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/*
* Decode table flags, mostly based on Intel SDM.
*
* Copyright (c) 2022 Red Hat, Inc.
*
* Author: Paolo Bonzini <pbonzini@redhat.com>
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, see <http://www.gnu.org/licenses/>.
*/
typedef enum X86OpType {
X86_TYPE_None,
X86_TYPE_A, /* Implicit */
X86_TYPE_B, /* VEX.vvvv selects a GPR */
X86_TYPE_C, /* REG in the modrm byte selects a control register */
X86_TYPE_D, /* REG in the modrm byte selects a debug register */
X86_TYPE_E, /* ALU modrm operand */
X86_TYPE_F, /* EFLAGS/RFLAGS */
X86_TYPE_G, /* REG in the modrm byte selects a GPR */
X86_TYPE_H, /* For AVX, VEX.vvvv selects an XMM/YMM register */
X86_TYPE_I, /* Immediate */
X86_TYPE_J, /* Relative offset for a jump */
X86_TYPE_L, /* The upper 4 bits of the immediate select a 128-bit register */
X86_TYPE_M, /* modrm byte selects a memory operand */
X86_TYPE_N, /* R/M in the modrm byte selects an MMX register */
X86_TYPE_O, /* Absolute address encoded in the instruction */
X86_TYPE_P, /* reg in the modrm byte selects an MMX register */
X86_TYPE_Q, /* MMX modrm operand */
X86_TYPE_R, /* R/M in the modrm byte selects a register */
X86_TYPE_S, /* reg selects a segment register */
X86_TYPE_U, /* R/M in the modrm byte selects an XMM/YMM register */
X86_TYPE_V, /* reg in the modrm byte selects an XMM/YMM register */
X86_TYPE_W, /* XMM/YMM modrm operand */
X86_TYPE_X, /* string source */
X86_TYPE_Y, /* string destination */
/* Custom */
X86_TYPE_EM, /* modrm byte selects an ALU memory operand */
X86_TYPE_WM, /* modrm byte selects an XMM/YMM memory operand */
X86_TYPE_I_unsigned, /* Immediate, zero-extended */
X86_TYPE_2op, /* 2-operand RMW instruction */
X86_TYPE_LoBits, /* encoded in bits 0-2 of the operand + REX.B */
X86_TYPE_0, /* Hard-coded GPRs (RAX..RDI) */
X86_TYPE_1,
X86_TYPE_2,
X86_TYPE_3,
X86_TYPE_4,
X86_TYPE_5,
X86_TYPE_6,
X86_TYPE_7,
X86_TYPE_ES, /* Hard-coded segment registers */
X86_TYPE_CS,
X86_TYPE_SS,
X86_TYPE_DS,
X86_TYPE_FS,
X86_TYPE_GS,
} X86OpType;
typedef enum X86OpSize {
X86_SIZE_None,
X86_SIZE_a, /* BOUND operand */
X86_SIZE_b, /* byte */
X86_SIZE_d, /* 32-bit */
X86_SIZE_dq, /* SSE/AVX 128-bit */
X86_SIZE_p, /* Far pointer */
X86_SIZE_pd, /* SSE/AVX packed double precision */
X86_SIZE_pi, /* MMX */
X86_SIZE_ps, /* SSE/AVX packed single precision */
X86_SIZE_q, /* 64-bit */
X86_SIZE_qq, /* AVX 256-bit */
X86_SIZE_s, /* Descriptor */
X86_SIZE_sd, /* SSE/AVX scalar double precision */
X86_SIZE_ss, /* SSE/AVX scalar single precision */
X86_SIZE_si, /* 32-bit GPR */
X86_SIZE_v, /* 16/32/64-bit, based on operand size */
X86_SIZE_w, /* 16-bit */
X86_SIZE_x, /* 128/256-bit, based on operand size */
X86_SIZE_y, /* 32/64-bit, based on operand size */
X86_SIZE_z, /* 16-bit for 16-bit operand size, else 32-bit */
X86_SIZE_z_f64, /* 32-bit for 32-bit operand size or 64-bit mode, else 16-bit */
/* Custom */
X86_SIZE_d64,
X86_SIZE_f64,
X86_SIZE_xh, /* SSE/AVX packed half register */
} X86OpSize;
typedef enum X86CPUIDFeature {
X86_FEAT_None,
X86_FEAT_3DNOW,
X86_FEAT_ADX,
X86_FEAT_AES,
X86_FEAT_AVX,
X86_FEAT_AVX2,
X86_FEAT_BMI1,
X86_FEAT_BMI2,
X86_FEAT_CMOV,
X86_FEAT_CMPCCXADD,
X86_FEAT_F16C,
X86_FEAT_FMA,
X86_FEAT_MOVBE,
X86_FEAT_PCLMULQDQ,
X86_FEAT_SHA_NI,
X86_FEAT_SSE,
X86_FEAT_SSE2,
X86_FEAT_SSE3,
X86_FEAT_SSSE3,
X86_FEAT_SSE41,
X86_FEAT_SSE42,
X86_FEAT_SSE4A,
} X86CPUIDFeature;
/* Execution flags */
typedef enum X86OpUnit {
X86_OP_SKIP, /* not valid or managed by emission function */
X86_OP_SEG, /* segment selector */
X86_OP_CR, /* control register */
X86_OP_DR, /* debug register */
X86_OP_INT, /* loaded into/stored from s->T0/T1 */
X86_OP_IMM, /* immediate */
X86_OP_SSE, /* address in either s->ptrX or s->A0 depending on has_ea */
X86_OP_MMX, /* address in either s->ptrX or s->A0 depending on has_ea */
} X86OpUnit;
typedef enum X86InsnCheck {
/* Illegal or exclusive to 64-bit mode */
X86_CHECK_i64 = 1,
X86_CHECK_o64 = 2,
/* Fault outside protected mode */
X86_CHECK_prot = 4,
/* Privileged instruction checks */
X86_CHECK_cpl0 = 8,
X86_CHECK_vm86_iopl = 16,
X86_CHECK_cpl_iopl = 32,
X86_CHECK_iopl = X86_CHECK_cpl_iopl | X86_CHECK_vm86_iopl,
/* Fault if VEX.L=1 */
X86_CHECK_VEX128 = 64,
/* Fault if VEX.W=1 */
X86_CHECK_W0 = 128,
/* Fault if VEX.W=0 */
X86_CHECK_W1 = 256,
} X86InsnCheck;
typedef enum X86InsnSpecial {
X86_SPECIAL_None,
/* Accepts LOCK prefix; LOCKed operations do not load or writeback operand 0 */
X86_SPECIAL_HasLock,
/* Always locked if it has a memory operand (XCHG) */
X86_SPECIAL_Locked,
/* Do not apply segment base to effective address */
X86_SPECIAL_NoSeg,
/*
* Rd/Mb or Rd/Mw in the manual: register operand 0 is treated as 32 bits
* (and writeback zero-extends it to 64 bits if applicable). PREFIX_DATA
* does not trigger 16-bit writeback and, as a side effect, high-byte
* registers are never used.
