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KVM: selftests: VMX preemption timer migration test
When a nested VM with a VMX-preemption timer is migrated, verify that the nested VM and its parent VM observe the VMX-preemption timer exit close to the original expiration deadline. Signed-off-by: Makarand Sonare <makarandsonare@google.com> Reviewed-by: Jim Mattson <jmattson@google.com> Message-Id: <20200526215107.205814-3-makarandsonare@google.com> Signed-off-by: Paolo Bonzini <pbonzini@redhat.com>
This commit is contained in:
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850448f35a
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8d7fbf01f9
@ -2091,20 +2091,16 @@ static u64 vmx_calc_preemption_timer_value(struct kvm_vcpu *vcpu)
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{
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struct vcpu_vmx *vmx = to_vmx(vcpu);
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struct vmcs12 *vmcs12 = get_vmcs12(vcpu);
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u64 timer_value = 0;
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u64 l1_scaled_tsc = kvm_read_l1_tsc(vcpu, rdtsc()) >>
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VMX_MISC_EMULATED_PREEMPTION_TIMER_RATE;
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if (!vmx->nested.has_preemption_timer_deadline) {
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timer_value = vmcs12->vmx_preemption_timer_value;
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vmx->nested.preemption_timer_deadline = timer_value +
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l1_scaled_tsc;
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vmx->nested.preemption_timer_deadline =
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vmcs12->vmx_preemption_timer_value + l1_scaled_tsc;
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vmx->nested.has_preemption_timer_deadline = true;
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} else if (l1_scaled_tsc < vmx->nested.preemption_timer_deadline)
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timer_value = vmx->nested.preemption_timer_deadline -
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l1_scaled_tsc;
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return timer_value;
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}
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return vmx->nested.preemption_timer_deadline - l1_scaled_tsc;
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}
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static void vmx_start_preemption_timer(struct kvm_vcpu *vcpu,
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@ -400,6 +400,7 @@ struct kvm_sync_regs {
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struct kvm_vmx_nested_state_data {
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__u8 vmcs12[KVM_STATE_NESTED_VMX_VMCS_SIZE];
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__u8 shadow_vmcs12[KVM_STATE_NESTED_VMX_VMCS_SIZE];
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__u64 preemption_timer_deadline;
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};
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struct kvm_vmx_nested_state_hdr {
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1
tools/testing/selftests/kvm/.gitignore
vendored
1
tools/testing/selftests/kvm/.gitignore
vendored
@ -10,6 +10,7 @@
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/x86_64/set_sregs_test
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/x86_64/smm_test
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/x86_64/state_test
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/x86_64/vmx_preemption_timer_test
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/x86_64/svm_vmcall_test
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/x86_64/sync_regs_test
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/x86_64/vmx_close_while_nested_test
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@ -46,6 +46,7 @@ TEST_GEN_PROGS_x86_64 += x86_64/platform_info_test
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TEST_GEN_PROGS_x86_64 += x86_64/set_sregs_test
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TEST_GEN_PROGS_x86_64 += x86_64/smm_test
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TEST_GEN_PROGS_x86_64 += x86_64/state_test
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TEST_GEN_PROGS_x86_64 += x86_64/vmx_preemption_timer_test
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TEST_GEN_PROGS_x86_64 += x86_64/svm_vmcall_test
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TEST_GEN_PROGS_x86_64 += x86_64/sync_regs_test
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TEST_GEN_PROGS_x86_64 += x86_64/vmx_close_while_nested_test
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@ -314,6 +314,8 @@ void ucall_uninit(struct kvm_vm *vm);
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void ucall(uint64_t cmd, int nargs, ...);
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uint64_t get_ucall(struct kvm_vm *vm, uint32_t vcpu_id, struct ucall *uc);
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#define GUEST_SYNC_ARGS(stage, arg1, arg2, arg3, arg4) \
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ucall(UCALL_SYNC, 6, "hello", stage, arg1, arg2, arg3, arg4)
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#define GUEST_SYNC(stage) ucall(UCALL_SYNC, 2, "hello", stage)
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#define GUEST_DONE() ucall(UCALL_DONE, 0)
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#define __GUEST_ASSERT(_condition, _nargs, _args...) do { \
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@ -79,13 +79,16 @@ static inline uint64_t get_desc64_base(const struct desc64 *desc)
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static inline uint64_t rdtsc(void)
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{
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uint32_t eax, edx;
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uint32_t tsc_val;
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/*
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* The lfence is to wait (on Intel CPUs) until all previous
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* instructions have been executed.
