17ada359dSArthur Chunqi Li /* 27ada359dSArthur Chunqi Li * x86/vmx.c : Framework for testing nested virtualization 37ada359dSArthur Chunqi Li * This is a framework to test nested VMX for KVM, which 47ada359dSArthur Chunqi Li * started as a project of GSoC 2013. All test cases should 57ada359dSArthur Chunqi Li * be located in x86/vmx_tests.c and framework related 67ada359dSArthur Chunqi Li * functions should be in this file. 77ada359dSArthur Chunqi Li * 87ada359dSArthur Chunqi Li * How to write test cases? 97ada359dSArthur Chunqi Li * Add callbacks of test suite in variant "vmx_tests". You can 107ada359dSArthur Chunqi Li * write: 117ada359dSArthur Chunqi Li * 1. init function used for initializing test suite 127ada359dSArthur Chunqi Li * 2. main function for codes running in L2 guest, 137ada359dSArthur Chunqi Li * 3. exit_handler to handle vmexit of L2 to L1 147ada359dSArthur Chunqi Li * 4. syscall handler to handle L2 syscall vmexit 157ada359dSArthur Chunqi Li * 5. vmenter fail handler to handle direct failure of vmenter 167ada359dSArthur Chunqi Li * 6. guest_regs is loaded when vmenter and saved when 177ada359dSArthur Chunqi Li * vmexit, you can read and set it in exit_handler 187ada359dSArthur Chunqi Li * If no special function is needed for a test suite, use 197ada359dSArthur Chunqi Li * coressponding basic_* functions as callback. More handlers 207ada359dSArthur Chunqi Li * can be added to "vmx_tests", see details of "struct vmx_test" 217ada359dSArthur Chunqi Li * and function test_run(). 227ada359dSArthur Chunqi Li * 237ada359dSArthur Chunqi Li * Currently, vmx test framework only set up one VCPU and one 247ada359dSArthur Chunqi Li * concurrent guest test environment with same paging for L2 and 257ada359dSArthur Chunqi Li * L1. For usage of EPT, only 1:1 mapped paging is used from VFN 267ada359dSArthur Chunqi Li * to PFN. 277ada359dSArthur Chunqi Li * 287ada359dSArthur Chunqi Li * Author : Arthur Chunqi Li <yzt356@gmail.com> 297ada359dSArthur Chunqi Li */ 307ada359dSArthur Chunqi Li 319d7eaa29SArthur Chunqi Li #include "libcflat.h" 329d7eaa29SArthur Chunqi Li #include "processor.h" 339d7eaa29SArthur Chunqi Li #include "vm.h" 349d7eaa29SArthur Chunqi Li #include "desc.h" 359d7eaa29SArthur Chunqi Li #include "vmx.h" 369d7eaa29SArthur Chunqi Li #include "msr.h" 379d7eaa29SArthur Chunqi Li #include "smp.h" 389d7eaa29SArthur Chunqi Li #include "io.h" 399d7eaa29SArthur Chunqi Li 40ce21d809SBandan Das u64 *vmxon_region; 419d7eaa29SArthur Chunqi Li struct vmcs *vmcs_root; 429d7eaa29SArthur Chunqi Li u32 vpid_cnt; 439d7eaa29SArthur Chunqi Li void *guest_stack, *guest_syscall_stack; 449d7eaa29SArthur Chunqi Li u32 ctrl_pin, ctrl_enter, ctrl_exit, ctrl_cpu[2]; 459d7eaa29SArthur Chunqi Li struct regs regs; 469d7eaa29SArthur Chunqi Li struct vmx_test *current; 473ee34093SArthur Chunqi Li u64 hypercall_field; 489d7eaa29SArthur Chunqi Li bool launched; 491d9284d0SArthur Chunqi Li u64 host_rflags; 509d7eaa29SArthur Chunqi Li 513ee34093SArthur Chunqi Li union vmx_basic basic; 525f18e779SJan Kiszka union vmx_ctrl_msr ctrl_pin_rev; 535f18e779SJan Kiszka union vmx_ctrl_msr ctrl_cpu_rev[2]; 545f18e779SJan Kiszka union vmx_ctrl_msr ctrl_exit_rev; 555f18e779SJan Kiszka union vmx_ctrl_msr ctrl_enter_rev; 563ee34093SArthur Chunqi Li union vmx_ept_vpid ept_vpid; 573ee34093SArthur Chunqi Li 58337166aaSJan Kiszka extern struct descriptor_table_ptr gdt64_desc; 59337166aaSJan Kiszka extern struct descriptor_table_ptr idt_descr; 60337166aaSJan Kiszka extern struct descriptor_table_ptr tss_descr; 619d7eaa29SArthur Chunqi Li extern void *vmx_return; 629d7eaa29SArthur Chunqi Li extern void *entry_sysenter; 639d7eaa29SArthur Chunqi Li extern void *guest_entry; 649d7eaa29SArthur Chunqi Li 65ffb1a9e0SJan Kiszka static volatile u32 stage; 66ffb1a9e0SJan Kiszka 67ffb1a9e0SJan Kiszka void vmx_set_test_stage(u32 s) 68ffb1a9e0SJan Kiszka { 69ffb1a9e0SJan Kiszka barrier(); 70ffb1a9e0SJan Kiszka stage = s; 71ffb1a9e0SJan Kiszka barrier(); 72ffb1a9e0SJan Kiszka } 73ffb1a9e0SJan Kiszka 74ffb1a9e0SJan Kiszka u32 vmx_get_test_stage(void) 75ffb1a9e0SJan Kiszka { 76ffb1a9e0SJan Kiszka u32 s; 77ffb1a9e0SJan Kiszka 78ffb1a9e0SJan Kiszka barrier(); 79ffb1a9e0SJan Kiszka s = stage; 80ffb1a9e0SJan Kiszka barrier(); 81ffb1a9e0SJan Kiszka return s; 82ffb1a9e0SJan Kiszka } 83ffb1a9e0SJan Kiszka 84ffb1a9e0SJan Kiszka void vmx_inc_test_stage(void) 85ffb1a9e0SJan Kiszka { 86ffb1a9e0SJan Kiszka barrier(); 87ffb1a9e0SJan Kiszka stage++; 88ffb1a9e0SJan Kiszka barrier(); 89ffb1a9e0SJan Kiszka } 90ffb1a9e0SJan Kiszka 919d7eaa29SArthur Chunqi Li static int make_vmcs_current(struct vmcs *vmcs) 929d7eaa29SArthur Chunqi Li { 939d7eaa29SArthur Chunqi Li bool ret; 94a739f560SBandan Das u64 rflags = read_rflags() | X86_EFLAGS_CF | X86_EFLAGS_ZF; 959d7eaa29SArthur Chunqi Li 96a739f560SBandan Das asm volatile ("push %1; popf; vmptrld %2; setbe %0" 97a739f560SBandan Das : "=q" (ret) : "q" (rflags), "m" (vmcs) : "cc"); 989d7eaa29SArthur Chunqi Li return ret; 999d7eaa29SArthur Chunqi Li } 1009d7eaa29SArthur Chunqi Li 1019d7eaa29SArthur Chunqi Li /* entry_sysenter */ 1029d7eaa29SArthur Chunqi Li asm( 1039d7eaa29SArthur Chunqi Li ".align 4, 0x90\n\t" 1049d7eaa29SArthur Chunqi Li ".globl entry_sysenter\n\t" 1059d7eaa29SArthur Chunqi Li "entry_sysenter:\n\t" 1069d7eaa29SArthur Chunqi Li SAVE_GPR 1079d7eaa29SArthur Chunqi Li " and $0xf, %rax\n\t" 1089d7eaa29SArthur Chunqi Li " mov %rax, %rdi\n\t" 1099d7eaa29SArthur Chunqi Li " call syscall_handler\n\t" 1109d7eaa29SArthur Chunqi Li LOAD_GPR 1119d7eaa29SArthur Chunqi Li " vmresume\n\t" 1129d7eaa29SArthur Chunqi Li ); 1139d7eaa29SArthur Chunqi Li 1149d7eaa29SArthur Chunqi Li static void __attribute__((__used__)) syscall_handler(u64 syscall_no) 1159d7eaa29SArthur Chunqi Li { 116d5315e3dSJan Kiszka if (current->syscall_handler) 1179d7eaa29SArthur Chunqi Li current->syscall_handler(syscall_no); 1189d7eaa29SArthur Chunqi Li } 1199d7eaa29SArthur Chunqi Li 1209d7eaa29SArthur Chunqi Li static inline int vmx_on() 1219d7eaa29SArthur Chunqi Li { 1229d7eaa29SArthur Chunqi Li bool ret; 123a739f560SBandan Das u64 rflags = read_rflags() | X86_EFLAGS_CF | X86_EFLAGS_ZF; 124a739f560SBandan Das asm volatile ("push %1; popf; vmxon %2; setbe %0\n\t" 125a739f560SBandan Das : "=q" (ret) : "q" (rflags), "m" (vmxon_region) : "cc"); 1269d7eaa29SArthur Chunqi Li return ret; 1279d7eaa29SArthur Chunqi Li } 1289d7eaa29SArthur Chunqi Li 1299d7eaa29SArthur Chunqi Li static inline int vmx_off() 1309d7eaa29SArthur Chunqi Li { 1319d7eaa29SArthur Chunqi Li bool ret; 132a739f560SBandan Das u64 rflags = read_rflags() | X86_EFLAGS_CF | X86_EFLAGS_ZF; 133a739f560SBandan Das 134a739f560SBandan Das asm volatile("push %1; popf; vmxoff; setbe %0\n\t" 135a739f560SBandan Das : "=q"(ret) : "q" (rflags) : "cc"); 1369d7eaa29SArthur Chunqi Li return ret; 1379d7eaa29SArthur Chunqi Li } 1389d7eaa29SArthur Chunqi Li 1393ee34093SArthur Chunqi Li void print_vmexit_info() 1409d7eaa29SArthur Chunqi Li { 1419d7eaa29SArthur Chunqi Li u64 guest_rip, guest_rsp; 1429d7eaa29SArthur Chunqi Li ulong reason = vmcs_read(EXI_REASON) & 0xff; 1439d7eaa29SArthur Chunqi Li ulong exit_qual = vmcs_read(EXI_QUALIFICATION); 1449d7eaa29SArthur Chunqi Li guest_rip = vmcs_read(GUEST_RIP); 1459d7eaa29SArthur Chunqi Li guest_rsp = vmcs_read(GUEST_RSP); 1469d7eaa29SArthur Chunqi Li printf("VMEXIT info:\n"); 147b006d7ebSAndrew Jones printf("\tvmexit reason = %ld\n", reason); 148b006d7ebSAndrew Jones printf("\texit qualification = 0x%lx\n", exit_qual); 149b006d7ebSAndrew Jones printf("\tBit 31 of reason = %lx\n", (vmcs_read(EXI_REASON) >> 31) & 1); 150b006d7ebSAndrew Jones printf("\tguest_rip = 0x%lx\n", guest_rip); 151b006d7ebSAndrew Jones printf("\tRAX=0x%lx RBX=0x%lx RCX=0x%lx RDX=0x%lx\n", 1529d7eaa29SArthur Chunqi Li regs.rax, regs.rbx, regs.rcx, regs.rdx); 153b006d7ebSAndrew Jones printf("\tRSP=0x%lx RBP=0x%lx RSI=0x%lx RDI=0x%lx\n", 1549d7eaa29SArthur Chunqi Li guest_rsp, regs.rbp, regs.rsi, regs.rdi); 155b006d7ebSAndrew Jones printf("\tR8 =0x%lx R9 =0x%lx R10=0x%lx R11=0x%lx\n", 1569d7eaa29SArthur Chunqi Li regs.r8, regs.r9, regs.r10, regs.r11); 157b006d7ebSAndrew Jones printf("\tR12=0x%lx R13=0x%lx R14=0x%lx R15=0x%lx\n", 1589d7eaa29SArthur Chunqi Li regs.r12, regs.r13, regs.r14, regs.r15); 1599d7eaa29SArthur Chunqi Li } 1609d7eaa29SArthur Chunqi Li 1619d7eaa29SArthur Chunqi Li static void test_vmclear(void) 1629d7eaa29SArthur Chunqi Li { 163daeec979SBandan Das struct vmcs *tmp_root; 164e2cf1c9dSEduardo Habkost int width = cpuid_maxphyaddr(); 165daeec979SBandan Das 166daeec979SBandan Das /* 167daeec979SBandan Das * Note- The tests below do not necessarily have a 168daeec979SBandan Das * valid VMCS, but that's ok since the invalid vmcs 169daeec979SBandan Das * is only used for a specific test and is discarded 170daeec979SBandan Das * without touching its contents 171daeec979SBandan Das */ 172daeec979SBandan Das 173daeec979SBandan Das /* Unaligned page access */ 174daeec979SBandan Das tmp_root = (struct vmcs *)((intptr_t)vmcs_root + 1); 175daeec979SBandan Das report("test vmclear with unaligned vmcs", 176daeec979SBandan Das vmcs_clear(tmp_root) == 1); 177daeec979SBandan Das 178daeec979SBandan Das /* gpa bits beyond physical address width are set*/ 179daeec979SBandan Das tmp_root = (struct vmcs *)((intptr_t)vmcs_root | 180daeec979SBandan Das ((u64)1 << (width+1))); 181daeec979SBandan Das report("test vmclear with vmcs address bits set beyond physical address width", 182daeec979SBandan Das vmcs_clear(tmp_root) == 1); 183daeec979SBandan Das 184daeec979SBandan Das /* Pass VMXON region */ 185daeec979SBandan Das tmp_root = (struct vmcs *)vmxon_region; 186daeec979SBandan Das report("test vmclear with vmxon region", 187daeec979SBandan Das vmcs_clear(tmp_root) == 1); 188daeec979SBandan Das 189daeec979SBandan Das /* Valid VMCS */ 190daeec979SBandan Das report("test vmclear with valid vmcs region", vmcs_clear(vmcs_root) == 0); 191daeec979SBandan Das 1929d7eaa29SArthur Chunqi Li } 1939d7eaa29SArthur Chunqi Li 1949d7eaa29SArthur Chunqi Li static void test_vmxoff(void) 1959d7eaa29SArthur Chunqi Li { 1969d7eaa29SArthur Chunqi Li int ret; 1979d7eaa29SArthur Chunqi Li 1989d7eaa29SArthur Chunqi Li ret = vmx_off(); 1999d7eaa29SArthur Chunqi Li report("test vmxoff", !ret); 2009d7eaa29SArthur Chunqi Li } 2019d7eaa29SArthur Chunqi Li 2029d7eaa29SArthur Chunqi Li static void __attribute__((__used__)) guest_main(void) 2039d7eaa29SArthur Chunqi Li { 2049d7eaa29SArthur Chunqi Li current->guest_main(); 2059d7eaa29SArthur Chunqi Li } 2069d7eaa29SArthur Chunqi Li 2079d7eaa29SArthur Chunqi Li /* guest_entry */ 2089d7eaa29SArthur Chunqi Li asm( 2099d7eaa29SArthur Chunqi Li ".align 4, 0x90\n\t" 2109d7eaa29SArthur Chunqi Li ".globl entry_guest\n\t" 2119d7eaa29SArthur Chunqi Li "guest_entry:\n\t" 2129d7eaa29SArthur Chunqi Li " call guest_main\n\t" 2139d7eaa29SArthur Chunqi Li " mov $1, %edi\n\t" 2149d7eaa29SArthur Chunqi Li " call hypercall\n\t" 2159d7eaa29SArthur Chunqi Li ); 2169d7eaa29SArthur Chunqi Li 2176884af61SArthur Chunqi Li /* EPT paging structure related functions */ 21869c531c8SPeter Feiner /* split_large_ept_entry: Split a 2M/1G large page into 512 smaller PTEs. 21969c531c8SPeter Feiner @ptep : large page table entry to split 22069c531c8SPeter Feiner @level : level of ptep (2 or 3) 22169c531c8SPeter Feiner */ 22269c531c8SPeter Feiner static void split_large_ept_entry(unsigned long *ptep, int level) 22369c531c8SPeter Feiner { 22469c531c8SPeter Feiner unsigned long *new_pt; 22569c531c8SPeter Feiner unsigned long gpa; 22669c531c8SPeter Feiner unsigned long pte; 22769c531c8SPeter Feiner unsigned long prototype; 22869c531c8SPeter Feiner int i; 22969c531c8SPeter Feiner 23069c531c8SPeter Feiner pte = *ptep; 23169c531c8SPeter Feiner assert(pte & EPT_PRESENT); 23269c531c8SPeter Feiner assert(pte & EPT_LARGE_PAGE); 23369c531c8SPeter Feiner assert(level == 2 || level == 3); 23469c531c8SPeter Feiner 23569c531c8SPeter Feiner new_pt = alloc_page(); 23669c531c8SPeter Feiner assert(new_pt); 23769c531c8SPeter Feiner memset(new_pt, 0, PAGE_SIZE); 23869c531c8SPeter Feiner 23969c531c8SPeter Feiner prototype = pte & ~EPT_ADDR_MASK; 24069c531c8SPeter Feiner if (level == 2) 24169c531c8SPeter Feiner prototype &= ~EPT_LARGE_PAGE; 24269c531c8SPeter Feiner 24369c531c8SPeter Feiner gpa = pte & EPT_ADDR_MASK; 24469c531c8SPeter Feiner for (i = 0; i < EPT_PGDIR_ENTRIES; i++) { 24569c531c8SPeter Feiner new_pt[i] = prototype | gpa; 24669c531c8SPeter Feiner gpa += 1ul << EPT_LEVEL_SHIFT(level - 1); 24769c531c8SPeter Feiner } 24869c531c8SPeter Feiner 24969c531c8SPeter Feiner pte &= ~EPT_LARGE_PAGE; 25069c531c8SPeter Feiner pte &= ~EPT_ADDR_MASK; 25169c531c8SPeter Feiner pte |= virt_to_phys(new_pt); 25269c531c8SPeter Feiner 25369c531c8SPeter Feiner *ptep = pte; 25469c531c8SPeter Feiner } 25569c531c8SPeter Feiner 2566884af61SArthur Chunqi Li /* install_ept_entry : Install a page to a given level in EPT 2576884af61SArthur Chunqi Li @pml4 : addr of pml4 table 2586884af61SArthur Chunqi Li @pte_level : level of PTE to set 2596884af61SArthur Chunqi Li @guest_addr : physical address of guest 2606884af61SArthur Chunqi Li @pte : pte value to set 2616884af61SArthur Chunqi Li @pt_page : address of page table, NULL for a new page 2626884af61SArthur Chunqi Li */ 2636884af61SArthur Chunqi Li void install_ept_entry(unsigned long *pml4, 2646884af61SArthur Chunqi Li int pte_level, 2656884af61SArthur Chunqi Li unsigned long guest_addr, 2666884af61SArthur Chunqi Li unsigned long pte, 2676884af61SArthur Chunqi Li unsigned long *pt_page) 2686884af61SArthur Chunqi Li { 2696884af61SArthur Chunqi Li int level; 2706884af61SArthur Chunqi Li unsigned long *pt = pml4; 2716884af61SArthur Chunqi Li unsigned offset; 2726884af61SArthur Chunqi Li 2736884af61SArthur Chunqi Li for (level = EPT_PAGE_LEVEL; level > pte_level; --level) { 274a969e087SPeter Feiner offset = (guest_addr >> EPT_LEVEL_SHIFT(level)) 2756884af61SArthur Chunqi Li & EPT_PGDIR_MASK; 2766884af61SArthur Chunqi Li if (!