#include "ioram.h" #include "vm.h" #include "libcflat.h" #include "desc.h" #include "types.h" #include "processor.h" #define memset __builtin_memset #define TESTDEV_IO_PORT 0xe0 static int exceptions; struct regs { u64 rax, rbx, rcx, rdx; u64 rsi, rdi, rsp, rbp; u64 r8, r9, r10, r11; u64 r12, r13, r14, r15; u64 rip, rflags; }; struct regs inregs, outregs, save; struct insn_desc { u64 ptr; size_t len; }; static char st1[] = "abcdefghijklmnop"; void test_stringio() { unsigned char r = 0; asm volatile("cld \n\t" "movw %0, %%dx \n\t" "rep outsb \n\t" : : "i"((short)TESTDEV_IO_PORT), "S"(st1), "c"(sizeof(st1) - 1)); asm volatile("inb %1, %0\n\t" : "=a"(r) : "i"((short)TESTDEV_IO_PORT)); report("outsb up", r == st1[sizeof(st1) - 2]); /* last char */ asm volatile("std \n\t" "movw %0, %%dx \n\t" "rep outsb \n\t" : : "i"((short)TESTDEV_IO_PORT), "S"(st1 + sizeof(st1) - 2), "c"(sizeof(st1) - 1)); asm volatile("cld \n\t" : : ); asm volatile("in %1, %0\n\t" : "=a"(r) : "i"((short)TESTDEV_IO_PORT)); report("outsb down", r == st1[0]); } void test_cmps_one(unsigned char *m1, unsigned char *m3) { void *rsi, *rdi; long rcx, tmp; rsi = m1; rdi = m3; rcx = 30; asm volatile("xor %[tmp], %[tmp] \n\t" "repe/cmpsb" : "+S"(rsi), "+D"(rdi), "+c"(rcx), [tmp]"=&r"(tmp) : : "cc"); report("repe/cmpsb (1)", rcx == 0 && rsi == m1 + 30 && rdi == m3 + 30); rsi = m1; rdi = m3; rcx = 30; asm volatile("or $1, %[tmp]\n\t" // clear ZF "repe/cmpsb" : "+S"(rsi), "+D"(rdi), "+c"(rcx), [tmp]"=&r"(tmp) : : "cc"); report("repe/cmpsb (1.zf)", rcx == 0 && rsi == m1 + 30 && rdi == m3 + 30); rsi = m1; rdi = m3; rcx = 15; asm volatile("xor %[tmp], %[tmp] \n\t" "repe/cmpsw" : "+S"(rsi), "+D"(rdi), "+c"(rcx), [tmp]"=&r"(tmp) : : "cc"); report("repe/cmpsw (1)", rcx == 0 && rsi == m1 + 30 && rdi == m3 + 30); rsi = m1; rdi = m3; rcx = 7; asm volatile("xor %[tmp], %[tmp] \n\t" "repe/cmpsl" : "+S"(rsi), "+D"(rdi), "+c"(rcx), [tmp]"=&r"(tmp) : : "cc"); report("repe/cmpll (1)", rcx == 0 && rsi == m1 + 28 && rdi == m3 + 28); rsi = m1; rdi = m3; rcx = 4; asm volatile("xor %[tmp], %[tmp] \n\t" "repe/cmpsq" : "+S"(rsi), "+D"(rdi), "+c"(rcx), [tmp]"=&r"(tmp) : : "cc"); report("repe/cmpsq (1)", rcx == 0 && rsi == m1 + 32 && rdi == m3 + 32); rsi = m1; rdi = m3; rcx = 130; asm volatile("xor %[tmp], %[tmp] \n\t" "repe/cmpsb" : "+S"(rsi), "+D"(rdi), "+c"(rcx), [tmp]"=&r"(tmp) : : "cc"); report("repe/cmpsb (2)", rcx == 29 && rsi == m1 + 101 && rdi == m3 + 101); rsi = m1; rdi = m3; rcx = 65; asm volatile("xor %[tmp], %[tmp] \n\t" "repe/cmpsw" : "+S"(rsi), "+D"(rdi), "+c"(rcx), [tmp]"=&r"(tmp) : : "cc"); report("repe/cmpsw (2)", rcx == 14 && rsi == m1 + 102 && rdi == m3 + 102); rsi = m1; rdi = m3; rcx = 32; asm volatile("xor %[tmp], %[tmp] \n\t" "repe/cmpsl" : "+S"(rsi), "+D"(rdi), "+c"(rcx), [tmp]"=&r"(tmp) : : "cc"); report("repe/cmpll (2)", rcx == 6 && rsi == m1 + 104 && rdi == m3 + 104); rsi = m1; rdi = m3; rcx = 16; asm volatile("xor %[tmp], %[tmp] \n\t" "repe/cmpsq" : "+S"(rsi), "+D"(rdi), "+c"(rcx), [tmp]"=&r"(tmp) : : "cc"); report("repe/cmpsq (2)", rcx == 3 && rsi == m1 + 104 && rdi == m3 + 104); } void test_cmps(void *mem) { unsigned char *m1 = mem, *m2 = mem + 1024; unsigned char m3[1024]; for (int i = 0; i < 100; ++i) m1[i] = m2[i] = m3[i] = i; for (int i = 100; i < 200; ++i) m1[i] = (m3[i] = m2[i] = i) + 1; test_cmps_one(m1, m3); test_cmps_one(m1, m2); } void test_scas(void *mem) { bool z; void *di; *(ulong *)mem = 0x77665544332211; di = mem; asm ("scasb; setz %0" : "=rm"(z), "+D"(di) : "a"(0xff11)); report("scasb match", di == mem + 1 && z); di = mem; asm ("scasb; setz %0" : "=rm"(z), "+D"(di) : "a"(0xff54)); report("scasb mismatch", di == mem + 1 && !z); di = mem; asm ("scasw; setz %0" : "=rm"(z), "+D"(di) : "a"(0xff2211)); report("scasw match", di == mem + 2 && z); di = mem; asm ("scasw; setz %0" : "=rm"(z), "+D"(di) : "a"(0xffdd11)); report("scasw mismatch", di == mem + 2 && !z); di = mem; asm ("scasl; setz %0" : "=rm"(z), "+D"(di) : "a"(0xff44332211ul)); report("scasd match", di == mem + 4 && z); di = mem; asm ("scasl; setz %0" : "=rm"(z), "+D"(di) : "a"(0x45332211)); report("scasd mismatch", di == mem + 4 && !z); di = mem; asm ("scasq; setz %0" : "=rm"(z), "+D"(di) : "a"(0x77665544332211ul)); report("scasq match", di == mem + 8 && z); di = mem; asm ("scasq; setz %0" : "=rm"(z), "+D"(di) : "a"(3)); report("scasq mismatch", di == mem + 8 && !z); } void test_cr8(void) { unsigned long src, dst; dst = 777; src = 3; asm volatile("mov %[src], %%cr8; mov %%cr8, %[dst]" : [dst]"+r"(dst), [src]"+r"(src)); report("mov %%cr8", dst == 3 && src == 3); } void test_push(void *mem) { unsigned long tmp; unsigned long *stack_top = mem + 4096; unsigned long *new_stack_top; unsigned long memw = 0x123456789abcdeful; memset(mem, 0x55, (void *)stack_top - mem); asm volatile("mov %%rsp, %[tmp] \n\t" "mov %[stack_top], %%rsp \n\t" "pushq $-7 \n\t" "pushq %[reg] \n\t" "pushq (%[mem]) \n\t" "pushq $-7070707 \n\t" "mov %%rsp, %[new_stack_top] \n\t" "mov %[tmp], %%rsp" : [tmp]"=&r"(tmp), [new_stack_top]"=r"(new_stack_top) : [stack_top]"r"(stack_top), [reg]"r"(-17l), [mem]"r"(&memw) : "memory"); report("push $imm8", stack_top[-1] == -7ul); report("push %%reg", stack_top[-2] == -17ul); report("push mem", stack_top[-3] == 0x123456789abcdeful); report("push $imm", stack_top[-4] == -7070707); } void test_pop(void *mem) { unsigned long tmp, tmp3, rsp, rbp; unsigned long *stack_top = mem + 4096; unsigned long memw = 0x123456789abcdeful; static unsigned long tmp2; memset(mem, 0x55, (void *)stack_top - mem); asm volatile("pushq %[val] \n\t" "popq (%[mem])" : : [val]"m"(memw), [mem]"r"(mem) : "memory"); report("pop mem", *(unsigned long *)mem == memw); memw = 7 - memw; asm volatile("mov %%rsp, %[tmp] \n\t" "mov %[stack_top], %%rsp \n\t" "pushq %[val] \n\t" "popq %[tmp2] \n\t" "mov %[tmp], %%rsp" : [tmp]"=&r"(tmp), [tmp2]"=m"(tmp2) : [val]"r"(memw), [stack_top]"r"(stack_top) : "memory"); report("pop mem (2)", tmp2 == memw); memw = 129443 - memw; asm volatile("mov %%rsp, %[tmp] \n\t" "mov %[stack_top], %%rsp \n\t" "pushq %[val] \n\t" "popq %[tmp2] \n\t" "mov %[tmp], %%rsp" : [tmp]"=&r"(tmp), [tmp2]"=r"(tmp2) : [val]"r"(memw), [stack_top]"r"(stack_top) : "memory"); report("pop reg", tmp2 == memw); asm volatile("mov %%rsp, %[tmp] \n\t" "mov %[stack_top], %%rsp \n\t" "push $1f \n\t" "ret \n\t" "2: jmp 2b \n\t" "1: mov %[tmp], %%rsp" : [tmp]"=&r"(tmp) : [stack_top]"r"(stack_top) : "memory"); report("ret", 1); stack_top[-1] = 0x778899; asm volatile("mov %[stack_top], %%r8 \n\t" "mov %%rsp, %%r9 \n\t" "xchg %%rbp, %%r8 \n\t" "leave \n\t" "xchg %%rsp, %%r9 \n\t" "xchg %%rbp, %%r8 \n\t" "mov %%r9, %[tmp] \n\t" "mov %%r8, %[tmp3]" : [tmp]"=&r"(tmp), [tmp3]"=&r"(tmp3) : [stack_top]"r"(stack_top-1) : "memory", "r8", "r9"); report("leave", tmp == (ulong)stack_top && tmp3 == 0x778899); rbp = 0xaa55aa55bb66bb66ULL; rsp = (unsigned long)stack_top; asm volatile("mov %[rsp], %%r8 \n\t" "mov %[rbp], %%r9 \n\t" "xchg %%rsp, %%r8 \n\t" "xchg %%rbp, %%r9 \n\t" "enter $0x1238, $0 \n\t" "xchg %%rsp, %%r8 \n\t" "xchg %%rbp, %%r9 \n\t" "xchg %%r8, %[rsp] \n\t" "xchg %%r9, %[rbp]" : [rsp]"+a"(rsp), [rbp]"+b"(rbp) : : "memory", "r8", "r9"); report("enter", rsp == (unsigned long)stack_top - 8 - 0x1238 && rbp == (unsigned long)stack_top - 8 && stack_top[-1] == 0xaa55aa55bb66bb66ULL); } void test_ljmp(void *mem) { unsigned char *m = mem; volatile int res = 1; *(unsigned long**)m = &&jmpf; asm volatile ("data16/mov %%cs, %0":"=m"(*(m + sizeof(unsigned long)))); asm volatile ("rex64/ljmp *%0"::"m"(*m)); res = 0; jmpf: report("ljmp", res); } void