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amd-iommu: introduce aperture_range structure

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This is a preperation for extended address allocator.

Signed-off-by: Joerg Roedel <joerg.roedel@amd.com>
This commit is contained in:
Joerg Roedel 2009-05-12 10:56:44 +02:00
parent 41fb454ebe
commit c3239567a2
2 changed files with 43 additions and 35 deletions
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32
arch/x86/include/asm/amd_iommu_types.h
View File

@ -195,6 +195,8 @@
#define PD_DEFAULT_MASK (1UL << 1) /* domain is a default dma_ops
domain for an IOMMU */
#define APERTURE_RANGE_SIZE (128 * 1024 * 1024)
/*
* This structure contains generic data for IOMMU protection domains
* independent of their use.
@ -209,6 +211,24 @@ struct protection_domain {
void *priv; /* private data */
};
/*
* For dynamic growth the aperture size is split into ranges of 128MB of
* DMA address space each. This struct represents one such range.
*/
struct aperture_range {
/* address allocation bitmap */
unsigned long *bitmap;
/*
* Array of PTE pages for the aperture. In this array we save all the
* leaf pages of the domain page table used for the aperture. This way
* we don't need to walk the page table to find a specific PTE. We can
* just calculate its address in constant time.
*/
u64 *pte_pages[64];
};
/*
* Data container for a dma_ops specific protection domain
*/
@ -224,16 +244,8 @@ struct dma_ops_domain {
/* address we start to search for free addresses */
unsigned long next_bit;
/* address allocation bitmap */
unsigned long *bitmap;
/*
* Array of PTE pages for the aperture. In this array we save all the
* leaf pages of the domain page table used for the aperture. This way
* we don't need to walk the page table to find a specific PTE. We can
* just calculate its address in constant time.
*/
u64 **pte_pages;
/* address space relevant data */
struct aperture_range aperture;
/* This will be set to true when TLB needs to be flushed */
bool need_flush;

46
arch/x86/kernel/amd_iommu.c
View File

@ -595,7 +595,8 @@ static int dma_ops_unity_map(struct dma_ops_domain *dma_dom,
* as allocated in the aperture
*/
if (addr < dma_dom->aperture_size)
__set_bit(addr >> PAGE_SHIFT, dma_dom->bitmap);
__set_bit(addr >> PAGE_SHIFT,
dma_dom->aperture.bitmap);
}
return 0;
@ -656,11 +657,12 @@ static unsigned long dma_ops_alloc_addresses(struct device *dev,
dom->need_flush = true;
}
address = iommu_area_alloc(dom->bitmap, limit, dom->next_bit, pages,
0 , boundary_size, align_mask);
address = iommu_area_alloc(dom->aperture.bitmap, limit, dom->next_bit,
pages, 0 , boundary_size, align_mask);
if (address == -1) {
address = iommu_area_alloc(dom->bitmap, limit, 0, pages,
0, boundary_size, align_mask);
address = iommu_area_alloc(dom->aperture.bitmap, limit, 0,
pages, 0, boundary_size,
align_mask);
dom->need_flush = true;
}
@ -685,7 +687,7 @@ static void dma_ops_free_addresses(struct dma_ops_domain *dom,
unsigned int pages)
{
address >>= PAGE_SHIFT;
iommu_area_free(dom->bitmap, address, pages);
iommu_area_free(dom->aperture.bitmap, address, pages);
if (address >= dom->next_bit)
dom->need_flush = true;
@ -741,7 +743,7 @@ static void dma_ops_reserve_addresses(struct dma_ops_domain *dom,
if (start_page + pages > last_page)
pages = last_page - start_page;
iommu_area_reserve(dom->bitmap, start_page, pages);
iommu_area_reserve(dom->aperture.bitmap, start_page, pages);
}
static void free_pagetable(struct protection_domain *domain)
@ -785,9 +787,7 @@ static void dma_ops_domain_free(struct dma_ops_domain *dom)
free_pagetable(&dom->domain);
kfree(dom->pte_pages);
kfree(dom->bitmap);
free_page((unsigned long)dom->aperture.bitmap);
kfree(dom);
}
@ -826,16 +826,15 @@ static struct dma_ops_domain *dma_ops_domain_alloc(struct amd_iommu *iommu,
dma_dom->domain.priv = dma_dom;
if (!dma_dom->domain.pt_root)
goto free_dma_dom;
dma_dom->aperture_size = (1ULL << order);
dma_dom->bitmap = kzalloc(dma_dom->aperture_size / (PAGE_SIZE * 8),
GFP_KERNEL);
if (!dma_dom->bitmap)
dma_dom->aperture_size = APERTURE_RANGE_SIZE;
dma_dom->aperture.bitmap = (void *)get_zeroed_page(GFP_KERNEL);
if (!dma_dom->aperture.bitmap)
goto free_dma_dom;
/*
* mark the first page as allocated so we never return 0 as
* a valid dma-address. So we can use 0 as error value
*/
dma_dom->bitmap[0] = 1;
dma_dom->aperture.bitmap[0] = 1;
dma_dom->next_bit = 0;
dma_dom->need_flush = false;
@ -854,13 +853,9 @@ static struct dma_ops_domain *dma_ops_domain_alloc(struct amd_iommu *iommu,
/*
* At the last step, build the page tables so we don't need to
* allocate page table pages in the dma_ops mapping/unmapping
* path.
* path for the first 128MB of dma address space.
*/
num_pte_pages = dma_dom->aperture_size / (PAGE_SIZE * 512);
dma_dom->pte_pages = kzalloc(num_pte_pages * sizeof(void *),
GFP_KERNEL);
if (!dma_dom->pte_pages)
goto free_dma_dom;
l2_pde = (u64 *)get_zeroed_page(GFP_KERNEL);
if (l2_pde == NULL)
@ -869,10 +864,11 @@ static struct dma_ops_domain *dma_ops_domain_alloc(struct amd_iommu *iommu,
dma_dom->domain.pt_root[0] = IOMMU_L2_PDE(virt_to_phys(l2_pde));
for (i = 0; i < num_pte_pages; ++i) {
dma_dom->pte_pages[i] = (u64 *)get_zeroed_page(GFP_KERNEL);
if (!dma_dom->pte_pages[i])
u64 **pte_page = &dma_dom->aperture.pte_pages[i];
*pte_page = (u64 *)get_zeroed_page(GFP_KERNEL);
if (!*pte_page)
goto free_dma_dom;
address = virt_to_phys(dma_dom->pte_pages[i]);
address = virt_to_phys(*pte_page);
l2_pde[i] = IOMMU_L1_PDE(address);
}
@ -1159,7 +1155,7 @@ static dma_addr_t dma_ops_domain_map(struct amd_iommu *iommu,
paddr &= PAGE_MASK;
pte = dom->pte_pages[IOMMU_PTE_L1_INDEX(address)];
pte = dom->aperture.pte_pages[IOMMU_PTE_L1_INDEX(address)];
pte += IOMMU_PTE_L0_INDEX(address);
__pte = paddr | IOMMU_PTE_P | IOMMU_PTE_FC;
@ -1192,7 +1188,7 @@ static void dma_ops_domain_unmap(struct amd_iommu *iommu,
WARN_ON(address & ~PAGE_MASK || address >= dom->aperture_size);
pte = dom->pte_pages[IOMMU_PTE_L1_INDEX(address)];
pte = dom->aperture.pte_pages[IOMMU_PTE_L1_INDEX(address)];
pte += IOMMU_PTE_L0_INDEX(address);
WARN_ON(!*pte);