#!/usr/bin/env python3 # # Copyright (c) 2020 Bitdefender # SPDX-License-Identifier: Apache-2.0 # import os import sys import re import copy import glob import disasmlib header = '''/* * Copyright (c) 2020 Bitdefender * SPDX-License-Identifier: Apache-2.0 */ // // This file was auto-generated by generate_tables.py. DO NOT MODIFY! // ''' flags = { 'MODRM' : 'ND_FLAG_MODRM', 'II64' : 'ND_FLAG_I64', 'F64' : 'ND_FLAG_F64', 'D64' : 'ND_FLAG_D64', 'O64' : 'ND_FLAG_O64', 'SSECONDB' : 'ND_FLAG_SSE_CONDB', 'COND' : 'ND_FLAG_COND', 'VSIB' : 'ND_FLAG_VSIB', 'MIB' : 'ND_FLAG_MIB', 'LIG' : 'ND_FLAG_LIG', 'WIG' : 'ND_FLAG_WIG', '3DNOW' : 'ND_FLAG_3DNOW', 'MMASK' : 'ND_FLAG_MMASK', 'NOMZ' : 'ND_FLAG_NOMZ', 'LOCKSP' : 'ND_FLAG_LOCK_SPECIAL', 'NOL0' : 'ND_FLAG_NOL0', 'NOA16' : 'ND_FLAG_NOA16', 'NO66' : 'ND_FLAG_NO66', 'NORIPREL' : 'ND_FLAG_NO_RIP_REL', 'VECT' : 'ND_FLAG_VECTOR', 'S66' : 'ND_FLAG_S66', 'BITBASE' : 'ND_FLAG_BITBASE', 'AG' : 'ND_FLAG_AG', 'SHS' : 'ND_FLAG_SHS', 'MFR' : 'ND_FLAG_MFR', 'CETT' : 'ND_FLAG_CETT', 'SERIAL' : 'ND_FLAG_SERIAL', 'SIBMEM' : 'ND_FLAG_SIBMEM', 'I67' : 'ND_FLAG_I67', 'IER' : 'ND_FLAG_IER', 'IWO64' : 'ND_FLAG_IWO64', } prefixes_map = { 'REP' : 'ND_PREF_REP', 'REPC' : 'ND_PREF_REPC', 'HLE' : 'ND_PREF_HLE', 'BND' : 'ND_PREF_BND', 'LOCK' : 'ND_PREF_LOCK', 'BH' : 'ND_PREF_BHINT', 'XACQUIRE' : 'ND_PREF_XACQUIRE', 'XRELEASE' : 'ND_PREF_XRELEASE', 'HLEWOL' : 'ND_PREF_HLE_WO_LOCK', 'DNT' : 'ND_PREF_DNT', } decorators_map = { 'MASK' : 'ND_DECO_MASK', 'BROADCAST': 'ND_DECO_BROADCAST', 'ZERO' : 'ND_DECO_ZERO', 'SAE' : 'ND_DECO_SAE', 'ER' : 'ND_DECO_ER', } # Per operand flags. opflags = { 'OPDEF' : 'ND_OPF_DEFAULT', # Default operand. Not encoded anywhere. 'OPSEXO1' : 'ND_OPF_SEX_OP1', 'OPSEXDW' : 'ND_OPF_SEX_DWS', } # Explicit operands map. optype = { 'A' : 'ND_OPT_A', 'B' : 'ND_OPT_B', 'C' : 'ND_OPT_C', 'D' : 'ND_OPT_D', 'E' : 'ND_OPT_E', 'F' : 'ND_OPT_F', 'G' : 'ND_OPT_G', 'H' : 'ND_OPT_H', 'I' : 'ND_OPT_I', 'J' : 'ND_OPT_J', 'K' : 'ND_OPT_K', 'L' : 'ND_OPT_L', 'M' : 'ND_OPT_M', 'N' : 'ND_OPT_N', 'O' : 'ND_OPT_O', 'P' : 'ND_OPT_P', 'Q' : 'ND_OPT_Q', 'R' : 'ND_OPT_R', 'S' : 'ND_OPT_S', 'T' : 'ND_OPT_T', 'U' : 'ND_OPT_U', 'V' : 'ND_OPT_V', 'W' : 'ND_OPT_W', 'X' : 'ND_OPT_X', 'Y' : 'ND_OPT_Y', 'Z' : 'ND_OPT_Z', 'rB' : 'ND_OPT_rB', 'mB' : 'ND_OPT_mB', 'rK' : 'ND_OPT_rK', 'vK' : 'ND_OPT_vK', 'mK' : 'ND_OPT_mK', 'aK' : 'ND_OPT_aK', 'rM' : 'ND_OPT_rM', 'mM' : 'ND_OPT_mM', 'rT' : 'ND_OPT_rT', 'mT' : 'ND_OPT_mT', 'vT' : 'ND_OPT_vT', # Implicit operands. '1' : 'ND_OPT_CONST_1', 'AH' : 'ND_OPT_GPR_AH', 'rAX' : 'ND_OPT_GPR_rAX', 'rCX' : 'ND_OPT_GPR_rCX', 'rDX' : 'ND_OPT_GPR_rDX', 'rBX' : 'ND_OPT_GPR_rBX', 'rSP' : 'ND_OPT_GPR_rSP', 'rBP' : 'ND_OPT_GPR_rBP', 'rSI' : 'ND_OPT_GPR_rSI', 'rDI' : 'ND_OPT_GPR_rDI', 'rR8' : 'ND_OPT_GPR_rR8', 'rR9' : 'ND_OPT_GPR_rR9', 'rR11' : 'ND_OPT_GPR_rR11', 'rIP' : 'ND_OPT_RIP', 'CS' : 'ND_OPT_SEG_CS', 'SS' : 'ND_OPT_SEG_SS', 'DS' : 'ND_OPT_SEG_DS', 'ES' : 'ND_OPT_SEG_ES', 'FS' : 'ND_OPT_SEG_FS', 'GS' : 'ND_OPT_SEG_GS', 'ST(0)' : 'ND_OPT_FPU_ST0', 'ST(i)' : 'ND_OPT_FPU_STX', 'XMM0' : 'ND_OPT_SSE_XMM0', 'XMM1' : 'ND_OPT_SSE_XMM1', 'XMM2' : 'ND_OPT_SSE_XMM2', 'XMM3' : 'ND_OPT_SSE_XMM3', 'XMM4' : 'ND_OPT_SSE_XMM4', 'XMM5' : 'ND_OPT_SSE_XMM5', 'XMM6' : 'ND_OPT_SSE_XMM6', 'XMM7' : 'ND_OPT_SSE_XMM7', # Memory operands 'pAX' : 'ND_OPT_MEM_rAX', 'pCX' : 'ND_OPT_MEM_rCX', 'pBXAL' : 'ND_OPT_MEM_rBX_AL', 'pDI' : 'ND_OPT_MEM_rDI', 'SHS' : 'ND_OPT_MEM_SHS', 'SHS0' : 'ND_OPT_MEM_SHS0', 'SHSP' : 'ND_OPT_MEM_SHSP', 'SMT' : 'ND_OPT_MEM_SMSRT', 'DMT' : 'ND_OPT_MEM_DMSRT', # Special immediates. 'm2zI' : 'ND_OPT_Im2z', # System registers, MSRs, XCRs, etc. 