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[binutils, ARM, 11/16] New BFCSEL instruction for Armv8.1-M Mainline
[thirdparty/binutils-gdb.git] / opcodes / arm-dis.c
1 /* Instruction printing code for the ARM
2 Copyright (C) 1994-2019 Free Software Foundation, Inc.
3 Contributed by Richard Earnshaw (rwe@pegasus.esprit.ec.org)
4 Modification by James G. Smith (jsmith@cygnus.co.uk)
5
6 This file is part of libopcodes.
7
8 This library is free software; you can redistribute it and/or modify
9 it under the terms of the GNU General Public License as published by
10 the Free Software Foundation; either version 3 of the License, or
11 (at your option) any later version.
12
13 It is distributed in the hope that it will be useful, but WITHOUT
14 ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
15 or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public
16 License for more details.
17
18 You should have received a copy of the GNU General Public License
19 along with this program; if not, write to the Free Software
20 Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston,
21 MA 02110-1301, USA. */
22
23 #include "sysdep.h"
24
25 #include "disassemble.h"
26 #include "opcode/arm.h"
27 #include "opintl.h"
28 #include "safe-ctype.h"
29 #include "libiberty.h"
30 #include "floatformat.h"
31
32 /* FIXME: This shouldn't be done here. */
33 #include "coff/internal.h"
34 #include "libcoff.h"
35 #include "bfd.h"
36 #include "elf-bfd.h"
37 #include "elf/internal.h"
38 #include "elf/arm.h"
39 #include "mach-o.h"
40
41 /* FIXME: Belongs in global header. */
42 #ifndef strneq
43 #define strneq(a,b,n) (strncmp ((a), (b), (n)) == 0)
44 #endif
45
46 /* Cached mapping symbol state. */
47 enum map_type
48 {
49 MAP_ARM,
50 MAP_THUMB,
51 MAP_DATA
52 };
53
54 struct arm_private_data
55 {
56 /* The features to use when disassembling optional instructions. */
57 arm_feature_set features;
58
59 /* Track the last type (although this doesn't seem to be useful) */
60 enum map_type last_type;
61
62 /* Tracking symbol table information */
63 int last_mapping_sym;
64
65 /* The end range of the current range being disassembled. */
66 bfd_vma last_stop_offset;
67 bfd_vma last_mapping_addr;
68 };
69
70 struct opcode32
71 {
72 arm_feature_set arch; /* Architecture defining this insn. */
73 unsigned long value; /* If arch is 0 then value is a sentinel. */
74 unsigned long mask; /* Recognise insn if (op & mask) == value. */
75 const char * assembler; /* How to disassemble this insn. */
76 };
77
78 struct opcode16
79 {
80 arm_feature_set arch; /* Architecture defining this insn. */
81 unsigned short value, mask; /* Recognise insn if (op & mask) == value. */
82 const char *assembler; /* How to disassemble this insn. */
83 };
84
85 /* print_insn_coprocessor recognizes the following format control codes:
86
87 %% %
88
89 %c print condition code (always bits 28-31 in ARM mode)
90 %q print shifter argument
91 %u print condition code (unconditional in ARM mode,
92 UNPREDICTABLE if not AL in Thumb)
93 %A print address for ldc/stc/ldf/stf instruction
94 %B print vstm/vldm register list
95 %I print cirrus signed shift immediate: bits 0..3|4..6
96 %F print the COUNT field of a LFM/SFM instruction.
97 %P print floating point precision in arithmetic insn
98 %Q print floating point precision in ldf/stf insn
99 %R print floating point rounding mode
100
101 %<bitfield>c print as a condition code (for vsel)
102 %<bitfield>r print as an ARM register
103 %<bitfield>R as %<>r but r15 is UNPREDICTABLE
104 %<bitfield>ru as %<>r but each u register must be unique.
105 %<bitfield>d print the bitfield in decimal
106 %<bitfield>k print immediate for VFPv3 conversion instruction
107 %<bitfield>x print the bitfield in hex
108 %<bitfield>X print the bitfield as 1 hex digit without leading "0x"
109 %<bitfield>f print a floating point constant if >7 else a
110 floating point register
111 %<bitfield>w print as an iWMMXt width field - [bhwd]ss/us
112 %<bitfield>g print as an iWMMXt 64-bit register
113 %<bitfield>G print as an iWMMXt general purpose or control register
114 %<bitfield>D print as a NEON D register
115 %<bitfield>Q print as a NEON Q register
116 %<bitfield>V print as a NEON D or Q register
117 %<bitfield>E print a quarter-float immediate value
118
119 %y<code> print a single precision VFP reg.
120 Codes: 0=>Sm, 1=>Sd, 2=>Sn, 3=>multi-list, 4=>Sm pair
121 %z<code> print a double precision VFP reg
122 Codes: 0=>Dm, 1=>Dd, 2=>Dn, 3=>multi-list
123
124 %<bitfield>'c print specified char iff bitfield is all ones
125 %<bitfield>`c print specified char iff bitfield is all zeroes
126 %<bitfield>?ab... select from array of values in big endian order
127
128 %L print as an iWMMXt N/M width field.
129 %Z print the Immediate of a WSHUFH instruction.
130 %l like 'A' except use byte offsets for 'B' & 'H'
131 versions.
132 %i print 5-bit immediate in bits 8,3..0
133 (print "32" when 0)
134 %r print register offset address for wldt/wstr instruction. */
135
136 enum opcode_sentinel_enum
137 {
138 SENTINEL_IWMMXT_START = 1,
139 SENTINEL_IWMMXT_END,
140 SENTINEL_GENERIC_START
141 } opcode_sentinels;
142
143 #define UNDEFINED_INSTRUCTION "\t\t; <UNDEFINED> instruction: %0-31x"
144 #define UNKNOWN_INSTRUCTION_32BIT "\t\t; <UNDEFINED> instruction: %08x"
145 #define UNKNOWN_INSTRUCTION_16BIT "\t\t; <UNDEFINED> instruction: %04x"
146 #define UNPREDICTABLE_INSTRUCTION "\t; <UNPREDICTABLE>"
147
148 /* Common coprocessor opcodes shared between Arm and Thumb-2. */
149
150 static const struct opcode32 coprocessor_opcodes[] =
151 {
152 /* XScale instructions. */
153 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
154 0x0e200010, 0x0fff0ff0,
155 "mia%c\tacc0, %0-3r, %12-15r"},
156 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
157 0x0e280010, 0x0fff0ff0,
158 "miaph%c\tacc0, %0-3r, %12-15r"},
159 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
160 0x0e2c0010, 0x0ffc0ff0, "mia%17'T%17`B%16'T%16`B%c\tacc0, %0-3r, %12-15r"},
161 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
162 0x0c400000, 0x0ff00fff, "mar%c\tacc0, %12-15r, %16-19r"},
163 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
164 0x0c500000, 0x0ff00fff, "mra%c\t%12-15r, %16-19r, acc0"},
165
166 /* Intel Wireless MMX technology instructions. */
167 {ARM_FEATURE_CORE_LOW (0), SENTINEL_IWMMXT_START, 0, "" },
168 {ARM_FEATURE_COPROC (ARM_CEXT_IWMMXT),
169 0x0e130130, 0x0f3f0fff, "tandc%22-23w%c\t%12-15r"},
170 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
171 0x0e400010, 0x0ff00f3f, "tbcst%6-7w%c\t%16-19g, %12-15r"},
172 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
173 0x0e130170, 0x0f3f0ff8, "textrc%22-23w%c\t%12-15r, #%0-2d"},
174 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
175 0x0e100070, 0x0f300ff0, "textrm%3?su%22-23w%c\t%12-15r, %16-19g, #%0-2d"},
176 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
177 0x0e600010, 0x0ff00f38, "tinsr%6-7w%c\t%16-19g, %12-15r, #%0-2d"},
178 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
179 0x0e000110, 0x0ff00fff, "tmcr%c\t%16-19G, %12-15r"},
180 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
181 0x0c400000, 0x0ff00ff0, "tmcrr%c\t%0-3g, %12-15r, %16-19r"},
182 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
183 0x0e2c0010, 0x0ffc0e10, "tmia%17?tb%16?tb%c\t%5-8g, %0-3r, %12-15r"},
184 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
185 0x0e200010, 0x0fff0e10, "tmia%c\t%5-8g, %0-3r, %12-15r"},
186 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
187 0x0e280010, 0x0fff0e10, "tmiaph%c\t%5-8g, %0-3r, %12-15r"},
188 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
189 0x0e100030, 0x0f300fff, "tmovmsk%22-23w%c\t%12-15r, %16-19g"},
190 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
191 0x0e100110, 0x0ff00ff0, "tmrc%c\t%12-15r, %16-19G"},
192 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
193 0x0c500000, 0x0ff00ff0, "tmrrc%c\t%12-15r, %16-19r, %0-3g"},
194 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
195 0x0e130150, 0x0f3f0fff, "torc%22-23w%c\t%12-15r"},
196 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
197 0x0e120190, 0x0f3f0fff, "torvsc%22-23w%c\t%12-15r"},
198 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
199 0x0e2001c0, 0x0f300fff, "wabs%22-23w%c\t%12-15g, %16-19g"},
200 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
201 0x0e0001c0, 0x0f300fff, "wacc%22-23w%c\t%12-15g, %16-19g"},
202 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
203 0x0e000180, 0x0f000ff0, "wadd%20-23w%c\t%12-15g, %16-19g, %0-3g"},
204 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
205 0x0e2001a0, 0x0fb00ff0, "waddbhus%22?ml%c\t%12-15g, %16-19g, %0-3g"},
206 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
207 0x0ea001a0, 0x0ff00ff0, "waddsubhx%c\t%12-15g, %16-19g, %0-3g"},
208 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
209 0x0e000020, 0x0f800ff0, "waligni%c\t%12-15g, %16-19g, %0-3g, #%20-22d"},
210 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
211 0x0e800020, 0x0fc00ff0, "walignr%20-21d%c\t%12-15g, %16-19g, %0-3g"},
212 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
213 0x0e200000, 0x0fe00ff0, "wand%20'n%c\t%12-15g, %16-19g, %0-3g"},
214 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
215 0x0e800000, 0x0fa00ff0, "wavg2%22?hb%20'r%c\t%12-15g, %16-19g, %0-3g"},
216 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
217 0x0e400000, 0x0fe00ff0, "wavg4%20'r%c\t%12-15g, %16-19g, %0-3g"},
218 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
219 0x0e000060, 0x0f300ff0, "wcmpeq%22-23w%c\t%12-15g, %16-19g, %0-3g"},
220 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
221 0x0e100060, 0x0f100ff0, "wcmpgt%21?su%22-23w%c\t%12-15g, %16-19g, %0-3g"},
222 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
223 0xfc500100, 0xfe500f00, "wldrd\t%12-15g, %r"},
224 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
225 0xfc100100, 0xfe500f00, "wldrw\t%12-15G, %A"},
226 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
227 0x0c100000, 0x0e100e00, "wldr%L%c\t%12-15g, %l"},
228 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
229 0x0e400100, 0x0fc00ff0, "wmac%21?su%20'z%c\t%12-15g, %16-19g, %0-3g"},
230 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
231 0x0e800100, 0x0fc00ff0, "wmadd%21?su%20'x%c\t%12-15g, %16-19g, %0-3g"},
232 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
233 0x0ec00100, 0x0fd00ff0, "wmadd%21?sun%c\t%12-15g, %16-19g, %0-3g"},
234 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
235 0x0e000160, 0x0f100ff0, "wmax%21?su%22-23w%c\t%12-15g, %16-19g, %0-3g"},
236 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
237 0x0e000080, 0x0f100fe0, "wmerge%c\t%12-15g, %16-19g, %0-3g, #%21-23d"},
238 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
239 0x0e0000a0, 0x0f800ff0, "wmia%21?tb%20?tb%22'n%c\t%12-15g, %16-19g, %0-3g"},
240 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
241 0x0e800120, 0x0f800ff0,
242 "wmiaw%21?tb%20?tb%22'n%c\t%12-15g, %16-19g, %0-3g"},
243 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
244 0x0e100160, 0x0f100ff0, "wmin%21?su%22-23w%c\t%12-15g, %16-19g, %0-3g"},
245 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
246 0x0e000100, 0x0fc00ff0, "wmul%21?su%20?ml%23'r%c\t%12-15g, %16-19g, %0-3g"},
247 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
248 0x0ed00100, 0x0fd00ff0, "wmul%21?sumr%c\t%12-15g, %16-19g, %0-3g"},
249 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
250 0x0ee000c0, 0x0fe00ff0, "wmulwsm%20`r%c\t%12-15g, %16-19g, %0-3g"},
251 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
252 0x0ec000c0, 0x0fe00ff0, "wmulwum%20`r%c\t%12-15g, %16-19g, %0-3g"},
253 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
254 0x0eb000c0, 0x0ff00ff0, "wmulwl%c\t%12-15g, %16-19g, %0-3g"},
255 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
256 0x0e8000a0, 0x0f800ff0,
257 "wqmia%21?tb%20?tb%22'n%c\t%12-15g, %16-19g, %0-3g"},
258 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
259 0x0e100080, 0x0fd00ff0, "wqmulm%21'r%c\t%12-15g, %16-19g, %0-3g"},
260 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
261 0x0ec000e0, 0x0fd00ff0, "wqmulwm%21'r%c\t%12-15g, %16-19g, %0-3g"},
262 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
263 0x0e000000, 0x0ff00ff0, "wor%c\t%12-15g, %16-19g, %0-3g"},
264 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
265 0x0e000080, 0x0f000ff0, "wpack%20-23w%c\t%12-15g, %16-19g, %0-3g"},
266 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
267 0xfe300040, 0xff300ef0, "wror%22-23w\t%12-15g, %16-19g, #%i"},
268 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
269 0x0e300040, 0x0f300ff0, "wror%22-23w%c\t%12-15g, %16-19g, %0-3g"},
270 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
271 0x0e300140, 0x0f300ff0, "wror%22-23wg%c\t%12-15g, %16-19g, %0-3G"},
272 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
273 0x0e000120, 0x0fa00ff0, "wsad%22?hb%20'z%c\t%12-15g, %16-19g, %0-3g"},
274 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
275 0x0e0001e0, 0x0f000ff0, "wshufh%c\t%12-15g, %16-19g, #%Z"},
