acrn-hypervisor/hypervisor/arch/x86/interrupt.c

540 lines
14 KiB
C

/*
* Copyright (C) 2018 Intel Corporation. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#include <hypervisor.h>
#define EXCEPTION_ERROR_CODE_VALID 8
#define INTERRPUT_QUEUE_BUFF_SIZE 255
#define ACRN_DBG_INTR 6
#define EXCEPTION_CLASS_BENIGN 1
#define EXCEPTION_CLASS_CONT 2
#define EXCEPTION_CLASS_PF 3
static const uint16_t exception_type[] = {
[0] = VMX_INT_TYPE_HW_EXP,
[1] = VMX_INT_TYPE_HW_EXP,
[2] = VMX_INT_TYPE_HW_EXP,
[3] = VMX_INT_TYPE_HW_EXP,
[4] = VMX_INT_TYPE_HW_EXP,
[5] = VMX_INT_TYPE_HW_EXP,
[6] = VMX_INT_TYPE_HW_EXP,
[7] = VMX_INT_TYPE_HW_EXP,
[8] = VMX_INT_TYPE_HW_EXP | EXCEPTION_ERROR_CODE_VALID,
[9] = VMX_INT_TYPE_HW_EXP,
[10] = VMX_INT_TYPE_HW_EXP | EXCEPTION_ERROR_CODE_VALID,
[11] = VMX_INT_TYPE_HW_EXP | EXCEPTION_ERROR_CODE_VALID,
[12] = VMX_INT_TYPE_HW_EXP | EXCEPTION_ERROR_CODE_VALID,
[13] = VMX_INT_TYPE_HW_EXP | EXCEPTION_ERROR_CODE_VALID,
[14] = VMX_INT_TYPE_HW_EXP | EXCEPTION_ERROR_CODE_VALID,
[15] = VMX_INT_TYPE_HW_EXP,
[16] = VMX_INT_TYPE_HW_EXP,
[17] = VMX_INT_TYPE_HW_EXP | EXCEPTION_ERROR_CODE_VALID,
[18] = VMX_INT_TYPE_HW_EXP,
[19] = VMX_INT_TYPE_HW_EXP,
[20] = VMX_INT_TYPE_HW_EXP,
[21] = VMX_INT_TYPE_HW_EXP,
[22] = VMX_INT_TYPE_HW_EXP,
[23] = VMX_INT_TYPE_HW_EXP,
[24] = VMX_INT_TYPE_HW_EXP,
[25] = VMX_INT_TYPE_HW_EXP,
[26] = VMX_INT_TYPE_HW_EXP,
[27] = VMX_INT_TYPE_HW_EXP,
[28] = VMX_INT_TYPE_HW_EXP,
[29] = VMX_INT_TYPE_HW_EXP,
[30] = VMX_INT_TYPE_HW_EXP,
[31] = VMX_INT_TYPE_HW_EXP
};
static int is_guest_irq_enabled(struct vcpu *vcpu)
{
struct run_context *cur_context =
&vcpu->arch_vcpu.contexts[vcpu->arch_vcpu.cur_context];
uint32_t guest_rflags, guest_state;
int status = false;
/* Read the RFLAGS of the guest */
guest_rflags = cur_context->rflags;
/* Check the RFLAGS[IF] bit first */
if (guest_rflags & HV_ARCH_VCPU_RFLAGS_IF) {
/* Interrupts are allowed */
/* Check for temporarily disabled interrupts */
guest_state = exec_vmread(VMX_GUEST_INTERRUPTIBILITY_INFO);
if ((guest_state & (HV_ARCH_VCPU_BLOCKED_BY_STI |
HV_ARCH_VCPU_BLOCKED_BY_MOVSS)) == 0) {
status = true;
}
}
return status;
}
static bool vcpu_pending_request(struct vcpu *vcpu)
{
struct vlapic *vlapic;
uint32_t vector = 0;
int ret = 0;
/* Query vLapic to get vector to inject */
vlapic = vcpu->arch_vcpu.vlapic;
ret = vlapic_pending_intr(vlapic, &vector);
/* we need to check and raise request if we have pending event
* in LAPIC IRR
*/
if (ret != 0) {
/* we have pending IRR */
vcpu_make_request(vcpu, ACRN_REQUEST_EVENT);
}
return vcpu->arch_vcpu.pending_req != 0;
}
int vcpu_make_request(struct vcpu *vcpu, int eventid)
{
bitmap_set(eventid, &vcpu->arch_vcpu.pending_req);
/*
* if current hostcpu is not the target vcpu's hostcpu, we need
