/* udis86 - libudis86/decode.h * * Copyright (c) 2002-2009 Vivek Thampi * All rights reserved. * * Redistribution and use in source and binary forms, with or without modification, * are permitted provided that the following conditions are met: * * * Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR * ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON * ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #ifndef UD_DECODE_H #define UD_DECODE_H #include "types.h" #include "udint.h" #include "itab.h" #define MAX_INSN_LENGTH 15 /* itab prefix bits */ #define P_none ( 0 ) #define P_inv64 ( 1 << 0 ) #define P_INV64(n) ( ( n >> 0 ) & 1 ) #define P_def64 ( 1 << 1 ) #define P_DEF64(n) ( ( n >> 1 ) & 1 ) #define P_oso ( 1 << 2 ) #define P_OSO(n) ( ( n >> 2 ) & 1 ) #define P_aso ( 1 << 3 ) #define P_ASO(n) ( ( n >> 3 ) & 1 ) #define P_rexb ( 1 << 4 ) #define P_REXB(n) ( ( n >> 4 ) & 1 ) #define P_rexw ( 1 << 5 ) #define P_REXW(n) ( ( n >> 5 ) & 1 ) #define P_rexr ( 1 << 6 ) #define P_REXR(n) ( ( n >> 6 ) & 1 ) #define P_rexx ( 1 << 7 ) #define P_REXX(n) ( ( n >> 7 ) & 1 ) #define P_seg ( 1 << 8 ) #define P_SEG(n) ( ( n >> 8 ) & 1 ) #define P_vexl ( 1 << 9 ) #define P_VEXL(n) ( ( n >> 9 ) & 1 ) #define P_vexw ( 1 << 10 ) #define P_VEXW(n) ( ( n >> 10 ) & 1 ) #define P_str ( 1 << 11 ) #define P_STR(n) ( ( n >> 11 ) & 1 ) #define P_strz ( 1 << 12 ) #define P_STR_ZF(n) ( ( n >> 12 ) & 1 ) /* operand type constants -- order is important! */ enum ud_operand_code { OP_NONE, OP_A, OP_E, OP_M, OP_G, OP_I, OP_F, OP_R0, OP_R1, OP_R2, OP_R3, OP_R4, OP_R5, OP_R6, OP_R7, OP_AL, OP_CL, OP_DL, OP_AX, OP_CX, OP_DX, OP_eAX, OP_eCX, OP_eDX, OP_rAX, OP_rCX, OP_rDX, OP_ES, OP_CS, OP_SS, OP_DS, OP_FS, OP_GS, OP_ST0, OP_ST1, OP_ST2, OP_ST3, OP_ST4, OP_ST5, OP_ST6, OP_ST7, OP_J, OP_S, OP_O, OP_I1, OP_I3, OP_sI, OP_V, OP_W, OP_Q, OP_P, OP_U, OP_N, OP_MU, OP_H, OP_L, OP_R, OP_C, OP_D, OP_MR } UD_ATTR_PACKED; /* * Operand size constants * * Symbolic constants for various operand sizes. Some of these constants * are given a value equal to the width of the data (SZ_B == 8), such * that they maybe used interchangeably in the internals. Modifying them * will most certainly break things! */ typedef uint16_t ud_operand_size_t; #define SZ_NA 0 #define SZ_Z 1 #define SZ_V 2 #define SZ_Y 3 #define SZ_X 4 #define SZ_RDQ 7 #define SZ_B 8 #define SZ_W 16 #define SZ_D 32 #define SZ_Q 64 #define SZ_T 80 #define SZ_O 12 #define SZ_DQ 128 /* double quad */ #define SZ_QQ 256 /* quad quad */ /* * Complex size types; that encode sizes for operands of type MR (memory or * register); for internal use only. Id space above 256. */ #define SZ_BD ((SZ_B << 8) | SZ_D) #define SZ_BV ((SZ_B << 8) | SZ_V) #define SZ_WD ((SZ_W << 8) | SZ_D) #define SZ_WV ((SZ_W << 8) | SZ_V) #define SZ_WY ((SZ_W << 8) | SZ_Y) #define SZ_DY ((SZ_D << 8) | SZ_Y) #define SZ_WO ((SZ_W << 8) | SZ_O) #define SZ_DO ((SZ_D << 8) | SZ_O) #define SZ_QO ((SZ_Q << 8) | SZ_O) /* resolve complex size type. */ static UD_INLINE ud_operand_size_t Mx_mem_size(ud_operand_size_t size) { return (size >> 8) & 0xff; } static UD_INLINE ud_operand_size_t Mx_reg_size(ud_operand_size_t size) { return size & 0xff; } /* A single operand of an entry in the instruction table. * (internal use only) */ struct ud_itab_entry_operand { enum ud_operand_code type; ud_operand_size_t size; }; /* A single entry in an instruction table. *(internal use only) */ struct ud_itab_entry { enum ud_mnemonic_code mnemonic; struct ud_itab_entry_operand operand1; struct ud_itab_entry_operand operand2; struct ud_itab_entry_operand operand3; struct ud_itab_entry_operand operand4; uint32_t prefix; }; struct ud_lookup_table_list_entry { const uint16_t *table; enum ud_table_type type; const char *meta; }; extern const struct ud_itab_entry ud_itab[]; extern const struct ud_lookup_table_list_entry ud_lookup_table_list[]; #endif /* UD_DECODE_H */ /* vim:cindent * vim:expandtab * vim:ts=4 * vim:sw=4 */