*/
X86_SPECIAL_Op0_Rd,
/*
* Ry/Mb in the manual (PINSRB). However, the high bits are never used by
* the instruction in either the register or memory cases; the *real* effect
* of this modifier is that high-byte registers are never used, even without
* a REX prefix. Therefore, PINSRW does not need it despite having Ry/Mw.
*/
X86_SPECIAL_Op2_Ry,
/*
* Register operand 2 is extended to full width, while a memory operand
* is doubled in size if VEX.L=1.
*/
X86_SPECIAL_AVXExtMov,
/*
* MMX instruction exists with no prefix; if there is no prefix, V/H/W/U operands
* become P/P/Q/N, and size "x" becomes "q".
*/
X86_SPECIAL_MMX,
/* When loaded into s->T0, register operand 1 is zero/sign extended. */
X86_SPECIAL_SExtT0,
X86_SPECIAL_ZExtT0,
} X86InsnSpecial;
/*
* Special cases for instructions that operate on XMM/YMM registers. Intel
* retconned all of them to have VEX exception classes other than 0 and 13, so
* all these only matter for instructions that have a VEX exception class.
* Based on tables in the "AVX and SSE Instruction Exception Specification"
* section of the manual.
*/
typedef enum X86VEXSpecial {
/* Legacy SSE instructions that allow unaligned operands */
X86_VEX_SSEUnaligned,
/*
* Used for instructions that distinguish the XMM operand type with an
* instruction prefix; legacy SSE encodings will allow unaligned operands
* for scalar operands only (identified by a REP prefix). In this case,
* the decoding table uses "x" for the vector operands instead of specifying
* pd/ps/sd/ss individually.
*/
X86_VEX_REPScalar,
/*
* VEX instructions that only support 256-bit operands with AVX2 (Table 2-17
* column 3). Columns 2 and 4 (instructions limited to 256- and 127-bit
* operands respectively) are implicit in the presence of dq and qq
* operands, and thus handled by decode_op_size.
*/
X86_VEX_AVX2_256,
} X86VEXSpecial;
typedef struct X86OpEntry X86OpEntry;
typedef struct X86DecodedInsn X86DecodedInsn;
/* Decode function for multibyte opcodes. */
typedef void (*X86DecodeFunc)(DisasContext *s, CPUX86State *env, X86OpEntry *entry, uint8_t *b);
/* Code generation function. */
typedef void (*X86GenFunc)(DisasContext *s, CPUX86State *env, X86DecodedInsn *decode);
struct X86OpEntry {
/* Based on the is_decode flags. */
union {
X86GenFunc gen;
X86DecodeFunc decode;
};
/* op0 is always written, op1 and op2 are always read. */
X86OpType op0:8;
X86OpSize s0:8;
X86OpType op1:8;
X86OpSize s1:8;
X86OpType op2:8;
X86OpSize s2:8;
/* Must be I and b respectively if present. */
X86OpType op3:8;
X86OpSize s3:8;
X86InsnSpecial special:8;
X86CPUIDFeature cpuid:8;
unsigned vex_class:8;
X86VEXSpecial vex_special:8;
unsigned valid_prefix:16;
unsigned check:16;
unsigned intercept:8;
bool is_decode:1;
};
typedef struct X86DecodedOp {
int8_t n;
MemOp ot; /* For b/c/d/p/s/q/v/w/y/z */
X86OpUnit unit;
bool has_ea;
int offset; /* For MMX and SSE */
union {
target_ulong imm;
/*
* This field is used internally by macros OP0_PTR/OP1_PTR/OP2_PTR,
* do not access directly!
*/
TCGv_ptr v_ptr;
};
} X86DecodedOp;
struct X86DecodedInsn {
X86OpEntry e;
X86DecodedOp op[3];
/*
* Rightmost immediate, for convenience since most instructions have
* one (and also for 4-operand instructions).
*/
target_ulong immediate;
AddressParts mem;
TCGv cc_dst, cc_src, cc_src2;
TCGv_i32 cc_op_dynamic;
int8_t cc_op;
uint8_t b;
};