test_incdecnotneg(void *mem) { unsigned long *m = mem, v = 1234; unsigned char *mb = mem, vb = 66; *m = 0; asm volatile ("incl %0":"+m"(*m)); report("incl", *m == 1); asm volatile ("decl %0":"+m"(*m)); report("decl", *m == 0); asm volatile ("incb %0":"+m"(*m)); report("incb", *m == 1); asm volatile ("decb %0":"+m"(*m)); report("decb", *m == 0); asm volatile ("lock incl %0":"+m"(*m)); report("lock incl", *m == 1); asm volatile ("lock decl %0":"+m"(*m)); report("lock decl", *m == 0); asm volatile ("lock incb %0":"+m"(*m)); report("lock incb", *m == 1); asm volatile ("lock decb %0":"+m"(*m)); report("lock decb", *m == 0); *m = v; asm ("lock negq %0" : "+m"(*m)); v = -v; report("lock negl", *m == v); asm ("lock notq %0" : "+m"(*m)); v = ~v; report("lock notl", *m == v); *mb = vb; asm ("lock negb %0" : "+m"(*mb)); vb = -vb; report("lock negb", *mb == vb); asm ("lock notb %0" : "+m"(*mb)); vb = ~vb; report("lock notb", *mb == vb); } void test_smsw(uint64_t *h_mem) { char mem[16]; unsigned short msw, msw_orig, *pmsw; int i, zero; msw_orig = read_cr0(); asm("smsw %0" : "=r"(msw)); report("smsw (1)", msw == msw_orig); memset(mem, 0, 16); pmsw = (void *)mem; asm("smsw %0" : "=m"(pmsw[4])); zero = 1; for (i = 0; i < 8; ++i) if (i != 4 && pmsw[i]) zero = 0; report("smsw (2)", msw == pmsw[4] && zero); /* Trigger exit on smsw */ *h_mem = 0x12345678abcdeful; asm volatile("smsw %0" : "+m"(*h_mem)); report("smsw (3)", msw == (unsigned short)*h_mem && (*h_mem & ~0xfffful) == 0x12345678ab0000ul); } void test_lmsw(void) { char mem[16]; unsigned short msw, *pmsw; unsigned long cr0; cr0 = read_cr0(); msw = cr0 ^ 8; asm("lmsw %0" : : "r"(msw)); printf("before %lx after %lx\n", cr0, read_cr0()); report("lmsw (1)", (cr0 ^ read_cr0()) == 8); pmsw = (void *)mem; *pmsw = cr0; asm("lmsw %0" : : "m"(*pmsw)); printf("before %lx after %lx\n", cr0, read_cr0()); report("lmsw (2)", cr0 == read_cr0()); /* lmsw can't clear cr0.pe */ msw = (cr0 & ~1ul) ^ 4; /* change EM to force trap */ asm("lmsw %0" : : "r"(msw)); report("lmsw (3)", (cr0 ^ read_cr0()) == 4 && (cr0 & 1)); /* back to normal */ msw = cr0; asm("lmsw %0" : : "r"(msw)); } void test_xchg(void *mem) { unsigned long *memq = mem; unsigned long rax; asm volatile("mov $0x123456789abcdef, %%rax\n\t" "mov %%rax, (%[memq])\n\t" "mov $0xfedcba9876543210, %%rax\n\t" "xchg %%al, (%[memq])\n\t" "mov %%rax, %[rax]\n\t" : [rax]"=r"(rax) : [memq]"r"(memq) : "memory", "rax"); report("xchg reg, r/m (1)", rax == 0xfedcba98765432ef && *memq == 0x123456789abcd10); asm volatile("mov $0x123456789abcdef, %%rax\n\t" "mov %%rax, (%[memq])\n\t" "mov $0xfedcba9876543210, %%rax\n\t" "xchg %%ax, (%[memq])\n\t" "mov %%rax, %[rax]\n\t" : [rax]"=r"(rax) : [memq]"r"(memq) : "memory", "rax"); report("xchg reg, r/m (2)", rax == 0xfedcba987654cdef && *memq == 0x123456789ab3210); asm volatile("mov $0x123456789abcdef, %%rax\n\t" "mov %%rax, (%[memq])\n\t" "mov $0xfedcba9876543210, %%rax\n\t" "xchg %%eax, (%[memq])\n\t" "mov %%rax, %[rax]\n\t" : [rax]"=r"(rax) : [memq]"r"(memq) : "memory", "rax"); report("xchg reg, r/m (3)", rax == 0x89abcdef && *memq == 0x123456776543210); asm volatile("mov $0x123456789abcdef, %%rax\n\t" "mov %%rax, (%[memq])\n\t" "mov $0xfedcba9876543210, %%rax\n\t" "xchg %%rax, (%[memq])\n\t" "mov %%rax, %[rax]\n\t" : [rax]"=r"(rax) : [memq]"r"(memq) : "memory", "rax"); report("xchg reg, r/m (4)", rax == 0x123456789abcdef && *memq == 0xfedcba9876543210); } void test_xadd(void *mem) { unsigned long *memq = mem; unsigned long rax; asm volatile("mov $0x123456789abcdef, %%rax\n\t" "mov %%rax, (%[memq])\n\t" "mov $0xfedcba9876543210, %%rax\n\t" "xadd %%al, (%[memq])\n\t" "mov %%rax, %[rax]\n\t" : [rax]"=r"(rax) : [memq]"r"(memq) : "memory", "rax"); report("xadd reg, r/m (1)", rax == 0xfedcba98765432ef && *memq == 0x123456789abcdff); asm volatile("mov $0x123456789abcdef, %%rax\n\t" "mov %%rax, (%[memq])\n\t" "mov $0xfedcba9876543210, %%rax\n\t" "xadd %%ax, (%[memq])\n\t" "mov %%rax, %[rax]\n\t" : [rax]"=r"(rax) : [memq]"r"(memq) : "memory", "rax"); report("xadd reg, r/m (2)", rax == 0xfedcba987654cdef && *memq == 0x123456789abffff); asm volatile("mov $0x123456789abcdef, %%rax\n\t" "mov %%rax, (%[memq])\n\t" "mov $0xfedcba9876543210, %%rax\n\t" "xadd %%eax, (%[memq])\n\t" "mov %%rax, %[rax]\n\t" : [rax]"=r"(rax) : [memq]"r"(memq) : "memory", "rax"); report("xadd reg, r/m (3)", rax == 0x89abcdef && *memq == 0x1234567ffffffff); asm volatile("mov $0x123456789abcdef, %%rax\n\t" "mov %%rax, (%[memq])\n\t" "mov $0xfedcba9876543210, %%rax\n\t" "xadd %%rax, (%[memq])\n\t" "mov %%rax, %[rax]\n\t" : [rax]"=r"(rax) : [memq]"r"(memq) : "memory", "rax"); report("xadd reg, r/m (4)", rax == 0x123456789abcdef && *memq == 0xffffffffffffffff); } void test_btc(void *mem) { unsigned int *a = mem; memset(mem, 0, 4 * sizeof(unsigned int)); asm ("btcl $32, %0" :: "m"(a[0]) : "memory"); asm ("btcl $1, %0" :: "m"(a[1]) : "memory"); asm ("btcl %1, %0" :: "m"(a[0]), "r"(66) : "memory"); report("btcl imm8, r/m", a[0] == 1 && a[1] == 2 && a[2] == 4); asm ("btcl %1, %0" :: "m"(a[3]), "r"(-1) : "memory"); report("btcl reg, r/m", a[0] == 1 && a[1] == 2 && a[2] == 0x80000004); asm ("btcq %1, %0" : : "m"(a[2]), "r"(-1l) : "memory"); report("btcq reg, r/m", a[0] == 1 && a[1] == 0x80000002 && a[2] == 0x80000004 && a[3] == 0); } void test_bsfbsr(void *mem) { unsigned long rax, *memq = mem; unsigned eax, *meml = mem; unsigned short ax, *memw = mem; unsigned char z; *memw = 0xc000; asm("bsfw %[mem], %[a]" : [a]"=a"(ax) : [mem]"m"(*memw)); report("bsfw r/m, reg", ax == 14); *meml = 0xc0000000; asm("bsfl %[mem], %[a]" : [a]"=a"(eax) : [mem]"m"(*meml)); report("bsfl r/m, reg", eax == 30); *memq = 0xc00000000000; asm("bsfq %[mem], %[a]" : [a]"=a"(rax) : [mem]"m"(*memq)); report("bsfq r/m, reg", rax == 46); *memq = 0; asm("bsfq %[mem], %[a]; setz %[z]" : [a]"=a"(rax), [z]"=rm"(z) : [mem]"m"(*memq)); report("bsfq r/m, reg", z == 1); *memw = 0xc000; asm("bsrw %[mem], %[a]" : [a]"=a"(ax) : [mem]"m"(*memw)); report("bsrw r/m, reg", ax == 15); *meml = 0xc0000000; asm("bsrl %[mem], %[a]" : [a]"=a"(eax) : [mem]"m"(*meml)); report("bsrl r/m, reg", eax == 31); *memq = 0xc00000000000; asm("bsrq %[mem], %[a]" : [a]"=a"(rax) : [mem]"m"(*memq)); report("bsrq r/m, reg", rax == 47); *memq = 0; asm("bsrq %[mem], %[a]; setz %[z]" : [a]"=a"(rax), [z]"=rm"(z) : [mem]"m"(*memq)); report("bsrq r/m, reg", z == 1); } static void test_imul(ulong *mem) { ulong a; *mem = 51; a = 0x1234567812345678UL; asm ("imulw %1, %%ax" : "+a"(a) : "m"(*mem)); report("imul ax, mem", a == 0x12345678123439e8); *mem = 51; a = 0x1234567812345678UL; asm ("imull %1, %%eax" : "+a"(a) : "m"(*mem)); report("imul eax, mem", a == 0xa06d39e8); *mem = 51; a = 0x1234567812345678UL; asm ("imulq %1, %%rax" : "+a"(a) : "m"(*mem)); report("imul rax, mem", a == 0xA06D39EBA06D39E8UL); *mem = 0x1234567812345678UL; a = 0x8765432187654321L; asm ("imulw $51, %1, %%ax" : "+a"(a) : "m"(*mem)); report("imul ax, mem, imm8", a == 0x87654321876539e8); *mem = 0x1234567812345678UL; asm ("imull $51, %1, %%eax" : "+a"(a) : "m"(*mem)); report("imul eax, mem, imm8", a == 0xa06d39e8); *mem = 0x1234567812345678UL; asm ("imulq $51, %1, %%rax" : "+a"(a) : "m"(*mem)); report("imul rax, mem, imm8", a == 0xA06D39EBA06D39E8UL); *mem = 0x1234567812345678UL; a = 0x8765432187654321L; asm ("imulw $311, %1, %%ax" : "+a"(a) : "m"(*mem)); report("imul ax, mem, imm", a == 0x8765432187650bc8); *mem = 0x1234567812345678UL; asm ("imull $311, %1, %%eax" : "+a"(a) : "m"(*mem)); report("imul eax, mem, imm", a == 0x1d950bc8); *mem = 0x1234567812345678UL; asm ("imulq $311, %1, %%rax" : "+a"(a) : "m"(*mem)); report("imul rax, mem, imm", a == 0x1D950BDE1D950BC8L); } static void test_muldiv(long *mem) { long a, d, aa, dd; u8 ex = 1; *mem = 0; a = 1; d = 2; asm (ASM_TRY("1f") "divq %3; movb $0, %2; 1:" : "+a"(a), "+d"(d), "+q"(ex) : "m"(*mem)); report("divq (fault)", a == 1 && d == 2 && ex); *mem = 987654321098765UL; a = 123456789012345UL; d = 123456789012345UL; asm (ASM_TRY("1f") "divq %3; movb $0, %2; 1:" : "+a"(a), "+d"(d), "+q"(ex) : "m"(*mem)); report("divq (1)", a == 0x1ffffffb1b963b33ul && d == 0x273ba4384ede2ul && !ex); aa = 0x1111111111111111; dd = 0x2222222222222222; *mem = 0x3333333333333333; a = aa; d = dd; asm("mulb %2" : "+a"(a), "+d"(d) : "m"(*mem)); report("mulb mem", a == 0x1111111111110363 && d == dd); *mem = 0x3333333333333333; a = aa; d = dd; asm("mulw %2" : "+a"(a), "+d"(d) : "m"(*mem)); report("mulw mem", a == 0x111111111111c963 && d == 0x2222222222220369); *mem = 0x3333333333333333; a = aa; d = dd; asm("mull %2" : "+a"(a), "+d"(d) : "m"(*mem)); report("mull mem", a == 0x962fc963 && d == 0x369d036); *mem = 0x3333333333333333; a = aa; d = dd; asm("mulq %2" : "+a"(a), "+d"(d) : "m"(*mem)); report("mulq mem", a == 0x2fc962fc962fc963 && d == 0x369d0369d0369d0); } typedef unsigned __attribute__((vector_size(16))) sse128; typedef union { sse128 sse; unsigned u[4]; } sse_union; static bool sseeq(sse_union *v1, sse_union *v2) { bool ok = true; int i; for (i = 0; i < 4; ++i) { ok &= v1->u[i] == v2->u[i]; } return ok; } static void test_sse(sse_union *mem) { sse_union v; write_cr0(read_cr0() & ~6); /* EM, TS */ write_cr4(read_cr4() | 0x200); /* OSFXSR */ v.u[0] = 1; v.u[1] = 2; v.u[2] = 3; v.u[3] = 4; asm("movdqu %1, %0" : "=m"(*mem) : "x"(v.sse)); report("movdqu (read)", sseeq(&v, mem)); mem->u[0] = 5; mem->u[1] = 6; mem->u[2] = 7; mem->u[3] = 8; asm("movdqu %1, %0" : "=x"(v.sse) : "m"(*mem)); report("movdqu (write)", sseeq(mem, &v)); v.u[0] = 1; v.u[1] = 2; v.u[2] = 3; v.u[3] = 4; asm("movaps %1, %0" : "=m"(*mem) : "x"(v.sse)); report("movaps (read)", sseeq(mem, &v)); mem->u[0] = 5; mem->u[1] = 6; mem->u[2] = 7; mem->u[3] = 8; asm("movaps %1, %0" : "=x"(v.sse) : "m"(*mem)); report("movaps (write)", sseeq(&v, mem)); v.u[0] = 1; v.u[1] = 2; v.u[2] = 3; v.u[3] = 4; asm("movapd %1, %0" : "=m"(*mem) : "x"(v.sse)); report("movapd (read)", sseeq(mem, &v)); mem->u[0] = 5; mem->u[1] = 6; mem->u[2] = 7; mem->u[3] = 8; asm("movapd %1, %0" : "=x"(v.sse) : "m"(*mem)); report("movapd (write)", sseeq(&v, mem)); } static void test_mmx(uint64_t *mem) { uint64_t v; write_cr0(read_cr0() & ~6); /* EM, TS */ asm volatile("fninit"); v = 0x0102030405060708ULL; asm("movq %1, %0" : "=m"(*mem) : "y"(v)); report("movq (mmx, read)", v == *mem); *mem = 0x8070605040302010ull; asm("movq %1, %0" : "=y"(v) : "m"(*mem)); report("movq (mmx, write)", v == *mem); } static void test_rip_relative(unsigned *mem, char *insn_ram) { /* movb $1, mem+2(%rip) */ insn_ram[0] = 0xc6; insn_ram[1] = 0x05; *(unsigned *)&insn_ram[2] = 2 + (char *)mem - (insn_ram + 7); insn_ram[6] = 0x01; /* ret */ insn_ram[7] = 0xc3; *mem = 0; asm("callq *%1" : "+m"(*mem) : "r"(insn_ram)); report("movb $imm, 0(%%rip)", *mem == 0x10000); } static void test_shld_shrd(u32 *mem) { *mem = 0x12345678; asm("shld %2, %1, %0" : "+m"(*mem) : "r"(0xaaaaaaaaU), "c"((u8)3)); report("shld (cl)", *mem == ((0x12345678 << 3) | 5)); *mem = 0x12345678; asm("shrd %2, %1, %0" : "+m"(*mem) : "r"(0x55555555U), "c"((u8)3)); report("shrd (cl)", *mem == ((0x12345678 >> 3) | (5u << 29))); } static void test_cmov(u32 *mem) { u64 val; *mem = 0xabcdef12u; asm ("movq $0x1234567812345678, %%rax\n\t" "cmpl %%eax, %%eax\n\t" "cmovnel (%[mem]), %%eax\n\t" "movq %%rax, %[val]\n\t" : [val]"=r"(val) : [mem]"r"(mem) : "%rax", "cc"); report("cmovnel", val == 