/* * Copyright (C) 2016 Veertu Inc, * Copyright (C) 2017 Google Inc, * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * 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 * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this program; if not, see . */ #include "qemu/osdep.h" #include "panic.h" #include "qemu-common.h" #include "cpu.h" #include "x86.h" #include "x86_mmu.h" #include "vmcs.h" #include "vmx.h" #define pte_present(pte) (pte & PT_PRESENT) #define pte_write_access(pte) (pte & PT_WRITE) #define pte_user_access(pte) (pte & PT_USER) #define pte_exec_access(pte) (!(pte & PT_NX)) #define pte_large_page(pte) (pte & PT_PS) #define pte_global_access(pte) (pte & PT_GLOBAL) #define PAE_CR3_MASK (~0x1fllu) #define LEGACY_CR3_MASK (0xffffffff) #define LEGACY_PTE_PAGE_MASK (0xffffffffllu << 12) #define PAE_PTE_PAGE_MASK ((-1llu << 12) & ((1llu << 52) - 1)) #define PAE_PTE_LARGE_PAGE_MASK ((-1llu << (21)) & ((1llu << 52) - 1)) struct gpt_translation { target_ulong gva; uint64_t gpa; int err_code; uint64_t pte[5]; bool write_access; bool user_access; bool exec_access; }; static int gpt_top_level(struct CPUState *cpu, bool pae) { if (!pae) { return 2; } if (x86_is_long_mode(cpu)) { return 4; } return 3; } static inline int gpt_entry(target_ulong addr, int level, bool pae) { int level_shift = pae ? 9 : 10; return (addr >> (level_shift * (level - 1) + 12)) & ((1 << level_shift) - 1); } static inline int pte_size(bool pae) { return pae ? 8 : 4; } static bool get_pt_entry(struct CPUState *cpu, struct gpt_translation *pt, int level, bool pae) { int index; uint64_t pte = 0; uint64_t page_mask = pae ? PAE_PTE_PAGE_MASK : LEGACY_PTE_PAGE_MASK; uint64_t gpa = pt->pte[level] & page_mask; if (level == 3 && !x86_is_long_mode(cpu)) { gpa = pt->pte[level]; } index = gpt_entry(pt->gva, level, pae); address_space_read(&address_space_memory, gpa + index * pte_size(pae), MEMTXATTRS_UNSPECIFIED, &pte, pte_size(pae)); pt->pte[level - 1] = pte; return true; } /* test page table entry */ static bool test_pt_entry(struct CPUState *cpu, struct gpt_translation *pt, int level, bool *is_large, bool pae) { uint64_t pte = pt->pte[level]; if (pt->write_access) { pt->err_code |= MMU_PAGE_WT; } if (pt->user_access) { pt->err_code |= MMU_PAGE_US; } if (pt->exec_access) { pt->err_code |= MMU_PAGE_NX; } if (!pte_present(pte)) { return false; } if (pae && !x86_is_long_mode(cpu) && 2 == level) { goto exit; } if (1 == level && pte_large_page(pte)) { pt->err_code |= MMU_PAGE_PT; *is_large = true; } if (!level) { pt->err_code |= MMU_PAGE_PT; } uint32_t cr0 = rvmcs(cpu->hvf->fd, VMCS_GUEST_CR0); /* check protection */ if (cr0 & CR0_WP_MASK) { if (pt->write_access && !pte_write_access(pte)) { return false; } } if (pt->user_access && !pte_user_access(pte)) { return false; } if (pae && pt->exec_access && !pte_exec_access(pte)) { return false; } exit: /* TODO: check reserved bits */ return true; } static inline uint64_t pse_pte_to_page(uint64_t pte) { return ((pte & 0x1fe000) << 19) | (pte & 0xffc00000); } static inline uint64_t large_page_gpa(struct gpt_translation *pt, bool pae) { VM_PANIC_ON(!pte_large_page(pt->pte[1])) /* 2Mb large page */ if (pae) { return (pt->pte[1] & PAE_PTE_LARGE_PAGE_MASK) | (pt->gva & 0x1fffff); } /* 4Mb large page */ return pse_pte_to_page(pt->pte[1]) | (pt->gva & 0x3fffff); } static bool walk_gpt(struct CPUState *cpu, target_ulong addr, int err_code, struct gpt_translation *pt, bool pae) { int top_level, level; bool is_large = false; target_ulong cr3 = rvmcs(cpu->hvf->fd, VMCS_GUEST_CR3); uint64_t page_mask = pae ? PAE_PTE_PAGE_MASK : LEGACY_PTE_PAGE_MASK; memset(pt, 0, sizeof(*pt)); top_level = gpt_top_level(cpu, pae); pt->pte[top_level] = pae ? (cr3 & PAE_CR3_MASK) : (cr3 & LEGACY_CR3_MASK); pt->gva = addr; pt->user_access = (err_code & MMU_PAGE_US); pt->write_access = (err_code & MMU_PAGE_WT); pt->exec_access = (err_code & MMU_PAGE_NX); for (level = top_level; level > 0; level--) { get_pt_entry(cpu, pt, level, pae); if (!test_pt_entry(cpu, pt, level - 1, &is_large, pae)) { return false; } if (is_large) { break; } } if (!is_large) { pt->gpa = (pt->pte[0] & page_mask) | (pt->gva & 0xfff); } else { pt->gpa = large_page_gpa(pt, pae); } return true; } bool mmu_gva_to_gpa(struct CPUState *cpu, target_ulong gva, uint64_t *gpa) { bool res; struct gpt_translation pt; int err_code = 0; if (!x86_is_paging_mode(cpu)) { *gpa = gva; return true; } res = walk_gpt(cpu, gva, err_code, &pt, x86_is_pae_enabled(cpu)); if (res) { *gpa = pt.gpa; return true; } return false; } void vmx_write_mem(struct CPUState *cpu, target_ulong gva, void *data, int bytes) { uint64_t gpa; while (bytes > 0) { /* copy page */ int copy = MIN(bytes, 0x1000 - (gva & 0xfff)); if (!mmu_gva_to_gpa(cpu, gva, &gpa)) { VM_PANIC_EX("%s: mmu_gva_to_gpa %llx failed\n", __func__, gva); } else { address_space_write(&address_space_memory, gpa, MEMTXATTRS_UNSPECIFIED, data, copy); } bytes -= copy; gva += copy; data += copy; } } void vmx_read_mem(struct CPUState *cpu, void *data, target_ulong gva, int bytes) { uint64_t gpa; while (bytes > 0) { /* copy page */ int copy = MIN(bytes, 0x1000 - (gva & 0xfff)); if (!mmu_gva_to_gpa(cpu, gva, &gpa)) { VM_PANIC_EX("%s: mmu_gva_to_gpa %llx failed\n", __func__, gva); } address_space_read(&address_space_memory, gpa, MEMTXATTRS_UNSPECIFIED, data, copy); bytes -= copy; gva += copy; data += copy; } }