VirtualBox

source: vbox/trunk/src/VBox/Disassembler/DisasmTables-armv8-a64.cpp@ 103914

Last change on this file since 103914 was 100046, checked in by vboxsync, 16 months ago

Disassembler: Some updates to the ARMv8 disassembler lying around, bugref:10394

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1/* $Id: DisasmTables-armv8-a64.cpp 100046 2023-06-01 18:57:29Z vboxsync $ */
2/** @file
3 * VBox disassembler - Tables for ARMv8 A64.
4 */
5
6/*
7 * Copyright (C) 2023 Oracle and/or its affiliates.
8 *
9 * This file is part of VirtualBox base platform packages, as
10 * available from https://www.virtualbox.org.
11 *
12 * This program is free software; you can redistribute it and/or
13 * modify it under the terms of the GNU General Public License
14 * as published by the Free Software Foundation, in version 3 of the
15 * License.
16 *
17 * This program is distributed in the hope that it will be useful, but
18 * WITHOUT ANY WARRANTY; without even the implied warranty of
19 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
20 * General Public License for more details.
21 *
22 * You should have received a copy of the GNU General Public License
23 * along with this program; if not, see <https://www.gnu.org/licenses>.
24 *
25 * SPDX-License-Identifier: GPL-3.0-only
26 */
27
28
29/*********************************************************************************************************************************
30* Header Files *
31*********************************************************************************************************************************/
32#include <VBox/dis.h>
33#include <VBox/disopcode-armv8.h>
34#include "DisasmInternal-armv8.h"
35
36
37/*********************************************************************************************************************************
38* Global Variables *
39*********************************************************************************************************************************/
40
41#define DIS_ARMV8_OP(a_fMask, a_fValue, a_szOpcode, a_uOpcode, a_fOpType) \
42 { a_fMask, a_fValue, OP(a_szOpcode, 0, 0, 0, a_uOpcode, OP_ARMV8_PARM_NONE, OP_ARMV8_PARM_NONE, OP_ARMV8_PARM_NONE, a_fOpType) }
43
44#ifndef DIS_CORE_ONLY
45static char g_szInvalidOpcode[] = "Invalid Opcode";
46#endif
47
48#define INVALID_OPCODE \
49 DIS_ARMV8_OP(0xffffffff, 0, g_szInvalidOpcode, OP_ARMV8_INVALID, DISOPTYPE_INVALID)
50
51
52/* Invalid opcode */
53DECL_HIDDEN_CONST(DISOPCODE) g_ArmV8A64InvalidOpcode[1] =
54{
55 OP(g_szInvalidOpcode, 0, 0, 0, OP_ARMV8_INVALID, OP_ARMV8_PARM_NONE, OP_ARMV8_PARM_NONE, OP_ARMV8_PARM_NONE, DISOPTYPE_INVALID)
56};
57
58
59/* UDF */
60DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_BEGIN(g_aArmV8A64InsnRsvd)
61 DIS_ARMV8_OP(0xffff0000, 0x00000000, "udf %I" , OP_ARMV8_A64_UDF, DISOPTYPE_INVALID)
62DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_PARAMS(g_aArmV8A64InsnRsvd, 0 /*fClass*/,
63 kDisArmV8OpcDecodeNop, 0xffff0000, 16)
64 DIS_ARMV8_INSN_PARAM_CREATE(kDisParmParseImm, 0, 16),
65 DIS_ARMV8_INSN_PARAM_NONE,
66 DIS_ARMV8_INSN_PARAM_NONE,
67 DIS_ARMV8_INSN_PARAM_NONE
68DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_END;
69
70
71/* ADR/ADRP */
72DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_BEGIN(g_ArmV8A64Adr)
73 DIS_ARMV8_OP(0x9f000000, 0x10000000, "adr %X,%I" , OP_ARMV8_A64_ADR, DISOPTYPE_HARMLESS),
74 DIS_ARMV8_OP(0x9f000000, 0x90000000, "adrp %X,%I" , OP_ARMV8_A64_ADRP, DISOPTYPE_HARMLESS)
75DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_PARAMS(g_ArmV8A64Adr, DISARMV8INSNCLASS_F_FORCED_64BIT,
76 kDisArmV8OpcDecodeNop, RT_BIT_32(31), 31)
77 DIS_ARMV8_INSN_PARAM_CREATE(kDisParmParseReg, 0, 5),
78 DIS_ARMV8_INSN_PARAM_CREATE(kDisParmParseImmAdr, 0, 0),
79 DIS_ARMV8_INSN_PARAM_NONE,
80 DIS_ARMV8_INSN_PARAM_NONE
81DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_END;
82
83
84/* ADD/ADDS/SUB/SUBS */
85DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_BEGIN(g_ArmV8A64AddSubImm)
86 DIS_ARMV8_OP(0x7f800000, 0x11000000, "add %X,%X,%I" , OP_ARMV8_A64_ADD, DISOPTYPE_HARMLESS),
87 DIS_ARMV8_OP(0x7f800000, 0x31000000, "adds %X,%X,%I" , OP_ARMV8_A64_ADDS, DISOPTYPE_HARMLESS),
88 DIS_ARMV8_OP(0x7f800000, 0x51000000, "sub %X,%X,%I" , OP_ARMV8_A64_SUB, DISOPTYPE_HARMLESS),
89 DIS_ARMV8_OP(0x7f800000, 0x71000000, "subs %X,%X,%I" , OP_ARMV8_A64_SUBS, DISOPTYPE_HARMLESS),
90DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_PARAMS(g_ArmV8A64AddSubImm, DISARMV8INSNCLASS_F_SF,
91 kDisArmV8OpcDecodeNop, RT_BIT_32(29) | RT_BIT_32(30), 29)
92 DIS_ARMV8_INSN_PARAM_CREATE(kDisParmParseReg, 0, 5),
93 DIS_ARMV8_INSN_PARAM_CREATE(kDisParmParseReg, 5, 5),
94 DIS_ARMV8_INSN_PARAM_CREATE(kDisParmParseImm, 10, 12),
95 DIS_ARMV8_INSN_PARAM_NONE
96DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_END;
97
98
99/* AND/ORR/EOR/ANDS */
100DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_BEGIN(g_ArmV8A64LogicalImm)
101 DIS_ARMV8_OP(0x7f800000, 0x12000000, "and %X,%X,%I" , OP_ARMV8_A64_AND, DISOPTYPE_HARMLESS),
102 DIS_ARMV8_OP(0x7f800000, 0x32000000, "orr %X,%X,%I" , OP_ARMV8_A64_ORR, DISOPTYPE_HARMLESS),
103 DIS_ARMV8_OP(0x7f800000, 0x52000000, "eor %X,%X,%I" , OP_ARMV8_A64_EOR, DISOPTYPE_HARMLESS),
104 DIS_ARMV8_OP(0x7f800000, 0x72000000, "ands %X,%X,%I" , OP_ARMV8_A64_ANDS, DISOPTYPE_HARMLESS),
105DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_PARAMS(g_ArmV8A64LogicalImm, DISARMV8INSNCLASS_F_SF,
106 kDisArmV8OpcDecodeNop, RT_BIT_32(29) | RT_BIT_32(30), 29)
107 DIS_ARMV8_INSN_PARAM_CREATE(kDisParmParseReg, 0, 5),
108 DIS_ARMV8_INSN_PARAM_CREATE(kDisParmParseReg, 5, 6),
109 DIS_ARMV8_INSN_PARAM_CREATE(kDisParmParseImmsImmrN, 10, 13),
110 DIS_ARMV8_INSN_PARAM_NONE
111DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_END;
112
113
114/* MOVN/MOVZ/MOVK */
115DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_BEGIN(g_ArmV8A64MoveWide)
116 DIS_ARMV8_OP(0x7f800000, 0x12800000, "movn %X,%I LSL %I", OP_ARMV8_A64_MOVN, DISOPTYPE_HARMLESS),
117 INVALID_OPCODE,
118 DIS_ARMV8_OP(0x7f800000, 0x52800000, "movz %X,%I LSL %I" , OP_ARMV8_A64_MOVZ, DISOPTYPE_HARMLESS),
119 DIS_ARMV8_OP(0x7f800000, 0x72800000, "movk %X,%I LSL %I" , OP_ARMV8_A64_MOVK, DISOPTYPE_HARMLESS),
120DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_PARAMS(g_ArmV8A64MoveWide, DISARMV8INSNCLASS_F_SF,
121 kDisArmV8OpcDecodeNop, RT_BIT_32(29) | RT_BIT_32(30), 29)
122 DIS_ARMV8_INSN_PARAM_CREATE(kDisParmParseReg, 0, 5),
123 DIS_ARMV8_INSN_PARAM_CREATE(kDisParmParseImm, 5, 16),
124 DIS_ARMV8_INSN_PARAM_CREATE(kDisParmParseHw, 21, 2),
125 DIS_ARMV8_INSN_PARAM_NONE
126DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_END;
127
128
129/* SBFM/BFM/UBFM */
130DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_BEGIN(g_ArmV8A64Bitfield)
131 DIS_ARMV8_OP(0x7f800000, 0x13000000, "sbfm %X,%X,%I", OP_ARMV8_A64_SBFM, DISOPTYPE_HARMLESS),
132 DIS_ARMV8_OP(0x7f800000, 0x33000000, "bfm %X,%X,%I", OP_ARMV8_A64_BFM, DISOPTYPE_HARMLESS),
133 DIS_ARMV8_OP(0x7f800000, 0x23000000, "ubfm %X,%X,%I", OP_ARMV8_A64_UBFM, DISOPTYPE_HARMLESS),
134 INVALID_OPCODE,
135DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_PARAMS(g_ArmV8A64Bitfield, DISARMV8INSNCLASS_F_SF | DISARMV8INSNCLASS_F_N_FORCED_1_ON_64BIT,
136 kDisArmV8OpcDecodeNop, RT_BIT_32(29) | RT_BIT_32(30), 29)
137 DIS_ARMV8_INSN_PARAM_CREATE(kDisParmParseReg, 0, 5),
138 DIS_ARMV8_INSN_PARAM_CREATE(kDisParmParseReg, 5, 5),
139 DIS_ARMV8_INSN_PARAM_CREATE(kDisParmParseImmsImmrN, 10, 13),
140 DIS_ARMV8_INSN_PARAM_NONE
141DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_END;
142
143
144/*
145 * C4.1.65 of the ARMv8 architecture reference manual has the following table for the
146 * data processing (immediate) instruction classes:
147 *
148 * Bit 25 24 23
149 * +-------------------------------------------
150 * 0 0 x PC-rel. addressing.