276 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
277 0xfe100040, 0xff300ef0, "wsll%22-23w\t%12-15g, %16-19g, #%i"},
278 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
279 0x0e100040, 0x0f300ff0, "wsll%22-23w%8'g%c\t%12-15g, %16-19g, %0-3g"},
280 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
281 0x0e100148, 0x0f300ffc, "wsll%22-23w%8'g%c\t%12-15g, %16-19g, %0-3G"},
282 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
283 0xfe000040, 0xff300ef0, "wsra%22-23w\t%12-15g, %16-19g, #%i"},
284 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
285 0x0e000040, 0x0f300ff0, "wsra%22-23w%8'g%c\t%12-15g, %16-19g, %0-3g"},
286 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
287 0x0e000148, 0x0f300ffc, "wsra%22-23w%8'g%c\t%12-15g, %16-19g, %0-3G"},
288 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
289 0xfe200040, 0xff300ef0, "wsrl%22-23w\t%12-15g, %16-19g, #%i"},
290 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
291 0x0e200040, 0x0f300ff0, "wsrl%22-23w%8'g%c\t%12-15g, %16-19g, %0-3g"},
292 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
293 0x0e200148, 0x0f300ffc, "wsrl%22-23w%8'g%c\t%12-15g, %16-19g, %0-3G"},
294 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
295 0xfc400100, 0xfe500f00, "wstrd\t%12-15g, %r"},
296 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
297 0xfc000100, 0xfe500f00, "wstrw\t%12-15G, %A"},
298 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
299 0x0c000000, 0x0e100e00, "wstr%L%c\t%12-15g, %l"},
300 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
301 0x0e0001a0, 0x0f000ff0, "wsub%20-23w%c\t%12-15g, %16-19g, %0-3g"},
302 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
303 0x0ed001c0, 0x0ff00ff0, "wsubaddhx%c\t%12-15g, %16-19g, %0-3g"},
304 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
305 0x0e1001c0, 0x0f300ff0, "wabsdiff%22-23w%c\t%12-15g, %16-19g, %0-3g"},
306 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
307 0x0e0000c0, 0x0fd00fff, "wunpckeh%21?sub%c\t%12-15g, %16-19g"},
308 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
309 0x0e4000c0, 0x0fd00fff, "wunpckeh%21?suh%c\t%12-15g, %16-19g"},
310 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
311 0x0e8000c0, 0x0fd00fff, "wunpckeh%21?suw%c\t%12-15g, %16-19g"},
312 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
313 0x0e0000e0, 0x0f100fff, "wunpckel%21?su%22-23w%c\t%12-15g, %16-19g"},
314 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
315 0x0e1000c0, 0x0f300ff0, "wunpckih%22-23w%c\t%12-15g, %16-19g, %0-3g"},
316 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
317 0x0e1000e0, 0x0f300ff0, "wunpckil%22-23w%c\t%12-15g, %16-19g, %0-3g"},
318 {ARM_FEATURE_COPROC (ARM_CEXT_XSCALE),
319 0x0e100000, 0x0ff00ff0, "wxor%c\t%12-15g, %16-19g, %0-3g"},
320 {ARM_FEATURE_CORE_LOW (0),
321 SENTINEL_IWMMXT_END, 0, "" },
322
323 /* Floating point coprocessor (FPA) instructions. */
324 {ARM_FEATURE_COPROC (FPU_FPA_EXT_V1),
325 0x0e000100, 0x0ff08f10, "adf%c%P%R\t%12-14f, %16-18f, %0-3f"},
326 {ARM_FEATURE_COPROC (FPU_FPA_EXT_V1),
327 0x0e100100, 0x0ff08f10, "muf%c%P%R\t%12-14f, %16-18f, %0-3f"},
328 {ARM_FEATURE_COPROC (FPU_FPA_EXT_V1),
329 0x0e200100, 0x0ff08f10, "suf%c%P%R\t%12-14f, %16-18f, %0-3f"},
330 {ARM_FEATURE_COPROC (FPU_FPA_EXT_V1),
331 0x0e300100, 0x0ff08f10, "rsf%c%P%R\t%12-14f, %16-18f, %0-3f"},
332 {ARM_FEATURE_COPROC (FPU_FPA_EXT_V1),
333 0x0e400100, 0x0ff08f10, "dvf%c%P%R\t%12-14f, %16-18f, %0-3f"},
334 {ARM_FEATURE_COPROC (FPU_FPA_EXT_V1),
335 0x0e500100, 0x0ff08f10, "rdf%c%P%R\t%12-14f, %16-18f, %0-3f"},
336 {ARM_FEATURE_COPROC (FPU_FPA_EXT_V1),
337 0x0e600100, 0x0ff08f10, "pow%c%P%R\t%12-14f, %16-18f, %0-3f"},
338 {ARM_FEATURE_COPROC (FPU_FPA_EXT_V1),
339 0x0e700100, 0x0ff08f10, "rpw%c%P%R\t%12-14f, %16-18f, %0-3f"},
340 {ARM_FEATURE_COPROC (FPU_FPA_EXT_V1),
341 0x0e800100, 0x0ff08f10, "rmf%c%P%R\t%12-14f, %16-18f, %0-3f"},
342 {ARM_FEATURE_COPROC (FPU_FPA_EXT_V1),
343 0x0e900100, 0x0ff08f10, "fml%c%P%R\t%12-14f, %16-18f, %0-3f"},
344 {ARM_FEATURE_COPROC (FPU_FPA_EXT_V1),
345 0x0ea00100, 0x0ff08f10, "fdv%c%P%R\t%12-14f, %16-18f, %0-3f"},
346 {ARM_FEATURE_COPROC (FPU_FPA_EXT_V1),
347 0x0eb00100, 0x0ff08f10, "frd%c%P%R\t%12-14f, %16-18f, %0-3f"},
348 {ARM_FEATURE_COPROC (FPU_FPA_EXT_V1),
349 0x0ec00100, 0x0ff08f10, "pol%c%P%R\t%12-14f, %16-18f, %0-3f"},
350 {ARM_FEATURE_COPROC (FPU_FPA_EXT_V1),
351 0x0e008100, 0x0ff08f10, "mvf%c%P%R\t%12-14f, %0-3f"},
352 {ARM_FEATURE_COPROC (FPU_FPA_EXT_V1),
353 0x0e108100, 0x0ff08f10, "mnf%c%P%R\t%12-14f, %0-3f"},
354 {ARM_FEATURE_COPROC (FPU_FPA_EXT_V1),
355 0x0e208100, 0x0ff08f10, "abs%c%P%R\t%12-14f, %0-3f"},
356 {ARM_FEATURE_COPROC (FPU_FPA_EXT_V1),
357 0x0e308100, 0x0ff08f10, "rnd%c%P%R\t%12-14f, %0-3f"},
358 {ARM_FEATURE_COPROC (FPU_FPA_EXT_V1),
359 0x0e408100, 0x0ff08f10, "sqt%c%P%R\t%12-14f, %0-3f"},
360 {ARM_FEATURE_COPROC (FPU_FPA_EXT_V1),
361 0x0e508100, 0x0ff08f10, "log%c%P%R\t%12-14f, %0-3f"},
362 {ARM_FEATURE_COPROC (FPU_FPA_EXT_V1),
363 0x0e608100, 0x0ff08f10, "lgn%c%P%R\t%12-14f, %0-3f"},
364 {ARM_FEATURE_COPROC (FPU_FPA_EXT_V1),
365 0x0e708100, 0x0ff08f10, "exp%c%P%R\t%12-14f, %0-3f"},
366 {ARM_FEATURE_COPROC (FPU_FPA_EXT_V1),
367 0x0e808100, 0x0ff08f10, "sin%c%P%R\t%12-14f, %0-3f"},
368 {ARM_FEATURE_COPROC (FPU_FPA_EXT_V1),
369 0x0e908100, 0x0ff08f10, "cos%c%P%R\t%12-14f, %0-3f"},
370 {ARM_FEATURE_COPROC (FPU_FPA_EXT_V1),
371 0x0ea08100, 0x0ff08f10, "tan%c%P%R\t%12-14f, %0-3f"},
372 {ARM_FEATURE_COPROC (FPU_FPA_EXT_V1),
373 0x0eb08100, 0x0ff08f10, "asn%c%P%R\t%12-14f, %0-3f"},
374 {ARM_FEATURE_COPROC (FPU_FPA_EXT_V1),
375 0x0ec08100, 0x0ff08f10, "acs%c%P%R\t%12-14f, %0-3f"},
376 {ARM_FEATURE_COPROC (FPU_FPA_EXT_V1),
377 0x0ed08100, 0x0ff08f10, "atn%c%P%R\t%12-14f, %0-3f"},
378 {ARM_FEATURE_COPROC (FPU_FPA_EXT_V1),
379 0x0ee08100, 0x0ff08f10, "urd%c%P%R\t%12-14f, %0-3f"},
380 {ARM_FEATURE_COPROC (FPU_FPA_EXT_V1),
381 0x0ef08100, 0x0ff08f10, "nrm%c%P%R\t%12-14f, %0-3f"},
382 {ARM_FEATURE_COPROC (FPU_FPA_EXT_V1),
383 0x0e000110, 0x0ff00f1f, "flt%c%P%R\t%16-18f, %12-15r"},
384 {ARM_FEATURE_COPROC (FPU_FPA_EXT_V1),
385 0x0e100110, 0x0fff0f98, "fix%c%R\t%12-15r, %0-2f"},
386 {ARM_FEATURE_COPROC (FPU_FPA_EXT_V1),
387 0x0e200110, 0x0fff0fff, "wfs%c\t%12-15r"},
388 {ARM_FEATURE_COPROC (FPU_FPA_EXT_V1),
389 0x0e300110, 0x0fff0fff, "rfs%c\t%12-15r"},
390 {ARM_FEATURE_COPROC (FPU_FPA_EXT_V1),
391 0x0e400110, 0x0fff0fff, "wfc%c\t%12-15r"},
392 {ARM_FEATURE_COPROC (FPU_FPA_EXT_V1),
393 0x0e500110, 0x0fff0fff, "rfc%c\t%12-15r"},
394 {ARM_FEATURE_COPROC (FPU_FPA_EXT_V1),
395 0x0e90f110, 0x0ff8fff0, "cmf%c\t%16-18f, %0-3f"},
396 {ARM_FEATURE_COPROC (FPU_FPA_EXT_V1),
397 0x0eb0f110, 0x0ff8fff0, "cnf%c\t%16-18f, %0-3f"},
398 {ARM_FEATURE_COPROC (FPU_FPA_EXT_V1),
399 0x0ed0f110, 0x0ff8fff0, "cmfe%c\t%16-18f, %0-3f"},
400 {ARM_FEATURE_COPROC (FPU_FPA_EXT_V1),
401 0x0ef0f110, 0x0ff8fff0, "cnfe%c\t%16-18f, %0-3f"},
402 {ARM_FEATURE_COPROC (FPU_FPA_EXT_V1),
403 0x0c000100, 0x0e100f00, "stf%c%Q\t%12-14f, %A"},
404 {ARM_FEATURE_COPROC (FPU_FPA_EXT_V1),
405 0x0c100100, 0x0e100f00, "ldf%c%Q\t%12-14f, %A"},
406 {ARM_FEATURE_COPROC (FPU_FPA_EXT_V2),
407 0x0c000200, 0x0e100f00, "sfm%c\t%12-14f, %F, %A"},
408 {ARM_FEATURE_COPROC (FPU_FPA_EXT_V2),
409 0x0c100200, 0x0e100f00, "lfm%c\t%12-14f, %F, %A"},
410
411 /* ARMv8-M Mainline Security Extensions instructions. */
412 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_V8M_MAIN),
413 0xec300a00, 0xfff0ffff, "vlldm\t%16-19r"},
414 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_V8M_MAIN),
415 0xec200a00, 0xfff0ffff, "vlstm\t%16-19r"},
416
417 /* Register load/store. */
418 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD | FPU_NEON_EXT_V1),
419 0x0d2d0b00, 0x0fbf0f01, "vpush%c\t%B"},
420 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD | FPU_NEON_EXT_V1),
421 0x0d200b00, 0x0fb00f01, "vstmdb%c\t%16-19r!, %B"},
422 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD | FPU_NEON_EXT_V1),
423 0x0d300b00, 0x0fb00f01, "vldmdb%c\t%16-19r!, %B"},
424 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD | FPU_NEON_EXT_V1),
425 0x0c800b00, 0x0f900f01, "vstmia%c\t%16-19r%21'!, %B"},
426 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD | FPU_NEON_EXT_V1),
427 0x0cbd0b00, 0x0fbf0f01, "vpop%c\t%B"},
428 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD | FPU_NEON_EXT_V1),
429 0x0c900b00, 0x0f900f01, "vldmia%c\t%16-19r%21'!, %B"},
430 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD | FPU_NEON_EXT_V1),
431 0x0d000b00, 0x0f300f00, "vstr%c\t%12-15,22D, %A"},
432 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD | FPU_NEON_EXT_V1),
433 0x0d100b00, 0x0f300f00, "vldr%c\t%12-15,22D, %A"},
434 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD),
435 0x0d2d0a00, 0x0fbf0f00, "vpush%c\t%y3"},
436 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD),
437 0x0d200a00, 0x0fb00f00, "vstmdb%c\t%16-19r!, %y3"},
438 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD),
439 0x0d300a00, 0x0fb00f00, "vldmdb%c\t%16-19r!, %y3"},
440 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD),
441 0x0c800a00, 0x0f900f00, "vstmia%c\t%16-19r%21'!, %y3"},
442 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD),
443 0x0cbd0a00, 0x0fbf0f00, "vpop%c\t%y3"},
444 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD),
445 0x0c900a00, 0x0f900f00, "vldmia%c\t%16-19r%21'!, %y3"},
446 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD),
447 0x0d000a00, 0x0f300f00, "vstr%c\t%y1, %A"},
448 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD),
449 0x0d100a00, 0x0f300f00, "vldr%c\t%y1, %A"},
450
451 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD),
452 0x0d200b01, 0x0fb00f01, "fstmdbx%c\t%16-19r!, %z3\t;@ Deprecated"},
453 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD),
454 0x0d300b01, 0x0fb00f01, "fldmdbx%c\t%16-19r!, %z3\t;@ Deprecated"},
455 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD),
456 0x0c800b01, 0x0f900f01, "fstmiax%c\t%16-19r%21'!, %z3\t;@ Deprecated"},
457 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD),
458 0x0c900b01, 0x0f900f01, "fldmiax%c\t%16-19r%21'!, %z3\t;@ Deprecated"},
459
460 /* Data transfer between ARM and NEON registers. */
461 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
462 0x0e800b10, 0x0ff00f70, "vdup%c.32\t%16-19,7D, %12-15r"},
463 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
464 0x0e800b30, 0x0ff00f70, "vdup%c.16\t%16-19,7D, %12-15r"},
465 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
466 0x0ea00b10, 0x0ff00f70, "vdup%c.32\t%16-19,7Q, %12-15r"},
467 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
468 0x0ea00b30, 0x0ff00f70, "vdup%c.16\t%16-19,7Q, %12-15r"},
469 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
470 0x0ec00b10, 0x0ff00f70, "vdup%c.8\t%16-19,7D, %12-15r"},
471 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
472 0x0ee00b10, 0x0ff00f70, "vdup%c.8\t%16-19,7Q, %12-15r"},
473 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
474 0x0c400b10, 0x0ff00fd0, "vmov%c\t%0-3,5D, %12-15r, %16-19r"},
475 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
476 0x0c500b10, 0x0ff00fd0, "vmov%c\t%12-15r, %16-19r, %0-3,5D"},
477 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
478 0x0e000b10, 0x0fd00f70, "vmov%c.32\t%16-19,7D[%21d], %12-15r"},
479 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
480 0x0e100b10, 0x0f500f70, "vmov%c.32\t%12-15r, %16-19,7D[%21d]"},
481 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
482 0x0e000b30, 0x0fd00f30, "vmov%c.16\t%16-19,7D[%6,21d], %12-15r"},
483 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
484 0x0e100b30, 0x0f500f30, "vmov%c.%23?us16\t%12-15r, %16-19,7D[%6,21d]"},
485 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
486 0x0e400b10, 0x0fd00f10, "vmov%c.8\t%16-19,7D[%5,6,21d], %12-15r"},
487 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
488 0x0e500b10, 0x0f500f10, "vmov%c.%23?us8\t%12-15r, %16-19,7D[%5,6,21d]"},
489 /* Half-precision conversion instructions. */
490 {ARM_FEATURE_COPROC (FPU_VFP_EXT_ARMV8),
491 0x0eb20b40, 0x0fbf0f50, "vcvt%7?tb%c.f64.f16\t%z1, %y0"},
492 {ARM_FEATURE_COPROC (FPU_VFP_EXT_ARMV8),
493 0x0eb30b40, 0x0fbf0f50, "vcvt%7?tb%c.f16.f64\t%y1, %z0"},
494 {ARM_FEATURE_COPROC (FPU_VFP_EXT_FP16),
495 0x0eb20a40, 0x0fbf0f50, "vcvt%7?tb%c.f32.f16\t%y1, %y0"},
496 {ARM_FEATURE_COPROC (FPU_VFP_EXT_FP16),
497 0x0eb30a40, 0x0fbf0f50, "vcvt%7?tb%c.f16.f32\t%y1, %y0"},
498
499 /* Floating point coprocessor (VFP) instructions. */
500 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD),
501 0x0ee00a10, 0x0fff0fff, "vmsr%c\tfpsid, %12-15r"},
502 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD),
503 0x0ee10a10, 0x0fff0fff, "vmsr%c\tfpscr, %12-15r"},
504 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD),
505 0x0ee60a10, 0x0fff0fff, "vmsr%c\tmvfr1, %12-15r"},
506 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD),
507 0x0ee70a10, 0x0fff0fff, "vmsr%c\tmvfr0, %12-15r"},
508 {ARM_FEATURE_COPROC (FPU_VFP_EXT_ARMV8),
509 0x0ee50a10, 0x0fff0fff, "vmsr%c\tmvfr2, %12-15r"},
510 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD),
