source: Daodan/src/beaengine/Includes/instr_set/opcodes_Grp7.c

Last change on this file was 984, checked in by alloc, 11 years ago

Daodan: TV code
File size: 11.2 KB
Line 
1/* Copyright 2006-2009, BeatriX
2 * File coded by BeatriX
3 *
4 * This file is part of BeaEngine.
5 *
6 * BeaEngine is free software: you can redistribute it and/or modify
7 * it under the terms of the GNU Lesser General Public License as published by
8 * the Free Software Foundation, either version 3 of the License, or
9 * (at your option) any later version.
10 *
11 * BeaEngine is distributed in the hope that it will be useful,
12 * but WITHOUT ANY WARRANTY; without even the implied warranty of
13 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14 * GNU Lesser General Public License for more details.
15 *
16 * You should have received a copy of the GNU Lesser General Public License
17 * along with BeaEngine. If not, see <http://www.gnu.org/licenses/>. */
18
19/* ====================================================================
20 * 0f01h
21 * ==================================================================== */
22void __bea_callspec__ G7_(PDISASM pMyDisasm)
23{
24 (*pMyDisasm).Instruction.Category = SYSTEM_INSTRUCTION;
25 GV.REGOPCODE = ((*((UInt8*)(UIntPtr) (GV.EIP_+1))) >> 3) & 0x7;
26 GV.MOD_= ((*((UInt8*)(UIntPtr) (GV.EIP_+1))) >> 6) & 0x3;
27 GV.RM_ = (*((UInt8*)(UIntPtr) (GV.EIP_+1))) & 0x7;
28 if (GV.REGOPCODE == 0) {
29 if (GV.MOD_== 0x3) {
30 if (GV.RM_ == 0x1) {
31 (*pMyDisasm).Instruction.Category = VM_INSTRUCTION;
32 #ifndef BEA_LIGHT_DISASSEMBLY
33 (void) strcpy ((*pMyDisasm).Instruction.Mnemonic, "vmcall ");
34 #endif
35 GV.EIP_+= GV.DECALAGE_EIP+2;
36 }
37 else if (GV.RM_ == 0x2) {
38 (*pMyDisasm).Instruction.Category = VM_INSTRUCTION;
39 #ifndef BEA_LIGHT_DISASSEMBLY
40 (void) strcpy ((*pMyDisasm).Instruction.Mnemonic, "vmlaunch ");
41 #endif
42 GV.EIP_+= GV.DECALAGE_EIP+2;
43 }
44 else if (GV.RM_ == 0x3) {
45 (*pMyDisasm).Instruction.Category = VM_INSTRUCTION;
46 #ifndef BEA_LIGHT_DISASSEMBLY
47 (void) strcpy ((*pMyDisasm).Instruction.Mnemonic, "vmresume ");
48 #endif
49 GV.EIP_+= GV.DECALAGE_EIP+2;
50 }
51 else if (GV.RM_ == 0x4) {
52 (*pMyDisasm).Instruction.Category = VM_INSTRUCTION;
53 #ifndef BEA_LIGHT_DISASSEMBLY
54 (void) strcpy ((*pMyDisasm).Instruction.Mnemonic, "vmxoff ");
55 #endif
56 GV.EIP_+= GV.DECALAGE_EIP+2;
57 }
58 else {
59 FailDecode(pMyDisasm);
60 }
61 }
62 else {
63 GV.MemDecoration = Arg1fword;
64 MOD_RM(&(*pMyDisasm).Argument1, pMyDisasm);
65 #ifndef BEA_LIGHT_DISASSEMBLY
66 (void) strcpy ((*pMyDisasm).Instruction.Mnemonic, "sgdt ");
67 #endif
68 (*pMyDisasm).Argument2.ArgType = REGISTER_TYPE+MEMORY_MANAGEMENT_REG+REG0;
69 (*pMyDisasm).Argument2.ArgSize = 48;
70 GV.EIP_+= GV.DECALAGE_EIP+2;
71 }
72 }
73 else if (GV.REGOPCODE == 1) {
74 if (GV.MOD_== 0x3) {
75 if (GV.RM_ == 0x00) {
76 (*pMyDisasm).Instruction.Category = SSE3_INSTRUCTION+AGENT_SYNCHRONISATION;
77 #ifndef BEA_LIGHT_DISASSEMBLY
78 (void) strcpy ((*pMyDisasm).Instruction.Mnemonic, "monitor ");
79 #endif
80 GV.EIP_+= GV.DECALAGE_EIP+2;