* to invoke IPI to wake up target vcpu
*
* TODO: Here we just compare with cpuid, since cpuid currently is
* global under pCPU / vCPU 1:1 mapping. If later we enabled vcpu
* scheduling, we need change here to determine it target vcpu is
* VMX non-root or root mode
*/
if ((int)get_cpu_id() != vcpu->pcpu_id)
send_single_ipi(vcpu->pcpu_id, VECTOR_NOTIFY_VCPU);
return 0;
}
static int vcpu_do_pending_event(struct vcpu *vcpu)
{
struct vlapic *vlapic = vcpu->arch_vcpu.vlapic;
uint32_t vector = 0;
int ret = 0;
if (is_vapic_intr_delivery_supported()) {
apicv_inject_pir(vlapic);
return 0;
}
/* Query vLapic to get vector to inject */
ret = vlapic_pending_intr(vlapic, &vector);
/*
* From the Intel SDM, Volume 3, 6.3.2 Section "Maskable
* Hardware Interrupts":
* - maskable interrupt vectors [16,255] can be delivered
* through the local APIC.
*/
if (ret == 0)
return -1;
if (!(vector >= 16 && vector <= 255)) {
dev_dbg(ACRN_DBG_INTR, "invalid vector %d from local APIC",
vector);
return -1;
}
exec_vmwrite(VMX_ENTRY_INT_INFO_FIELD, VMX_INT_INFO_VALID |
(vector & 0xFF));
vlapic_intr_accepted(vlapic, vector);
return 0;
}
static int vcpu_do_pending_extint(struct vcpu *vcpu)
{
struct vm *vm;
struct vcpu *primary;
uint32_t vector;
vm = vcpu->vm;
/* check if there is valid interrupt from vPIC, if yes just inject it */
/* PIC only connect with primary CPU */
primary = get_primary_vcpu(vm);
if (vm->vpic && vcpu == primary) {
vpic_pending_intr(vcpu->vm, &vector);
if (vector <= NR_MAX_VECTOR) {
dev_dbg(ACRN_DBG_INTR, "VPIC: to inject PIC vector %d\n",
vector & 0xFF);
exec_vmwrite(VMX_ENTRY_INT_INFO_FIELD,
VMX_INT_INFO_VALID |
(vector & 0xFF));
vpic_intr_accepted(vcpu->vm, vector);
}
}
return 0;
}
/* please keep this for interrupt debug:
* 1. Timer alive or not
* 2. native LAPIC interrupt pending/EOI status
* 3. CPU stuck or not
*/
void dump_lapic(void)
{
dev_dbg(ACRN_DBG_INTR,
"LAPIC: TIME %08x, init=0x%x cur=0x%x ISR=0x%x IRR=0x%x",
mmio_read_long(HPA2HVA(LAPIC_BASE + LAPIC_LVT_TIMER_REGISTER)),
mmio_read_long(HPA2HVA(LAPIC_BASE + LAPIC_INITIAL_COUNT_REGISTER)),
mmio_read_long(HPA2HVA(LAPIC_BASE + LAPIC_CURRENT_COUNT_REGISTER)),
mmio_read_long(HPA2HVA(LAPIC_BASE + LAPIC_IN_SERVICE_REGISTER_7)),
mmio_read_long(HPA2HVA(LAPIC_BASE + LAPIC_INT_REQUEST_REGISTER_7)));
}
/* SDM Vol3 -6.15, Table 6-4 - interrupt and exception classes */
static int get_excep_class(uint32_t vector)
{
if (vector == IDT_DE || vector == IDT_TS || vector == IDT_NP ||
vector == IDT_SS || vector == IDT_GP)
return EXCEPTION_CLASS_CONT;
else if (vector == IDT_PF || vector == IDT_VE)
return EXCEPTION_CLASS_PF;
else
return EXCEPTION_CLASS_BENIGN;
}
int vcpu_queue_exception(struct vcpu *vcpu, uint32_t vector,
uint32_t err_code)
{
/* VECTOR_INVALID is also greater than 32 */
