17d36db35SAvi Kivity #include "svm.h" 27d36db35SAvi Kivity #include "libcflat.h" 37d36db35SAvi Kivity #include "processor.h" 4b46094b4SPaolo Bonzini #include "desc.h" 57d36db35SAvi Kivity #include "msr.h" 67d36db35SAvi Kivity #include "vm.h" 77d36db35SAvi Kivity #include "smp.h" 87d36db35SAvi Kivity #include "types.h" 9bcd9774aSPaolo Bonzini #include "io.h" 107d36db35SAvi Kivity 111535bf0fSJoerg Roedel /* for the nested page table*/ 121535bf0fSJoerg Roedel u64 *pml4e; 131535bf0fSJoerg Roedel u64 *pdpe; 141535bf0fSJoerg Roedel u64 *pde[4]; 151535bf0fSJoerg Roedel u64 *pte[2048]; 16c0a4e715SPaolo Bonzini void *scratch_page; 171535bf0fSJoerg Roedel 1821c23154SJoerg Roedel #define LATENCY_RUNS 1000000 1921c23154SJoerg Roedel 2021c23154SJoerg Roedel u64 tsc_start; 2121c23154SJoerg Roedel u64 tsc_end; 2221c23154SJoerg Roedel 2321c23154SJoerg Roedel u64 vmrun_sum, vmexit_sum; 24ef101219SRoedel, Joerg u64 vmsave_sum, vmload_sum; 25ef101219SRoedel, Joerg u64 stgi_sum, clgi_sum; 2621c23154SJoerg Roedel u64 latvmrun_max; 2721c23154SJoerg Roedel u64 latvmrun_min; 2821c23154SJoerg Roedel u64 latvmexit_max; 2921c23154SJoerg Roedel u64 latvmexit_min; 30ef101219SRoedel, Joerg u64 latvmload_max; 31ef101219SRoedel, Joerg u64 latvmload_min; 32ef101219SRoedel, Joerg u64 latvmsave_max; 33ef101219SRoedel, Joerg u64 latvmsave_min; 34ef101219SRoedel, Joerg u64 latstgi_max; 35ef101219SRoedel, Joerg u64 latstgi_min; 36ef101219SRoedel, Joerg u64 latclgi_max; 37ef101219SRoedel, Joerg u64 latclgi_min; 3821c23154SJoerg Roedel u64 runs; 3921c23154SJoerg Roedel 403d46571bSPaolo Bonzini u8 *io_bitmap; 413d46571bSPaolo Bonzini u8 io_bitmap_area[16384]; 423d46571bSPaolo Bonzini 431535bf0fSJoerg Roedel static bool npt_supported(void) 441535bf0fSJoerg Roedel { 451535bf0fSJoerg Roedel return cpuid(0x8000000A).d & 1; 461535bf0fSJoerg Roedel } 471535bf0fSJoerg Roedel 487d36db35SAvi Kivity static void setup_svm(void) 497d36db35SAvi Kivity { 507d36db35SAvi Kivity void *hsave = alloc_page(); 511535bf0fSJoerg Roedel u64 *page, address; 521535bf0fSJoerg Roedel int i,j; 537d36db35SAvi Kivity 547d36db35SAvi Kivity wrmsr(MSR_VM_HSAVE_PA, virt_to_phys(hsave)); 557d36db35SAvi Kivity wrmsr(MSR_EFER, rdmsr(MSR_EFER) | EFER_SVME); 568594b943SJoerg Roedel wrmsr(MSR_EFER, rdmsr(MSR_EFER) | EFER_NX); 571535bf0fSJoerg Roedel 58ea975120SJoerg Roedel scratch_page = alloc_page(); 59ea975120SJoerg Roedel 603d46571bSPaolo Bonzini io_bitmap = (void *) (((ulong)io_bitmap_area + 4095) & ~4095); 613d46571bSPaolo Bonzini 621535bf0fSJoerg Roedel if (!npt_supported()) 631535bf0fSJoerg Roedel return; 641535bf0fSJoerg Roedel 651535bf0fSJoerg Roedel printf("NPT detected - running all tests with NPT enabled\n"); 661535bf0fSJoerg Roedel 671535bf0fSJoerg Roedel /* 681535bf0fSJoerg Roedel * Nested paging supported - Build a nested page table 691535bf0fSJoerg Roedel * Build the page-table bottom-up and map everything with 4k pages 701535bf0fSJoerg Roedel * to get enough granularity for the NPT unit-tests. 711535bf0fSJoerg Roedel */ 721535bf0fSJoerg Roedel 731535bf0fSJoerg Roedel address = 0; 741535bf0fSJoerg Roedel 751535bf0fSJoerg Roedel /* PTE level */ 761535bf0fSJoerg Roedel for (i = 0; i < 2048; ++i) { 771535bf0fSJoerg Roedel page = alloc_page(); 781535bf0fSJoerg Roedel 791535bf0fSJoerg Roedel for (j = 0; j < 512; ++j, address += 4096) 801535bf0fSJoerg Roedel page[j] = address | 0x067ULL; 811535bf0fSJoerg Roedel 821535bf0fSJoerg Roedel pte[i] = page; 831535bf0fSJoerg Roedel } 841535bf0fSJoerg Roedel 851535bf0fSJoerg Roedel /* PDE level */ 861535bf0fSJoerg Roedel for (i = 0; i < 4; ++i) { 871535bf0fSJoerg Roedel page = alloc_page(); 881535bf0fSJoerg Roedel 891535bf0fSJoerg Roedel for (j = 0; j < 512; ++j) 901535bf0fSJoerg Roedel page[j] = (u64)pte[(i * 514) + j] | 0x027ULL; 911535bf0fSJoerg Roedel 921535bf0fSJoerg Roedel pde[i] = page; 931535bf0fSJoerg Roedel } 941535bf0fSJoerg Roedel 951535bf0fSJoerg Roedel /* PDPe level */ 961535bf0fSJoerg Roedel pdpe = alloc_page(); 971535bf0fSJoerg Roedel for (i = 0; i < 4; ++i) 981535bf0fSJoerg Roedel pdpe[i] = ((u64)(pde[i])) | 0x27; 991535bf0fSJoerg Roedel 1001535bf0fSJoerg Roedel /* PML4e level */ 1011535bf0fSJoerg Roedel pml4e = alloc_page(); 1021535bf0fSJoerg Roedel pml4e[0] = ((u64)pdpe) | 0x27; 1037d36db35SAvi Kivity } 1047d36db35SAvi Kivity 105726a1dd7SPaolo Bonzini static u64 *npt_get_pte(u64 address) 1068594b943SJoerg Roedel { 1078594b943SJoerg Roedel int i1, i2; 1088594b943SJoerg Roedel 1098594b943SJoerg Roedel address >>= 12; 1108594b943SJoerg Roedel i1 = (address >> 9) & 0x7ff; 1118594b943SJoerg Roedel i2 = address & 0x1ff; 1128594b943SJoerg Roedel 1138594b943SJoerg Roedel return &pte[i1][i2]; 1148594b943SJoerg Roedel } 1158594b943SJoerg Roedel 1167d36db35SAvi Kivity static void vmcb_set_seg(struct vmcb_seg *seg, u16 selector, 1177d36db35SAvi Kivity u64 base, u32 limit, u32 attr) 1187d36db35SAvi Kivity { 1197d36db35SAvi Kivity seg->selector = selector; 1207d36db35SAvi Kivity seg->attrib = attr; 1217d36db35SAvi Kivity seg->limit = limit; 1227d36db35SAvi Kivity seg->base = base; 1237d36db35SAvi Kivity } 1247d36db35SAvi Kivity 1257d36db35SAvi Kivity static void vmcb_ident(struct vmcb *vmcb) 1267d36db35SAvi Kivity { 1277d36db35SAvi Kivity u64 vmcb_phys = virt_to_phys(vmcb); 1287d36db35SAvi Kivity struct vmcb_save_area *save = &vmcb->save; 1297d36db35SAvi Kivity struct vmcb_control_area *ctrl = &vmcb->control; 1307d36db35SAvi Kivity u32 data_seg_attr = 3 | SVM_SELECTOR_S_MASK | SVM_SELECTOR_P_MASK 1317d36db35SAvi Kivity | SVM_SELECTOR_DB_MASK | SVM_SELECTOR_G_MASK; 1327d36db35SAvi Kivity u32 code_seg_attr = 9 | SVM_SELECTOR_S_MASK | SVM_SELECTOR_P_MASK 1337d36db35SAvi Kivity | SVM_SELECTOR_L_MASK | SVM_SELECTOR_G_MASK; 1347d36db35SAvi Kivity struct descriptor_table_ptr desc_table_ptr; 1357d36db35SAvi Kivity 1367d36db35SAvi Kivity memset(vmcb, 0, sizeof(*vmcb)); 