/* ----------------------------------------------------------------------- * * * Copyright 1996-2024 The NASM Authors - All Rights Reserved * See the file AUTHORS included with the NASM distribution for * the specific copyright holders. * * 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. * * ----------------------------------------------------------------------- */ /* * opflags.h - operand flags */ #ifndef NASM_OPFLAGS_H #define NASM_OPFLAGS_H #include "compiler.h" #include "tables.h" #include "regs.h" /* * Here we define the operand types. These are implemented as bit * masks, since some are subsets of others; e.g. AX in a MOV * instruction is a special operand type, whereas AX in other * contexts is just another 16-bit register. (Also, consider CL in * shift instructions, DX in OUT, etc.) * * The basic concept here is that * (class & ~operand) == 0 * * if and only if "operand" belongs to class type "class". */ #define OP_GENMASK(bits, shift) (((UINT64_C(1) << (bits)) - 1) << (shift)) #define OP_GENBIT(bit, shift) (UINT64_C(1) << ((shift) + (bit))) /* * Type of operand: memory reference, register, etc. * * Bits: 0 - 3 */ #define OPTYPE_SHIFT (0) #define OPTYPE_BITS (4) #define OPTYPE_MASK OP_GENMASK(OPTYPE_BITS, OPTYPE_SHIFT) #define GEN_OPTYPE(bit) OP_GENBIT(bit, OPTYPE_SHIFT) /* * Modifiers. * * Bits: 4 - 6 */ #define MODIFIER_SHIFT (OPTYPE_SHIFT + OPTYPE_BITS) #define MODIFIER_BITS (3) #define MODIFIER_MASK OP_GENMASK(MODIFIER_BITS, MODIFIER_SHIFT) #define GEN_MODIFIER(bit) OP_GENBIT(bit, MODIFIER_SHIFT) /* * Register classes. * * Bits: 7 - 17 */ #define REG_CLASS_SHIFT (MODIFIER_SHIFT + MODIFIER_BITS) #define REG_CLASS_BITS (11) #define REG_CLASS_MASK OP_GENMASK(REG_CLASS_BITS, REG_CLASS_SHIFT) #define GEN_REG_CLASS(bit) OP_GENBIT(bit, REG_CLASS_SHIFT) /* * Subclasses. Depends on type of operand. * * Bits: 18 - 31 */ #define SUBCLASS_SHIFT (REG_CLASS_SHIFT + REG_CLASS_BITS) #define SUBCLASS_BITS (14) #define SUBCLASS_MASK OP_GENMASK(SUBCLASS_BITS, SUBCLASS_SHIFT) #define GEN_SUBCLASS(bit) OP_GENBIT(bit, SUBCLASS_SHIFT) /* * Sizes of the operands and attributes. * * Bits: 32 - 47 */ #define SIZE_SHIFT (SUBCLASS_SHIFT + SUBCLASS_BITS) #define SIZE_BITS (16) #define SIZE_MASK OP_GENMASK(SIZE_BITS, SIZE_SHIFT) #define GEN_SIZE(bit) OP_GENBIT(bit, SIZE_SHIFT) /* * Register set count * * Bits: 48 - 52 */ #define REGSET_SHIFT (SIZE_SHIFT + SIZE_BITS) #define REGSET_BITS (5) #define REGSET_MASK OP_GENMASK(REGSET_BITS, REGSET_SHIFT) #define GEN_REGSET(bit) OP_GENBIT(bit, REGSET_SHIFT) /* * Remaining bits */ #define OPFLAGS_USED_BITS (REGSET_SHIFT + REGSET_BITS) #define OPFLAGS_UNUSED_BITS (64-OPFLAGS_USED_BITS) #define REGISTER GEN_OPTYPE(0) /* register number in 'basereg' */ #define IMMEDIATE GEN_OPTYPE(1) #define REGMEM GEN_OPTYPE(2) /* for r/m, ie EA, operands */ #define MEMORY (GEN_OPTYPE(3) | REGMEM) /* First, the actual sizes */ #define BITS8 GEN_SIZE(0) /* 8 bits (BYTE) */ #define BITS16 GEN_SIZE(1) /* 