0x12345678ul); } #define INSN_XCHG_ALL \ "xchg %rax, 0+save \n\t" \ "xchg %rbx, 8+save \n\t" \ "xchg %rcx, 16+save \n\t" \ "xchg %rdx, 24+save \n\t" \ "xchg %rsi, 32+save \n\t" \ "xchg %rdi, 40+save \n\t" \ "xchg %rsp, 48+save \n\t" \ "xchg %rbp, 56+save \n\t" \ "xchg %r8, 64+save \n\t" \ "xchg %r9, 72+save \n\t" \ "xchg %r10, 80+save \n\t" \ "xchg %r11, 88+save \n\t" \ "xchg %r12, 96+save \n\t" \ "xchg %r13, 104+save \n\t" \ "xchg %r14, 112+save \n\t" \ "xchg %r15, 120+save \n\t" asm( ".align 4096\n\t" "insn_page:\n\t" "ret\n\t" "pushf\n\t" "push 136+save \n\t" "popf \n\t" INSN_XCHG_ALL "test_insn:\n\t" "in (%dx),%al\n\t" ".skip 31, 0x90\n\t" "test_insn_end:\n\t" INSN_XCHG_ALL "pushf \n\t" "pop 136+save \n\t" "popf \n\t" "ret \n\t" "insn_page_end:\n\t" ".align 4096\n\t" ); #define MK_INSN(name, str) \ asm ( \ ".pushsection .data.insn \n\t" \ "insn_" #name ": \n\t" \ ".quad 1001f, 1002f - 1001f \n\t" \ ".popsection \n\t" \ ".pushsection .text.insn, \"ax\" \n\t" \ "1001: \n\t" \ "insn_code_" #name ": " str " \n\t" \ "1002: \n\t" \ ".popsection" \ ); \ extern struct insn_desc insn_##name; static void trap_emulator(uint64_t *mem, void *alt_insn_page, struct insn_desc *alt_insn) { ulong *cr3 = (ulong *)read_cr3(); void *insn_ram; extern u8 insn_page[], test_insn[]; insn_ram = vmap(virt_to_phys(insn_page), 4096); memcpy(alt_insn_page, insn_page, 4096); memcpy(alt_insn_page + (test_insn - insn_page), (void *)(alt_insn->ptr), alt_insn->len); save = inregs; /* Load the code TLB with insn_page, but point the page tables at alt_insn_page (and keep the data TLB clear, for AMD decode assist). This will make the CPU trap on the insn_page instruction but the hypervisor will see alt_insn_page. */ install_page(cr3, virt_to_phys(insn_page), insn_ram); invlpg(insn_ram); /* Load code TLB */ asm volatile("call *%0" : : "r"(insn_ram)); install_page(cr3, virt_to_phys(alt_insn_page), insn_ram); /* Trap, let hypervisor emulate at alt_insn_page */ asm volatile("call *%0": : "r"(insn_ram+1)); outregs = save; } static unsigned long rip_advance; static void advance_rip_and_note_exception(struct ex_regs *regs) { ++exceptions; regs->rip += rip_advance; } static void test_mmx_movq_mf(uint64_t *mem, uint8_t *insn_page, uint8_t *alt_insn_page, void *insn_ram) { uint16_t fcw = 0; /* all exceptions unmasked */ /* movq %mm0, (%rax) */ void *stack = alloc_page(); write_cr0(read_cr0() & ~6); /* TS, EM */ exceptions = 0; handle_exception(MF_VECTOR, advance_rip_and_note_exception); asm volatile("fninit; fldcw %0" : : "m"(fcw)); asm volatile("fldz; fldz; fdivp"); /* generate exception */ MK_INSN(mmx_movq_mf, "movq %mm0, (%rax) \n\t"); rip_advance = insn_mmx_movq_mf.len; inregs = (struct regs){ .rsp=(u64)stack+1024 }; trap_emulator(mem, alt_insn_page, &insn_mmx_movq_mf); /* exit MMX mode */ asm volatile("fnclex; emms"); report("movq mmx generates #MF", exceptions == 1); handle_exception(MF_VECTOR, 0); } static void test_jmp_noncanonical(uint64_t *mem) { extern char nc_jmp_start, nc_jmp_end; *mem = 0x1111111111111111ul; exceptions = 0; rip_advance = &nc_jmp_end - &nc_jmp_start; handle_exception(GP_VECTOR, advance_rip_and_note_exception); asm volatile ("nc_jmp_start: jmp *%0; nc_jmp_end:" : : "m"(*mem)); report("jump to non-canonical address", exceptions == 1); handle_exception(GP_VECTOR, 0); } static void test_movabs(uint64_t *mem, uint8_t *insn_page, uint8_t *alt_insn_page, void *insn_ram) { /* mov $0x9090909090909090, %rcx */ MK_INSN(movabs, "mov $0x9090909090909090, %rcx\n\t"); inregs = (struct regs){ 0 }; trap_emulator(mem, alt_insn_page, &insn_movabs); report("64-bit mov imm2", outregs.rcx == 0x9090909090909090); } static void test_smsw_reg(uint64_t *mem, uint8_t *insn_page, uint8_t *alt_insn_page, void *insn_ram) { unsigned long cr0 = read_cr0(); inregs = (struct regs){ .rax = 0x1234567890abcdeful }; MK_INSN(smsww, "smsww %ax\n\t"); trap_emulator(mem, alt_insn_page, &insn_smsww); report("16-bit smsw reg", (u16)outregs.rax == (u16)cr0 && outregs.rax >> 16 == inregs.rax >> 16); MK_INSN(smswl, "smswl %eax\n\t"); trap_emulator(mem, alt_insn_page, &insn_smswl); report("32-bit smsw reg", outregs.rax == (u32)cr0); MK_INSN(smswq, "smswq %rax\n\t"); trap_emulator(mem, alt_insn_page, &insn_smswq); report("64-bit smsw reg", outregs.rax == cr0); } static void test_nop(uint64_t *mem, uint8_t *insn_page, uint8_t *alt_insn_page, void *insn_ram) { inregs = (struct regs){ .rax = 0x1234567890abcdeful }; MK_INSN(nop, "nop\n\t"); trap_emulator(mem, alt_insn_page, &insn_nop); report("nop", outregs.rax == inregs.rax); } static void test_mov_dr(uint64_t *mem, uint8_t *insn_page, uint8_t *alt_insn_page, void *insn_ram) { bool rtm_support = cpuid(7).b & (1 << 11); unsigned long dr6_fixed_1 = rtm_support ? 0xfffe0ff0ul : 0xffff0ff0ul; inregs = (struct regs){ .rax = 0 }; MK_INSN(mov_to_dr6, "movq %rax, %dr6\n\t"); trap_emulator(mem, alt_insn_page, &insn_mov_to_dr6); MK_INSN(mov_from_dr6, "movq %dr6, %rax\n\t"); trap_emulator(mem, alt_insn_page, &insn_mov_from_dr6); report("mov_dr6", outregs.rax == dr6_fixed_1); } static void test_push16(uint64_t *mem) { uint64_t rsp1, rsp2; uint16_t r; asm volatile ( "movq %%rsp, %[rsp1]\n\t" "pushw %[v]\n\t" "popw %[r]\n\t" "movq %%rsp, %[rsp2]\n\t" "movq %[rsp1], %%rsp\n\t" : [rsp1]"=r"(rsp1), [rsp2]"=r"(rsp2), [r]"=r"(r) : [v]"m"(*mem) : "memory"); report("push16", rsp1 == rsp2); } static void test_crosspage_mmio(volatile uint8_t *mem) { volatile uint16_t w, *pw; pw = (volatile uint16_t *)&mem[4095]; mem[4095] = 0x99; mem[4096] = 0x77; asm volatile("mov %1, %0" : "=r"(w) : "m"(*pw) : "memory"); report("cross-page mmio read", w == 0x7799); asm volatile("mov %1, %0" : "=m"(*pw) : "r"((uint16_t)0x88aa)); report("cross-page mmio write", mem[4095] == 0xaa && mem[4096] == 0x88); } static void test_string_io_mmio(volatile uint8_t *mem) { /* Cross MMIO pages.*/ volatile uint8_t *mmio = mem + 4032; asm volatile("outw %%ax, %%dx \n\t" : : "a"(0x9999), "d"(TESTDEV_IO_PORT)); asm volatile ("cld; rep insb" : : "d" (TESTDEV_IO_PORT), "D" (mmio), "c" (1024)); report("string_io_mmio", mmio[1023] == 0x99); } /* kvm doesn't allow lidt/lgdt from mmio, so the test is disabled */ #if 0 static void test_lgdt_lidt(volatile uint8_t *mem) { struct descriptor_table_ptr orig, fresh = {}; sgdt(&orig); *(struct descriptor_table_ptr *)mem = (struct descriptor_table_ptr) { .limit = 0xf234, .base = 0x12345678abcd, }; cli(); asm volatile("lgdt %0" : : "m"(*(struct descriptor_table_ptr *)mem)); sgdt(&fresh); lgdt(&orig); sti(); report("lgdt (long address)", orig.limit == fresh.limit && orig.base == fresh.base); sidt(&orig); *(struct descriptor_table_ptr *)mem = (struct descriptor_table_ptr) { .limit = 0x432f, .base = 0xdbca87654321, }; cli(); asm volatile("lidt %0" : : "m"(*(struct descriptor_table_ptr *)mem)); sidt(&fresh); lidt(&orig); sti(); report("lidt (long address)", orig.limit == fresh.limit && orig.base == fresh.base); } #endif static void ss_bad_rpl(struct ex_regs *regs) { extern char ss_bad_rpl_cont; ++exceptions; regs->rip = (ulong)&ss_bad_rpl_cont; } static void test_sreg(volatile uint16_t *mem) { u16 ss = read_ss(); // check for null segment load *mem = 0; asm volatile("mov %0, %%ss" : : "m"(*mem)); report("mov null, %%ss", read_ss() == 0); // check for exception when ss.rpl != cpl on null segment load exceptions = 0; handle_exception(GP_VECTOR, ss_bad_rpl); *mem = 3; asm volatile("mov %0, %%ss; ss_bad_rpl_cont:" : : "m"(*mem)); report("mov null, %%ss (with ss.rpl != cpl)", exceptions == 1 && read_ss() == 0); handle_exception(GP_VECTOR, 0); write_ss(ss); } /* Broken