/*Free L1 and L2 page table*/
void isp_mmu_exit(struct isp_mmu *mmu)
{
unsigned int idx;
unsigned int pte;
phys_addr_t l1_pt, l2_pt;
if (!mmu)
return;
if (!ISP_PTE_VALID(mmu, mmu->l1_pte)) {
dev_warn(atomisp_dev, "invalid L1PT: pte = 0x%x\n",
(unsigned int)mmu->l1_pte);
return;
}
l1_pt = isp_pte_to_pgaddr(mmu, mmu->l1_pte);
for (idx = 0; idx < ISP_L1PT_PTES; idx++) {
pte = atomisp_get_pte(l1_pt, idx);
if (ISP_PTE_VALID(mmu, pte)) {
l2_pt = isp_pte_to_pgaddr(mmu, pte);
free_page_table(mmu, l2_pt);
}
}
free_page_table(mmu, l1_pt);
kmem_cache_destroy(mmu->tbl_cache);
}
/*
* Free L2 page table according to isp virtual address and page physical
* address
*/
static void mmu_l2_unmap(struct isp_mmu *mmu, phys_addr_t l1_pt,
unsigned int l1_idx, phys_addr_t l2_pt,
unsigned int start, unsigned int end)
{
unsigned int ptr;
unsigned int idx;
unsigned int pte;
l2_pt &= ISP_PAGE_MASK;
start = start & ISP_PAGE_MASK;
end = ISP_PAGE_ALIGN(end);
ptr = start;
do {
idx = ISP_PTR_TO_L2_IDX(ptr);
pte = atomisp_get_pte(l2_pt, idx);
if (!ISP_PTE_VALID(mmu, pte))
mmu_unmap_l2_pte_error(mmu, l1_pt, l1_idx,
l2_pt, idx, ptr, pte);
atomisp_set_pte(l2_pt, idx, mmu->driver->null_pte);
mmu->l2_pgt_refcount[l1_idx]--;
ptr += (1U << ISP_L2PT_OFFSET);
} while (ptr < end && idx < ISP_L2PT_PTES - 1);
if (mmu->l2_pgt_refcount[l1_idx] == 0) {
free_page_table(mmu, l2_pt);
atomisp_set_pte(l1_pt, l1_idx, mmu->driver->null_pte);
}
}
/* cleanup empty L2 page tables */
void isp_mmu_clean_l2(struct isp_mmu *mmu)
{
unsigned int idx, idx2;
unsigned int pte;
phys_addr_t l1_pt, l2_pt;
if (!mmu)
return;
if (!ISP_PTE_VALID(mmu, mmu->l1_pte)) {
dev_warn(atomisp_dev, "invalid L1PT: pte = 0x%x\n",
(unsigned int)mmu->l1_pte);
return;
}
l1_pt = isp_pte_to_pgaddr(mmu, mmu->l1_pte);
for (idx = 0; idx < ISP_L1PT_PTES; idx++) {
bool l2_pt_is_empty = true;
pte = atomisp_get_pte(l1_pt, idx);
if (!ISP_PTE_VALID(mmu, pte))
continue;
l2_pt = isp_pte_to_pgaddr(mmu, pte);
for (idx2 = 0; idx2 < ISP_L2PT_PTES; idx2++) {
if (atomisp_get_pte(l2_pt, idx2) !=
mmu->driver->null_pte) {
l2_pt_is_empty = false;
break;
}
}
if (l2_pt_is_empty) {
free_page_table(mmu, l2_pt);
atomisp_set_pte(l1_pt, idx, mmu->driver->null_pte);
dev_dbg(atomisp_dev, "free l1_pte index %d\n", idx);
}
}
}
/*
* Update page table according to isp virtual address and page physical
* address
*/
static int mmu_map(struct isp_mmu *mmu, unsigned int isp_virt,
phys_addr_t phys, unsigned int pgnr)
{
unsigned int start, end;
phys_addr_t l1_pt;
int ret;
mutex_lock(&mmu->pt_mutex);
if (!ISP_PTE_VALID(mmu, mmu->l1_pte)) {
/*
* allocate 1 new page for L1 page table
*/
l1_pt = alloc_page_table(mmu);
if (l1_pt == NULL_PAGE) {
dev_err(atomisp_dev, "alloc page table fail.\n");
mutex_unlock(&mmu->pt_mutex);
return -ENOMEM;
}
/*
* setup L1 page table physical addr to MMU
*/
ret = mmu->driver->set_pd_base(mmu, l1_pt);
if (ret) {
dev_err(atomisp_dev,
"set page directory base address fail.\n");
mutex_unlock(&mmu->pt_mutex);
return ret;
}
mmu->base_address = l1_pt;
mmu->l1_pte = isp_pgaddr_to_pte_valid(mmu, l1_pt);
memset(mmu->l2_pgt_refcount, 0, sizeof(int) * ISP_L1PT_PTES);
}
l1_pt = isp_pte_to_pgaddr(mmu, mmu->l1_pte);
start = (isp_virt) & ISP_PAGE_MASK;
end = start + (pgnr << ISP_PAGE_OFFSET);
phys &= ISP_PAGE_MASK;
ret = mmu_l1_map(mmu, l1_pt, start, end, phys);
if (ret)
dev_err(atomisp_dev, "setup mapping in L1PT fail.\n");
mutex_unlock(&mmu->pt_mutex);
return ret;
}
/*
* Free page table according to isp virtual address and page physical
* address
*/
static void mmu_unmap(struct isp_mmu *mmu, unsigned int isp_virt,
unsigned int pgnr)