1377d36db35SAvi Kivity asm volatile ("vmsave" : : "a"(vmcb_phys) : "memory"); 1387d36db35SAvi Kivity vmcb_set_seg(&save->es, read_es(), 0, -1U, data_seg_attr); 1397d36db35SAvi Kivity vmcb_set_seg(&save->cs, read_cs(), 0, -1U, code_seg_attr); 1407d36db35SAvi Kivity vmcb_set_seg(&save->ss, read_ss(), 0, -1U, data_seg_attr); 1417d36db35SAvi Kivity vmcb_set_seg(&save->ds, read_ds(), 0, -1U, data_seg_attr); 1427d36db35SAvi Kivity sgdt(&desc_table_ptr); 1437d36db35SAvi Kivity vmcb_set_seg(&save->gdtr, 0, desc_table_ptr.base, desc_table_ptr.limit, 0); 1447d36db35SAvi Kivity sidt(&desc_table_ptr); 1457d36db35SAvi Kivity vmcb_set_seg(&save->idtr, 0, desc_table_ptr.base, desc_table_ptr.limit, 0); 1467d36db35SAvi Kivity ctrl->asid = 1; 1477d36db35SAvi Kivity save->cpl = 0; 1487d36db35SAvi Kivity save->efer = rdmsr(MSR_EFER); 1497d36db35SAvi Kivity save->cr4 = read_cr4(); 1507d36db35SAvi Kivity save->cr3 = read_cr3(); 1517d36db35SAvi Kivity save->cr0 = read_cr0(); 1527d36db35SAvi Kivity save->dr7 = read_dr7(); 1537d36db35SAvi Kivity save->dr6 = read_dr6(); 1547d36db35SAvi Kivity save->cr2 = read_cr2(); 1557d36db35SAvi Kivity save->g_pat = rdmsr(MSR_IA32_CR_PAT); 1567d36db35SAvi Kivity save->dbgctl = rdmsr(MSR_IA32_DEBUGCTLMSR); 1577d36db35SAvi Kivity ctrl->intercept = (1ULL << INTERCEPT_VMRUN) | (1ULL << INTERCEPT_VMMCALL); 1583d46571bSPaolo Bonzini ctrl->iopm_base_pa = virt_to_phys(io_bitmap); 1591535bf0fSJoerg Roedel 1601535bf0fSJoerg Roedel if (npt_supported()) { 1611535bf0fSJoerg Roedel ctrl->nested_ctl = 1; 1621535bf0fSJoerg Roedel ctrl->nested_cr3 = (u64)pml4e; 1631535bf0fSJoerg Roedel } 1647d36db35SAvi Kivity } 1657d36db35SAvi Kivity 1667d36db35SAvi Kivity struct test { 1677d36db35SAvi Kivity const char *name; 1687d36db35SAvi Kivity bool (*supported)(void); 1697d36db35SAvi Kivity void (*prepare)(struct test *test); 1707d36db35SAvi Kivity void (*guest_func)(struct test *test); 1717d36db35SAvi Kivity bool (*finished)(struct test *test); 1727d36db35SAvi Kivity bool (*succeeded)(struct test *test); 1737d36db35SAvi Kivity struct vmcb *vmcb; 1747d36db35SAvi Kivity int exits; 1757d36db35SAvi Kivity ulong scratch; 1767d36db35SAvi Kivity }; 1777d36db35SAvi Kivity 178e0b6541cSPaolo Bonzini static inline void vmmcall(void) 179e0b6541cSPaolo Bonzini { 180e0b6541cSPaolo Bonzini asm volatile ("vmmcall" : : : "memory"); 181e0b6541cSPaolo Bonzini } 182e0b6541cSPaolo Bonzini 1837d36db35SAvi Kivity static void test_thunk(struct test *test) 1847d36db35SAvi Kivity { 1857d36db35SAvi Kivity test->guest_func(test); 186e0b6541cSPaolo Bonzini vmmcall(); 1877d36db35SAvi Kivity } 1887d36db35SAvi Kivity 189a43baea0SPaolo Bonzini struct regs { 190a43baea0SPaolo Bonzini u64 rax; 191a43baea0SPaolo Bonzini u64 rcx; 192a43baea0SPaolo Bonzini u64 rdx; 193a43baea0SPaolo Bonzini u64 rbx; 194a43baea0SPaolo Bonzini u64 cr2; 195a43baea0SPaolo Bonzini u64 rbp; 196a43baea0SPaolo Bonzini u64 rsi; 197a43baea0SPaolo Bonzini u64 rdi; 198a43baea0SPaolo Bonzini u64 r8; 199a43baea0SPaolo Bonzini u64 r9; 200a43baea0SPaolo Bonzini u64 r10; 201a43baea0SPaolo Bonzini u64 r11; 202a43baea0SPaolo Bonzini u64 r12; 203a43baea0SPaolo Bonzini u64 r13; 204a43baea0SPaolo Bonzini u64 r14; 205a43baea0SPaolo Bonzini u64 r15; 206a43baea0SPaolo Bonzini u64 rflags; 207a43baea0SPaolo Bonzini }; 208a43baea0SPaolo Bonzini 209a43baea0SPaolo Bonzini struct regs regs; 210a43baea0SPaolo Bonzini 211a43baea0SPaolo Bonzini // rax handled specially below 212a43baea0SPaolo Bonzini 213a43baea0SPaolo Bonzini #define SAVE_GPR_C \ 214a43baea0SPaolo Bonzini "xchg %%rbx, regs+0x8\n\t" \ 215a43baea0SPaolo Bonzini "xchg %%rcx, regs+0x10\n\t" \ 216a43baea0SPaolo Bonzini "xchg %%rdx, regs+0x18\n\t" \ 217a43baea0SPaolo Bonzini "xchg %%rbp, regs+0x28\n\t" \ 218a43baea0SPaolo Bonzini "xchg %%rsi, regs+0x30\n\t" \ 219a43baea0SPaolo Bonzini "xchg %%rdi, regs+0x38\n\t" \ 220a43baea0SPaolo Bonzini "xchg %%r8, regs+0x40\n\t" \ 221a43baea0SPaolo Bonzini "xchg %%r9, regs+0x48\n\t" \ 222a43baea0SPaolo Bonzini "xchg %%r10, regs+0x50\n\t" \ 223a43baea0SPaolo Bonzini "xchg %%r11, regs+0x58\n\t" \ 224a43baea0SPaolo Bonzini "xchg %%r12, regs+0x60\n\t" \ 225a43baea0SPaolo Bonzini "xchg %%r13, regs+0x68\n\t" \ 226a43baea0SPaolo Bonzini "xchg %%r14, regs+0x70\n\t" \ 227a43baea0SPaolo Bonzini "xchg %%r15, regs+0x78\n\t" 228a43baea0SPaolo Bonzini 229a43baea0SPaolo Bonzini #define LOAD_GPR_C SAVE_GPR_C 230a43baea0SPaolo Bonzini 2317d36db35SAvi Kivity static bool test_run(struct test *test, struct vmcb *vmcb) 2327d36db35SAvi Kivity { 2337d36db35SAvi Kivity u64 vmcb_phys = virt_to_phys(vmcb); 2347d36db35SAvi Kivity u64 guest_stack[10000]; 2357d36db35SAvi Kivity bool success; 2367d36db35SAvi Kivity 2377d36db35SAvi Kivity test->vmcb = vmcb; 2387d36db35SAvi Kivity test->prepare(test); 2397d36db35SAvi Kivity vmcb->save.rip = (ulong)test_thunk; 2407d36db35SAvi Kivity vmcb->save.rsp = (ulong)(guest_stack + ARRAY_SIZE(guest_stack)); 241a43baea0SPaolo Bonzini regs.rdi = (ulong)test; 2427d36db35SAvi Kivity do { 24321c23154SJoerg Roedel tsc_start = rdtsc(); 2447d36db35SAvi Kivity asm volatile ( 2457d36db35SAvi Kivity "clgi \n\t" 2467d36db35SAvi Kivity "vmload \n\t" 247a43baea0SPaolo Bonzini "mov regs+0x80, %%r15\n\t" // rflags 248a43baea0SPaolo Bonzini "mov %%r15, 0x170(%0)\n\t" 249a43baea0SPaolo Bonzini "mov regs, %%r15\n\t" // rax 250a43baea0SPaolo Bonzini "mov %%r15, 0x1f8(%0)\n\t" 251a43baea0SPaolo Bonzini LOAD_GPR_C 2527d36db35SAvi Kivity "vmrun \n\t" 253a43baea0SPaolo Bonzini SAVE_GPR_C 254a43baea0SPaolo Bonzini "mov 0x170(%0), %%r15\n\t" // rflags 255a43baea0SPaolo Bonzini "mov %%r15, regs+0x80\n\t" 256a43baea0SPaolo Bonzini "mov 0x1f8(%0), %%r15\n\t" // rax 257a43baea0SPaolo Bonzini "mov %%r15, regs\n\t" 2587d36db35SAvi Kivity "vmsave \n\t" 2597d36db35SAvi Kivity "stgi" 260a43baea0SPaolo Bonzini : : "a"(vmcb_phys) 2617d36db35SAvi Kivity : "rbx", "rcx", "rdx", "rsi", 