFP_KERNEL);
if (!split)
return -ENOMEM;
vfio_dma_unmap(iommu, start, size >> PAGE_SHIFT, dma->prot);
dma->npage = npage_lo;
split->npage = npage_hi;
split->iova = start + size;
split->vaddr = dma->vaddr + NPAGE_TO_SIZE(npage_lo) + size;
split->prot = dma->prot;
list_add(&split->next, &iommu->dma_list);
return size >> PAGE_SHIFT;
}
/* Map DMA region */
static int __vfio_dma_map(struct vfio_iommu *iommu, dma_addr_t iova,
unsigned long vaddr, long npage, int prot)
{
int ret;
/*
* XXX We break mappings into pages and use get_user_pages_fast to
* pin the pages in memory. It's been suggested that mlock might
* provide a more efficient mechanism, but nothing prevents the
* user from munlocking the pages, which could then allow the user
* access to random host memory. We also have no guarantee from the
* IOMMU API that the iommu driver can unmap sub-pages of previous
* mappings. This means we might lose an entire range if a single
* page within it is unmapped. Single page mappings are inefficient,
* but provide the most flexibility for now.
*/
ret = vaddr_get_pfn(vaddr, prot, npage);
if (ret) {
pr_err("%s unable to map vaddr = %lx\n",
__func__, vaddr);
__vfio_dma_do_unmap(iommu, iova, npage, prot);
return ret;
}
return 0;
}
static int vfio_dma_do_map(struct vfio_iommu *iommu,
struct vfio_iommu_type1_dma_map *map)
{
struct vfio_dma *dma, *pdma = NULL;
dma_addr_t iova = map->iova;
unsigned long locked, lock_limit, vaddr = map->vaddr;
size_t size = map->size;
int ret = 0, prot = 0;
long npage;
/* READ/WRITE from device perspective */
if (map->flags & VFIO_DMA_MAP_FLAG_WRITE)
prot |= IOMMU_WRITE;
if (map->flags & VFIO_DMA_MAP_FLAG_READ)
prot |= IOMMU_READ;
if (!prot)
return -EINVAL; /* No READ/WRITE? */
/* Don't allow IOVA wrap */
if (iova + size && iova + size < iova)
return -EINVAL;
/* Don't allow virtual address wrap */
if (vaddr + size && vaddr + size < vaddr)
return -EINVAL;
npage = size >> PAGE_SHIFT;
if (!npage)
return -EINVAL;
mutex_lock(&iommu->lock);
if (vfio_find_dma(iommu, iova, size)) {
ret = -EBUSY;
goto out_lock;
}
/* account for locked pages */
locked = current->mm->locked_vm + npage;
lock_limit = rlimit(RLIMIT_MEMLOCK) >> PAGE_SHIFT;
if (locked > lock_limit && !capable(CAP_IPC_LOCK)) {
pr_warn("%s: RLIMIT_MEMLOCK (%ld) exceeded\n",
__func__, rlimit(RLIMIT_MEMLOCK));
ret = -ENOMEM;
goto out_lock;
}
ret = __vfio_dma_map(iommu, iova, vaddr, npage, prot);
if (ret)
goto out_lock;
/* Check if we about a region below - nothing below 0 */
if (iova) {
dma = vfio_find_dma(iommu, iova - 1, 1);
if (dma && dma->prot == prot &&
dma->vaddr + NPAGE_TO_SIZE(dma->npage) == vaddr) {
dma->npage += npage;
iova = dma->iova;
vaddr = dma->vaddr;
npage = dma->npage;
size = NPAGE_TO_SIZE(npage);
pdma = dma;
}
}
/* Check if we abut a region above - nothing above ~0 + 1 */
if (iova + size) {
dma = vfio_find_dma(iommu, iova + size, 1);
if (dma && dma->prot == prot &&
dma->vaddr == vaddr + size) {
dma->npage += npage;
dma->iova = iova;
dma->vaddr = vaddr;
/*
* If merged above and below, remove previously
* merged entry. New entry covers it.
