Excerise nested VMX's atomic MSR switch code (e.g., VM-entry MSR-load list) at the maximum number of MSRs supported, as described in the SDM, in the appendix chapter titled "MISCELLANEOUS DATA". Suggested-by: Jim Mattson <jmattson@xxxxxxxxxx> Signed-off-by: Marc Orr <marcorr@xxxxxxxxxx> --- lib/alloc_page.c | 5 ++ lib/alloc_page.h | 1 + x86/unittests.cfg | 2 +- x86/vmx_tests.c | 131 ++++++++++++++++++++++++++++++++++++++++++++++ 4 files changed, 138 insertions(+), 1 deletion(-) diff --git a/lib/alloc_page.c b/lib/alloc_page.c index 97d13395ff08..ed236389537e 100644 --- a/lib/alloc_page.c +++ b/lib/alloc_page.c @@ -53,6 +53,11 @@ void free_pages(void *mem, unsigned long size) spin_unlock(&lock); } +void free_pages_by_order(void *mem, unsigned long order) +{ + free_pages(mem, 1ul << (order + PAGE_SHIFT)); +} + void *alloc_page() { void *p; diff --git a/lib/alloc_page.h b/lib/alloc_page.h index 5cdfec57a0a8..739a91def979 100644 --- a/lib/alloc_page.h +++ b/lib/alloc_page.h @@ -14,5 +14,6 @@ void *alloc_page(void); void *alloc_pages(unsigned long order); void free_page(void *page); void free_pages(void *mem, unsigned long size); +void free_pages_by_order(void *mem, unsigned long order); #endif diff --git a/x86/unittests.cfg b/x86/unittests.cfg index 694ee3d42f3a..05122cf91ea1 100644 --- a/x86/unittests.cfg +++ b/x86/unittests.cfg @@ -227,7 +227,7 @@ extra_params = -cpu qemu64,+umip [vmx] file = vmx.flat -extra_params = -cpu host,+vmx -append "-exit_monitor_from_l2_test -ept_access* -vmx_smp* -vmx_vmcs_shadow_test" +extra_params = -cpu host,+vmx -append "-exit_monitor_from_l2_test -ept_access* -vmx_smp* -vmx_vmcs_shadow_test -atomic_switch_overflow_msrs_test" arch = x86_64 groups = vmx diff --git a/x86/vmx_tests.c b/x86/vmx_tests.c index f035f24a771a..fb665f38b1e5 100644 --- a/x86/vmx_tests.c +++ b/x86/vmx_tests.c @@ -8570,6 +8570,134 @@ static int invalid_msr_entry_failure(struct vmentry_failure *failure) return VMX_TEST_VMEXIT; } +/* + * The max number of MSRs in an atomic switch MSR list is: + * (111B + 1) * 512 = 4096 + * + * Each list entry consumes: + * 4-byte MSR index + 4 bytes reserved + 8-byte data = 16 bytes + * + * Allocate 128 kB to cover max_msr_list_size (i.e., 64 kB) and then some. + */ +static const u32 msr_list_page_order = 5; + +static void atomic_switch_msr_limit_test_guest(void) +{ + vmcall(); +} + +static void populate_msr_list(struct vmx_msr_entry *msr_list, + size_t byte_capacity, int count) +{ + int i; + + for (i = 0; i < count; i++) { + msr_list[i].index = MSR_IA32_TSC; + msr_list[i].reserved = 0; + msr_list[i].value = 0x1234567890abcdef; + } + + memset(msr_list + count, 0xff, + byte_capacity - count * sizeof(*msr_list)); +} + +static int max_msr_list_size(void) +{ + u32 vmx_misc = rdmsr(MSR_IA32_VMX_MISC); + u32 factor = ((vmx_misc & GENMASK(27, 25)) >> 25) + 1; + + return factor * 512; +} + +static void atomic_switch_msrs_test(int count) +{ + struct vmx_msr_entry *vm_enter_load; + struct vmx_msr_entry *vm_exit_load; + struct vmx_msr_entry *vm_exit_store; + int max_allowed = max_msr_list_size(); + int byte_capacity = 1ul << (msr_list_page_order + PAGE_SHIFT); + /* Exceeding the max MSR list size at exit trigers KVM to abort. */ + int exit_count = count > max_allowed ? max_allowed : count; + int cleanup_count = count > max_allowed ? 