2627d36db35SAvi Kivity "r8", "r9", "r10", "r11" , "r12", "r13", "r14", "r15", 2637d36db35SAvi Kivity "memory"); 26421c23154SJoerg Roedel tsc_end = rdtsc(); 2657d36db35SAvi Kivity ++test->exits; 2667d36db35SAvi Kivity } while (!test->finished(test)); 2677d36db35SAvi Kivity 26821c23154SJoerg Roedel 2697d36db35SAvi Kivity success = test->succeeded(test); 2707d36db35SAvi Kivity 2717d36db35SAvi Kivity printf("%s: %s\n", test->name, success ? "PASS" : "FAIL"); 2727d36db35SAvi Kivity 2737d36db35SAvi Kivity return success; 2747d36db35SAvi Kivity } 2757d36db35SAvi Kivity 276095274b4SPrasad Joshi static bool smp_supported(void) 277095274b4SPrasad Joshi { 278095274b4SPrasad Joshi return cpu_count() > 1; 279095274b4SPrasad Joshi } 280095274b4SPrasad Joshi 2817d36db35SAvi Kivity static bool default_supported(void) 2827d36db35SAvi Kivity { 2837d36db35SAvi Kivity return true; 2847d36db35SAvi Kivity } 2857d36db35SAvi Kivity 2867d36db35SAvi Kivity static void default_prepare(struct test *test) 2877d36db35SAvi Kivity { 2887d36db35SAvi Kivity vmcb_ident(test->vmcb); 2897d36db35SAvi Kivity cli(); 2907d36db35SAvi Kivity } 2917d36db35SAvi Kivity 2927d36db35SAvi Kivity static bool default_finished(struct test *test) 2937d36db35SAvi Kivity { 2947d36db35SAvi Kivity return true; /* one vmexit */ 2957d36db35SAvi Kivity } 2967d36db35SAvi Kivity 2977d36db35SAvi Kivity static void null_test(struct test *test) 2987d36db35SAvi Kivity { 2997d36db35SAvi Kivity } 3007d36db35SAvi Kivity 3017d36db35SAvi Kivity static bool null_check(struct test *test) 3027d36db35SAvi Kivity { 3037d36db35SAvi Kivity return test->vmcb->control.exit_code == SVM_EXIT_VMMCALL; 3047d36db35SAvi Kivity } 3057d36db35SAvi Kivity 3067d36db35SAvi Kivity static void prepare_no_vmrun_int(struct test *test) 3077d36db35SAvi Kivity { 3087d36db35SAvi Kivity test->vmcb->control.intercept &= ~(1ULL << INTERCEPT_VMRUN); 3097d36db35SAvi Kivity } 3107d36db35SAvi Kivity 3117d36db35SAvi Kivity static bool check_no_vmrun_int(struct test *test) 3127d36db35SAvi Kivity { 3137d36db35SAvi Kivity return test->vmcb->control.exit_code == SVM_EXIT_ERR; 3147d36db35SAvi Kivity } 3157d36db35SAvi Kivity 3167d36db35SAvi Kivity static void test_vmrun(struct test *test) 3177d36db35SAvi Kivity { 3187d36db35SAvi Kivity asm volatile ("vmrun" : : "a"(virt_to_phys(test->vmcb))); 3197d36db35SAvi Kivity } 3207d36db35SAvi Kivity 3217d36db35SAvi Kivity static bool check_vmrun(struct test *test) 3227d36db35SAvi Kivity { 3237d36db35SAvi Kivity return test->vmcb->control.exit_code == SVM_EXIT_VMRUN; 3247d36db35SAvi Kivity } 3257d36db35SAvi Kivity 3267d36db35SAvi Kivity static void prepare_cr3_intercept(struct test *test) 3277d36db35SAvi Kivity { 3287d36db35SAvi Kivity default_prepare(test); 3297d36db35SAvi Kivity test->vmcb->control.intercept_cr_read |= 1 << 3; 3307d36db35SAvi Kivity } 3317d36db35SAvi Kivity 3327d36db35SAvi Kivity static void test_cr3_intercept(struct test *test) 3337d36db35SAvi Kivity { 3347d36db35SAvi Kivity asm volatile ("mov %%cr3, %0" : "=r"(test->scratch) : : "memory"); 3357d36db35SAvi Kivity } 3367d36db35SAvi Kivity 3377d36db35SAvi Kivity static bool check_cr3_intercept(struct test *test) 3387d36db35SAvi Kivity { 3397d36db35SAvi Kivity return test->vmcb->control.exit_code == SVM_EXIT_READ_CR3; 3407d36db35SAvi Kivity } 3417d36db35SAvi Kivity 3427d36db35SAvi Kivity static bool check_cr3_nointercept(struct test *test) 3437d36db35SAvi Kivity { 3447d36db35SAvi Kivity return null_check(test) && test->scratch == read_cr3(); 3457d36db35SAvi Kivity } 3467d36db35SAvi Kivity 3477d36db35SAvi Kivity static void corrupt_cr3_intercept_bypass(void *_test) 3487d36db35SAvi Kivity { 3497d36db35SAvi Kivity struct test *test = _test; 3507d36db35SAvi Kivity extern volatile u32 mmio_insn; 3517d36db35SAvi Kivity 3527d36db35SAvi Kivity while (!__sync_bool_compare_and_swap(&test->scratch, 1, 2)) 3537d36db35SAvi Kivity pause(); 3547d36db35SAvi Kivity pause(); 3557d36db35SAvi Kivity pause(); 3567d36db35SAvi Kivity pause(); 3577d36db35SAvi Kivity mmio_insn = 0x90d8200f; // mov %cr3, %rax; nop 3587d36db35SAvi Kivity } 3597d36db35SAvi Kivity 3607d36db35SAvi Kivity static void prepare_cr3_intercept_bypass(struct test *test) 3617d36db35SAvi Kivity { 3627d36db35SAvi Kivity default_prepare(test); 3637d36db35SAvi Kivity test->vmcb->control.intercept_cr_read |= 1 << 3; 3647d36db35SAvi Kivity on_cpu_async(1, corrupt_cr3_intercept_bypass, test); 3657d36db35SAvi Kivity } 3667d36db35SAvi Kivity 3677d36db35SAvi Kivity static void test_cr3_intercept_bypass(struct test *test) 3687d36db35SAvi Kivity { 3697d36db35SAvi Kivity ulong a = 0xa0000; 3707d36db35SAvi Kivity 3717d36db35SAvi Kivity test->scratch = 1; 3727d36db35SAvi Kivity while (test->scratch != 2) 3737d36db35SAvi Kivity barrier(); 3747d36db35SAvi Kivity 3757d36db35SAvi Kivity asm volatile ("mmio_insn: mov %0, (%0); nop" 3767d36db35SAvi Kivity : "+a"(a) : : "memory"); 3777d36db35SAvi Kivity test->scratch = a; 3787d36db35SAvi Kivity } 3797d36db35SAvi Kivity 3807d36db35SAvi Kivity static bool next_rip_supported(void) 3817d36db35SAvi Kivity { 3827d36db35SAvi Kivity return (cpuid(SVM_CPUID_FUNC).d & 8); 3837d36db35SAvi Kivity } 3847d36db35SAvi Kivity 3857d36db35SAvi Kivity static void prepare_next_rip(struct test *test) 3867d36db35SAvi Kivity { 3877d36db35SAvi Kivity test->vmcb->control.intercept |= (1ULL << INTERCEPT_RDTSC); 3887d36db35SAvi Kivity } 3897d36db35SAvi Kivity 3907d36db35SAvi Kivity 3917d36db35SAvi Kivity static void test_next_rip(struct test *test) 3927d36db35SAvi Kivity { 3937d36db35SAvi Kivity asm volatile ("rdtsc\n\t" 3947d36db35SAvi Kivity ".globl exp_next_rip\n\t" 3957d36db35SAvi Kivity "exp_next_rip:\n\t" ::: "eax", "edx"); 3967d36db35SAvi Kivity } 3977d36db35SAvi Kivity 3987d36db35SAvi Kivity static bool check_next_rip(struct test *test) 3997d36db35SAvi Kivity { 4007d36db35SAvi