16 bits (WORD) */ #define BITS32 GEN_SIZE(2) /* 32 bits (DWORD) */ #define BITS64 GEN_SIZE(3) /* 64 bits (QWORD), x64 and FPU only */ #define BITS80 GEN_SIZE(4) /* 80 bits (TWORD), FPU only */ #define BITS128 GEN_SIZE(5) /* 128 bits (OWORD) */ #define BITS256 GEN_SIZE(6) /* 256 bits (YWORD) */ #define BITS512 GEN_SIZE(7) /* 512 bits (ZWORD) */ /* Then, size modifiers */ #define FAR GEN_SIZE(8) /* grotty: this means 16:16 or 16:32, like in CALL/JMP */ #define NEAR GEN_SIZE(9) #define SHORT GEN_SIZE(10) /* and this means what it says :) */ #define ABS GEN_SIZE(11) /* JMP ABS, MOV ABS */ /* Special modifiers */ #define TO GEN_MODIFIER(0) /* reverse effect in FADD, FSUB &c */ #define COLON GEN_MODIFIER(1) /* operand is followed by a colon */ #define STRICT GEN_MODIFIER(2) /* do not optimize this operand */ #define REG_CLASS_CDT GEN_REG_CLASS(0) #define REG_CLASS_GPR GEN_REG_CLASS(1) #define REG_CLASS_SREG GEN_REG_CLASS(2) #define REG_CLASS_FPUREG GEN_REG_CLASS(3) #define REG_CLASS_RM_MMX GEN_REG_CLASS(4) #define REG_CLASS_RM_XMM GEN_REG_CLASS(5) #define REG_CLASS_RM_YMM GEN_REG_CLASS(6) #define REG_CLASS_RM_ZMM GEN_REG_CLASS(7) #define REG_CLASS_OPMASK GEN_REG_CLASS(8) #define REG_CLASS_BND GEN_REG_CLASS(9) #define REG_CLASS_RM_TMM GEN_REG_CLASS(10) /* Register classes treated as vectors for EVEX/REX2 encoding purposes */ #define REG_CLASS_VECTOR (REG_CLASS_RM_XMM|REG_CLASS_RM_YMM|\ REG_CLASS_RM_ZMM|REG_CLASS_RM_TMM) /* Helper function to test for a value matching a class */ static inline bool is_class(opflags_t class, opflags_t op) { return !(class & ~op); } /* Verify a token value is a valid register */ static inline bool is_register(int reg) { return reg >= EXPR_REG_START && reg < REG_ENUM_LIMIT; } /* Helper function to test if a token is a register matching a class */ static inline bool is_reg_class(opflags_t class, int reg) { if (!is_register(reg)) return false; return is_class(class, nasm_reg_flags[reg]); } #define IS_SREG(reg) is_reg_class(REG_SREG, (reg)) #define IS_FSGS(reg) is_reg_class(REG_FSGS, (reg)) /* * These are used across the RM classes so cannot conflict with neither EA * nor REG subtypes! x86/insns.pl automatically adds RN_FLAGS(x) to the * defintion of each register type. */ #define RN_L16 GEN_SUBCLASS(10) /* Register number 0-15 */ #define RN_ZERO (GEN_SUBCLASS(11) | RN_L16) /* Register number 0 */ #define RN_NZERO GEN_SUBCLASS(12) /* Register number 1+ */ #define RN_1_15 (RN_NZERO | RN_L16) /* Register number 1-15 */ #define RN_FLAGS(n) \ (((n) == 0 ? RN_ZERO : RN_NZERO) | \ ((n) < 16 ? RN_L16 : 0)) #define RM_L16 (RN_L16 | REGMEM) #define RM_ZERO (RN_ZERO | REGMEM) #define RM_NZERO (RN_NZERO | REGMEM) #define RM_1_15 (RM_1_15 | REGMEM) #define RM_SEL (GEN_SUBCLASS(13) | REGMEM) /* valid segment selector */ /* Register classes */ #define REG_L16 (RN_L16 | REGISTER) #define REG_ZERO (RN_ZERO | REGISTER) #define REG_NZERO (RN_NZERO | REGISTER) #define REG_1_15 (RN_1_15 | REGISTER) #define