'GDTR' : 'ND_OPT_SYS_GDTR', 'IDTR' : 'ND_OPT_SYS_IDTR', 'LDTR' : 'ND_OPT_SYS_LDTR', 'TR' : 'ND_OPT_SYS_TR', 'CR0' : 'ND_OPT_CR_0', 'XCR' : 'ND_OPT_XCR', 'XCR0' : 'ND_OPT_XCR_0', 'MSR' : 'ND_OPT_MSR', 'FSBASE' : 'ND_OPT_MSR_FSBASE', 'GSBASE' : 'ND_OPT_MSR_GSBASE', 'KGSBASE' : 'ND_OPT_MSR_KGSBASE', 'SCS' : 'ND_OPT_MSR_SCS', 'SEIP' : 'ND_OPT_MSR_SEIP', 'SESP' : 'ND_OPT_MSR_SESP', 'TSC' : 'ND_OPT_MSR_TSC', 'TSCAUX' : 'ND_OPT_MSR_TSCAUX', 'STAR' : 'ND_OPT_MSR_STAR', 'LSTAR' : 'ND_OPT_MSR_LSTAR', 'FMASK' : 'ND_OPT_MSR_FMASK', 'BANK' : 'ND_OPT_REG_BANK', 'X87CONTROL':'ND_OPT_X87_CONTROL', 'X87TAG' : 'ND_OPT_X87_TAG', 'X87STATUS': 'ND_OPT_X87_STATUS', 'MXCSR' : 'ND_OPT_MXCSR', 'PKRU' : 'ND_OPT_PKRU', 'SSP' : 'ND_OPT_SSP', 'UIF' : 'ND_OPT_UIF' } opsize = { 'a' : 'ND_OPS_a', 'b' : 'ND_OPS_b', 'c' : 'ND_OPS_c', 'd' : 'ND_OPS_d', 'dq' : 'ND_OPS_dq', 'ev' : 'ND_OPS_ev', 'qv' : 'ND_OPS_qv', 'hv' : 'ND_OPS_hv', 'fv' : 'ND_OPS_fv', 'uv' : 'ND_OPS_uv', 'vm32x' : 'ND_OPS_vm32x', 'vm32y' : 'ND_OPS_vm32y', 'vm32z' : 'ND_OPS_vm32z', 'vm32h' : 'ND_OPS_vm32h', 'vm32n' : 'ND_OPS_vm32n', 'vm64x' : 'ND_OPS_vm64x', 'vm64y' : 'ND_OPS_vm64y', 'vm64z' : 'ND_OPS_vm64z', 'vm64h' : 'ND_OPS_vm64h', 'vm64n' : 'ND_OPS_vm64n', 'mib' : 'ND_OPS_mib', 'v2' : 'ND_OPS_v2', 'v3' : 'ND_OPS_v3', 'v4' : 'ND_OPS_v4', 'v5' : 'ND_OPS_v5', 'v8' : 'ND_OPS_v8', 'oq' : 'ND_OPS_oq', 'p' : 'ND_OPS_p', 'pd' : 'ND_OPS_pd', 'ps' : 'ND_OPS_ps', 'ph' : 'ND_OPS_ph', 'q' : 'ND_OPS_q', 'qq' : 'ND_OPS_qq', 's' : 'ND_OPS_s', 'sd' : 'ND_OPS_sd', 'ss' : 'ND_OPS_ss', 'sh' : 'ND_OPS_sh', 'v' : 'ND_OPS_v', 'w' : 'ND_OPS_w', 'x' : 'ND_OPS_x', 'y' : 'ND_OPS_y', 'yf' : 'ND_OPS_yf', 'z' : 'ND_OPS_z', '?' : 'ND_OPS_unknown', '0' : 'ND_OPS_0', 'asz' : 'ND_OPS_asz', 'ssz' : 'ND_OPS_ssz', 'fa' : 'ND_OPS_fa', 'fw' : 'ND_OPS_fw', 'fd' : 'ND_OPS_fd', 'fq' : 'ND_OPS_fq', 'ft' : 'ND_OPS_ft', 'fe' : 'ND_OPS_fe', 'fs' : 'ND_OPS_fs', 'l' : 'ND_OPS_l', 'rx' : 'ND_OPS_rx', 'cl' : 'ND_OPS_cl', '12' : 'ND_OPS_12', 't' : 'ND_OPS_t', '384' : 'ND_OPS_384', '512' : 'ND_OPS_512', '4096' : 'ND_OPS_4096', } opdecorators = { '{K}' : 'ND_OPD_MASK', '{z}' : 'ND_OPD_Z', '{sae}' : 'ND_OPD_SAE', '{er}' : 'ND_OPD_ER', '|B32' : 'ND_OPD_B32', '|B64' : 'ND_OPD_B64', '|B16' : 'ND_OPD_B16', } accessmap = { 'R' : 'ND_OPA_R', 'W' : 'ND_OPA_W', 'CR' : 'ND_OPA_CR', 'CW' : 'ND_OPA_CW', 'RW' : 'ND_OPA_RW', 'RCW' : 'ND_OPA_RCW', 'CRW' : 'ND_OPA_CRW', 'CRCW' : 'ND_OPA_CRCW', 'P' : 'ND_OPA_P', 'N' : 'ND_OPA_N', } tuples = { None : '0', 'fv' : 'ND_TUPLE_FV', 'hv' : 'ND_TUPLE_HV', 'qv' : 'ND_TUPLE_QV', 'fvm' : 'ND_TUPLE_FVM', 'hvm' : 'ND_TUPLE_HVM', 'qvm' : 'ND_TUPLE_QVM', 'ovm' : 'ND_TUPLE_OVM', 'dup' : 'ND_TUPLE_DUP', 'm128' : 'ND_TUPLE_M128', 't1s8' : 'ND_TUPLE_T1S8', 't1s16' : 'ND_TUPLE_T1S16', 't1s' : 'ND_TUPLE_T1S', 't1f' : 'ND_TUPLE_T1F', 't2' : 'ND_TUPLE_T2', 't4' : 'ND_TUPLE_T4', 't8' : 'ND_TUPLE_T8', 't1_4x' : 'ND_TUPLE_T1_4X', } extype = { None : '0', # SSE/AVX '1' : 'ND_EXT_1', '2' : 'ND_EXT_2', '3' : 'ND_EXT_3', '4' : 'ND_EXT_4', '5' : 'ND_EXT_5', '6' : 'ND_EXT_6', '7' : 'ND_EXT_7', '8' : 'ND_EXT_8', '9' : 'ND_EXT_9', '10' : 'ND_EXT_10', '11' : 'ND_EXT_11', '12' : 'ND_EXT_12', '13' : 'ND_EXT_13', '14' : 'ND_EXT_14', # EVEX 'E1' : 'ND_EXT_E1', 'E1NF' : 'ND_EXT_E1NF', 'E2' : 'ND_EXT_E2', 'E3' : 'ND_EXT_E3', 'E3NF' : 'ND_EXT_E3NF', 'E4' : 'ND_EXT_E4', 'E4S' : 'ND_EXT_E4S', 'E4nb' : 'ND_EXT_E4nb', 'E4NF' : 'ND_EXT_E4NF', 'E4NFnb': 'ND_EXT_E4NFnb', 'E5' : 'ND_EXT_E5', 'E5NF' : 'ND_EXT_E5NF', 'E6' : 'ND_EXT_E6', 'E6NF' : 'ND_EXT_E6NF', 'E7NM' : 'ND_EXT_E7NM', 'E9' : 'ND_EXT_E9', 'E9NF' : 'ND_EXT_E9NF', 'E10' : 'ND_EXT_E10', 'E10S' : 'ND_EXT_E10S', 'E10NF' : 'ND_EXT_E10NF', 'E11' : 'ND_EXT_E11', 'E12' : 'ND_EXT_E12', 'E12NP' : 'ND_EXT_E12NP', # Opmask 'K20' : 'ND_EXT_K20', 'K21' : 'ND_EXT_K21', # AMX 'AMX_E1': 'ND_EXT_AMX_E1', 'AMX_E2': 'ND_EXT_AMX_E2', 'AMX_E3': 'ND_EXT_AMX_E3', 'AMX_E4': 'ND_EXT_AMX_E4', 'AMX_E5': 'ND_EXT_AMX_E5', 'AMX_E6': 'ND_EXT_AMX_E6', } modes = { 'r0' : 'ND_MOD_R0', 'r1' : 'ND_MOD_R1', 'r2' : 'ND_MOD_R2', 'r3' : 'ND_MOD_R3', 'real' : 'ND_MOD_REAL', 'v8086' : 'ND_MOD_V8086', 'prot' : 'ND_MOD_PROT', 'compat' : 'ND_MOD_COMPAT', 'long' : 'ND_MOD_LONG', 'smm' : 