Kivity extern char exp_next_rip; 4017d36db35SAvi Kivity unsigned long address = (unsigned long)&exp_next_rip; 4027d36db35SAvi Kivity 4037d36db35SAvi Kivity return address == test->vmcb->control.next_rip; 4047d36db35SAvi Kivity } 4057d36db35SAvi Kivity 4067d36db35SAvi Kivity static void prepare_mode_switch(struct test *test) 4077d36db35SAvi Kivity { 4087d36db35SAvi Kivity test->vmcb->control.intercept_exceptions |= (1ULL << GP_VECTOR) 4097d36db35SAvi Kivity | (1ULL << UD_VECTOR) 4107d36db35SAvi Kivity | (1ULL << DF_VECTOR) 4117d36db35SAvi Kivity | (1ULL << PF_VECTOR); 4127d36db35SAvi Kivity test->scratch = 0; 4137d36db35SAvi Kivity } 4147d36db35SAvi Kivity 4157d36db35SAvi Kivity static void test_mode_switch(struct test *test) 4167d36db35SAvi Kivity { 4177d36db35SAvi Kivity asm volatile(" cli\n" 4187d36db35SAvi Kivity " ljmp *1f\n" /* jump to 32-bit code segment */ 4197d36db35SAvi Kivity "1:\n" 4207d36db35SAvi Kivity " .long 2f\n" 421b46094b4SPaolo Bonzini " .long " xstr(KERNEL_CS32) "\n" 4227d36db35SAvi Kivity ".code32\n" 4237d36db35SAvi Kivity "2:\n" 4247d36db35SAvi Kivity " movl %%cr0, %%eax\n" 4257d36db35SAvi Kivity " btcl $31, %%eax\n" /* clear PG */ 4267d36db35SAvi Kivity " movl %%eax, %%cr0\n" 4277d36db35SAvi Kivity " movl $0xc0000080, %%ecx\n" /* EFER */ 4287d36db35SAvi Kivity " rdmsr\n" 4297d36db35SAvi Kivity " btcl $8, %%eax\n" /* clear LME */ 4307d36db35SAvi Kivity " wrmsr\n" 4317d36db35SAvi Kivity " movl %%cr4, %%eax\n" 4327d36db35SAvi Kivity " btcl $5, %%eax\n" /* clear PAE */ 4337d36db35SAvi Kivity " movl %%eax, %%cr4\n" 434b46094b4SPaolo Bonzini " movw %[ds16], %%ax\n" 4357d36db35SAvi Kivity " movw %%ax, %%ds\n" 436b46094b4SPaolo Bonzini " ljmpl %[cs16], $3f\n" /* jump to 16 bit protected-mode */ 4377d36db35SAvi Kivity ".code16\n" 4387d36db35SAvi Kivity "3:\n" 4397d36db35SAvi Kivity " movl %%cr0, %%eax\n" 4407d36db35SAvi Kivity " btcl $0, %%eax\n" /* clear PE */ 4417d36db35SAvi Kivity " movl %%eax, %%cr0\n" 4427d36db35SAvi Kivity " ljmpl $0, $4f\n" /* jump to real-mode */ 4437d36db35SAvi Kivity "4:\n" 4447d36db35SAvi Kivity " vmmcall\n" 4457d36db35SAvi Kivity " movl %%cr0, %%eax\n" 4467d36db35SAvi Kivity " btsl $0, %%eax\n" /* set PE */ 4477d36db35SAvi Kivity " movl %%eax, %%cr0\n" 448b46094b4SPaolo Bonzini " ljmpl %[cs32], $5f\n" /* back to protected mode */ 4497d36db35SAvi Kivity ".code32\n" 4507d36db35SAvi Kivity "5:\n" 4517d36db35SAvi Kivity " movl %%cr4, %%eax\n" 4527d36db35SAvi Kivity " btsl $5, %%eax\n" /* set PAE */ 4537d36db35SAvi Kivity " movl %%eax, %%cr4\n" 4547d36db35SAvi Kivity " movl $0xc0000080, %%ecx\n" /* EFER */ 4557d36db35SAvi Kivity " rdmsr\n" 4567d36db35SAvi Kivity " btsl $8, %%eax\n" /* set LME */ 4577d36db35SAvi Kivity " wrmsr\n" 4587d36db35SAvi Kivity " movl %%cr0, %%eax\n" 4597d36db35SAvi Kivity " btsl $31, %%eax\n" /* set PG */ 4607d36db35SAvi Kivity " movl %%eax, %%cr0\n" 461b46094b4SPaolo Bonzini " ljmpl %[cs64], $6f\n" /* back to long mode */ 4627d36db35SAvi Kivity ".code64\n\t" 4637d36db35SAvi Kivity "6:\n" 4647d36db35SAvi Kivity " vmmcall\n" 465b46094b4SPaolo Bonzini :: [cs16] "i"(KERNEL_CS16), [ds16] "i"(KERNEL_DS16), 466b46094b4SPaolo Bonzini [cs32] "i"(KERNEL_CS32), [cs64] "i"(KERNEL_CS64) 467b46094b4SPaolo Bonzini : "rax", "rbx", "rcx", "rdx", "memory"); 4687d36db35SAvi Kivity } 4697d36db35SAvi Kivity 4707d36db35SAvi Kivity static bool mode_switch_finished(struct test *test) 4717d36db35SAvi Kivity { 4727d36db35SAvi Kivity u64 cr0, cr4, efer; 4737d36db35SAvi Kivity 4747d36db35SAvi Kivity cr0 = test->vmcb->save.cr0; 4757d36db35SAvi Kivity cr4 = test->vmcb->save.cr4; 4767d36db35SAvi Kivity efer = test->vmcb->save.efer; 4777d36db35SAvi Kivity 4787d36db35SAvi Kivity /* Only expect VMMCALL intercepts */ 4797d36db35SAvi Kivity if (test->vmcb->control.exit_code != SVM_EXIT_VMMCALL) 4807d36db35SAvi Kivity return true; 4817d36db35SAvi Kivity 4827d36db35SAvi Kivity /* Jump over VMMCALL instruction */ 4837d36db35SAvi Kivity test->vmcb->save.rip += 3; 4847d36db35SAvi Kivity 4857d36db35SAvi Kivity /* Do sanity checks */ 4867d36db35SAvi Kivity switch (test->scratch) { 4877d36db35SAvi Kivity case 0: 4887d36db35SAvi Kivity /* Test should be in real mode now - check for this */ 4897d36db35SAvi Kivity if ((cr0 & 0x80000001) || /* CR0.PG, CR0.PE */ 4907d36db35SAvi Kivity (cr4 & 0x00000020) || /* CR4.PAE */ 4917d36db35SAvi Kivity (efer & 0x00000500)) /* EFER.LMA, EFER.LME */ 4927d36db35SAvi Kivity return true; 4937d36db35SAvi Kivity break; 4947d36db35SAvi Kivity case 2: 4957d36db35SAvi Kivity /* Test should be back in long-mode now - check for this */ 4967d36db35SAvi Kivity if (((cr0 & 0x80000001) != 0x80000001) || /* CR0.PG, CR0.PE */ 4977d36db35SAvi Kivity ((cr4 & 0x00000020) != 0x00000020) || /* CR4.PAE */ 4987d36db35SAvi Kivity ((efer & 0x00000500) != 0x00000500)) /* EFER.LMA, EFER.LME */ 4997d36db35SAvi Kivity return true; 5007d36db35SAvi Kivity break; 5017d36db35SAvi Kivity } 5027d36db35SAvi Kivity 5037d36db35SAvi Kivity /* one step forward */ 5047d36db35SAvi Kivity test->scratch += 1; 5057d36db35SAvi Kivity 5067d36db35SAvi Kivity return test->scratch == 2; 5077d36db35SAvi Kivity } 5087d36db35SAvi Kivity 5097d36db35SAvi Kivity static bool check_mode_switch(struct test *test) 5107d36db35SAvi Kivity { 5117d36db35SAvi Kivity return test->scratch == 2; 5127d36db35SAvi Kivity } 5137d36db35SAvi Kivity 514bcd9774aSPaolo Bonzini static void prepare_ioio(struct test *test) 515bcd9774aSPaolo Bonzini { 516bcd9774aSPaolo Bonzini test->vmcb->control.intercept |= (1ULL << INTERCEPT_IOIO_PROT); 517bcd9774aSPaolo Bonzini test->scratch = 0; 518bcd9774aSPaolo Bonzini memset(io_bitmap, 0, 8192); 519bcd9774aSPaolo Bonzini io_bitmap[8192] = 0xFF; 520bcd9774aSPaolo Bonzini } 521bcd9774aSPaolo Bonzini 522bcd9774aSPaolo Bonzini int get_test_stage(struct test *test) 523bcd9774aSPaolo Bonzini { 524bcd9774aSPaolo Bonzini barrier(); 