*/
if (pdma) {
list_del(&pdma->next);
kfree(pdma);
}
pdma = dma;
}
}
/* Isolated, new region */
if (!pdma) {
dma = kzalloc(sizeof(*dma), GFP_KERNEL);
if (!dma) {
ret = -ENOMEM;
vfio_dma_unmap(iommu, iova, npage, prot);
goto out_lock;
}
dma->npage = npage;
dma->iova = iova;
dma->vaddr = vaddr;
dma->prot = prot;
list_add(&dma->next, &iommu->dma_list);
}
out_lock:
mutex_unlock(&iommu->lock);
return ret;
}
static int vfio_dma_do_unmap(struct vfio_iommu *iommu,
struct vfio_iommu_type1_dma_unmap *unmap)
{
long ret = 0, npage = unmap->size >> PAGE_SHIFT;
struct vfio_dma *dma, *tmp;
mutex_lock(&iommu->lock);
list_for_each_entry_safe(dma, tmp, &iommu->dma_list, next) {
if (ranges_overlap(dma->iova, NPAGE_TO_SIZE(dma->npage),
unmap->iova, unmap->size)) {
ret = vfio_remove_dma_overlap(iommu, unmap->iova,
unmap->size, dma);
if (ret > 0)
npage -= ret;
if (ret < 0 || npage == 0)
break;
}
}
mutex_unlock(&iommu->lock);
return ret > 0 ? 0 : (int)ret;
}
static void *vfio_iommu_dummy_open(unsigned long arg)
{
struct vfio_iommu *iommu;
if (arg != VFIO_IOMMU_DUMMY)
return ERR_PTR(-EINVAL);
iommu = kzalloc(sizeof(*iommu), GFP_KERNEL);
if (!iommu)
return ERR_PTR(-ENOMEM);
INIT_LIST_HEAD(&iommu->group_list);
INIT_LIST_HEAD(&iommu->dma_list);
mutex_init(&iommu->lock);
return iommu;
}
static void vfio_iommu_dummy_release(void *iommu_data)
{
struct vfio_iommu *iommu = iommu_data;
struct vfio_group *group, *group_tmp;
struct vfio_dma *dma, *dma_tmp;
list_for_each_entry_safe(group, group_tmp, &iommu->group_list, next) {
list_del(&group->next);
kfree(group);
}
list_for_each_entry_safe(dma, dma_tmp, &iommu->dma_list, next) {
vfio_dma_unmap(iommu, dma->iova, dma->npage, dma->prot);
list_del(&dma->next);
kfree(dma);
}
kfree(iommu);
}
static long vfio_iommu_dummy_ioctl(void *iommu_data,
unsigned int cmd, unsigned long arg)
{
struct vfio_iommu *iommu = iommu_data;
unsigned long minsz;
if (cmd == VFIO_CHECK_EXTENSION) {
switch (arg) {
case VFIO_IOMMU_DUMMY:
return 1;
default:
return 0;
}
} else if (cmd == VFIO_IOMMU_MAP_DMA) {
struct vfio_iommu_type1_dma_map map;
uint32_t mask = VFIO_DMA_MAP_FLAG_READ |
VFIO_DMA_MAP_FLAG_WRITE;
minsz = offsetofend(struct vfio_iommu_type1_dma_map, size);
if (copy_from_user(&map, (void __user *)arg, minsz))
return -EFAULT;
if (map.argsz < minsz || map.flags & ~mask)
return -EINVAL;
return vfio_dma_do_map(iommu, &map);
} else if (cmd == VFIO_IOMMU_UNMAP_DMA) {
struct vfio_iommu_type1_dma_unmap unmap;
minsz = offsetofend(struct vfio_iommu_type1_dma_unmap, size);
if (copy_from_user(&unmap, (void __user *)arg, minsz))
return -EFAULT;
if (unmap.argsz < minsz || unmap.flags)
return -EINVAL;
return vfio_dma_do_unmap(iommu, &unmap);
}
return -ENOTTY;
}
static int vfio_iommu_dummy_attach_group(void *iommu_data,
struct iommu_group *iommu_group)
{
struct vfio_iommu *iommu = iommu_data;
struct vfio_group *group, *tmp;
group = kzalloc(sizeof(*group), GFP_KERNEL);
if (!group)
return -ENOMEM;
mutex_lock(&iommu->lock);
list_for_each_entry(tmp, &iommu->group_list, next) {