511 0x0ee80a10, 0x0fff0fff, "vmsr%c\tfpexc, %12-15r"},
512 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD),
513 0x0ee90a10, 0x0fff0fff, "vmsr%c\tfpinst, %12-15r\t@ Impl def"},
514 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD),
515 0x0eea0a10, 0x0fff0fff, "vmsr%c\tfpinst2, %12-15r\t@ Impl def"},
516 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD),
517 0x0ef00a10, 0x0fff0fff, "vmrs%c\t%12-15r, fpsid"},
518 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD),
519 0x0ef1fa10, 0x0fffffff, "vmrs%c\tAPSR_nzcv, fpscr"},
520 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD),
521 0x0ef10a10, 0x0fff0fff, "vmrs%c\t%12-15r, fpscr"},
522 {ARM_FEATURE_COPROC (FPU_VFP_EXT_ARMV8),
523 0x0ef50a10, 0x0fff0fff, "vmrs%c\t%12-15r, mvfr2"},
524 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD),
525 0x0ef60a10, 0x0fff0fff, "vmrs%c\t%12-15r, mvfr1"},
526 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD),
527 0x0ef70a10, 0x0fff0fff, "vmrs%c\t%12-15r, mvfr0"},
528 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD),
529 0x0ef80a10, 0x0fff0fff, "vmrs%c\t%12-15r, fpexc"},
530 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD),
531 0x0ef90a10, 0x0fff0fff, "vmrs%c\t%12-15r, fpinst\t@ Impl def"},
532 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD),
533 0x0efa0a10, 0x0fff0fff, "vmrs%c\t%12-15r, fpinst2\t@ Impl def"},
534 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1),
535 0x0e000b10, 0x0fd00fff, "vmov%c.32\t%z2[%21d], %12-15r"},
536 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1),
537 0x0e100b10, 0x0fd00fff, "vmov%c.32\t%12-15r, %z2[%21d]"},
538 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD),
539 0x0ee00a10, 0x0ff00fff, "vmsr%c\t<impl def %16-19x>, %12-15r"},
540 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD),
541 0x0ef00a10, 0x0ff00fff, "vmrs%c\t%12-15r, <impl def %16-19x>"},
542 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD),
543 0x0e000a10, 0x0ff00f7f, "vmov%c\t%y2, %12-15r"},
544 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD),
545 0x0e100a10, 0x0ff00f7f, "vmov%c\t%12-15r, %y2"},
546 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD),
547 0x0eb50a40, 0x0fbf0f70, "vcmp%7'e%c.f32\t%y1, #0.0"},
548 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1),
549 0x0eb50b40, 0x0fbf0f70, "vcmp%7'e%c.f64\t%z1, #0.0"},
550 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD),
551 0x0eb00a40, 0x0fbf0fd0, "vmov%c.f32\t%y1, %y0"},
552 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD),
553 0x0eb00ac0, 0x0fbf0fd0, "vabs%c.f32\t%y1, %y0"},
554 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1),
555 0x0eb00b40, 0x0fbf0fd0, "vmov%c.f64\t%z1, %z0"},
556 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1),
557 0x0eb00bc0, 0x0fbf0fd0, "vabs%c.f64\t%z1, %z0"},
558 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD),
559 0x0eb10a40, 0x0fbf0fd0, "vneg%c.f32\t%y1, %y0"},
560 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD),
561 0x0eb10ac0, 0x0fbf0fd0, "vsqrt%c.f32\t%y1, %y0"},
562 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1),
563 0x0eb10b40, 0x0fbf0fd0, "vneg%c.f64\t%z1, %z0"},
564 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1),
565 0x0eb10bc0, 0x0fbf0fd0, "vsqrt%c.f64\t%z1, %z0"},
566 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1),
567 0x0eb70ac0, 0x0fbf0fd0, "vcvt%c.f64.f32\t%z1, %y0"},
568 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1),
569 0x0eb70bc0, 0x0fbf0fd0, "vcvt%c.f32.f64\t%y1, %z0"},
570 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD),
571 0x0eb80a40, 0x0fbf0f50, "vcvt%c.f32.%7?su32\t%y1, %y0"},
572 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1),
573 0x0eb80b40, 0x0fbf0f50, "vcvt%c.f64.%7?su32\t%z1, %y0"},
574 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD),
575 0x0eb40a40, 0x0fbf0f50, "vcmp%7'e%c.f32\t%y1, %y0"},
576 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1),
577 0x0eb40b40, 0x0fbf0f50, "vcmp%7'e%c.f64\t%z1, %z0"},
578 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V3xD),
579 0x0eba0a40, 0x0fbe0f50, "vcvt%c.f32.%16?us%7?31%7?26\t%y1, %y1, #%5,0-3k"},
580 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V3),
581 0x0eba0b40, 0x0fbe0f50, "vcvt%c.f64.%16?us%7?31%7?26\t%z1, %z1, #%5,0-3k"},
582 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD),
583 0x0ebc0a40, 0x0fbe0f50, "vcvt%7`r%c.%16?su32.f32\t%y1, %y0"},
584 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1),
585 0x0ebc0b40, 0x0fbe0f50, "vcvt%7`r%c.%16?su32.f64\t%y1, %z0"},
586 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V3xD),
587 0x0ebe0a40, 0x0fbe0f50, "vcvt%c.%16?us%7?31%7?26.f32\t%y1, %y1, #%5,0-3k"},
588 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V3),
589 0x0ebe0b40, 0x0fbe0f50, "vcvt%c.%16?us%7?31%7?26.f64\t%z1, %z1, #%5,0-3k"},
590 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1),
591 0x0c500b10, 0x0fb00ff0, "vmov%c\t%12-15r, %16-19r, %z0"},
592 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V3xD),
593 0x0eb00a00, 0x0fb00ff0, "vmov%c.f32\t%y1, #%0-3,16-19E"},
594 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V3),
595 0x0eb00b00, 0x0fb00ff0, "vmov%c.f64\t%z1, #%0-3,16-19E"},
596 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V2),
597 0x0c400a10, 0x0ff00fd0, "vmov%c\t%y4, %12-15r, %16-19r"},
598 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V2),
599 0x0c400b10, 0x0ff00fd0, "vmov%c\t%z0, %12-15r, %16-19r"},
600 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V2),
601 0x0c500a10, 0x0ff00fd0, "vmov%c\t%12-15r, %16-19r, %y4"},
602 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD),
603 0x0e000a00, 0x0fb00f50, "vmla%c.f32\t%y1, %y2, %y0"},
604 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD),
605 0x0e000a40, 0x0fb00f50, "vmls%c.f32\t%y1, %y2, %y0"},
606 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1),
607 0x0e000b00, 0x0fb00f50, "vmla%c.f64\t%z1, %z2, %z0"},
608 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1),
609 0x0e000b40, 0x0fb00f50, "vmls%c.f64\t%z1, %z2, %z0"},
610 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD),
611 0x0e100a00, 0x0fb00f50, "vnmls%c.f32\t%y1, %y2, %y0"},
612 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD),
613 0x0e100a40, 0x0fb00f50, "vnmla%c.f32\t%y1, %y2, %y0"},
614 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1),
615 0x0e100b00, 0x0fb00f50, "vnmls%c.f64\t%z1, %z2, %z0"},
616 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1),
617 0x0e100b40, 0x0fb00f50, "vnmla%c.f64\t%z1, %z2, %z0"},
618 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD),
619 0x0e200a00, 0x0fb00f50, "vmul%c.f32\t%y1, %y2, %y0"},
620 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD),
621 0x0e200a40, 0x0fb00f50, "vnmul%c.f32\t%y1, %y2, %y0"},
622 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1),
623 0x0e200b00, 0x0fb00f50, "vmul%c.f64\t%z1, %z2, %z0"},
624 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1),
625 0x0e200b40, 0x0fb00f50, "vnmul%c.f64\t%z1, %z2, %z0"},
626 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD),
627 0x0e300a00, 0x0fb00f50, "vadd%c.f32\t%y1, %y2, %y0"},
628 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD),
629 0x0e300a40, 0x0fb00f50, "vsub%c.f32\t%y1, %y2, %y0"},
630 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1),
631 0x0e300b00, 0x0fb00f50, "vadd%c.f64\t%z1, %z2, %z0"},
632 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1),
633 0x0e300b40, 0x0fb00f50, "vsub%c.f64\t%z1, %z2, %z0"},
634 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1xD),
635 0x0e800a00, 0x0fb00f50, "vdiv%c.f32\t%y1, %y2, %y0"},
636 {ARM_FEATURE_COPROC (FPU_VFP_EXT_V1),
637 0x0e800b00, 0x0fb00f50, "vdiv%c.f64\t%z1, %z2, %z0"},
638
639 /* Cirrus coprocessor instructions. */
640 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
641 0x0d100400, 0x0f500f00, "cfldrs%c\tmvf%12-15d, %A"},
642 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
643 0x0c100400, 0x0f500f00, "cfldrs%c\tmvf%12-15d, %A"},
644 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
645 0x0d500400, 0x0f500f00, "cfldrd%c\tmvd%12-15d, %A"},
646 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
647 0x0c500400, 0x0f500f00, "cfldrd%c\tmvd%12-15d, %A"},
648 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
649 0x0d100500, 0x0f500f00, "cfldr32%c\tmvfx%12-15d, %A"},
650 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
651 0x0c100500, 0x0f500f00, "cfldr32%c\tmvfx%12-15d, %A"},
652 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
653 0x0d500500, 0x0f500f00, "cfldr64%c\tmvdx%12-15d, %A"},
654 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
655 0x0c500500, 0x0f500f00, "cfldr64%c\tmvdx%12-15d, %A"},
656 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
657 0x0d000400, 0x0f500f00, "cfstrs%c\tmvf%12-15d, %A"},
658 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
659 0x0c000400, 0x0f500f00, "cfstrs%c\tmvf%12-15d, %A"},
660 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
661 0x0d400400, 0x0f500f00, "cfstrd%c\tmvd%12-15d, %A"},
662 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
663 0x0c400400, 0x0f500f00, "cfstrd%c\tmvd%12-15d, %A"},
664 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
665 0x0d000500, 0x0f500f00, "cfstr32%c\tmvfx%12-15d, %A"},
666 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
667 0x0c000500, 0x0f500f00, "cfstr32%c\tmvfx%12-15d, %A"},
668 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
669 0x0d400500, 0x0f500f00, "cfstr64%c\tmvdx%12-15d, %A"},
670 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
671 0x0c400500, 0x0f500f00, "cfstr64%c\tmvdx%12-15d, %A"},
672 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
673 0x0e000450, 0x0ff00ff0, "cfmvsr%c\tmvf%16-19d, %12-15r"},
674 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
675 0x0e100450, 0x0ff00ff0, "cfmvrs%c\t%12-15r, mvf%16-19d"},
676 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
677 0x0e000410, 0x0ff00ff0, "cfmvdlr%c\tmvd%16-19d, %12-15r"},
678 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
679 0x0e100410, 0x0ff00ff0, "cfmvrdl%c\t%12-15r, mvd%16-19d"},
680 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
681 0x0e000430, 0x0ff00ff0, "cfmvdhr%c\tmvd%16-19d, %12-15r"},
682 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
683 0x0e100430, 0x0ff00fff, "cfmvrdh%c\t%12-15r, mvd%16-19d"},
684 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
685 0x0e000510, 0x0ff00fff, "cfmv64lr%c\tmvdx%16-19d, %12-15r"},
686 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
687 0x0e100510, 0x0ff00fff, "cfmvr64l%c\t%12-15r, mvdx%16-19d"},
688 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
689 0x0e000530, 0x0ff00fff, "cfmv64hr%c\tmvdx%16-19d, %12-15r"},
690 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
691 0x0e100530, 0x0ff00fff, "cfmvr64h%c\t%12-15r, mvdx%16-19d"},
692 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
693 0x0e200440, 0x0ff00fff, "cfmval32%c\tmvax%12-15d, mvfx%16-19d"},
694 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
695 0x0e100440, 0x0ff00fff, "cfmv32al%c\tmvfx%12-15d, mvax%16-19d"},
696 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
697 0x0e200460, 0x0ff00fff, "cfmvam32%c\tmvax%12-15d, mvfx%16-19d"},
698 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
699 0x0e100460, 0x0ff00fff, "cfmv32am%c\tmvfx%12-15d, mvax%16-19d"},
700 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
701 0x0e200480, 0x0ff00fff, "cfmvah32%c\tmvax%12-15d, mvfx%16-19d"},
702 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
703 0x0e100480, 0x0ff00fff, "cfmv32ah%c\tmvfx%12-15d, mvax%16-19d"},
704 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
705 0x0e2004a0, 0x0ff00fff, "cfmva32%c\tmvax%12-15d, mvfx%16-19d"},
706 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
707 0x0e1004a0, 0x0ff00fff, "cfmv32a%c\tmvfx%12-15d, mvax%16-19d"},
708 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
709 0x0e2004c0, 0x0ff00fff, "cfmva64%c\tmvax%12-15d, mvdx%16-19d"},
710 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
711 0x0e1004c0, 0x0ff00fff, "cfmv64a%c\tmvdx%12-15d, mvax%16-19d"},
712 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
713 0x0e2004e0, 0x0fff0fff, "cfmvsc32%c\tdspsc, mvdx%12-15d"},
714 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
715 0x0e1004e0, 0x0fff0fff, "cfmv32sc%c\tmvdx%12-15d, dspsc"},
716 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
717 0x0e000400, 0x0ff00fff, "cfcpys%c\tmvf%12-15d, mvf%16-19d"},
718 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
719 0x0e000420, 0x0ff00fff, "cfcpyd%c\tmvd%12-15d, mvd%16-19d"},
720 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
721 0x0e000460, 0x0ff00fff, "cfcvtsd%c\tmvd%12-15d, mvf%16-19d"},
722 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
723 0x0e000440, 0x0ff00fff, "cfcvtds%c\tmvf%12-15d, mvd%16-19d"},
724 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
725 0x0e000480, 0x0ff00fff, "cfcvt32s%c\tmvf%12-15d, mvfx%16-19d"},
726 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
727 0x0e0004a0, 0x0ff00fff, "cfcvt32d%c\tmvd%12-15d, mvfx%16-19d"},
