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// SPDX-License-Identifier: GPL-2.0-only
/*
* AMD Memory Encryption Support
*
* Copyright (C) 2016 Advanced Micro Devices, Inc.
*
* Author: Tom Lendacky <thomas.lendacky@amd.com>
*/
#define DISABLE_BRANCH_PROFILING
#include <linux/linkage.h>
#include <linux/init.h>
#include <linux/mm.h>
#include <linux/dma-direct.h>
#include <linux/swiotlb.h>
#include <linux/mem_encrypt.h>
#include <linux/device.h>
#include <linux/kernel.h>
#include <linux/bitops.h>
#include <linux/dma-mapping.h>
#include <linux/virtio_config.h>
#include <linux/virtio_anchor.h>
#include <linux/cc_platform.h>
#include <asm/tlbflush.h>
#include <asm/fixmap.h>
#include <asm/setup.h>
#include <asm/mem_encrypt.h>
#include <asm/bootparam.h>
#include <asm/set_memory.h>
#include <asm/cacheflush.h>
#include <asm/processor-flags.h>
#include <asm/msr.h>
#include <asm/cmdline.h>
#include <asm/sev.h>
#include <asm/ia32.h>
#include "mm_internal.h"
/*
* Since SME related variables are set early in the boot process they must
* reside in the .data section so as not to be zeroed out when the .bss
* section is later cleared.
*/
u64 sme_me_mask __section(".data") = 0;
u64 sev_status __section(".data") = 0;
u64 sev_check_data __section(".data") = 0;
EXPORT_SYMBOL(sme_me_mask);
/* Buffer used for early in-place encryption by BSP, no locking needed */
static char sme_early_buffer[PAGE_SIZE] __initdata __aligned(PAGE_SIZE);
/*
* SNP-specific routine which needs to additionally change the page state from
* private to shared before copying the data from the source to destination and
* restore after the copy.
*/
static inline void __init snp_memcpy(void *dst, void *src, size_t sz,
unsigned long paddr, bool decrypt)
{
unsigned long npages = PAGE_ALIGN(sz) >> PAGE_SHIFT;
if (decrypt) {
/*
* @paddr needs to be accessed decrypted, mark the page shared in
* the RMP table before copying it.
*/
early_snp_set_memory_shared((unsigned long)__va(paddr), paddr, npages);
memcpy(dst, src, sz);
/* Restore the page state after the memcpy. */
early_snp_set_memory_private((unsigned long)__va(paddr), paddr, npages);
} else {
/*
* @paddr need to be accessed encrypted, no need for the page state
* change.
*/
memcpy(dst, src, sz);
}
}
/*
* This routine does not change the underlying encryption setting of the
* page(s) that map this memory. It assumes that eventually the memory is
* meant to be accessed as either encrypted or decrypted but the contents
* are currently not in the desired state.
*
* This routine follows the steps outlined in the AMD64 Architecture
* Programmer's Manual Volume 2, Section 7.10.8 Encrypt-in-Place.
*/
static void __init __sme_early_enc_dec(resource_size_t paddr,
unsigned long size, bool enc)
{
void *src, *dst;
size_t len;
if (!sme_me_mask)
return;
wbinvd();
/*
* There are limited number of early mapping slots, so map (at most)
* one page at time.
*/
while (size) {
len = min_t(size_t, sizeof(sme_early_buffer), size);
/*
* Create mappings for the current and desired format of
* the memory. Use a write-protected mapping for the source.
*/
src = enc ? early_memremap_decrypted_wp(paddr, len) :
early_memremap_encrypted_wp(paddr, len);
dst = enc ? early_memremap_encrypted(paddr, len) :
early_memremap_decrypted(paddr, len);
/*
* If a mapping can't be obtained to perform the operation,
* then eventual access of that area in the desired mode
* will cause a crash.
*/
BUG_ON(!src || !dst);
/*
* Use a temporary buffer, of cache-line multiple size, to
* avoid data corruption as documented in the APM.
