/* * Copyright (C) 2018 Intel Corporation. All rights reserved. * * SPDX-License-Identifier: BSD-3-Clause */ #include #include #include #include #include #include #define ACRN_DBG_MMU 6U /* * Split a large page table into next level page table. * * @pre: level could only IA32E_PDPT or IA32E_PD */ static void split_large_page(uint64_t *pte, enum _page_table_level level, uint64_t vaddr, const struct memory_ops *mem_ops) { uint64_t *pbase; uint64_t ref_paddr, paddr, paddrinc; uint64_t i, ref_prot; switch (level) { case IA32E_PDPT: ref_paddr = (*pte) & PDPTE_PFN_MASK; paddrinc = PDE_SIZE; ref_prot = (*pte) & ~PDPTE_PFN_MASK; pbase = (uint64_t *)mem_ops->get_pd_page(mem_ops->info, vaddr); break; default: /* IA32E_PD */ ref_paddr = (*pte) & PDE_PFN_MASK; paddrinc = PTE_SIZE; ref_prot = (*pte) & ~PDE_PFN_MASK; ref_prot &= ~PAGE_PSE; pbase = (uint64_t *)mem_ops->get_pt_page(mem_ops->info, vaddr); break; } dev_dbg(ACRN_DBG_MMU, "%s, paddr: 0x%llx, pbase: 0x%llx\n", __func__, ref_paddr, pbase); paddr = ref_paddr; for (i = 0UL; i < PTRS_PER_PTE; i++) { set_pgentry(pbase + i, paddr | ref_prot); paddr += paddrinc; } ref_prot = mem_ops->get_default_access_right(); set_pgentry(pte, hva2hpa((void *)pbase) | ref_prot); /* TODO: flush the TLB */ } static inline void local_modify_or_del_pte(uint64_t *pte, uint64_t prot_set, uint64_t prot_clr, uint32_t type) { if (type == MR_MODIFY) { uint64_t new_pte = *pte; new_pte &= ~prot_clr; new_pte |= prot_set; set_pgentry(pte, new_pte); } else { sanitize_pte_entry(pte); } } /* * pgentry may means pml4e/pdpte/pde */ static inline void construct_pgentry(uint64_t *pde, void *pd_page, uint64_t prot) { sanitize_pte((uint64_t *)pd_page); set_pgentry(pde, hva2hpa(pd_page) | prot); } /* * In PT level, * type: MR_MODIFY * modify [vaddr_start, vaddr_end) memory type or page access right. * type: MR_DEL * delete [vaddr_start, vaddr_end) MT PT mapping */ static void modify_or_del_pte(const uint64_t *pde, uint64_t vaddr_start, uint64_t vaddr_end, uint64_t prot_set, uint64_t prot_clr, const struct memory_ops *mem_ops, uint32_t type) { uint64_t *pt_page = pde_page_vaddr(*pde); uint64_t vaddr = vaddr_start; uint64_t index = pte_index(vaddr); dev_dbg(ACRN_DBG_MMU, "%s, vaddr: [0x%llx - 0x%llx]\n", __func__, vaddr, vaddr_end); for (; index < PTRS_PER_PTE; index++) { uint64_t *pte = pt_page + index; if (mem_ops->pgentry_present(*pte) == 0UL) { ASSERT(false, "invalid op, pte not present"); } else { local_modify_or_del_pte(pte, prot_set, prot_clr, type); vaddr += PTE_SIZE; if (vaddr >= vaddr_end) { break; } } } } /* * In PD level, * type: MR_MODIFY * modify [vaddr_start, vaddr_end) memory type or page access right. * type: MR_DEL * delete [vaddr_start, vaddr_end) MT PT mapping */ static void modify_or_del_pde(const uint64_t *pdpte, uint64_t vaddr_start, uint64_t vaddr_end, uint64_t prot_set, uint64_t prot_clr, const struct memory_ops *mem_ops, uint32_t