/* * Copyright (c) 2011-2014 Wind River Systems, Inc. * Copyright (c) 2017-2020 Intel Corporation * * SPDX-License-Identifier: Apache-2.0 * * Internal memory management interfaces implemented in x86_mmu.c. * None of these are application-facing, use only if you know what you are * doing! */ #ifndef ZEPHYR_ARCH_X86_INCLUDE_X86_MMU_H #define ZEPHYR_ARCH_X86_INCLUDE_X86_MMU_H #include #include #include #if defined(CONFIG_X86_64) || defined(CONFIG_X86_PAE) #define XD_SUPPORTED #define BITL BIT64 #define PRI_ENTRY "0x%016llx" #else #define BITL BIT #define PRI_ENTRY "0x%08x" #endif /* * Common flags in the same bit position regardless of which structure level, * although not every flag is supported at every level, and some may be * ignored depending on the state of other bits (such as P or PS) * * These flags indicate bit position, and can be used for setting flags or * masks as needed. */ #define MMU_P BITL(0) /** Present */ #define MMU_RW BITL(1) /** Read-Write */ #define MMU_US BITL(2) /** User-Supervisor */ #define MMU_PWT BITL(3) /** Page Write Through */ #define MMU_PCD BITL(4) /** Page Cache Disable */ #define MMU_A BITL(5) /** Accessed */ #define MMU_D BITL(6) /** Dirty */ #define MMU_PS BITL(7) /** Page Size (non PTE)*/ #define MMU_PAT BITL(7) /** Page Attribute (PTE) */ #define MMU_G BITL(8) /** Global */ #ifdef XD_SUPPORTED #define MMU_XD BITL(63) /** Execute Disable */ #else #define MMU_XD 0 #endif /* Unused PTE bits ignored by the CPU, which we use for our own OS purposes. * These bits ignored for all paging modes. */ #define MMU_IGNORED0 BITL(9) #define MMU_IGNORED1 BITL(10) #define MMU_IGNORED2 BITL(11) /* Page fault error code flags. See Chapter 4.7 of the Intel SDM vol. 3A. */ #define PF_P BIT(0) /* 0 Non-present page 1 Protection violation */ #define PF_WR BIT(1) /* 0 Read 1 Write */ #define PF_US BIT(2) /* 0 Supervisor mode 1 User mode */ #define PF_RSVD BIT(3) /* 1 reserved bit set */ #define PF_ID BIT(4) /* 1 instruction fetch */ #define PF_PK BIT(5) /* 1 protection-key violation */ #define PF_SGX BIT(15) /* 1 SGX-specific access control requirements */ #ifndef _ASMLANGUAGE #ifdef CONFIG_EXCEPTION_DEBUG /** * Dump out page table entries for a particular virtual memory address * * For the provided memory address, dump out interesting information about * its mapping to the error log * * @param ptables Page tables to walk * @param virt Virtual address to inspect */ void z_x86_dump_mmu_flags(pentry_t *ptables, void *virt); /** * Fetch the page table entry for a virtual memory address * * @param paging_level [out] what paging level the entry was found at. * 0=toplevel * @param val Value stored in page table entry, with address and flags * @param ptables Toplevel pointer to page tables * @param virt Virtual address to lookup */ void z_x86_pentry_get(int *paging_level, pentry_t *val, pentry_t *ptables, void *virt); /** * Debug function for dumping out page tables * * Iterates through the entire linked set of page table structures, * dumping out codes for the configuration of each table entry. * * Entry codes: * * . - not present * w - present, writable, not executable * a - present, writable, executable * r - present, read-only, not executable * x - present, read-only, executable * * Entry codes in uppercase indicate that user mode may access. * * Color is used to indicate the physical mapping characteristics: * * yellow - Identity mapping (virt = phys) * green - Fixed virtual memory mapping (virt = phys + constant) * magenta - entry is child page table * cyan - General mapped memory * * @param ptables Top-level pointer