if (vector >= 32) {
pr_err("invalid exception vector %d", vector);
return -EINVAL;
}
int32_t prev_vector =
vcpu->arch_vcpu.exception_info.exception;
int32_t new_class, prev_class;
/* SDM vol3 - 6.15, Table 6-5 - conditions for generating a
* double fault */
prev_class = get_excep_class(prev_vector);
new_class = get_excep_class(vector);
if (prev_vector == IDT_DF &&
new_class != EXCEPTION_CLASS_BENIGN) {
/* triple fault happen - shutdwon mode */
return vcpu_make_request(vcpu, ACRN_REQUEST_TRP_FAULT);
} else if ((prev_class == EXCEPTION_CLASS_CONT &&
new_class == EXCEPTION_CLASS_CONT) ||
(prev_class == EXCEPTION_CLASS_PF &&
new_class != EXCEPTION_CLASS_BENIGN)) {
/* generate double fault */
vector = IDT_DF;
err_code = 0;
}
vcpu->arch_vcpu.exception_info.exception = vector;
if (exception_type[vector] & EXCEPTION_ERROR_CODE_VALID)
vcpu->arch_vcpu.exception_info.error = err_code;
else
vcpu->arch_vcpu.exception_info.error = 0;
return 0;
}
static void _vcpu_inject_exception(struct vcpu *vcpu, uint32_t vector)
{
if (exception_type[vector] & EXCEPTION_ERROR_CODE_VALID) {
exec_vmwrite(VMX_ENTRY_EXCEPTION_ERROR_CODE,
vcpu->arch_vcpu.exception_info.error);
}
exec_vmwrite(VMX_ENTRY_INT_INFO_FIELD, VMX_INT_INFO_VALID |
(exception_type[vector] << 8) | (vector & 0xFF));
vcpu->arch_vcpu.exception_info.exception = VECTOR_INVALID;
}
static int vcpu_inject_hi_exception(struct vcpu *vcpu)
{
uint32_t vector = vcpu->arch_vcpu.exception_info.exception;
if (vector == IDT_MC || vector == IDT_BP || vector == IDT_DB) {
_vcpu_inject_exception(vcpu, vector);
return 1;
}
return 0;
}
static int vcpu_inject_lo_exception(struct vcpu *vcpu)
{
uint32_t vector = vcpu->arch_vcpu.exception_info.exception;
/* high priority exception already be injected */
if (vector <= NR_MAX_VECTOR) {
_vcpu_inject_exception(vcpu, vector);
return 1;
}
return 0;
}
int vcpu_inject_extint(struct vcpu *vcpu)
{
return vcpu_make_request(vcpu, ACRN_REQUEST_EXTINT);
}
int vcpu_inject_nmi(struct vcpu *vcpu)
{
return vcpu_make_request(vcpu, ACRN_REQUEST_NMI);
}
int vcpu_inject_gp(struct vcpu *vcpu, uint32_t err_code)
{
vcpu_queue_exception(vcpu, IDT_GP, err_code);
return vcpu_make_request(vcpu, ACRN_REQUEST_EXCP);
}
int vcpu_inject_pf(struct vcpu *vcpu, uint64_t addr, uint32_t err_code)
{
struct run_context *cur_context =
&vcpu->arch_vcpu.contexts[vcpu->arch_vcpu.cur_context];
cur_context->cr2 = addr;
vcpu_queue_exception(vcpu, IDT_PF, err_code);
return vcpu_make_request(vcpu, ACRN_REQUEST_EXCP);
}
int interrupt_window_vmexit_handler(struct vcpu *vcpu)
{
int value32;
TRACE_2L(TRC_VMEXIT_INTERRUPT_WINDOW, 0, 0);
if (!vcpu)
return -1;
if (vcpu_pending_request(vcpu)) {
/* Do nothing
* acrn_handle_pending_request will continue for this vcpu
*/
} else {
/* No interrupts to inject.