'ND_MOD_SMM', 'smm_off' : 'ND_MOD_SMM_OFF', 'sgx' : 'ND_MOD_SGX', 'sgx_off' : 'ND_MOD_SGX_OFF', 'tsx' : 'ND_MOD_TSX', 'tsx_off' : 'ND_MOD_TSX_OFF', 'vmxr' : 'ND_MOD_VMXR', 'vmxn' : 'ND_MOD_VMXN', 'vmxr_seam' : 'ND_MOD_VMXR_SEAM', 'vmxn_seam' : 'ND_MOD_VMXN_SEAM', 'vmx_off' : 'ND_MOD_VMX_OFF', } indexes = { "root" : 0, "None" : 0, None : 0, # modrm.mod "mem" : 0, "reg" : 1, # mandatory prefixes "NP" : 0, "66" : 1, "F3" : 2, "F2" : 3, # other prefixes/redirection conditions "rexb" : 1, "rexw" : 2, "64" : 3, "aF3" : 4, "rep" : 5, "riprel": 6, # Mode "m16" : 1, "m32" : 2, "m64" : 3, # Default data size "ds16" : 1, "ds32" : 2, "ds64" : 3, "dds64" : 4, "fds64" : 5, # Default address size "as16" : 1, "as32" : 2, "as64" : 3, # Vendor redirection. "any" : 0, "intel" : 1, "amd" : 2, "geode" : 3, "cyrix" : 4, # Feature redirection. "mpx" : 1, "cet" : 2, "cldm" : 3, "piti" : 4, } ilut = { "root" : ("ND_ILUT_ROOT", 1, "ND_TABLE"), "opcode" : ("ND_ILUT_OPCODE", 256, "ND_TABLE_OPCODE"), "opcode_3dnow" : ("ND_ILUT_OPCODE_3DNOW", 256, "ND_TABLE_OPCODE"), "modrmmod" : ("ND_ILUT_MODRM_MOD", 2, "ND_TABLE_MODRM_MOD"), "modrmmodpost" : ("ND_ILUT_MODRM_MOD", 2, "ND_TABLE_MODRM_MOD"), "modrmreg" : ("ND_ILUT_MODRM_REG", 8, "ND_TABLE_MODRM_REG"), "modrmrm" : ("ND_ILUT_MODRM_RM", 8, "ND_TABLE_MODRM_RM"), "mprefix" : ("ND_ILUT_MAN_PREFIX", 4, "ND_TABLE_MPREFIX"), "mode" : ("ND_ILUT_MODE", 4, "ND_TABLE_MODE"), "dsize" : ("ND_ILUT_DSIZE", 6, "ND_TABLE_DSIZE"), "asize" : ("ND_ILUT_ASIZE", 4, "ND_TABLE_ASIZE"), "auxiliary" : ("ND_ILUT_AUXILIARY", 8, "ND_TABLE_AUXILIARY"), "vendor" : ("ND_ILUT_VENDOR", 6, "ND_TABLE_VENDOR"), "feature" : ("ND_ILUT_FEATURE", 8, "ND_TABLE_FEATURE"), "mmmmm" : ("ND_ILUT_VEX_MMMMM", 32, "ND_TABLE_VEX_MMMMM"), "pp" : ("ND_ILUT_VEX_PP", 4, "ND_TABLE_VEX_PP"), "l" : ("ND_ILUT_VEX_L", 4, "ND_TABLE_VEX_L"), "w" : ("ND_ILUT_VEX_W", 2, "ND_TABLE_VEX_W"), "wi" : ("ND_ILUT_VEX_WI", 2, "ND_TABLE_VEX_W"), } mnemonics = [] mnemonics_prefix = [] instructions = [] prefixes = [] features = [] # # Convert one operand into it's C/C++ representation. # def cdef_operand(self): return "OP(%s, %s, %s, %s, %s, %d)" % (optype[self.Type], opsize[self.Size], \ '|'.join([opflags[x] for x in self.Flags]) or '0', accessmap[self.Access], \ '|'.join([opdecorators[x] for x in self.Decorators]) or 0, self.Block) disasmlib.Operand.cdef = cdef_operand # # Convert one instruction into it's C/C++ representation. # def cdef_instruction(self): c = '' c += ' // Pos:%d Instruction:"%s" Encoding:"%s"/"%s"\n' % \ (self.Icount, self.__str__(), self.RawEnc, ''.join([x.Encoding for x in self.ExpOps]).replace('S', '')) c += ' {\n ' # Add the instruction class c += 'ND_INS_' + self.Class + ', ' # Add the instruction type c += 'ND_CAT_' + self.Category + ', ' # Add the instruction set c += 'ND_SET_' + self.Set + ', ' # Add the mneomonic index. c += '%d, ' % (mnemonics.index(self.Mnemonic)) c += '\n ' # Add the prefixes map. c += '|'.join([prefixes_map[x] for x in self.Prefmap] or '0') + ', ' c += '\n ' # Add the valid modes map. all = True for m in modes: if m not in self.Modes: all = False if all: c += 'ND_MOD_ANY, ' else: c += '|'.join([modes[m] for m in self.Modes]) + ', ' c += '\n ' # Add the decorators map. c += '|'.join([decorators_map[x] for x in self.DecoFlags] or '0') + ', ' # Add the tuple type and the explicit operands count. c += 'ND_OPS_CNT(%d, %d), ' % (len(self.ExpOps), len(self.ImpOps)) exclass = None if self.ExClass: if self.ExClass in ['0', '1', '2', '3', '4', '5', '6', '7', '8', '9', '10', '11', '12', '13']: exclass = 'ND_EXC_SSE_AVX' elif self.ExClass in ['K20', 'K21']: exclass = 'ND_EXC_OPMASK' elif self.ExClass.startswith('AMX_'): exclass = 'ND_EXC_AMX' else: exclass = 'ND_EXC_EVEX' if self.Evex: # EVEX encoded instructions, store the tuple type. c += '%s, ' % (tuples[self.Tuple]) else: c += '0, ' # Store exception type & class, if any. if exclass: c += '%s, %s, ' % (extype[self.ExClass], exclass) else: c += '0, 0, ' # Add the FPU flags access, if the instruction is fpu. if self.Set == 'X87': value = 0 acc = { '0': 0, '1': 1, 'm': 2, 'u': 3 } for i in range(0, 4): value |= acc[self.FpuFlags[i]] << (i * 2) c += '0x%02x, ' % value else: c += '0, ' # The 2 reserved fields. c += '0, 0, ' # Add the instruction flags fs = '|'.join([flags[x] for x in self.Flags if x != 'nil' and not x.startswith('OP1') and not x.startswith('OP2')\ and not x.startswith('OP3') and not x.startswith('OP4')\ and not x.startswith('OP5') and not x.startswith('OP6')\ ]) or 0 c += '%s, ' % fs # Store the CPUID flag, if any flg = "0" for feat in features: if feat.Name == self.Id: flg = "ND_CFF_%s" % feat.Name c += "%s, " % flg # Store the accessed flags, if any. for m in ['t', 'm', '1', '0']: flg = "0" dst = self.RevFlagsAccess[m] if m == '1' or m == '0': dst = dst + self.RevFlagsAccess['u'] for f in dst: flg += '|NDR_RFLAG_%s' % f.upper() c += "\n %s," % flg # Add the instruction operands allOps = self.ExpOps + self.ImpOps c += "\n {" if allOps: for op in self.ExpOps + self.ImpOps: c += "\n " + op.cdef() + ", " else: c += "\n 0 " c += "\n }," c += '\n }' return c disasmlib.Instruction.cdef = cdef_instruction # # Initially, t is an empty hash-table. # def group_instructions(ilist): d = { } is3dnow = False priorities = ["opcode", "vendor", "feature", "modrmmod", "modrmreg", "modrmmodpost", "modrmrm", "mprefix", "mode", \ "dsize", "asize", "auxiliary", "_"] for i in ilist: if '3DNOW' in i.Flags: is3dnow = True else: is3dnow = False if i.Spec["opcodes"]: if is3dnow: d["__TYPE__"] = "opcode_3dnow" else: d["__TYPE__"] = "opcode" elif i.Spec["mpre"] and i.ModrmRedirAfterMpref: if "__TYPE__" not in d or d["__TYPE__"] in priorities[-1:]: d["__TYPE__"] = "mprefix" elif i.Spec["vendor"]: if "__TYPE__" not in d or d["__TYPE__"] in priorities[-11:]: d["__TYPE__"] = "vendor" elif i.Spec["feature"]: if "__TYPE__" not in d or d["__TYPE__"] in priorities[-10:]: d["__TYPE__"] = "feature" elif i.Spec["modrm"]["mod"]: if "__TYPE__" not in d or d["__TYPE__"] in priorities[-9:]: d["__TYPE__"] = "modrmmod" elif i.Spec["modrm"]["reg"]: if "__TYPE__" not in d or d["__TYPE__"] in priorities[-8:]: d["__TYPE__"] = "modrmreg" elif i.Spec["modrm"]["modpost"]: if "__TYPE__" not in d or d["__TYPE__"] in priorities[-7:]: d["__TYPE__"] = "modrmmodpost" elif i.Spec["modrm"]["rm"]: if "__TYPE__" not in d or d["__TYPE__"] in priorities[-6:]: d["__TYPE__"] = "modrmrm" elif i.Spec["mpre"]: if "__TYPE__" not in d or d["__TYPE__"] in priorities[-5:]: d["__TYPE__"] = "mprefix" elif i.Spec["mode"]: if "__TYPE__" not in d or d["__TYPE__"] in priorities[-4:]: d["__TYPE__"] = "mode" elif i.Spec["dsize"]: if "__TYPE__" not in d or d["__TYPE__"] in priorities[-3:]: d["__TYPE__"] = "dsize" elif i.Spec["asize"]: if "__TYPE__" not in d or d["__TYPE__"] in priorities[-2:]: d["__TYPE__"] = "asize" elif i.Spec["opre"]: if "__TYPE__" not in d or d["__TYPE__"] in priorities[-1:]: d["__TYPE__"] = "auxiliary" elif len(ilist) == 1: return ilist[0] for i in ilist: if d["__TYPE__"] in ["opcode", "opcode_3dnow"]: # Opcode redirection, add the next opcode to the hash, and remove it from the spec. if int(i.Spec["opcodes"][0], 16) not in d: d[int(i.Spec["opcodes"][0], 16)] = [i] else: d[int(i.Spec["opcodes"][0], 16)].append(i) # Remove the opcode for this instruction. del i.Spec["opcodes"][0] elif d["__TYPE__"] == "modrmmod": if not i.Spec["modrm"]["mod"]: if "mem" not in d: d["mem"] = [i] else: d["mem"].append(i) if "reg" not in d: d["reg"] = [copy.deepcopy(i)] else: d["reg"].append(copy.deepcopy(i)) else: if i.Spec["modrm"]["mod"] not in d: d[i.Spec["modrm"]["mod"]] = [i] else: d[i.Spec["modrm"]["mod"]].append(i) # Remove the mod specifier. i.Spec["modrm"]["mod"] = None elif d["__TYPE__"] == "modrmreg": if int(i.Spec["modrm"]["reg"]) not in d: d[int(i.Spec["modrm"]["reg"])] = [i] else: d[int(i.Spec["modrm"]["reg"])].append(i) # Remove the reg specifier i.Spec["modrm"]["reg"] = None elif d["__TYPE__"] == "modrmmodpost": if not i.Spec["modrm"]["modpost"]: if "mem" not in d: d["mem"] = [i] else: d["mem"].append(i) if "reg" not in d: d["reg"] = [copy.deepcopy(i)] else: d["reg"].append(copy.deepcopy(i)) else: if i.Spec["modrm"]["modpost"] not in d: d[i.Spec["modrm"]["modpost"]] = [i] else: d[i.Spec["modrm"]["modpost"]].append(i) # Remove the modpost specifier. i.Spec["modrm"]["modpost"] = None elif d["__TYPE__"] == "modrmrm": if int(i.Spec["modrm"]["rm"]) not in d: d[int(i.Spec["modrm"]["rm"])] = [i] else: d[int(i.Spec["modrm"]["rm"])].append(i) # Remove the reg specifier i.Spec["modrm"]["rm"] = None elif d["__TYPE__"] == "mprefix": if not i.Spec["mpre"]: p = "None" else: p = i.Spec["mpre"][0] if p not in d: d[p] = [i] else: d[p].append(i) # Remove the prefix from the list. if p != "None": del i.Spec["mpre"][0] elif d["__TYPE__"] == "mode": if not i.Spec["mode"]: p = "None" else: p = i.Spec["mode"][0] if p not in d: d[p] = [i] else: d[p].append(i) # Remove the auxiliary redirector if p != "None": del i.Spec["mode"][0] elif d["__TYPE__"] == "dsize": if not i.Spec["dsize"]: p = "None" else: p = i.Spec["dsize"][0] if p not in d: d[p] = [i] else: d[p].append(i) # Remove the auxiliary redirector if p != "None": del i.Spec["dsize"][0] elif d["__TYPE__"] == "asize": if not i.Spec["asize"]: p = "None" else: p = i.Spec["asize"][0] if p not in d: d[p] = [i] else: d[p].append(i) # Remove the auxiliary redirector if p != "None": del i.Spec["asize"][0] elif d["__TYPE__"] == "auxiliary": if not i.Spec["opre"]: p = "None" else: p = i.Spec["opre"][0] if p not in d: d[p] = [i] else: d[p].append(i) # Remove the auxiliary redirector if p != "None": del i.Spec["opre"][0] elif d["__TYPE__"] == "vendor": if not i.Spec["vendor"]: p = "None" else: p = i.Spec["vendor"] if p not in d: d[p] = [i] else: d[p].append(i) # Remove the vendor redirector if p != "None": i.Spec["vendor"] = None elif d["__TYPE__"] == "feature": if not i.Spec["feature"]: p = "None" else: p = i.Spec["feature"] if p not in d: d[p] = [i] else: d[p].append(i) # Remove the vendor redirector if p != "None": i.Spec["feature"] = None else: print("Don't know what to do!") raise Exception("Unknwon redirection type.") return d def group_instructions_vex_xop_evex(ilist): d = { } for i in ilist: if i.Spec["mmmmm"]: d["__TYPE__"] = "mmmmm" elif i.Spec["opcodes"]: if "__TYPE__" not in d or d["__TYPE__"] in ["w", "l", "pp", "modrmrm", "modrmmodpost", "modrmreg", \ "modrmmod"]: d["__TYPE__"] = "opcode" elif i.Spec["pp"]: if "__TYPE__" not in d or d["__TYPE__"] in ["w", "l", "modrmrm", "modrmmodpost", "modrmreg"]: d["__TYPE__"] = "pp" elif i.Spec["modrm"]["mod"]: if "__TYPE__" not in d or d["__TYPE__"] in ["w", "l", "modrmrm", "modrmmodpost", "modrmreg"]: d["__TYPE__"] = "modrmmod" elif i.Spec["modrm"]["reg"]: if "__TYPE__" not in d or d["__TYPE__"] in ["w", "l", "modrmrm", "modrmmodpost"]: d["__TYPE__"] = "modrmreg" elif i.Spec["modrm"]["modpost"]: if "__TYPE__" not in d or d["__TYPE__"] in ["w", "l", "modrmrm"]: d["__TYPE__"] = "modrmmodpost" elif i.Spec["modrm"]["rm"]: if "__TYPE__" not in d or d["__TYPE__"] in ["w", "l"]: d["__TYPE__"] = "modrmrm" elif i.Spec["l"]: if "__TYPE__" not in d or d["__TYPE__"] in ["w"]: d["__TYPE__"] = "l" elif i.Spec["w"]: if "__TYPE__" not in d: if 'IWO64' in i.Flags: d["__TYPE__"] = "wi" else: d["__TYPE__"] = "w" elif len(ilist) == 1: return ilist[0] for i in ilist: if d["__TYPE__"] == "mmmmm": if int(i.Spec["mmmmm"], 16) not in d: d[int(i.Spec["mmmmm"], 16)] = [i] else: d[int(i.Spec["mmmmm"], 16)].append(i) i.Spec["mmmmm"] = None elif d["__TYPE__"] == "opcode": # Opcode redirection, add the next opcode to the hash, and remove it from the spec. if int(i.Spec["opcodes"][0], 16) not in d: d[int(i.Spec["opcodes"][0], 