type) { uint64_t *pd_page = pdpte_page_vaddr(*pdpte); uint64_t vaddr = vaddr_start; uint64_t index = pde_index(vaddr); dev_dbg(ACRN_DBG_MMU, "%s, vaddr: [0x%llx - 0x%llx]\n", __func__, vaddr, vaddr_end); for (; index < PTRS_PER_PDE; index++) { uint64_t *pde = pd_page + index; uint64_t vaddr_next = (vaddr & PDE_MASK) + PDE_SIZE; if (mem_ops->pgentry_present(*pde) == 0UL) { ASSERT(false, "invalid op, pde not present"); } else { if (pde_large(*pde) != 0UL) { if ((vaddr_next > vaddr_end) || (!mem_aligned_check(vaddr, PDE_SIZE))) { split_large_page(pde, IA32E_PD, vaddr, mem_ops); } else { local_modify_or_del_pte(pde, prot_set, prot_clr, type); if (vaddr_next < vaddr_end) { vaddr = vaddr_next; continue; } break; /* done */ } } modify_or_del_pte(pde, vaddr, vaddr_end, prot_set, prot_clr, mem_ops, type); if (vaddr_next >= vaddr_end) { break; /* done */ } vaddr = vaddr_next; } } } /* * In PDPT level, * type: MR_MODIFY * modify [vaddr_start, vaddr_end) memory type or page access right. * type: MR_DEL * delete [vaddr_start, vaddr_end) MT PT mapping */ static void modify_or_del_pdpte(const uint64_t *pml4e, uint64_t vaddr_start, uint64_t vaddr_end, uint64_t prot_set, uint64_t prot_clr, const struct memory_ops *mem_ops, uint32_t type) { uint64_t *pdpt_page = pml4e_page_vaddr(*pml4e); uint64_t vaddr = vaddr_start; uint64_t index = pdpte_index(vaddr); dev_dbg(ACRN_DBG_MMU, "%s, vaddr: [0x%llx - 0x%llx]\n", __func__, vaddr, vaddr_end); for (; index < PTRS_PER_PDPTE; index++) { uint64_t *pdpte = pdpt_page + index; uint64_t vaddr_next = (vaddr & PDPTE_MASK) + PDPTE_SIZE; if (mem_ops->pgentry_present(*pdpte) == 0UL) { ASSERT(false, "invalid op, pdpte not present"); } else { if (pdpte_large(*pdpte) != 0UL) { if ((vaddr_next > vaddr_end) || (!mem_aligned_check(vaddr, PDPTE_SIZE))) { split_large_page(pdpte, IA32E_PDPT, vaddr, mem_ops); } else { local_modify_or_del_pte(pdpte, prot_set, prot_clr, type); if (vaddr_next < vaddr_end) { vaddr = vaddr_next; continue; } break; /* done */ } } modify_or_del_pde(pdpte, vaddr, vaddr_end, prot_set, prot_clr, mem_ops, type); if (vaddr_next >= vaddr_end) { break; /* done */ } vaddr = vaddr_next; } } } /* * type: MR_MODIFY * modify [vaddr, vaddr + size ) memory type or page access right. * prot_clr - memory type or page access right want to be clear * prot_set - memory type or page access right want to be set * @pre: the prot_set and prot_clr should set before call this function. * If you just want to modify access rights, you can just set the prot_clr * to what you want to set, prot_clr to what you want to clear. But if you * want to modify the MT, you should set the prot_set to what MT you want * to set, prot_clr to the MT mask. * type: MR_DEL * delete [vaddr_base, vaddr_base + size ) memory region page table mapping. */ void mmu_modify_or_del(uint64_t *pml4_page, uint64_t vaddr_base, uint64_t size, uint64_t prot_set, uint64_t