X-Git-Url: http://v3vee.org/palacios/gitweb/gitweb.cgi?a=blobdiff_plain;f=palacios%2Fsrc%2Fpalacios%2Fvmm_xed.c;h=35693fe9f8658647fe8f6205f4c43163a768e011;hb=266af4b5b19da7bee8e7445288c7c1cb3ee194c7;hp=f0117f27c418bdb191ea7c67b335757315e0f09a;hpb=6f089682a19a99474faf05f74b44f9f71f58b30b;p=palacios.git diff --git a/palacios/src/palacios/vmm_xed.c b/palacios/src/palacios/vmm_xed.c index f0117f2..35693fe 100644 --- a/palacios/src/palacios/vmm_xed.c +++ b/palacios/src/palacios/vmm_xed.c @@ -1,182 +1,1395 @@ +/* + * This file is part of the Palacios Virtual Machine Monitor developed + * by the V3VEE Project with funding from the United States National + * Science Foundation and the Department of Energy. + * + * The V3VEE Project is a joint project between Northwestern University + * and the University of New Mexico. You can find out more at + * http://www.v3vee.org + * + * Copyright (c) 2008, Jack Lange + * Copyright (c) 2008, The V3VEE Project + * All rights reserved. + * + * Author: Jack Lange + * + * This is free software. You are permitted to use, + * redistribute, and modify it as specified in the file "V3VEE_LICENSE". + */ + +#ifdef __DECODER_TEST__ +#include "vmm_decoder.h" +#include "vmm_xed.h" +#include +#include "vm_guest.h" +#include "test.h" + +#else + #include #include #include #include +#include +#endif + + + +#ifndef DEBUG_XED +#undef PrintDebug +#define PrintDebug(fmt, args...) +#endif + + + + +static uint_t tables_inited = 0; + + +#define GPR_REGISTER 0 +#define SEGMENT_REGISTER 1 +#define CTRL_REGISTER 2 +#define DEBUG_REGISTER 3 + + + +/* Disgusting mask hack... + I can't think right now, so we'll do it this way... +*/ +static const ullong_t mask_1 = 0x00000000000000ffLL; +static const ullong_t mask_2 = 0x000000000000ffffLL; +static const ullong_t mask_4 = 0x00000000ffffffffLL; +static const ullong_t mask_8 = 0xffffffffffffffffLL; + -static xed_state_t decoder_state; +#define MASK(val, length) ({ \ + ullong_t mask = 0x0LL; \ + switch (length) { \ + case 1: \ + mask = mask_1; \ + break; \ + case 2: \ + mask = mask_2; \ + break; \ + case 4: \ + mask = mask_4; \ + break; \ + case 8: \ + mask = mask_8; \ + break; \ + } \ + val & mask; \ + }) + +struct memory_operand { + uint_t segment_size; + addr_t segment; + uint_t base_size; + addr_t base; + uint_t index_size; + addr_t index; + addr_t scale; + uint_t displacement_size; + ullong_t displacement; +}; + + +static v3_op_type_t get_opcode(xed_iform_enum_t iform); + +static int xed_reg_to_v3_reg(struct guest_info * info, xed_reg_enum_t xed_reg, addr_t * v3_reg, uint_t * reg_len); +static int get_memory_operand(struct guest_info * info, xed_decoded_inst_t * xed_instr, uint_t index, struct x86_operand * operand); + static int set_decoder_mode(struct guest_info * info, xed_state_t * state) { - switch (info->cpu_mode) { - case REAL: - if (state->mmode != XED_MACHINE_MODE_LEGACY_16) { - xed_state_init(state, - XED_MACHINE_MODE_LEGACY_16, - XED_ADDRESS_WIDTH_16b, - XED_ADDRESS_WIDTH_16b); - } - break; - case PROTECTED: - case PROTECTED_PAE: - if (state->mmode != XED_MACHINE_MODE_LEGACY_32) { - xed_state_init(state, - XED_MACHINE_MODE_LEGACY_32, - XED_ADDRESS_WIDTH_32b, - XED_ADDRESS_WIDTH_32b); - } - break; - case LONG: - if (state->mmode != XED_MACHINE_MODE_LONG_64) { - state->mmode = XED_MACHINE_MODE_LONG_64; - } - break; - default: - return -1; - } - return 0; + switch (info->cpu_mode) { + case REAL: + if (state->mmode != XED_MACHINE_MODE_LEGACY_16) { + xed_state_init(state, + XED_MACHINE_MODE_LEGACY_16, + XED_ADDRESS_WIDTH_16b, + XED_ADDRESS_WIDTH_16b); + } + break; + case PROTECTED: + case PROTECTED_PAE: + if (state->mmode != XED_MACHINE_MODE_LEGACY_32) { + xed_state_init(state, + XED_MACHINE_MODE_LEGACY_32, + XED_ADDRESS_WIDTH_32b, + XED_ADDRESS_WIDTH_32b); + } + break; + case LONG_32_COMPAT: + if (state->mmode != XED_MACHINE_MODE_LONG_COMPAT_32) { + xed_state_init(state, + XED_MACHINE_MODE_LONG_COMPAT_32, + XED_ADDRESS_WIDTH_32b, + XED_ADDRESS_WIDTH_32b); + } + break; + case LONG: + if (state->mmode != XED_MACHINE_MODE_LONG_64) { + PrintDebug("Setting decoder to long mode\n"); + // state->mmode = XED_MACHINE_MODE_LONG_64; + //xed_state_set_machine_mode(state, XED_MACHINE_MODE_LONG_64); + xed_state_init(state, + XED_MACHINE_MODE_LONG_64, + XED_ADDRESS_WIDTH_64b, + XED_ADDRESS_WIDTH_64b); + } + break; + default: + PrintError("Unsupported CPU mode: %d\n", info->cpu_mode); + return -1; + } + return 0; } +static int is_flags_reg(xed_reg_enum_t xed_reg) { + switch (xed_reg) { + case XED_REG_FLAGS: + case XED_REG_EFLAGS: + case XED_REG_RFLAGS: + return 1; + default: + return 0; + } +} + + + +int v3_init_decoder(struct guest_info * info) { + // Global library initialization, only do it