2 : 1; + int i; + + /* + * Check for the IA32_TSC MSR, + * available with the "TSC flag" and used to populate the MSR lists. + */ + if (!(cpuid(1).d & (1 << 4))) { + report_skip(__func__); + return; + } + + /* Set L2 guest. */ + test_set_guest(atomic_switch_msr_limit_test_guest); + + /* Setup atomic MSR switch lists. */ + vm_enter_load = alloc_pages(msr_list_page_order); + vm_exit_load = alloc_pages(msr_list_page_order); + vm_exit_store = alloc_pages(msr_list_page_order); + + vmcs_write(ENTER_MSR_LD_ADDR, (u64)vm_enter_load); + vmcs_write(EXIT_MSR_LD_ADDR, (u64)vm_exit_load); + vmcs_write(EXIT_MSR_ST_ADDR, (u64)vm_exit_store); + + /* + * VM-Enter should succeed up to the max number of MSRs per list, and + * should not consume junk beyond the last entry. + */ + populate_msr_list(vm_enter_load, byte_capacity, count); + populate_msr_list(vm_exit_load, byte_capacity, exit_count); + populate_msr_list(vm_exit_store, byte_capacity, exit_count); + + vmcs_write(ENT_MSR_LD_CNT, count); + vmcs_write(EXI_MSR_LD_CNT, exit_count); + vmcs_write(EXI_MSR_ST_CNT, exit_count); + + if (count <= max_allowed) { + enter_guest(); + assert_exit_reason(VMX_VMCALL); + skip_exit_vmcall(); + } else { + u32 exit_reason; + u32 exit_reason_want; + u32 exit_qual; + + enter_guest_with_invalid_guest_state(); + + exit_reason = vmcs_read(EXI_REASON); + exit_reason_want = VMX_FAIL_MSR | VMX_ENTRY_FAILURE; + report("exit_reason, %u, is %u.", + exit_reason == exit_reason_want, exit_reason, + exit_reason_want); + + exit_qual = vmcs_read(EXI_QUALIFICATION); + report("exit_qual, %u, is %u.", exit_qual == max_allowed + 1, + exit_qual, max_allowed + 1); + } + + /* Cleanup. */ + vmcs_write(ENT_MSR_LD_CNT, 0); + vmcs_write(EXI_MSR_LD_CNT, 0); + vmcs_write(EXI_MSR_ST_CNT, 0); + for (i = 0; i < cleanup_count; i++) { + enter_guest(); + skip_exit_vmcall(); + } + free_pages_by_order(vm_enter_load, msr_list_page_order); + free_pages_by_order(vm_exit_load, msr_list_page_order); + free_pages_by_order(vm_exit_store, msr_list_page_order); +} + +static void atomic_switch_max_msrs_test(void) +{ + atomic_switch_msrs_test(max_msr_list_size()); +} + +static void atomic_switch_overflow_msrs_test(void) +{ + atomic_switch_msrs_test(max_msr_list_size() + 1); +} #define TEST(name) { #name, .v2 = name } @@ -8660,5 +8788,8 @@ struct vmx_test vmx_tests[] = { TEST(ept_access_test_paddr_read_execute_ad_enabled), TEST(ept_access_test_paddr_not_present_page_fault), TEST(ept_access_test_force_2m_page), + /* Atomic MSR switch tests. */ + TEST(atomic_switch_max_msrs_test), + TEST(atomic_switch_overflow_msrs_test), { NULL, NULL, NULL, NULL, NULL, {0} }, }; -- 2.23.0.237.gc6a4ce50a0-goog