prot_clr, const struct memory_ops *mem_ops, uint32_t type) { uint64_t vaddr = round_page_up(vaddr_base); uint64_t vaddr_next, vaddr_end; uint64_t *pml4e; vaddr_end = vaddr + round_page_down(size); dev_dbg(ACRN_DBG_MMU, "%s, vaddr: 0x%llx, size: 0x%llx\n", __func__, vaddr, size); while (vaddr < vaddr_end) { vaddr_next = (vaddr & PML4E_MASK) + PML4E_SIZE; pml4e = pml4e_offset(pml4_page, vaddr); if (mem_ops->pgentry_present(*pml4e) == 0UL) { ASSERT(false, "invalid op, pml4e not present"); } else { modify_or_del_pdpte(pml4e, vaddr, vaddr_end, prot_set, prot_clr, mem_ops, type); vaddr = vaddr_next; } } } /* * In PT level, * add [vaddr_start, vaddr_end) to [paddr_base, ...) MT PT mapping */ static void add_pte(const uint64_t *pde, uint64_t paddr_start, uint64_t vaddr_start, uint64_t vaddr_end, uint64_t prot, const struct memory_ops *mem_ops) { uint64_t *pt_page = pde_page_vaddr(*pde); uint64_t vaddr = vaddr_start; uint64_t paddr = paddr_start; uint64_t index = pte_index(vaddr); dev_dbg(ACRN_DBG_MMU, "%s, paddr: 0x%llx, vaddr: [0x%llx - 0x%llx]\n", __func__, paddr, vaddr_start, vaddr_end); for (; index < PTRS_PER_PTE; index++) { uint64_t *pte = pt_page + index; if (mem_ops->pgentry_present(*pte) != 0UL) { ASSERT(false, "invalid op, pte present"); } else { set_pgentry(pte, paddr | prot); paddr += PTE_SIZE; vaddr += PTE_SIZE; if (vaddr >= vaddr_end) { break; /* done */ } } } } /* * In PD level, * add [vaddr_start, vaddr_end) to [paddr_base, ...) MT PT mapping */ static void add_pde(const uint64_t *pdpte, uint64_t paddr_start, uint64_t vaddr_start, uint64_t vaddr_end, uint64_t prot, const struct memory_ops *mem_ops) { uint64_t *pd_page = pdpte_page_vaddr(*pdpte); uint64_t vaddr = vaddr_start; uint64_t paddr = paddr_start; uint64_t index = pde_index(vaddr); dev_dbg(ACRN_DBG_MMU, "%s, paddr: 0x%llx, vaddr: [0x%llx - 0x%llx]\n", __func__, paddr, vaddr, vaddr_end); for (; index < PTRS_PER_PDE; index++) { uint64_t *pde = pd_page + index; uint64_t vaddr_next = (vaddr & PDE_MASK) + PDE_SIZE; if (mem_ops->pgentry_present(*pde) == 0UL) { if (mem_aligned_check(paddr, PDE_SIZE) && mem_aligned_check(vaddr, PDE_SIZE) && (vaddr_next <= vaddr_end)) { set_pgentry(pde, paddr | (prot | PAGE_PSE)); if (vaddr_next < vaddr_end) { paddr += (vaddr_next - vaddr); vaddr = vaddr_next; continue; } break; /* done */ } else { void *pt_page = mem_ops->get_pt_page(mem_ops->info, vaddr); construct_pgentry(pde, pt_page, mem_ops->get_default_access_right()); } } add_pte(pde, paddr, vaddr, vaddr_end, prot, mem_ops); if (vaddr_next >= vaddr_end) { break; /* done */ } paddr += (vaddr_next - vaddr); vaddr = vaddr_next; } } /* * In PDPT level, * add [vaddr_start, vaddr_end) to [paddr_base, ...) MT PT mapping */ static void add_pdpte(const uint64_t *pml4e, uint64_t paddr_start, uint64_t vaddr_start, uint64_t vaddr_end, uint64_t prot, const struct memory_ops *mem_ops) { uint64_t *pdpt_page = pml4e_page_vaddr(*pml4e); uint64_t vaddr = vaddr_start; uint64_t paddr = paddr_start; uint64_t index = pdpte_index(vaddr); dev_dbg(ACRN_DBG_MMU, "%s, paddr: 0x%llx, vaddr: [0x%llx - 0x%llx]\n", __func__, paddr, vaddr, vaddr_end); for (; index < PTRS_PER_PDPTE; index++) { uint64_t *pdpte = pdpt_page + index; uint64_t vaddr_next = (vaddr & PDPTE_MASK) + PDPTE_SIZE; if (mem_ops->pgentry_present(*pdpte) == 0UL) { if (mem_aligned_check(paddr, PDPTE_SIZE) && mem_aligned_check(vaddr, PDPTE_SIZE) && (vaddr_next <= vaddr_end)) { set_pgentry(pdpte, paddr | (prot | PAGE_PSE)); if (vaddr_next < vaddr_end) { paddr += (vaddr_next - vaddr); vaddr = vaddr_next; continue; } break; /* done */ } else { void *pd_page = mem_ops->get_pd_page(mem_ops->info, vaddr); construct_pgentry(pdpte, pd_page, mem_ops->get_default_access_right()); } } add_pde(pdpte, paddr, vaddr, vaddr_end, prot, mem_ops); if (vaddr_next >= vaddr_end) { break; /* done */ } paddr += (vaddr_next - vaddr); vaddr = vaddr_next; } } /* * action: MR_ADD * add [vaddr_base, vaddr_base + size ) memory region page table mapping. * @pre: the prot should set before call this function. */ void mmu_add(uint64_t *pml4_page, uint64_t paddr_base, uint64_t vaddr_base, uint64_t size, uint64_t prot, const struct memory_ops *mem_ops) { uint64_t vaddr, vaddr_next, vaddr_end; uint64_t paddr; uint64_t *pml4e; dev_dbg(ACRN_DBG_MMU, "%s, paddr 0x%llx, vaddr 0x%llx, size 0x%llx\n", __func__, paddr_base, vaddr_base, size); /* align address to page size*/ vaddr = round_page_up(vaddr_base); paddr = round_page_up(paddr_base); vaddr_end = vaddr + round_page_down(size); while (vaddr < vaddr_end) { vaddr_next = (vaddr & PML4E_MASK) + PML4E_SIZE; pml4e = pml4e_offset(pml4_page, vaddr); if (mem_ops->pgentry_present(*pml4e) == 0UL) { void *pdpt_page = mem_ops->get_pdpt_page(mem_ops->info, vaddr); construct_pgentry(pml4e, pdpt_page, mem_ops->get_default_access_right()); } add_pdpte(pml4e, paddr, vaddr, vaddr_end, prot, mem_ops); paddr += (vaddr_next - vaddr); vaddr = vaddr_next; } } /** * @pre (pml4_page != NULL) && (pg_size != NULL) */ const uint64_t *lookup_address(uint64_t *pml4_page, uint64_t addr, uint64_t *pg_size, const struct memory_ops *mem_ops) { const uint64_t *pret = NULL; bool present = true; uint64_t *pml4e, *pdpte, *pde, *pte; pml4e = pml4e_offset(pml4_page, addr); present = (mem_ops->pgentry_present(*pml4e) != 0UL); if (present) { pdpte = pdpte_offset(pml4e, addr); present = (mem_ops->pgentry_present(*pdpte) != 0UL); if (present) { if (pdpte_large(*pdpte) != 0UL) { *pg_size = PDPTE_SIZE; pret = pdpte; } else { pde = pde_offset(pdpte, addr); present = (mem_ops->pgentry_present(*pde) != 0UL); if (present) { if (pde_large(*pde) != 0UL) { *pg_size = PDE_SIZE; pret = pde; } else { pte = pte_offset(pde, addr); present = (mem_ops->pgentry_present(*pte) != 0UL); if (present) { *pg_size = PTE_SIZE; pret = pte; } } } } } } return pret; }