#include #include #include #include typedef void (*testfn)(void); typedef struct { uint64_t q0, q1, q2, q3; } __attribute__((aligned(32))) v4di; typedef struct { uint64_t mm[8]; v4di ymm[16]; uint64_t r[16]; uint64_t flags; uint32_t ff; uint64_t pad; v4di mem[4]; v4di mem0[4]; } reg_state; typedef struct { int n; testfn fn; const char *s; reg_state *init; } TestDef; reg_state initI; reg_state initF16; reg_state initF32; reg_state initF64; static void dump_ymm(const char *name, int n, const v4di *r, int ff) { printf("%s%d = %016lx %016lx %016lx %016lx\n", name, n, r->q3, r->q2, r->q1, r->q0); if (ff == 64) { double v[4]; memcpy(v, r, sizeof(v)); printf(" %16g %16g %16g %16g\n", v[3], v[2], v[1], v[0]); } else if (ff == 32) { float v[8]; memcpy(v, r, sizeof(v)); printf(" %8g %8g %8g %8g %8g %8g %8g %8g\n", v[7], v[6], v[5], v[4], v[3], v[2], v[1], v[0]); } } static void dump_regs(reg_state *s) { int i; for (i = 0; i < 16; i++) { dump_ymm("ymm", i, &s->ymm[i], 0); } for (i = 0; i < 4; i++) { dump_ymm("mem", i, &s->mem0[i], 0); } } static void compare_state(const reg_state *a, const reg_state *b) { int i; for (i = 0; i < 8; i++) { if (a->mm[i] != b->mm[i]) { printf("MM%d = %016lx\n", i, b->mm[i]); } } for (i = 0; i < 16; i++) { if (a->r[i] != b->r[i]) { printf("r%d = %016lx\n", i, b->r[i]); } } for (i = 0; i < 16; i++) { if (memcmp(&a->ymm[i], &b->ymm[i], 32)) { dump_ymm("ymm", i, &b->ymm[i], a->ff); } } for (i = 0; i < 4; i++) { if (memcmp(&a->mem0[i], &a->mem[i], 32)) { dump_ymm("mem", i, &a->mem[i], a->ff); } } if (a->flags != b->flags) { printf("FLAGS = %016lx\n", b->flags); } } #define LOADMM(r, o) "movq " #r ", " #o "[%0]\n\t" #define LOADYMM(r, o) "vmovdqa " #r ", " #o "[%0]\n\t" #define STOREMM(r, o) "movq " #o "[%1], " #r "\n\t" #define STOREYMM(r, o) "vmovdqa " #o "[%1], " #r "\n\t" #define MMREG(F) \ F(mm0, 0x00) \ F(mm1, 0x08) \ F(mm2, 0x10) \ F(mm3, 0x18) \ F(mm4, 0x20) \ F(mm5, 0x28) \ F(mm6, 0x30) \ F(mm7, 0x38) #define YMMREG(F) \ F(ymm0, 0x040) \ F(ymm1, 0x060) \ F(ymm2, 0x080) \ F(ymm3, 0x0a0) \ F(ymm4, 0x0c0) \ F(ymm5, 0x0e0) \ F(ymm6, 0x100) \ F(ymm7, 0x120) \ F(ymm8, 0x140) \ F(ymm9, 0x160) \ F(ymm10, 0x180) \ F(ymm11, 0x1a0) \ F(ymm12, 0x1c0) \ F(ymm13, 0x1e0) \ F(ymm14, 0x200) \ F(ymm15, 0x220) #define LOADREG(r, o) "mov " #r ", " #o "[rax]\n\t" #define STOREREG(r, o) "mov " #o "[rax], " #r "\n\t" #define REG(F) \ F(rbx, 0x248) \ F(rcx, 0x250) \ F(rdx, 0x258) \ F(rsi, 0x260) \ F(rdi, 0x268) \ F(r8, 0x280) \ F(r9, 0x288) \ F(r10, 0x290) \ F(r11, 0x298) \ F(r12, 