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// SPDX-License-Identifier: GPL-2.0
/*
* AMD Encrypted Register State Support
*
* Author: Joerg Roedel <jroedel@suse.de>
*
* This file is not compiled stand-alone. It contains code shared
* between the pre-decompression boot code and the running Linux kernel
* and is included directly into both code-bases.
*/
#ifndef __BOOT_COMPRESSED
#define error(v) pr_err(v)
#define has_cpuflag(f) boot_cpu_has(f)
#endif
static bool __init sev_es_check_cpu_features(void)
{
if (!has_cpuflag(X86_FEATURE_RDRAND)) {
error("RDRAND instruction not supported - no trusted source of randomness available\n");
return false;
}
return true;
}
static void __noreturn sev_es_terminate(unsigned int reason)
{
u64 val = GHCB_MSR_TERM_REQ;
/*
* Tell the hypervisor what went wrong - only reason-set 0 is
* currently supported.
*/
val |= GHCB_SEV_TERM_REASON(0, reason);
/* Request Guest Termination from Hypvervisor */
sev_es_wr_ghcb_msr(val);
VMGEXIT();
while (true)
asm volatile("hlt\n" : : : "memory");
}
static bool sev_es_negotiate_protocol(void)
{
u64 val;
/* Do the GHCB protocol version negotiation */
sev_es_wr_ghcb_msr(GHCB_MSR_SEV_INFO_REQ);
VMGEXIT();
val = sev_es_rd_ghcb_msr();
if (GHCB_MSR_INFO(val) != GHCB_MSR_SEV_INFO_RESP)
return false;
if (GHCB_MSR_PROTO_MAX(val) < GHCB_PROTO_OUR ||
GHCB_MSR_PROTO_MIN(val) > GHCB_PROTO_OUR)
return false;
return true;
}
static __always_inline void vc_ghcb_invalidate(struct ghcb *ghcb)
{
ghcb->save.sw_exit_code = 0;
__builtin_memset(ghcb->save.valid_bitmap, 0, sizeof(ghcb->save.valid_bitmap));
}
static bool vc_decoding_needed(unsigned long exit_code)
{
/* Exceptions don't require to decode the instruction */
return !(exit_code >= SVM_EXIT_EXCP_BASE &&
exit_code <= SVM_EXIT_LAST_EXCP);
}
static enum es_result vc_init_em_ctxt(struct es_em_ctxt *ctxt,
struct pt_regs *regs,
unsigned long exit_code)
{
enum es_result ret = ES_OK;
memset(ctxt, 0, sizeof(*ctxt));
ctxt->regs = regs;
if (vc_decoding_needed(exit_code))
ret = vc_decode_insn(ctxt);
return ret;
}
static void vc_finish_insn(struct es_em_ctxt *ctxt)
{
ctxt->regs->ip += ctxt->insn.length;
}
static enum es_result verify_exception_info(struct ghcb *ghcb, struct es_em_ctxt *ctxt)
{
u32 ret;
ret = ghcb->save.sw_exit_info_1 & GENMASK_ULL(31, 0);
if (!ret)
return ES_OK;
if (ret == 1) {
u64 info = ghcb->save.sw_exit_info_2;
unsigned long v;
info = ghcb->save.sw_exit_info_2;
v = info & SVM_EVTINJ_VEC_MASK;
/* Check if exception information from hypervisor is sane. */
if ((info & SVM_EVTINJ_VALID) &&
((v == X86_TRAP_GP) || (v == X86_TRAP_UD)) &&
((info & SVM_EVTINJ_TYPE_MASK) == SVM_EVTINJ_TYPE_EXEPT)) {
ctxt->fi.vector = v;
if (info & SVM_EVTINJ_VALID_ERR)
ctxt->fi.error_code = info >> 32;
return ES_EXCEPTION;
}
}
return ES_VMM_ERROR;
}
enum es_result sev_es_ghcb_hv_call(struct ghcb *ghcb, bool set_ghcb_msr,
struct es_em_ctxt *ctxt, u64 exit_code,
u64 exit_info_1, u64 exit_info_2)
{
/* Fill in protocol and format specifiers */
ghcb->protocol_version = GHCB_PROTOCOL_MAX;
ghcb->ghcb_usage = GHCB_DEFAULT_USAGE;
ghcb_set_sw_exit_code(ghcb, exit_code);
ghcb_set_sw_exit_info_1(ghcb, exit_info_1);
ghcb_set_sw_exit_info_2(ghcb, exit_info_2);
/*
* Hyper-V unenlightened guests use a paravisor for communicating and
* GHCB pages are being allocated and set up by that paravisor. Linux
* should not change the GHCB page's physical address.