151 * 0 1 0 Add/subtract (immediate)
152 * 0 1 1 Add/subtract (immediate, with tags)
153 * 1 0 0 Logical (immediate)
154 * 1 0 1 Move wide (immediate)
155 * 1 1 0 Bitfield
156 * 1 1 1 Extract
157 */
158DIS_ARMV8_DECODE_MAP_DEFINE_BEGIN(g_aArmV8A64InsnDataProcessingImm)
159 DIS_ARMV8_DECODE_MAP_ENTRY(g_ArmV8A64Adr),
160 DIS_ARMV8_DECODE_MAP_ENTRY(g_ArmV8A64Adr),
161 DIS_ARMV8_DECODE_MAP_ENTRY(g_ArmV8A64AddSubImm),
162 DIS_ARMV8_DECODE_MAP_INVALID_ENTRY, /** @todo Add/subtract immediate with tags. */
163 DIS_ARMV8_DECODE_MAP_ENTRY(g_ArmV8A64LogicalImm),
164 DIS_ARMV8_DECODE_MAP_ENTRY(g_ArmV8A64MoveWide),
165 DIS_ARMV8_DECODE_MAP_ENTRY(g_ArmV8A64Bitfield),
166 DIS_ARMV8_DECODE_MAP_INVALID_ENTRY /** @todo Extract */
167DIS_ARMV8_DECODE_MAP_DEFINE_END(g_aArmV8A64InsnDataProcessingImm, RT_BIT_32(23) | RT_BIT_32(24) | RT_BIT_32(25), 23);
168
169
170/* B.cond/BC.cond */
171DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_BEGIN(g_ArmV8A64CondBr)
172 DIS_ARMV8_OP(0xff000010, 0x54000000, "b.%C %J", OP_ARMV8_A64_B, DISOPTYPE_HARMLESS | DISOPTYPE_CONTROLFLOW | DISOPTYPE_RELATIVE_CONTROLFLOW | DISOPTYPE_COND_CONTROLFLOW),
173 DIS_ARMV8_OP(0xff000010, 0x54000010, "bc.%C %J" , OP_ARMV8_A64_BC, DISOPTYPE_HARMLESS | DISOPTYPE_CONTROLFLOW | DISOPTYPE_RELATIVE_CONTROLFLOW | DISOPTYPE_COND_CONTROLFLOW),
174DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_PARAMS(g_ArmV8A64CondBr, 0 /*fClass*/,
175 kDisArmV8OpcDecodeNop, RT_BIT_32(4), 4)
176 DIS_ARMV8_INSN_PARAM_CREATE(kDisParmParseCond, 0, 4),
177 DIS_ARMV8_INSN_PARAM_CREATE(kDisParmParseImmRel, 5, 19),
178 DIS_ARMV8_INSN_PARAM_NONE,
179 DIS_ARMV8_INSN_PARAM_NONE
180DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_END;
181
182
183/* SVC/HVC/SMC/BRK/HLT/TCANCEL/DCPS1/DCPS2/DCPS3 */
184DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_BEGIN(g_ArmV8A64Excp)
185 DIS_ARMV8_OP(0xffe0001f, 0xd4000001, "svc %I", OP_ARMV8_A64_SVC, DISOPTYPE_CONTROLFLOW | DISOPTYPE_INTERRUPT),
186 DIS_ARMV8_OP(0xffe0001f, 0xd4000002, "hvc %I", OP_ARMV8_A64_HVC, DISOPTYPE_CONTROLFLOW | DISOPTYPE_INTERRUPT | DISOPTYPE_PRIVILEGED),
187 DIS_ARMV8_OP(0xffe0001f, 0xd4000003, "smc %I", OP_ARMV8_A64_SMC, DISOPTYPE_CONTROLFLOW | DISOPTYPE_INTERRUPT | DISOPTYPE_PRIVILEGED),
188 DIS_ARMV8_OP(0xffe0001f, 0xd4200000, "brk %I", OP_ARMV8_A64_BRK, DISOPTYPE_CONTROLFLOW | DISOPTYPE_INTERRUPT),
189 DIS_ARMV8_OP(0xffe0001f, 0xd4400000, "hlt %I", OP_ARMV8_A64_HLT, DISOPTYPE_CONTROLFLOW | DISOPTYPE_INTERRUPT),
190 DIS_ARMV8_OP(0xffe0001f, 0xd4600000, "tcancel %I", OP_ARMV8_A64_TCANCEL, DISOPTYPE_CONTROLFLOW | DISOPTYPE_INTERRUPT), /* FEAT_TME */
191 DIS_ARMV8_OP(0xffe0001f, 0xd4a00001, "dcps1 %I", OP_ARMV8_A64_DCPS1, DISOPTYPE_CONTROLFLOW | DISOPTYPE_INTERRUPT),
192 DIS_ARMV8_OP(0xffe0001f, 0xd4a00002, "dcps2 %I", OP_ARMV8_A64_DCPS2, DISOPTYPE_CONTROLFLOW | DISOPTYPE_INTERRUPT),
193 DIS_ARMV8_OP(0xffe0001f, 0xd4a00003, "dcps3 %I", OP_ARMV8_A64_DCPS3, DISOPTYPE_CONTROLFLOW | DISOPTYPE_INTERRUPT),
194DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_PARAMS(g_ArmV8A64Excp, 0 /*fClass*/,
195 kDisArmV8OpcDecodeLookup, 0xffe0001f, 0)
196 DIS_ARMV8_INSN_PARAM_CREATE(kDisParmParseImm, 5, 16),
197 DIS_ARMV8_INSN_PARAM_NONE,
198 DIS_ARMV8_INSN_PARAM_NONE,
199 DIS_ARMV8_INSN_PARAM_NONE
200DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_END;
201
202
203/* WFET/WFIT */
204DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_BEGIN(g_ArmV8A64SysReg)
205 DIS_ARMV8_OP(0xffffffe0, 0xd5031000, "wfet %X", OP_ARMV8_A64_WFET, DISOPTYPE_HARMLESS), /* FEAT_WFxT */