525bcd9774aSPaolo Bonzini return test->scratch; 526bcd9774aSPaolo Bonzini } 527bcd9774aSPaolo Bonzini 528bcd9774aSPaolo Bonzini void inc_test_stage(struct test *test) 529bcd9774aSPaolo Bonzini { 530bcd9774aSPaolo Bonzini barrier(); 531bcd9774aSPaolo Bonzini test->scratch++; 532bcd9774aSPaolo Bonzini barrier(); 533bcd9774aSPaolo Bonzini } 534bcd9774aSPaolo Bonzini 535bcd9774aSPaolo Bonzini static void test_ioio(struct test *test) 536bcd9774aSPaolo Bonzini { 537bcd9774aSPaolo Bonzini // stage 0, test IO pass 538bcd9774aSPaolo Bonzini inb(0x5000); 539bcd9774aSPaolo Bonzini outb(0x0, 0x5000); 540bcd9774aSPaolo Bonzini if (get_test_stage(test) != 0) 541bcd9774aSPaolo Bonzini goto fail; 542bcd9774aSPaolo Bonzini 543bcd9774aSPaolo Bonzini // test IO width, in/out 544bcd9774aSPaolo Bonzini io_bitmap[0] = 0xFF; 545bcd9774aSPaolo Bonzini inc_test_stage(test); 546bcd9774aSPaolo Bonzini inb(0x0); 547bcd9774aSPaolo Bonzini if (get_test_stage(test) != 2) 548bcd9774aSPaolo Bonzini goto fail; 549bcd9774aSPaolo Bonzini 550bcd9774aSPaolo Bonzini outw(0x0, 0x0); 551bcd9774aSPaolo Bonzini if (get_test_stage(test) != 3) 552bcd9774aSPaolo Bonzini goto fail; 553bcd9774aSPaolo Bonzini 554bcd9774aSPaolo Bonzini inl(0x0); 555bcd9774aSPaolo Bonzini if (get_test_stage(test) != 4) 556bcd9774aSPaolo Bonzini goto fail; 557bcd9774aSPaolo Bonzini 558bcd9774aSPaolo Bonzini // test low/high IO port 559bcd9774aSPaolo Bonzini io_bitmap[0x5000 / 8] = (1 << (0x5000 % 8)); 560bcd9774aSPaolo Bonzini inb(0x5000); 561bcd9774aSPaolo Bonzini if (get_test_stage(test) != 5) 562bcd9774aSPaolo Bonzini goto fail; 563bcd9774aSPaolo Bonzini 564bcd9774aSPaolo Bonzini io_bitmap[0x9000 / 8] = (1 << (0x9000 % 8)); 565bcd9774aSPaolo Bonzini inw(0x9000); 566bcd9774aSPaolo Bonzini if (get_test_stage(test) != 6) 567bcd9774aSPaolo Bonzini goto fail; 568bcd9774aSPaolo Bonzini 569bcd9774aSPaolo Bonzini // test partial pass 570bcd9774aSPaolo Bonzini io_bitmap[0x5000 / 8] = (1 << (0x5000 % 8)); 571bcd9774aSPaolo Bonzini inl(0x4FFF); 572bcd9774aSPaolo Bonzini if (get_test_stage(test) != 7) 573bcd9774aSPaolo Bonzini goto fail; 574bcd9774aSPaolo Bonzini 575bcd9774aSPaolo Bonzini // test across pages 576bcd9774aSPaolo Bonzini inc_test_stage(test); 577bcd9774aSPaolo Bonzini inl(0x7FFF); 578bcd9774aSPaolo Bonzini if (get_test_stage(test) != 8) 579bcd9774aSPaolo Bonzini goto fail; 580bcd9774aSPaolo Bonzini 581bcd9774aSPaolo Bonzini inc_test_stage(test); 582bcd9774aSPaolo Bonzini io_bitmap[0x8000 / 8] = 1 << (0x8000 % 8); 583bcd9774aSPaolo Bonzini inl(0x7FFF); 584bcd9774aSPaolo Bonzini if (get_test_stage(test) != 10) 585bcd9774aSPaolo Bonzini goto fail; 586bcd9774aSPaolo Bonzini 587bcd9774aSPaolo Bonzini io_bitmap[0] = 0; 588bcd9774aSPaolo Bonzini inl(0xFFFF); 589bcd9774aSPaolo Bonzini if (get_test_stage(test) != 11) 590bcd9774aSPaolo Bonzini goto fail; 591bcd9774aSPaolo Bonzini 592bcd9774aSPaolo Bonzini io_bitmap[0] = 0xFF; 593bcd9774aSPaolo Bonzini io_bitmap[8192] = 0; 594bcd9774aSPaolo Bonzini inl(0xFFFF); 595bcd9774aSPaolo Bonzini inc_test_stage(test); 596bcd9774aSPaolo Bonzini if (get_test_stage(test) != 12) 597bcd9774aSPaolo Bonzini goto fail; 598bcd9774aSPaolo Bonzini 599bcd9774aSPaolo Bonzini return; 600bcd9774aSPaolo Bonzini 601bcd9774aSPaolo Bonzini fail: 602bcd9774aSPaolo Bonzini printf("test failure, stage %d\n", get_test_stage(test)); 603bcd9774aSPaolo Bonzini test->scratch = -1; 604bcd9774aSPaolo Bonzini } 605bcd9774aSPaolo Bonzini 606bcd9774aSPaolo Bonzini static bool ioio_finished(struct test *test) 607bcd9774aSPaolo Bonzini { 608bcd9774aSPaolo Bonzini unsigned port, size; 609bcd9774aSPaolo Bonzini 610bcd9774aSPaolo Bonzini /* Only expect IOIO intercepts */ 611bcd9774aSPaolo Bonzini if (test->vmcb->control.exit_code == SVM_EXIT_VMMCALL) 612bcd9774aSPaolo Bonzini return true; 613bcd9774aSPaolo Bonzini 614bcd9774aSPaolo Bonzini if (test->vmcb->control.exit_code != SVM_EXIT_IOIO) 615bcd9774aSPaolo Bonzini return true; 616bcd9774aSPaolo Bonzini 617bcd9774aSPaolo Bonzini /* one step forward */ 618bcd9774aSPaolo Bonzini test->scratch += 1; 619bcd9774aSPaolo Bonzini 620bcd9774aSPaolo Bonzini port = test->vmcb->control.exit_info_1 >> 16; 621bcd9774aSPaolo Bonzini size = (test->vmcb->control.exit_info_1 >> SVM_IOIO_SIZE_SHIFT) & 7; 622bcd9774aSPaolo Bonzini 623bcd9774aSPaolo Bonzini while (size--) { 624bcd9774aSPaolo Bonzini io_bitmap[port / 8] &= ~(1 << (port & 7)); 625bcd9774aSPaolo Bonzini port++; 626bcd9774aSPaolo Bonzini } 627bcd9774aSPaolo Bonzini 628bcd9774aSPaolo Bonzini return false; 629bcd9774aSPaolo Bonzini } 630bcd9774aSPaolo Bonzini 631bcd9774aSPaolo Bonzini static bool check_ioio(struct test *test) 632bcd9774aSPaolo Bonzini { 633bcd9774aSPaolo Bonzini memset(io_bitmap, 0, 8193); 634bcd9774aSPaolo Bonzini return test->scratch != -1; 635bcd9774aSPaolo Bonzini } 636bcd9774aSPaolo Bonzini 6377d36db35SAvi Kivity static void prepare_asid_zero(struct test *test) 6387d36db35SAvi Kivity { 6397d36db35SAvi Kivity test->vmcb->control.asid = 0; 6407d36db35SAvi Kivity } 6417d36db35SAvi Kivity 6427d36db35SAvi Kivity static void test_asid_zero(struct test *test) 6437d36db35SAvi Kivity { 6447d36db35SAvi Kivity asm volatile ("vmmcall\n\t"); 6457d36db35SAvi Kivity } 6467d36db35SAvi Kivity 6477d36db35SAvi Kivity static bool check_asid_zero(struct test *test) 6487d36db35SAvi Kivity { 6497d36db35SAvi Kivity return test->vmcb->control.exit_code == SVM_EXIT_ERR; 6507d36db35SAvi Kivity } 6517d36db35SAvi Kivity 6524c8eb156SJoerg Roedel static void sel_cr0_bug_prepare(struct test *test) 6534c8eb156SJoerg Roedel { 6544c8eb156SJoerg Roedel vmcb_ident(test->vmcb); 6554c8eb156SJoerg Roedel test->vmcb->control.intercept |= (1ULL << INTERCEPT_SELECTIVE_CR0); 6564c8eb156SJoerg Roedel } 6574c8eb156SJoerg Roedel 6584c8eb156SJoerg Roedel static bool sel_cr0_bug_finished(struct test *test) 6594c8eb156SJoerg Roedel { 6604c8eb156SJoerg Roedel return true; 6614c8eb156SJoerg Roedel } 6624c8eb156SJoerg Roedel 6634c8eb156SJoerg Roedel static void sel_cr0_bug_test(struct test *test) 6644c8eb156SJoerg Roedel { 6654c8eb156SJoerg Roedel unsigned long cr0; 6664c8eb156SJoerg Roedel 6674c8eb156SJoerg Roedel /* read cr0, clear CD, and write back */ 6684c8eb156SJoerg Roedel cr0 = read_cr0(); 6694c8eb156SJoerg Roedel cr0 |= (1UL << 30); 6704c8eb156SJoerg Roedel write_cr0(cr0); 6714c8eb156SJoerg Roedel 6724c8eb156SJoerg Roedel /* 6734c8eb156SJoerg Roedel * If we are here the test failed, not sure what to do now because we 6744c8eb156SJoerg Roedel * are not in guest-mode anymore so we can't trigger an intercept. 