81 }
82 else if (GV.RM_ == 0x01) {
83 (*pMyDisasm).Instruction.Category = SSE3_INSTRUCTION+AGENT_SYNCHRONISATION;
84 #ifndef BEA_LIGHT_DISASSEMBLY
85 (void) strcpy ((*pMyDisasm).Instruction.Mnemonic, "mwait ");
86 #endif
87 GV.EIP_+= GV.DECALAGE_EIP+2;
88 }
89 else {
90 FailDecode(pMyDisasm);
91 }
92 }
93 else {
94 GV.MemDecoration = Arg1fword;
95 MOD_RM(&(*pMyDisasm).Argument1, pMyDisasm);
96 (*pMyDisasm).Instruction.Category = SYSTEM_INSTRUCTION;
97 #ifndef BEA_LIGHT_DISASSEMBLY
98 (void) strcpy ((*pMyDisasm).Instruction.Mnemonic, "sidt ");
99 #endif
100 (*pMyDisasm).Argument2.ArgType = REGISTER_TYPE+MEMORY_MANAGEMENT_REG+REG2;
101 (*pMyDisasm).Argument2.ArgSize = 48;
102 GV.EIP_+= GV.DECALAGE_EIP+2;
103 }
104 }
105 else if (GV.REGOPCODE == 2) {
106 if (GV.MOD_== 0x3) {
107 if (GV.RM_ == 0x0) {
108 (*pMyDisasm).Instruction.Category = VM_INSTRUCTION;
109 #ifndef BEA_LIGHT_DISASSEMBLY
110 (void) strcpy ((*pMyDisasm).Instruction.Mnemonic, "xgetbv ");
111 #endif
112 GV.EIP_+= GV.DECALAGE_EIP+2;
113 }
114 else if (GV.RM_ == 0x1) {
115 (*pMyDisasm).Instruction.Category = VM_INSTRUCTION;
116 #ifndef BEA_LIGHT_DISASSEMBLY
117 (void) strcpy ((*pMyDisasm).Instruction.Mnemonic, "xsetbv ");
118 #endif
119 GV.EIP_+= GV.DECALAGE_EIP+2;
120 }
121 else {
122 FailDecode(pMyDisasm);
123 }
124 }
125 else {
126 GV.MemDecoration = Arg2fword;
127 MOD_RM(&(*pMyDisasm).Argument2, pMyDisasm);
128 (*pMyDisasm).Instruction.Category = SYSTEM_INSTRUCTION;
129 #ifndef BEA_LIGHT_DISASSEMBLY
130 (void) strcpy ((*pMyDisasm).Instruction.Mnemonic, "lgdt ");
131 #endif
132 (*pMyDisasm).Argument1.ArgType = REGISTER_TYPE+MEMORY_MANAGEMENT_REG+REG0;
133 (*pMyDisasm).Argument1.ArgSize = 48;
134 GV.EIP_+= GV.DECALAGE_EIP+2;
135 }
136 }
137 else if (GV.REGOPCODE == 3) {
138 if (GV.MOD_== 0x3) {
139 if (GV.RM_ == 0x0) {
140 (*pMyDisasm).Instruction.Category = VM_INSTRUCTION;
141 #ifndef BEA_LIGHT_DISASSEMBLY
142 (void) strcpy ((*pMyDisasm).Instruction.Mnemonic, "vmrun ");
143 #endif
144 GV.EIP_+= GV.DECALAGE_EIP+2;
145 }
146 else if (GV.RM_ == 0x1) {
147 (*pMyDisasm).Instruction.Category = VM_INSTRUCTION;
148 #ifndef BEA_LIGHT_DISASSEMBLY
149 (void) strcpy ((*pMyDisasm).Instruction.Mnemonic, "vmmcall ");
150 #endif
151 GV.EIP_+= GV.DECALAGE_EIP+2;
152 }
153 else if (GV.RM_ == 0x2) {
154 (*pMyDisasm).Instruction.Category = VM_INSTRUCTION;
155 #ifndef BEA_LIGHT_DISASSEMBLY
156 (void) strcpy ((*pMyDisasm).Instruction.Mnemonic, "vmload ");
157 #endif
158 GV.EIP_+= GV.DECALAGE_EIP+2;
159 }
160 else if (GV.RM_ == 0x3) {
161 (*pMyDisasm).Instruction.Category = VM_INSTRUCTION;
162 #ifndef BEA_LIGHT_DISASSEMBLY
163 (void) strcpy ((*pMyDisasm).Instruction.Mnemonic, "vmsave ");
164 #endif
165 GV.EIP_+= GV.DECALAGE_EIP+2;
166 }
167 else if (GV.RM_ == 0x4) {
168 (*pMyDisasm).Instruction.Category = VM_INSTRUCTION;
169 #ifndef BEA_LIGHT_DISASSEMBLY
170 (void) strcpy ((*pMyDisasm).Instruction.Mnemonic, "stgi ");
171 #endif
172 GV.EIP_+= GV.DECALAGE_EIP+2;
173 }
174 else if (GV.RM_ == 0x5) {
175 (*pMyDisasm).Instruction.Category = VM_INSTRUCTION;