206 DIS_ARMV8_OP(0xffffffe0, 0x54000010, "wfit %X" , OP_ARMV8_A64_WFIT, DISOPTYPE_HARMLESS), /* FEAT_WFxT */
207DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_PARAMS(g_ArmV8A64SysReg, DISARMV8INSNCLASS_F_FORCED_64BIT,
208 kDisArmV8OpcDecodeNop, 0xfe0, 5)
209 DIS_ARMV8_INSN_PARAM_CREATE(kDisParmParseReg, 0, 5),
210 DIS_ARMV8_INSN_PARAM_NONE,
211 DIS_ARMV8_INSN_PARAM_NONE,
212 DIS_ARMV8_INSN_PARAM_NONE
213DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_END;
214
215
216/* Various hint instructions */
217DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_BEGIN(g_ArmV8A64Hints)
218 DIS_ARMV8_OP(0xffffffff, 0xd503201f, "nop", OP_ARMV8_A64_NOP, DISOPTYPE_HARMLESS),
219 DIS_ARMV8_OP(0xffffffff, 0xd503203f, "yield", OP_ARMV8_A64_YIELD, DISOPTYPE_HARMLESS),
220 DIS_ARMV8_OP(0xffffffff, 0xd503205f, "wfe", OP_ARMV8_A64_WFE, DISOPTYPE_HARMLESS),
221 DIS_ARMV8_OP(0xffffffff, 0xd503207f, "wfi", OP_ARMV8_A64_WFI, DISOPTYPE_HARMLESS),
222 DIS_ARMV8_OP(0xffffffff, 0xd503209f, "sev", OP_ARMV8_A64_SEV, DISOPTYPE_HARMLESS),
223 DIS_ARMV8_OP(0xffffffff, 0xd50320bf, "sevl", OP_ARMV8_A64_SEVL, DISOPTYPE_HARMLESS),
224 DIS_ARMV8_OP(0xffffffff, 0xd50320df, "dgh", OP_ARMV8_A64_DGH, DISOPTYPE_HARMLESS), /* FEAT_DGH */
225 DIS_ARMV8_OP(0xffffffff, 0xd50320ff, "xpaclri", OP_ARMV8_A64_XPACLRI, DISOPTYPE_HARMLESS), /* FEAT_PAuth */
226 /** @todo */
227DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_PARAMS(g_ArmV8A64Hints, 0 /*fClass*/,
228 kDisArmV8OpcDecodeNop, 0xfe0, 5)
229 DIS_ARMV8_INSN_PARAM_NONE,
230 DIS_ARMV8_INSN_PARAM_NONE,
231 DIS_ARMV8_INSN_PARAM_NONE,
232 DIS_ARMV8_INSN_PARAM_NONE
233DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_END;
234
235
236/* CLREX */
237DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_BEGIN(g_ArmV8A64Clrex)
238 DIS_ARMV8_OP(0xfffff0ff, 0xd503305f, "clrex %I", OP_ARMV8_A64_CLREX, DISOPTYPE_HARMLESS),
239DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_PARAMS(g_ArmV8A64Clrex, 0 /*fClass*/,
240 kDisArmV8OpcDecodeNop, 0, 0)
241 DIS_ARMV8_INSN_PARAM_CREATE(kDisParmParseImm, 8, 4),
242 DIS_ARMV8_INSN_PARAM_NONE,
243 DIS_ARMV8_INSN_PARAM_NONE,
244 DIS_ARMV8_INSN_PARAM_NONE
245DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_END;
246
247
248/* Barrier instructions, we divide these instructions further based on the op2 field. */
249DIS_ARMV8_DECODE_MAP_DEFINE_BEGIN(g_ArmV8A64DecodeBarriers)
250 DIS_ARMV8_DECODE_MAP_INVALID_ENTRY,
251 DIS_ARMV8_DECODE_MAP_INVALID_ENTRY, /** @todo DSB - Encoding */
252 DIS_ARMV8_DECODE_MAP_ENTRY(g_ArmV8A64Clrex), /* CLREX */
253 DIS_ARMV8_DECODE_MAP_INVALID_ENTRY, /** @todo TCOMMIT */
254 DIS_ARMV8_DECODE_MAP_INVALID_ENTRY, /** @todo DSB - Encoding */
255 DIS_ARMV8_DECODE_MAP_INVALID_ENTRY, /** @todo DMB */
256 DIS_ARMV8_DECODE_MAP_INVALID_ENTRY, /** @todo ISB */
257 DIS_ARMV8_DECODE_MAP_INVALID_ENTRY /** @todo SB */
258DIS_ARMV8_DECODE_MAP_DEFINE_END(g_ArmV8A64DecodeBarriers, RT_BIT_32(5) | RT_BIT_32(6) | RT_BIT_32(7), 5);
259
260
261/* MSR (and potentially CFINV,XAFLAG,AXFLAG) */
262DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_BEGIN(g_ArmV8A64PState)
263 DIS_ARMV8_OP(0xfffff0ff, 0xd503305f, "msr %P, %I", OP_ARMV8_A64_MSR, DISOPTYPE_PRIVILEGED),
264DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_PARAMS(g_ArmV8A64PState, 0 /*fClass*/,
265 kDisArmV8OpcDecodeNop, 0, 0)
266 DIS_ARMV8_INSN_PARAM_CREATE(kDisParmParsePState, 0, 0), /* This is special for the MSR instruction. */