0x2a0) \ F(r13, 0x2a8) \ F(r14, 0x2b0) \ F(r15, 0x2b8) \ static void run_test(const TestDef *t) { reg_state result; reg_state *init = t->init; memcpy(init->mem, init->mem0, sizeof(init->mem)); printf("%5d %s\n", t->n, t->s); asm volatile( MMREG(LOADMM) YMMREG(LOADYMM) "sub rsp, 128\n\t" "push rax\n\t" "push rbx\n\t" "push rcx\n\t" "push rdx\n\t" "push %1\n\t" "push %2\n\t" "mov rax, %0\n\t" "pushf\n\t" "pop rbx\n\t" "shr rbx, 8\n\t" "shl rbx, 8\n\t" "mov rcx, 0x2c0[rax]\n\t" "and rcx, 0xff\n\t" "or rbx, rcx\n\t" "push rbx\n\t" "popf\n\t" REG(LOADREG) "mov rax, 0x240[rax]\n\t" "call [rsp]\n\t" "mov [rsp], rax\n\t" "mov rax, 8[rsp]\n\t" REG(STOREREG) "mov rbx, [rsp]\n\t" "mov 0x240[rax], rbx\n\t" "mov rbx, 0\n\t" "mov 0x270[rax], rbx\n\t" "mov 0x278[rax], rbx\n\t" "pushf\n\t" "pop rbx\n\t" "and rbx, 0xff\n\t" "mov 0x2c0[rax], rbx\n\t" "add rsp, 16\n\t" "pop rdx\n\t" "pop rcx\n\t" "pop rbx\n\t" "pop rax\n\t" "add rsp, 128\n\t" MMREG(STOREMM) YMMREG(STOREYMM) : : "r"(init), "r"(&result), "r"(t->fn) : "memory", "cc", "rsi", "rdi", "r8", "r9", "r10", "r11", "r12", "r13", "r14", "r15", "mm0", "mm1", "mm2", "mm3", "mm4", "mm5", "mm6", "mm7", "ymm0", "ymm1", "ymm2", "ymm3", "ymm4", "ymm5", "ymm6", "ymm7", "ymm8", "ymm9", "ymm10", "ymm11", "ymm12", "ymm13", "ymm14", "ymm15" ); compare_state(init, &result); } #define TEST(n, cmd, type) \ static void __attribute__((naked)) test_##n(void) \ { \ asm volatile(cmd); \ asm volatile("ret"); \ } #include "test-avx.h" static const TestDef test_table[] = { #define TEST(n, cmd, type) {n, test_##n, cmd, &init##type}, #include "test-avx.h" {-1, NULL, "", NULL} }; static void run_all(void) { const TestDef *t; for (t = test_table; t->fn; t++) { run_test(t); } } #define ARRAY_LEN(x) (sizeof(x) / sizeof(x[0])) uint16_t val_f16[] = { 0x4000, 0xbc00, 0x44cd, 0x3a66, 0x4200, 0x7a1a, 0x4780, 0x4826 }; float val_f32[] = {2.0, -1.0, 4.8, 0.8, 3, -42.0, 5e6, 7.5, 8.3}; double val_f64[] = {2.0, -1.0, 4.8, 0.8, 3, -42.0, 5e6, 7.5}; v4di val_i64[] = { {0x3d6b3b6a9e4118f2lu, 0x355ae76d2774d78clu, 0xac3ff76c4daa4b28lu, 0xe7fabd204cb54083lu}, {0xd851c54a56bf1f29lu, 0x4a84d1d50bf4c4fflu, 0x56621e553d52b56clu, 0xd0069553da8f584alu}, {0x5826475e2c5fd799lu, 0xfd32edc01243f5e9lu, 0x738ba2c66d3fe126lu, 0x5707219c6e6c26b4lu}, }; v4di deadbeef = {0xa5a5a5a5deadbeefull, 0xa5a5a5a5deadbeefull, 0xa5a5a5a5deadbeefull, 0xa5a5a5a5deadbeefull}; /* &gather_mem[0x10] is 512 bytes from the base; indices must be >=-64, <64 * to account for scaling by 8 */ v4di indexq = {0x000000000000001full, 