/* Capstone testing regression */ /* By Do Minh Tuan , 02-2019 */ #include "factory.h" static void print_string_hex(char **result, const char *comment, unsigned char *str, size_t len) { unsigned char *c; add_str(result, "%s", comment); for (c = str; c < str + len; c++) { add_str(result, "0x%02x", *c & 0xff); if (c < str + len - 1) add_str(result, " "); } } static const char *get_eflag_name(uint64_t flag) { switch(flag) { default: return NULL; case X86_EFLAGS_UNDEFINED_OF: return "UNDEF_OF"; case X86_EFLAGS_UNDEFINED_SF: return "UNDEF_SF"; case X86_EFLAGS_UNDEFINED_ZF: return "UNDEF_ZF"; case X86_EFLAGS_MODIFY_AF: return "MOD_AF"; case X86_EFLAGS_UNDEFINED_PF: return "UNDEF_PF"; case X86_EFLAGS_MODIFY_CF: return "MOD_CF"; case X86_EFLAGS_MODIFY_SF: return "MOD_SF"; case X86_EFLAGS_MODIFY_ZF: return "MOD_ZF"; case X86_EFLAGS_UNDEFINED_AF: return "UNDEF_AF"; case X86_EFLAGS_MODIFY_PF: return "MOD_PF"; case X86_EFLAGS_UNDEFINED_CF: return "UNDEF_CF"; case X86_EFLAGS_MODIFY_OF: return "MOD_OF"; case X86_EFLAGS_RESET_OF: return "RESET_OF"; case X86_EFLAGS_RESET_CF: return "RESET_CF"; case X86_EFLAGS_RESET_DF: return "RESET_DF"; case X86_EFLAGS_RESET_IF: return "RESET_IF"; case X86_EFLAGS_RESET_ZF: return "RESET_ZF"; case X86_EFLAGS_TEST_OF: return "TEST_OF"; case X86_EFLAGS_TEST_SF: return "TEST_SF"; case X86_EFLAGS_TEST_ZF: return "TEST_ZF"; case X86_EFLAGS_TEST_PF: return "TEST_PF"; case X86_EFLAGS_TEST_CF: return "TEST_CF"; case X86_EFLAGS_RESET_SF: return "RESET_SF"; case X86_EFLAGS_RESET_AF: return "RESET_AF"; case X86_EFLAGS_RESET_TF: return "RESET_TF"; case X86_EFLAGS_RESET_NT: return "RESET_NT"; case X86_EFLAGS_PRIOR_OF: return "PRIOR_OF"; case X86_EFLAGS_PRIOR_SF: return "PRIOR_SF"; case X86_EFLAGS_PRIOR_ZF: return "PRIOR_ZF"; case X86_EFLAGS_PRIOR_AF: return "PRIOR_AF"; case X86_EFLAGS_PRIOR_PF: return "PRIOR_PF"; case X86_EFLAGS_PRIOR_CF: return "PRIOR_CF"; case X86_EFLAGS_PRIOR_TF: return "PRIOR_TF"; case X86_EFLAGS_PRIOR_IF: return "PRIOR_IF"; case X86_EFLAGS_PRIOR_DF: return "PRIOR_DF"; case X86_EFLAGS_TEST_NT: return "TEST_NT"; case X86_EFLAGS_TEST_DF: return "TEST_DF"; case X86_EFLAGS_RESET_PF: return "RESET_PF"; case X86_EFLAGS_PRIOR_NT: return "PRIOR_NT"; case X86_EFLAGS_MODIFY_TF: return "MOD_TF"; case X86_EFLAGS_MODIFY_IF: return "MOD_IF"; case X86_EFLAGS_MODIFY_DF: return "MOD_DF"; case X86_EFLAGS_MODIFY_NT: return "MOD_NT"; case X86_EFLAGS_MODIFY_RF: return "MOD_RF"; case X86_EFLAGS_SET_CF: return "SET_CF"; case X86_EFLAGS_SET_DF: return "SET_DF"; case X86_EFLAGS_SET_IF: return "SET_IF"; case X86_EFLAGS_SET_OF: return "SET_OF"; case X86_EFLAGS_SET_SF: return "SET_SF"; case X86_EFLAGS_SET_ZF: return "SET_ZF"; case X86_EFLAGS_SET_AF: return "SET_AF"; case X86_EFLAGS_SET_PF: return "SET_PF"; case