267 DIS_ARMV8_INSN_PARAM_CREATE(kDisParmParseImm, 8, 4), /* CRm field encodes the immediate value */
268 DIS_ARMV8_INSN_PARAM_NONE,
269 DIS_ARMV8_INSN_PARAM_NONE
270DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_END;
271
272
273/* TSTART/TTEST */
274DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_BEGIN(g_ArmV8A64SysResult)
275 DIS_ARMV8_OP(0xfffffffe, 0xd5233060, "tstart %X", OP_ARMV8_A64_TSTART, DISOPTYPE_HARMLESS | DISOPTYPE_PRIVILEGED), /* FEAT_TME */
276 DIS_ARMV8_OP(0xfffffffe, 0xd5233160, "ttest %X", OP_ARMV8_A64_TTEST, DISOPTYPE_HARMLESS), /* FEAT_TME */
277DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_PARAMS(g_ArmV8A64SysResult, DISARMV8INSNCLASS_F_FORCED_64BIT,
278 kDisArmV8OpcDecodeNop, RT_BIT_32(8) | RT_BIT_32(9) | RT_BIT_32(10) | RT_BIT_32(11), 8)
279 DIS_ARMV8_INSN_PARAM_CREATE(kDisParmParseReg, 0, 5),
280 DIS_ARMV8_INSN_PARAM_NONE,
281 DIS_ARMV8_INSN_PARAM_NONE,
282 DIS_ARMV8_INSN_PARAM_NONE
283DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_END;
284
285
286/* SYS */
287DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_BEGIN(g_ArmV8A64Sys)
288 DIS_ARMV8_OP(0xfff80000, 0xd5080000, "sys %I, %Cn, %Cm, %I, %X", OP_ARMV8_A64_SYS, DISOPTYPE_HARMLESS),
289DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_PARAMS(g_ArmV8A64Sys, DISARMV8INSNCLASS_F_FORCED_64BIT,
290 kDisArmV8OpcDecodeNop, 0, 0)
291 DIS_ARMV8_INSN_PARAM_CREATE(kDisParmParseImm, 16, 3),
292 DIS_ARMV8_INSN_PARAM_CREATE(kDisParmParseCRnCRm, 8, 8),
293 DIS_ARMV8_INSN_PARAM_CREATE(kDisParmParseImm, 5, 3),
294 DIS_ARMV8_INSN_PARAM_CREATE(kDisParmParseReg, 0, 5)
295DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_END;
296
297
298/* SYSL */
299DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_BEGIN(g_ArmV8A64SysL)
300 DIS_ARMV8_OP(0xfff80000, 0xd5280000, "sysl %X, %I, %Cn, %Cm, %I", OP_ARMV8_A64_SYSL, DISOPTYPE_HARMLESS),
301DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_PARAMS(g_ArmV8A64SysL, DISARMV8INSNCLASS_F_FORCED_64BIT,
302 kDisArmV8OpcDecodeNop, 0, 0)
303 DIS_ARMV8_INSN_PARAM_CREATE(kDisParmParseReg, 0, 5),
304 DIS_ARMV8_INSN_PARAM_CREATE(kDisParmParseImm, 16, 3),
305 DIS_ARMV8_INSN_PARAM_CREATE(kDisParmParseCRnCRm, 8, 8),
306 DIS_ARMV8_INSN_PARAM_CREATE(kDisParmParseImm, 5, 3)
307DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_END;
308
309
310/* MSR */
311DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_BEGIN(g_ArmV8A64Msr)
312 DIS_ARMV8_OP(0xfff00000, 0xd5080000, "msr %S, %X", OP_ARMV8_A64_MSR, DISOPTYPE_HARMLESS | DISOPTYPE_PRIVILEGED),
313DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_PARAMS(g_ArmV8A64Msr, DISARMV8INSNCLASS_F_FORCED_64BIT,
314 kDisArmV8OpcDecodeNop, 0, 0)
315 DIS_ARMV8_INSN_PARAM_CREATE(kDisParmParseSysReg, 5, 15),
316 DIS_ARMV8_INSN_PARAM_CREATE(kDisParmParseReg, 0, 5),
317 DIS_ARMV8_INSN_PARAM_NONE,
318 DIS_ARMV8_INSN_PARAM_NONE
319DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_END;
320
321
322/* MRS */
323DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_BEGIN(g_ArmV8A64Mrs)
324 DIS_ARMV8_OP(0xfff00000, 0xd5280000, "mrs %X, %S", OP_ARMV8_A64_MRS, DISOPTYPE_HARMLESS | DISOPTYPE_PRIVILEGED),
325DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_PARAMS(g_ArmV8A64Mrs, DISARMV8INSNCLASS_F_FORCED_64BIT,
326 kDisArmV8OpcDecodeNop, 0, 0)
327 DIS_ARMV8_INSN_PARAM_CREATE(kDisParmParseReg, 0, 5),
328 DIS_ARMV8_INSN_PARAM_CREATE(kDisParmParseSysReg, 5, 15),
329 DIS_ARMV8_INSN_PARAM_NONE,
330 DIS_ARMV8_INSN_PARAM_NONE
331DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_END;
332
333
334/* Unconditional branch (register) instructions, we divide these instructions further based on the opc field. */
335DIS_ARMV8_DECODE_MAP_DEFINE_BEGIN(g_ArmV8A64UncondBrReg)
336 DIS_ARMV8_DECODE_MAP_INVALID_ENTRY,
337 DIS_ARMV8_DECODE_MAP_INVALID_ENTRY,
338 DIS_ARMV8_DECODE_MAP_INVALID_ENTRY,
339 DIS_ARMV8_DECODE_MAP_INVALID_ENTRY,
340 DIS_ARMV8_DECODE_MAP_INVALID_ENTRY,
341 DIS_ARMV8_DECODE_MAP_INVALID_ENTRY,
342 DIS_ARMV8_DECODE_MAP_INVALID_ENTRY,
343 DIS_ARMV8_DECODE_MAP_INVALID_ENTRY,
344 DIS_ARMV8_DECODE_MAP_INVALID_ENTRY,
345 DIS_ARMV8_DECODE_MAP_INVALID_ENTRY,
346 DIS_ARMV8_DECODE_MAP_INVALID_ENTRY,
347 DIS_ARMV8_DECODE_MAP_INVALID_ENTRY,
348 DIS_ARMV8_DECODE_MAP_INVALID_ENTRY,
349 DIS_ARMV8_DECODE_MAP_INVALID_ENTRY,
350 DIS_ARMV8_DECODE_MAP_INVALID_ENTRY,
351 DIS_ARMV8_DECODE_MAP_INVALID_ENTRY
352DIS_ARMV8_DECODE_MAP_DEFINE_END(g_ArmV8A64UncondBrReg, RT_BIT_32(21) | RT_BIT_32(22) | RT_BIT_32(23) | RT_BIT_32(24), 21);
353
354
355/* B/BL */
356DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_BEGIN(g_ArmV8A64UncondBrImm)
357 DIS_ARMV8_OP(0xfc000000, 0x14000000, "b %J", OP_ARMV8_A64_B, DISOPTYPE_HARMLESS | DISOPTYPE_CONTROLFLOW),
358 DIS_ARMV8_OP(0xfc000000, 0x94000000, "bl %J", OP_ARMV8_A64_BL, DISOPTYPE_HARMLESS | DISOPTYPE_CONTROLFLOW),
359DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_PARAMS(g_ArmV8A64UncondBrImm, 0 /*fClass*/,
360 kDisArmV8OpcDecodeNop, RT_BIT_32(31), 31)
361 DIS_ARMV8_INSN_PARAM_CREATE(kDisParmParseImmRel, 0, 26),
362 DIS_ARMV8_INSN_PARAM_NONE,
363 DIS_ARMV8_INSN_PARAM_NONE,
364 DIS_ARMV8_INSN_PARAM_NONE
365DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_END;
366
367
368/* CBZ/CBNZ */
369DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_BEGIN(g_ArmV8A64CmpBrImm)
370 DIS_ARMV8_OP(0x7f000000, 0x34000000, "cbz %X, %J", OP_ARMV8_A64_CBZ, DISOPTYPE_HARMLESS | DISOPTYPE_CONTROLFLOW),
371 DIS_ARMV8_OP(0x7f000000, 0x35000000, "cbnz %X, %J", OP_ARMV8_A64_CBNZ, DISOPTYPE_HARMLESS | DISOPTYPE_CONTROLFLOW),
372DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_PARAMS(g_ArmV8A64CmpBrImm, DISARMV8INSNCLASS_F_SF,
373 kDisArmV8OpcDecodeNop, RT_BIT_32(24), 24)
374 DIS_ARMV8_INSN_PARAM_CREATE(kDisParmParseReg, 0, 5),
375 DIS_ARMV8_INSN_PARAM_CREATE(kDisParmParseImmRel, 5, 19),
376 DIS_ARMV8_INSN_PARAM_NONE,
377 DIS_ARMV8_INSN_PARAM_NONE
378DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_END;
379
380
381/* TBZ/TBNZ */
382DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_BEGIN(g_ArmV8A64TestBrImm)
383 DIS_ARMV8_OP(0x7f000000, 0x36000000, "tbz %X, %I, %J", OP_ARMV8_A64_TBZ, DISOPTYPE_HARMLESS | DISOPTYPE_CONTROLFLOW),
384 DIS_ARMV8_OP(0x7f000000, 0x37000000, "tbnz %X, %I, %J", OP_ARMV8_A64_TBNZ, DISOPTYPE_HARMLESS | DISOPTYPE_CONTROLFLOW),
385DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_PARAMS(g_ArmV8A64TestBrImm, DISARMV8INSNCLASS_F_SF,
386 kDisArmV8OpcDecodeNop, RT_BIT_32(24), 24)
387 DIS_ARMV8_INSN_PARAM_CREATE(kDisParmParseReg, 0, 5),
388 DIS_ARMV8_INSN_PARAM_CREATE(kDisParmParseImm, 19, 5),
389 DIS_ARMV8_INSN_PARAM_CREATE(kDisParmParseImmRel, 5, 14),
390 DIS_ARMV8_INSN_PARAM_NONE
391DIS_ARMV8_DECODE_INSN_CLASS_DEFINE_END;
392
393
394DIS_ARMV8_DECODE_TBL_DEFINE_BEGIN(g_ArmV8A64BrExcpSys)
395 DIS_ARMV8_DECODE_TBL_ENTRY_INIT(0xfe000000, RT_BIT_32(26) | RT_BIT_32(28) | RT_BIT_32(30), g_ArmV8A64CondBr), /* op0: 010, op1: 0xxxxxxxxxxxxx, op2: - (including o1 from the conditional branch (immediate) class to save us one layer). */