* Disable the interrupt window exiting
*/
vcpu->arch_vcpu.irq_window_enabled = 0;
value32 = exec_vmread(VMX_PROC_VM_EXEC_CONTROLS);
value32 &= ~(VMX_PROCBASED_CTLS_IRQ_WIN);
exec_vmwrite(VMX_PROC_VM_EXEC_CONTROLS, value32);
}
VCPU_RETAIN_RIP(vcpu);
return 0;
}
int external_interrupt_vmexit_handler(struct vcpu *vcpu)
{
uint32_t intr_info;
struct intr_excp_ctx ctx;
intr_info = exec_vmread(VMX_EXIT_INT_INFO);
if ((!(intr_info & VMX_INT_INFO_VALID)) ||
(((intr_info & VMX_INT_TYPE_MASK) >> 8)
!= VMX_INT_TYPE_EXT_INT)) {
pr_err("Invalid VM exit interrupt info:%x", intr_info);
VCPU_RETAIN_RIP(vcpu);
return -EINVAL;
}
ctx.vector = intr_info & 0xFF;
dispatch_interrupt(&ctx);
VCPU_RETAIN_RIP(vcpu);
TRACE_2L(TRC_VMEXIT_EXTERNAL_INTERRUPT, ctx.vector, 0);
return 0;
}
int acrn_handle_pending_request(struct vcpu *vcpu)
{
int ret = 0;
int tmp;
bool intr_pending = false;
uint64_t *pending_req_bits = &vcpu->arch_vcpu.pending_req;
if (bitmap_test_and_clear(ACRN_REQUEST_TRP_FAULT, pending_req_bits)) {
pr_fatal("Triple fault happen -> shutdown!");
return -EFAULT;
}
if (bitmap_test_and_clear(ACRN_REQUEST_EPT_FLUSH, pending_req_bits))
invept(vcpu);
if (bitmap_test_and_clear(ACRN_REQUEST_VPID_FLUSH, pending_req_bits))
flush_vpid_single(vcpu->arch_vcpu.vpid);
if (bitmap_test_and_clear(ACRN_REQUEST_TMR_UPDATE, pending_req_bits))
vioapic_update_tmr(vcpu);
/* handling cancelled event injection when vcpu is switched out */
if (vcpu->arch_vcpu.inject_event_pending) {
if (vcpu->arch_vcpu.inject_info.intr_info & (EXCEPTION_ERROR_CODE_VALID << 8))
exec_vmwrite(VMX_ENTRY_EXCEPTION_ERROR_CODE,
vcpu->arch_vcpu.inject_info.error_code);
exec_vmwrite(VMX_ENTRY_INT_INFO_FIELD,
vcpu->arch_vcpu.inject_info.intr_info);
vcpu->arch_vcpu.inject_event_pending = false;
goto INTR_WIN;
}
/* SDM Vol 3 - table 6-2, inject high priority exception before
* maskable hardware interrupt */
if (vcpu_inject_hi_exception(vcpu))
goto INTR_WIN;
/* inject NMI before maskable hardware interrupt */
if (bitmap_test_and_clear(ACRN_REQUEST_NMI, pending_req_bits)) {
/* Inject NMI vector = 2 */
exec_vmwrite(VMX_ENTRY_INT_INFO_FIELD,
VMX_INT_INFO_VALID | (VMX_INT_TYPE_NMI << 8) | IDT_NMI);
goto INTR_WIN;
}
/* handling pending vector injection:
* there are many reason inject failed, we need re-inject again
* here should take care
* - SW exception (not maskable by IF)
* - external interrupt, if IF clear, will keep in IDT_VEC_INFO_FIELD
* at next vm exit?