*/
if (cc_platform_has(CC_ATTR_GUEST_SEV_SNP)) {
snp_memcpy(sme_early_buffer, src, len, paddr, enc);
snp_memcpy(dst, sme_early_buffer, len, paddr, !enc);
} else {
memcpy(sme_early_buffer, src, len);
memcpy(dst, sme_early_buffer, len);
}
early_memunmap(dst, len);
early_memunmap(src, len);
paddr += len;
size -= len;
}
}
void __init sme_early_encrypt(resource_size_t paddr, unsigned long size)
{
__sme_early_enc_dec(paddr, size, true);
}
void __init sme_early_decrypt(resource_size_t paddr, unsigned long size)
{
__sme_early_enc_dec(paddr, size, false);
}
static void __init __sme_early_map_unmap_mem(void *vaddr, unsigned long size,
bool map)
{
unsigned long paddr = (unsigned long)vaddr - __PAGE_OFFSET;
pmdval_t pmd_flags, pmd;
/* Use early_pmd_flags but remove the encryption mask */
pmd_flags = __sme_clr(early_pmd_flags);
do {
pmd = map ? (paddr & PMD_MASK) + pmd_flags : 0;
__early_make_pgtable((unsigned long)vaddr, pmd);
vaddr += PMD_SIZE;
paddr += PMD_SIZE;
size = (size <= PMD_SIZE) ? 0 : size - PMD_SIZE;
} while (size);
flush_tlb_local();
}
void __init sme_unmap_bootdata(char *real_mode_data)
{
struct boot_params *boot_data;
unsigned long cmdline_paddr;
if (!cc_platform_has(CC_ATTR_HOST_MEM_ENCRYPT))
return;
/* Get the command line address before unmapping the real_mode_data */
boot_data = (struct boot_params *)real_mode_data;
cmdline_paddr = boot_data->hdr.cmd_line_ptr | ((u64)boot_data->ext_cmd_line_ptr << 32);
__sme_early_map_unmap_mem(real_mode_data, sizeof(boot_params), false);
if (!cmdline_paddr)
return;
__sme_early_map_unmap_mem(__va(cmdline_paddr), COMMAND_LINE_SIZE, false);
}
void __init sme_map_bootdata(char *real_mode_data)
{
struct boot_params *boot_data;
unsigned long cmdline_paddr;
if (!cc_platform_has(CC_ATTR_HOST_MEM_ENCRYPT))
return;
__sme_early_map_unmap_mem(real_mode_data, sizeof(boot_params), true);
/* Get the command line address after mapping the real_mode_data */
boot_data = (struct boot_params *)real_mode_data;
cmdline_paddr = boot_data->hdr.cmd_line_ptr | ((u64)boot_data->ext_cmd_line_ptr << 32);
if (!cmdline_paddr)
return;
__sme_early_map_unmap_mem(__va(cmdline_paddr), COMMAND_LINE_SIZE, true);
}
void __init sev_setup_arch(void)
{
phys_addr_t total_mem = memblock_phys_mem_size();
unsigned long size;
if (!cc_platform_has(CC_ATTR_GUEST_MEM_ENCRYPT))
return;
/*
* For SEV, all DMA has to occur via shared/unencrypted pages.
* SEV uses SWIOTLB to make this happen without changing device
* drivers. However, depending on the workload being run, the
* default 64MB of SWIOTLB may not be enough and SWIOTLB may
* run out of buffers for DMA, resulting in I/O errors and/or
* performance degradation especially with high I/O workloads.
*
* Adjust the default size of SWIOTLB for SEV guests using
* a percentage of guest memory for SWIOTLB buffers.
* Also, as the SWIOTLB bounce buffer memory is allocated
* from low memory, ensure that the adjusted size is within
* the limits of low available memory.