728 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
729 0x0e0004c0, 0x0ff00fff, "cfcvt64s%c\tmvf%12-15d, mvdx%16-19d"},
730 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
731 0x0e0004e0, 0x0ff00fff, "cfcvt64d%c\tmvd%12-15d, mvdx%16-19d"},
732 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
733 0x0e100580, 0x0ff00fff, "cfcvts32%c\tmvfx%12-15d, mvf%16-19d"},
734 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
735 0x0e1005a0, 0x0ff00fff, "cfcvtd32%c\tmvfx%12-15d, mvd%16-19d"},
736 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
737 0x0e1005c0, 0x0ff00fff, "cftruncs32%c\tmvfx%12-15d, mvf%16-19d"},
738 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
739 0x0e1005e0, 0x0ff00fff, "cftruncd32%c\tmvfx%12-15d, mvd%16-19d"},
740 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
741 0x0e000550, 0x0ff00ff0, "cfrshl32%c\tmvfx%16-19d, mvfx%0-3d, %12-15r"},
742 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
743 0x0e000570, 0x0ff00ff0, "cfrshl64%c\tmvdx%16-19d, mvdx%0-3d, %12-15r"},
744 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
745 0x0e000500, 0x0ff00f10, "cfsh32%c\tmvfx%12-15d, mvfx%16-19d, #%I"},
746 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
747 0x0e200500, 0x0ff00f10, "cfsh64%c\tmvdx%12-15d, mvdx%16-19d, #%I"},
748 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
749 0x0e100490, 0x0ff00ff0, "cfcmps%c\t%12-15r, mvf%16-19d, mvf%0-3d"},
750 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
751 0x0e1004b0, 0x0ff00ff0, "cfcmpd%c\t%12-15r, mvd%16-19d, mvd%0-3d"},
752 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
753 0x0e100590, 0x0ff00ff0, "cfcmp32%c\t%12-15r, mvfx%16-19d, mvfx%0-3d"},
754 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
755 0x0e1005b0, 0x0ff00ff0, "cfcmp64%c\t%12-15r, mvdx%16-19d, mvdx%0-3d"},
756 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
757 0x0e300400, 0x0ff00fff, "cfabss%c\tmvf%12-15d, mvf%16-19d"},
758 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
759 0x0e300420, 0x0ff00fff, "cfabsd%c\tmvd%12-15d, mvd%16-19d"},
760 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
761 0x0e300440, 0x0ff00fff, "cfnegs%c\tmvf%12-15d, mvf%16-19d"},
762 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
763 0x0e300460, 0x0ff00fff, "cfnegd%c\tmvd%12-15d, mvd%16-19d"},
764 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
765 0x0e300480, 0x0ff00ff0, "cfadds%c\tmvf%12-15d, mvf%16-19d, mvf%0-3d"},
766 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
767 0x0e3004a0, 0x0ff00ff0, "cfaddd%c\tmvd%12-15d, mvd%16-19d, mvd%0-3d"},
768 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
769 0x0e3004c0, 0x0ff00ff0, "cfsubs%c\tmvf%12-15d, mvf%16-19d, mvf%0-3d"},
770 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
771 0x0e3004e0, 0x0ff00ff0, "cfsubd%c\tmvd%12-15d, mvd%16-19d, mvd%0-3d"},
772 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
773 0x0e100400, 0x0ff00ff0, "cfmuls%c\tmvf%12-15d, mvf%16-19d, mvf%0-3d"},
774 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
775 0x0e100420, 0x0ff00ff0, "cfmuld%c\tmvd%12-15d, mvd%16-19d, mvd%0-3d"},
776 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
777 0x0e300500, 0x0ff00fff, "cfabs32%c\tmvfx%12-15d, mvfx%16-19d"},
778 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
779 0x0e300520, 0x0ff00fff, "cfabs64%c\tmvdx%12-15d, mvdx%16-19d"},
780 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
781 0x0e300540, 0x0ff00fff, "cfneg32%c\tmvfx%12-15d, mvfx%16-19d"},
782 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
783 0x0e300560, 0x0ff00fff, "cfneg64%c\tmvdx%12-15d, mvdx%16-19d"},
784 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
785 0x0e300580, 0x0ff00ff0, "cfadd32%c\tmvfx%12-15d, mvfx%16-19d, mvfx%0-3d"},
786 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
787 0x0e3005a0, 0x0ff00ff0, "cfadd64%c\tmvdx%12-15d, mvdx%16-19d, mvdx%0-3d"},
788 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
789 0x0e3005c0, 0x0ff00ff0, "cfsub32%c\tmvfx%12-15d, mvfx%16-19d, mvfx%0-3d"},
790 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
791 0x0e3005e0, 0x0ff00ff0, "cfsub64%c\tmvdx%12-15d, mvdx%16-19d, mvdx%0-3d"},
792 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
793 0x0e100500, 0x0ff00ff0, "cfmul32%c\tmvfx%12-15d, mvfx%16-19d, mvfx%0-3d"},
794 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
795 0x0e100520, 0x0ff00ff0, "cfmul64%c\tmvdx%12-15d, mvdx%16-19d, mvdx%0-3d"},
796 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
797 0x0e100540, 0x0ff00ff0, "cfmac32%c\tmvfx%12-15d, mvfx%16-19d, mvfx%0-3d"},
798 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
799 0x0e100560, 0x0ff00ff0, "cfmsc32%c\tmvfx%12-15d, mvfx%16-19d, mvfx%0-3d"},
800 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
801 0x0e000600, 0x0ff00f10,
802 "cfmadd32%c\tmvax%5-7d, mvfx%12-15d, mvfx%16-19d, mvfx%0-3d"},
803 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
804 0x0e100600, 0x0ff00f10,
805 "cfmsub32%c\tmvax%5-7d, mvfx%12-15d, mvfx%16-19d, mvfx%0-3d"},
806 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
807 0x0e200600, 0x0ff00f10,
808 "cfmadda32%c\tmvax%5-7d, mvax%12-15d, mvfx%16-19d, mvfx%0-3d"},
809 {ARM_FEATURE_COPROC (ARM_CEXT_MAVERICK),
810 0x0e300600, 0x0ff00f10,
811 "cfmsuba32%c\tmvax%5-7d, mvax%12-15d, mvfx%16-19d, mvfx%0-3d"},
812
813 /* VFP Fused multiply add instructions. */
814 {ARM_FEATURE_COPROC (FPU_VFP_EXT_FMA),
815 0x0ea00a00, 0x0fb00f50, "vfma%c.f32\t%y1, %y2, %y0"},
816 {ARM_FEATURE_COPROC (FPU_VFP_EXT_FMA),
817 0x0ea00b00, 0x0fb00f50, "vfma%c.f64\t%z1, %z2, %z0"},
818 {ARM_FEATURE_COPROC (FPU_VFP_EXT_FMA),
819 0x0ea00a40, 0x0fb00f50, "vfms%c.f32\t%y1, %y2, %y0"},
820 {ARM_FEATURE_COPROC (FPU_VFP_EXT_FMA),
821 0x0ea00b40, 0x0fb00f50, "vfms%c.f64\t%z1, %z2, %z0"},
822 {ARM_FEATURE_COPROC (FPU_VFP_EXT_FMA),
823 0x0e900a40, 0x0fb00f50, "vfnma%c.f32\t%y1, %y2, %y0"},
824 {ARM_FEATURE_COPROC (FPU_VFP_EXT_FMA),
825 0x0e900b40, 0x0fb00f50, "vfnma%c.f64\t%z1, %z2, %z0"},
826 {ARM_FEATURE_COPROC (FPU_VFP_EXT_FMA),
827 0x0e900a00, 0x0fb00f50, "vfnms%c.f32\t%y1, %y2, %y0"},
828 {ARM_FEATURE_COPROC (FPU_VFP_EXT_FMA),
829 0x0e900b00, 0x0fb00f50, "vfnms%c.f64\t%z1, %z2, %z0"},
830
831 /* FP v5. */
832 {ARM_FEATURE_COPROC (FPU_VFP_EXT_ARMV8),
833 0xfe000a00, 0xff800f50, "vsel%20-21c%u.f32\t%y1, %y2, %y0"},
834 {ARM_FEATURE_COPROC (FPU_VFP_EXT_ARMV8),
835 0xfe000b00, 0xff800f50, "vsel%20-21c%u.f64\t%z1, %z2, %z0"},
836 {ARM_FEATURE_COPROC (FPU_VFP_EXT_ARMV8),
837 0xfe800a00, 0xffb00f50, "vmaxnm%u.f32\t%y1, %y2, %y0"},
838 {ARM_FEATURE_COPROC (FPU_VFP_EXT_ARMV8),
839 0xfe800b00, 0xffb00f50, "vmaxnm%u.f64\t%z1, %z2, %z0"},
840 {ARM_FEATURE_COPROC (FPU_VFP_EXT_ARMV8),
841 0xfe800a40, 0xffb00f50, "vminnm%u.f32\t%y1, %y2, %y0"},
842 {ARM_FEATURE_COPROC (FPU_VFP_EXT_ARMV8),
843 0xfe800b40, 0xffb00f50, "vminnm%u.f64\t%z1, %z2, %z0"},
844 {ARM_FEATURE_COPROC (FPU_VFP_EXT_ARMV8),
845 0xfebc0a40, 0xffbc0f50, "vcvt%16-17?mpna%u.%7?su32.f32\t%y1, %y0"},
846 {ARM_FEATURE_COPROC (FPU_VFP_EXT_ARMV8),
847 0xfebc0b40, 0xffbc0f50, "vcvt%16-17?mpna%u.%7?su32.f64\t%y1, %z0"},
848 {ARM_FEATURE_COPROC (FPU_VFP_EXT_ARMV8),
849 0x0eb60a40, 0x0fbe0f50, "vrint%7,16??xzr%c.f32\t%y1, %y0"},
850 {ARM_FEATURE_COPROC (FPU_VFP_EXT_ARMV8),
851 0x0eb60b40, 0x0fbe0f50, "vrint%7,16??xzr%c.f64\t%z1, %z0"},
852 {ARM_FEATURE_COPROC (FPU_VFP_EXT_ARMV8),
853 0xfeb80a40, 0xffbc0fd0, "vrint%16-17?mpna%u.f32\t%y1, %y0"},
854 {ARM_FEATURE_COPROC (FPU_VFP_EXT_ARMV8),
855 0xfeb80b40, 0xffbc0fd0, "vrint%16-17?mpna%u.f64\t%z1, %z0"},
856
857 /* Generic coprocessor instructions. */
858 {ARM_FEATURE_CORE_LOW (0), SENTINEL_GENERIC_START, 0, "" },
859 {ARM_FEATURE_CORE_LOW (ARM_EXT_V5E),
860 0x0c400000, 0x0ff00000, "mcrr%c\t%8-11d, %4-7d, %12-15R, %16-19r, cr%0-3d"},
861 {ARM_FEATURE_CORE_LOW (ARM_EXT_V5E),
862 0x0c500000, 0x0ff00000,
863 "mrrc%c\t%8-11d, %4-7d, %12-15Ru, %16-19Ru, cr%0-3d"},
864 {ARM_FEATURE_CORE_LOW (ARM_EXT_V2),
865 0x0e000000, 0x0f000010,
866 "cdp%c\t%8-11d, %20-23d, cr%12-15d, cr%16-19d, cr%0-3d, {%5-7d}"},
867 {ARM_FEATURE_CORE_LOW (ARM_EXT_V2),
868 0x0e10f010, 0x0f10f010,
869 "mrc%c\t%8-11d, %21-23d, APSR_nzcv, cr%16-19d, cr%0-3d, {%5-7d}"},
870 {ARM_FEATURE_CORE_LOW (ARM_EXT_V2),
871 0x0e100010, 0x0f100010,
872 "mrc%c\t%8-11d, %21-23d, %12-15r, cr%16-19d, cr%0-3d, {%5-7d}"},
873 {ARM_FEATURE_CORE_LOW (ARM_EXT_V2),
874 0x0e000010, 0x0f100010,
875 "mcr%c\t%8-11d, %21-23d, %12-15R, cr%16-19d, cr%0-3d, {%5-7d}"},
876 {ARM_FEATURE_CORE_LOW (ARM_EXT_V2),
877 0x0c000000, 0x0e100000, "stc%22'l%c\t%8-11d, cr%12-15d, %A"},
878 {ARM_FEATURE_CORE_LOW (ARM_EXT_V2),
879 0x0c100000, 0x0e100000, "ldc%22'l%c\t%8-11d, cr%12-15d, %A"},
880
881 /* V6 coprocessor instructions. */
882 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
883 0xfc500000, 0xfff00000,
884 "mrrc2%c\t%8-11d, %4-7d, %12-15Ru, %16-19Ru, cr%0-3d"},
885 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
886 0xfc400000, 0xfff00000,
887 "mcrr2%c\t%8-11d, %4-7d, %12-15R, %16-19R, cr%0-3d"},
888
889 /* ARMv8.3 AdvSIMD instructions in the space of coprocessor 8. */
890 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_V8_3A),
891 0xfc800800, 0xfeb00f10, "vcadd%c.f16\t%12-15,22V, %16-19,7V, %0-3,5V, #%24?29%24'70"},
892 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_V8_3A),
893 0xfc900800, 0xfeb00f10, "vcadd%c.f32\t%12-15,22V, %16-19,7V, %0-3,5V, #%24?29%24'70"},
894 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_V8_3A),
895 0xfc200800, 0xff300f10, "vcmla%c.f16\t%12-15,22V, %16-19,7V, %0-3,5V, #%23'90"},
896 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_V8_3A),
897 0xfd200800, 0xff300f10, "vcmla%c.f16\t%12-15,22V, %16-19,7V, %0-3,5V, #%23?21%23?780"},
898 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_V8_3A),
899 0xfc300800, 0xff300f10, "vcmla%c.f32\t%12-15,22V, %16-19,7V, %0-3,5V, #%23'90"},
900 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_V8_3A),
901 0xfd300800, 0xff300f10, "vcmla%c.f32\t%12-15,22V, %16-19,7V, %0-3,5V, #%23?21%23?780"},
902 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_V8_3A),
903 0xfe000800, 0xffa00f10, "vcmla%c.f16\t%12-15,22V, %16-19,7V, %0-3D[%5?10], #%20'90"},
904 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_V8_3A),
905 0xfe200800, 0xffa00f10, "vcmla%c.f16\t%12-15,22V, %16-19,7V, %0-3D[%5?10], #%20?21%20?780"},
906 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_V8_3A),
907 0xfe800800, 0xffa00f10, "vcmla%c.f32\t%12-15,22V, %16-19,7V, %0-3,5D[0], #%20'90"},
908 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_V8_3A),
909 0xfea00800, 0xffa00f10, "vcmla%c.f32\t%12-15,22V, %16-19,7V, %0-3,5D[0], #%20?21%20?780"},
910
911 /* Dot Product instructions in the space of coprocessor 13. */
912 {ARM_FEATURE_COPROC (FPU_NEON_EXT_DOTPROD),
913 0xfc200d00, 0xffb00f00, "v%4?usdot.%4?us8\t%12-15,22V, %16-19,7V, %0-3,5V"},
914 {ARM_FEATURE_COPROC (FPU_NEON_EXT_DOTPROD),
915 0xfe000d00, 0xff000f00, "v%4?usdot.%4?us8\t%12-15,22V, %16-19,7V, %0-3D[%5?10]"},
916
917 /* ARMv8.2 FMAC Long instructions in the space of coprocessor 8. */
918 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST | ARM_EXT2_V8_2A),
919 0xfc200810, 0xffb00f50, "vfmal.f16\t%12-15,22D, s%7,16-19d, s%5,0-3d"},
920 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST | ARM_EXT2_V8_2A),
921 0xfca00810, 0xffb00f50, "vfmsl.f16\t%12-15,22D, s%7,16-19d, s%5,0-3d"},
922 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST | ARM_EXT2_V8_2A),
923 0xfc200850, 0xffb00f50, "vfmal.f16\t%12-15,22Q, d%16-19,7d, d%0-3,5d"},
924 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST | ARM_EXT2_V8_2A),
925 0xfca00850, 0xffb00f50, "vfmsl.f16\t%12-15,22Q, d%16-19,7d, d%0-3,5d"},
926 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST | ARM_EXT2_V8_2A),
927 0xfe000810, 0xffb00f50, "vfmal.f16\t%12-15,22D, s%7,16-19d, s%5,0-2d[%3d]"},
928 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST | ARM_EXT2_V8_2A),
929 0xfe100810, 0xffb00f50, "vfmsl.f16\t%12-15,22D, s%7,16-19d, s%5,0-2d[%3d]"},
930 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST | ARM_EXT2_V8_2A),
931 0xfe000850, 0xffb00f50, "vfmal.f16\t%12-15,22Q, d%16-19,7d, d%0-2d[%3,5d]"},
932 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST | ARM_EXT2_V8_2A),
933 0xfe100850, 0xffb00f50, "vfmsl.f16\t%12-15,22Q, d%16-19,7d, d%0-2d[%3,5d]"},
934
935 /* V5 coprocessor instructions. */
936 {ARM_FEATURE_CORE_LOW (ARM_EXT_V5),
937 0xfc100000, 0xfe100000, "ldc2%22'l%c\t%8-11d, cr%12-15d, %A"},
938 {ARM_FEATURE_CORE_LOW (ARM_EXT_V5),
939 0xfc000000, 0xfe100000, "stc2%22'l%c\t%8-11d, cr%12-15d, %A"},
940 {ARM_FEATURE_CORE_LOW (ARM_EXT_V5),
941 0xfe000000, 0xff000010,
942 "cdp2%c\t%8-11d, %20-23d, cr%12-15d, cr%16-19d, cr%0-3d, {%5-7d}"},
943 {ARM_FEATURE_CORE_LOW (ARM_EXT_V5),
944 0xfe000010, 0xff100010,
945 "mcr2%c\t%8-11d, %21-23d, %12-15R, cr%16-19d, cr%0-3d, {%5-7d}"},
946 {ARM_FEATURE_CORE_LOW (ARM_EXT_V5),
947 0xfe100010, 0xff100010,
948 "mrc2%c\t%8-11d, %21-23d, %12-15r, cr%16-19d, cr%0-3d, {%5-7d}"},
949
950 /* ARMv8.2 half-precision Floating point coprocessor 9 (VFP) instructions.
951 cp_num: bit <11:8> == 0b1001.