396 DIS_ARMV8_DECODE_TBL_ENTRY_INIT(0xff000000, RT_BIT_32(26) | RT_BIT_32(28) | RT_BIT_32(30) | RT_BIT_32(31), g_ArmV8A64Excp), /* op0: 110, op1: 00xxxxxxxxxxxx, op2: -. */
397 DIS_ARMV8_DECODE_TBL_ENTRY_INIT(0xfffff000, 0xd5031000, g_ArmV8A64SysReg), /* op0: 110, op1: 01000000110001, op2: -. */
398 DIS_ARMV8_DECODE_TBL_ENTRY_INIT(0xfffff01f, 0xd503201f, g_ArmV8A64Hints), /* op0: 110, op1: 01000000110010, op2: 11111. */
399 DIS_ARMV8_DECODE_TBL_ENTRY_INIT(0xfffff01f, 0xd503301f, g_ArmV8A64DecodeBarriers), /* op0: 110, op1: 01000000110011, op2: - (we include Rt: 11111 from the next stage here). */
400 DIS_ARMV8_DECODE_TBL_ENTRY_INIT(0xfff8f01f, 0xd500401f, g_ArmV8A64PState), /* op0: 110, op1: 0100000xxx0100, op2: - (we include Rt: 11111 from the next stage here). */
401 DIS_ARMV8_DECODE_TBL_ENTRY_INIT(0xfffff0e0, 0xd5233060, g_ArmV8A64SysResult), /* op0: 110, op1: 0100100xxxxxxx, op2: - (we include op1, CRn and op2 from the next stage here). */
402 DIS_ARMV8_DECODE_TBL_ENTRY_INIT(0xfff80000, 0xd5080000, g_ArmV8A64Sys), /* op0: 110, op1: 0100x01xxxxxxx, op2: - (we include the L field of the next stage here to differentiate between SYS/SYSL as they have a different string representation). */
403 DIS_ARMV8_DECODE_TBL_ENTRY_INIT(0xfff80000, 0xd5280000, g_ArmV8A64SysL), /* op0: 110, op1: 0100x01xxxxxxx, op2: - (we include the L field of the next stage here to differentiate between SYS/SYSL as they have a different string representation). */
404 DIS_ARMV8_DECODE_TBL_ENTRY_INIT(0xfff00000, 0xd5100000, g_ArmV8A64Msr), /* op0: 110, op1: 0100x1xxxxxxxx, op2: - (we include the L field of the next stage here to differentiate between MSR/MRS as they have a different string representation). */
405 DIS_ARMV8_DECODE_TBL_ENTRY_INIT(0xfff00000, 0xd5300000, g_ArmV8A64Mrs), /* op0: 110, op1: 0100x1xxxxxxxx, op2: - (we include the L field of the next stage here to differentiate between MSR/MRS as they have a different string representation). */
406 DIS_ARMV8_DECODE_TBL_ENTRY_INIT(0xfe1f0000, 0xd61f0000, g_ArmV8A64UncondBrReg), /* op0: 110, op1: 1xxxxxxxxxxxxx, op2: - (we include the op2 field from the next stage here as it should be always 11111). */
407 DIS_ARMV8_DECODE_TBL_ENTRY_INIT(0x7c000000, 0x14000000, g_ArmV8A64UncondBrImm), /* op0: x00, op1: xxxxxxxxxxxxxx, op2: -. */
408 DIS_ARMV8_DECODE_TBL_ENTRY_INIT(0x7e000000, 0x34000000, g_ArmV8A64CmpBrImm), /* op0: x01, op1: 0xxxxxxxxxxxxx, op2: -. */
409 DIS_ARMV8_DECODE_TBL_ENTRY_INIT(0x7e000000, 0x36000000, g_ArmV8A64TestBrImm), /* op0: x01, op1: 1xxxxxxxxxxxxx, op2: -. */
410DIS_ARMV8_DECODE_TBL_DEFINE_END(g_ArmV8A64BrExcpSys);
411
412
413DIS_ARMV8_DECODE_MAP_DEFINE_BEGIN(g_ArmV8A64LogicalAddSubReg)
414 DIS_ARMV8_DECODE_MAP_INVALID_ENTRY, /* Logical (shifted register) */
415 DIS_ARMV8_DECODE_MAP_INVALID_ENTRY, /* Add/subtract (shifted/extended register) */
416DIS_ARMV8_DECODE_MAP_DEFINE_END(g_ArmV8A64LogicalAddSubReg, RT_BIT_32(24), 24);
417
418
419DIS_ARMV8_DECODE_MAP_DEFINE_BEGIN(g_ArmV8A64DataProcReg)
420 DIS_ARMV8_DECODE_MAP_INVALID_ENTRY,
421DIS_ARMV8_DECODE_MAP_DEFINE_END(g_ArmV8A64DataProcReg, RT_BIT_32(24), 24);
422
423
424/*
425 * C4.1 of the ARMv8 architecture reference manual has the following table for the
426 * topmost decoding level (Level 0 in our terms), x means don't care:
427 *
428 * Bit 28 27 26 25
429 * +-------------------------------------------
430 * 0 0 0 0 Reserved or SME encoding (depends on bit 31).