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* instructions have been executed. If software requires RDTSC to be
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* executed prior to execution of any subsequent instruction, it can
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* execute LFENCE immediately after RDTSC
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*/
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__asm__ __volatile__("lfence; rdtsc" : "=a"(eax), "=d"(edx));
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return ((uint64_t)edx) << 32 | eax;
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__asm__ __volatile__("lfence; rdtsc; lfence" : "=a"(eax), "=d"(edx));
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tsc_val = ((uint64_t)edx) << 32 | eax;
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return tsc_val;
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}
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static inline uint64_t rdtscp(uint32_t *aux)
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@ -575,6 +575,33 @@ struct vmx_pages {
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void *eptp;
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};
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union vmx_basic {
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u64 val;
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struct {
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u32 revision;
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u32 size:13,
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reserved1:3,
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width:1,
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dual:1,
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type:4,
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insouts:1,
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ctrl:1,
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vm_entry_exception_ctrl:1,
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reserved2:7;
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};
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};
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union vmx_ctrl_msr {
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u64 val;
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struct {
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u32 set, clr;
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};
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};
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union vmx_basic basic;
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union vmx_ctrl_msr ctrl_pin_rev;
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union vmx_ctrl_msr ctrl_exit_rev;
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struct vmx_pages *vcpu_alloc_vmx(struct kvm_vm *vm, vm_vaddr_t *p_vmx_gva);
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bool prepare_for_vmx_operation(struct vmx_pages *vmx);
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void prepare_vmcs(struct vmx_pages *vmx, void *guest_rip, void *guest_rsp);
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255
tools/testing/selftests/kvm/x86_64/vmx_preemption_timer_test.c
Normal file
255
tools/testing/selftests/kvm/x86_64/vmx_preemption_timer_test.c
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@ -0,0 +1,255 @@
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// SPDX-License-Identifier: GPL-2.0-only
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/*
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* VMX-preemption timer test
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*
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* Copyright (C) 2020, Google, LLC.
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*
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* Test to ensure the VM-Enter after migration doesn't
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* incorrectly restarts the timer with the full timer
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* value instead of partially decayed timer value
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*
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*/
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#define _GNU_SOURCE /* for program_invocation_short_name */
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#include <fcntl.h>
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#include <stdio.h>
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#include <stdlib.h>
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#include <string.h>
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#include <sys/ioctl.h>
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#include "test_util.h"
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#include "kvm_util.h"
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#include "processor.h"
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#include "vmx.h"
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#define VCPU_ID 5
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#define PREEMPTION_TIMER_VALUE 100000000ull
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#define PREEMPTION_TIMER_VALUE_THRESHOLD1 80000000ull
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u32 vmx_pt_rate;
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bool l2_save_restore_done;
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static u64 l2_vmx_pt_start;
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volatile u64 l2_vmx_pt_finish;
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void l2_guest_code(void)
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{
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u64 vmx_pt_delta;
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vmcall();
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l2_vmx_pt_start = (rdtsc() >> vmx_pt_rate) << vmx_pt_rate;
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/*
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* Wait until the 1st threshold has passed
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*/
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do {
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l2_vmx_pt_finish = rdtsc();
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vmx_pt_delta = (l2_vmx_pt_finish - l2_vmx_pt_start) >>
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vmx_pt_rate;
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} while (vmx_pt_delta < PREEMPTION_TIMER_VALUE_THRESHOLD1);
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/*
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* Force L2 through Save and Restore cycle
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*/
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GUEST_SYNC(1);
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l2_save_restore_done = 1;