*
* The percentage of guest memory used here for SWIOTLB buffers
* is more of an approximation of the static adjustment which
* 64MB for <1G, and ~128M to 256M for 1G-to-4G, i.e., the 6%
*/
size = total_mem * 6 / 100;
size = clamp_val(size, IO_TLB_DEFAULT_SIZE, SZ_1G);
swiotlb_adjust_size(size);
/* Set restricted memory access for virtio. */
virtio_set_mem_acc_cb(virtio_require_restricted_mem_acc);
}
static unsigned long pg_level_to_pfn(int level, pte_t *kpte, pgprot_t *ret_prot)
{
unsigned long pfn = 0;
pgprot_t prot;
switch (level) {
case PG_LEVEL_4K:
pfn = pte_pfn(*kpte);
prot = pte_pgprot(*kpte);
break;
case PG_LEVEL_2M:
pfn = pmd_pfn(*(pmd_t *)kpte);
prot = pmd_pgprot(*(pmd_t *)kpte);
break;
case PG_LEVEL_1G:
pfn = pud_pfn(*(pud_t *)kpte);
prot = pud_pgprot(*(pud_t *)kpte);
break;
default:
WARN_ONCE(1, "Invalid level for kpte\n");
return 0;
}
if (ret_prot)
*ret_prot = prot;
return pfn;
}
static bool amd_enc_tlb_flush_required(bool enc)
{
return true;
}
static bool amd_enc_cache_flush_required(void)
{
return !cpu_feature_enabled(X86_FEATURE_SME_COHERENT);
}
static void enc_dec_hypercall(unsigned long vaddr, unsigned long size, bool enc)
{
#ifdef CONFIG_PARAVIRT
unsigned long vaddr_end = vaddr + size;
while (vaddr < vaddr_end) {
int psize, pmask, level;
unsigned long pfn;
pte_t *kpte;
kpte = lookup_address(vaddr, &level);
if (!kpte || pte_none(*kpte)) {
WARN_ONCE(1, "kpte lookup for vaddr\n");
return;
}
pfn = pg_level_to_pfn(level, kpte, NULL);
if (!pfn)
continue;
psize = page_level_size(level);
pmask = page_level_mask(level);
notify_page_enc_status_changed(pfn, psize >> PAGE_SHIFT, enc);
vaddr = (vaddr & pmask) + psize;
}
#endif
}
static bool amd_enc_status_change_prepare(unsigned long vaddr, int npages, bool enc)
{
/*
* To maintain the security guarantees of SEV-SNP guests, make sure
* to invalidate the memory before encryption attribute is cleared.
*/
if (cc_platform_has(CC_ATTR_GUEST_SEV_SNP) && !enc)
snp_set_memory_shared(vaddr, npages);
return true;
}
/* Return true unconditionally: return value doesn't matter for the SEV side */
static bool amd_enc_status_change_finish(unsigned long vaddr, int npages, bool enc)
{
/*
* After memory is mapped encrypted in the page table, validate it
* so that it is consistent with the page table updates.
*/
if (cc_platform_has(CC_ATTR_GUEST_SEV_SNP) && enc)
snp_set_memory_private(vaddr, npages);
if (!cc_platform_has(CC_ATTR_HOST_MEM_ENCRYPT))
enc_dec_hypercall(vaddr, npages << PAGE_SHIFT, enc);
return true;
}
static void __init __set_clr_pte_enc(pte_t *kpte, int level, bool enc)
{
pgprot_t old_prot, new_prot;
unsigned long pfn, pa, size;
pte_t new_pte;
pfn = pg_level_to_pfn(level, kpte, &old_prot);
if (!pfn)
return;
new_prot = old_prot;
if (enc)
pgprot_val(new_prot) |= _PAGE_ENC;
else
pgprot_val(new_prot) &= ~_PAGE_ENC;
/* If prot is same then do nothing. */
if (pgprot_val(old_prot) == pgprot_val(new_prot))
return;
pa = pfn << PAGE_SHIFT;
size = page_level_size(level);
/*
* We are going to perform in-place en-/decryption and change the
* physical page attribute from C=1 to C=0 or vice versa. Flush the
* caches to ensure that data gets accessed with the correct C-bit.
*/
clflush_cache_range(__va(pa), size);
/* Encrypt/decrypt the contents in-place */
if (enc) {
sme_early_encrypt(pa, size);
} else {
sme_early_decrypt(pa, size);
/*
* ON SNP, the page state in the RMP table must happen
* before the page table updates.
*/
early_snp_set_memory_shared((unsigned long)__va(pa), pa, 1);
}
/* Change the page encryption mask. */
new_pte = pfn_pte(pfn, new_prot);
set_pte_atomic(kpte, new_pte);
/*
* If page is set encrypted in the page table, then update the RMP table to
* add this page as private.
*/
if (enc)
early_snp_set_memory_private((unsigned long)__va(pa), pa, 1);
}
static int __init early_set_memory_enc_dec(unsigned long vaddr,
unsigned long size, bool enc)
{
unsigned long vaddr_end, vaddr_next, start;
unsigned long psize, pmask;
int split_page_size_mask;
int level, ret;
pte_t *kpte;
start = vaddr;
vaddr_next = vaddr;
vaddr_end = vaddr + size;
for (; vaddr < vaddr_end; vaddr = vaddr_next) {
kpte = lookup_address(vaddr, &level);
if (!kpte || pte_none(*kpte)) {
ret = 1;
goto out;
}
if (level == PG_LEVEL_4K) {
__set_clr_pte_enc(kpte, level, enc);
vaddr_next = (vaddr & PAGE_MASK) + PAGE_SIZE;
continue;
}
psize = page_level_size(level);
pmask = page_level_mask(level);
/*
* Check whether we can change the large page in one go.