X86_EFLAGS_TEST_AF: return "TEST_AF"; case X86_EFLAGS_TEST_TF: return "TEST_TF"; case X86_EFLAGS_TEST_RF: return "TEST_RF"; case X86_EFLAGS_RESET_0F: return "RESET_0F"; case X86_EFLAGS_RESET_AC: return "RESET_AC"; } } static const char *get_fpu_flag_name(uint64_t flag) { switch (flag) { default: return NULL; case X86_FPU_FLAGS_MODIFY_C0: return "MOD_C0"; case X86_FPU_FLAGS_MODIFY_C1: return "MOD_C1"; case X86_FPU_FLAGS_MODIFY_C2: return "MOD_C2"; case X86_FPU_FLAGS_MODIFY_C3: return "MOD_C3"; case X86_FPU_FLAGS_RESET_C0: return "RESET_C0"; case X86_FPU_FLAGS_RESET_C1: return "RESET_C1"; case X86_FPU_FLAGS_RESET_C2: return "RESET_C2"; case X86_FPU_FLAGS_RESET_C3: return "RESET_C3"; case X86_FPU_FLAGS_SET_C0: return "SET_C0"; case X86_FPU_FLAGS_SET_C1: return "SET_C1"; case X86_FPU_FLAGS_SET_C2: return "SET_C2"; case X86_FPU_FLAGS_SET_C3: return "SET_C3"; case X86_FPU_FLAGS_UNDEFINED_C0: return "UNDEF_C0"; case X86_FPU_FLAGS_UNDEFINED_C1: return "UNDEF_C1"; case X86_FPU_FLAGS_UNDEFINED_C2: return "UNDEF_C2"; case X86_FPU_FLAGS_UNDEFINED_C3: return "UNDEF_C3"; case X86_FPU_FLAGS_TEST_C0: return "TEST_C0"; case X86_FPU_FLAGS_TEST_C1: return "TEST_C1"; case X86_FPU_FLAGS_TEST_C2: return "TEST_C2"; case X86_FPU_FLAGS_TEST_C3: return "TEST_C3"; } } char *get_detail_x86(csh *ud, cs_mode mode, cs_insn *ins) { int count, i; cs_x86 *x86; cs_regs regs_read, regs_write; uint8_t regs_read_count, regs_write_count; char *result; result = (char *)malloc(sizeof(char)); result[0] = '\0'; if (ins->detail == NULL) return result; x86 = &(ins->detail->x86); print_string_hex(&result, " ; Prefix:", x86->prefix, 4); print_string_hex(&result, " ; Opcode:", x86->opcode, 4); add_str(&result, " ; rex: 0x%x", x86->rex); add_str(&result, " ; addr_size: %u", x86->addr_size); add_str(&result, " ; modrm: 0x%x", x86->modrm); add_str(&result, " ; disp: 0x%" PRIx64 "", x86->disp); if ((mode & CS_MODE_16) == 0) { add_str(&result, " ; sib: 0x%x", x86->sib); if (x86->sib_base != X86_REG_INVALID) add_str(&result, " ; sib_base: %s", cs_reg_name(*ud, x86->sib_base)); if (x86->sib_index != X86_REG_INVALID) add_str(&result, " ; sib_index: %s", cs_reg_name(*ud, x86->sib_index)); if (x86->sib_scale != 0) add_str(&result, " ; sib_scale: %d", x86->sib_scale); } if (x86->xop_cc != X86_XOP_CC_INVALID) { add_str(&result, " ; xop_cc: %u", x86->xop_cc); } if (x86->sse_cc != X86_SSE_CC_INVALID) { add_str(&result, " ; sse_cc: %u", x86->sse_cc); } if (x86->avx_cc != X86_AVX_CC_INVALID) { add_str(&result, " ; avx_cc: %u", x86->avx_cc); } if (x86->avx_sae) { add_str(&result, " ; avx_sae: %u", x86->avx_sae); } if (x86->avx_rm != X86_AVX_RM_INVALID) { add_str(&result, " ; avx_rm: %u", x86->avx_rm); } count = cs_op_count(*ud, ins, X86_OP_IMM); if (count > 0) { add_str(&result, " ; imm_count: %u", count); for (i = 1; i < count + 1; i++) { int index = cs_op_index(*ud, ins, X86_OP_IMM, i); add_str(&result, " ; imms[%u]: 0x%" PRIx64 "", i, x86->operands[index].imm); } } if (x86->op_count) add_str(&result, " ; op_count: %u", x86->op_count); for (i = 0; i < x86->op_count; i++) { cs_x86_op *op = &(x86->operands[i]); switch((int)op->type) { case X86_OP_REG: add_str(&result, " ; operands[%u].type: REG = %s", i, cs_reg_name(*ud, op->reg)); break; case X86_OP_IMM: add_str(&result, " ; operands[%u].type: IMM = 0x%" PRIx64 "", i, op->imm); break; case X86_OP_MEM: add_str(&result, " ; operands[%u].type: MEM", i); if (op->mem.segment != X86_REG_INVALID) add_str(&result, " ; operands[%u].mem.segment: REG = %s", i, cs_reg_name(*ud, op->mem.segment)); if (op->mem.base != X86_REG_INVALID) add_str(&result, " ; operands[%u].mem.base: REG = %s", i, cs_reg_name(*ud, op->mem.base)); if (op->mem.index != X86_REG_INVALID) add_str(&result, " ; operands[%u].mem.index: REG = %s", i, cs_reg_name(*ud, op->mem.index)); if (op->mem.scale != 1) add_str(&result, " ; operands[%u].mem.scale: %u", i, op->mem.scale); if (op->mem.disp != 0) add_str(&result, " ; operands[%u].mem.disp: 0x%" PRIx64 "", i, op->mem.disp); break; default: break; } if (op->avx_bcast != X86_AVX_BCAST_INVALID) add_str(&result, " ; operands[%u].avx_bcast: %u", i, op->avx_bcast); if (op->avx_zero_opmask != false) add_str(&result, " ; operands[%u].avx_zero_opmask: TRUE", i); add_str(&result, " ; operands[%u].size: %u", i, op->size); switch(op->access) { default: break; case CS_AC_READ: add_str(&result, " ; operands[%u].access: READ", i); break; case CS_AC_WRITE: add_str(&result, " ; operands[%u].access: WRITE", i); break; case CS_AC_READ | CS_AC_WRITE: add_str(&result, " ; operands[%u].access: READ | WRITE", i); break; } } if (!cs_regs_access(*ud, ins, regs_read, ®s_read_count, regs_write, ®s_write_count)) { if (regs_read_count) { add_str(&result, " ; Registers read:"); for(i = 0; i < regs_read_count; i++) { add_str(&result, " %s", cs_reg_name(*ud, regs_read[i])); } } if (regs_write_count) { add_str(&result, " ; Registers modified:"); for(i = 0; i < regs_write_count; i++) { add_str(&result, " %s", cs_reg_name(*ud, regs_write[i])); } } } if (x86->eflags || x86->fpu_flags) { for(i = 0; i < ins->detail->groups_count; i++) { if (ins->detail->groups[i] == X86_GRP_FPU) { add_str(&result, " ; FPU_FLAGS:"); for(i = 0; i <= 63; i++) if (x86->fpu_flags & ((uint64_t)1 << i)) { add_str(&result, " %s", get_fpu_flag_name((uint64_t)1 << i)); } break; } } if (i == ins->detail->groups_count) { add_str(&result, " ; EFLAGS:"); for(i = 0; i <= 63; i++) if (x86->eflags & ((uint64_t)1 << i)) { add_str(&result, " %s", get_eflag_name((uint64_t)1 << i)); } } } return result; }