16)] = [i] else: d[int(i.Spec["opcodes"][0], 16)].append(i) # Remove the opcode for this instruction. del i.Spec["opcodes"][0] elif d["__TYPE__"] == "modrmmod": if not i.Spec["modrm"]["mod"]: if "mem" not in d: d["mem"] = [i] else: d["mem"].append(i) if "reg" not in d: d["reg"] = [copy.deepcopy(i)] else: d["reg"].append(copy.deepcopy(i)) else: if i.Spec["modrm"]["mod"] not in d: d[i.Spec["modrm"]["mod"]] = [i] else: d[i.Spec["modrm"]["mod"]].append(i) # Remove the mod specifier. i.Spec["modrm"]["mod"] = None elif d["__TYPE__"] == "modrmreg": if int(i.Spec["modrm"]["reg"]) not in d: d[int(i.Spec["modrm"]["reg"])] = [i] else: d[int(i.Spec["modrm"]["reg"])].append(i) # Remove the reg specifier i.Spec["modrm"]["reg"] = None elif d["__TYPE__"] == "modrmmodpost": if not i.Spec["modrm"]["modpost"]: if "mem" not in d: d["mem"] = [i] else: d["mem"].append(i) if "reg" not in d: d["reg"] = [copy.deepcopy(i)] else: d["reg"].append(copy.deepcopy(i)) else: if i.Spec["modrm"]["modpost"] not in d: d[i.Spec["modrm"]["modpost"]] = [i] else: d[i.Spec["modrm"]["modpost"]].append(i) # Remove the modpost specifier. i.Spec["modrm"]["modpost"] = None elif d["__TYPE__"] == "modrmrm": if int(i.Spec["modrm"]["rm"]) not in d: d[int(i.Spec["modrm"]["rm"])] = [i] else: d[int(i.Spec["modrm"]["rm"])].append(i) # Remove the reg specifier i.Spec["modrm"]["rm"] = None elif d["__TYPE__"] == "pp": p = int(i.Spec["pp"]) if p not in d: d[p] = [i] else: d[p].append(i) # Remove the prefix from the list. i.Spec["pp"] = None elif d["__TYPE__"] == "l": p = int(i.Spec["l"]) if p not in d: d[p] = [i] else: d[p].append(i) # Remove the prefix from the list. i.Spec["l"] = None elif d["__TYPE__"] in ["w", "wi"]: p = int(i.Spec["w"]) if p not in d: d[p] = [i] else: d[p].append(i) # Remove the prefix from the list. i.Spec["w"] = None else: print("Don't know what to do!") raise Exception("Unknown redirection type.") return d def build_hash_tree2(t, cbk): for k in t: if type(disasmlib.Instruction) == type(t[k]): # Instruction, leaf, we're done. continue elif type([]) == type(t[k]): # List, group the instructions, and recurse. t[k] = cbk(t[k]) if type({}) == type(t[k]): build_hash_tree2(t[k], cbk) def dump_hash_tree2(t, level = 0): if type(t) == type({}): for h in t: if h == "__TYPE__": continue print("%s %s (type: %s)" % (" " * level, h, t["__TYPE__"])) dump_hash_tree2(t[h], level + 1) else: print(" " * level, t) # # # def generate_translations2(instructions): table_st = [] table_xop = [] table_vex = [] table_evex = [] hash_st = {} hash_vex = {} hash_xop = {} hash_evex = {} # Distribute each instruction type into its own table. for i in instructions: if i.Vex: table_vex.append(i) elif i.Xop: table_xop.append(i) elif i.Evex: table_evex.append(i) else: table_st.append(i) hash_st["__TYPE__"] = "root" hash_st["root"] = table_st build_hash_tree2(hash_st, group_instructions) hash_vex["__TYPE__"] = "root" hash_vex["root"] = table_vex build_hash_tree2(hash_vex, group_instructions_vex_xop_evex) hash_xop["__TYPE__"] = "root" hash_xop["root"] = table_xop build_hash_tree2(hash_xop, group_instructions_vex_xop_evex) hash_evex["__TYPE__"] = "root" hash_evex["root"] = table_evex build_hash_tree2(hash_evex, group_instructions_vex_xop_evex) # Dump'em! #print "###########################################################################################################" #dump_hash_tree2(hash_st) print('Writing the table_root.h file...') f = open(r'../bddisasm/include/table_root.h', 'wt') f.write(header) f.write("#ifndef TABLE_ROOT_H\n") f.write("#define TABLE_ROOT_H\n\n") dump_translation_tree_c(hash_st, 'gRootTable', f) f.write("\n#endif\n\n") f.close() #print "###########################################################################################################" #dump_hash_tree2(hash_vex) print('Writing the table_vex.h file...') f = open(r'../bddisasm/include/table_vex.h', 