* We request a split when the address is not aligned and
* the number of pages to set/clear encryption bit is smaller
* than the number of pages in the large page.
*/
if (vaddr == (vaddr & pmask) &&
((vaddr_end - vaddr) >= psize)) {
__set_clr_pte_enc(kpte, level, enc);
vaddr_next = (vaddr & pmask) + psize;
continue;
}
/*
* The virtual address is part of a larger page, create the next
* level page table mapping (4K or 2M). If it is part of a 2M
* page then we request a split of the large page into 4K
* chunks. A 1GB large page is split into 2M pages, resp.
*/
if (level == PG_LEVEL_2M)
split_page_size_mask = 0;
else
split_page_size_mask = 1 << PG_LEVEL_2M;
/*
* kernel_physical_mapping_change() does not flush the TLBs, so
* a TLB flush is required after we exit from the for loop.
*/
kernel_physical_mapping_change(__pa(vaddr & pmask),
__pa((vaddr_end & pmask) + psize),
split_page_size_mask);
}
ret = 0;
early_set_mem_enc_dec_hypercall(start, size, enc);
out:
__flush_tlb_all();
return ret;
}
int __init early_set_memory_decrypted(unsigned long vaddr, unsigned long size)
{
return early_set_memory_enc_dec(vaddr, size, false);
}
int __init early_set_memory_encrypted(unsigned long vaddr, unsigned long size)
{
return early_set_memory_enc_dec(vaddr, size, true);
}
void __init early_set_mem_enc_dec_hypercall(unsigned long vaddr, unsigned long size, bool enc)
{
enc_dec_hypercall(vaddr, size, enc);
}
void __init sme_early_init(void)
{
if (!sme_me_mask)
return;
early_pmd_flags = __sme_set(early_pmd_flags);
__supported_pte_mask = __sme_set(__supported_pte_mask);
/* Update the protection map with memory encryption mask */
add_encrypt_protection_map();
x86_platform.guest.enc_status_change_prepare = amd_enc_status_change_prepare;
x86_platform.guest.enc_status_change_finish = amd_enc_status_change_finish;
x86_platform.guest.enc_tlb_flush_required = amd_enc_tlb_flush_required;
x86_platform.guest.enc_cache_flush_required = amd_enc_cache_flush_required;
/*
* The VMM is capable of injecting interrupt 0x80 and triggering the
* compatibility syscall path.
*
* By default, the 32-bit emulation is disabled in order to ensure
* the safety of the VM.
*/
if (sev_status & MSR_AMD64_SEV_ENABLED)
ia32_disable();
/*
* Override init functions that scan the ROM region in SEV-SNP guests,
* as this memory is not pre-validated and would thus cause a crash.
*/
if (sev_status & MSR_AMD64_SEV_SNP_ENABLED) {
x86_init.mpparse.find_smp_config = x86_init_noop;
x86_init.pci.init_irq = x86_init_noop;
x86_init.resources.probe_roms = x86_init_noop;
/*
* DMI setup behavior for SEV-SNP guests depends on
* efi_enabled(EFI_CONFIG_TABLES), which hasn't been
* parsed yet. snp_dmi_setup() will run after that
* parsing has happened.
*/
x86_init.resources.dmi_setup = snp_dmi_setup;
}
}
void __init mem_encrypt_free_decrypted_mem(void)
{
unsigned long vaddr, vaddr_end, npages;
int r;
vaddr = (unsigned long)__start_bss_decrypted_unused;
vaddr_end = (unsigned long)__end_bss_decrypted;
npages = (vaddr_end - vaddr) >> PAGE_SHIFT;
/*
* The unused memory range was mapped decrypted, change the encryption
* attribute from decrypted to encrypted before freeing it.
*/
if (cc_platform_has(CC_ATTR_MEM_ENCRYPT)) {
r = set_memory_encrypted(vaddr, npages);
if (r) {
pr_warn("failed to free unused decrypted pages\n");
return;
}
}
free_init_pages("unused decrypted", vaddr, vaddr_end);
}
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