| /* $Id: x86arch.h 2346 2010-08-01 01:37:37Z peter $ |
| * x86 Architecture header file |
| * |
| * Copyright (C) 2001-2007 Peter Johnson |
| * |
| * Redistribution and use in source and binary forms, with or without |
| * modification, are permitted provided that the following conditions |
| * are met: |
| * 1. Redistributions of source code must retain the above copyright |
| * notice, this list of conditions and the following disclaimer. |
| * 2. 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 AUTHOR AND OTHER 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 AUTHOR OR OTHER 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 YASM_X86ARCH_H |
| #define YASM_X86ARCH_H |
| |
| #include <libyasm/bitvect.h> |
| |
| /* Available CPU feature flags */ |
| #define CPU_Any 0 /* Any old cpu will do */ |
| #define CPU_086 CPU_Any |
| #define CPU_186 1 /* i186 or better required */ |
| #define CPU_286 2 /* i286 or better required */ |
| #define CPU_386 3 /* i386 or better required */ |
| #define CPU_486 4 /* i486 or better required */ |
| #define CPU_586 5 /* i585 or better required */ |
| #define CPU_686 6 /* i686 or better required */ |
| #define CPU_P3 7 /* Pentium3 or better required */ |
| #define CPU_P4 8 /* Pentium4 or better required */ |
| #define CPU_IA64 9 /* IA-64 or better required */ |
| #define CPU_K6 10 /* AMD K6 or better required */ |
| #define CPU_Athlon 11 /* AMD Athlon or better required */ |
| #define CPU_Hammer 12 /* AMD Sledgehammer or better required */ |
| #define CPU_FPU 13 /* FPU support required */ |
| #define CPU_MMX 14 /* MMX support required */ |
| #define CPU_SSE 15 /* Streaming SIMD extensions required */ |
| #define CPU_SSE2 16 /* Streaming SIMD extensions 2 required */ |
| #define CPU_SSE3 17 /* Streaming SIMD extensions 3 required */ |
| #define CPU_3DNow 18 /* 3DNow! support required */ |
| #define CPU_Cyrix 19 /* Cyrix-specific instruction */ |
| #define CPU_AMD 20 /* AMD-specific inst. (older than K6) */ |
| #define CPU_SMM 21 /* System Management Mode instruction */ |
| #define CPU_Prot 22 /* Protected mode only instruction */ |
| #define CPU_Undoc 23 /* Undocumented instruction */ |
| #define CPU_Obs 24 /* Obsolete instruction */ |
| #define CPU_Priv 25 /* Priveleged instruction */ |
| #define CPU_SVM 26 /* Secure Virtual Machine instruction */ |
| #define CPU_PadLock 27 /* VIA PadLock instruction */ |
| #define CPU_EM64T 28 /* Intel EM64T or better */ |
| #define CPU_SSSE3 29 /* Streaming SIMD extensions 3 required */ |
| #define CPU_SSE41 30 /* Streaming SIMD extensions 4.1 required */ |
| #define CPU_SSE42 31 /* Streaming SIMD extensions 4.2 required */ |
| #define CPU_SSE4a 32 /* AMD Streaming SIMD extensions 4a required */ |
| #define CPU_XSAVE 33 /* Intel XSAVE instructions */ |
| #define CPU_AVX 34 /* Intel Advanced Vector Extensions */ |
| #define CPU_FMA 35 /* Intel Fused-Multiply-Add Extensions */ |
| #define CPU_AES 36 /* AES instruction */ |
| #define CPU_CLMUL 37 /* PCLMULQDQ instruction */ |
| #define CPU_MOVBE 38 /* MOVBE instruction */ |
| #define CPU_XOP 39 /* AMD XOP extensions */ |
| #define CPU_FMA4 40 /* AMD Fused-Multiply-Add extensions */ |
| #define CPU_F16C 41 /* Intel float-16 instructions */ |
| #define CPU_FSGSBASE 42 /* Intel FSGSBASE instructions */ |
| #define CPU_RDRAND 43 /* Intel RDRAND instruction */ |
| #define CPU_XSAVEOPT 44 /* Intel XSAVEOPT instruction */ |
| #define CPU_EPTVPID 45 /* Intel INVEPT, INVVPID instructions */ |
| #define CPU_SMX 46 /* Intel SMX instruction (GETSEC) */ |
| |
| enum x86_parser_type { |
| X86_PARSER_NASM = 0, |
| X86_PARSER_TASM = 1, |
| X86_PARSER_GAS = 2 |
| }; |
| |
| #define PARSER(arch) (((arch)->parser == X86_PARSER_GAS && (arch)->gas_intel_mode) ? X86_PARSER_NASM : (arch)->parser) |
| |
| typedef struct yasm_arch_x86 { |
| yasm_arch_base arch; /* base structure */ |
| |
| /* What instructions/features are enabled? */ |