REG_SMASK SUBCLASS_MASK #define REG_EA ( REGMEM | REGISTER ) /* 'normal' reg, qualifies as EA */ #define RM_GPR (REG_CLASS_GPR | REGMEM ) /* integer operand */ #define REG_GPR (REG_CLASS_GPR | REG_EA ) /* integer register */ #define FPUREG (REG_CLASS_FPUREG | REGISTER ) /* fp stack registers */ #define FPU0 (REG_CLASS_FPUREG | REG_ZERO ) /* fp stack register zero */ #define RM_MMX (REG_CLASS_RM_MMX | REGMEM ) /* MMX operand */ #define MMXREG (REG_CLASS_RM_MMX | REG_EA ) /* MMX register */ #define RM_XMM (REG_CLASS_RM_XMM | REGMEM ) /* XMM operand */ #define XMMREG (REG_CLASS_RM_XMM | REG_EA ) /* XMM register */ #define RM_XMM_L16 (REG_CLASS_RM_XMM | REGMEM | RN_L16 ) /* XMM operand reg 0-15 */ #define XMM_L16 (REG_CLASS_RM_XMM | REG_EA | RN_L16 ) /* XMM register 0-15 */ #define XMM0 (REG_CLASS_RM_XMM | REGMEM | REG_ZERO ) /* XMM register 0 */ #define RM_YMM (REG_CLASS_RM_YMM | REGMEM ) /* YMM operand */ #define YMMREG (REG_CLASS_RM_YMM | REG_EA ) /* YMM register */ #define RM_YMM_L16 (REG_CLASS_RM_YMM | REGMEM | RN_L16 ) /* YMM operand reg 0-15 */ #define YMM_L16 (REG_CLASS_RM_YMM | REG_EA | RN_L16 ) /* YMM register 0-15 */ #define YMM0 (REG_CLASS_RM_YMM | REGMEM | REG_ZERO ) /* YMM register 0 */ #define RM_ZMM (REG_CLASS_RM_ZMM | REGMEM ) /* ZMM operand */ #define ZMMREG (REG_CLASS_RM_ZMM | REG_EA ) /* ZMM register */ #define RM_ZMM_L16 (REG_CLASS_RM_ZMM | REGMEM | RN_L16 ) /* ZMM operand reg 0-15 */ #define ZMM_L16 (REG_CLASS_RM_ZMM | REG_EA | RN_L16 ) /* ZMM register 0-15 */ #define ZMM0 (REG_CLASS_RM_ZMM | REGMEM | REG_ZERO ) /* ZMM register 0 */ #define RM_OPMASK (REG_CLASS_OPMASK | REGMEM ) /* Opmask operand */ #define OPMASKREG (REG_CLASS_OPMASK | REG_EA ) /* Opmask register */ #define OPMASK0 (REG_CLASS_OPMASK | REG_EA ) /* Opmask register zero (k0) */ #define RM_K RM_OPMASK #define KREG OPMASKREG #define RM_BND (REG_CLASS_BND | REGMEM ) /* Bounds operand */ #define BNDREG (REG_CLASS_BND | REG_EA ) /* Bounds register */ #define TMMREG (REG_CLASS_RM_TMM | REG_EA ) /* TMM (AMX) register */ #define REG_CDT (REG_CLASS_CDT | REGISTER) /* CRn, DRn and TRn */ #define REG_CREG (GEN_SUBCLASS(0) | REG_CDT ) /* CRn */ #define REG_DREG (GEN_SUBCLASS(1) | REG_CDT ) /* DRn */ #define REG_TREG (GEN_SUBCLASS(2) | REG_CDT ) /* TRn */ #define REG_SREG (REG_CLASS_SREG | REG_L16 | BITS16) /* segment register */ /* Segment registers */ #define REG_ES (GEN_SUBCLASS(0) | GEN_SUBCLASS(2) | REG_SREG) /* ES */ #define REG_CS (GEN_SUBCLASS(1) | GEN_SUBCLASS(2) | REG_SREG) /* CS */ #define REG_SS (GEN_SUBCLASS(0) | GEN_SUBCLASS(3) | REG_SREG) /* SS */ #define REG_DS (GEN_SUBCLASS(1) | GEN_SUBCLASS(3) | REG_SREG) /* DS */ #define REG_FS (GEN_SUBCLASS(0) | GEN_SUBCLASS(4) | REG_SREG) /* FS */ #define REG_GS (GEN_SUBCLASS(1) | GEN_SUBCLASS(4) | REG_SREG) /* GS */ #define REG_FSGS ( GEN_SUBCLASS(4) | REG_SREG) /* FS or GS */ #define REG_SEG6 (GEN_SUBCLASS(0) | GEN_SUBCLASS(5) | REG_SREG) #define REG_SEG7 (GEN_SUBCLASS(1) | GEN_SUBCLASS(5) | REG_SREG) #define REG_SEG67 ( GEN_SUBCLASS(5) | REG_SREG) /* GPRs */ #define REG8 (REG_GPR | BITS8 ) #define REG16 (REG_GPR | BITS16 | RM_SEL) #define REG32 (REG_GPR | BITS32 | RM_SEL) #define REG64 (REG_GPR | BITS64 | RM_SEL) /* accumulator: AL, AX, EAX, RAX */ #define REG_ACCUM (REG_GPR | REG_ZERO) #define REG_AL (REG_ACCUM | REG8 ) #define REG_AX (REG_ACCUM | REG16) #define REG_EAX (REG_ACCUM | REG32) #define REG_RAX (REG_ACCUM | REG64) /* counter: CL, CX, ECX, RDX */ #define REG_COUNT (REG_GPR | REG_1_15 | GEN_SUBCLASS(0)) #define REG_CL (REG_COUNT | REG8 ) #define REG_CX (REG_COUNT | REG16) #define REG_ECX (REG_COUNT | REG32) #define REG_RCX (REG_COUNT | REG64) /* data: DL, DX, EDX, RDX */ #define REG_DATA (REG_GPR | REG_1_15 | GEN_SUBCLASS(1)) #define REG_DL (REG_DATA | REG8 ) #define REG_DX (REG_DATA | REG16) #define REG_EDX (REG_DATA | REG32) #define REG_RDX (REG_DATA | REG64) /* base: BL, BX, EBX, RBX */ #define REG_BASE (REG_GPR | REG_1_15 | GEN_SUBCLASS(2)) #define REG_BL (REG_BASE | REG8 ) #define REG_BX (REG_BASE | REG16) #define REG_EBX (REG_BASE | REG32) #define REG_RBX (REG_BASE | REG64) /* high 8-bit regs: AH, CH, DH, BH */ #define REG_HIGH (REG8 | REG_1_15 | GEN_SUBCLASS(3)) /* Non-accumulator registers */ #define REG_NA (REG_GPR | REG_NZERO) #define REG8NA (REG_NA | REG8 ) #define REG16NA (REG_NA | REG16) #define REG32NA (REG_NA | REG32) #define REG64NA (REG_NA | REG64) /* special types of EAs */ #define MEM_OFFS (GEN_SUBCLASS(0) | MEMORY) /* simple [address] offset - absolute! */ #define IP_REL (GEN_SUBCLASS(1) | MEMORY) /* IP-relative offset */ #define XMEM (GEN_SUBCLASS(2) | MEMORY) /* 128-bit vector SIB */ #define YMEM (GEN_SUBCLASS(3) | MEMORY) /* 256-bit vector SIB */ #define ZMEM (GEN_SUBCLASS(4) | MEMORY) /* 512-bit vector SIB */ /* * operand bits to match an instruction carrying any type of memory r/m operand */ #define MEMORY_ANY (MEMORY | RM_GPR | RM_MMX | RM_XMM | RM_YMM | RM_ZMM | \ RM_L16 | RM_ZERO | RM_NZERO | RM_OPMASK | RM_BND) /* special immediate values */ #define IMM_NORMAL (GEN_SUBCLASS(0) | IMMEDIATE) /* operand is NOT a brcconst */ #define UNITY (GEN_SUBCLASS(1) | IMMEDIATE) /* operand equals 1 */ #define SBYTEWORD (GEN_SUBCLASS(2) | IMMEDIATE) /* operand is in the range -128..127 mod 2^16 */ #define SBYTEDWORD (GEN_SUBCLASS(3) | IMMEDIATE) /* operand is in the range -128..127 mod 2^32 */ #define SDWORD (GEN_SUBCLASS(4) | IMMEDIATE) /* operand is in the range -0x80000000..0x7FFFFFFF */ #define UDWORD (GEN_SUBCLASS(5) | IMMEDIATE) /* operand is in the range 0..0xFFFFFFFF */ #define FOURBITS (GEN_SUBCLASS(6) | IMMEDIATE) /* operand is in the range 0-15 */ #define BYTEEXTMASK (GEN_SUBCLASS(2) | GEN_SUBCLASS(3)) #define DWORDEXTMASK (GEN_SUBCLASS(4) | GEN_SUBCLASS(5)) /* Register set sizes */ #define RS2 GEN_REGSET(0) #define RS4 GEN_REGSET(1) #define RS8 GEN_REGSET(2) #define RS16 GEN_REGSET(3) #define RS32 GEN_REGSET(4) #endif /* NASM_OPFLAGS_H */