952 cond: bit <31:28> == 0b1110, otherwise, it's UNPREDICTABLE. */
953 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
954 0x0eb009c0, 0x0fbf0fd0, "vabs%c.f16\t%y1, %y0"},
955 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
956 0x0e300900, 0x0fb00f50, "vadd%c.f16\t%y1, %y2, %y0"},
957 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
958 0x0eb40940, 0x0fbf0f50, "vcmp%7'e%c.f16\t%y1, %y0"},
959 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
960 0x0eb50940, 0x0fbf0f70, "vcmp%7'e%c.f16\t%y1, #0.0"},
961 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
962 0x0eba09c0, 0x0fbe0fd0, "vcvt%c.f16.%16?us%7?31%7?26\t%y1, %y1, #%5,0-3k"},
963 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
964 0x0ebe09c0, 0x0fbe0fd0, "vcvt%c.%16?us%7?31%7?26.f16\t%y1, %y1, #%5,0-3k"},
965 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
966 0x0ebc0940, 0x0fbe0f50, "vcvt%7`r%c.%16?su32.f16\t%y1, %y0"},
967 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
968 0x0eb80940, 0x0fbf0f50, "vcvt%c.f16.%7?su32\t%y1, %y0"},
969 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
970 0xfebc0940, 0xffbc0f50, "vcvt%16-17?mpna%u.%7?su32.f16\t%y1, %y0"},
971 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
972 0x0e800900, 0x0fb00f50, "vdiv%c.f16\t%y1, %y2, %y0"},
973 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
974 0x0ea00900, 0x0fb00f50, "vfma%c.f16\t%y1, %y2, %y0"},
975 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
976 0x0ea00940, 0x0fb00f50, "vfms%c.f16\t%y1, %y2, %y0"},
977 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
978 0x0e900940, 0x0fb00f50, "vfnma%c.f16\t%y1, %y2, %y0"},
979 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
980 0x0e900900, 0x0fb00f50, "vfnms%c.f16\t%y1, %y2, %y0"},
981 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
982 0xfeb00ac0, 0xffbf0fd0, "vins.f16\t%y1, %y0"},
983 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
984 0xfeb00a40, 0xffbf0fd0, "vmovx%c.f16\t%y1, %y0"},
985 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
986 0x0d100900, 0x0f300f00, "vldr%c.16\t%y1, %A"},
987 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
988 0x0d000900, 0x0f300f00, "vstr%c.16\t%y1, %A"},
989 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
990 0xfe800900, 0xffb00f50, "vmaxnm%c.f16\t%y1, %y2, %y0"},
991 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
992 0xfe800940, 0xffb00f50, "vminnm%c.f16\t%y1, %y2, %y0"},
993 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
994 0x0e000900, 0x0fb00f50, "vmla%c.f16\t%y1, %y2, %y0"},
995 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
996 0x0e000940, 0x0fb00f50, "vmls%c.f16\t%y1, %y2, %y0"},
997 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
998 0x0e100910, 0x0ff00f7f, "vmov%c.f16\t%12-15r, %y2"},
999 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
1000 0x0e000910, 0x0ff00f7f, "vmov%c.f16\t%y2, %12-15r"},
1001 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
1002 0xeb00900, 0x0fb00ff0, "vmov%c.f16\t%y1, #%0-3,16-19E"},
1003 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
1004 0x0e200900, 0x0fb00f50, "vmul%c.f16\t%y1, %y2, %y0"},
1005 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
1006 0x0eb10940, 0x0fbf0fd0, "vneg%c.f16\t%y1, %y0"},
1007 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
1008 0x0e100940, 0x0fb00f50, "vnmla%c.f16\t%y1, %y2, %y0"},
1009 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
1010 0x0e100900, 0x0fb00f50, "vnmls%c.f16\t%y1, %y2, %y0"},
1011 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
1012 0x0e200940, 0x0fb00f50, "vnmul%c.f16\t%y1, %y2, %y0"},
1013 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
1014 0x0eb60940, 0x0fbe0f50, "vrint%7,16??xzr%c.f16\t%y1, %y0"},
1015 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
1016 0xfeb80940, 0xffbc0fd0, "vrint%16-17?mpna%u.f16\t%y1, %y0"},
1017 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
1018 0xfe000900, 0xff800f50, "vsel%20-21c%u.f16\t%y1, %y2, %y0"},
1019 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
1020 0x0eb109c0, 0x0fbf0fd0, "vsqrt%c.f16\t%y1, %y0"},
1021 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
1022 0x0e300940, 0x0fb00f50, "vsub%c.f16\t%y1, %y2, %y0"},
1023
1024 /* ARMv8.3 javascript conversion instruction. */
1025 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_V8_3A),
1026 0x0eb90bc0, 0x0fbf0fd0, "vjcvt%c.s32.f64\t%y1, %z0"},
1027
1028 {ARM_FEATURE_CORE_LOW (0), 0, 0, 0}
1029 };
1030
1031 /* Neon opcode table: This does not encode the top byte -- that is
1032 checked by the print_insn_neon routine, as it depends on whether we are
1033 doing thumb32 or arm32 disassembly. */
1034
1035 /* print_insn_neon recognizes the following format control codes:
1036
1037 %% %
1038
1039 %c print condition code
1040 %u print condition code (unconditional in ARM mode,
1041 UNPREDICTABLE if not AL in Thumb)
1042 %A print v{st,ld}[1234] operands
1043 %B print v{st,ld}[1234] any one operands
1044 %C print v{st,ld}[1234] single->all operands
1045 %D print scalar
1046 %E print vmov, vmvn, vorr, vbic encoded constant
1047 %F print vtbl,vtbx register list
1048
1049 %<bitfield>r print as an ARM register
1050 %<bitfield>d print the bitfield in decimal
1051 %<bitfield>e print the 2^N - bitfield in decimal
1052 %<bitfield>D print as a NEON D register
1053 %<bitfield>Q print as a NEON Q register
1054 %<bitfield>R print as a NEON D or Q register
1055 %<bitfield>Sn print byte scaled width limited by n
1056 %<bitfield>Tn print short scaled width limited by n
1057 %<bitfield>Un print long scaled width limited by n
1058
1059 %<bitfield>'c print specified char iff bitfield is all ones
1060 %<bitfield>`c print specified char iff bitfield is all zeroes
1061 %<bitfield>?ab... select from array of values in big endian order. */
1062
1063 static const struct opcode32 neon_opcodes[] =
1064 {
1065 /* Extract. */
1066 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1067 0xf2b00840, 0xffb00850,
1068 "vext%c.8\t%12-15,22R, %16-19,7R, %0-3,5R, #%8-11d"},
1069 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1070 0xf2b00000, 0xffb00810,
1071 "vext%c.8\t%12-15,22R, %16-19,7R, %0-3,5R, #%8-11d"},
1072
1073 /* Move data element to all lanes. */
1074 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1075 0xf3b40c00, 0xffb70f90, "vdup%c.32\t%12-15,22R, %0-3,5D[%19d]"},
1076 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1077 0xf3b20c00, 0xffb30f90, "vdup%c.16\t%12-15,22R, %0-3,5D[%18-19d]"},
1078 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1079 0xf3b10c00, 0xffb10f90, "vdup%c.8\t%12-15,22R, %0-3,5D[%17-19d]"},
1080
1081 /* Table lookup. */
1082 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1083 0xf3b00800, 0xffb00c50, "vtbl%c.8\t%12-15,22D, %F, %0-3,5D"},
1084 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1085 0xf3b00840, 0xffb00c50, "vtbx%c.8\t%12-15,22D, %F, %0-3,5D"},
1086
1087 /* Half-precision conversions. */
1088 {ARM_FEATURE_COPROC (FPU_VFP_EXT_FP16),
1089 0xf3b60600, 0xffbf0fd0, "vcvt%c.f16.f32\t%12-15,22D, %0-3,5Q"},
1090 {ARM_FEATURE_COPROC (FPU_VFP_EXT_FP16),
1091 0xf3b60700, 0xffbf0fd0, "vcvt%c.f32.f16\t%12-15,22Q, %0-3,5D"},
1092
1093 /* NEON fused multiply add instructions. */
1094 {ARM_FEATURE_COPROC (FPU_NEON_EXT_FMA),
1095 0xf2000c10, 0xffb00f10, "vfma%c.f32\t%12-15,22R, %16-19,7R, %0-3,5R"},
1096 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
1097 0xf2100c10, 0xffb00f10, "vfma%c.f16\t%12-15,22R, %16-19,7R, %0-3,5R"},
1098 {ARM_FEATURE_COPROC (FPU_NEON_EXT_FMA),
1099 0xf2200c10, 0xffb00f10, "vfms%c.f32\t%12-15,22R, %16-19,7R, %0-3,5R"},
1100 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
1101 0xf2300c10, 0xffb00f10, "vfms%c.f16\t%12-15,22R, %16-19,7R, %0-3,5R"},
1102
1103 /* Two registers, miscellaneous. */
1104 {ARM_FEATURE_COPROC (FPU_NEON_EXT_ARMV8),
1105 0xf3ba0400, 0xffbf0c10, "vrint%7-9?p?m?zaxn%u.f32\t%12-15,22R, %0-3,5R"},
1106 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
1107 0xf3b60400, 0xffbf0c10, "vrint%7-9?p?m?zaxn%u.f16\t%12-15,22R, %0-3,5R"},
1108 {ARM_FEATURE_COPROC (FPU_NEON_EXT_ARMV8),
1109 0xf3bb0000, 0xffbf0c10, "vcvt%8-9?mpna%u.%7?us32.f32\t%12-15,22R, %0-3,5R"},
1110 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
1111 0xf3b70000, 0xffbf0c10, "vcvt%8-9?mpna%u.%7?us16.f16\t%12-15,22R, %0-3,5R"},
1112 {ARM_FEATURE_COPROC (FPU_CRYPTO_EXT_ARMV8),
1113 0xf3b00300, 0xffbf0fd0, "aese%u.8\t%12-15,22Q, %0-3,5Q"},
1114 {ARM_FEATURE_COPROC (FPU_CRYPTO_EXT_ARMV8),
1115 0xf3b00340, 0xffbf0fd0, "aesd%u.8\t%12-15,22Q, %0-3,5Q"},
1116 {ARM_FEATURE_COPROC (FPU_CRYPTO_EXT_ARMV8),
1117 0xf3b00380, 0xffbf0fd0, "aesmc%u.8\t%12-15,22Q, %0-3,5Q"},
1118 {ARM_FEATURE_COPROC (FPU_CRYPTO_EXT_ARMV8),
1119 0xf3b003c0, 0xffbf0fd0, "aesimc%u.8\t%12-15,22Q, %0-3,5Q"},
1120 {ARM_FEATURE_COPROC (FPU_CRYPTO_EXT_ARMV8),
1121 0xf3b902c0, 0xffbf0fd0, "sha1h%u.32\t%12-15,22Q, %0-3,5Q"},
1122 {ARM_FEATURE_COPROC (FPU_CRYPTO_EXT_ARMV8),
1123 0xf3ba0380, 0xffbf0fd0, "sha1su1%u.32\t%12-15,22Q, %0-3,5Q"},
1124 {ARM_FEATURE_COPROC (FPU_CRYPTO_EXT_ARMV8),
1125 0xf3ba03c0, 0xffbf0fd0, "sha256su0%u.32\t%12-15,22Q, %0-3,5Q"},
1126 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1127 0xf2880a10, 0xfebf0fd0, "vmovl%c.%24?us8\t%12-15,22Q, %0-3,5D"},
1128 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1129 0xf2900a10, 0xfebf0fd0, "vmovl%c.%24?us16\t%12-15,22Q, %0-3,5D"},
1130 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1131 0xf2a00a10, 0xfebf0fd0, "vmovl%c.%24?us32\t%12-15,22Q, %0-3,5D"},
1132 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1133 0xf3b00500, 0xffbf0f90, "vcnt%c.8\t%12-15,22R, %0-3,5R"},
1134 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1135 0xf3b00580, 0xffbf0f90, "vmvn%c\t%12-15,22R, %0-3,5R"},
1136 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1137 0xf3b20000, 0xffbf0f90, "vswp%c\t%12-15,22R, %0-3,5R"},
1138 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1139 0xf3b20200, 0xffb30fd0, "vmovn%c.i%18-19T2\t%12-15,22D, %0-3,5Q"},
1140 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1141 0xf3b20240, 0xffb30fd0, "vqmovun%c.s%18-19T2\t%12-15,22D, %0-3,5Q"},
1142 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1143 0xf3b20280, 0xffb30fd0, "vqmovn%c.s%18-19T2\t%12-15,22D, %0-3,5Q"},
1144 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1145 0xf3b202c0, 0xffb30fd0, "vqmovn%c.u%18-19T2\t%12-15,22D, %0-3,5Q"},
1146 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1147 0xf3b20300, 0xffb30fd0,
1148 "vshll%c.i%18-19S2\t%12-15,22Q, %0-3,5D, #%18-19S2"},
1149 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1150 0xf3bb0400, 0xffbf0e90, "vrecpe%c.%8?fu%18-19S2\t%12-15,22R, %0-3,5R"},
1151 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
1152 0xf3b70400, 0xffbf0e90, "vrecpe%c.%8?fu16\t%12-15,22R, %0-3,5R"},
1153 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1154 0xf3bb0480, 0xffbf0e90, "vrsqrte%c.%8?fu%18-19S2\t%12-15,22R, %0-3,5R"},
1155 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
1156 0xf3b70480, 0xffbf0e90, "vrsqrte%c.%8?fu16\t%12-15,22R, %0-3,5R"},
1157 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1158 0xf3b00000, 0xffb30f90, "vrev64%c.%18-19S2\t%12-15,22R, %0-3,5R"},
1159 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1160 0xf3b00080, 0xffb30f90, "vrev32%c.%18-19S2\t%12-15,22R, %0-3,5R"},
1161 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1162 0xf3b00100, 0xffb30f90, "vrev16%c.%18-19S2\t%12-15,22R, %0-3,5R"},
1163 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1164 0xf3b00400, 0xffb30f90, "vcls%c.s%18-19S2\t%12-15,22R, %0-3,5R"},
1165 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1166 0xf3b00480, 0xffb30f90, "vclz%c.i%18-19S2\t%12-15,22R, %0-3,5R"},
1167 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1168 0xf3b00700, 0xffb30f90, "vqabs%c.s%18-19S2\t%12-15,22R, %0-3,5R"},
1169 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1170 0xf3b00780, 0xffb30f90, "vqneg%c.s%18-19S2\t%12-15,22R, %0-3,5R"},
1171 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1172 0xf3b20080, 0xffb30f90, "vtrn%c.%18-19S2\t%12-15,22R, %0-3,5R"},
1173 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1174 0xf3b20100, 0xffb30f90, "vuzp%c.%18-19S2\t%12-15,22R, %0-3,5R"},
1175 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1176 0xf3b20180, 0xffb30f90, "vzip%c.%18-19S2\t%12-15,22R, %0-3,5R"},
1177 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1178 0xf3b10000, 0xffb30b90, "vcgt%c.%10?fs%18-19S2\t%12-15,22R, %0-3,5R, #0"},
1179 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1180 0xf3b10080, 0xffb30b90, "vcge%c.%10?fs%18-19S2\t%12-15,22R, %0-3,5R, #0"},
1181 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1182 0xf3b10100, 0xffb30b90, "vceq%c.%10?fi%18-19S2\t%12-15,22R, %0-3,5R, #0"},
1183 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1184 0xf3b10180, 0xffb30b90, "vcle%c.%10?fs%18-19S2\t%12-15,22R, %0-3,5R, #0"},
1185 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1186 0xf3b10200, 0xffb30b90, "vclt%c.%10?fs%18-19S2\t%12-15,22R, %0-3,5R, #0"},
1187 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1188 0xf3b10300, 0xffb30b90, "vabs%c.%10?fs%18-19S2\t%12-15,22R, %0-3,5R"},
1189 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1190 0xf3b10380, 0xffb30b90, "vneg%c.%10?fs%18-19S2\t%12-15,22R, %0-3,5R"},
1191 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1192 0xf3b00200, 0xffb30f10, "vpaddl%c.%7?us%18-19S2\t%12-15,22R, %0-3,5R"},
1193 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1194 0xf3b00600, 0xffb30f10, "vpadal%c.%7?us%18-19S2\t%12-15,22R, %0-3,5R"},
1195 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1196 0xf3bb0600, 0xffbf0e10,
1197 "vcvt%c.%7-8?usff%18-19Sa.%7-8?ffus%18-19Sa\t%12-15,22R, %0-3,5R"},
1198 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
1199 0xf3b70600, 0xffbf0e10,
1200 "vcvt%c.%7-8?usff16.%7-8?ffus16\t%12-15,22R, %0-3,5R"},
1201
1202 /* Three registers of the same length. */
1203 {ARM_FEATURE_COPROC (FPU_CRYPTO_EXT_ARMV8),
1204 0xf2000c40, 0xffb00f50, "sha1c%u.32\t%12-15,22Q, %16-19,7Q, %0-3,5Q"},
1205 {ARM_FEATURE_COPROC (FPU_CRYPTO_EXT_ARMV8),
1206 0xf2100c40, 0xffb00f50, "sha1p%u.32\t%12-15,22Q, %16-19,7Q, %0-3,5Q"},
1207 {ARM_FEATURE_COPROC (FPU_CRYPTO_EXT_ARMV8),
1208 0xf2200c40, 0xffb00f50, "sha1m%u.32\t%12-15,22Q, %16-19,7Q, %0-3,5Q"},
1209 {ARM_FEATURE_COPROC (FPU_CRYPTO_EXT_ARMV8),
1210 0xf2300c40, 0xffb00f50, "sha1su0%u.32\t%12-15,22Q, %16-19,7Q, %0-3,5Q"},
1211 {ARM_FEATURE_COPROC (FPU_CRYPTO_EXT_ARMV8),
1212 0xf3000c40, 0xffb00f50, "sha256h%u.32\t%12-15,22Q, %16-19,7Q, %0-3,5Q"},
1213 {ARM_FEATURE_COPROC (FPU_CRYPTO_EXT_ARMV8),
1214 0xf3100c40, 0xffb00f50, "sha256h2%u.32\t%12-15,22Q, %16-19,7Q, %0-3,5Q"},
1215 {ARM_FEATURE_COPROC (FPU_CRYPTO_EXT_ARMV8),
1216 0xf3200c40, 0xffb00f50, "sha256su1%u.32\t%12-15,22Q, %16-19,7Q, %0-3,5Q"},
1217 {ARM_FEATURE_COPROC (FPU_NEON_EXT_ARMV8),
1218 0xf3000f10, 0xffb00f10, "vmaxnm%u.f32\t%12-15,22R, %16-19,7R, %0-3,5R"},
1219 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
1220 0xf3100f10, 0xffb00f10, "vmaxnm%u.f16\t%12-15,22R, %16-19,7R, %0-3,5R"},
1221 {ARM_FEATURE_COPROC (FPU_NEON_EXT_ARMV8),
