/* * AMD Memory Encryption Support * * Copyright (C) 2016 Advanced Micro Devices, Inc. * * Author: Tom Lendacky * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 as * published by the Free Software Foundation. */ #include #include #include #include #include #include .text .code64 ENTRY(sme_encrypt_execute) /* * Entry parameters: * RDI - virtual address for the encrypted mapping * RSI - virtual address for the decrypted mapping * RDX - length to encrypt * RCX - virtual address of the encryption workarea, including: * - stack page (PAGE_SIZE) * - encryption routine page (PAGE_SIZE) * - intermediate copy buffer (PMD_PAGE_SIZE) * R8 - physcial address of the pagetables to use for encryption */ push %rbp movq %rsp, %rbp /* RBP now has original stack pointer */ /* Set up a one page stack in the non-encrypted memory area */ movq %rcx, %rax /* Workarea stack page */ leaq PAGE_SIZE(%rax), %rsp /* Set new stack pointer */ addq $PAGE_SIZE, %rax /* Workarea encryption routine */ push %r12 movq %rdi, %r10 /* Encrypted area */ movq %rsi, %r11 /* Decrypted area */ movq %rdx, %r12 /* Area length */ /* Copy encryption routine into the workarea */ movq %rax, %rdi /* Workarea encryption routine */ leaq __enc_copy(%rip), %rsi /* Encryption routine */ movq $(.L__enc_copy_end - __enc_copy), %rcx /* Encryption routine length */ rep movsb /* Setup registers for call */ movq %r10, %rdi /* Encrypted area */ movq %r11, %rsi /* Decrypted area */ movq %r8, %rdx /* Pagetables used for encryption */ movq %r12, %rcx /* Area length */ movq %rax, %r8 /* Workarea encryption routine */ addq $PAGE_SIZE, %r8 /* Workarea intermediate copy buffer */ ANNOTATE_RETPOLINE_SAFE call *%rax /* Call the encryption routine */ pop %r12 movq %rbp, %rsp /* Restore original stack pointer */ pop %rbp ret ENDPROC(sme_encrypt_execute) ENTRY(__enc_copy) /* * Routine used to encrypt memory in place. * This routine must be run outside of the kernel proper since * the kernel will be encrypted during the process. So this * routine is defined here and then copied to an area outside * of the kernel where it will remain and run decrypted * during execution. * * On entry the registers must be: * RDI - virtual address for the encrypted mapping * RSI - virtual address for the decrypted mapping * RDX - address of the pagetables to use for encryption * RCX - length of area * R8 - intermediate copy buffer * * RAX - points to this routine * * The area will be encrypted by copying from the non-encrypted * memory space to an intermediate buffer and then copying from the * intermediate buffer back to the encrypted memory space. The physical * addresses of the two mappings are the same which results in the area * being encrypted "in place". */ /* Enable the new page tables */ mov %rdx, %cr3 /* Flush any global TLBs */ mov %cr4, %rdx andq $~X86_CR4_PGE, %rdx mov %rdx, %cr4 orq $X86_CR4_PGE, %rdx mov %rdx, %cr4 push %r15 push %r12 movq %rcx, %r9 /* Save area length */ movq %rdi, %r10 /* Save encrypted area address */ movq %rsi, %r11 /* Save decrypted area address */ /* Set the PAT register PA5 entry to write-protect */ movl $MSR_IA32_CR_PAT, %ecx rdmsr mov %rdx, %r15 /* Save original PAT value */ andl $0xffff00ff, %edx /* Clear PA5 */ orl $0x00000500, %edx /* Set PA5 to WP */ wrmsr wbinvd /* Invalidate any cache entries */ /* Copy/encrypt up to 2MB at a time */ movq $PMD_PAGE_SIZE, %r12 1: cmpq %r12, %r9 jnb 2f movq %r9, %r12 2: movq %r11, %rsi /* Source - decrypted area */ movq %r8, %rdi /* Dest - intermediate copy buffer */ movq %r12, %rcx rep movsb movq %r8, %rsi /* Source - intermediate copy buffer */ movq %r10, %rdi /* Dest - encrypted area */ movq %r12, %rcx rep movsb addq %r12, %r11 addq %r12, %r10 subq %r12, %r9 /* Kernel length decrement */ jnz 1b /* Kernel length not zero? */ /* Restore PAT register */ movl $MSR_IA32_CR_PAT, %ecx rdmsr mov %r15, %rdx /* Restore original PAT value */ wrmsr pop %r12 pop %r15 ret .L__enc_copy_end: ENDPROC(__enc_copy)