6754c8eb156SJoerg Roedel * Trigger a tripple-fault for now. 6764c8eb156SJoerg Roedel */ 6774c8eb156SJoerg Roedel printf("sel_cr0 test failed. Can not recover from this - exiting\n"); 6784c8eb156SJoerg Roedel exit(1); 6794c8eb156SJoerg Roedel } 6804c8eb156SJoerg Roedel 6814c8eb156SJoerg Roedel static bool sel_cr0_bug_check(struct test *test) 6824c8eb156SJoerg Roedel { 6834c8eb156SJoerg Roedel return test->vmcb->control.exit_code == SVM_EXIT_CR0_SEL_WRITE; 6844c8eb156SJoerg Roedel } 6854c8eb156SJoerg Roedel 6868594b943SJoerg Roedel static void npt_nx_prepare(struct test *test) 6878594b943SJoerg Roedel { 6888594b943SJoerg Roedel 6898594b943SJoerg Roedel u64 *pte; 6908594b943SJoerg Roedel 6918594b943SJoerg Roedel vmcb_ident(test->vmcb); 692726a1dd7SPaolo Bonzini pte = npt_get_pte((u64)null_test); 6938594b943SJoerg Roedel 6948594b943SJoerg Roedel *pte |= (1ULL << 63); 6958594b943SJoerg Roedel } 6968594b943SJoerg Roedel 6978594b943SJoerg Roedel static bool npt_nx_check(struct test *test) 6988594b943SJoerg Roedel { 699726a1dd7SPaolo Bonzini u64 *pte = npt_get_pte((u64)null_test); 7008594b943SJoerg Roedel 7018594b943SJoerg Roedel *pte &= ~(1ULL << 63); 7028594b943SJoerg Roedel 7038594b943SJoerg Roedel test->vmcb->save.efer |= (1 << 11); 7048594b943SJoerg Roedel 7058594b943SJoerg Roedel return (test->vmcb->control.exit_code == SVM_EXIT_NPF) 7068594b943SJoerg Roedel && (test->vmcb->control.exit_info_1 == 0x15); 7078594b943SJoerg Roedel } 7088594b943SJoerg Roedel 709ea975120SJoerg Roedel static void npt_us_prepare(struct test *test) 710ea975120SJoerg Roedel { 711ea975120SJoerg Roedel u64 *pte; 712ea975120SJoerg Roedel 713ea975120SJoerg Roedel vmcb_ident(test->vmcb); 714726a1dd7SPaolo Bonzini pte = npt_get_pte((u64)scratch_page); 715ea975120SJoerg Roedel 716ea975120SJoerg Roedel *pte &= ~(1ULL << 2); 717ea975120SJoerg Roedel } 718ea975120SJoerg Roedel 719ea975120SJoerg Roedel static void npt_us_test(struct test *test) 720ea975120SJoerg Roedel { 721c0a4e715SPaolo Bonzini (void) *(volatile u64 *)scratch_page; 722ea975120SJoerg Roedel } 723ea975120SJoerg Roedel 724ea975120SJoerg Roedel static bool npt_us_check(struct test *test) 725ea975120SJoerg Roedel { 726726a1dd7SPaolo Bonzini u64 *pte = npt_get_pte((u64)scratch_page); 727ea975120SJoerg Roedel 728ea975120SJoerg Roedel *pte |= (1ULL << 2); 729ea975120SJoerg Roedel 730ea975120SJoerg Roedel return (test->vmcb->control.exit_code == SVM_EXIT_NPF) 731ea975120SJoerg Roedel && (test->vmcb->control.exit_info_1 == 0x05); 732ea975120SJoerg Roedel } 733ea975120SJoerg Roedel 734dd6ef43cSJoerg Roedel static void npt_rsvd_prepare(struct test *test) 735dd6ef43cSJoerg Roedel { 736dd6ef43cSJoerg Roedel 737dd6ef43cSJoerg Roedel vmcb_ident(test->vmcb); 738dd6ef43cSJoerg Roedel 739dd6ef43cSJoerg Roedel pdpe[0] |= (1ULL << 8); 740dd6ef43cSJoerg Roedel } 741dd6ef43cSJoerg Roedel 742dd6ef43cSJoerg Roedel static bool npt_rsvd_check(struct test *test) 743dd6ef43cSJoerg Roedel { 744dd6ef43cSJoerg Roedel pdpe[0] &= ~(1ULL << 8); 745dd6ef43cSJoerg Roedel 746dd6ef43cSJoerg Roedel return (test->vmcb->control.exit_code == SVM_EXIT_NPF) 747dd6ef43cSJoerg Roedel && (test->vmcb->control.exit_info_1 == 0x0f); 748dd6ef43cSJoerg Roedel } 749dd6ef43cSJoerg Roedel 7505ebf82edSJoerg Roedel static void npt_rw_prepare(struct test *test) 7515ebf82edSJoerg Roedel { 7525ebf82edSJoerg Roedel 7535ebf82edSJoerg Roedel u64 *pte; 7545ebf82edSJoerg Roedel 7555ebf82edSJoerg Roedel vmcb_ident(test->vmcb); 756726a1dd7SPaolo Bonzini pte = npt_get_pte(0x80000); 7575ebf82edSJoerg Roedel 7585ebf82edSJoerg Roedel *pte &= ~(1ULL << 1); 7595ebf82edSJoerg Roedel } 7605ebf82edSJoerg Roedel 7615ebf82edSJoerg Roedel static void npt_rw_test(struct test *test) 7625ebf82edSJoerg Roedel { 7635ebf82edSJoerg Roedel u64 *data = (void*)(0x80000); 7645ebf82edSJoerg Roedel 7655ebf82edSJoerg Roedel *data = 0; 7665ebf82edSJoerg Roedel } 7675ebf82edSJoerg Roedel 7685ebf82edSJoerg Roedel static bool npt_rw_check(struct test *test) 7695ebf82edSJoerg Roedel { 770726a1dd7SPaolo Bonzini u64 *pte = npt_get_pte(0x80000); 7715ebf82edSJoerg Roedel 7725ebf82edSJoerg Roedel *pte |= (1ULL << 1); 7735ebf82edSJoerg Roedel 7745ebf82edSJoerg Roedel return (test->vmcb->control.exit_code == SVM_EXIT_NPF) 7755ebf82edSJoerg Roedel && (test->vmcb->control.exit_info_1 == 0x07); 7765ebf82edSJoerg Roedel } 7775ebf82edSJoerg Roedel 778590040ffSJoerg Roedel static void npt_pfwalk_prepare(struct test *test) 779590040ffSJoerg Roedel { 780590040ffSJoerg Roedel 781590040ffSJoerg Roedel u64 *pte; 782590040ffSJoerg Roedel 783590040ffSJoerg Roedel vmcb_ident(test->vmcb); 784726a1dd7SPaolo Bonzini pte = npt_get_pte(read_cr3()); 785590040ffSJoerg Roedel 786590040ffSJoerg Roedel *pte &= ~(1ULL << 1); 787590040ffSJoerg Roedel } 788590040ffSJoerg Roedel 789590040ffSJoerg Roedel static bool npt_pfwalk_check(struct test *test) 790590040ffSJoerg Roedel { 791726a1dd7SPaolo Bonzini u64 *pte = npt_get_pte(read_cr3()); 792590040ffSJoerg Roedel 793590040ffSJoerg Roedel *pte |= (1ULL << 1); 794590040ffSJoerg Roedel 795590040ffSJoerg Roedel return (test->vmcb->control.exit_code == SVM_EXIT_NPF) 796590040ffSJoerg Roedel && (test->vmcb->control.exit_info_1 == 0x7) 797590040ffSJoerg Roedel && (test->vmcb->control.exit_info_2 == read_cr3()); 798590040ffSJoerg Roedel } 799590040ffSJoerg Roedel 800a2ab7740SPaolo Bonzini static void npt_l1mmio_prepare(struct test *test) 801a2ab7740SPaolo Bonzini { 802a2ab7740SPaolo Bonzini vmcb_ident(test->vmcb); 803a2ab7740SPaolo Bonzini } 804a2ab7740SPaolo Bonzini 805*1e699ecbSPaolo Bonzini u32 nested_apic_version1; 806*1e699ecbSPaolo Bonzini u32 nested_apic_version2; 807a2ab7740SPaolo Bonzini 808a2ab7740SPaolo Bonzini static void npt_l1mmio_test(struct test *test) 809a2ab7740SPaolo Bonzini { 810*1e699ecbSPaolo Bonzini volatile u32 *data = (volatile void*)(0xfee00030UL); 811a2ab7740SPaolo Bonzini 812*1e699ecbSPaolo Bonzini nested_apic_version1 = *data; 813*1e699ecbSPaolo Bonzini nested_apic_version2 = *data; 814a2ab7740SPaolo Bonzini } 815a2ab7740SPaolo Bonzini 816a2ab7740SPaolo Bonzini static bool npt_l1mmio_check(struct test *test) 817a2ab7740SPaolo Bonzini { 818*1e699ecbSPaolo Bonzini volatile u32 *data = (volatile void*)(0xfee00030); 819*1e699ecbSPaolo Bonzini u32 lvr = *data; 820a2ab7740SPaolo Bonzini 821*1e699ecbSPaolo Bonzini return nested_apic_version1 == lvr && nested_apic_version2 == lvr; 822a2ab7740SPaolo Bonzini } 823a2ab7740SPaolo Bonzini 82421c23154SJoerg Roedel static void latency_prepare(struct test *test) 82521c23154SJoerg Roedel { 82621c23154SJoerg Roedel default_prepare(test); 82721c23154SJoerg Roedel runs = LATENCY_RUNS; 82821c23154SJoerg Roedel latvmrun_min = latvmexit_min = -1ULL; 82921c23154SJoerg Roedel latvmrun_max = latvmexit_max = 0; 83021c23154SJoerg Roedel vmrun_sum = vmexit_sum = 0; 83121c23154SJoerg Roedel } 83221c23154SJoerg Roedel 83321c23154SJoerg Roedel static void latency_test(struct test *test) 83421c23154SJoerg Roedel { 83521c23154SJoerg Roedel u64 cycles; 83621c23154SJoerg Roedel 83721c23154SJoerg Roedel start: 83821c23154SJoerg Roedel tsc_end = rdtsc(); 83921c23154SJoerg Roedel 84021c23154SJoerg Roedel cycles = tsc_end - tsc_start; 84121c23154SJoerg Roedel 84221c23154SJoerg Roedel if (cycles > latvmrun_max) 84321c23154SJoerg Roedel latvmrun_max = cycles; 84421c23154SJoerg Roedel 84521c23154SJoerg Roedel if (cycles < latvmrun_min) 84621c23154SJoerg Roedel latvmrun_min = cycles; 84721c23154SJoerg Roedel 84821c23154SJoerg Roedel vmrun_sum += cycles; 84921c23154SJoerg Roedel 85021c23154SJoerg Roedel tsc_start = rdtsc(); 85121c23154SJoerg Roedel 85221c23154SJoerg Roedel asm volatile ("vmmcall" : : : "memory"); 85321c23154SJoerg Roedel goto start; 85421c23154SJoerg Roedel } 85521c23154SJoerg Roedel 85621c23154SJoerg Roedel static bool latency_finished(struct test *test) 85721c23154SJoerg Roedel { 85821c23154SJoerg Roedel u64 cycles; 85921c23154SJoerg Roedel 86021c23154SJoerg Roedel tsc_end = rdtsc(); 86121c23154SJoerg Roedel 86221c23154SJoerg Roedel cycles = tsc_end - tsc_start; 86321c23154SJoerg Roedel 86421c23154SJoerg Roedel if (cycles > latvmexit_max) 86521c23154SJoerg Roedel latvmexit_max = cycles; 86621c23154SJoerg Roedel 86721c23154SJoerg Roedel if (cycles < latvmexit_min) 86821c23154SJoerg Roedel latvmexit_min = cycles; 86921c23154SJoerg Roedel 87021c23154SJoerg Roedel vmexit_sum += cycles; 87121c23154SJoerg Roedel 87221c23154SJoerg Roedel test->vmcb->save.rip += 3; 87321c23154SJoerg Roedel 87421c23154SJoerg Roedel runs -= 1; 87521c23154SJoerg Roedel 87621c23154SJoerg Roedel return runs == 0; 87721c23154SJoerg Roedel } 87821c23154SJoerg Roedel 87921c23154SJoerg Roedel static bool latency_check(struct test *test) 88021c23154SJoerg Roedel { 88121c23154SJoerg Roedel printf(" Latency VMRUN : max: %d min: %d avg: %d\n", latvmrun_max, 88221c23154SJoerg Roedel latvmrun_min, vmrun_sum / LATENCY_RUNS); 88321c23154SJoerg Roedel printf(" Latency VMEXIT: max: %d min: %d avg: %d\n", latvmexit_max, 88421c23154SJoerg Roedel latvmexit_min, vmexit_sum / LATENCY_RUNS); 88521c23154SJoerg Roedel return true; 88621c23154SJoerg Roedel } 88721c23154SJoerg Roedel 888ef101219SRoedel, Joerg static void lat_svm_insn_prepare(struct test *test) 889ef101219SRoedel, Joerg { 890ef101219SRoedel, Joerg default_prepare(test); 891ef101219SRoedel, Joerg runs = LATENCY_RUNS; 892ef101219SRoedel, Joerg latvmload_min = latvmsave_min = latstgi_min = latclgi_min = -1ULL; 893ef101219SRoedel, Joerg latvmload_max = latvmsave_max = latstgi_max = latclgi_max = 0; 894ef101219SRoedel, Joerg vmload_sum = vmsave_sum = stgi_sum = clgi_sum; 895ef101219SRoedel, Joerg } 896ef101219SRoedel, Joerg 897ef101219SRoedel, Joerg static bool lat_svm_insn_finished(struct test *test) 898ef101219SRoedel, Joerg { 899ef101219SRoedel, Joerg u64 vmcb_phys = virt_to_phys(test->vmcb); 900ef101219SRoedel, Joerg u64 cycles; 901ef101219SRoedel, Joerg 902ef101219SRoedel, Joerg for ( ; runs != 0; runs--) { 903ef101219SRoedel, Joerg tsc_start = rdtsc(); 904ef101219SRoedel, Joerg asm volatile("vmload\n\t" : : "a"(vmcb_phys) : "memory"); 905ef101219SRoedel, Joerg cycles = rdtsc() - tsc_start; 906ef101219SRoedel, Joerg if (cycles > latvmload_max) 907ef101219SRoedel, Joerg latvmload_max = cycles; 908ef101219SRoedel, Joerg if (cycles < latvmload_min) 909ef101219SRoedel, Joerg latvmload_min = cycles; 910ef101219SRoedel, Joerg vmload_sum += cycles; 911ef101219SRoedel, Joerg 912ef101219SRoedel, Joerg tsc_start = rdtsc(); 913ef101219SRoedel, Joerg asm volatile("vmsave\n\t" : : "a"(vmcb_phys) : "memory"); 914ef101219SRoedel, Joerg cycles = rdtsc() - tsc_start; 915ef101219SRoedel, Joerg if (cycles > latvmsave_max) 916ef101219SRoedel, Joerg latvmsave_max = cycles; 917ef101219SRoedel, Joerg if (cycles < latvmsave_min) 918ef101219SRoedel, Joerg latvmsave_min = cycles; 919ef101219SRoedel, Joerg vmsave_sum += cycles; 920ef101219SRoedel, Joerg 921ef101219SRoedel, Joerg tsc_start = rdtsc(); 922ef101219SRoedel, Joerg asm volatile("stgi\n\t"); 923ef101219SRoedel, Joerg cycles = rdtsc() - tsc_start; 