(pt[offset] & (EPT_PRESENT))) { 2776884af61SArthur Chunqi Li unsigned long *new_pt = pt_page; 2786884af61SArthur Chunqi Li if (!new_pt) 2796884af61SArthur Chunqi Li new_pt = alloc_page(); 2806884af61SArthur Chunqi Li else 2816884af61SArthur Chunqi Li pt_page = 0; 2826884af61SArthur Chunqi Li memset(new_pt, 0, PAGE_SIZE); 2836884af61SArthur Chunqi Li pt[offset] = virt_to_phys(new_pt) 2846884af61SArthur Chunqi Li | EPT_RA | EPT_WA | EPT_EA; 28569c531c8SPeter Feiner } else if (pt[offset] & EPT_LARGE_PAGE) 28669c531c8SPeter Feiner split_large_ept_entry(&pt[offset], level); 28700b5c590SPeter Feiner pt = phys_to_virt(pt[offset] & EPT_ADDR_MASK); 2886884af61SArthur Chunqi Li } 289a969e087SPeter Feiner offset = (guest_addr >> EPT_LEVEL_SHIFT(level)) & EPT_PGDIR_MASK; 2906884af61SArthur Chunqi Li pt[offset] = pte; 2916884af61SArthur Chunqi Li } 2926884af61SArthur Chunqi Li 2936884af61SArthur Chunqi Li /* Map a page, @perm is the permission of the page */ 2946884af61SArthur Chunqi Li void install_ept(unsigned long *pml4, 2956884af61SArthur Chunqi Li unsigned long phys, 2966884af61SArthur Chunqi Li unsigned long guest_addr, 2976884af61SArthur Chunqi Li u64 perm) 2986884af61SArthur Chunqi Li { 2996884af61SArthur Chunqi Li install_ept_entry(pml4, 1, guest_addr, (phys & PAGE_MASK) | perm, 0); 3006884af61SArthur Chunqi Li } 3016884af61SArthur Chunqi Li 3026884af61SArthur Chunqi Li /* Map a 1G-size page */ 3036884af61SArthur Chunqi Li void install_1g_ept(unsigned long *pml4, 3046884af61SArthur Chunqi Li unsigned long phys, 3056884af61SArthur Chunqi Li unsigned long guest_addr, 3066884af61SArthur Chunqi Li u64 perm) 3076884af61SArthur Chunqi Li { 3086884af61SArthur Chunqi Li install_ept_entry(pml4, 3, guest_addr, 3096884af61SArthur Chunqi Li (phys & PAGE_MASK) | perm | EPT_LARGE_PAGE, 0); 3106884af61SArthur Chunqi Li } 3116884af61SArthur Chunqi Li 3126884af61SArthur Chunqi Li /* Map a 2M-size page */ 3136884af61SArthur Chunqi Li void install_2m_ept(unsigned long *pml4, 3146884af61SArthur Chunqi Li unsigned long phys, 3156884af61SArthur Chunqi Li unsigned long guest_addr, 3166884af61SArthur Chunqi Li u64 perm) 3176884af61SArthur Chunqi Li { 3186884af61SArthur Chunqi Li install_ept_entry(pml4, 2, guest_addr, 3196884af61SArthur Chunqi Li (phys & PAGE_MASK) | perm | EPT_LARGE_PAGE, 0); 3206884af61SArthur Chunqi Li } 3216884af61SArthur Chunqi Li 3226884af61SArthur Chunqi Li /* setup_ept_range : Setup a range of 1:1 mapped page to EPT paging structure. 3236884af61SArthur Chunqi Li @start : start address of guest page 3246884af61SArthur Chunqi Li @len : length of address to be mapped 3256884af61SArthur Chunqi Li @map_1g : whether 1G page map is used 3266884af61SArthur Chunqi Li @map_2m : whether 2M page map is used 3276884af61SArthur Chunqi Li @perm : permission for every page 3286884af61SArthur Chunqi Li */ 329b947e241SJan Kiszka void setup_ept_range(unsigned long *pml4, unsigned long start, 3306884af61SArthur Chunqi Li unsigned long len, int map_1g, int map_2m, u64 perm) 3316884af61SArthur Chunqi Li { 3326884af61SArthur Chunqi Li u64 phys = start; 3336884af61SArthur Chunqi Li u64 max = (u64)len + (u64)start; 3346884af61SArthur Chunqi Li 3356884af61SArthur Chunqi Li if (map_1g) { 3366884af61SArthur Chunqi Li while (phys + PAGE_SIZE_1G <= max) { 3376884af61SArthur Chunqi Li install_1g_ept(pml4, phys, phys, perm); 3386884af61SArthur Chunqi Li phys += PAGE_SIZE_1G; 3396884af61SArthur Chunqi Li } 3406884af61SArthur Chunqi Li } 3416884af61SArthur Chunqi Li if (map_2m) { 3426884af61SArthur Chunqi Li while (phys + PAGE_SIZE_2M <= max) { 3436884af61SArthur Chunqi Li install_2m_ept(pml4, phys, phys, perm); 3446884af61SArthur Chunqi Li phys += PAGE_SIZE_2M; 3456884af61SArthur Chunqi Li } 3466884af61SArthur Chunqi Li } 3476884af61SArthur Chunqi Li while (phys + PAGE_SIZE <= max) { 3486884af61SArthur Chunqi Li install_ept(pml4, phys, phys, perm); 3496884af61SArthur Chunqi Li phys += PAGE_SIZE; 3506884af61SArthur Chunqi Li } 3516884af61SArthur Chunqi Li } 3526884af61SArthur Chunqi Li 3536884af61SArthur Chunqi Li /* get_ept_pte : Get the PTE of a given level in EPT, 3546884af61SArthur Chunqi Li @level == 1 means get the latest level*/ 3556884af61SArthur Chunqi Li unsigned long get_ept_pte(unsigned long *pml4, 3566884af61SArthur Chunqi Li unsigned long guest_addr, int level) 3576884af61SArthur Chunqi Li { 3586884af61SArthur Chunqi Li int l; 3596884af61SArthur Chunqi Li unsigned long *pt = pml4, pte; 3606884af61SArthur Chunqi Li unsigned offset; 3616884af61SArthur Chunqi Li 3622ca6f1f3SPaolo Bonzini if (level < 1 || level > 3) 3632ca6f1f3SPaolo Bonzini return -1; 3642ca6f1f3SPaolo Bonzini for (l = EPT_PAGE_LEVEL; ; --l) { 365a969e087SPeter Feiner offset = (guest_addr >> EPT_LEVEL_SHIFT(l)) & EPT_PGDIR_MASK; 3666884af61SArthur Chunqi Li pte = pt[offset]; 3676884af61SArthur Chunqi Li if (!(pte & (EPT_PRESENT))) 3686884af61SArthur Chunqi Li return 0; 3696884af61SArthur Chunqi Li if (l == level) 3702ca6f1f3SPaolo Bonzini break; 3716884af61SArthur Chunqi Li if (l < 4 && (pte & EPT_LARGE_PAGE)) 3726884af61SArthur Chunqi Li return pte; 37300b5c590SPeter Feiner pt = (unsigned long *)(pte & EPT_ADDR_MASK); 3746884af61SArthur Chunqi Li } 375a969e087SPeter Feiner offset = (guest_addr >> EPT_LEVEL_SHIFT(l)) & EPT_PGDIR_MASK; 3766884af61SArthur Chunqi Li pte = pt[offset]; 3776884af61SArthur Chunqi Li return pte; 3786884af61SArthur Chunqi Li } 3796884af61SArthur Chunqi Li 3802f888fccSBandan Das void ept_sync(int type, u64 eptp) 3812f888fccSBandan Das { 3822f888fccSBandan Das switch (type) { 3832f888fccSBandan Das case INVEPT_SINGLE: 3842f888fccSBandan Das if (ept_vpid.val & EPT_CAP_INVEPT_SINGLE) { 3852f888fccSBandan Das invept(INVEPT_SINGLE, eptp); 3862f888fccSBandan Das break; 3872f888fccSBandan Das } 3882f888fccSBandan Das /* else fall through */ 3892f888fccSBandan Das case INVEPT_GLOBAL: 3902f888fccSBandan Das if (ept_vpid.val & EPT_CAP_INVEPT_ALL) { 3912f888fccSBandan Das invept(INVEPT_GLOBAL, eptp); 3922f888fccSBandan Das break; 3932f888fccSBandan Das } 3942f888fccSBandan Das /* else fall through */ 3952f888fccSBandan Das default: 3962f888fccSBandan Das printf("WARNING: invept is not supported!