1222 0xf3200f10, 0xffb00f10, "vminnm%u.f32\t%12-15,22R, %16-19,7R, %0-3,5R"},
1223 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
1224 0xf3300f10, 0xffb00f10, "vminnm%u.f16\t%12-15,22R, %16-19,7R, %0-3,5R"},
1225 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1226 0xf2000110, 0xffb00f10, "vand%c\t%12-15,22R, %16-19,7R, %0-3,5R"},
1227 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1228 0xf2100110, 0xffb00f10, "vbic%c\t%12-15,22R, %16-19,7R, %0-3,5R"},
1229 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1230 0xf2200110, 0xffb00f10, "vorr%c\t%12-15,22R, %16-19,7R, %0-3,5R"},
1231 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1232 0xf2300110, 0xffb00f10, "vorn%c\t%12-15,22R, %16-19,7R, %0-3,5R"},
1233 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1234 0xf3000110, 0xffb00f10, "veor%c\t%12-15,22R, %16-19,7R, %0-3,5R"},
1235 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1236 0xf3100110, 0xffb00f10, "vbsl%c\t%12-15,22R, %16-19,7R, %0-3,5R"},
1237 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1238 0xf3200110, 0xffb00f10, "vbit%c\t%12-15,22R, %16-19,7R, %0-3,5R"},
1239 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1240 0xf3300110, 0xffb00f10, "vbif%c\t%12-15,22R, %16-19,7R, %0-3,5R"},
1241 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1242 0xf2000d00, 0xffb00f10, "vadd%c.f32\t%12-15,22R, %16-19,7R, %0-3,5R"},
1243 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
1244 0xf2100d00, 0xffb00f10, "vadd%c.f16\t%12-15,22R, %16-19,7R, %0-3,5R"},
1245 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1246 0xf2000d10, 0xffb00f10, "vmla%c.f32\t%12-15,22R, %16-19,7R, %0-3,5R"},
1247 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
1248 0xf2100d10, 0xffb00f10, "vmla%c.f16\t%12-15,22R, %16-19,7R, %0-3,5R"},
1249 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1250 0xf2000e00, 0xffb00f10, "vceq%c.f32\t%12-15,22R, %16-19,7R, %0-3,5R"},
1251 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
1252 0xf2100e00, 0xffb00f10, "vceq%c.f16\t%12-15,22R, %16-19,7R, %0-3,5R"},
1253 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1254 0xf2000f00, 0xffb00f10, "vmax%c.f32\t%12-15,22R, %16-19,7R, %0-3,5R"},
1255 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
1256 0xf2100f00, 0xffb00f10, "vmax%c.f16\t%12-15,22R, %16-19,7R, %0-3,5R"},
1257 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1258 0xf2000f10, 0xffb00f10, "vrecps%c.f32\t%12-15,22R, %16-19,7R, %0-3,5R"},
1259 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
1260 0xf2100f10, 0xffb00f10, "vrecps%c.f16\t%12-15,22R, %16-19,7R, %0-3,5R"},
1261 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1262 0xf2200d00, 0xffb00f10, "vsub%c.f32\t%12-15,22R, %16-19,7R, %0-3,5R"},
1263 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
1264 0xf2300d00, 0xffb00f10, "vsub%c.f16\t%12-15,22R, %16-19,7R, %0-3,5R"},
1265 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1266 0xf2200d10, 0xffb00f10, "vmls%c.f32\t%12-15,22R, %16-19,7R, %0-3,5R"},
1267 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
1268 0xf2300d10, 0xffb00f10, "vmls%c.f16\t%12-15,22R, %16-19,7R, %0-3,5R"},
1269 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1270 0xf2200f00, 0xffb00f10, "vmin%c.f32\t%12-15,22R, %16-19,7R, %0-3,5R"},
1271 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
1272 0xf2300f00, 0xffb00f10, "vmin%c.f16\t%12-15,22R, %16-19,7R, %0-3,5R"},
1273 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1274 0xf2200f10, 0xffb00f10, "vrsqrts%c.f32\t%12-15,22R, %16-19,7R, %0-3,5R"},
1275 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
1276 0xf2300f10, 0xffb00f10, "vrsqrts%c.f16\t%12-15,22R, %16-19,7R, %0-3,5R"},
1277 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1278 0xf3000d00, 0xffb00f10, "vpadd%c.f32\t%12-15,22R, %16-19,7R, %0-3,5R"},
1279 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
1280 0xf3100d00, 0xffb00f10, "vpadd%c.f16\t%12-15,22R, %16-19,7R, %0-3,5R"},
1281 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1282 0xf3000d10, 0xffb00f10, "vmul%c.f32\t%12-15,22R, %16-19,7R, %0-3,5R"},
1283 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
1284 0xf3100d10, 0xffb00f10, "vmul%c.f16\t%12-15,22R, %16-19,7R, %0-3,5R"},
1285 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1286 0xf3000e00, 0xffb00f10, "vcge%c.f32\t%12-15,22R, %16-19,7R, %0-3,5R"},
1287 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
1288 0xf3100e00, 0xffb00f10, "vcge%c.f16\t%12-15,22R, %16-19,7R, %0-3,5R"},
1289 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1290 0xf3000e10, 0xffb00f10, "vacge%c.f32\t%12-15,22R, %16-19,7R, %0-3,5R"},
1291 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
1292 0xf3100e10, 0xffb00f10, "vacge%c.f16\t%12-15,22R, %16-19,7R, %0-3,5R"},
1293 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1294 0xf3000f00, 0xffb00f10, "vpmax%c.f32\t%12-15,22R, %16-19,7R, %0-3,5R"},
1295 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
1296 0xf3100f00, 0xffb00f10, "vpmax%c.f16\t%12-15,22R, %16-19,7R, %0-3,5R"},
1297 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1298 0xf3200d00, 0xffb00f10, "vabd%c.f32\t%12-15,22R, %16-19,7R, %0-3,5R"},
1299 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
1300 0xf3300d00, 0xffb00f10, "vabd%c.f16\t%12-15,22R, %16-19,7R, %0-3,5R"},
1301 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1302 0xf3200e00, 0xffb00f10, "vcgt%c.f32\t%12-15,22R, %16-19,7R, %0-3,5R"},
1303 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
1304 0xf3300e00, 0xffb00f10, "vcgt%c.f16\t%12-15,22R, %16-19,7R, %0-3,5R"},
1305 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1306 0xf3200e10, 0xffb00f10, "vacgt%c.f32\t%12-15,22R, %16-19,7R, %0-3,5R"},
1307 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
1308 0xf3300e10, 0xffb00f10, "vacgt%c.f16\t%12-15,22R, %16-19,7R, %0-3,5R"},
1309 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1310 0xf3200f00, 0xffb00f10, "vpmin%c.f32\t%12-15,22R, %16-19,7R, %0-3,5R"},
1311 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
1312 0xf3300f00, 0xffb00f10, "vpmin%c.f16\t%12-15,22R, %16-19,7R, %0-3,5R"},
1313 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1314 0xf2000800, 0xff800f10, "vadd%c.i%20-21S3\t%12-15,22R, %16-19,7R, %0-3,5R"},
1315 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1316 0xf2000810, 0xff800f10, "vtst%c.%20-21S2\t%12-15,22R, %16-19,7R, %0-3,5R"},
1317 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1318 0xf2000900, 0xff800f10, "vmla%c.i%20-21S2\t%12-15,22R, %16-19,7R, %0-3,5R"},
1319 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1320 0xf2000b00, 0xff800f10,
1321 "vqdmulh%c.s%20-21S6\t%12-15,22R, %16-19,7R, %0-3,5R"},
1322 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1323 0xf2000b10, 0xff800f10,
1324 "vpadd%c.i%20-21S2\t%12-15,22R, %16-19,7R, %0-3,5R"},
1325 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1326 0xf3000800, 0xff800f10, "vsub%c.i%20-21S3\t%12-15,22R, %16-19,7R, %0-3,5R"},
1327 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1328 0xf3000810, 0xff800f10, "vceq%c.i%20-21S2\t%12-15,22R, %16-19,7R, %0-3,5R"},
1329 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1330 0xf3000900, 0xff800f10, "vmls%c.i%20-21S2\t%12-15,22R, %16-19,7R, %0-3,5R"},
1331 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1332 0xf3000b00, 0xff800f10,
1333 "vqrdmulh%c.s%20-21S6\t%12-15,22R, %16-19,7R, %0-3,5R"},
1334 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1335 0xf2000000, 0xfe800f10,
1336 "vhadd%c.%24?us%20-21S2\t%12-15,22R, %16-19,7R, %0-3,5R"},
1337 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1338 0xf2000010, 0xfe800f10,
1339 "vqadd%c.%24?us%20-21S3\t%12-15,22R, %16-19,7R, %0-3,5R"},
1340 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1341 0xf2000100, 0xfe800f10,
1342 "vrhadd%c.%24?us%20-21S2\t%12-15,22R, %16-19,7R, %0-3,5R"},
1343 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1344 0xf2000200, 0xfe800f10,
1345 "vhsub%c.%24?us%20-21S2\t%12-15,22R, %16-19,7R, %0-3,5R"},
1346 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1347 0xf2000210, 0xfe800f10,
1348 "vqsub%c.%24?us%20-21S3\t%12-15,22R, %16-19,7R, %0-3,5R"},
1349 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1350 0xf2000300, 0xfe800f10,
1351 "vcgt%c.%24?us%20-21S2\t%12-15,22R, %16-19,7R, %0-3,5R"},
1352 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1353 0xf2000310, 0xfe800f10,
1354 "vcge%c.%24?us%20-21S2\t%12-15,22R, %16-19,7R, %0-3,5R"},
1355 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1356 0xf2000400, 0xfe800f10,
1357 "vshl%c.%24?us%20-21S3\t%12-15,22R, %0-3,5R, %16-19,7R"},
1358 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1359 0xf2000410, 0xfe800f10,
1360 "vqshl%c.%24?us%20-21S3\t%12-15,22R, %0-3,5R, %16-19,7R"},
1361 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1362 0xf2000500, 0xfe800f10,
1363 "vrshl%c.%24?us%20-21S3\t%12-15,22R, %0-3,5R, %16-19,7R"},
1364 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1365 0xf2000510, 0xfe800f10,
1366 "vqrshl%c.%24?us%20-21S3\t%12-15,22R, %0-3,5R, %16-19,7R"},
1367 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1368 0xf2000600, 0xfe800f10,
1369 "vmax%c.%24?us%20-21S2\t%12-15,22R, %16-19,7R, %0-3,5R"},
1370 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1371 0xf2000610, 0xfe800f10,
1372 "vmin%c.%24?us%20-21S2\t%12-15,22R, %16-19,7R, %0-3,5R"},
1373 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1374 0xf2000700, 0xfe800f10,
1375 "vabd%c.%24?us%20-21S2\t%12-15,22R, %16-19,7R, %0-3,5R"},
1376 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1377 0xf2000710, 0xfe800f10,
1378 "vaba%c.%24?us%20-21S2\t%12-15,22R, %16-19,7R, %0-3,5R"},
1379 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1380 0xf2000910, 0xfe800f10,
1381 "vmul%c.%24?pi%20-21S2\t%12-15,22R, %16-19,7R, %0-3,5R"},
1382 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1383 0xf2000a00, 0xfe800f10,
1384 "vpmax%c.%24?us%20-21S2\t%12-15,22R, %16-19,7R, %0-3,5R"},
1385 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1386 0xf2000a10, 0xfe800f10,
1387 "vpmin%c.%24?us%20-21S2\t%12-15,22R, %16-19,7R, %0-3,5R"},
1388 {ARM_FEATURE_COPROC (FPU_NEON_EXT_RDMA),
1389 0xf3000b10, 0xff800f10,
1390 "vqrdmlah%c.s%20-21S6\t%12-15,22R, %16-19,7R, %0-3,5R"},
1391 {ARM_FEATURE_COPROC (FPU_NEON_EXT_RDMA),
1392 0xf3000c10, 0xff800f10,
1393 "vqrdmlsh%c.s%20-21S6\t%12-15,22R, %16-19,7R, %0-3,5R"},
1394
1395 /* One register and an immediate value. */
1396 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1397 0xf2800e10, 0xfeb80fb0, "vmov%c.i8\t%12-15,22R, %E"},
1398 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1399 0xf2800e30, 0xfeb80fb0, "vmov%c.i64\t%12-15,22R, %E"},
1400 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1401 0xf2800f10, 0xfeb80fb0, "vmov%c.f32\t%12-15,22R, %E"},
1402 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1403 0xf2800810, 0xfeb80db0, "vmov%c.i16\t%12-15,22R, %E"},
1404 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1405 0xf2800830, 0xfeb80db0, "vmvn%c.i16\t%12-15,22R, %E"},
1406 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1407 0xf2800910, 0xfeb80db0, "vorr%c.i16\t%12-15,22R, %E"},
1408 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1409 0xf2800930, 0xfeb80db0, "vbic%c.i16\t%12-15,22R, %E"},
1410 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1411 0xf2800c10, 0xfeb80eb0, "vmov%c.i32\t%12-15,22R, %E"},
1412 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1413 0xf2800c30, 0xfeb80eb0, "vmvn%c.i32\t%12-15,22R, %E"},
1414 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1415 0xf2800110, 0xfeb809b0, "vorr%c.i32\t%12-15,22R, %E"},
1416 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1417 0xf2800130, 0xfeb809b0, "vbic%c.i32\t%12-15,22R, %E"},
1418 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1419 0xf2800010, 0xfeb808b0, "vmov%c.i32\t%12-15,22R, %E"},
1420 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1421 0xf2800030, 0xfeb808b0, "vmvn%c.i32\t%12-15,22R, %E"},
1422
1423 /* Two registers and a shift amount. */
1424 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1425 0xf2880810, 0xffb80fd0, "vshrn%c.i16\t%12-15,22D, %0-3,5Q, #%16-18e"},
1426 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1427 0xf2880850, 0xffb80fd0, "vrshrn%c.i16\t%12-15,22D, %0-3,5Q, #%16-18e"},
1428 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1429 0xf2880810, 0xfeb80fd0, "vqshrun%c.s16\t%12-15,22D, %0-3,5Q, #%16-18e"},
1430 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1431 0xf2880850, 0xfeb80fd0, "vqrshrun%c.s16\t%12-15,22D, %0-3,5Q, #%16-18e"},
1432 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1433 0xf2880910, 0xfeb80fd0, "vqshrn%c.%24?us16\t%12-15,22D, %0-3,5Q, #%16-18e"},
1434 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1435 0xf2880950, 0xfeb80fd0,
1436 "vqrshrn%c.%24?us16\t%12-15,22D, %0-3,5Q, #%16-18e"},
1437 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1438 0xf2880a10, 0xfeb80fd0, "vshll%c.%24?us8\t%12-15,22Q, %0-3,5D, #%16-18d"},
1439 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1440 0xf2900810, 0xffb00fd0, "vshrn%c.i32\t%12-15,22D, %0-3,5Q, #%16-19e"},
1441 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1442 0xf2900850, 0xffb00fd0, "vrshrn%c.i32\t%12-15,22D, %0-3,5Q, #%16-19e"},
1443 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1444 0xf2880510, 0xffb80f90, "vshl%c.%24?us8\t%12-15,22R, %0-3,5R, #%16-18d"},
1445 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1446 0xf3880410, 0xffb80f90, "vsri%c.8\t%12-15,22R, %0-3,5R, #%16-18e"},
1447 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1448 0xf3880510, 0xffb80f90, "vsli%c.8\t%12-15,22R, %0-3,5R, #%16-18d"},
1449 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1450 0xf3880610, 0xffb80f90, "vqshlu%c.s8\t%12-15,22R, %0-3,5R, #%16-18d"},
1451 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1452 0xf2900810, 0xfeb00fd0, "vqshrun%c.s32\t%12-15,22D, %0-3,5Q, #%16-19e"},
1453 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1454 0xf2900850, 0xfeb00fd0, "vqrshrun%c.s32\t%12-15,22D, %0-3,5Q, #%16-19e"},
1455 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1456 0xf2900910, 0xfeb00fd0, "vqshrn%c.%24?us32\t%12-15,22D, %0-3,5Q, #%16-19e"},
1457 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1458 0xf2900950, 0xfeb00fd0,
1459 "vqrshrn%c.%24?us32\t%12-15,22D, %0-3,5Q, #%16-19e"},
1460 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1461 0xf2900a10, 0xfeb00fd0, "vshll%c.%24?us16\t%12-15,22Q, %0-3,5D, #%16-19d"},
1462 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1463 0xf2880010, 0xfeb80f90, "vshr%c.%24?us8\t%12-15,22R, %0-3,5R, #%16-18e"},
1464 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1465 0xf2880110, 0xfeb80f90, "vsra%c.%24?us8\t%12-15,22R, %0-3,5R, #%16-18e"},
1466 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1467 0xf2880210, 0xfeb80f90, "vrshr%c.%24?us8\t%12-15,22R, %0-3,5R, #%16-18e"},
1468 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1469 0xf2880310, 0xfeb80f90, "vrsra%c.%24?us8\t%12-15,22R, %0-3,5R, #%16-18e"},
1470 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1471 0xf2880710, 0xfeb80f90, "vqshl%c.%24?us8\t%12-15,22R, %0-3,5R, #%16-18d"},
