--- /dev/null
+#include "vmm_decoder.h"
+#include "vmm_xed.h"
+#include <xed/xed-interface.h>
+#include "vm_guest.h"
+#include "test.h"
+
+static xed_state_t decoder_state;
+
+#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;
+
+
+#define MASK(val, length) ({ \
+ ullong_t mask = 0x0LL; \
+ switch (length) { \
+ case 1: \
+ mask = mask_1; \
+ case 2: \
+ mask = mask_2; \
+ case 4: \
+ mask = mask_4; \
+ case 8: \
+ mask = mask_8; \
+ } \
+ 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;
+};
+
+
+
+// This returns a pointer to a V3_OPCODE_[*] array defined in vmm_decoder.h
+static int get_opcode(xed_iform_enum_t iform, addr_t * opcode);
+
+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;
+}
+
+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 init_decoder() {
+ xed_tables_init();
+ xed_state_zero(&decoder_state);
+ 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;
+ }
+
+
+
+ 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 (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);
+ instr->num_operands = xed_decoded_inst_noperands(&xed_instr);
+
+ xed_iform_enum_t iform = xed_decoded_inst_get_iform_enum(&xed_instr);
+
+
+ PrintDebug("iform=%s\n", xed_iform_enum_t2str(iform));
+
+
+ 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
+ PrintDebug("Special Case not handled\n");
+ return -1;
+ }
+ }
+
+
+
+
+ /*
+ if (get_opcode(iform, &(instr->opcode)) == -1) {
+ PrintDebug("Could not get opcode. (iform=%s)\n", xed_iform_enum_t2str(iform));
+ 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);
+
+ 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->dst_operand.operand),
+ &(instr->dst_operand.size));
+
+ if (v3_reg_type == -1) {
+ PrintError("First operand is an Unhandled Operand: %s\n", xed_reg_enum_t2str(xed_reg));
+ instr->dst_operand.type = INVALID_OPERAND;
+ return -1;
+ } else if (v3_reg_type == SEGMENT_REGISTER) {
+ struct v3_segment * seg_reg = (struct v3_segment *)(instr->dst_operand.operand);
+ instr->dst_operand.operand = (addr_t)&(seg_reg->selector);
+ }
+
+ instr->dst_operand.type = REG_OPERAND;
+ } else {
+
+ switch (op_enum) {
+
+ case XED_OPERAND_MEM0:
+ {
+ struct x86_operand * operand = &(instr->dst_operand);
+
+ if (xed_decoded_inst_mem_read(&xed_instr, 0)) {
+ operand = &(instr->src_operand);
+ } else if (xed_decoded_inst_mem_written(&xed_instr, 0)) {
+ operand = &(instr->dst_operand);
+ }
+
+ if (get_memory_operand(info, &xed_instr, 0, operand) == -1) {
+ PrintError("Could not get first memory operand\n");
+ return -1;
+ }
+ }
+ break;
+ case XED_OPERAND_AGEN:
+ case XED_OPERAND_PTR:
+ case XED_OPERAND_RELBR:
+ case XED_OPERAND_IMM0:
+ PrintError("Unhandled Operand Type\n");
+ return -1;
+
+ case XED_OPERAND_MEM1:
+ case XED_OPERAND_IMM1:
+ // illegal
+ PrintError("Illegal Operand Order\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);
+
+ 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->src_operand.operand),
+ &(instr->src_operand.size));
+ if (v3_reg_type == -1) {
+ PrintError("Second operand is an Unhandled Operand: %s\n", xed_reg_enum_t2str(xed_reg));
+ instr->src_operand.type = INVALID_OPERAND;
+ return -1;
+ } else if (v3_reg_type == SEGMENT_REGISTER) {
+ struct v3_segment * seg_reg = (struct v3_segment *)(instr->src_operand.operand);
+ instr->src_operand.operand = (addr_t)&(seg_reg->selector);
+ }
+
+ instr->src_operand.type = REG_OPERAND;
+
+
+ } else {
+
+ switch (op_enum) {
+
+ case XED_OPERAND_MEM0:
+ {
+ struct x86_operand * operand = &(instr->src_operand);
+
+ if (xed_decoded_inst_mem_read(&xed_instr, 0)) {
+ operand = &(instr->src_operand);
+ } else if (xed_decoded_inst_mem_written(&xed_instr, 0)) {
+ operand = &(instr->dst_operand);
+ }
+
+ if (get_memory_operand(info, &xed_instr, 0, operand) == -1) {
+ PrintError("Could not get first memory operand\n");