'wt') f.write(header) f.write("#ifndef TABLE_VEX_H\n") f.write("#define TABLE_VEX_H\n\n") dump_translation_tree_c(hash_vex, 'gVexTable', f) f.write("\n#endif\n\n") f.close() #print "###########################################################################################################" #dump_hash_tree2(hash_xop) print('Writing the table_xop.h file...') f = open(r'../bddisasm/include/table_xop.h', 'wt') f.write(header) f.write("#ifndef TABLE_XOP_H\n") f.write("#define TABLE_XOP_H\n\n") dump_translation_tree_c(hash_xop, 'gXopTable', f) f.write("\n#endif\n\n") f.close() #print "###########################################################################################################" #dump_hash_tree2(hash_evex) print('Writing the table_evex.h file...') f = open(r'../bddisasm/include/table_evex.h', 'wt') f.write(header) f.write("#ifndef TABLE_EVEX_H\n") f.write("#define TABLE_EVEX_H\n\n") dump_translation_tree_c(hash_evex, 'gEvexTable', f) f.write("\n#endif\n\n") f.close() #print "###########################################################################################################" return [hash_st, hash_vex, hash_xop, hash_evex] def generate_mnemonics(instructions): mnemonics = [] for i in instructions: mnemonics.append(i.Mnemonic) return sorted(set(mnemonics)) def generate_constants(lst, pre = False): constants = [] for i in lst: if pre: constants.append('ND_PRE_' + i.Mnemonic) else: constants.append('ND_INS_' + i.Class) return sorted(set(constants)) def generate_constants2(instructions): constants_sets, constants_types = [], [] for i in instructions: constants_sets.append('ND_SET_' + i.Set) constants_types.append('ND_CAT_' + i.Category) return sorted(set(constants_sets)), sorted(set(constants_types)) def dump_mnemonics(mnemonics, prefixes, fname): f = open(fname, 'wt') f.write(header) f.write('#ifndef MNEMONICS_H\n') f.write('#define MNEMONICS_H\n') f.write('\n') f.write('const char *gMnemonics[%d] = \n' % len(mnemonics)) f.write('{\n') f.write(' ') i = 0 ln = 0 for m in mnemonics: f.write('"%s", ' % m) ln += len(m) + 4 i += 1 if ln > 60: ln = 0 f.write('\n ') f.write('\n};\n\n\n') f.write('#endif\n\n') f.close() def dump_constants(constants, prefixes, constants_sets, constants_types, fname): f = open(fname, 'wt') f.write(header) f.write('#ifndef CONSTANTS_H\n') f.write('#define CONSTANTS_H\n\n') f.write('\n') f.write('typedef enum _ND_INS_CLASS\n') f.write('{\n') f.write(' ND_INS_INVALID = 0,\n') for c in constants: f.write(' %s,\n' % c) f.write('\n} ND_INS_CLASS;\n\n\n') # Now the instruction sets. f.write('typedef enum _ND_INS_SET\n') f.write('{\n') f.write(' ND_SET_INVALID = 0,\n') for c in constants_sets: f.write(' %s,\n' % c) f.write('\n} ND_INS_SET;\n\n\n') # Now the instruction types. f.write('typedef enum _ND_INS_TYPE\n') f.write('{\n') f.write(' ND_CAT_INVALID = 0,\n') for c in constants_types: f.write(' %s,\n' % c) f.write('\n} ND_INS_CATEGORY;\n\n\n') # Done! f.write('\n#endif\n') f.close() def dump_tree(translations, level = 0): if type(translations) != type([]): print('%s%s' % (level * ' ', translations)) else: for i in range(0, len(translations), 1): if len(translations) == 1: dump_tree(translations[i], level + 1) else: dump_tree(translations[i], level + 2) def generate_master_table(instructions, fname): f = open(fname, 'wt') f.write(header) f.write('#ifndef INSTRUCTIONS_H\n') f.write('#define INSTRUCTIONS_H\n') f.write('\n') flags = [] f.write('const ND_INSTRUCTION gInstructions[%s] = \n' % len(instructions)) f.write('{\n') for i in instructions: f.write('%s, \n\n' % i.cdef()) f.write('\n};\n') f.write('\n#endif\n') f.close() def dump_translation_tree_c(t, hname, f): if type(t) == type({}): pointers = [] ttype = t["__TYPE__"] for x in range(0, ilut[ttype][1]): pointers.append(None) tname = '%s_%s' % (hname, ttype) res = 'const %s %s = \n' % (ilut[ttype][2], tname) res += '{\n' res += ' %s,\n' % ilut[ttype][0] res += ' { \n' for h in t: if h == "__TYPE__": continue if type(0) == type(h): name = dump_translation_tree_c(t[h], hname + '_%02x' % h, f) else: name = dump_translation_tree_c(t[h], hname + '_%s' % h, f) if ttype in ["opcode", "opcode_3dnow", "mmmmm", "pp", "l", "w", "wi", "modrmreg", "modrmrm"]: index = h else: index = indexes[h] try: pointers[index] = name except: print(index, name) print("fail fail fail", index) i = 0 for p in pointers: if not p: res += ' /* %02x */ ND_NULL,\n' % i else: res += ' /* %02x */ (const void *)&%s,\n' % (i, p) i += 1 res += ' }\n' res += '};\n\n' if ttype == "root": f.write("const PND_TABLE %s = (const PND_TABLE)&%s;\n\n" % (hname, name)) else: f.write(res) return tname else: # Instruction, construct a dummy table that directly points to the instruction. name = '%s_leaf' % hname res = 'const ND_TABLE_INSTRUCTION %s = \n' % name res += '{\n' res += ' ND_ILUT_INSTRUCTION,\n' res += ' (const void *)&gInstructions[%d]\n' % t.Icount res += '};\n\n' f.write(res) return name def generate_features(features, fname): f = open(fname, 'wt') f.write(header) f.write('#ifndef CPUID_FLAGS_H\n') f.write('#define CPUID_FLAGS_H\n') f.write('\n') f.write('#define ND_CFF_NO_LEAF 0xFFFFFFFF\n') f.write('#define ND_CFF_NO_SUBLEAF 0x00FFFFFF\n') f.write('\n') f.write('\n') f.write('#define ND_CFF(leaf, subleaf, reg, bit) ((ND_UINT64)(leaf) | ((ND_UINT64)((subleaf) & 0xFFFFFF) << 32) | ((ND_UINT64)(reg) << 56) | ((ND_UINT64)(bit) << 59))\n') f.write('\n') for c in features: f.write('#define ND_CFF_%s%sND_CFF(%s, %s, %s, %s)\n' % (c.Name, ' ' * (25 - len(c.Name)), c.Leaf, c.SubLeaf, 'NDR_' + c.Reg, c.Bit)) f.write('\n') f.write('#endif // CPUID_FLAGS_H\n') # # ============================================================================= # Main # ============================================================================= # if __name__ == "__main__": if len(sys.argv) < 2: print('Usage: %s defs-file' % os.path.basename(sys.argv[0])) sys.exit(-1) # Extract the flags. print('Loading flags access templates...') flagsaccess = disasmlib.parse_flags_file('%s/flags.dat' % sys.argv[1]) # Extact the CPUID features. print('Loading CPUID feature flags templates...') features = disasmlib.parse_cff_file('%s/cpuid.dat' % sys.argv[1]) # Extract the valid modes. print('Loading CPU operating modes templates...') insmodes = disasmlib.parse_modess_file('%s/modes.dat' % sys.argv[1]) # Extract the instructions. for fn in glob.glob('%s/table*.dat' % sys.argv[1]): print('Loading instructions from %s...' % fn) instructions = instructions + disasmlib.parse_ins_file(fn, flagsaccess, features, insmodes) # Sort the instructions. instructions = sorted(instructions, key = lambda x: x.Mnemonic) for i in range(0, len(instructions)): instructions[i].Icount = i # Generate the translation tree translations = generate_translations2(instructions) # Generate the mnemonics mnemonics = generate_mnemonics(instructions) mnemonics_prefixes = generate_mnemonics(prefixes) # Generate the constants constants = generate_constants(instructions) constants_prefixes = generate_constants(prefixes, True) constants_sets, constants_types = generate_constants2(instructions) # # Dump all data to files. # # Dump the mnemonics print('Writing the mnemonics.h file...') dump_mnemonics(mnemonics, mnemonics_prefixes, r'../bddisasm/include/mnemonics.h') # Dump the instruction constants print('Writing the constants.h (instruction definitions) file...') dump_constants(constants, constants_prefixes, constants_sets, constants_types, r'../inc/constants.h') print('Writing the instructions.h (main instruction database) file...') generate_master_table(instructions, r'../bddisasm/include/instructions.h') print('Writing the cpuidflags.h (CPUID feature flags) file...') generate_features(features, r'../inc/cpuidflags.h') print('Instruction succesfully parsed & header files generated!')