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-rw-r--r--arch/x86/include/asm/mem_encrypt.h4
-rw-r--r--arch/x86/kernel/head64.c4
-rw-r--r--arch/x86/kernel/setup.c10
-rw-r--r--arch/x86/mm/mem_encrypt.c66
-rw-r--r--arch/x86/mm/mem_encrypt_boot.S46
5 files changed, 85 insertions, 45 deletions
diff --git a/arch/x86/include/asm/mem_encrypt.h b/arch/x86/include/asm/mem_encrypt.h
index c9459a4c3c68..22c5f3e6f820 100644
--- a/arch/x86/include/asm/mem_encrypt.h
+++ b/arch/x86/include/asm/mem_encrypt.h
@@ -39,7 +39,7 @@ void __init sme_unmap_bootdata(char *real_mode_data);
void __init sme_early_init(void);
-void __init sme_encrypt_kernel(void);
+void __init sme_encrypt_kernel(struct boot_params *bp);
void __init sme_enable(struct boot_params *bp);
int __init early_set_memory_decrypted(unsigned long vaddr, unsigned long size);
@@ -67,7 +67,7 @@ static inline void __init sme_unmap_bootdata(char *real_mode_data) { }
static inline void __init sme_early_init(void) { }
-static inline void __init sme_encrypt_kernel(void) { }
+static inline void __init sme_encrypt_kernel(struct boot_params *bp) { }
static inline void __init sme_enable(struct boot_params *bp) { }
static inline bool sme_active(void) { return false; }
diff --git a/arch/x86/kernel/head64.c b/arch/x86/kernel/head64.c
index 6a5d757b9cfd..7ba5d819ebe3 100644
--- a/arch/x86/kernel/head64.c
+++ b/arch/x86/kernel/head64.c
@@ -157,8 +157,8 @@ unsigned long __head __startup_64(unsigned long physaddr,
p = fixup_pointer(&phys_base, physaddr);
*p += load_delta - sme_get_me_mask();
- /* Encrypt the kernel (if SME is active) */
- sme_encrypt_kernel();
+ /* Encrypt the kernel and related (if SME is active) */
+ sme_encrypt_kernel(bp);
/*
* Return the SME encryption mask (if SME is active) to be used as a
diff --git a/arch/x86/kernel/setup.c b/arch/x86/kernel/setup.c
index 145810b0edf6..68d7ab81c62f 100644
--- a/arch/x86/kernel/setup.c
+++ b/arch/x86/kernel/setup.c
@@ -364,16 +364,6 @@ static void __init reserve_initrd(void)
!ramdisk_image || !ramdisk_size)
return; /* No initrd provided by bootloader */
- /*
- * If SME is active, this memory will be marked encrypted by the
- * kernel when it is accessed (including relocation). However, the
- * ramdisk image was loaded decrypted by the bootloader, so make
- * sure that it is encrypted before accessing it. For SEV the
- * ramdisk will already be encrypted, so only do this for SME.
- */
- if (sme_active())
- sme_early_encrypt(ramdisk_image, ramdisk_end - ramdisk_image);
-
initrd_start = 0;
mapped_size = memblock_mem_size(max_pfn_mapped);
diff --git a/arch/x86/mm/mem_encrypt.c b/arch/x86/mm/mem_encrypt.c
index e74a1722d438..3ef362f598e3 100644
--- a/arch/x86/mm/mem_encrypt.c
+++ b/arch/x86/mm/mem_encrypt.c
@@ -738,11 +738,12 @@ static unsigned long __init sme_pgtable_calc(unsigned long len)
return total;
}
-void __init sme_encrypt_kernel(void)
+void __init sme_encrypt_kernel(struct boot_params *bp)
{
unsigned long workarea_start, workarea_end, workarea_len;
unsigned long execute_start, execute_end, execute_len;
unsigned long kernel_start, kernel_end, kernel_len;
+ unsigned long initrd_start, initrd_end, initrd_len;
struct sme_populate_pgd_data ppd;
unsigned long pgtable_area_len;
unsigned long decrypted_base;
@@ -751,14 +752,15 @@ void __init sme_encrypt_kernel(void)
return;
/*
- * Prepare for encrypting the kernel by building new pagetables with
- * the necessary attributes needed to encrypt the kernel in place.