| unsigned int active_cpu; /* active index into cpu_enables table */ |
| unsigned int cpu_enables_size; /* size of cpu_enables table */ |
| wordptr *cpu_enables; |
| |
| unsigned int amd64_machine; |
| enum x86_parser_type parser; |
| unsigned int mode_bits; |
| unsigned int force_strict; |
| unsigned int default_rel; |
| unsigned int gas_intel_mode; |
| |
| enum { |
| X86_NOP_BASIC = 0, |
| X86_NOP_INTEL = 1, |
| X86_NOP_AMD = 2 |
| } nop; |
| } yasm_arch_x86; |
| |
| /* 0-15 (low 4 bits) used for register number, stored in same data area. |
| * Note 8-15 are only valid for some registers, and only in 64-bit mode. |
| */ |
| typedef enum { |
| X86_REG8 = 0x1<<4, |
| X86_REG8X = 0x2<<4, /* 64-bit mode only, REX prefix version of REG8 */ |
| X86_REG16 = 0x3<<4, |
| X86_REG32 = 0x4<<4, |
| X86_REG64 = 0x5<<4, /* 64-bit mode only */ |
| X86_FPUREG = 0x6<<4, |
| X86_MMXREG = 0x7<<4, |
| X86_XMMREG = 0x8<<4, |
| X86_YMMREG = 0x9<<4, |
| X86_CRREG = 0xA<<4, |
| X86_DRREG = 0xB<<4, |
| X86_TRREG = 0xC<<4, |
| X86_RIP = 0xD<<4 /* 64-bit mode only, always RIP (regnum ignored) */ |
| } x86_expritem_reg_size; |
| |
| /* Low 8 bits are used for the prefix value, stored in same data area. */ |
| typedef enum { |
| X86_LOCKREP = 1<<8, |
| X86_ADDRSIZE = 2<<8, |
| X86_OPERSIZE = 3<<8, |
| X86_SEGREG = 4<<8, |
| X86_REX = 5<<8 |
| } x86_parse_insn_prefix; |
| |
| typedef enum { |
| X86_NEAR = 1, |
| X86_SHORT, |
| X86_FAR, |
| X86_TO |
| } x86_parse_targetmod; |
| |
| typedef enum { |
| JMP_NONE, |
| JMP_SHORT, |
| JMP_NEAR, |
| JMP_SHORT_FORCED, |
| JMP_NEAR_FORCED |
| } x86_jmp_opcode_sel; |
| |
| typedef enum { |
| X86_REX_W = 3, |
| X86_REX_R = 2, |
| X86_REX_X = 1, |
| X86_REX_B = 0 |
| } x86_rex_bit_pos; |
| |
| /* Sets REX (4th bit) and 3 LS bits from register size/number. Returns 1 if |
| * impossible to fit reg into REX, otherwise returns 0. Input parameter rexbit |
| * indicates bit of REX to use if REX is needed. Will not modify REX if not |
| * in 64-bit mode or if it wasn't needed to express reg. |
| */ |
| int yasm_x86__set_rex_from_reg(unsigned char *rex, unsigned char *low3, |
| uintptr_t reg, unsigned int bits, |
| x86_rex_bit_pos rexbit); |
| |
| /* Effective address type */ |
| typedef struct x86_effaddr { |
| yasm_effaddr ea; /* base structure */ |
| |
| /* How the spare (register) bits in Mod/RM are handled: |
| * Even if valid_modrm=0, the spare bits are still valid (don't overwrite!) |
| * They're set in bytecode_create_insn(). |
| */ |
| unsigned char modrm; |
| unsigned char valid_modrm; /* 1 if Mod/RM byte currently valid, 0 if not */ |
| unsigned char need_modrm; /* 1 if Mod/RM byte needed, 0 if not */ |
| |
| unsigned char sib; |
| unsigned char valid_sib; /* 1 if SIB byte currently valid, 0 if not */ |
| unsigned char need_sib; /* 1 if SIB byte needed, 0 if not, |
| 0xff if unknown */ |
| } x86_effaddr; |
| |
| void yasm_x86__ea_init(x86_effaddr *x86_ea, unsigned int spare, |
| yasm_bytecode *precbc); |
| |
| void yasm_x86__ea_set_disponly(x86_effaddr *x86_ea); |
| x86_effaddr *yasm_x86__ea_create_reg(x86_effaddr *x86_ea, unsigned long reg, |
| unsigned char *rex, unsigned int bits); |
| x86_effaddr *yasm_x86__ea_create_imm |
| (x86_effaddr *x86_ea, /*@keep@*/ yasm_expr *imm, unsigned int im_len); |
| yasm_effaddr *yasm_x86__ea_create_expr(yasm_arch *arch, |
| /*@keep@*/ yasm_expr *e); |
| void yasm_x86__ea_destroy(yasm_effaddr *ea); |
| void yasm_x86__ea_print(const yasm_effaddr *ea, FILE *f, int indent_level); |
| |
| void yasm_x86__bc_insn_opersize_override(yasm_bytecode *bc, |
| unsigned int opersize); |
| void yasm_x86__bc_insn_addrsize_override(yasm_bytecode *bc, |
| unsigned int addrsize); |
| void yasm_x86__bc_insn_set_lockrep_prefix(yasm_bytecode *bc, |
| unsigned int prefix); |
| |
| /* Bytecode types */ |
| typedef struct x86_common { |
| unsigned char addrsize; /* 0 or =mode_bits => no override */ |