to the page tables, as programmed in CR3 */ void z_x86_dump_page_tables(pentry_t *ptables); #endif /* CONFIG_EXCEPTION_DEBUG */ #ifdef CONFIG_HW_STACK_PROTECTION /* Legacy function - set identity-mapped MMU stack guard page to RO in the * kernel's page tables to prevent writes and generate an exception */ void z_x86_set_stack_guard(k_thread_stack_t *stack); #endif #ifdef CONFIG_USERSPACE #ifdef CONFIG_X86_KPTI /* Defined in linker script. Contains all the data that must be mapped * in a KPTI table even though US bit is not set (trampoline stack, GDT, * IDT, etc) */ extern uint8_t z_shared_kernel_page_start; #ifdef CONFIG_DEMAND_PAGING /* Called from page fault handler. ptables here is the ptage tables for the * faulting user thread and not the current set of page tables */ extern bool z_x86_kpti_is_access_ok(void *virt, pentry_t *ptables) #endif /* CONFIG_DEMAND_PAGING */ #endif /* CONFIG_X86_KPTI */ #endif /* CONFIG_USERSPACE */ #ifdef CONFIG_X86_PAE #define PTABLES_ALIGN 0x1fU #else #define PTABLES_ALIGN 0xfffU #endif /* Set CR3 to a physical address. There must be a valid top-level paging * structure here or the CPU will triple fault. The incoming page tables must * have the same kernel mappings wrt supervisor mode. Don't use this function * unless you know exactly what you are doing. */ static inline void z_x86_cr3_set(uintptr_t phys) { __ASSERT((phys & PTABLES_ALIGN) == 0U, "unaligned page tables"); #ifdef CONFIG_X86_64 __asm__ volatile("movq %0, %%cr3\n\t" : : "r" (phys) : "memory"); #else __asm__ volatile("movl %0, %%cr3\n\t" : : "r" (phys) : "memory"); #endif } /* Return cr3 value, which is the physical (not virtual) address of the * current set of page tables */ static inline uintptr_t z_x86_cr3_get(void) { uintptr_t cr3; #ifdef CONFIG_X86_64 __asm__ volatile("movq %%cr3, %0\n\t" : "=r" (cr3)); #else __asm__ volatile("movl %%cr3, %0\n\t" : "=r" (cr3)); #endif return cr3; } /* Return the virtual address of the page tables installed in this CPU in CR3 */ static inline pentry_t *z_x86_page_tables_get(void) { return z_mem_virt_addr(z_x86_cr3_get()); } /* Return cr2 value, which contains the page fault linear address. * See Section 6.15 of the IA32 Software Developer's Manual vol 3. * Used by page fault handling code. */ static inline void *z_x86_cr2_get(void) { void *cr2; #ifdef CONFIG_X86_64 __asm__ volatile("movq %%cr2, %0\n\t" : "=r" (cr2)); #else __asm__ volatile("movl %%cr2, %0\n\t" : "=r" (cr2)); #endif return cr2; } /* Kernel's page table. This is in CR3 for all supervisor threads. * if KPTI is enabled, we switch to this when handling exceptions or syscalls */ extern pentry_t z_x86_kernel_ptables[]; /* Get the page tables used by this thread during normal execution */ static inline pentry_t *z_x86_thread_page_tables_get(struct k_thread *thread) { #if defined(CONFIG_USERSPACE) && !defined(CONFIG_X86_COMMON_PAGE_TABLE) if (!IS_ENABLED(CONFIG_X86_KPTI) || (thread->base.user_options & K_USER) != 0U) { /* If KPTI is enabled, supervisor threads always use * the kernel's page tables and not the page tables associated * with their memory domain. */ return z_mem_virt_addr(thread->arch.ptables); } #endif return z_x86_kernel_ptables; } #ifdef CONFIG_SMP /* Handling function for TLB shootdown inter-processor interrupts. */ void z_x86_tlb_ipi(const void *arg); #endif #ifdef CONFIG_X86_COMMON_PAGE_TABLE void z_x86_swap_update_common_page_table(struct k_thread *incoming); #endif /* Early-boot paging setup tasks, called from prep_c */ void z_x86_mmu_init(void); #endif /* _ASMLANGUAGE */ #endif /* ZEPHYR_ARCH_X86_INCLUDE_X86_MMU_H */