1472 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1473 0xf2a00810, 0xffa00fd0, "vshrn%c.i64\t%12-15,22D, %0-3,5Q, #%16-20e"},
1474 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1475 0xf2a00850, 0xffa00fd0, "vrshrn%c.i64\t%12-15,22D, %0-3,5Q, #%16-20e"},
1476 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1477 0xf2900510, 0xffb00f90, "vshl%c.%24?us16\t%12-15,22R, %0-3,5R, #%16-19d"},
1478 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1479 0xf3900410, 0xffb00f90, "vsri%c.16\t%12-15,22R, %0-3,5R, #%16-19e"},
1480 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1481 0xf3900510, 0xffb00f90, "vsli%c.16\t%12-15,22R, %0-3,5R, #%16-19d"},
1482 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1483 0xf3900610, 0xffb00f90, "vqshlu%c.s16\t%12-15,22R, %0-3,5R, #%16-19d"},
1484 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1485 0xf2a00a10, 0xfea00fd0, "vshll%c.%24?us32\t%12-15,22Q, %0-3,5D, #%16-20d"},
1486 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1487 0xf2900010, 0xfeb00f90, "vshr%c.%24?us16\t%12-15,22R, %0-3,5R, #%16-19e"},
1488 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1489 0xf2900110, 0xfeb00f90, "vsra%c.%24?us16\t%12-15,22R, %0-3,5R, #%16-19e"},
1490 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1491 0xf2900210, 0xfeb00f90, "vrshr%c.%24?us16\t%12-15,22R, %0-3,5R, #%16-19e"},
1492 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1493 0xf2900310, 0xfeb00f90, "vrsra%c.%24?us16\t%12-15,22R, %0-3,5R, #%16-19e"},
1494 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1495 0xf2900710, 0xfeb00f90, "vqshl%c.%24?us16\t%12-15,22R, %0-3,5R, #%16-19d"},
1496 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1497 0xf2a00810, 0xfea00fd0, "vqshrun%c.s64\t%12-15,22D, %0-3,5Q, #%16-20e"},
1498 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1499 0xf2a00850, 0xfea00fd0, "vqrshrun%c.s64\t%12-15,22D, %0-3,5Q, #%16-20e"},
1500 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1501 0xf2a00910, 0xfea00fd0, "vqshrn%c.%24?us64\t%12-15,22D, %0-3,5Q, #%16-20e"},
1502 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1503 0xf2a00950, 0xfea00fd0,
1504 "vqrshrn%c.%24?us64\t%12-15,22D, %0-3,5Q, #%16-20e"},
1505 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1506 0xf2a00510, 0xffa00f90, "vshl%c.%24?us32\t%12-15,22R, %0-3,5R, #%16-20d"},
1507 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1508 0xf3a00410, 0xffa00f90, "vsri%c.32\t%12-15,22R, %0-3,5R, #%16-20e"},
1509 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1510 0xf3a00510, 0xffa00f90, "vsli%c.32\t%12-15,22R, %0-3,5R, #%16-20d"},
1511 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1512 0xf3a00610, 0xffa00f90, "vqshlu%c.s32\t%12-15,22R, %0-3,5R, #%16-20d"},
1513 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1514 0xf2a00010, 0xfea00f90, "vshr%c.%24?us32\t%12-15,22R, %0-3,5R, #%16-20e"},
1515 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1516 0xf2a00110, 0xfea00f90, "vsra%c.%24?us32\t%12-15,22R, %0-3,5R, #%16-20e"},
1517 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1518 0xf2a00210, 0xfea00f90, "vrshr%c.%24?us32\t%12-15,22R, %0-3,5R, #%16-20e"},
1519 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1520 0xf2a00310, 0xfea00f90, "vrsra%c.%24?us32\t%12-15,22R, %0-3,5R, #%16-20e"},
1521 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1522 0xf2a00710, 0xfea00f90, "vqshl%c.%24?us32\t%12-15,22R, %0-3,5R, #%16-20d"},
1523 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1524 0xf2800590, 0xff800f90, "vshl%c.%24?us64\t%12-15,22R, %0-3,5R, #%16-21d"},
1525 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1526 0xf3800490, 0xff800f90, "vsri%c.64\t%12-15,22R, %0-3,5R, #%16-21e"},
1527 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1528 0xf3800590, 0xff800f90, "vsli%c.64\t%12-15,22R, %0-3,5R, #%16-21d"},
1529 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1530 0xf3800690, 0xff800f90, "vqshlu%c.s64\t%12-15,22R, %0-3,5R, #%16-21d"},
1531 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1532 0xf2800090, 0xfe800f90, "vshr%c.%24?us64\t%12-15,22R, %0-3,5R, #%16-21e"},
1533 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1534 0xf2800190, 0xfe800f90, "vsra%c.%24?us64\t%12-15,22R, %0-3,5R, #%16-21e"},
1535 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1536 0xf2800290, 0xfe800f90, "vrshr%c.%24?us64\t%12-15,22R, %0-3,5R, #%16-21e"},
1537 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1538 0xf2800390, 0xfe800f90, "vrsra%c.%24?us64\t%12-15,22R, %0-3,5R, #%16-21e"},
1539 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1540 0xf2800790, 0xfe800f90, "vqshl%c.%24?us64\t%12-15,22R, %0-3,5R, #%16-21d"},
1541 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1542 0xf2a00e10, 0xfea00e90,
1543 "vcvt%c.%24,8?usff32.%24,8?ffus32\t%12-15,22R, %0-3,5R, #%16-20e"},
1544 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST),
1545 0xf2a00c10, 0xfea00e90,
1546 "vcvt%c.%24,8?usff16.%24,8?ffus16\t%12-15,22R, %0-3,5R, #%16-20e"},
1547
1548 /* Three registers of different lengths. */
1549 {ARM_FEATURE_COPROC (FPU_CRYPTO_EXT_ARMV8),
1550 0xf2a00e00, 0xfeb00f50, "vmull%c.p64\t%12-15,22Q, %16-19,7D, %0-3,5D"},
1551 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1552 0xf2800e00, 0xfea00f50, "vmull%c.p%20S0\t%12-15,22Q, %16-19,7D, %0-3,5D"},
1553 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1554 0xf2800400, 0xff800f50,
1555 "vaddhn%c.i%20-21T2\t%12-15,22D, %16-19,7Q, %0-3,5Q"},
1556 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1557 0xf2800600, 0xff800f50,
1558 "vsubhn%c.i%20-21T2\t%12-15,22D, %16-19,7Q, %0-3,5Q"},
1559 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1560 0xf2800900, 0xff800f50,
1561 "vqdmlal%c.s%20-21S6\t%12-15,22Q, %16-19,7D, %0-3,5D"},
1562 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1563 0xf2800b00, 0xff800f50,
1564 "vqdmlsl%c.s%20-21S6\t%12-15,22Q, %16-19,7D, %0-3,5D"},
1565 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1566 0xf2800d00, 0xff800f50,
1567 "vqdmull%c.s%20-21S6\t%12-15,22Q, %16-19,7D, %0-3,5D"},
1568 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1569 0xf3800400, 0xff800f50,
1570 "vraddhn%c.i%20-21T2\t%12-15,22D, %16-19,7Q, %0-3,5Q"},
1571 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1572 0xf3800600, 0xff800f50,
1573 "vrsubhn%c.i%20-21T2\t%12-15,22D, %16-19,7Q, %0-3,5Q"},
1574 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1575 0xf2800000, 0xfe800f50,
1576 "vaddl%c.%24?us%20-21S2\t%12-15,22Q, %16-19,7D, %0-3,5D"},
1577 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1578 0xf2800100, 0xfe800f50,
1579 "vaddw%c.%24?us%20-21S2\t%12-15,22Q, %16-19,7Q, %0-3,5D"},
1580 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1581 0xf2800200, 0xfe800f50,
1582 "vsubl%c.%24?us%20-21S2\t%12-15,22Q, %16-19,7D, %0-3,5D"},
1583 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1584 0xf2800300, 0xfe800f50,
1585 "vsubw%c.%24?us%20-21S2\t%12-15,22Q, %16-19,7Q, %0-3,5D"},
1586 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1587 0xf2800500, 0xfe800f50,
1588 "vabal%c.%24?us%20-21S2\t%12-15,22Q, %16-19,7D, %0-3,5D"},
1589 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1590 0xf2800700, 0xfe800f50,
1591 "vabdl%c.%24?us%20-21S2\t%12-15,22Q, %16-19,7D, %0-3,5D"},
1592 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1593 0xf2800800, 0xfe800f50,
1594 "vmlal%c.%24?us%20-21S2\t%12-15,22Q, %16-19,7D, %0-3,5D"},
1595 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1596 0xf2800a00, 0xfe800f50,
1597 "vmlsl%c.%24?us%20-21S2\t%12-15,22Q, %16-19,7D, %0-3,5D"},
1598 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1599 0xf2800c00, 0xfe800f50,
1600 "vmull%c.%24?us%20-21S2\t%12-15,22Q, %16-19,7D, %0-3,5D"},
1601
1602 /* Two registers and a scalar. */
1603 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1604 0xf2800040, 0xff800f50, "vmla%c.i%20-21S6\t%12-15,22D, %16-19,7D, %D"},
1605 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1606 0xf2800140, 0xff900f50, "vmla%c.f%20-21Sa\t%12-15,22D, %16-19,7D, %D"},
1607 {ARM_FEATURE_COPROC (ARM_EXT2_FP16_INST),
1608 0xf2900140, 0xffb00f50, "vmla%c.f16\t%12-15,22D, %16-19,7D, %D"},
1609 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1610 0xf2800340, 0xff800f50, "vqdmlal%c.s%20-21S6\t%12-15,22Q, %16-19,7D, %D"},
1611 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1612 0xf2800440, 0xff800f50, "vmls%c.i%20-21S6\t%12-15,22D, %16-19,7D, %D"},
1613 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1614 0xf2800540, 0xff900f50, "vmls%c.f%20-21S6\t%12-15,22D, %16-19,7D, %D"},
1615 {ARM_FEATURE_COPROC (ARM_EXT2_FP16_INST),
1616 0xf2900540, 0xffb00f50, "vmls%c.f16\t%12-15,22D, %16-19,7D, %D"},
1617 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1618 0xf2800740, 0xff800f50, "vqdmlsl%c.s%20-21S6\t%12-15,22Q, %16-19,7D, %D"},
1619 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1620 0xf2800840, 0xff800f50, "vmul%c.i%20-21S6\t%12-15,22D, %16-19,7D, %D"},
1621 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1622 0xf2800940, 0xff900f50, "vmul%c.f%20-21Sa\t%12-15,22D, %16-19,7D, %D"},
1623 {ARM_FEATURE_COPROC (ARM_EXT2_FP16_INST),
1624 0xf2900940, 0xffb00f50, "vmul%c.f16\t%12-15,22D, %16-19,7D, %D"},
1625 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1626 0xf2800b40, 0xff800f50, "vqdmull%c.s%20-21S6\t%12-15,22Q, %16-19,7D, %D"},
1627 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1628 0xf2800c40, 0xff800f50, "vqdmulh%c.s%20-21S6\t%12-15,22D, %16-19,7D, %D"},
1629 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1630 0xf2800d40, 0xff800f50, "vqrdmulh%c.s%20-21S6\t%12-15,22D, %16-19,7D, %D"},
1631 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1632 0xf3800040, 0xff800f50, "vmla%c.i%20-21S6\t%12-15,22Q, %16-19,7Q, %D"},
1633 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1634 0xf3800140, 0xff900f50, "vmla%c.f%20-21Sa\t%12-15,22Q, %16-19,7Q, %D"},
1635 {ARM_FEATURE_COPROC (ARM_EXT2_FP16_INST),
1636 0xf3900140, 0xffb00f50, "vmla%c.f16\t%12-15,22Q, %16-19,7Q, %D"},
1637 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1638 0xf3800440, 0xff800f50, "vmls%c.i%20-21S6\t%12-15,22Q, %16-19,7Q, %D"},
1639 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1640 0xf3800540, 0xff900f50, "vmls%c.f%20-21Sa\t%12-15,22Q, %16-19,7Q, %D"},
1641 {ARM_FEATURE_COPROC (ARM_EXT2_FP16_INST),
1642 0xf3900540, 0xffb00f50, "vmls%c.f16\t%12-15,22Q, %16-19,7Q, %D"},
1643 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1644 0xf3800840, 0xff800f50, "vmul%c.i%20-21S6\t%12-15,22Q, %16-19,7Q, %D"},
1645 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1646 0xf3800940, 0xff900f50, "vmul%c.f%20-21Sa\t%12-15,22Q, %16-19,7Q, %D"},
1647 {ARM_FEATURE_COPROC (ARM_EXT2_FP16_INST),
1648 0xf3900940, 0xffb00f50, "vmul%c.f16\t%12-15,22Q, %16-19,7Q, %D"},
1649 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1650 0xf3800c40, 0xff800f50, "vqdmulh%c.s%20-21S6\t%12-15,22Q, %16-19,7Q, %D"},
1651 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1652 0xf3800d40, 0xff800f50, "vqrdmulh%c.s%20-21S6\t%12-15,22Q, %16-19,7Q, %D"},
1653 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1654 0xf2800240, 0xfe800f50,
1655 "vmlal%c.%24?us%20-21S6\t%12-15,22Q, %16-19,7D, %D"},
1656 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1657 0xf2800640, 0xfe800f50,
1658 "vmlsl%c.%24?us%20-21S6\t%12-15,22Q, %16-19,7D, %D"},
1659 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1660 0xf2800a40, 0xfe800f50,
1661 "vmull%c.%24?us%20-21S6\t%12-15,22Q, %16-19,7D, %D"},
1662 {ARM_FEATURE_COPROC (FPU_NEON_EXT_RDMA),
1663 0xf2800e40, 0xff800f50,
1664 "vqrdmlah%c.s%20-21S6\t%12-15,22D, %16-19,7D, %D"},
1665 {ARM_FEATURE_COPROC (FPU_NEON_EXT_RDMA),
1666 0xf2800f40, 0xff800f50,
1667 "vqrdmlsh%c.s%20-21S6\t%12-15,22D, %16-19,7D, %D"},
1668 {ARM_FEATURE_COPROC (FPU_NEON_EXT_RDMA),
1669 0xf3800e40, 0xff800f50,
1670 "vqrdmlah%c.s%20-21S6\t%12-15,22Q, %16-19,7Q, %D"},
1671 {ARM_FEATURE_COPROC (FPU_NEON_EXT_RDMA),
1672 0xf3800f40, 0xff800f50,
1673 "vqrdmlsh%c.s%20-21S6\t%12-15,22Q, %16-19,7Q, %D"
1674 },
1675
1676 /* Element and structure load/store. */
1677 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1678 0xf4a00fc0, 0xffb00fc0, "vld4%c.32\t%C"},
1679 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1680 0xf4a00c00, 0xffb00f00, "vld1%c.%6-7S2\t%C"},
1681 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1682 0xf4a00d00, 0xffb00f00, "vld2%c.%6-7S2\t%C"},
1683 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1684 0xf4a00e00, 0xffb00f00, "vld3%c.%6-7S2\t%C"},
1685 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1686 0xf4a00f00, 0xffb00f00, "vld4%c.%6-7S2\t%C"},
1687 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1688 0xf4000200, 0xff900f00, "v%21?ls%21?dt1%c.%6-7S3\t%A"},
1689 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1690 0xf4000300, 0xff900f00, "v%21?ls%21?dt2%c.%6-7S2\t%A"},
1691 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1692 0xf4000400, 0xff900f00, "v%21?ls%21?dt3%c.%6-7S2\t%A"},
1693 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1694 0xf4000500, 0xff900f00, "v%21?ls%21?dt3%c.%6-7S2\t%A"},
1695 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1696 0xf4000600, 0xff900f00, "v%21?ls%21?dt1%c.%6-7S3\t%A"},
1697 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1698 0xf4000700, 0xff900f00, "v%21?ls%21?dt1%c.%6-7S3\t%A"},
1699 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1700 0xf4000800, 0xff900f00, "v%21?ls%21?dt2%c.%6-7S2\t%A"},
1701 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1702 0xf4000900, 0xff900f00, "v%21?ls%21?dt2%c.%6-7S2\t%A"},
1703 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1704 0xf4000a00, 0xff900f00, "v%21?ls%21?dt1%c.%6-7S3\t%A"},
1705 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1706 0xf4000000, 0xff900e00, "v%21?ls%21?dt4%c.%6-7S2\t%A"},
1707 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1708 0xf4800000, 0xff900300, "v%21?ls%21?dt1%c.%10-11S2\t%B"},
1709 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1710 0xf4800100, 0xff900300, "v%21?ls%21?dt2%c.%10-11S2\t%B"},
1711 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1712 0xf4800200, 0xff900300, "v%21?ls%21?dt3%c.%10-11S2\t%B"},
1713 {ARM_FEATURE_COPROC (FPU_NEON_EXT_V1),
1714 0xf4800300, 0xff900300, "v%21?ls%21?dt4%c.%10-11S2\t%B"},
1715
1716 {ARM_FEATURE_CORE_LOW (0), 0 ,0, 0}
1717 };
1718
1719 /* Opcode tables: ARM, 16-bit Thumb, 32-bit Thumb. All three are partially
1720 ordered: they must be searched linearly from the top to obtain a correct
1721 match. */
1722
1723 /* print_insn_arm recognizes the following format control codes:
1724
1725 %% %
1726
1727 %a print address for ldr/str instruction
1728 %s print address for ldr/str halfword/signextend instruction
1729 %S like %s but allow UNPREDICTABLE addressing
1730 %b print branch destination
1731 %c print condition code (always bits 28-31)
1732 %m print register mask for ldm/stm instruction
1733 %o print operand2 (immediate or register + shift)
1734 %p print 'p' iff bits 12-15 are 15
1735 %t print 't' iff bit 21 set and bit 24 clear
1736 %B print arm BLX(1) destination
1737 %C print the PSR sub type.