| unsigned char opersize; /* 0 or =mode_bits => no override */ |
| unsigned char lockrep_pre; /* 0 indicates no prefix */ |
| |
| unsigned char mode_bits; |
| } x86_common; |
| |
| typedef struct x86_opcode { |
| unsigned char opcode[3]; /* opcode */ |
| unsigned char len; |
| } x86_opcode; |
| |
| typedef struct x86_insn { |
| x86_common common; /* common x86 information */ |
| x86_opcode opcode; |
| |
| /*@null@*/ x86_effaddr *x86_ea; /* effective address */ |
| |
| /*@null@*/ yasm_value *imm; /* immediate or relative value */ |
| |
| unsigned char def_opersize_64; /* default operand size in 64-bit mode */ |
| unsigned char special_prefix; /* "special" prefix (0=none) */ |
| |
| unsigned char rex; /* REX AMD64 extension, 0 if none, |
| 0xff if not allowed (high 8 bit reg used) */ |
| |
| /* Postponed (from parsing to later binding) action options. */ |
| enum { |
| /* None */ |
| X86_POSTOP_NONE = 0, |
| |
| /* Instructions that take a sign-extended imm8 as well as imm values |
| * (eg, the arith instructions and a subset of the imul instructions) |
| * should set this and put the imm8 form as the "normal" opcode (in |
| * the first one or two bytes) and non-imm8 form in the second or |
| * third byte of the opcode. |
| */ |
| X86_POSTOP_SIGNEXT_IMM8, |
| |
| /* Override any attempt at address-size override to 16 bits, and never |
| * generate a prefix. This is used for the ENTER opcode. |
| */ |
| X86_POSTOP_ADDRESS16 |
| } postop; |
| } x86_insn; |
| |
| typedef struct x86_jmp { |
| x86_common common; /* common x86 information */ |
| x86_opcode shortop, nearop; |
| |
| yasm_value target; /* jump target */ |
| |
| /* which opcode are we using? */ |
| /* The *FORCED forms are specified in the source as such */ |
| x86_jmp_opcode_sel op_sel; |
| } x86_jmp; |
| |
| /* Direct (immediate) FAR jumps ONLY; indirect FAR jumps get turned into |
| * x86_insn bytecodes; relative jumps turn into x86_jmp bytecodes. |
| * This bytecode is not legal in 64-bit mode. |
| */ |
| typedef struct x86_jmpfar { |
| x86_common common; /* common x86 information */ |
| x86_opcode opcode; |
| |
| yasm_value segment; /* target segment */ |
| yasm_value offset; /* target offset */ |
| } x86_jmpfar; |
| |
| void yasm_x86__bc_transform_insn(yasm_bytecode *bc, x86_insn *insn); |
| void yasm_x86__bc_transform_jmp(yasm_bytecode *bc, x86_jmp *jmp); |
| void yasm_x86__bc_transform_jmpfar(yasm_bytecode *bc, x86_jmpfar *jmpfar); |
| |
| void yasm_x86__bc_apply_prefixes |
| (x86_common *common, unsigned char *rex, unsigned int def_opersize_64, |
| unsigned int num_prefixes, uintptr_t *prefixes); |
| |
| /* Check an effective address. Returns 0 if EA was successfully determined, |
| * 1 if invalid EA, or 2 if indeterminate EA. |
| */ |
| int yasm_x86__expr_checkea |
| (x86_effaddr *x86_ea, unsigned char *addrsize, unsigned int bits, |
| int address16_op, unsigned char *rex, yasm_bytecode *bc); |
| |
| void yasm_x86__parse_cpu(yasm_arch_x86 *arch_x86, const char *cpuid, |
| size_t cpuid_len); |
| |
| yasm_arch_insnprefix yasm_x86__parse_check_insnprefix |
| (yasm_arch *arch, const char *id, size_t id_len, unsigned long line, |
| /*@out@*/ yasm_bytecode **bc, /*@out@*/ uintptr_t *prefix); |
| yasm_arch_regtmod yasm_x86__parse_check_regtmod |
| (yasm_arch *arch, const char *id, size_t id_len, |
| /*@out@*/ uintptr_t *data); |
| |
| int yasm_x86__floatnum_tobytes |
| (yasm_arch *arch, const yasm_floatnum *flt, unsigned char *buf, |
| size_t destsize, size_t valsize, size_t shift, int warn); |
| int yasm_x86__intnum_tobytes |
| (yasm_arch *arch, const yasm_intnum *intn, unsigned char *buf, |
| size_t destsize, size_t valsize, int shift, const yasm_bytecode *bc, |
| int warn); |
| |
| unsigned int yasm_x86__get_reg_size(uintptr_t reg); |
| |
| /*@only@*/ yasm_bytecode *yasm_x86__create_empty_insn(yasm_arch *arch, |
| unsigned long line); |
| #endif |