if (tmp->iommu_group == iommu_group) {
mutex_unlock(&iommu->lock);
kfree(group);
return -EINVAL;
}
}
group->iommu_group = iommu_group;
list_add(&group->next, &iommu->group_list);
mutex_unlock(&iommu->lock);
return 0;
}
static void vfio_iommu_dummy_detach_group(void *iommu_data,
struct iommu_group *iommu_group)
{
struct vfio_iommu *iommu = iommu_data;
struct vfio_group *group;
mutex_lock(&iommu->lock);
list_for_each_entry(group, &iommu->group_list, next) {
if (group->iommu_group == iommu_group) {
list_del(&group->next);
kfree(group);
break;
}
}
mutex_unlock(&iommu->lock);
}
static const struct vfio_iommu_driver_ops vfio_iommu_driver_ops_dummy = {
.name = "vfio-iommu-dummy",
.owner = THIS_MODULE,
.open = vfio_iommu_dummy_open,
.release = vfio_iommu_dummy_release,
.ioctl = vfio_iommu_dummy_ioctl,
.attach_group = vfio_iommu_dummy_attach_group,
.detach_group = vfio_iommu_dummy_detach_group,
};
static int iommu_dummy_add_device(struct device *dev)
{
struct iommu_group *group;
int ret;
group = iommu_group_get(dev);
if (!group) {
group = iommu_group_alloc();
if (IS_ERR(group))
return PTR_ERR(group);
}
ret = iommu_group_add_device(group, dev);
iommu_group_put(group);
return ret;
}
static struct iommu_ops iommu_dummy_ops = {
.add_device = iommu_dummy_add_device,
};
static ssize_t enable_iommu_dummy_show(struct kobject *kobj,
struct kobj_attribute *attr, char *buf)
{
return sprintf(buf, "%d\n", enable_iommu_dummy);
}
static ssize_t enable_iommu_dummy_store(struct kobject *kobj,
struct kobj_attribute *attr,
const char *buf, size_t count)
{
int val;
sscanf(buf, "%du", &val);
if (!enable_iommu_dummy && val) {
pr_warn("Enabling vfio_iommu_dummy driver, can't be disabled\n");
bus_set_iommu(&pci_bus_type, &iommu_dummy_ops);
vfio_register_iommu_driver(&vfio_iommu_driver_ops_dummy);
enable_iommu_dummy = 1;
}
return count;
}
static struct kobj_attribute enable_iommu_dummy_attribute =
__ATTR(enable_iommu_dummy, 0666, enable_iommu_dummy_show, enable_iommu_dummy_store);
static struct attribute *attrs[] = {
&enable_iommu_dummy_attribute.attr,
NULL,
};
static struct attribute_group attr_group = {
.attrs = attrs,
};
static struct kobject *vfio_iommu_dummy_kobj;
static int __init vfio_iommu_dummy_init(void)
{
int retval;
vfio_iommu_dummy_kobj = kobject_create_and_add("vfio_iommu_dummy", kernel_kobj);
if (!vfio_iommu_dummy_kobj)
return -ENOMEM;
/* Create the files associated with vfio_iommu_dummy kobject */
retval = sysfs_create_group(vfio_iommu_dummy_kobj, &attr_group);
if (retval)
kobject_put(vfio_iommu_dummy_kobj);
return retval;
}
static void __exit vfio_iommu_dummy_cleanup(void)
{
if (enable_iommu_dummy)
vfio_unregister_iommu_driver(&vfio_iommu_driver_ops_dummy);
kobject_put(vfio_iommu_dummy_kobj);
}
module_init(vfio_iommu_dummy_init);
module_exit(vfio_iommu_dummy_cleanup);
MODULE_LICENSE("GPL v2");
MODULE_AUTHOR("Varun Sethi <Varun.Sethi@freescale.com>");
MODULE_DESCRIPTION("Dummy IOMMU driver for VFIO");
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