0x000000000000003dull, 0xffffffffffffffffull, 0xffffffffffffffdfull}; v4di indexd = {0x00000002ffffffcdull, 0xfffffff500000010ull, 0x0000003afffffff0ull, 0x000000000000000eull}; v4di gather_mem[0x20]; _Static_assert(sizeof(gather_mem) == 1024); void init_f16reg(v4di *r) { memset(r, 0, sizeof(*r)); memcpy(r, val_f16, sizeof(val_f16)); } void init_f32reg(v4di *r) { static int n; float v[8]; int i; for (i = 0; i < 8; i++) { v[i] = val_f32[n++]; if (n == ARRAY_LEN(val_f32)) { n = 0; } } memcpy(r, v, sizeof(*r)); } void init_f64reg(v4di *r) { static int n; double v[4]; int i; for (i = 0; i < 4; i++) { v[i] = val_f64[n++]; if (n == ARRAY_LEN(val_f64)) { n = 0; } } memcpy(r, v, sizeof(*r)); } void init_intreg(v4di *r) { static uint64_t mask; static int n; r->q0 = val_i64[n].q0 ^ mask; r->q1 = val_i64[n].q1 ^ mask; r->q2 = val_i64[n].q2 ^ mask; r->q3 = val_i64[n].q3 ^ mask; n++; if (n == ARRAY_LEN(val_i64)) { n = 0; mask *= 0x104C11DB7; } } static void init_all(reg_state *s) { int i; s->r[3] = (uint64_t)&s->mem[0]; /* rdx */ s->r[4] = (uint64_t)&gather_mem[ARRAY_LEN(gather_mem) / 2]; /* rsi */ s->r[5] = (uint64_t)&s->mem[2]; /* rdi */ s->flags = 2; for (i = 0; i < 16; i++) { s->ymm[i] = deadbeef; } s->ymm[13] = indexd; s->ymm[14] = indexq; for (i = 0; i < 4; i++) { s->mem0[i] = deadbeef; } } int main(int argc, char *argv[]) { int i; init_all(&initI); init_intreg(&initI.ymm[0]); init_intreg(&initI.ymm[9]); init_intreg(&initI.ymm[10]); init_intreg(&initI.ymm[11]); init_intreg(&initI.ymm[12]); init_intreg(&initI.mem0[1]); printf("Int:\n"); dump_regs(&initI); init_all(&initF16); init_f16reg(&initF16.ymm[0]); init_f16reg(&initF16.ymm[9]); init_f16reg(&initF16.ymm[10]); init_f16reg(&initF16.ymm[11]); init_f16reg(&initF16.ymm[12]); init_f16reg(&initF16.mem0[1]); initF16.ff = 16; printf("F16:\n"); dump_regs(&initF16); init_all(&initF32); init_f32reg(&initF32.ymm[0]); init_f32reg(&initF32.ymm[9]); init_f32reg(&initF32.ymm[10]); init_f32reg(&initF32.ymm[11]); init_f32reg(&initF32.ymm[12]); init_f32reg(&initF32.mem0[1]); initF32.ff = 32; printf("F32:\n"); dump_regs(&initF32); init_all(&initF64); init_f64reg(&initF64.ymm[0]); init_f64reg(&initF64.ymm[9]); init_f64reg(&initF64.ymm[10]); init_f64reg(&initF64.ymm[11]); init_f64reg(&initF64.ymm[12]); init_f64reg(&initF64.mem0[1]); initF64.ff = 64; printf("F64:\n"); dump_regs(&initF64); for (i = 0; i < ARRAY_LEN(gather_mem); i++) { init_intreg(&gather_mem[i]); } if (argc > 1) { int n = atoi(argv[1]); run_test(&test_table[n]); } else { run_all(); } return 0; }