+ return -1;
+ }
+ }
+ break;
+ case XED_OPERAND_AGEN:
+ case XED_OPERAND_PTR:
+ case XED_OPERAND_RELBR:
+ case XED_OPERAND_IMM0:
+ PrintError("Unhandled Operand Type\n");
+ return -1;
+
+ case XED_OPERAND_MEM1:
+ case XED_OPERAND_IMM1:
+ // illegal
+ PrintError("Illegal Operand Order\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) {
+
+ return -1;
+}
+
+
+
+
+
+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;
+ struct v3_segment * seg_reg;
+
+
+
+
+ memset(&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;
+ }
+
+
+
+ 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 / 8;
+ mem_op.displacement = xed_disp;
+
+ }
+
+ operand->type = MEM_OPERAND;
+ operand->size = xed_decoded_inst_get_memory_operand_length(xed_instr, op_index);
+
+
+
+ PrintDebug("Struct: Seg=%x, base=%x, index=%x, scale=%x, displacement=%x\n",
+ mem_op.segment, mem_op.base, mem_op.index, mem_op.scale, mem_op.displacement);
+
+
+ seg = mem_op.segment;
+ base = MASK(mem_op.base, mem_op.base_size);
+ index = MASK(mem_op.index, mem_op.index_size);
+ scale = mem_op.scale;
+ displacement = MASK(mem_op.displacement, mem_op.displacement_size);
+
+ PrintDebug("Seg=%x, base=%x, index=%x, scale=%x, displacement=%x\n", seg, base, index, scale, displacement);
+
+ operand->operand = seg + base + (scale * index) + displacement;
+ 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) {
+
+ switch (xed_reg) {
+ case XED_REG_INVALID:
+ *v3_reg = 0;
+ *reg_len = 0;
+ return -1;
+
+ /*
+ * 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;
+
+ 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;
+
+ 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;
+
+ 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;
+
+
+ /*
+ * 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;
+
+ 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;
+
+ 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;
+
+ 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;
+
+
+
+
+ /*
+ * SEGMENT REGS
+ */
+ case XED_REG_CS:
+ *v3_reg = (addr_t)&(info->segments.cs);
+ return SEGMENT_REGISTER;
+ case XED_REG_DS:
+ *v3_reg = (addr_t)&(info->segments.ds);
+ return SEGMENT_REGISTER;
+ case XED_REG_ES:
+ *v3_reg = (addr_t)&(info->segments.es);
+ return SEGMENT_REGISTER;
+ case XED_REG_SS:
+ *v3_reg = (addr_t)&(info->segments.ss);
+ return SEGMENT_REGISTER;
+ case XED_REG_FS:
+ *v3_reg = (addr_t)&(info->segments.fs);
+ return SEGMENT_REGISTER;
+ case XED_REG_GS:
+ *v3_reg = (addr_t)&(info->segments.gs);
+ 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_R8:
+ case XED_REG_R8D:
+ case XED_REG_R8W:
+ case XED_REG_R8B:
+
+ case XED_REG_R9:
+ case XED_REG_R9D:
+ case XED_REG_R9W:
+ case XED_REG_R9B:
+
+ case XED_REG_R10:
+ case XED_REG_R10D:
+ case XED_REG_R10W:
+ case XED_REG_R10B:
+
+ case XED_REG_R11:
+ case XED_REG_R11D:
+ case XED_REG_R11W:
+ case XED_REG_R11B:
+
+ case XED_REG_R12:
+ case XED_REG_R12D:
+ case XED_REG_R12W:
+ case XED_REG_R12B:
+
+ case XED_REG_R13:
+ case XED_REG_R13D:
+ case XED_REG_R13W:
+ case XED_REG_R13B:
+
+ case XED_REG_R14:
+ case XED_REG_R14D:
+ case XED_REG_R14W:
+ case XED_REG_R14B:
+
+ case XED_REG_R15:
+ case XED_REG_R15D:
+ case XED_REG_R15W:
+ case XED_REG_R15B:
+
+ 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 int get_opcode(xed_iform_enum_t iform, addr_t * opcode) {
+
+ switch (iform) {
+ case XED_IFORM_MOV_CR_GPR64_CR:
+ case XED_IFORM_MOV_CR_GPR32_CR:
+ *opcode = (addr_t)&V3_OPCODE_MOVCR2;
+ break;
+
+ case XED_IFORM_MOV_CR_CR_GPR64:
+ case XED_IFORM_MOV_CR_CR_GPR32:
+ *opcode = (addr_t)&V3_OPCODE_MOV2CR;
+ break;
+
+
+ case XED_IFORM_LMSW_GPR16:
+ *opcode = (addr_t)&V3_OPCODE_LMSW;
+ break;
+
+ case XED_IFORM_CLTS:
+ *opcode = (addr_t)&V3_OPCODE_CLTS;
+ break;
+
+ default:
+ *opcode = 0;
+ return -1;
+ }
+
+ return 0;
+}