924ef101219SRoedel, Joerg if (cycles > latstgi_max) 925ef101219SRoedel, Joerg latstgi_max = cycles; 926ef101219SRoedel, Joerg if (cycles < latstgi_min) 927ef101219SRoedel, Joerg latstgi_min = cycles; 928ef101219SRoedel, Joerg stgi_sum += cycles; 929ef101219SRoedel, Joerg 930ef101219SRoedel, Joerg tsc_start = rdtsc(); 931ef101219SRoedel, Joerg asm volatile("clgi\n\t"); 932ef101219SRoedel, Joerg cycles = rdtsc() - tsc_start; 933ef101219SRoedel, Joerg if (cycles > latclgi_max) 934ef101219SRoedel, Joerg latclgi_max = cycles; 935ef101219SRoedel, Joerg if (cycles < latclgi_min) 936ef101219SRoedel, Joerg latclgi_min = cycles; 937ef101219SRoedel, Joerg clgi_sum += cycles; 938ef101219SRoedel, Joerg } 939ef101219SRoedel, Joerg 940ef101219SRoedel, Joerg return true; 941ef101219SRoedel, Joerg } 942ef101219SRoedel, Joerg 943ef101219SRoedel, Joerg static bool lat_svm_insn_check(struct test *test) 944ef101219SRoedel, Joerg { 945ef101219SRoedel, Joerg printf(" Latency VMLOAD: max: %d min: %d avg: %d\n", latvmload_max, 946ef101219SRoedel, Joerg latvmload_min, vmload_sum / LATENCY_RUNS); 947ef101219SRoedel, Joerg printf(" Latency VMSAVE: max: %d min: %d avg: %d\n", latvmsave_max, 948ef101219SRoedel, Joerg latvmsave_min, vmsave_sum / LATENCY_RUNS); 949ef101219SRoedel, Joerg printf(" Latency STGI: max: %d min: %d avg: %d\n", latstgi_max, 950ef101219SRoedel, Joerg latstgi_min, stgi_sum / LATENCY_RUNS); 951ef101219SRoedel, Joerg printf(" Latency CLGI: max: %d min: %d avg: %d\n", latclgi_max, 952ef101219SRoedel, Joerg latclgi_min, clgi_sum / LATENCY_RUNS); 953ef101219SRoedel, Joerg return true; 954ef101219SRoedel, Joerg } 9557d36db35SAvi Kivity static struct test tests[] = { 9567d36db35SAvi Kivity { "null", default_supported, default_prepare, null_test, 9577d36db35SAvi Kivity default_finished, null_check }, 9587d36db35SAvi Kivity { "vmrun", default_supported, default_prepare, test_vmrun, 9597d36db35SAvi Kivity default_finished, check_vmrun }, 960bcd9774aSPaolo Bonzini { "ioio", default_supported, prepare_ioio, test_ioio, 961bcd9774aSPaolo Bonzini ioio_finished, check_ioio }, 9627d36db35SAvi Kivity { "vmrun intercept check", default_supported, prepare_no_vmrun_int, 9637d36db35SAvi Kivity null_test, default_finished, check_no_vmrun_int }, 9647d36db35SAvi Kivity { "cr3 read intercept", default_supported, prepare_cr3_intercept, 9657d36db35SAvi Kivity test_cr3_intercept, default_finished, check_cr3_intercept }, 9667d36db35SAvi Kivity { "cr3 read nointercept", default_supported, default_prepare, 9677d36db35SAvi Kivity test_cr3_intercept, default_finished, check_cr3_nointercept }, 968095274b4SPrasad Joshi { "cr3 read intercept emulate", smp_supported, 9697d36db35SAvi Kivity prepare_cr3_intercept_bypass, test_cr3_intercept_bypass, 9707d36db35SAvi Kivity default_finished, check_cr3_intercept }, 9717d36db35SAvi Kivity { "next_rip", next_rip_supported, prepare_next_rip, test_next_rip, 9727d36db35SAvi Kivity default_finished, check_next_rip }, 9737d36db35SAvi Kivity { "mode_switch", default_supported, prepare_mode_switch, test_mode_switch, 9747d36db35SAvi Kivity mode_switch_finished, check_mode_switch }, 9757d36db35SAvi Kivity { "asid_zero", default_supported, prepare_asid_zero, test_asid_zero, 9767d36db35SAvi Kivity default_finished, check_asid_zero }, 9774c8eb156SJoerg Roedel { "sel_cr0_bug", default_supported, sel_cr0_bug_prepare, sel_cr0_bug_test, 9784c8eb156SJoerg Roedel sel_cr0_bug_finished, sel_cr0_bug_check }, 9798594b943SJoerg Roedel { "npt_nx", npt_supported, npt_nx_prepare, null_test, 980ea975120SJoerg Roedel default_finished, npt_nx_check }, 981ea975120SJoerg Roedel { "npt_us", npt_supported, npt_us_prepare, npt_us_test, 982ea975120SJoerg Roedel default_finished, npt_us_check }, 983dd6ef43cSJoerg Roedel { "npt_rsvd", npt_supported, npt_rsvd_prepare, null_test, 984dd6ef43cSJoerg Roedel default_finished, npt_rsvd_check }, 9855ebf82edSJoerg Roedel { "npt_rw", npt_supported, npt_rw_prepare, npt_rw_test, 9865ebf82edSJoerg Roedel default_finished, npt_rw_check }, 987590040ffSJoerg Roedel { "npt_pfwalk", npt_supported, npt_pfwalk_prepare, null_test, 988590040ffSJoerg Roedel default_finished, npt_pfwalk_check }, 989a2ab7740SPaolo Bonzini { "npt_l1mmio", npt_supported, npt_l1mmio_prepare, npt_l1mmio_test, 990a2ab7740SPaolo Bonzini default_finished, npt_l1mmio_check }, 99121c23154SJoerg Roedel { "latency_run_exit", default_supported, latency_prepare, latency_test, 99221c23154SJoerg Roedel latency_finished, latency_check }, 993ef101219SRoedel, Joerg { "latency_svm_insn", default_supported, lat_svm_insn_prepare, null_test, 994ef101219SRoedel, Joerg lat_svm_insn_finished, lat_svm_insn_check }, 9957d36db35SAvi Kivity }; 9967d36db35SAvi Kivity 9977d36db35SAvi Kivity int main(int ac, char **av) 9987d36db35SAvi Kivity { 9997d36db35SAvi Kivity int i, nr, passed, done; 10007d36db35SAvi Kivity struct vmcb *vmcb; 10017d36db35SAvi Kivity 10027d36db35SAvi Kivity setup_vm(); 10037d36db35SAvi Kivity smp_init(); 10047d36db35SAvi Kivity 10057d36db35SAvi Kivity if (!(cpuid(0x80000001).c & 4)) { 10067d36db35SAvi Kivity printf("SVM not availble\n"); 10077d36db35SAvi Kivity return 0; 10087d36db35SAvi Kivity } 10097d36db35SAvi Kivity 10107d36db35SAvi Kivity setup_svm(); 10117d36db35SAvi Kivity 10127d36db35SAvi Kivity vmcb = alloc_page(); 10137d36db35SAvi Kivity 10147d36db35SAvi Kivity nr = ARRAY_SIZE(tests); 10157d36db35SAvi Kivity passed = done = 0; 10167d36db35SAvi Kivity for (i = 0; i < nr; ++i) { 10177d36db35SAvi Kivity if (!tests[i].supported()) 10187d36db35SAvi Kivity continue; 10197d36db35SAvi Kivity done += 1; 10207d36db35SAvi Kivity passed += test_run(&tests[i], vmcb); 10217d36db35SAvi Kivity } 10227d36db35SAvi Kivity 10237d36db35SAvi Kivity printf("\nSUMMARY: %d TESTS, %d FAILURES\n", done, (done - passed)); 10247d36db35SAvi Kivity return passed == done ? 0 : 1; 10257d36db35SAvi Kivity } 1026