\n"); 3972f888fccSBandan Das } 3982f888fccSBandan Das } 3992f888fccSBandan Das 4006884af61SArthur Chunqi Li int set_ept_pte(unsigned long *pml4, unsigned long guest_addr, 4016884af61SArthur Chunqi Li int level, u64 pte_val) 4026884af61SArthur Chunqi Li { 4036884af61SArthur Chunqi Li int l; 4046884af61SArthur Chunqi Li unsigned long *pt = pml4; 4056884af61SArthur Chunqi Li unsigned offset; 4066884af61SArthur Chunqi Li 4076884af61SArthur Chunqi Li if (level < 1 || level > 3) 4086884af61SArthur Chunqi Li return -1; 4092ca6f1f3SPaolo Bonzini for (l = EPT_PAGE_LEVEL; ; --l) { 410a969e087SPeter Feiner offset = (guest_addr >> EPT_LEVEL_SHIFT(l)) & EPT_PGDIR_MASK; 4112ca6f1f3SPaolo Bonzini if (l == level) 4122ca6f1f3SPaolo Bonzini break; 4136884af61SArthur Chunqi Li if (!(pt[offset] & (EPT_PRESENT))) 4146884af61SArthur Chunqi Li return -1; 41500b5c590SPeter Feiner pt = (unsigned long *)(pt[offset] & EPT_ADDR_MASK); 4166884af61SArthur Chunqi Li } 417a969e087SPeter Feiner offset = (guest_addr >> EPT_LEVEL_SHIFT(l)) & EPT_PGDIR_MASK; 4186884af61SArthur Chunqi Li pt[offset] = pte_val; 4196884af61SArthur Chunqi Li return 0; 4206884af61SArthur Chunqi Li } 4216884af61SArthur Chunqi Li 422b093c6ceSWanpeng Li void vpid_sync(int type, u16 vpid) 423b093c6ceSWanpeng Li { 424b093c6ceSWanpeng Li switch(type) { 425b093c6ceSWanpeng Li case INVVPID_SINGLE: 426b093c6ceSWanpeng Li if (ept_vpid.val & VPID_CAP_INVVPID_SINGLE) { 427b093c6ceSWanpeng Li invvpid(INVVPID_SINGLE, vpid, 0); 428b093c6ceSWanpeng Li break; 429b093c6ceSWanpeng Li } 430b093c6ceSWanpeng Li case INVVPID_ALL: 431b093c6ceSWanpeng Li if (ept_vpid.val & VPID_CAP_INVVPID_ALL) { 432b093c6ceSWanpeng Li invvpid(INVVPID_ALL, vpid, 0); 433b093c6ceSWanpeng Li break; 434b093c6ceSWanpeng Li } 435b093c6ceSWanpeng Li default: 436b093c6ceSWanpeng Li printf("WARNING: invvpid is not supported\n"); 437b093c6ceSWanpeng Li } 438b093c6ceSWanpeng Li } 4396884af61SArthur Chunqi Li 4409d7eaa29SArthur Chunqi Li static void init_vmcs_ctrl(void) 4419d7eaa29SArthur Chunqi Li { 4429d7eaa29SArthur Chunqi Li /* 26.2 CHECKS ON VMX CONTROLS AND HOST-STATE AREA */ 4439d7eaa29SArthur Chunqi Li /* 26.2.1.1 */ 4449d7eaa29SArthur Chunqi Li vmcs_write(PIN_CONTROLS, ctrl_pin); 4459d7eaa29SArthur Chunqi Li /* Disable VMEXIT of IO instruction */ 4469d7eaa29SArthur Chunqi Li vmcs_write(CPU_EXEC_CTRL0, ctrl_cpu[0]); 4479d7eaa29SArthur Chunqi Li if (ctrl_cpu_rev[0].set & CPU_SECONDARY) { 4486884af61SArthur Chunqi Li ctrl_cpu[1] = (ctrl_cpu[1] | ctrl_cpu_rev[1].set) & 4496884af61SArthur Chunqi Li ctrl_cpu_rev[1].clr; 4509d7eaa29SArthur Chunqi Li vmcs_write(CPU_EXEC_CTRL1, ctrl_cpu[1]); 4519d7eaa29SArthur Chunqi Li } 4529d7eaa29SArthur Chunqi Li vmcs_write(CR3_TARGET_COUNT, 0); 4539d7eaa29SArthur Chunqi Li vmcs_write(VPID, ++vpid_cnt); 4549d7eaa29SArthur Chunqi Li } 4559d7eaa29SArthur Chunqi Li 4569d7eaa29SArthur Chunqi Li static void init_vmcs_host(void) 4579d7eaa29SArthur Chunqi Li { 4589d7eaa29SArthur Chunqi Li /* 26.2 CHECKS ON VMX CONTROLS AND HOST-STATE AREA */ 4599d7eaa29SArthur Chunqi Li /* 26.2.1.2 */ 4609d7eaa29SArthur Chunqi Li vmcs_write(HOST_EFER, rdmsr(MSR_EFER)); 4619d7eaa29SArthur Chunqi Li 4629d7eaa29SArthur Chunqi Li /* 26.2.1.3 */ 4639d7eaa29SArthur Chunqi Li vmcs_write(ENT_CONTROLS, ctrl_enter); 4649d7eaa29SArthur Chunqi Li vmcs_write(EXI_CONTROLS, ctrl_exit); 4659d7eaa29SArthur Chunqi Li 4669d7eaa29SArthur Chunqi Li /* 26.2.2 */ 4679d7eaa29SArthur Chunqi Li vmcs_write(HOST_CR0, read_cr0()); 4689d7eaa29SArthur Chunqi Li vmcs_write(HOST_CR3, read_cr3()); 4699d7eaa29SArthur Chunqi Li vmcs_write(HOST_CR4, read_cr4()); 4709d7eaa29SArthur Chunqi Li vmcs_write(HOST_SYSENTER_EIP, (u64)(&entry_sysenter)); 47169d8fe0eSPaolo Bonzini vmcs_write(HOST_SYSENTER_CS, KERNEL_CS); 4729d7eaa29SArthur Chunqi Li 4739d7eaa29SArthur Chunqi Li /* 26.2.3 */ 47469d8fe0eSPaolo Bonzini vmcs_write(HOST_SEL_CS, KERNEL_CS); 47569d8fe0eSPaolo Bonzini vmcs_write(HOST_SEL_SS, KERNEL_DS); 47669d8fe0eSPaolo Bonzini vmcs_write(HOST_SEL_DS, KERNEL_DS); 47769d8fe0eSPaolo Bonzini vmcs_write(HOST_SEL_ES, KERNEL_DS); 47869d8fe0eSPaolo Bonzini vmcs_write(HOST_SEL_FS, KERNEL_DS); 47969d8fe0eSPaolo Bonzini vmcs_write(HOST_SEL_GS, KERNEL_DS); 48069d8fe0eSPaolo Bonzini vmcs_write(HOST_SEL_TR, TSS_MAIN); 481337166aaSJan Kiszka vmcs_write(HOST_BASE_TR, tss_descr.base); 482337166aaSJan Kiszka vmcs_write(HOST_BASE_GDTR, gdt64_desc.base); 483337166aaSJan Kiszka vmcs_write(HOST_BASE_IDTR, idt_descr.base); 4849d7eaa29SArthur Chunqi Li vmcs_write(HOST_BASE_FS, 0); 4859d7eaa29SArthur Chunqi Li vmcs_write(HOST_BASE_GS, 0); 4869d7eaa29SArthur Chunqi Li 4879d7eaa29SArthur Chunqi Li /* Set other vmcs area */ 4889d7eaa29SArthur Chunqi Li vmcs_write(PF_ERROR_MASK, 0); 4899d7eaa29SArthur Chunqi Li vmcs_write(PF_ERROR_MATCH, 0); 4909d7eaa29SArthur Chunqi Li vmcs_write(VMCS_LINK_PTR, ~0ul); 4919d7eaa29SArthur Chunqi Li vmcs_write(VMCS_LINK_PTR_HI, ~0ul); 4929d7eaa29SArthur Chunqi Li vmcs_write(HOST_RIP, (u64)(&vmx_return)); 4939d7eaa29SArthur Chunqi Li } 4949d7eaa29SArthur Chunqi Li 4959d7eaa29SArthur Chunqi Li static void init_vmcs_guest(void) 4969d7eaa29SArthur Chunqi Li { 4979d7eaa29SArthur Chunqi Li /* 26.3 CHECKING AND LOADING GUEST STATE */ 4989d7eaa29SArthur Chunqi Li ulong guest_cr0, guest_cr4, guest_cr3; 4999d7eaa29SArthur Chunqi Li /* 26.3.1.1 */ 5009d7eaa29SArthur Chunqi Li guest_cr0 = read_cr0(); 5019d7eaa29SArthur Chunqi Li guest_cr4 = read_cr4(); 5029d7eaa29SArthur Chunqi Li guest_cr3 = read_cr3(); 5039d7eaa29SArthur Chunqi Li if (ctrl_enter & ENT_GUEST_64) { 5049d7eaa29SArthur Chunqi Li guest_cr0 |= X86_CR0_PG; 5059d7eaa29SArthur Chunqi Li guest_cr4 |= X86_CR4_PAE; 5069d7eaa29SArthur Chunqi Li } 5079d7eaa29SArthur Chunqi Li if ((ctrl_enter & ENT_GUEST_64) == 0) 5089d7eaa29SArthur Chunqi Li guest_cr4 &= (~X86_CR4_PCIDE); 5099d7eaa29SArthur Chunqi Li if (guest_cr0 & X86_CR0_PG) 5109d7eaa29SArthur Chunqi Li guest_cr0 |= X86_CR0_PE; 5119d7eaa29SArthur Chunqi Li vmcs_write(GUEST_CR0, guest_cr0); 5129d7eaa29SArthur Chunqi Li vmcs_write(GUEST_CR3, guest_cr3); 5139d7eaa29SArthur Chunqi Li vmcs_write(GUEST_CR4, guest_cr4); 51469d8fe0eSPaolo Bonzini vmcs_write(GUEST_SYSENTER_CS, KERNEL_CS); 5159d7eaa29SArthur Chunqi Li vmcs_write(GUEST_SYSENTER_ESP, 5169d7eaa29SArthur Chunqi Li (u64)(guest_syscall_stack + PAGE_SIZE - 1)); 5179d7eaa29SArthur Chunqi Li vmcs_write(GUEST_SYSENTER_EIP, (u64)(&entry_sysenter)); 5189d7eaa29SArthur Chunqi Li vmcs_write(GUEST_DR7, 0); 5199d7eaa29SArthur Chunqi Li vmcs_write(GUEST_EFER, rdmsr(MSR_EFER)); 5209d7eaa29SArthur Chunqi Li 5219d7eaa29SArthur Chunqi Li /* 26.3.1.2 */ 52269d8fe0eSPaolo Bonzini vmcs_write(GUEST_SEL_CS, KERNEL_CS); 52369d8fe0eSPaolo Bonzini vmcs_write(GUEST_SEL_SS, KERNEL_DS); 52469d8fe0eSPaolo Bonzini vmcs_write(GUEST_SEL_DS, KERNEL_DS); 52569d8fe0eSPaolo Bonzini vmcs_write(GUEST_SEL_ES, KERNEL_DS); 52669d8fe0eSPaolo Bonzini vmcs_write(GUEST_SEL_FS, KERNEL_DS); 52769d8fe0eSPaolo Bonzini vmcs_write(GUEST_SEL_GS, KERNEL_DS); 52869d8fe0eSPaolo Bonzini vmcs_write(GUEST_SEL_TR, TSS_MAIN); 5299d7eaa29SArthur Chunqi Li vmcs_write(GUEST_SEL_LDTR, 0); 5309d7eaa29SArthur Chunqi Li 5319d7eaa29SArthur Chunqi Li vmcs_write(GUEST_BASE_CS, 0); 5329d7eaa29SArthur Chunqi Li vmcs_write(GUEST_BASE_ES, 0); 5339d7eaa29SArthur Chunqi Li vmcs_write(GUEST_BASE_SS, 0); 5349d7eaa29SArthur Chunqi Li vmcs_write(GUEST_BASE_DS, 0); 5359d7eaa29SArthur Chunqi Li vmcs_write(GUEST_BASE_FS, 0); 5369d7eaa29SArthur Chunqi Li vmcs_write(GUEST_BASE_GS, 0); 537337166aaSJan Kiszka vmcs_write(GUEST_BASE_TR, tss_descr.base); 5389d7eaa29SArthur Chunqi Li vmcs_write(GUEST_BASE_LDTR, 0); 5399d7eaa29SArthur Chunqi Li 5409d7eaa29SArthur Chunqi Li vmcs_write(GUEST_LIMIT_CS, 0xFFFFFFFF); 5419d7eaa29SArthur Chunqi Li vmcs_write(GUEST_LIMIT_DS, 0xFFFFFFFF); 5429d7eaa29SArthur Chunqi Li vmcs_write(GUEST_LIMIT_ES, 0xFFFFFFFF); 5439d7eaa29SArthur Chunqi Li vmcs_write(GUEST_LIMIT_SS, 0xFFFFFFFF); 5449d7eaa29SArthur Chunqi Li vmcs_write(GUEST_LIMIT_FS, 0xFFFFFFFF); 5459d7eaa29SArthur Chunqi Li vmcs_write(GUEST_LIMIT_GS, 0xFFFFFFFF); 5469d7eaa29SArthur Chunqi Li vmcs_write(GUEST_LIMIT_LDTR, 0xffff); 547337166aaSJan Kiszka vmcs_write(GUEST_LIMIT_TR, tss_descr.limit); 5489d7eaa29SArthur Chunqi Li 5499d7eaa29SArthur Chunqi Li vmcs_write(GUEST_AR_CS, 0xa09b); 5509d7eaa29SArthur Chunqi Li vmcs_write(GUEST_AR_DS, 0xc093); 5519d7eaa29SArthur Chunqi Li vmcs_write(GUEST_AR_ES, 0xc093); 5529d7eaa29SArthur Chunqi Li vmcs_write(GUEST_AR_FS, 0xc093); 5539d7eaa29SArthur Chunqi Li vmcs_write(GUEST_AR_GS, 0xc093); 5549d7eaa29SArthur Chunqi Li vmcs_write(GUEST_AR_SS, 0xc093); 5559d7eaa29SArthur Chunqi Li vmcs_write(GUEST_AR_LDTR, 0x82); 5569d7eaa29SArthur Chunqi Li vmcs_write(GUEST_AR_TR, 0x8b); 5579d7eaa29SArthur Chunqi Li 5589d7eaa29SArthur Chunqi Li /* 26.3.1.3 */ 559337166aaSJan Kiszka vmcs_write(GUEST_BASE_GDTR, gdt64_desc.base); 560337166aaSJan Kiszka vmcs_write(GUEST_BASE_IDTR, idt_descr.base); 561337166aaSJan Kiszka vmcs_write(GUEST_LIMIT_GDTR, gdt64_desc.limit); 562337166aaSJan Kiszka vmcs_write(GUEST_LIMIT_IDTR, idt_descr.limit); 5639d7eaa29SArthur Chunqi Li 5649d7eaa29SArthur Chunqi Li /* 26.3.1.4 */ 5659d7eaa29SArthur Chunqi Li vmcs_write(GUEST_RIP, (u64)(&guest_entry)); 5669d7eaa29SArthur Chunqi Li vmcs_write(GUEST_RSP, (u64)(guest_stack + PAGE_SIZE - 1)); 5679d7eaa29SArthur Chunqi Li vmcs_write(GUEST_RFLAGS, 0x2); 5689d7eaa29SArthur Chunqi Li 5699d7eaa29SArthur Chunqi Li /* 26.3.1.5 */ 57017ba0dd0SJan Kiszka vmcs_write(GUEST_ACTV_STATE, ACTV_ACTIVE); 5719d7eaa29SArthur Chunqi Li vmcs_write(GUEST_INTR_STATE, 0); 5729d7eaa29SArthur Chunqi Li } 5739d7eaa29SArthur Chunqi Li 5749d7eaa29SArthur Chunqi Li static int init_vmcs(struct vmcs **vmcs) 5759d7eaa29SArthur Chunqi Li { 5769d7eaa29SArthur Chunqi Li *vmcs = alloc_page(); 5779d7eaa29SArthur Chunqi Li memset(*vmcs, 0, PAGE_SIZE); 5789d7eaa29SArthur Chunqi Li (*vmcs)->revision_id = basic.revision; 5799d7eaa29SArthur Chunqi Li /* vmclear first to init vmcs */ 5809d7eaa29SArthur Chunqi Li if (vmcs_clear(*vmcs)) { 5819d7eaa29SArthur Chunqi Li printf("%s : vmcs_clear error\n", __func__); 5829d7eaa29SArthur Chunqi Li return 1; 5839d7eaa29SArthur Chunqi Li } 5849d7eaa29SArthur Chunqi Li 5859d7eaa29SArthur Chunqi Li if (make_vmcs_current(*vmcs)) { 5869d7eaa29SArthur Chunqi Li printf("%s : make_vmcs_current error\n", __func__); 5879d7eaa29SArthur Chunqi Li return 1; 5889d7eaa29SArthur Chunqi Li } 5899d7eaa29SArthur Chunqi Li 5909d7eaa29SArthur Chunqi Li /* All settings to pin/exit/enter/cpu 5919d7eaa29SArthur Chunqi Li control fields should be placed here */ 5929d7eaa29SArthur Chunqi Li ctrl_pin |= PIN_EXTINT | PIN_NMI | PIN_VIRT_NMI; 5939d7eaa29SArthur Chunqi Li ctrl_exit = EXI_LOAD_EFER | EXI_HOST_64; 5949d7eaa29SArthur Chunqi Li ctrl_enter = (ENT_LOAD_EFER | ENT_GUEST_64); 5959d7eaa29SArthur Chunqi Li /* DIsable IO instruction VMEXIT now */ 5969d7eaa29SArthur Chunqi Li ctrl_cpu[0] &= (~(CPU_IO | CPU_IO_BITMAP)); 5979d7eaa29SArthur Chunqi Li ctrl_cpu[1] = 0; 5989d7eaa29SArthur Chunqi Li 5999d7eaa29SArthur Chunqi Li ctrl_pin = (ctrl_pin | ctrl_pin_rev.set) & ctrl_pin_rev.clr; 6009d7eaa29SArthur Chunqi Li ctrl_enter = (ctrl_enter | ctrl_enter_rev.set) & ctrl_enter_rev.clr; 6019d7eaa29SArthur Chunqi Li ctrl_exit = (ctrl_exit | ctrl_exit_rev.set) & ctrl_exit_rev.clr; 6029d7eaa29SArthur Chunqi Li ctrl_cpu[0] = (ctrl_cpu[0] | ctrl_cpu_rev[0].set) & ctrl_cpu_rev[0].clr; 6039d7eaa29SArthur Chunqi Li 6049d7eaa29SArthur Chunqi Li init_vmcs_ctrl(); 6059d7eaa29SArthur Chunqi Li init_vmcs_host(); 6069d7eaa29SArthur Chunqi Li init_vmcs_guest(); 6079d7eaa29SArthur Chunqi Li return 0; 6089d7eaa29SArthur Chunqi Li } 6099d7eaa29SArthur Chunqi Li 6109d7eaa29SArthur Chunqi Li static void init_vmx(void) 6119d7eaa29SArthur Chunqi Li { 6123ee34093SArthur Chunqi Li ulong fix_cr0_set, fix_cr0_clr; 6133ee34093SArthur Chunqi Li ulong fix_cr4_set, fix_cr4_clr; 6143ee34093SArthur Chunqi Li 6159d7eaa29SArthur Chunqi Li vmxon_region = alloc_page(); 6169d7eaa29SArthur Chunqi Li memset(vmxon_region, 0, PAGE_SIZE); 6179d7eaa29SArthur Chunqi Li 6189d7eaa29SArthur Chunqi Li fix_cr0_set = rdmsr(MSR_IA32_VMX_CR0_FIXED0); 6199d7eaa29SArthur Chunqi Li fix_cr0_clr = rdmsr(MSR_IA32_VMX_CR0_FIXED1); 6209d7eaa29SArthur Chunqi Li fix_cr4_set = rdmsr(MSR_IA32_VMX_CR4_FIXED0); 6219d7eaa29SArthur Chunqi Li fix_cr4_clr = rdmsr(MSR_IA32_VMX_CR4_FIXED1); 6229d7eaa29SArthur Chunqi Li basic.val = rdmsr(MSR_IA32_VMX_BASIC); 6239d7eaa29SArthur Chunqi Li ctrl_pin_rev.val = rdmsr(basic.ctrl ? MSR_IA32_VMX_TRUE_PIN 6249d7eaa29SArthur Chunqi Li : MSR_IA32_VMX_PINBASED_CTLS); 6259d7eaa29SArthur Chunqi Li ctrl_exit_rev.val = rdmsr(basic.ctrl ? MSR_IA32_VMX_TRUE_EXIT 6269d7eaa29SArthur Chunqi Li : MSR_IA32_VMX_EXIT_CTLS); 6279d7eaa29SArthur Chunqi Li ctrl_enter_rev.val = rdmsr(basic.ctrl ? MSR_IA32_VMX_TRUE_ENTRY 6289d7eaa29SArthur Chunqi Li : MSR_IA32_VMX_ENTRY_CTLS); 6299d7eaa29SArthur Chunqi Li ctrl_cpu_rev[0].val = rdmsr(basic.ctrl ? MSR_IA32_VMX_TRUE_PROC 6309d7eaa29SArthur Chunqi Li : MSR_IA32_VMX_PROCBASED_CTLS); 6316884af61SArthur Chunqi Li if ((ctrl_cpu_rev[0].clr & CPU_SECONDARY) != 0) 6329d7eaa29SArthur Chunqi Li ctrl_cpu_rev[1].val = rdmsr(MSR_IA32_VMX_PROCBASED_CTLS2); 6336884af61SArthur Chunqi Li else 6346884af61SArthur Chunqi Li ctrl_cpu_rev[1].val = 0; 