176 #ifndef BEA_LIGHT_DISASSEMBLY
177 (void) strcpy ((*pMyDisasm).Instruction.Mnemonic, "clgi ");
178 #endif
179 GV.EIP_+= GV.DECALAGE_EIP+2;
180 }
181 else if (GV.RM_ == 0x6) {
182 (*pMyDisasm).Instruction.Category = VM_INSTRUCTION;
183 #ifndef BEA_LIGHT_DISASSEMBLY
184 (void) strcpy ((*pMyDisasm).Instruction.Mnemonic, "skinit ");
185 #endif
186 GV.EIP_+= GV.DECALAGE_EIP+2;
187 }
188 else if (GV.RM_ == 0x7) {
189 (*pMyDisasm).Instruction.Category = VM_INSTRUCTION;
190 #ifndef BEA_LIGHT_DISASSEMBLY
191 (void) strcpy ((*pMyDisasm).Instruction.Mnemonic, "invlpga ");
192 #endif
193 GV.EIP_+= GV.DECALAGE_EIP+2;
194 }
195 else {
196 FailDecode(pMyDisasm);
197 }
198 }
199 else {
200 GV.MemDecoration = Arg2fword;
201 MOD_RM(&(*pMyDisasm).Argument2, pMyDisasm);
202 (*pMyDisasm).Instruction.Category = SYSTEM_INSTRUCTION;
203 #ifndef BEA_LIGHT_DISASSEMBLY
204 (void) strcpy ((*pMyDisasm).Instruction.Mnemonic, "lidt ");
205 #endif
206 (*pMyDisasm).Argument1.ArgType = REGISTER_TYPE+MEMORY_MANAGEMENT_REG+REG2;
207 (*pMyDisasm).Argument1.ArgSize = 48;
208 GV.EIP_+= GV.DECALAGE_EIP+2;
209 }
210 }
211
212 else if (GV.REGOPCODE == 4) {
213 GV.MemDecoration = Arg2word;
214 MOD_RM(&(*pMyDisasm).Argument2, pMyDisasm);
215 (*pMyDisasm).Instruction.Category = SYSTEM_INSTRUCTION;
216 #ifndef BEA_LIGHT_DISASSEMBLY
217 (void) strcpy ((*pMyDisasm).Instruction.Mnemonic, "smsw ");
218 #endif
219 (*pMyDisasm).Argument1.ArgType = REGISTER_TYPE+CR_REG+REG0;
220 (*pMyDisasm).Argument1.ArgSize = 16;
221 GV.EIP_+= GV.DECALAGE_EIP+2;
222 }
223
224 else if (GV.REGOPCODE == 6) {
225 GV.MemDecoration = Arg1word;
226 MOD_RM(&(*pMyDisasm).Argument1, pMyDisasm);
227 (*pMyDisasm).Instruction.Category = SYSTEM_INSTRUCTION;
228 #ifndef BEA_LIGHT_DISASSEMBLY
229 (void) strcpy ((*pMyDisasm).Instruction.Mnemonic, "lmsw ");
230 #endif
231 (*pMyDisasm).Argument2.ArgType = REGISTER_TYPE+CR_REG+REG0;
232 (*pMyDisasm).Argument2.ArgSize = 16;
233 GV.EIP_+= GV.DECALAGE_EIP+2;
234 }
235 else if (GV.REGOPCODE == 7) {
236 if (GV.MOD_== 0x3) {
237 if (GV.Architecture == 64) {
238 if (GV.RM_ == 0x0) {
239 (*pMyDisasm).Instruction.Category = SYSTEM_INSTRUCTION;
240 #ifndef BEA_LIGHT_DISASSEMBLY
241 (void) strcpy ((*pMyDisasm).Instruction.Mnemonic, "swapgs ");
242 #endif
243 GV.EIP_+= GV.DECALAGE_EIP+2;
244 }
245 else {
246 FailDecode(pMyDisasm);
247 }
248 }
249 else {
250 if (GV.RM_ == 0x1) {
251 (*pMyDisasm).Instruction.Category = SYSTEM_INSTRUCTION;
252 #ifndef BEA_LIGHT_DISASSEMBLY
253 (void) strcpy ((*pMyDisasm).Instruction.Mnemonic, "rdtscp ");
254 #endif
255 GV.EIP_+= GV.DECALAGE_EIP+2;
256 }
257 else {
258 FailDecode(pMyDisasm);
259 }
260 }
261 }
262 else {
263 GV.MemDecoration = Arg2byte;
264 MOD_RM(&(*pMyDisasm).Argument2, pMyDisasm);
265 (*pMyDisasm).Instruction.Category = SYSTEM_INSTRUCTION;
266 #ifndef BEA_LIGHT_DISASSEMBLY
267 (void) strcpy ((*pMyDisasm).Instruction.Mnemonic, "invlpg ");
268 #endif
269 GV.EIP_+= GV.DECALAGE_EIP+2;
270 }
271 }
272 else {
273 FailDecode(pMyDisasm);
274 }
275
276
277}
278
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