{
unsigned int start, end;
phys_addr_t l1_pt;
if (!ISP_PTE_VALID(mmu, mmu->l1_pte)) {
mmu_unmap_l1_pt_error(mmu, mmu->l1_pte);
return;
}
l1_pt = isp_pte_to_pgaddr(mmu, mmu->l1_pte);
start = (isp_virt) & ISP_PAGE_MASK;
end = start + (pgnr << ISP_PAGE_OFFSET);
mmu_l1_unmap(mmu, l1_pt, start, end);
}
/*
* Free L1 page table according to isp virtual address and page physical
* address
*/
static void mmu_l1_unmap(struct isp_mmu *mmu, phys_addr_t l1_pt,
unsigned int start, unsigned int end)
{
phys_addr_t l2_pt;
unsigned int ptr, l1_aligned;
unsigned int idx;
unsigned int l2_pte;
l1_pt &= ISP_PAGE_MASK;
start = start & ISP_PAGE_MASK;
end = ISP_PAGE_ALIGN(end);
ptr = start;
do {
idx = ISP_PTR_TO_L1_IDX(ptr);
l2_pte = atomisp_get_pte(l1_pt, idx);
if (!ISP_PTE_VALID(mmu, l2_pte)) {
mmu_unmap_l1_pte_error(mmu, l1_pt, idx, ptr, l2_pte);
continue;
}
l2_pt = isp_pte_to_pgaddr(mmu, l2_pte);
l1_aligned = (ptr & ISP_PAGE_MASK) + (1U << ISP_L1PT_OFFSET);
if (l1_aligned < end) {
mmu_l2_unmap(mmu, l1_pt, idx, l2_pt, ptr, l1_aligned);
ptr = l1_aligned;
} else {
mmu_l2_unmap(mmu, l1_pt, idx, l2_pt, ptr, end);
ptr = end;
}
/*
* use the same L2 page next time, so we dont
* need to invalidate and free this PT.
*/
/* atomisp_set_pte(l1_pt, idx, NULL_PTE); */
} while (ptr < end && idx < ISP_L1PT_PTES);
}
/*
* Update L2 page table according to isp virtual address and page physical
* address
*/
static int mmu_l2_map(struct isp_mmu *mmu, phys_addr_t l1_pt,
unsigned int l1_idx, phys_addr_t l2_pt,
unsigned int start, unsigned int end, phys_addr_t phys)
{
unsigned int ptr;
unsigned int idx;
unsigned int pte;
l2_pt &= ISP_PAGE_MASK;
start = start & ISP_PAGE_MASK;
end = ISP_PAGE_ALIGN(end);
phys &= ISP_PAGE_MASK;
ptr = start;
do {
idx = ISP_PTR_TO_L2_IDX(ptr);
pte = atomisp_get_pte(l2_pt, idx);
if (ISP_PTE_VALID(mmu, pte)) {
mmu_remap_error(mmu, l1_pt, l1_idx,
l2_pt, idx, ptr, pte, phys);
/* free all mapped pages */
free_mmu_map(mmu, start, ptr);
return -EINVAL;
}
pte = isp_pgaddr_to_pte_valid(mmu, phys);
atomisp_set_pte(l2_pt, idx, pte);
mmu->l2_pgt_refcount[l1_idx]++;
ptr += (1U << ISP_L2PT_OFFSET);
phys += (1U << ISP_L2PT_OFFSET);
} while (ptr < end && idx < ISP_L2PT_PTES - 1);
return 0;
}
/*
* Update L1 page table according to isp virtual address and page physical
* address
*/
static int mmu_l1_map(struct isp_mmu *mmu, phys_addr_t l1_pt,
unsigned int start, unsigned int end,
phys_addr_t phys)
{
phys_addr_t l2_pt;
unsigned int ptr, l1_aligned;
unsigned int idx;
unsigned int l2_pte;
int ret;
l1_pt &= ISP_PAGE_MASK;
start = start & ISP_PAGE_MASK;
end = ISP_PAGE_ALIGN(end);
phys &= ISP_PAGE_MASK;
ptr = start;
do {
idx = ISP_PTR_TO_L1_IDX(ptr);
l2_pte = atomisp_get_pte(l1_pt, idx);
if (!ISP_PTE_VALID(mmu, l2_pte)) {
l2_pt = alloc_page_table(mmu);
if (l2_pt == NULL_PAGE) {
dev_err(atomisp_dev,
"alloc page table fail.\n");
/* free all mapped pages */
free_mmu_map(mmu, start, ptr);
return -ENOMEM;
}
l2_pte = isp_pgaddr_to_pte_valid(mmu, l2_pt);
atomisp_set_pte(l1_pt, idx, l2_pte);
mmu->l2_pgt_refcount[idx] = 0;
}
l2_pt = isp_pte_to_pgaddr(mmu, l2_pte);
l1_aligned = (ptr & ISP_PAGE_MASK) + (1U << ISP_L1PT_OFFSET);
if (l1_aligned < end) {
ret = mmu_l2_map(mmu, l1_pt, idx,
l2_pt, ptr, l1_aligned, phys);
phys += (l1_aligned - ptr);
ptr = l1_aligned;
} else {
ret = mmu_l2_map(mmu, l1_pt, idx,
l2_pt, ptr, end, phys);
phys += (end - ptr);
ptr = end;
}
if (ret) {
dev_err(atomisp_dev, "setup mapping in L2PT fail.\n");
/* free all mapped pages */
free_mmu_map(mmu, start, ptr);
return -EINVAL;
}
} while (ptr < end && idx < ISP_L1PT_PTES);
return 0;
}