6356884af61SArthur Chunqi Li if ((ctrl_cpu_rev[1].clr & (CPU_EPT | CPU_VPID)) != 0) 6369d7eaa29SArthur Chunqi Li ept_vpid.val = rdmsr(MSR_IA32_VMX_EPT_VPID_CAP); 6376884af61SArthur Chunqi Li else 6386884af61SArthur Chunqi Li ept_vpid.val = 0; 6399d7eaa29SArthur Chunqi Li 6409d7eaa29SArthur Chunqi Li write_cr0((read_cr0() & fix_cr0_clr) | fix_cr0_set); 6419d7eaa29SArthur Chunqi Li write_cr4((read_cr4() & fix_cr4_clr) | fix_cr4_set | X86_CR4_VMXE); 6429d7eaa29SArthur Chunqi Li 6439d7eaa29SArthur Chunqi Li *vmxon_region = basic.revision; 6449d7eaa29SArthur Chunqi Li 6459d7eaa29SArthur Chunqi Li guest_stack = alloc_page(); 6469d7eaa29SArthur Chunqi Li memset(guest_stack, 0, PAGE_SIZE); 6479d7eaa29SArthur Chunqi Li guest_syscall_stack = alloc_page(); 6489d7eaa29SArthur Chunqi Li memset(guest_syscall_stack, 0, PAGE_SIZE); 6499d7eaa29SArthur Chunqi Li } 6509d7eaa29SArthur Chunqi Li 651e3f363c4SJan Kiszka static void do_vmxon_off(void *data) 6529d7eaa29SArthur Chunqi Li { 6533b127446SJan Kiszka vmx_on(); 6543b127446SJan Kiszka vmx_off(); 65503f37ef2SPaolo Bonzini } 6563b127446SJan Kiszka 657e3f363c4SJan Kiszka static void do_write_feature_control(void *data) 6583b127446SJan Kiszka { 6593b127446SJan Kiszka wrmsr(MSR_IA32_FEATURE_CONTROL, 0); 66003f37ef2SPaolo Bonzini } 6613b127446SJan Kiszka 6623b127446SJan Kiszka static int test_vmx_feature_control(void) 6633b127446SJan Kiszka { 6643b127446SJan Kiszka u64 ia32_feature_control; 6653b127446SJan Kiszka bool vmx_enabled; 6663b127446SJan Kiszka 6673b127446SJan Kiszka ia32_feature_control = rdmsr(MSR_IA32_FEATURE_CONTROL); 6683b127446SJan Kiszka vmx_enabled = ((ia32_feature_control & 0x5) == 0x5); 6693b127446SJan Kiszka if ((ia32_feature_control & 0x5) == 0x5) { 6703b127446SJan Kiszka printf("VMX enabled and locked by BIOS\n"); 6713b127446SJan Kiszka return 0; 6723b127446SJan Kiszka } else if (ia32_feature_control & 0x1) { 6733b127446SJan Kiszka printf("ERROR: VMX locked out by BIOS!?\n"); 6743b127446SJan Kiszka return 1; 6753b127446SJan Kiszka } 6763b127446SJan Kiszka 6773b127446SJan Kiszka wrmsr(MSR_IA32_FEATURE_CONTROL, 0); 6783b127446SJan Kiszka report("test vmxon with FEATURE_CONTROL cleared", 679e3f363c4SJan Kiszka test_for_exception(GP_VECTOR, &do_vmxon_off, NULL)); 6803b127446SJan Kiszka 6813b127446SJan Kiszka wrmsr(MSR_IA32_FEATURE_CONTROL, 0x4); 6823b127446SJan Kiszka report("test vmxon without FEATURE_CONTROL lock", 683e3f363c4SJan Kiszka test_for_exception(GP_VECTOR, &do_vmxon_off, NULL)); 6843b127446SJan Kiszka 6853b127446SJan Kiszka wrmsr(MSR_IA32_FEATURE_CONTROL, 0x5); 6863b127446SJan Kiszka vmx_enabled = ((rdmsr(MSR_IA32_FEATURE_CONTROL) & 0x5) == 0x5); 6873b127446SJan Kiszka report("test enable VMX in FEATURE_CONTROL", vmx_enabled); 6883b127446SJan Kiszka 6893b127446SJan Kiszka report("test FEATURE_CONTROL lock bit", 690e3f363c4SJan Kiszka test_for_exception(GP_VECTOR, &do_write_feature_control, NULL)); 6913b127446SJan Kiszka 6923b127446SJan Kiszka return !vmx_enabled; 6939d7eaa29SArthur Chunqi Li } 6949d7eaa29SArthur Chunqi Li 6959d7eaa29SArthur Chunqi Li static int test_vmxon(void) 6969d7eaa29SArthur Chunqi Li { 697ce21d809SBandan Das int ret, ret1; 698ce21d809SBandan Das u64 *tmp_region = vmxon_region; 699e2cf1c9dSEduardo Habkost int width = cpuid_maxphyaddr(); 7009d7eaa29SArthur Chunqi Li 701ce21d809SBandan Das /* Unaligned page access */ 702ce21d809SBandan Das vmxon_region = (u64 *)((intptr_t)vmxon_region + 1); 703ce21d809SBandan Das ret1 = vmx_on(); 704ce21d809SBandan Das report("test vmxon with unaligned vmxon region", ret1); 705ce21d809SBandan Das if (!ret1) { 706ce21d809SBandan Das ret = 1; 707ce21d809SBandan Das goto out; 708ce21d809SBandan Das } 709ce21d809SBandan Das 710ce21d809SBandan Das /* gpa bits beyond physical address width are set*/ 711ce21d809SBandan Das vmxon_region = (u64 *)((intptr_t)tmp_region | ((u64)1 << (width+1))); 712ce21d809SBandan Das ret1 = vmx_on(); 713ce21d809SBandan Das report("test vmxon with bits set beyond physical address width", ret1); 714ce21d809SBandan Das if (!ret1) { 715ce21d809SBandan Das ret = 1; 716ce21d809SBandan Das goto out; 717ce21d809SBandan Das } 718ce21d809SBandan Das 719ce21d809SBandan Das /* invalid revision indentifier */ 720ce21d809SBandan Das vmxon_region = tmp_region; 721ce21d809SBandan Das *vmxon_region = 0xba9da9; 722ce21d809SBandan Das ret1 = vmx_on(); 723ce21d809SBandan Das report("test vmxon with invalid revision identifier", ret1); 724ce21d809SBandan Das if (!ret1) { 725ce21d809SBandan Das ret = 1; 726ce21d809SBandan Das goto out; 727ce21d809SBandan Das } 728ce21d809SBandan Das 729ce21d809SBandan Das /* and finally a valid region */ 730ce21d809SBandan Das *vmxon_region = basic.revision; 7319d7eaa29SArthur Chunqi Li ret = vmx_on(); 732ce21d809SBandan Das report("test vmxon with valid vmxon region", !ret); 733ce21d809SBandan Das 734ce21d809SBandan Das out: 7359d7eaa29SArthur Chunqi Li return ret; 7369d7eaa29SArthur Chunqi Li } 7379d7eaa29SArthur Chunqi Li 7389d7eaa29SArthur Chunqi Li static void test_vmptrld(void) 7399d7eaa29SArthur Chunqi Li { 740daeec979SBandan Das struct vmcs *vmcs, *tmp_root; 741e2cf1c9dSEduardo Habkost int width = cpuid_maxphyaddr(); 7429d7eaa29SArthur Chunqi Li 7439d7eaa29SArthur Chunqi Li vmcs = alloc_page(); 7449d7eaa29SArthur Chunqi Li vmcs->revision_id = basic.revision; 745daeec979SBandan Das 746daeec979SBandan Das /* Unaligned page access */ 747daeec979SBandan Das tmp_root = (struct vmcs *)((intptr_t)vmcs + 1); 748daeec979SBandan Das report("test vmptrld with unaligned vmcs", 7499c305952SPaolo Bonzini make_vmcs_current(tmp_root) == 1); 750daeec979SBandan Das 751daeec979SBandan Das /* gpa bits beyond physical address width are set*/ 752daeec979SBandan Das tmp_root = (struct vmcs *)((intptr_t)vmcs | 753daeec979SBandan Das ((u64)1 << (width+1))); 754daeec979SBandan Das report("test vmptrld with vmcs address bits set beyond physical address width", 7559c305952SPaolo Bonzini make_vmcs_current(tmp_root) == 1); 756daeec979SBandan Das 757daeec979SBandan Das /* Pass VMXON region */ 758daeec979SBandan Das tmp_root = (struct vmcs *)vmxon_region; 759daeec979SBandan Das report("test vmptrld with vmxon region", 7609c305952SPaolo Bonzini make_vmcs_current(tmp_root) == 1); 761daeec979SBandan Das 762daeec979SBandan Das report("test vmptrld with valid vmcs region", make_vmcs_current(vmcs) == 0); 7639d7eaa29SArthur Chunqi Li } 7649d7eaa29SArthur Chunqi Li 7659d7eaa29SArthur Chunqi Li static void test_vmptrst(void) 7669d7eaa29SArthur Chunqi Li { 7679d7eaa29SArthur Chunqi Li int ret; 7689d7eaa29SArthur Chunqi Li struct vmcs *vmcs1, *vmcs2; 7699d7eaa29SArthur Chunqi Li 7709d7eaa29SArthur Chunqi Li vmcs1 = alloc_page(); 7719d7eaa29SArthur