*/
if (set_ghcb_msr)
sev_es_wr_ghcb_msr(__pa(ghcb));
VMGEXIT();
return verify_exception_info(ghcb, ctxt);
}
/*
* Boot VC Handler - This is the first VC handler during boot, there is no GHCB
* page yet, so it only supports the MSR based communication with the
* hypervisor and only the CPUID exit-code.
*/
void __init do_vc_no_ghcb(struct pt_regs *regs, unsigned long exit_code)
{
unsigned int fn = lower_bits(regs->ax, 32);
unsigned long val;
/* Only CPUID is supported via MSR protocol */
if (exit_code != SVM_EXIT_CPUID)
goto fail;
sev_es_wr_ghcb_msr(GHCB_CPUID_REQ(fn, GHCB_CPUID_REQ_EAX));
VMGEXIT();
val = sev_es_rd_ghcb_msr();
if (GHCB_RESP_CODE(val) != GHCB_MSR_CPUID_RESP)
goto fail;
regs->ax = val >> 32;
sev_es_wr_ghcb_msr(GHCB_CPUID_REQ(fn, GHCB_CPUID_REQ_EBX));
VMGEXIT();
val = sev_es_rd_ghcb_msr();
if (GHCB_RESP_CODE(val) != GHCB_MSR_CPUID_RESP)
goto fail;
regs->bx = val >> 32;
sev_es_wr_ghcb_msr(GHCB_CPUID_REQ(fn, GHCB_CPUID_REQ_ECX));
VMGEXIT();
val = sev_es_rd_ghcb_msr();
if (GHCB_RESP_CODE(val) != GHCB_MSR_CPUID_RESP)
goto fail;
regs->cx = val >> 32;
sev_es_wr_ghcb_msr(GHCB_CPUID_REQ(fn, GHCB_CPUID_REQ_EDX));
VMGEXIT();
val = sev_es_rd_ghcb_msr();
if (GHCB_RESP_CODE(val) != GHCB_MSR_CPUID_RESP)
goto fail;
regs->dx = val >> 32;
/*
* This is a VC handler and the #VC is only raised when SEV-ES is
* active, which means SEV must be active too. Do sanity checks on the
* CPUID results to make sure the hypervisor does not trick the kernel
* into the no-sev path. This could map sensitive data unencrypted and
* make it accessible to the hypervisor.
*
* In particular, check for:
* - Availability of CPUID leaf 0x8000001f
* - SEV CPUID bit.
*
* The hypervisor might still report the wrong C-bit position, but this
* can't be checked here.
*/
if (fn == 0x80000000 && (regs->ax < 0x8000001f))
/* SEV leaf check */
goto fail;
else if ((fn == 0x8000001f && !(regs->ax & BIT(1))))
/* SEV bit */
goto fail;
/* Skip over the CPUID two-byte opcode */
regs->ip += 2;
return;
fail:
/* Terminate the guest */
sev_es_terminate(GHCB_SEV_ES_REASON_GENERAL_REQUEST);
}
static enum es_result vc_insn_string_read(struct es_em_ctxt *ctxt,
void *src, char *buf,
unsigned int data_size,
unsigned int count,
bool backwards)
{
int i, b = backwards ? -1 : 1;
enum es_result ret = ES_OK;
for (i = 0; i < count; i++) {
void *s = src + (i * data_size * b);
char *d = buf + (i * data_size);
ret = vc_read_mem(ctxt, s, d, data_size);
if (ret != ES_OK)
break;
}
return ret;
}
static enum es_result vc_insn_string_write(struct es_em_ctxt *ctxt,
void *dst, char *buf,
unsigned int data_size,
unsigned int count,
bool backwards)
{
int i, s = backwards ? -1 : 1;
enum es_result ret = ES_OK;
for (i = 0; i < count; i++) {
void *d = dst + (i * data_size * s);