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/*
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* Now wait for the preemption timer to fire and
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* exit to L1
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*/
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while ((l2_vmx_pt_finish = rdtsc()))
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;
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}
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void l1_guest_code(struct vmx_pages *vmx_pages)
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{
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#define L2_GUEST_STACK_SIZE 64
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unsigned long l2_guest_stack[L2_GUEST_STACK_SIZE];
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u64 l1_vmx_pt_start;
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u64 l1_vmx_pt_finish;
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u64 l1_tsc_deadline, l2_tsc_deadline;
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GUEST_ASSERT(vmx_pages->vmcs_gpa);
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GUEST_ASSERT(prepare_for_vmx_operation(vmx_pages));
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GUEST_ASSERT(load_vmcs(vmx_pages));
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GUEST_ASSERT(vmptrstz() == vmx_pages->vmcs_gpa);
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prepare_vmcs(vmx_pages, l2_guest_code,
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&l2_guest_stack[L2_GUEST_STACK_SIZE]);
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/*
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* Check for Preemption timer support
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*/
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basic.val = rdmsr(MSR_IA32_VMX_BASIC);
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ctrl_pin_rev.val = rdmsr(basic.ctrl ? MSR_IA32_VMX_TRUE_PINBASED_CTLS
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: MSR_IA32_VMX_PINBASED_CTLS);
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ctrl_exit_rev.val = rdmsr(basic.ctrl ? MSR_IA32_VMX_TRUE_EXIT_CTLS
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: MSR_IA32_VMX_EXIT_CTLS);
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if (!(ctrl_pin_rev.clr & PIN_BASED_VMX_PREEMPTION_TIMER) ||
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!(ctrl_exit_rev.clr & VM_EXIT_SAVE_VMX_PREEMPTION_TIMER))
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return;
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GUEST_ASSERT(!vmlaunch());
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GUEST_ASSERT(vmreadz(VM_EXIT_REASON) == EXIT_REASON_VMCALL);
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vmwrite(GUEST_RIP, vmreadz(GUEST_RIP) + vmreadz(VM_EXIT_INSTRUCTION_LEN));
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/*
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* Turn on PIN control and resume the guest
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*/
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GUEST_ASSERT(!vmwrite(PIN_BASED_VM_EXEC_CONTROL,
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vmreadz(PIN_BASED_VM_EXEC_CONTROL) |
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PIN_BASED_VMX_PREEMPTION_TIMER));
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GUEST_ASSERT(!vmwrite(VMX_PREEMPTION_TIMER_VALUE,
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PREEMPTION_TIMER_VALUE));
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vmx_pt_rate = rdmsr(MSR_IA32_VMX_MISC) & 0x1F;
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l2_save_restore_done = 0;
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l1_vmx_pt_start = (rdtsc() >> vmx_pt_rate) << vmx_pt_rate;
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GUEST_ASSERT(!vmresume());
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l1_vmx_pt_finish = rdtsc();
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/*
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* Ensure exit from L2 happens after L2 goes through
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* save and restore
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*/
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GUEST_ASSERT(l2_save_restore_done);
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/*
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* Ensure the exit from L2 is due to preemption timer expiry
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*/
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GUEST_ASSERT(vmreadz(VM_EXIT_REASON) == EXIT_REASON_PREEMPTION_TIMER);
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l1_tsc_deadline = l1_vmx_pt_start +
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(PREEMPTION_TIMER_VALUE << vmx_pt_rate);
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l2_tsc_deadline = l2_vmx_pt_start +
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(PREEMPTION_TIMER_VALUE << vmx_pt_rate);
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/*
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* Sync with the host and pass the l1|l2 pt_expiry_finish times and
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* tsc deadlines so that host can verify they are as expected
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*/
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GUEST_SYNC_ARGS(2, l1_vmx_pt_finish, l1_tsc_deadline,
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l2_vmx_pt_finish, l2_tsc_deadline);
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}
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void guest_code(struct vmx_pages *vmx_pages)
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{
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if (vmx_pages)
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l1_guest_code(vmx_pages);
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GUEST_DONE();
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}
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int main(int argc, char *argv[])
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{
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vm_vaddr_t vmx_pages_gva = 0;
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struct kvm_regs regs1, regs2;
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struct kvm_vm *vm;
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struct kvm_run *run;
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struct kvm_x86_state *state;
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struct ucall uc;
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int stage;
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/*
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* AMD currently does not implement any VMX features, so for now we
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* just early out.