Chunqi Li memset(vmcs1, 0, PAGE_SIZE); 7729d7eaa29SArthur Chunqi Li init_vmcs(&vmcs1); 7739d7eaa29SArthur Chunqi Li ret = vmcs_save(&vmcs2); 7749d7eaa29SArthur Chunqi Li report("test vmptrst", (!ret) && (vmcs1 == vmcs2)); 7759d7eaa29SArthur Chunqi Li } 7769d7eaa29SArthur Chunqi Li 77769c8d31cSJan Kiszka struct vmx_ctl_msr { 77869c8d31cSJan Kiszka const char *name; 77969c8d31cSJan Kiszka u32 index, true_index; 78069c8d31cSJan Kiszka u32 default1; 78169c8d31cSJan Kiszka } vmx_ctl_msr[] = { 78269c8d31cSJan Kiszka { "MSR_IA32_VMX_PINBASED_CTLS", MSR_IA32_VMX_PINBASED_CTLS, 78369c8d31cSJan Kiszka MSR_IA32_VMX_TRUE_PIN, 0x16 }, 78469c8d31cSJan Kiszka { "MSR_IA32_VMX_PROCBASED_CTLS", MSR_IA32_VMX_PROCBASED_CTLS, 78569c8d31cSJan Kiszka MSR_IA32_VMX_TRUE_PROC, 0x401e172 }, 78669c8d31cSJan Kiszka { "MSR_IA32_VMX_PROCBASED_CTLS2", MSR_IA32_VMX_PROCBASED_CTLS2, 78769c8d31cSJan Kiszka MSR_IA32_VMX_PROCBASED_CTLS2, 0 }, 78869c8d31cSJan Kiszka { "MSR_IA32_VMX_EXIT_CTLS", MSR_IA32_VMX_EXIT_CTLS, 78969c8d31cSJan Kiszka MSR_IA32_VMX_TRUE_EXIT, 0x36dff }, 79069c8d31cSJan Kiszka { "MSR_IA32_VMX_ENTRY_CTLS", MSR_IA32_VMX_ENTRY_CTLS, 79169c8d31cSJan Kiszka MSR_IA32_VMX_TRUE_ENTRY, 0x11ff }, 79269c8d31cSJan Kiszka }; 79369c8d31cSJan Kiszka 79469c8d31cSJan Kiszka static void test_vmx_caps(void) 79569c8d31cSJan Kiszka { 79669c8d31cSJan Kiszka u64 val, default1, fixed0, fixed1; 79769c8d31cSJan Kiszka union vmx_ctrl_msr ctrl, true_ctrl; 79869c8d31cSJan Kiszka unsigned int n; 79969c8d31cSJan Kiszka bool ok; 80069c8d31cSJan Kiszka 80169c8d31cSJan Kiszka printf("\nTest suite: VMX capability reporting\n"); 80269c8d31cSJan Kiszka 80369c8d31cSJan Kiszka report("MSR_IA32_VMX_BASIC", 80469c8d31cSJan Kiszka (basic.revision & (1ul << 31)) == 0 && 80569c8d31cSJan Kiszka basic.size > 0 && basic.size <= 4096 && 80669c8d31cSJan Kiszka (basic.type == 0 || basic.type == 6) && 80769c8d31cSJan Kiszka basic.reserved1 == 0 && basic.reserved2 == 0); 80869c8d31cSJan Kiszka 80969c8d31cSJan Kiszka val = rdmsr(MSR_IA32_VMX_MISC); 81069c8d31cSJan Kiszka report("MSR_IA32_VMX_MISC", 81169c8d31cSJan Kiszka (!(ctrl_cpu_rev[1].clr & CPU_URG) || val & (1ul << 5)) && 81269c8d31cSJan Kiszka ((val >> 16) & 0x1ff) <= 256 && 81369c8d31cSJan Kiszka (val & 0xc0007e00) == 0); 81469c8d31cSJan Kiszka 81569c8d31cSJan Kiszka for (n = 0; n < ARRAY_SIZE(vmx_ctl_msr); n++) { 81669c8d31cSJan Kiszka ctrl.val = rdmsr(vmx_ctl_msr[n].index); 81769c8d31cSJan Kiszka default1 = vmx_ctl_msr[n].default1; 81869c8d31cSJan Kiszka ok = (ctrl.set & default1) == default1; 81969c8d31cSJan Kiszka ok = ok && (ctrl.set & ~ctrl.clr) == 0; 82069c8d31cSJan Kiszka if (ok && basic.ctrl) { 82169c8d31cSJan Kiszka true_ctrl.val = rdmsr(vmx_ctl_msr[n].true_index); 82269c8d31cSJan Kiszka ok = ctrl.clr == true_ctrl.clr; 82369c8d31cSJan Kiszka ok = ok && ctrl.set == (true_ctrl.set | default1); 82469c8d31cSJan Kiszka } 82569c8d31cSJan Kiszka report(vmx_ctl_msr[n].name, ok); 82669c8d31cSJan Kiszka } 82769c8d31cSJan Kiszka 82869c8d31cSJan Kiszka fixed0 = rdmsr(MSR_IA32_VMX_CR0_FIXED0); 82969c8d31cSJan Kiszka fixed1 = rdmsr(MSR_IA32_VMX_CR0_FIXED1); 83069c8d31cSJan Kiszka report("MSR_IA32_VMX_IA32_VMX_CR0_FIXED0/1", 83169c8d31cSJan Kiszka ((fixed0 ^ fixed1) & ~fixed1) == 0); 83269c8d31cSJan Kiszka 83369c8d31cSJan Kiszka fixed0 = rdmsr(MSR_IA32_VMX_CR4_FIXED0); 83469c8d31cSJan Kiszka fixed1 = rdmsr(MSR_IA32_VMX_CR4_FIXED1); 83569c8d31cSJan Kiszka report("MSR_IA32_VMX_IA32_VMX_CR4_FIXED0/1", 83669c8d31cSJan Kiszka ((fixed0 ^ fixed1) & ~fixed1) == 0); 83769c8d31cSJan Kiszka 83869c8d31cSJan Kiszka val = rdmsr(MSR_IA32_VMX_VMCS_ENUM); 83969c8d31cSJan Kiszka report("MSR_IA32_VMX_VMCS_ENUM", 84069c8d31cSJan Kiszka (val & 0x3e) >= 0x2a && 84169c8d31cSJan Kiszka (val & 0xfffffffffffffc01Ull) == 0); 84269c8d31cSJan Kiszka 84369c8d31cSJan Kiszka val = rdmsr(MSR_IA32_VMX_EPT_VPID_CAP); 84469c8d31cSJan Kiszka report("MSR_IA32_VMX_EPT_VPID_CAP", 84569c8d31cSJan Kiszka (val & 0xfffff07ef9eebebeUll) == 0); 84669c8d31cSJan Kiszka } 84769c8d31cSJan Kiszka 8489d7eaa29SArthur Chunqi Li /* This function can only be called in guest */ 8499d7eaa29SArthur Chunqi Li static void __attribute__((__used__)) hypercall(u32 hypercall_no) 8509d7eaa29SArthur Chunqi Li { 8519d7eaa29SArthur Chunqi Li u64 val = 0; 8529d7eaa29SArthur Chunqi Li val = (hypercall_no & HYPERCALL_MASK) | HYPERCALL_BIT; 8539d7eaa29SArthur Chunqi Li hypercall_field = val; 8549d7eaa29SArthur Chunqi Li asm volatile("vmcall\n\t"); 8559d7eaa29SArthur Chunqi Li } 8569d7eaa29SArthur Chunqi Li 8579d7eaa29SArthur Chunqi Li static bool is_hypercall() 8589d7eaa29SArthur Chunqi Li { 8599d7eaa29SArthur Chunqi Li ulong reason, hyper_bit; 8609d7eaa29SArthur Chunqi Li 8619d7eaa29SArthur Chunqi Li reason = vmcs_read(EXI_REASON) & 0xff; 8629d7eaa29SArthur Chunqi Li hyper_bit = hypercall_field & HYPERCALL_BIT; 8639d7eaa29SArthur Chunqi Li if (reason == VMX_VMCALL && hyper_bit) 8649d7eaa29SArthur Chunqi Li return true; 8659d7eaa29SArthur Chunqi Li return false; 8669d7eaa29SArthur Chunqi Li } 8679d7eaa29SArthur Chunqi Li 8689d7eaa29SArthur Chunqi Li static int handle_hypercall() 8699d7eaa29SArthur Chunqi Li { 8709d7eaa29SArthur Chunqi Li ulong hypercall_no; 8719d7eaa29SArthur Chunqi Li 8729d7eaa29SArthur Chunqi Li hypercall_no = hypercall_field & HYPERCALL_MASK; 8739d7eaa29SArthur Chunqi Li hypercall_field = 0; 8749d7eaa29SArthur Chunqi Li switch (hypercall_no) { 8759d7eaa29SArthur Chunqi Li case HYPERCALL_VMEXIT: 8769d7eaa29SArthur Chunqi Li return VMX_TEST_VMEXIT; 8779d7eaa29SArthur Chunqi Li default: 878b006d7ebSAndrew Jones printf("ERROR : Invalid hypercall number : %ld\n", hypercall_no); 8799d7eaa29SArthur Chunqi Li } 8809d7eaa29SArthur Chunqi Li return VMX_TEST_EXIT; 8819d7eaa29SArthur Chunqi Li } 8829d7eaa29SArthur Chunqi Li 8839d7eaa29SArthur Chunqi Li static int exit_handler() 8849d7eaa29SArthur Chunqi Li { 8859d7eaa29SArthur Chunqi Li int ret; 8869d7eaa29SArthur Chunqi Li 8879d7eaa29SArthur Chunqi Li current->exits++; 8881d9284d0SArthur Chunqi Li regs.rflags = vmcs_read(GUEST_RFLAGS); 8899d7eaa29SArthur Chunqi Li if (is_hypercall()) 8909d7eaa29SArthur Chunqi Li ret = handle_hypercall(); 8919d7eaa29SArthur Chunqi Li else 8929d7eaa29SArthur Chunqi Li ret = current->exit_handler(); 8931d9284d0SArthur Chunqi Li vmcs_write(GUEST_RFLAGS, regs.rflags); 8949d7eaa29SArthur Chunqi Li switch (ret) { 8959d7eaa29SArthur Chunqi Li case VMX_TEST_VMEXIT: 8969d7eaa29SArthur Chunqi Li case VMX_TEST_RESUME: 8979d7eaa29SArthur Chunqi Li return ret; 8989d7eaa29SArthur Chunqi Li case VMX_TEST_EXIT: 8999d7eaa29SArthur Chunqi Li break; 9009d7eaa29SArthur Chunqi Li default: 9019d7eaa29SArthur Chunqi Li printf("ERROR : Invalid exit_handler return val %d.