char *b = buf + (i * data_size);
ret = vc_write_mem(ctxt, d, b, data_size);
if (ret != ES_OK)
break;
}
return ret;
}
#define IOIO_TYPE_STR BIT(2)
#define IOIO_TYPE_IN 1
#define IOIO_TYPE_INS (IOIO_TYPE_IN | IOIO_TYPE_STR)
#define IOIO_TYPE_OUT 0
#define IOIO_TYPE_OUTS (IOIO_TYPE_OUT | IOIO_TYPE_STR)
#define IOIO_REP BIT(3)
#define IOIO_ADDR_64 BIT(9)
#define IOIO_ADDR_32 BIT(8)
#define IOIO_ADDR_16 BIT(7)
#define IOIO_DATA_32 BIT(6)
#define IOIO_DATA_16 BIT(5)
#define IOIO_DATA_8 BIT(4)
#define IOIO_SEG_ES (0 << 10)
#define IOIO_SEG_DS (3 << 10)
static enum es_result vc_ioio_exitinfo(struct es_em_ctxt *ctxt, u64 *exitinfo)
{
struct insn *insn = &ctxt->insn;
*exitinfo = 0;
switch (insn->opcode.bytes[0]) {
/* INS opcodes */
case 0x6c:
case 0x6d:
*exitinfo |= IOIO_TYPE_INS;
*exitinfo |= IOIO_SEG_ES;
*exitinfo |= (ctxt->regs->dx & 0xffff) << 16;
break;
/* OUTS opcodes */
case 0x6e:
case 0x6f:
*exitinfo |= IOIO_TYPE_OUTS;
*exitinfo |= IOIO_SEG_DS;
*exitinfo |= (ctxt->regs->dx & 0xffff) << 16;
break;
/* IN immediate opcodes */
case 0xe4:
case 0xe5:
*exitinfo |= IOIO_TYPE_IN;
*exitinfo |= (u8)insn->immediate.value << 16;
break;
/* OUT immediate opcodes */
case 0xe6:
case 0xe7:
*exitinfo |= IOIO_TYPE_OUT;
*exitinfo |= (u8)insn->immediate.value << 16;
break;
/* IN register opcodes */
case 0xec:
case 0xed:
*exitinfo |= IOIO_TYPE_IN;
*exitinfo |= (ctxt->regs->dx & 0xffff) << 16;
break;
/* OUT register opcodes */
case 0xee:
case 0xef:
*exitinfo |= IOIO_TYPE_OUT;
*exitinfo |= (ctxt->regs->dx & 0xffff) << 16;
break;
default:
return ES_DECODE_FAILED;
}
switch (insn->opcode.bytes[0]) {
case 0x6c:
case 0x6e:
case 0xe4:
case 0xe6:
case 0xec:
case 0xee:
/* Single byte opcodes */
*exitinfo |= IOIO_DATA_8;
break;
default:
/* Length determined by instruction parsing */
*exitinfo |= (insn->opnd_bytes == 2) ? IOIO_DATA_16
: IOIO_DATA_32;
}
switch (insn->addr_bytes) {
case 2:
*exitinfo |= IOIO_ADDR_16;
break;
case 4:
*exitinfo |= IOIO_ADDR_32;
break;
case 8:
*exitinfo |= IOIO_ADDR_64;
break;
}
if (insn_has_rep_prefix(insn))
*exitinfo |= IOIO_REP;
return ES_OK;
}
static enum es_result vc_handle_ioio(struct ghcb *ghcb, struct es_em_ctxt *ctxt)
{
struct pt_regs *regs = ctxt->regs;
u64 exit_info_1, exit_info_2;
enum es_result ret;
ret = vc_ioio_exitinfo(ctxt, &exit_info_1);
if (ret != ES_OK)
return ret;
if (exit_info_1 & IOIO_TYPE_STR) {
/* (REP) INS/OUTS */
bool df = ((regs->flags & X86_EFLAGS_DF) == X86_EFLAGS_DF);
unsigned int io_bytes, exit_bytes;
unsigned int ghcb_count, op_count;
unsigned long es_base;
u64 sw_scratch;
/*
* For the string variants with rep prefix the amount of in/out
* operations per #VC exception is limited so that the kernel
* has a chance to take interrupts and re-schedule while the
* instruction is emulated.