*/
if (vcpu->arch_vcpu.idt_vectoring_info & VMX_INT_INFO_VALID) {
exec_vmwrite(VMX_ENTRY_INT_INFO_FIELD,
vcpu->arch_vcpu.idt_vectoring_info);
goto INTR_WIN;
}
/* Guest interruptable or not */
if (is_guest_irq_enabled(vcpu)) {
/* Inject external interrupt first */
if (bitmap_test_and_clear(ACRN_REQUEST_EXTINT,
pending_req_bits)) {
/* has pending external interrupts */
ret = vcpu_do_pending_extint(vcpu);
goto INTR_WIN;
}
/* Inject vLAPIC vectors */
if (bitmap_test_and_clear(ACRN_REQUEST_EVENT,
pending_req_bits)) {
/* has pending vLAPIC interrupts */
ret = vcpu_do_pending_event(vcpu);
goto INTR_WIN;
}
}
/* SDM Vol3 table 6-2, inject lowpri exception */
if (vcpu_inject_lo_exception(vcpu))
goto INTR_WIN;
INTR_WIN:
/* check if we have new interrupt pending for next VMExit */
intr_pending = vcpu_pending_request(vcpu);
/* Enable interrupt window exiting if pending */
if (intr_pending && vcpu->arch_vcpu.irq_window_enabled == 0) {
vcpu->arch_vcpu.irq_window_enabled = 1;
tmp = exec_vmread(VMX_PROC_VM_EXEC_CONTROLS);
tmp |= (VMX_PROCBASED_CTLS_IRQ_WIN);
exec_vmwrite(VMX_PROC_VM_EXEC_CONTROLS, tmp);
}
return ret;
}
void cancel_event_injection(struct vcpu *vcpu)
{
uint32_t intinfo;
intinfo = exec_vmread(VMX_ENTRY_INT_INFO_FIELD);
/*
* If event is injected, we clear VMX_ENTRY_INT_INFO_FIELD,
* save injection info, and mark inject event pending.
* The event will be re-injected in next acrn_handle_pending_request
* call.
*/
if (intinfo & VMX_INT_INFO_VALID) {
vcpu->arch_vcpu.inject_event_pending = true;
if (intinfo & (EXCEPTION_ERROR_CODE_VALID << 8))
vcpu->arch_vcpu.inject_info.error_code =
exec_vmread(VMX_ENTRY_EXCEPTION_ERROR_CODE);
vcpu->arch_vcpu.inject_info.intr_info = intinfo;
exec_vmwrite(VMX_ENTRY_INT_INFO_FIELD, 0);
}
}
int exception_vmexit_handler(struct vcpu *vcpu)
{
uint32_t intinfo, int_err_code = 0;
uint32_t exception_vector = VECTOR_INVALID;
uint32_t cpl;
int status = 0;
if (vcpu == NULL) {
TRACE_4I(TRC_VMEXIT_EXCEPTION_OR_NMI, 0, 0, 0, 0);
status = -EINVAL;
}
if (status != 0)
return status;
pr_dbg(" Handling guest exception");
/* Obtain VM-Exit information field pg 2912 */
intinfo = exec_vmread(VMX_EXIT_INT_INFO);
if (intinfo & VMX_INT_INFO_VALID) {
exception_vector = intinfo & 0xFF;
/* Check if exception caused by the guest is a HW exception.
* If the exit occurred due to a HW exception obtain the
* error code to be conveyed to get via the stack
*/
if (intinfo & VMX_INT_INFO_ERR_CODE_VALID) {
int_err_code = exec_vmread(VMX_EXIT_INT_ERROR_CODE);
/* get current privilege level and fault address */
cpl = exec_vmread(VMX_GUEST_CS_ATTR);
cpl = (cpl >> 5) & 3;
if (cpl < 3)
int_err_code &= ~4;
else
int_err_code |= 4;
}
}
/* Handle all other exceptions */
VCPU_RETAIN_RIP(vcpu);
vcpu_queue_exception(vcpu, exception_vector, int_err_code);
if (exception_vector == IDT_MC) {
/* just print error message for #MC, it then will be injected
* back to guest */
pr_fatal("Exception #MC got from guest!");
}
TRACE_4I(TRC_VMEXIT_EXCEPTION_OR_NMI,
exception_vector, int_err_code, 2, 0);
return status;
}