\n" 9029d7eaa29SArthur Chunqi Li , ret); 9039d7eaa29SArthur Chunqi Li } 9049d7eaa29SArthur Chunqi Li print_vmexit_info(); 905a2b7c499SAndrew Jones abort(); 9069d7eaa29SArthur Chunqi Li return 0; 9079d7eaa29SArthur Chunqi Li } 9089d7eaa29SArthur Chunqi Li 9099d7eaa29SArthur Chunqi Li static int vmx_run() 9109d7eaa29SArthur Chunqi Li { 9119d7eaa29SArthur Chunqi Li u32 ret = 0, fail = 0; 9129d7eaa29SArthur Chunqi Li 9139d7eaa29SArthur Chunqi Li while (1) { 9149d7eaa29SArthur Chunqi Li asm volatile ( 9159d7eaa29SArthur Chunqi Li "mov %%rsp, %%rsi\n\t" 9169d7eaa29SArthur Chunqi Li "mov %2, %%rdi\n\t" 9179d7eaa29SArthur Chunqi Li "vmwrite %%rsi, %%rdi\n\t" 9189d7eaa29SArthur Chunqi Li 9199d7eaa29SArthur Chunqi Li LOAD_GPR_C 9209d7eaa29SArthur Chunqi Li "cmpl $0, %1\n\t" 9219d7eaa29SArthur Chunqi Li "jne 1f\n\t" 9229d7eaa29SArthur Chunqi Li LOAD_RFLAGS 9239d7eaa29SArthur Chunqi Li "vmlaunch\n\t" 9249d7eaa29SArthur Chunqi Li "jmp 2f\n\t" 9259d7eaa29SArthur Chunqi Li "1: " 9269d7eaa29SArthur Chunqi Li "vmresume\n\t" 9279d7eaa29SArthur Chunqi Li "2: " 928*f37cf4e2SPeter Feiner SAVE_GPR_C 9299d7eaa29SArthur Chunqi Li "setbe %0\n\t" 930*f37cf4e2SPeter Feiner "jmp 3f\n\t" 9319d7eaa29SArthur Chunqi Li "vmx_return:\n\t" 9329d7eaa29SArthur Chunqi Li SAVE_GPR_C 933*f37cf4e2SPeter Feiner "3: \n\t" 9349d7eaa29SArthur Chunqi Li SAVE_RFLAGS 935*f37cf4e2SPeter Feiner : "+m"(fail) 9369d7eaa29SArthur Chunqi Li : "m"(launched), "i"(HOST_RSP) 9379d7eaa29SArthur Chunqi Li : "rdi", "rsi", "memory", "cc" 9389d7eaa29SArthur Chunqi Li 9399d7eaa29SArthur Chunqi Li ); 9409d7eaa29SArthur Chunqi Li if (fail) 9419d7eaa29SArthur Chunqi Li ret = launched ? VMX_TEST_RESUME_ERR : 9429d7eaa29SArthur Chunqi Li VMX_TEST_LAUNCH_ERR; 9439d7eaa29SArthur Chunqi Li else { 9449d7eaa29SArthur Chunqi Li launched = 1; 9459d7eaa29SArthur Chunqi Li ret = exit_handler(); 9469d7eaa29SArthur Chunqi Li } 9479d7eaa29SArthur Chunqi Li if (ret != VMX_TEST_RESUME) 9489d7eaa29SArthur Chunqi Li break; 9499d7eaa29SArthur Chunqi Li } 9509d7eaa29SArthur Chunqi Li launched = 0; 9519d7eaa29SArthur Chunqi Li switch (ret) { 9529d7eaa29SArthur Chunqi Li case VMX_TEST_VMEXIT: 9539d7eaa29SArthur Chunqi Li return 0; 9549d7eaa29SArthur Chunqi Li case VMX_TEST_LAUNCH_ERR: 9559d7eaa29SArthur Chunqi Li printf("%s : vmlaunch failed.\n", __func__); 9561d9284d0SArthur Chunqi Li if ((!(host_rflags & X86_EFLAGS_CF) && !(host_rflags & X86_EFLAGS_ZF)) 9571d9284d0SArthur Chunqi Li || ((host_rflags & X86_EFLAGS_CF) && (host_rflags & X86_EFLAGS_ZF))) 9589d7eaa29SArthur Chunqi Li printf("\tvmlaunch set wrong flags\n"); 9599d7eaa29SArthur Chunqi Li report("test vmlaunch", 0); 9609d7eaa29SArthur Chunqi Li break; 9619d7eaa29SArthur Chunqi Li case VMX_TEST_RESUME_ERR: 9629d7eaa29SArthur Chunqi Li printf("%s : vmresume failed.\n", __func__); 9631d9284d0SArthur Chunqi Li if ((!(host_rflags & X86_EFLAGS_CF) && !(host_rflags & X86_EFLAGS_ZF)) 9641d9284d0SArthur Chunqi Li || ((host_rflags & X86_EFLAGS_CF) && (host_rflags & X86_EFLAGS_ZF))) 9659d7eaa29SArthur Chunqi Li printf("\tvmresume set wrong flags\n"); 9669d7eaa29SArthur Chunqi Li report("test vmresume", 0); 9679d7eaa29SArthur Chunqi Li break; 9689d7eaa29SArthur Chunqi Li default: 9699d7eaa29SArthur Chunqi Li printf("%s : unhandled ret from exit_handler, ret=%d.\n", __func__, ret); 9709d7eaa29SArthur Chunqi Li break; 9719d7eaa29SArthur Chunqi Li } 9729d7eaa29SArthur Chunqi Li return 1; 9739d7eaa29SArthur Chunqi Li } 9749d7eaa29SArthur Chunqi Li 9759d7eaa29SArthur Chunqi Li static int test_run(struct vmx_test *test) 9769d7eaa29SArthur Chunqi Li { 9779d7eaa29SArthur Chunqi Li if (test->name == NULL) 9789d7eaa29SArthur Chunqi Li test->name = "(no name)"; 9799d7eaa29SArthur Chunqi Li if (vmx_on()) { 9809d7eaa29SArthur Chunqi Li printf("%s : vmxon failed.\n", __func__); 9819d7eaa29SArthur Chunqi Li return 1; 9829d7eaa29SArthur Chunqi Li } 9839d7eaa29SArthur Chunqi Li init_vmcs(&(test->vmcs)); 9849d7eaa29SArthur Chunqi Li /* Directly call test->init is ok here, init_vmcs has done 9859d7eaa29SArthur Chunqi Li vmcs init, vmclear and vmptrld*/ 986c592c151SJan Kiszka if (test->init && test->init(test->vmcs) != VMX_TEST_START) 987a0e30e71SPaolo Bonzini goto out; 9889d7eaa29SArthur Chunqi Li test->exits = 0; 9899d7eaa29SArthur Chunqi Li current = test; 9909d7eaa29SArthur Chunqi Li regs = test->guest_regs; 9919d7eaa29SArthur Chunqi Li vmcs_write(GUEST_RFLAGS, regs.rflags | 0x2); 9929d7eaa29SArthur Chunqi Li launched = 0; 9939d7eaa29SArthur Chunqi Li printf("\nTest suite: %s\n", test->name); 9949d7eaa29SArthur Chunqi Li vmx_run(); 995a0e30e71SPaolo Bonzini out: 9969d7eaa29SArthur Chunqi Li if (vmx_off()) { 9979d7eaa29SArthur Chunqi Li printf("%s : vmxoff failed.\n", __func__); 9989d7eaa29SArthur Chunqi Li return 1; 9999d7eaa29SArthur Chunqi Li } 10009d7eaa29SArthur Chunqi Li return 0; 10019d7eaa29SArthur Chunqi Li } 10029d7eaa29SArthur Chunqi Li 10033ee34093SArthur Chunqi Li extern struct vmx_test vmx_tests[]; 10049d7eaa29SArthur Chunqi Li 10059d7eaa29SArthur Chunqi Li int main(void) 10069d7eaa29SArthur Chunqi Li { 10073ee34093SArthur Chunqi Li int i = 0; 10089d7eaa29SArthur Chunqi Li 10099d7eaa29SArthur Chunqi Li setup_vm(); 10109d7eaa29SArthur Chunqi Li setup_idt(); 10113ee34093SArthur Chunqi Li hypercall_field = 0; 10129d7eaa29SArthur Chunqi Li 10133b127446SJan Kiszka if (!(cpuid(1).c & (1 << 5))) { 10143b127446SJan Kiszka printf("WARNING: vmx not supported, add '-cpu host'\n"); 10159d7eaa29SArthur Chunqi Li goto exit; 10169d7eaa29SArthur Chunqi Li } 10179d7eaa29SArthur Chunqi Li init_vmx(); 10183b127446SJan Kiszka if (test_vmx_feature_control() != 0) 10193b127446SJan Kiszka goto exit; 10209d7eaa29SArthur Chunqi Li /* Set basic test ctxt the same as "null" */ 10219d7eaa29SArthur Chunqi Li current = &vmx_tests[0]; 10229d7eaa29SArthur Chunqi Li if (test_vmxon() != 0) 10239d7eaa29SArthur Chunqi Li goto exit; 10249d7eaa29SArthur Chunqi Li test_vmptrld(); 10259d7eaa29SArthur Chunqi Li test_vmclear(); 10269d7eaa29SArthur Chunqi Li test_vmptrst(); 10279d7eaa29SArthur Chunqi Li init_vmcs(&vmcs_root); 10289d7eaa29SArthur Chunqi Li if (vmx_run()) { 10299d7eaa29SArthur Chunqi Li report("test vmlaunch", 0); 10309d7eaa29SArthur Chunqi Li goto exit; 10319d7eaa29SArthur Chunqi Li } 10329d7eaa29SArthur Chunqi Li test_vmxoff(); 103369c8d31cSJan Kiszka test_vmx_caps(); 10349d7eaa29SArthur Chunqi Li 10353ee34093SArthur Chunqi Li while (vmx_tests[++i].name != NULL) 10369d7eaa29SArthur Chunqi Li if (test_run(&vmx_tests[i])) 10379d7eaa29SArthur Chunqi Li goto exit; 10389d7eaa29SArthur Chunqi Li 10399d7eaa29SArthur Chunqi Li exit: 1040f3cdd159SJan Kiszka return report_summary(); 10419d7eaa29SArthur Chunqi Li } 1042