once + if (tables_inited == 0) { + xed_tables_init(); + tables_inited = 1; + } + + xed_state_t * decoder_state = (xed_state_t *)V3_Malloc(sizeof(xed_state_t)); + xed_state_zero(decoder_state); + xed_state_init(decoder_state, + XED_MACHINE_MODE_LEGACY_32, + XED_ADDRESS_WIDTH_32b, + XED_ADDRESS_WIDTH_32b); + + info->decoder_state = decoder_state; -int init_decoder() { - xed_tables_init(); - xed_state_zero(&decoder_state); - return 0; + return 0; } -int v3_decode(struct guest_info * info, addr_t instr_ptr, struct x86_instr * instr) { - xed_decoded_inst_t xed_instr; - xed_error_enum_t xed_error; - if (set_decoder_mode(info, &decoder_state) == -1) { - PrintError("Could not set decoder mode\n"); - return -1; - } +int v3_basic_mem_decode(struct guest_info * info, addr_t instr_ptr, struct basic_instr_info * instr_info) { + xed_decoded_inst_t xed_instr; + xed_error_enum_t xed_error; - xed_decoded_inst_zero_set_mode(&xed_instr, &decoder_state); - xed_error = xed_decode(&xed_instr, - REINTERPRET_CAST(const xed_uint8_t *, instr_ptr), - XED_MAX_INSTRUCTION_BYTES); + if (set_decoder_mode(info, info->decoder_state) == -1) { + PrintError("Could not set decoder mode\n"); + return -1; + } + + + xed_decoded_inst_zero_set_mode(&xed_instr, info->decoder_state); + + xed_error = xed_decode(&xed_instr, + REINTERPRET_CAST(const xed_uint8_t *, instr_ptr), + XED_MAX_INSTRUCTION_BYTES); + + if (xed_error != XED_ERROR_NONE) { + PrintError("Xed error: %s\n", xed_error_enum_t2str(xed_error)); + return -1; + } + + instr_info->instr_length = xed_decoded_inst_get_length(&xed_instr); + + + if (xed_decoded_inst_number_of_memory_operands(&xed_instr) == 0) { + PrintError("Tried to decode memory operation with no memory operands\n"); + return -1; + } + + instr_info->op_size = xed_decoded_inst_get_memory_operand_length(&xed_instr, 0); + + + xed_category_enum_t cat = xed_decoded_inst_get_category(&xed_instr); + if (cat == XED_CATEGORY_STRINGOP) { + instr_info->str_op = 1; + } else { + instr_info->str_op = 0; + } + + xed_operand_values_t * operands = xed_decoded_inst_operands(&xed_instr); + if (xed_operand_values_has_real_rep(operands)) { + instr_info->has_rep = 1; + } else { + instr_info->has_rep = 0; + } + + return 0; +} + + +static int decode_string_op(struct guest_info * info, + xed_decoded_inst_t * xed_instr, const xed_inst_t * xi, + struct x86_instr * instr) { + + PrintDebug("String operation\n"); + + if (instr->op_type == V3_OP_MOVS) { + instr->num_operands = 2; + + if (get_memory_operand(info, xed_instr, 0, &(instr->dst_operand)) == -1) { + PrintError("Could not get Destination memory operand\n"); + return -1; + } + + if (get_memory_operand(info, xed_instr, 1, &(instr->src_operand)) == -1) { + PrintError("Could not get Source memory operand\n"); + return -1; + } + + if (instr->prefixes.rep == 1) { + addr_t reg_addr = 0; + uint_t reg_length = 0; + + xed_reg_to_v3_reg(info, xed_decoded_inst_get_reg(xed_instr, XED_OPERAND_REG0), ®_addr, ®_length); + instr->str_op_length = MASK(*(addr_t *)reg_addr, reg_length); + } else { + instr->str_op_length = 1; + } + + } else if (instr->op_type == V3_OP_STOS) { + instr->num_operands = 2; + + if (get_memory_operand(info, xed_instr, 0, &(instr->dst_operand)) == -1) { + PrintError("Could not get Destination memory operand\n"); + return -1; + } + + // STOS reads from rax + xed_reg_to_v3_reg(info, xed_decoded_inst_get_reg(xed_instr, XED_OPERAND_REG0), + &(instr->src_operand.operand), + &(instr->src_operand.size)); + instr->src_operand.type = REG_OPERAND; + + if (instr->prefixes.rep == 1) { + addr_t reg_addr = 0; + uint_t reg_length = 0; + + xed_reg_to_v3_reg(info, xed_decoded_inst_get_reg(xed_instr, XED_OPERAND_REG1), ®_addr, ®_length); + instr->str_op_length = MASK(*(addr_t *)reg_addr, reg_length); + } else { + instr->str_op_length = 1; + } + + } else { + PrintError("Unhandled String OP\n"); + return -1; + } + + return 0; +} + + + +int v3_decode(struct guest_info * info, addr_t instr_ptr, struct x86_instr * instr) { + xed_decoded_inst_t xed_instr; + xed_error_enum_t xed_error; + + + v3_get_prefixes((uchar_t *)instr_ptr, &(instr->prefixes)); + + if (set_decoder_mode(info, info->decoder_state) == -1) { + PrintError("Could not set decoder mode\n"); + return -1; + } + + xed_decoded_inst_zero_set_mode(&xed_instr, info->decoder_state); + + xed_error = xed_decode(&xed_instr, + REINTERPRET_CAST(const xed_uint8_t *, instr_ptr), + XED_MAX_INSTRUCTION_BYTES); + + + if (xed_error != XED_ERROR_NONE) { + PrintError("Xed error: %s\n", xed_error_enum_t2str(xed_error)); + return -1; + } + + const xed_inst_t * xi = xed_decoded_inst_inst(&xed_instr); + instr->instr_length = xed_decoded_inst_get_length(&xed_instr); + + + xed_iform_enum_t iform = xed_decoded_inst_get_iform_enum(&xed_instr); + +#ifdef DEBUG_XED + xed_iclass_enum_t iclass = xed_decoded_inst_get_iclass(&xed_instr); + + PrintDebug("iform=%s, iclass=%s\n", xed_iform_enum_t2str(iform), xed_iclass_enum_t2str(iclass)); +#endif + + + if ((instr->op_type = get_opcode(iform)) == V3_INVALID_OP) { + PrintError("Could not get opcode. (iform=%s)\n", xed_iform_enum_t2str(iform)); + return -1; + } + + + // We special case the string operations... + if (xed_decoded_inst_get_category(&xed_instr) == XED_CATEGORY_STRINGOP) { + instr->is_str_op = 1; + return decode_string_op(info, &xed_instr, xi, instr); + } else { + instr->is_str_op = 0; + instr->str_op_length = 0; + } + + + instr->num_operands = xed_decoded_inst_noperands(&xed_instr); + + if (instr->num_operands > 3) { + PrintDebug("Special Case Not Handled\n"); + return -1; + // special case + } else if (instr->num_operands == 3) { + const xed_operand_t * op = xed_inst_operand(xi, 2); + xed_operand_enum_t op_enum = xed_operand_name(op); + + if ((!xed_operand_is_register(op_enum)) || + (!is_flags_reg(xed_decoded_inst_get_reg(&xed_instr, op_enum)))) { + // special case + PrintError("Special Case not handled\n"); + return -1; + } + } + + + + //PrintDebug("Number of operands: %d\n", instr->num_operands); + //PrintDebug("INSTR length: %d\n", instr->instr_length); + + // set first operand + if (instr->num_operands >= 1) { + const xed_operand_t * op = xed_inst_operand(xi, 0); + xed_operand_enum_t op_enum = xed_operand_name(op); + + struct x86_operand * v3_op = NULL; + + /* + if (xed_operand_written(op)) { + v3_op = &(instr->dst_operand); + } else { + v3_op = &(instr->src_operand); + } + */ + + v3_op = &(instr->dst_operand); + + if (xed_operand_is_register(op_enum)) { + xed_reg_enum_t xed_reg = xed_decoded_inst_get_reg(&xed_instr, op_enum); + int v3_reg_type = xed_reg_to_v3_reg(info, + xed_reg, + &(v3_op->operand), + &(v3_op->size)); + + if (v3_reg_type == -1) { + PrintError("First operand is an Unhandled Operand: %s\n", xed_reg_enum_t2str(xed_reg)); + v3_op->type = INVALID_OPERAND; + return -1; + } else if (v3_reg_type == SEGMENT_REGISTER) { + struct v3_segment * seg_reg = (struct v3_segment *)(v3_op->operand); + v3_op->operand = (addr_t)&(seg_reg->selector); + } + + v3_op->type = REG_OPERAND; + } else { + + switch (op_enum) { + + case XED_OPERAND_MEM0: + { + PrintDebug("Memory operand (1)\n"); + if (get_memory_operand(info, &xed_instr, 0, v3_op) == -1) { + PrintError("Could not get first memory operand\n"); + return -1; + } + } + break; + + case XED_OPERAND_MEM1: + case XED_OPERAND_IMM1: + // illegal + PrintError("Illegal Operand Order\n"); + return -1; + + + case XED_OPERAND_IMM0: + case XED_OPERAND_AGEN: + case XED_OPERAND_PTR: + case XED_OPERAND_RELBR: + default: + PrintError("Unhandled Operand Type\n"); + return -1; + + + } + } + } + + // set second operand + if (instr->num_operands >= 2) { + const xed_operand_t * op = xed_inst_operand(xi, 1); + // xed_operand_type_enum_t op_type = xed_operand_type(op); + xed_operand_enum_t op_enum = xed_operand_name(op); + + struct x86_operand * v3_op; + + /* + if (xed_operand_written(op)) { + v3_op = &(instr->dst_operand); + } else { + v3_op = &(instr->src_operand); + } + */ + v3_op = &(instr->src_operand); + + if (xed_operand_is_register(op_enum)) { + xed_reg_enum_t xed_reg = xed_decoded_inst_get_reg(&xed_instr, op_enum); + int v3_reg_type = xed_reg_to_v3_reg(info, + xed_reg, + &(v3_op->operand), + &(v3_op->size)); + if (v3_reg_type == -1) { + PrintError("Second operand is an Unhandled Operand: %s\n", xed_reg_enum_t2str(xed_reg)); + v3_op->type = INVALID_OPERAND; + return -1; + } else if (v3_reg_type == SEGMENT_REGISTER) { + struct v3_segment * seg_reg = (struct v3_segment *)(v3_op->operand); + v3_op->operand = (addr_t)&(seg_reg->selector); + } + + v3_op->type = REG_OPERAND; + + + } else { + + switch (op_enum) { + + case XED_OPERAND_MEM0: + { + PrintDebug("Memory operand (2)\n"); + if (get_memory_operand(info, &xed_instr, 0, v3_op) == -1) { + PrintError("Could not get first memory operand\n"); + return -1; + } + } + break; + + case XED_OPERAND_IMM0: + { + instr->src_operand.size = xed_decoded_inst_get_immediate_width(&xed_instr); + + if (instr->src_operand.size > 4) { + PrintError("Unhandled 64 bit immediates\n"); + return -1; + } + instr->src_operand.operand = xed_decoded_inst_get_unsigned_immediate(&xed_instr); + + instr->src_operand.type = IMM_OPERAND; + + } + break; + + case XED_OPERAND_MEM1: + case XED_OPERAND_IMM1: + // illegal + PrintError("Illegal Operand Order\n"); + return -1; + + case XED_OPERAND_AGEN: + case XED_OPERAND_PTR: + case XED_OPERAND_RELBR: + default: + PrintError("Unhandled Operand Type\n"); + return -1; + } + } + + } + + // set