431 * 0 0 0 1 UNALLOC
432 * 0 0 1 0 SVE encodings
433 * 0 0 1 1 UNALLOC
434 * 1 0 0 x Data processing immediate
435 * 1 0 1 x Branch, exception generation and system instructions
436 * x 1 x 0 Loads and stores
437 * x 1 0 1 Data processing - register
438 * x 1 1 1 Data processing - SIMD and floating point
439 *
440 * In order to save us some fiddling with the don't care bits we blow up the lookup table
441 * which gives us 16 possible values (4 bits) we can use as an index into the decoder
442 * lookup table for the next level:
443 * Bit 28 27 26 25
444 * +-------------------------------------------
445 * 0 0 0 0 0 Reserved or SME encoding (depends on bit 31).
446 * 1 0 0 0 1 UNALLOC
447 * 2 0 0 1 0 SVE encodings
448 * 3 0 0 1 1 UNALLOC
449 * 4 0 1 0 0 Loads and stores
450 * 5 0 1 0 1 Data processing - register (using op1 (bit 28) from the next stage to differentiate further already)
451 * 6 0 1 1 0 Loads and stores
452 * 7 0 1 1 1 Data processing - SIMD and floating point
453 * 8 1 0 0 0 Data processing immediate
454 * 9 1 0 0 1 Data processing immediate
455 * 10 1 0 1 0 Branch, exception generation and system instructions
456 * 11 1 0 1 1 Branch, exception generation and system instructions
457 * 12 1 1 0 0 Loads and stores
458 * 13 1 1 0 1 Data processing - register (using op1 (bit 28) from the next stage to differentiate further already)
459 * 14 1 1 1 0 Loads and stores
460 * 15 1 1 1 1 Data processing - SIMD and floating point
461 */
462DIS_ARMV8_DECODE_MAP_DEFINE_BEGIN(g_ArmV8A64DecodeL0)
463 DIS_ARMV8_DECODE_MAP_ENTRY(g_aArmV8A64InsnRsvd), /* Reserved class or SME encoding (@todo). */
464 DIS_ARMV8_DECODE_MAP_INVALID_ENTRY, /* Unallocated */
465 DIS_ARMV8_DECODE_MAP_INVALID_ENTRY, /** @todo SVE */
466 DIS_ARMV8_DECODE_MAP_INVALID_ENTRY, /* Unallocated */
467 DIS_ARMV8_DECODE_MAP_INVALID_ENTRY, /* Load/Stores */
468 DIS_ARMV8_DECODE_MAP_ENTRY(g_ArmV8A64LogicalAddSubReg), /* Data processing (register) (see op1 in C4.1.68). */
469 DIS_ARMV8_DECODE_MAP_INVALID_ENTRY, /* Load/Stores */
470 DIS_ARMV8_DECODE_MAP_INVALID_ENTRY, /* Data processing (SIMD & FP) */
471 DIS_ARMV8_DECODE_MAP_ENTRY(g_aArmV8A64InsnDataProcessingImm), /* Data processing (immediate). */
472 DIS_ARMV8_DECODE_MAP_ENTRY(g_aArmV8A64InsnDataProcessingImm), /* Data processing (immediate). */
473 DIS_ARMV8_DECODE_MAP_ENTRY(g_ArmV8A64BrExcpSys), /* Branches / Exception generation and system instructions. */
474 DIS_ARMV8_DECODE_MAP_ENTRY(g_ArmV8A64BrExcpSys), /* Branches / Exception generation and system instructions. */
475 DIS_ARMV8_DECODE_MAP_INVALID_ENTRY, /* Load/Stores. */
476 DIS_ARMV8_DECODE_MAP_ENTRY(g_ArmV8A64DataProcReg), /* Data processing (register) (see op1 in C4.1.68). */
477 DIS_ARMV8_DECODE_MAP_INVALID_ENTRY, /* Load/Stores. */
478 DIS_ARMV8_DECODE_MAP_INVALID_ENTRY /* Data processing (SIMD & FP). */
479DIS_ARMV8_DECODE_MAP_DEFINE_END_NON_STATIC(g_ArmV8A64DecodeL0, RT_BIT_32(25) | RT_BIT_32(26) | RT_BIT_32(27) | RT_BIT_32(28), 25);
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