+ * Prepare for encrypting the kernel and initrd by building new
+ * pagetables with the necessary attributes needed to encrypt the
+ * kernel in place.
*
* One range of virtual addresses will map the memory occupied
- * by the kernel as encrypted.
+ * by the kernel and initrd as encrypted.
*
* Another range of virtual addresses will map the memory occupied
- * by the kernel as decrypted and write-protected.
+ * by the kernel and initrd as decrypted and write-protected.
*
* The use of write-protect attribute will prevent any of the
* memory from being cached.
@@ -769,6 +771,20 @@ void __init sme_encrypt_kernel(void)
kernel_end = ALIGN(__pa_symbol(_end), PMD_PAGE_SIZE);
kernel_len = kernel_end - kernel_start;
+ initrd_start = 0;
+ initrd_end = 0;
+ initrd_len = 0;
+#ifdef CONFIG_BLK_DEV_INITRD
+ initrd_len = (unsigned long)bp->hdr.ramdisk_size |
+ ((unsigned long)bp->ext_ramdisk_size << 32);
+ if (initrd_len) {
+ initrd_start = (unsigned long)bp->hdr.ramdisk_image |
+ ((unsigned long)bp->ext_ramdisk_image << 32);
+ initrd_end = PAGE_ALIGN(initrd_start + initrd_len);
+ initrd_len = initrd_end - initrd_start;
+ }
+#endif
+
/* Set the encryption workarea to be immediately after the kernel */
workarea_start = kernel_end;
@@ -791,6 +807,8 @@ void __init sme_encrypt_kernel(void)
*/
pgtable_area_len = sizeof(pgd_t) * PTRS_PER_PGD;
pgtable_area_len += sme_pgtable_calc(execute_end - kernel_start) * 2;
+ if (initrd_len)
+ pgtable_area_len += sme_pgtable_calc(initrd_len) * 2;
/* PUDs and PMDs needed in the current pagetables for the workarea */
pgtable_area_len += sme_pgtable_calc(execute_len + pgtable_area_len);
@@ -829,9 +847,9 @@ void __init sme_encrypt_kernel(void)
/*
* A new pagetable structure is being built to allow for the kernel
- * to be encrypted. It starts with an empty PGD that will then be
- * populated with new PUDs and PMDs as the encrypted and decrypted
- * kernel mappings are created.
+ * and initrd to be encrypted. It starts with an empty PGD that will
+ * then be populated with new PUDs and PMDs as the encrypted and
+ * decrypted kernel mappings are created.
*/
ppd.pgd = ppd.pgtable_area;
memset(ppd.pgd, 0, sizeof(pgd_t) * PTRS_PER_PGD);
@@ -844,6 +862,12 @@ void __init sme_encrypt_kernel(void)
* the base of the mapping.
*/
decrypted_base = (pgd_index(workarea_end) + 1) & (PTRS_PER_PGD - 1);
+ if (initrd_len) {
+ unsigned long check_base;
+
+ check_base = (pgd_index(initrd_end) + 1) & (PTRS_PER_PGD - 1);
+ decrypted_base = max(decrypted_base, check_base);
+ }
decrypted_base <<= PGDIR_SHIFT;
/* Add encrypted kernel (identity) mappings */
@@ -858,6 +882,21 @@ void __init sme_encrypt_kernel(void)
ppd.vaddr_end = kernel_end + decrypted_base;
sme_map_range_decrypted_wp(&ppd);
+ if (initrd_len) {
+ /* Add encrypted initrd (identity) mappings */
+ ppd.paddr = initrd_start;
+ ppd.vaddr = initrd_start;
+ ppd.vaddr_end = initrd_end;
+ sme_map_range_encrypted(&ppd);
+ /*
+ * Add decrypted, write-protected initrd (non-identity) mappings
+ */
+ ppd.paddr = initrd_start;
+ ppd.vaddr = initrd_start + decrypted_base;
+ ppd.vaddr_end = initrd_end + decrypted_base;
+ sme_map_range_decrypted_wp(&ppd);
+ }
+
/* Add decrypted workarea mappings to both kernel mappings */
ppd.paddr = workarea_start;
ppd.vaddr = workarea_start;
@@ -873,6 +912,11 @@ void __init sme_encrypt_kernel(void)
sme_encrypt_execute(kernel_start, kernel_start + decrypted_base,