third operand + if (instr->num_operands >= 3) { + const xed_operand_t * op = xed_inst_operand(xi, 2); + xed_operand_type_enum_t op_type = xed_operand_type(op); + xed_operand_enum_t op_enum = xed_operand_name(op); + + if (xed_operand_is_register(op_enum)) { + xed_reg_enum_t xed_reg = xed_decoded_inst_get_reg(&xed_instr, op_enum); + int v3_reg_type = xed_reg_to_v3_reg(info, + xed_reg, + &(instr->third_operand.operand), + &(instr->third_operand.size)); + + if (v3_reg_type == -1) { + PrintError("Third operand is an Unhandled Operand: %s\n", xed_reg_enum_t2str(xed_reg)); + instr->third_operand.type = INVALID_OPERAND; + return -1; + } else if (v3_reg_type == SEGMENT_REGISTER) { + struct v3_segment * seg_reg = (struct v3_segment *)(instr->third_operand.operand); + instr->third_operand.operand = (addr_t)&(seg_reg->selector); + } + + + instr->third_operand.type = REG_OPERAND; + + + } else { + PrintError("Unhandled third operand type %s\n", xed_operand_type_enum_t2str(op_type)); + return -1; + } + + + } + + + + return 0; +} + + +int v3_encode(struct guest_info * info, struct x86_instr * instr, char * instr_buf) { - if (xed_error != XED_ERROR_NONE) { - PrintError("Xed error: %s\n", xed_error_enum_t2str(xed_error)); return -1; - } - - instr->instr_length = xed_decoded_inst_get_length (&xed_instr); - - - PrintDebug("category: %s\n", xed_category_enum_t2str(xed_decoded_inst_get_category(&xed_instr)));; - PrintDebug("ISA-extension:%s\n ",xed_extension_enum_t2str(xed_decoded_inst_get_extension(&xed_instr))); - PrintDebug(" instruction-length: %d\n ", xed_decoded_inst_get_length(&xed_instr)); - PrintDebug(" operand-size:%d\n ", xed_operand_values_get_effective_operand_width(xed_decoded_inst_operands_const(&xed_instr))); - PrintDebug("address-size:%d\n ", xed_operand_values_get_effective_address_width(xed_decoded_inst_operands_const(&xed_instr))); - PrintDebug("iform-enum-name:%s\n ",xed_iform_enum_t2str(xed_decoded_inst_get_iform_enum(&xed_instr))); - PrintDebug("iform-enum-name-dispatch (zero based):%d\n ", xed_decoded_inst_get_iform_enum_dispatch(&xed_instr)); - PrintDebug("iclass-max-iform-dispatch: %d\n ", xed_iform_max_per_iclass(xed_decoded_inst_get_iclass(&xed_instr))); +} + + + + + +static int get_memory_operand(struct guest_info * info, xed_decoded_inst_t * xed_instr, uint_t op_index, struct x86_operand * operand) { + struct memory_operand mem_op; + + addr_t seg; + addr_t base; + addr_t scale; + addr_t index; + ullong_t displacement; + int addr_width = v3_get_addr_width(info);; + // struct v3_segment * seg_reg; + + PrintDebug("Xen mode = %s\n", xed_machine_mode_enum_t2str(xed_state_get_machine_mode(info->decoder_state))); + PrintDebug("Address width: %s\n", + xed_address_width_enum_t2str(xed_state_get_address_width(info->decoder_state))); + PrintDebug("Stack Address width: %s\n", + xed_address_width_enum_t2str(xed_state_get_stack_address_width(info->decoder_state))); + - // operands - // print_operands(&xed_instr); + + memset((void*)&mem_op, '\0', sizeof(struct memory_operand)); + + xed_reg_enum_t xed_seg = xed_decoded_inst_get_seg_reg(xed_instr, op_index); + if (xed_seg != XED_REG_INVALID) { + struct v3_segment *tmp_segment; + if (xed_reg_to_v3_reg(info, xed_seg, (addr_t *)&tmp_segment, &(mem_op.segment_size)) == -1) { + PrintError("Unhandled Segment Register\n"); + return -1; + } + mem_op.segment = tmp_segment->base; + } + + xed_reg_enum_t xed_base = xed_decoded_inst_get_base_reg(xed_instr, op_index); + if (xed_base != XED_REG_INVALID) { + addr_t base_reg; + if (xed_reg_to_v3_reg(info, xed_base, &base_reg, &(mem_op.base_size)) == -1) { + PrintError("Unhandled Base register\n"); + return -1; + } + mem_op.base = *(addr_t *)base_reg; + } + - // memops - // print_memops(&xed_instr); + + xed_reg_enum_t xed_idx = xed_decoded_inst_get_index_reg(xed_instr, op_index); + if ((op_index == 0) && (xed_idx != XED_REG_INVALID)) { + addr_t index_reg; + + if (xed_reg_to_v3_reg(info, xed_idx, &index_reg, &(mem_op.index_size)) == -1) { + PrintError("Unhandled Index Register\n"); + return -1; + } + + mem_op.index= *(addr_t *)index_reg; + + xed_uint_t xed_scale = xed_decoded_inst_get_scale(xed_instr, op_index); + if (xed_scale != 0) { + mem_op.scale = xed_scale; + } + } + + + xed_uint_t disp_bits = xed_decoded_inst_get_memory_displacement_width(xed_instr, op_index); + if (disp_bits) { + xed_int64_t xed_disp = xed_decoded_inst_get_memory_displacement(xed_instr, op_index); + + mem_op.displacement_size = disp_bits; + mem_op.displacement = xed_disp; + } + + operand->type = MEM_OPERAND; + operand->size = xed_decoded_inst_get_memory_operand_length(xed_instr, op_index); - // flags - //print_flags(&xed_instr); - // attributes - //print_attributes(&xed_instr);*/ + PrintDebug("Struct: Seg=%p (size=%d), base=%p, index=%p, scale=%p, displacement=%p (size=%d)\n", + (void *)mem_op.segment, mem_op.segment_size, (void*)mem_op.base, (void *)mem_op.index, + (void *)mem_op.scale, (void *)(addr_t)mem_op.displacement, mem_op.displacement_size); - return -1; -} + PrintDebug("operand size: %d\n", operand->size); + seg = MASK(mem_op.segment, mem_op.segment_size); + base = MASK(mem_op.base, mem_op.base_size); + index = MASK(mem_op.index, mem_op.index_size); + scale = mem_op.scale; -int v3_encode(struct guest_info * info, struct x86_instr * instr, char * instr_buf) { + // This is a horrendous hack... + // XED really screwed the pooch in calculating the displacement + if (v3_get_cpu_mode(info) == LONG) { + displacement = mem_op.displacement; + } else { + displacement = MASK(mem_op.displacement, mem_op.displacement_size); + } + + PrintDebug("Seg=%p, base=%p, index=%p, scale=%p, displacement=%p\n", + (void *)seg, (void *)base, (void *)index, (void *)scale, (void *)(addr_t)displacement); + + operand->operand = MASK((seg + base + (scale * index) + displacement), addr_width); - return -1; + return 0; } +static int xed_reg_to_v3_reg(struct guest_info * info, xed_reg_enum_t xed_reg, addr_t * v3_reg, uint_t * reg_len) { + PrintDebug("Xed Register: %s\n", xed_reg_enum_t2str(xed_reg)); -/* + switch (xed_reg) { + case XED_REG_INVALID: + *v3_reg = 0; + *reg_len = 0; + return -1; - xed_state_t dstate; - xed_decoded_inst_t xedd; - xed_uint_t i, length; - xed_uint8_t itext[100] = {0x01,0x00,0x00,0x00,0x12,0x00,0x55,0x48,0x89,0xe5,0x48,0x89,0x7d,0xf8,0x89,0x75,0xf4,0x89,0x55,0xf0,0x89,0x4d,0xec,0x48,0x8b,0x55,0xf8,0x8b,0x45,0xf4,0x89,0x02,0x48,0x8b,0x55,0xf8,0x8b,0x45,0xf0,0x89,0x42,0x04,0x48,0x8b,0x55,0xf8,0x8b,0x45,0xec,0x89,0x42,0x08,0xc9,0xc3,0x55,0x48,0x89,0xe5,0x48,0x89,0x7d,0xf8,0x48,0x8b,0x45,0xf8,0x8b,0x40,0x08,0xc9,0xc3,0x90,0x0}; - xed_bool_t long_mode = true; - unsigned int first_argv; - int num; - + /* + * GPRs + */ + case XED_REG_RAX: + *v3_reg = (addr_t)&(info->vm_regs.rax); + *reg_len = 8; + return GPR_REGISTER; + case XED_REG_EAX: + *v3_reg = (addr_t)&(info->vm_regs.rax); + *reg_len = 4; + return GPR_REGISTER; + case XED_REG_AX: + *v3_reg = (addr_t)&(info->vm_regs.rax); + *reg_len = 2; + return GPR_REGISTER; + case XED_REG_AH: + *v3_reg = (addr_t)(&(info->vm_regs.rax)) + 1; + *reg_len = 1; + return GPR_REGISTER; + case XED_REG_AL: + *v3_reg = (addr_t)&(info->vm_regs.rax); + *reg_len = 1; + return GPR_REGISTER; - for (i=0, num=1; i<100; i += length, num++){ - xed_tables_init(); - xed_state_zero(&dstate); - //if (argc > 2 && strcmp(argv[1], "-64") == 0) - long_mode = true; + case XED_REG_RCX: + *v3_reg = (addr_t)&(info->vm_regs.rcx); + *reg_len = 8; + return GPR_REGISTER; + case XED_REG_ECX: + *v3_reg = (addr_t)&(info->vm_regs.rcx); + *reg_len = 4; + return GPR_REGISTER; + case XED_REG_CX: + *v3_reg = (addr_t)&(info->vm_regs.rcx); + *reg_len = 2; + return GPR_REGISTER; + case XED_REG_CH: + *v3_reg = (addr_t)(&(info->vm_regs.rcx)) + 1; + *reg_len = 1; + return GPR_REGISTER; + case XED_REG_CL: + *v3_reg = (addr_t)&(info->vm_regs.rcx); + *reg_len = 1; + return GPR_REGISTER; - if (long_mode) { - first_argv = 2; - dstate.mmode=XED_MACHINE_MODE_LONG_64; - } - else { - first_argv=1; - xed_state_init(&dstate, - XED_MACHINE_MODE_LEGACY_32, - XED_ADDRESS_WIDTH_32b, - XED_ADDRESS_WIDTH_32b); - } + case XED_REG_RDX: + *v3_reg = (addr_t)&(info->vm_regs.rdx); + *reg_len = 8; + return GPR_REGISTER; + case XED_REG_EDX: + *v3_reg = (addr_t)&(info->vm_regs.rdx); + *reg_len = 4; + return GPR_REGISTER; + case XED_REG_DX: + *v3_reg = (addr_t)&(info->vm_regs.rdx); + *reg_len = 2; + return GPR_REGISTER; + case XED_REG_DH: + *v3_reg = (addr_t)(&(info->vm_regs.rdx)) + 1; + *reg_len = 1; + return GPR_REGISTER; + case XED_REG_DL: + *v3_reg = (addr_t)&(info->vm_regs.rdx); + *reg_len = 1; + return GPR_REGISTER; - xed_decoded_inst_zero_set_mode(&xedd, &dstate); - xed_error_enum_t xed_error = xed_decode(&xedd, - REINTERPRET_CAST(const xed_uint8_t*,&itext[i]), - XED_MAX_INSTRUCTION_BYTES); - switch(xed_error) { - case XED_ERROR_NONE: - break; - case XED_ERROR_BUFFER_TOO_SHORT: - PrintDebug("Not enough bytes provided\n"); - return 1; - case XED_ERROR_GENERAL_ERROR: - PrintDebug("Could not decode given input.