emulation causes triple fault, which skips the other tests. */ #if 0 static void test_lldt(volatile uint16_t *mem) { u64 gdt[] = { 0, /* null descriptor */ #ifdef __X86_64__ 0, /* ldt descriptor is 16 bytes in long mode */ #endif 0x0000f82000000ffffull /* ldt descriptor */ }; struct descriptor_table_ptr gdt_ptr = { .limit = sizeof(gdt) - 1, .base = (ulong)&gdt }; struct descriptor_table_ptr orig_gdt; cli(); sgdt(&orig_gdt); lgdt(&gdt_ptr); *mem = 0x8; asm volatile("lldt %0" : : "m"(*mem)); lgdt(&orig_gdt); sti(); report("lldt", sldt() == *mem); } #endif static void test_ltr(volatile uint16_t *mem) { struct descriptor_table_ptr gdt_ptr; uint64_t *gdt, *trp; uint16_t tr = str(); uint64_t busy_mask = (uint64_t)1 << 41; sgdt(&gdt_ptr); gdt = (uint64_t *)gdt_ptr.base; trp = &gdt[tr >> 3]; *trp &= ~busy_mask; *mem = tr; asm volatile("ltr %0" : : "m"(*mem) : "memory"); report("ltr", str() == tr && (*trp & busy_mask)); } static void test_simplealu(u32 *mem) { *mem = 0x1234; asm("or %1, %0" : "+m"(*mem) : "r"(0x8001)); report("or", *mem == 0x9235); asm("add %1, %0" : "+m"(*mem) : "r"(2)); report("add", *mem == 0x9237); asm("xor %1, %0" : "+m"(*mem) : "r"(0x1111)); report("xor", *mem == 0x8326); asm("sub %1, %0" : "+m"(*mem) : "r"(0x26)); report("sub", *mem == 0x8300); asm("clc; adc %1, %0" : "+m"(*mem) : "r"(0x100)); report("adc(0)", *mem == 0x8400); asm("stc; adc %1, %0" : "+m"(*mem) : "r"(0x100)); report("adc(0)", *mem == 0x8501); asm("clc; sbb %1, %0" : "+m"(*mem) : "r"(0)); report("sbb(0)", *mem == 0x8501); asm("stc; sbb %1, %0" : "+m"(*mem) : "r"(0)); report("sbb(1)", *mem == 0x8500); asm("and %1, %0" : "+m"(*mem) : "r"(0xfe77)); report("and", *mem == 0x8400); asm("test %1, %0" : "+m"(*mem) : "r"(0xf000)); report("test", *mem == 0x8400); } static void illegal_movbe_handler(struct ex_regs *regs) { extern char bad_movbe_cont; ++exceptions; regs->rip = (ulong)&bad_movbe_cont; } static void test_illegal_movbe(void) { if (!(cpuid(1).c & (1 << 22))) { report_skip("illegal movbe"); return; } exceptions = 0; handle_exception(UD_VECTOR, illegal_movbe_handler); asm volatile(".byte 0x0f; .byte 0x38; .byte 0xf0; .byte 0xc0;\n\t" " bad_movbe_cont:" : : : "rax"); report("illegal movbe", exceptions == 1); handle_exception(UD_VECTOR, 0); } int main() { void *mem; void *insn_page, *alt_insn_page; void *insn_ram; unsigned long t1, t2; setup_vm(); setup_idt(); mem = alloc_vpages(2); install_page((void *)read_cr3(), IORAM_BASE_PHYS, mem); // install the page twice to test cross-page mmio install_page((void *)read_cr3(), IORAM_BASE_PHYS, mem + 4096); insn_page = alloc_page(); alt_insn_page = alloc_page(); insn_ram = vmap(virt_to_phys(insn_page), 4096); // test mov reg, r/m and mov r/m, reg t1 = 0x123456789abcdef; asm volatile("mov %[t1], (%[mem]) \n\t" "mov (%[mem]), %[t2]" : [t2]"=r"(t2) : [t1]"r"(t1), [mem]"r"(mem) : "memory"); report("mov reg, r/m (1)", t2 == 0x123456789abcdef); test_simplealu(mem); test_cmps(mem); test_scas(mem); test_push(mem); test_pop(mem); test_xchg(mem); test_xadd(mem); test_cr8(); test_smsw(mem); test_lmsw(); test_ljmp(mem); test_stringio(); test_incdecnotneg(mem); test_btc(mem); test_bsfbsr(mem); test_imul(mem); test_muldiv(mem); test_sse(mem); test_mmx(mem); test_rip_relative(mem, insn_ram); test_shld_shrd(mem); //test_lgdt_lidt(mem); test_sreg(mem); //test_lldt(mem); test_ltr(mem); test_cmov(mem); test_mmx_movq_mf(mem, insn_page, alt_insn_page, insn_ram); test_movabs(mem, insn_page, alt_insn_page, insn_ram); test_smsw_reg(mem, insn_page, alt_insn_page, insn_ram); test_nop(mem, insn_page, alt_insn_page, insn_ram); test_mov_dr(mem, insn_page, alt_insn_page, insn_ram); test_push16(mem); test_crosspage_mmio(mem); test_string_io_mmio(mem); test_jmp_noncanonical(mem); test_illegal_movbe(); return report_summary(); }