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*/
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nested_vmx_check_supported();
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/* Create VM */
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vm = vm_create_default(VCPU_ID, 0, guest_code);
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vcpu_set_cpuid(vm, VCPU_ID, kvm_get_supported_cpuid());
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run = vcpu_state(vm, VCPU_ID);
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vcpu_regs_get(vm, VCPU_ID, ®s1);
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if (kvm_check_cap(KVM_CAP_NESTED_STATE)) {
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vcpu_alloc_vmx(vm, &vmx_pages_gva);
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vcpu_args_set(vm, VCPU_ID, 1, vmx_pages_gva);
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} else {
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pr_info("will skip vmx preemption timer checks\n");
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goto done;
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}
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for (stage = 1;; stage++) {
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_vcpu_run(vm, VCPU_ID);
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TEST_ASSERT(run->exit_reason == KVM_EXIT_IO,
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"Stage %d: unexpected exit reason: %u (%s),\n",
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stage, run->exit_reason,
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exit_reason_str(run->exit_reason));
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switch (get_ucall(vm, VCPU_ID, &uc)) {
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case UCALL_ABORT:
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TEST_FAIL("%s at %s:%ld", (const char *)uc.args[0],
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__FILE__, uc.args[1]);
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/* NOT REACHED */
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case UCALL_SYNC:
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break;
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case UCALL_DONE:
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goto done;
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default:
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TEST_FAIL("Unknown ucall %lu", uc.cmd);
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}
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/* UCALL_SYNC is handled here. */
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TEST_ASSERT(!strcmp((const char *)uc.args[0], "hello") &&
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uc.args[1] == stage, "Stage %d: Unexpected register values vmexit, got %lx",
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stage, (ulong)uc.args[1]);
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/*
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* If this stage 2 then we should verify the vmx pt expiry
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* is as expected.
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* From L1's perspective verify Preemption timer hasn't
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* expired too early.
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* From L2's perspective verify Preemption timer hasn't
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* expired too late.
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*/
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if (stage == 2) {
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pr_info("Stage %d: L1 PT expiry TSC (%lu) , L1 TSC deadline (%lu)\n",
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stage, uc.args[2], uc.args[3]);
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pr_info("Stage %d: L2 PT expiry TSC (%lu) , L2 TSC deadline (%lu)\n",
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stage, uc.args[4], uc.args[5]);
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TEST_ASSERT(uc.args[2] >= uc.args[3],
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"Stage %d: L1 PT expiry TSC (%lu) < L1 TSC deadline (%lu)",
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stage, uc.args[2], uc.args[3]);
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TEST_ASSERT(uc.args[4] < uc.args[5],
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"Stage %d: L2 PT expiry TSC (%lu) > L2 TSC deadline (%lu)",
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stage, uc.args[4], uc.args[5]);
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}
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state = vcpu_save_state(vm, VCPU_ID);
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memset(®s1, 0, sizeof(regs1));
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vcpu_regs_get(vm, VCPU_ID, ®s1);
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kvm_vm_release(vm);
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/* Restore state in a new VM. */
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kvm_vm_restart(vm, O_RDWR);
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vm_vcpu_add(vm, VCPU_ID);
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vcpu_set_cpuid(vm, VCPU_ID, kvm_get_supported_cpuid());
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vcpu_load_state(vm, VCPU_ID, state);
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run = vcpu_state(vm, VCPU_ID);
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free(state);
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memset(®s2, 0, sizeof(regs2));
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vcpu_regs_get(vm, VCPU_ID, ®s2);
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TEST_ASSERT(!memcmp(®s1, ®s2, sizeof(regs2)),
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"Unexpected register values after vcpu_load_state; rdi: %lx rsi: %lx",
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(ulong) regs2.rdi, (ulong) regs2.rsi);
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}
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done:
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kvm_vm_free(vm);
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}
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