\n"); - return 1; - default: - PrintDebug("Unhandled error code \n"); - return 1;; - } + case XED_REG_RBX: + *v3_reg = (addr_t)&(info->vm_regs.rbx); + *reg_len = 8; + return GPR_REGISTER; + case XED_REG_EBX: + *v3_reg = (addr_t)&(info->vm_regs.rbx); + *reg_len = 4; + return GPR_REGISTER; + case XED_REG_BX: + *v3_reg = (addr_t)&(info->vm_regs.rbx); + *reg_len = 2; + return GPR_REGISTER; + case XED_REG_BH: + *v3_reg = (addr_t)(&(info->vm_regs.rbx)) + 1; + *reg_len = 1; + return GPR_REGISTER; + case XED_REG_BL: + *v3_reg = (addr_t)&(info->vm_regs.rbx); + *reg_len = 1; + return GPR_REGISTER; + + + case XED_REG_RSP: + *v3_reg = (addr_t)&(info->vm_regs.rsp); + *reg_len = 8; + return GPR_REGISTER; + case XED_REG_ESP: + *v3_reg = (addr_t)&(info->vm_regs.rsp); + *reg_len = 4; + return GPR_REGISTER; + case XED_REG_SP: + *v3_reg = (addr_t)&(info->vm_regs.rsp); + *reg_len = 2; + return GPR_REGISTER; + case XED_REG_SPL: + *v3_reg = (addr_t)&(info->vm_regs.rsp); + *reg_len = 1; + return GPR_REGISTER; + + case XED_REG_RBP: + *v3_reg = (addr_t)&(info->vm_regs.rbp); + *reg_len = 8; + return GPR_REGISTER; + case XED_REG_EBP: + *v3_reg = (addr_t)&(info->vm_regs.rbp); + *reg_len = 4; + return GPR_REGISTER; + case XED_REG_BP: + *v3_reg = (addr_t)&(info->vm_regs.rbp); + *reg_len = 2; + return GPR_REGISTER; + case XED_REG_BPL: + *v3_reg = (addr_t)&(info->vm_regs.rbp); + *reg_len = 1; + return GPR_REGISTER; + + + + case XED_REG_RSI: + *v3_reg = (addr_t)&(info->vm_regs.rsi); + *reg_len = 8; + return GPR_REGISTER; + case XED_REG_ESI: + *v3_reg = (addr_t)&(info->vm_regs.rsi); + *reg_len = 4; + return GPR_REGISTER; + case XED_REG_SI: + *v3_reg = (addr_t)&(info->vm_regs.rsi); + *reg_len = 2; + return GPR_REGISTER; + case XED_REG_SIL: + *v3_reg = (addr_t)&(info->vm_regs.rsi); + *reg_len = 1; + return GPR_REGISTER; + + + case XED_REG_RDI: + *v3_reg = (addr_t)&(info->vm_regs.rdi); + *reg_len = 8; + return GPR_REGISTER; + case XED_REG_EDI: + *v3_reg = (addr_t)&(info->vm_regs.rdi); + *reg_len = 4; + return GPR_REGISTER; + case XED_REG_DI: + *v3_reg = (addr_t)&(info->vm_regs.rdi); + *reg_len = 2; + return GPR_REGISTER; + case XED_REG_DIL: + *v3_reg = (addr_t)&(info->vm_regs.rdi); + *reg_len = 1; + return GPR_REGISTER; + + + + + + case XED_REG_R8: + *v3_reg = (addr_t)&(info->vm_regs.r8); + *reg_len = 8; + return GPR_REGISTER; + case XED_REG_R8D: + *v3_reg = (addr_t)&(info->vm_regs.r8); + *reg_len = 4; + return GPR_REGISTER; + case XED_REG_R8W: + *v3_reg = (addr_t)&(info->vm_regs.r8); + *reg_len = 2; + return GPR_REGISTER; + case XED_REG_R8B: + *v3_reg = (addr_t)&(info->vm_regs.r8); + *reg_len = 1; + return GPR_REGISTER; + + case XED_REG_R9: + *v3_reg = (addr_t)&(info->vm_regs.r9); + *reg_len = 8; + return GPR_REGISTER; + case XED_REG_R9D: + *v3_reg = (addr_t)&(info->vm_regs.r9); + *reg_len = 4; + return GPR_REGISTER; + case XED_REG_R9W: + *v3_reg = (addr_t)&(info->vm_regs.r9); + *reg_len = 2; + return GPR_REGISTER; + case XED_REG_R9B: + *v3_reg = (addr_t)&(info->vm_regs.r9); + *reg_len = 1; + return GPR_REGISTER; + + case XED_REG_R10: + *v3_reg = (addr_t)&(info->vm_regs.r10); + *reg_len = 8; + return GPR_REGISTER; + case XED_REG_R10D: + *v3_reg = (addr_t)&(info->vm_regs.r10); + *reg_len = 4; + return GPR_REGISTER; + case XED_REG_R10W: + *v3_reg = (addr_t)&(info->vm_regs.r10); + *reg_len = 2; + return GPR_REGISTER; + case XED_REG_R10B: + *v3_reg = (addr_t)&(info->vm_regs.r10); + *reg_len = 1; + return GPR_REGISTER; + + case XED_REG_R11: + *v3_reg = (addr_t)&(info->vm_regs.r11); + *reg_len = 8; + return GPR_REGISTER; + case XED_REG_R11D: + *v3_reg = (addr_t)&(info->vm_regs.r11); + *reg_len = 4; + return GPR_REGISTER; + case XED_REG_R11W: + *v3_reg = (addr_t)&(info->vm_regs.r11); + *reg_len = 2; + return GPR_REGISTER; + case XED_REG_R11B: + *v3_reg = (addr_t)&(info->vm_regs.r11); + *reg_len = 1; + return GPR_REGISTER; + + case XED_REG_R12: + *v3_reg = (addr_t)&(info->vm_regs.r12); + *reg_len = 8; + return GPR_REGISTER; + case XED_REG_R12D: + *v3_reg = (addr_t)&(info->vm_regs.r12); + *reg_len = 4; + return GPR_REGISTER; + case XED_REG_R12W: + *v3_reg = (addr_t)&(info->vm_regs.r12); + *reg_len = 2; + return GPR_REGISTER; + case XED_REG_R12B: + *v3_reg = (addr_t)&(info->vm_regs.r12); + *reg_len = 1; + return GPR_REGISTER; + + case XED_REG_R13: + *v3_reg = (addr_t)&(info->vm_regs.r13); + *reg_len = 8; + return GPR_REGISTER; + case XED_REG_R13D: + *v3_reg = (addr_t)&(info->vm_regs.r13); + *reg_len = 4; + return GPR_REGISTER; + case XED_REG_R13W: + *v3_reg = (addr_t)&(info->vm_regs.r13); + *reg_len = 2; + return GPR_REGISTER; + case XED_REG_R13B: + *v3_reg = (addr_t)&(info->vm_regs.r13); + *reg_len = 1; + return GPR_REGISTER; + + case XED_REG_R14: + *v3_reg = (addr_t)&(info->vm_regs.r14); + *reg_len = 8; + return GPR_REGISTER; + case XED_REG_R14D: + *v3_reg = (addr_t)&(info->vm_regs.r14); + *reg_len = 4; + return GPR_REGISTER; + case XED_REG_R14W: + *v3_reg = (addr_t)&(info->vm_regs.r14); + *reg_len = 2; + return GPR_REGISTER; + case XED_REG_R14B: + *v3_reg = (addr_t)&(info->vm_regs.r14); + *reg_len = 1; + return GPR_REGISTER; + + case XED_REG_R15: + *v3_reg = (addr_t)&(info->vm_regs.r15); + *reg_len = 8; + return