kernel_len, workarea_start, (unsigned long)ppd.pgd);
+ if (initrd_len)
+ sme_encrypt_execute(initrd_start, initrd_start + decrypted_base,
+ initrd_len, workarea_start,
+ (unsigned long)ppd.pgd);
+
/*
* At this point we are running encrypted. Remove the mappings for
* the decrypted areas - all that is needed for this is to remove
@@ -882,6 +926,12 @@ void __init sme_encrypt_kernel(void)
ppd.vaddr_end = kernel_end + decrypted_base;
sme_clear_pgd(&ppd);
+ if (initrd_len) {
+ ppd.vaddr = initrd_start + decrypted_base;
+ ppd.vaddr_end = initrd_end + decrypted_base;
+ sme_clear_pgd(&ppd);
+ }
+
ppd.vaddr = workarea_start + decrypted_base;
ppd.vaddr_end = workarea_end + decrypted_base;
sme_clear_pgd(&ppd);
diff --git a/arch/x86/mm/mem_encrypt_boot.S b/arch/x86/mm/mem_encrypt_boot.S
index 23a8a9e411ea..01f682cf77a8 100644
--- a/arch/x86/mm/mem_encrypt_boot.S
+++ b/arch/x86/mm/mem_encrypt_boot.S
@@ -22,9 +22,9 @@ ENTRY(sme_encrypt_execute)
/*
* Entry parameters:
- * RDI - virtual address for the encrypted kernel mapping
- * RSI - virtual address for the decrypted kernel mapping
- * RDX - length of kernel
+ * 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)
@@ -41,9 +41,9 @@ ENTRY(sme_encrypt_execute)
addq $PAGE_SIZE, %rax /* Workarea encryption routine */
push %r12
- movq %rdi, %r10 /* Encrypted kernel */
- movq %rsi, %r11 /* Decrypted kernel */
- movq %rdx, %r12 /* Kernel length */
+ 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 */
@@ -52,10 +52,10 @@ ENTRY(sme_encrypt_execute)
rep movsb
/* Setup registers for call */
- movq %r10, %rdi /* Encrypted kernel */
- movq %r11, %rsi /* Decrypted kernel */
+ movq %r10, %rdi /* Encrypted area */
+ movq %r11, %rsi /* Decrypted area */
movq %r8, %rdx /* Pagetables used for encryption */
- movq %r12, %rcx /* Kernel length */
+ movq %r12, %rcx /* Area length */
movq %rax, %r8 /* Workarea encryption routine */
addq $PAGE_SIZE, %r8 /* Workarea intermediate copy buffer */
@@ -71,7 +71,7 @@ ENDPROC(sme_encrypt_execute)
ENTRY(__enc_copy)
/*
- * Routine used to encrypt kernel.
+ * 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
@@ -79,19 +79,19 @@ ENTRY(__enc_copy)
* during execution.
*
* On entry the registers must be:
- * RDI - virtual address for the encrypted kernel mapping
- * RSI - virtual address for the decrypted kernel mapping
+ * 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 kernel
+ * RCX - length of area
* R8 - intermediate copy buffer
*
* RAX - points to this routine
*
- * The kernel will be encrypted by copying from the non-encrypted
- * kernel space to an intermediate buffer and then copying from the
- * intermediate buffer back to the encrypted kernel space. The physical
- * addresses of the two kernel space mappings are the same which
- * results in the kernel being encrypted "in place".
+ * 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
@@ -106,9 +106,9 @@ ENTRY(__enc_copy)
push %r15
push %r12
- movq %rcx, %r9 /* Save kernel length */
- movq %rdi, %r10 /* Save encrypted kernel address */
- movq %rsi, %r11 /* Save decrypted kernel address */
+ 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
@@ -128,13 +128,13 @@ ENTRY(__enc_copy)
movq %r9, %r12
2:
- movq %r11, %rsi /* Source - decrypted kernel */
+ 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 kernel */
+ movq %r10, %rdi /* Dest - encrypted area */
movq %r12, %rcx
rep movsb