*/
io_bytes = (exit_info_1 >> 4) & 0x7;
ghcb_count = sizeof(ghcb->shared_buffer) / io_bytes;
op_count = (exit_info_1 & IOIO_REP) ? regs->cx : 1;
exit_info_2 = min(op_count, ghcb_count);
exit_bytes = exit_info_2 * io_bytes;
es_base = insn_get_seg_base(ctxt->regs, INAT_SEG_REG_ES);
/* Read bytes of OUTS into the shared buffer */
if (!(exit_info_1 & IOIO_TYPE_IN)) {
ret = vc_insn_string_read(ctxt,
(void *)(es_base + regs->si),
ghcb->shared_buffer, io_bytes,
exit_info_2, df);
if (ret)
return ret;
}
/*
* Issue an VMGEXIT to the HV to consume the bytes from the
* shared buffer or to have it write them into the shared buffer
* depending on the instruction: OUTS or INS.
*/
sw_scratch = __pa(ghcb) + offsetof(struct ghcb, shared_buffer);
ghcb_set_sw_scratch(ghcb, sw_scratch);
ret = sev_es_ghcb_hv_call(ghcb, true, ctxt, SVM_EXIT_IOIO,
exit_info_1, exit_info_2);
if (ret != ES_OK)
return ret;
/* Read bytes from shared buffer into the guest's destination. */
if (exit_info_1 & IOIO_TYPE_IN) {
ret = vc_insn_string_write(ctxt,
(void *)(es_base + regs->di),
ghcb->shared_buffer, io_bytes,
exit_info_2, df);
if (ret)
return ret;
if (df)
regs->di -= exit_bytes;
else
regs->di += exit_bytes;
} else {
if (df)
regs->si -= exit_bytes;
else
regs->si += exit_bytes;
}
if (exit_info_1 & IOIO_REP)
regs->cx -= exit_info_2;
ret = regs->cx ? ES_RETRY : ES_OK;
} else {
/* IN/OUT into/from rAX */
int bits = (exit_info_1 & 0x70) >> 1;
u64 rax = 0;
if (!(exit_info_1 & IOIO_TYPE_IN))
rax = lower_bits(regs->ax, bits);
ghcb_set_rax(ghcb, rax);
ret = sev_es_ghcb_hv_call(ghcb, true, ctxt,
SVM_EXIT_IOIO, exit_info_1, 0);
if (ret != ES_OK)
return ret;
if (exit_info_1 & IOIO_TYPE_IN) {
if (!ghcb_rax_is_valid(ghcb))
return ES_VMM_ERROR;
regs->ax = lower_bits(ghcb->save.rax, bits);
}
}
return ret;
}
static enum es_result vc_handle_cpuid(struct ghcb *ghcb,
struct es_em_ctxt *ctxt)
{
struct pt_regs *regs = ctxt->regs;
u32 cr4 = native_read_cr4();
enum es_result ret;
ghcb_set_rax(ghcb, regs->ax);
ghcb_set_rcx(ghcb, regs->cx);
if (cr4 & X86_CR4_OSXSAVE)
/* Safe to read xcr0 */
ghcb_set_xcr0(ghcb, xgetbv(XCR_XFEATURE_ENABLED_MASK));
else
/* xgetbv will cause #GP - use reset value for xcr0 */
ghcb_set_xcr0(ghcb, 1);
ret = sev_es_ghcb_hv_call(ghcb, true, ctxt, SVM_EXIT_CPUID, 0, 0);
if (ret != ES_OK)
return ret;
if (!(ghcb_rax_is_valid(ghcb) &&
ghcb_rbx_is_valid(ghcb) &&
ghcb_rcx_is_valid(ghcb) &&
ghcb_rdx_is_valid(ghcb)))
return ES_VMM_ERROR;
regs->ax = ghcb->save.rax;
regs->bx = ghcb->save.rbx;
regs->cx = ghcb->save.rcx;
regs->dx = ghcb->save.rdx;
return ES_OK;
}
static enum es_result vc_handle_rdtsc(struct ghcb *ghcb,
struct es_em_ctxt *ctxt,
unsigned long exit_code)
{
bool rdtscp = (exit_code == SVM_EXIT_RDTSCP);
enum es_result ret;
ret = sev_es_ghcb_hv_call(ghcb, true, ctxt, exit_code, 0, 0);
if (ret != ES_OK)
return ret;
if (!(ghcb_rax_is_valid(ghcb) && ghcb_rdx_is_valid(ghcb) &&
(!rdtscp || ghcb_rcx_is_valid(ghcb))))
return ES_VMM_ERROR;
ctxt->regs->ax = ghcb->save.rax;
ctxt->regs->dx = ghcb->save.rdx;
if (rdtscp)
ctxt->regs->cx = ghcb->save.rcx;
return ES_OK;
}
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