GPR_REGISTER; + case XED_REG_R15D: + *v3_reg = (addr_t)&(info->vm_regs.r15); + *reg_len = 4; + return GPR_REGISTER; + case XED_REG_R15W: + *v3_reg = (addr_t)&(info->vm_regs.r15); + *reg_len = 2; + return GPR_REGISTER; + case XED_REG_R15B: + *v3_reg = (addr_t)&(info->vm_regs.r15); + *reg_len = 1; + return GPR_REGISTER; + + + /* + * CTRL REGS + */ + case XED_REG_RIP: + *v3_reg = (addr_t)&(info->rip); + *reg_len = 8; + return CTRL_REGISTER; + case XED_REG_EIP: + *v3_reg = (addr_t)&(info->rip); + *reg_len = 4; + return CTRL_REGISTER; + case XED_REG_IP: + *v3_reg = (addr_t)&(info->rip); + *reg_len = 2; + return CTRL_REGISTER; - length = xed_decoded_inst_get_length (&xedd); + case XED_REG_FLAGS: + *v3_reg = (addr_t)&(info->ctrl_regs.rflags); + *reg_len = 2; + return CTRL_REGISTER; + case XED_REG_EFLAGS: + *v3_reg = (addr_t)&(info->ctrl_regs.rflags); + *reg_len = 4; + return CTRL_REGISTER; + case XED_REG_RFLAGS: + *v3_reg = (addr_t)&(info->ctrl_regs.rflags); + *reg_len = 8; + return CTRL_REGISTER; - PrintDebug("\nThe %dth instruction:", num); + case XED_REG_CR0: + *v3_reg = (addr_t)&(info->ctrl_regs.cr0); + *reg_len = 4; + return CTRL_REGISTER; + case XED_REG_CR2: + *v3_reg = (addr_t)&(info->ctrl_regs.cr2); + *reg_len = 4; + return CTRL_REGISTER; + case XED_REG_CR3: + *v3_reg = (addr_t)&(info->ctrl_regs.cr3); + *reg_len = 4; + return CTRL_REGISTER; + case XED_REG_CR4: + *v3_reg = (addr_t)&(info->ctrl_regs.cr4); + *reg_len = 4; + return CTRL_REGISTER; + case XED_REG_CR8: + *v3_reg = (addr_t)&(info->ctrl_regs.cr8); + *reg_len = 4; + return CTRL_REGISTER; - PrintDebug("\ncategory: "); - PrintDebug(" %s\n", xed_category_enum_t2str(xed_decoded_inst_get_category(&xedd)));; - PrintDebug("ISA-extension:%s\n ",xed_extension_enum_t2str(xed_decoded_inst_get_extension(&xedd))); - PrintDebug(" instruction-length: %d\n ", xed_decoded_inst_get_length(&xedd)); - PrintDebug(" operand-size:%d\n ", xed_operand_values_get_effective_operand_width(xed_decoded_inst_operands_const(&xedd))); - PrintDebug("address-size:%d\n ", xed_operand_values_get_effective_address_width(xed_decoded_inst_operands_const(&xedd))); - PrintDebug("iform-enum-name:%s\n ",xed_iform_enum_t2str(xed_decoded_inst_get_iform_enum(&xedd))); - PrintDebug("iform-enum-name-dispatch (zero based):%d\n ", xed_decoded_inst_get_iform_enum_dispatch(&xedd)); - PrintDebug("iclass-max-iform-dispatch: %d\n ", xed_iform_max_per_iclass(xed_decoded_inst_get_iclass(&xedd))); + case XED_REG_CR1: + case XED_REG_CR5: + case XED_REG_CR6: + case XED_REG_CR7: + case XED_REG_CR9: + case XED_REG_CR10: + case XED_REG_CR11: + case XED_REG_CR12: + case XED_REG_CR13: + case XED_REG_CR14: + case XED_REG_CR15: + return -1; - // operands - // print_operands(&xedd); - - // memops - // print_memops(&xedd); - - // flags - //print_flags(&xedd); - // attributes - //print_attributes(&xedd); + + + /* + * SEGMENT REGS + */ + case XED_REG_CS: + *v3_reg = (addr_t)&(info->segments.cs); + *reg_len = 8; + return SEGMENT_REGISTER; + case XED_REG_DS: + *v3_reg = (addr_t)&(info->segments.ds); + *reg_len = 8; + return SEGMENT_REGISTER; + case XED_REG_ES: + *v3_reg = (addr_t)&(info->segments.es); + *reg_len = 8; + return SEGMENT_REGISTER; + case XED_REG_SS: + *v3_reg = (addr_t)&(info->segments.ss); + *reg_len = 8; + return SEGMENT_REGISTER; + case XED_REG_FS: + *v3_reg = (addr_t)&(info->segments.fs); + *reg_len = 8; + return SEGMENT_REGISTER; + case XED_REG_GS: + *v3_reg = (addr_t)&(info->segments.gs); + *reg_len = 8; + return SEGMENT_REGISTER; + + + case XED_REG_GDTR: + case XED_REG_LDTR: + case XED_REG_IDTR: + case XED_REG_TR: + PrintError("Segment selector operand... Don't know how to handle this...\n"); + return -1; + + /* + * DEBUG REGS + */ + case XED_REG_DR0: + case XED_REG_DR1: + case XED_REG_DR2: + case XED_REG_DR3: + case XED_REG_DR4: + case XED_REG_DR5: + case XED_REG_DR6: + case XED_REG_DR7: + case XED_REG_DR8: + case XED_REG_DR9: + case XED_REG_DR10: + case XED_REG_DR11: + case XED_REG_DR12: + case XED_REG_DR13: + case XED_REG_DR14: + case XED_REG_DR15: + return -1; + + + + + + + case XED_REG_XMM0: + case XED_REG_XMM1: + case XED_REG_XMM2: + case XED_REG_XMM3: + case XED_REG_XMM4: + case XED_REG_XMM5: + case XED_REG_XMM6: + case XED_REG_XMM7: + case XED_REG_XMM8: + case XED_REG_XMM9: + case XED_REG_XMM10: + case XED_REG_XMM11: + case XED_REG_XMM12: + case XED_REG_XMM13: + case XED_REG_XMM14: + case XED_REG_XMM15: + + case XED_REG_MMX0: + case XED_REG_MMX1: + case XED_REG_MMX2: + case XED_REG_MMX3: + case XED_REG_MMX4: + case XED_REG_MMX5: + case XED_REG_MMX6: + case XED_REG_MMX7: + + case XED_REG_ST0: + case XED_REG_ST1: + case XED_REG_ST2: + case XED_REG_ST3: + case XED_REG_ST4: + case XED_REG_ST5: + case XED_REG_ST6: + case XED_REG_ST7: + + case XED_REG_ONE: + case XED_REG_STACKPUSH: + case XED_REG_STACKPOP: + + case XED_REG_TSC: + case XED_REG_TSCAUX: + case XED_REG_MSRS: + + case XED_REG_X87CONTROL: + case XED_REG_X87STATUS: + case XED_REG_X87TOP: + case XED_REG_X87TAG: + case XED_REG_X87PUSH: + case XED_REG_X87POP: + case XED_REG_X87POP2: + + case XED_REG_MXCSR: + + case XED_REG_TMP0: + case XED_REG_TMP1: + case XED_REG_TMP2: + case XED_REG_TMP3: + case XED_REG_TMP4: + case XED_REG_TMP5: + case XED_REG_TMP6: + case XED_REG_TMP7: + case XED_REG_TMP8: + case XED_REG_TMP9: + case XED_REG_TMP10: + case XED_REG_TMP11: + case XED_REG_TMP12: + case XED_REG_TMP13: + case XED_REG_TMP14: + case XED_REG_TMP15: + + case XED_REG_LAST: + + case XED_REG_ERROR: + // error?? + return -1; + } + return 0; +} -*/ + + +static v3_op_type_t get_opcode(xed_iform_enum_t iform) { + + switch (iform) { + + /* Control Instructions */ + + case XED_IFORM_MOV_CR_GPR64_CR: + case XED_IFORM_MOV_CR_GPR32_CR: + return V3_OP_MOVCR2; + + case XED_IFORM_MOV_CR_CR_GPR64: + case XED_IFORM_MOV_CR_CR_GPR32: + return V3_OP_MOV2CR; + + case XED_IFORM_SMSW_GPRv: + return V3_OP_SMSW; + + case XED_IFORM_LMSW_GPR16: + return V3_OP_LMSW; + + case XED_IFORM_CLTS: + return V3_OP_CLTS; + + case XED_IFORM_INVLPG_MEMb: + return V3_OP_INVLPG; + + + /* Data Instructions */ + + // Write + case XED_IFORM_ADC_MEMv_GPRv: + case XED_IFORM_ADC_MEMv_IMM: + case XED_IFORM_ADC_MEMb_GPR8: + case XED_IFORM_ADC_MEMb_IMM: + // Read + case XED_IFORM_ADC_GPRv_MEMv: + case XED_IFORM_ADC_GPR8_MEMb: + return V3_OP_ADC; + + // Write + case XED_IFORM_ADD_MEMv_GPRv: + case XED_IFORM_ADD_MEMb_IMM: + case XED_IFORM_ADD_MEMb_GPR8: + case XED_IFORM_ADD_MEMv_IMM: + // Read + case XED_IFORM_ADD_GPRv_MEMv: + case XED_IFORM_ADD_GPR8_MEMb: + return V3_OP_ADD; + + // Write + case XED_IFORM_AND_MEMv_IMM: + case XED_IFORM_AND_MEMb_GPR8: + case XED_IFORM_AND_MEMv_GPRv: + case XED_IFORM_AND_MEMb_IMM: + // Read + case XED_IFORM_AND_GPR8_MEMb: + case XED_IFORM_AND_GPRv_MEMv: + return V3_OP_AND; + + // Write + case XED_IFORM_SUB_MEMv_IMM: + case XED_IFORM_SUB_MEMb_GPR8: + case XED_IFORM_SUB_MEMb_IMM: + case XED_IFORM_SUB_MEMv_GPRv: + // Read + case XED_IFORM_SUB_GPR8_MEMb: + case XED_IFORM_SUB_GPRv_MEMv: + return V3_OP_SUB; + + // Write + case XED_IFORM_MOV_MEMv_GPRv: + case XED_IFORM_MOV_MEMb_GPR8: + case XED_IFORM_MOV_MEMb_AL: + case XED_IFORM_MOV_MEMv_IMM: + case XED_IFORM_MOV_MEMb_IMM: + // Read + case XED_IFORM_MOV_GPRv_MEMv: + case XED_IFORM_MOV_GPR8_MEMb: + case XED_IFORM_MOV_AL_MEMb: + return V3_OP_MOV; + + + // Read + case XED_IFORM_MOVZX_GPRv_MEMb: + case XED_IFORM_MOVZX_GPRv_MEMw: + return V3_OP_MOVZX; + + // Read + case XED_IFORM_MOVSX_GPRv_MEMb: + case XED_IFORM_MOVSX_GPRv_MEMw: + return V3_OP_MOVSX; + + + + case XED_IFORM_DEC_MEMv: + case XED_IFORM_DEC_MEMb: + return V3_OP_DEC; + + case XED_IFORM_INC_MEMb: + case XED_IFORM_INC_MEMv: + return V3_OP_INC; + + // Write + case XED_IFORM_OR_MEMv_IMM: + case XED_IFORM_OR_MEMb_IMM: + case XED_IFORM_OR_MEMv_GPRv: + case XED_IFORM_OR_MEMb_GPR8: + // Read + case XED_IFORM_OR_GPRv_MEMv: + case XED_IFORM_OR_GPR8_MEMb: + return V3_OP_OR; + + // Write + case XED_IFORM_XOR_MEMv_GPRv: + case XED_IFORM_XOR_MEMb_IMM: + case XED_IFORM_XOR_MEMb_GPR8: + case XED_IFORM_XOR_MEMv_IMM: + // Read + case XED_IFORM_XOR_GPRv_MEMv: + case XED_IFORM_XOR_GPR8_MEMb: + return V3_OP_XOR; + + case XED_IFORM_NEG_MEMb: + case XED_IFORM_NEG_MEMv: + return V3_OP_NEG; + + case XED_IFORM_NOT_MEMv: + case XED_IFORM_NOT_MEMb: + return V3_OP_NOT; + + case XED_IFORM_XCHG_MEMv_GPRv: + case XED_IFORM_XCHG_MEMb_GPR8: + return V3_OP_XCHG; + + case XED_IFORM_SETB_MEMb: + return V3_OP_SETB; + + case XED_IFORM_SETBE_MEMb: + return V3_OP_SETBE; + + case XED_IFORM_SETL_MEMb: + return V3_OP_SETL; + + case XED_IFORM_SETLE_MEMb: + return V3_OP_SETLE; + + case XED_IFORM_SETNB_MEMb: + return V3_OP_SETNB; + + case XED_IFORM_SETNBE_MEMb: + return V3_OP_SETNBE; + + case XED_IFORM_SETNL_MEMb: + return V3_OP_SETNL; + + case XED_IFORM_SETNLE_MEMb: + return V3_OP_SETNLE; + + case XED_IFORM_SETNO_MEMb: + return V3_OP_SETNO; + + case XED_IFORM_SETNP_MEMb: + return V3_OP_SETNP; + + case XED_IFORM_SETNS_MEMb: + return V3_OP_SETNS; + + case XED_IFORM_SETNZ_MEMb: + return V3_OP_SETNZ; + + case XED_IFORM_SETO_MEMb: + return V3_OP_SETO; + + case XED_IFORM_SETP_MEMb: + return V3_OP_SETP; + + case XED_IFORM_SETS_MEMb: + return V3_OP_SETS; + + case XED_IFORM_SETZ_MEMb: + return V3_OP_SETZ; + + case XED_IFORM_MOVSB: + case XED_IFORM_MOVSW: + case XED_IFORM_MOVSD: + case XED_IFORM_MOVSQ: + return V3_OP_MOVS; + + case XED_IFORM_STOSB: + case XED_IFORM_STOSW: + case XED_IFORM_STOSD: + case XED_IFORM_STOSQ: + return V3_OP_STOS; + + + default: + return V3_INVALID_OP; + } +}