1738 %U print barrier type.
1739 %P print address for pli instruction.
1740
1741 %<bitfield>r print as an ARM register
1742 %<bitfield>T print as an ARM register + 1
1743 %<bitfield>R as %r but r15 is UNPREDICTABLE
1744 %<bitfield>{r|R}u as %{r|R} but if matches the other %u field then is UNPREDICTABLE
1745 %<bitfield>{r|R}U as %{r|R} but if matches the other %U field then is UNPREDICTABLE
1746 %<bitfield>d print the bitfield in decimal
1747 %<bitfield>W print the bitfield plus one in decimal
1748 %<bitfield>x print the bitfield in hex
1749 %<bitfield>X print the bitfield as 1 hex digit without leading "0x"
1750
1751 %<bitfield>'c print specified char iff bitfield is all ones
1752 %<bitfield>`c print specified char iff bitfield is all zeroes
1753 %<bitfield>?ab... select from array of values in big endian order
1754
1755 %e print arm SMI operand (bits 0..7,8..19).
1756 %E print the LSB and WIDTH fields of a BFI or BFC instruction.
1757 %V print the 16-bit immediate field of a MOVT or MOVW instruction.
1758 %R print the SPSR/CPSR or banked register of an MRS. */
1759
1760 static const struct opcode32 arm_opcodes[] =
1761 {
1762 /* ARM instructions. */
1763 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
1764 0xe1a00000, 0xffffffff, "nop\t\t\t; (mov r0, r0)"},
1765 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
1766 0xe7f000f0, 0xfff000f0, "udf\t#%e"},
1767
1768 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T | ARM_EXT_V5),
1769 0x012FFF10, 0x0ffffff0, "bx%c\t%0-3r"},
1770 {ARM_FEATURE_CORE_LOW (ARM_EXT_V2),
1771 0x00000090, 0x0fe000f0, "mul%20's%c\t%16-19R, %0-3R, %8-11R"},
1772 {ARM_FEATURE_CORE_LOW (ARM_EXT_V2),
1773 0x00200090, 0x0fe000f0, "mla%20's%c\t%16-19R, %0-3R, %8-11R, %12-15R"},
1774 {ARM_FEATURE_CORE_LOW (ARM_EXT_V2S),
1775 0x01000090, 0x0fb00ff0, "swp%22'b%c\t%12-15RU, %0-3Ru, [%16-19RuU]"},
1776 {ARM_FEATURE_CORE_LOW (ARM_EXT_V3M),
1777 0x00800090, 0x0fa000f0,
1778 "%22?sumull%20's%c\t%12-15Ru, %16-19Ru, %0-3R, %8-11R"},
1779 {ARM_FEATURE_CORE_LOW (ARM_EXT_V3M),
1780 0x00a00090, 0x0fa000f0,
1781 "%22?sumlal%20's%c\t%12-15Ru, %16-19Ru, %0-3R, %8-11R"},
1782
1783 /* V8.2 RAS extension instructions. */
1784 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_RAS),
1785 0xe320f010, 0xffffffff, "esb"},
1786
1787 /* V8 instructions. */
1788 {ARM_FEATURE_CORE_LOW (ARM_EXT_V8),
1789 0x0320f005, 0x0fffffff, "sevl"},
1790 /* Defined in V8 but is in NOP space so available to all arch. */
1791 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
1792 0xe1000070, 0xfff000f0, "hlt\t0x%16-19X%12-15X%8-11X%0-3X"},
1793 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_ATOMICS),
1794 0x01800e90, 0x0ff00ff0, "stlex%c\t%12-15r, %0-3r, [%16-19R]"},
1795 {ARM_FEATURE_CORE_LOW (ARM_EXT2_ATOMICS),
1796 0x01900e9f, 0x0ff00fff, "ldaex%c\t%12-15r, [%16-19R]"},
1797 {ARM_FEATURE_CORE_LOW (ARM_EXT_V8),
1798 0x01a00e90, 0x0ff00ff0, "stlexd%c\t%12-15r, %0-3r, %0-3T, [%16-19R]"},
1799 {ARM_FEATURE_CORE_LOW (ARM_EXT_V8),
1800 0x01b00e9f, 0x0ff00fff, "ldaexd%c\t%12-15r, %12-15T, [%16-19R]"},
1801 {ARM_FEATURE_CORE_LOW (ARM_EXT2_ATOMICS),
1802 0x01c00e90, 0x0ff00ff0, "stlexb%c\t%12-15r, %0-3r, [%16-19R]"},
1803 {ARM_FEATURE_CORE_LOW (ARM_EXT2_ATOMICS),
1804 0x01d00e9f, 0x0ff00fff, "ldaexb%c\t%12-15r, [%16-19R]"},
1805 {ARM_FEATURE_CORE_LOW (ARM_EXT2_ATOMICS),
1806 0x01e00e90, 0x0ff00ff0, "stlexh%c\t%12-15r, %0-3r, [%16-19R]"},
1807 {ARM_FEATURE_CORE_LOW (ARM_EXT2_ATOMICS),
1808 0x01f00e9f, 0x0ff00fff, "ldaexh%c\t%12-15r, [%16-19R]"},
1809 {ARM_FEATURE_CORE_LOW (ARM_EXT2_ATOMICS),
1810 0x0180fc90, 0x0ff0fff0, "stl%c\t%0-3r, [%16-19R]"},
1811 {ARM_FEATURE_CORE_LOW (ARM_EXT2_ATOMICS),
1812 0x01900c9f, 0x0ff00fff, "lda%c\t%12-15r, [%16-19R]"},
1813 {ARM_FEATURE_CORE_LOW (ARM_EXT2_ATOMICS),
1814 0x01c0fc90, 0x0ff0fff0, "stlb%c\t%0-3r, [%16-19R]"},
1815 {ARM_FEATURE_CORE_LOW (ARM_EXT2_ATOMICS),
1816 0x01d00c9f, 0x0ff00fff, "ldab%c\t%12-15r, [%16-19R]"},
1817 {ARM_FEATURE_CORE_LOW (ARM_EXT2_ATOMICS),
1818 0x01e0fc90, 0x0ff0fff0, "stlh%c\t%0-3r, [%16-19R]"},
1819 {ARM_FEATURE_CORE_LOW (ARM_EXT2_ATOMICS),
1820 0x01f00c9f, 0x0ff00fff, "ldah%c\t%12-15r, [%16-19R]"},
1821 /* CRC32 instructions. */
1822 {ARM_FEATURE_COPROC (CRC_EXT_ARMV8),
1823 0xe1000040, 0xfff00ff0, "crc32b\t%12-15R, %16-19R, %0-3R"},
1824 {ARM_FEATURE_COPROC (CRC_EXT_ARMV8),
1825 0xe1200040, 0xfff00ff0, "crc32h\t%12-15R, %16-19R, %0-3R"},
1826 {ARM_FEATURE_COPROC (CRC_EXT_ARMV8),
1827 0xe1400040, 0xfff00ff0, "crc32w\t%12-15R, %16-19R, %0-3R"},
1828 {ARM_FEATURE_COPROC (CRC_EXT_ARMV8),
1829 0xe1000240, 0xfff00ff0, "crc32cb\t%12-15R, %16-19R, %0-3R"},
1830 {ARM_FEATURE_COPROC (CRC_EXT_ARMV8),
1831 0xe1200240, 0xfff00ff0, "crc32ch\t%12-15R, %16-19R, %0-3R"},
1832 {ARM_FEATURE_COPROC (CRC_EXT_ARMV8),
1833 0xe1400240, 0xfff00ff0, "crc32cw\t%12-15R, %16-19R, %0-3R"},
1834
1835 /* Privileged Access Never extension instructions. */
1836 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_PAN),
1837 0xf1100000, 0xfffffdff, "setpan\t#%9-9d"},
1838
1839 /* Virtualization Extension instructions. */
1840 {ARM_FEATURE_CORE_LOW (ARM_EXT_VIRT), 0x0160006e, 0x0fffffff, "eret%c"},
1841 {ARM_FEATURE_CORE_LOW (ARM_EXT_VIRT), 0x01400070, 0x0ff000f0, "hvc%c\t%e"},
1842
1843 /* Integer Divide Extension instructions. */
1844 {ARM_FEATURE_CORE_LOW (ARM_EXT_ADIV),
1845 0x0710f010, 0x0ff0f0f0, "sdiv%c\t%16-19r, %0-3r, %8-11r"},
1846 {ARM_FEATURE_CORE_LOW (ARM_EXT_ADIV),
1847 0x0730f010, 0x0ff0f0f0, "udiv%c\t%16-19r, %0-3r, %8-11r"},
1848
1849 /* MP Extension instructions. */
1850 {ARM_FEATURE_CORE_LOW (ARM_EXT_MP), 0xf410f000, 0xfc70f000, "pldw\t%a"},
1851
1852 /* Speculation Barriers. */
1853 {ARM_FEATURE_CORE_LOW (ARM_EXT_V3), 0xe320f014, 0xffffffff, "csdb"},
1854 {ARM_FEATURE_CORE_LOW (ARM_EXT_V3), 0xf57ff040, 0xffffffff, "ssbb"},
1855 {ARM_FEATURE_CORE_LOW (ARM_EXT_V3), 0xf57ff044, 0xffffffff, "pssbb"},
1856
1857 /* V7 instructions. */
1858 {ARM_FEATURE_CORE_LOW (ARM_EXT_V7), 0xf450f000, 0xfd70f000, "pli\t%P"},
1859 {ARM_FEATURE_CORE_LOW (ARM_EXT_V7), 0x0320f0f0, 0x0ffffff0, "dbg%c\t#%0-3d"},
1860 {ARM_FEATURE_CORE_LOW (ARM_EXT_V8), 0xf57ff051, 0xfffffff3, "dmb\t%U"},
1861 {ARM_FEATURE_CORE_LOW (ARM_EXT_V8), 0xf57ff041, 0xfffffff3, "dsb\t%U"},
1862 {ARM_FEATURE_CORE_LOW (ARM_EXT_V7), 0xf57ff050, 0xfffffff0, "dmb\t%U"},
1863 {ARM_FEATURE_CORE_LOW (ARM_EXT_V7), 0xf57ff040, 0xfffffff0, "dsb\t%U"},
1864 {ARM_FEATURE_CORE_LOW (ARM_EXT_V7), 0xf57ff060, 0xfffffff0, "isb\t%U"},
1865 {ARM_FEATURE_CORE_LOW (ARM_EXT_V7),
1866 0x0320f000, 0x0fffffff, "nop%c\t{%0-7d}"},
1867
1868 /* ARM V6T2 instructions. */
1869 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
1870 0x07c0001f, 0x0fe0007f, "bfc%c\t%12-15R, %E"},
1871 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
1872 0x07c00010, 0x0fe00070, "bfi%c\t%12-15R, %0-3r, %E"},
1873 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
1874 0x00600090, 0x0ff000f0, "mls%c\t%16-19R, %0-3R, %8-11R, %12-15R"},
1875 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
1876 0x002000b0, 0x0f3000f0, "strht%c\t%12-15R, %S"},
1877
1878 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
1879 0x00300090, 0x0f3000f0, UNDEFINED_INSTRUCTION },
1880 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
1881 0x00300090, 0x0f300090, "ldr%6's%5?hbt%c\t%12-15R, %S"},
1882
1883 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_V6T2_V8M),
1884 0x03000000, 0x0ff00000, "movw%c\t%12-15R, %V"},
1885 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_V6T2_V8M),
1886 0x03400000, 0x0ff00000, "movt%c\t%12-15R, %V"},
1887 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
1888 0x06ff0f30, 0x0fff0ff0, "rbit%c\t%12-15R, %0-3R"},
1889 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
1890 0x07a00050, 0x0fa00070, "%22?usbfx%c\t%12-15r, %0-3r, #%7-11d, #%16-20W"},
1891
1892 /* ARM Security extension instructions. */
1893 {ARM_FEATURE_CORE_LOW (ARM_EXT_SEC),
1894 0x01600070, 0x0ff000f0, "smc%c\t%e"},
1895
1896 /* ARM V6K instructions. */
1897 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6K),
1898 0xf57ff01f, 0xffffffff, "clrex"},
1899 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6K),
1900 0x01d00f9f, 0x0ff00fff, "ldrexb%c\t%12-15R, [%16-19R]"},
1901 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6K),
1902 0x01b00f9f, 0x0ff00fff, "ldrexd%c\t%12-15r, [%16-19R]"},
1903 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6K),
1904 0x01f00f9f, 0x0ff00fff, "ldrexh%c\t%12-15R, [%16-19R]"},
1905 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6K),
1906 0x01c00f90, 0x0ff00ff0, "strexb%c\t%12-15R, %0-3R, [%16-19R]"},
1907 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6K),
1908 0x01a00f90, 0x0ff00ff0, "strexd%c\t%12-15R, %0-3r, [%16-19R]"},
1909 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6K),
1910 0x01e00f90, 0x0ff00ff0, "strexh%c\t%12-15R, %0-3R, [%16-19R]"},
1911
1912 /* ARMv8.5-A instructions. */
1913 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_SB), 0xf57ff070, 0xffffffff, "sb"},
1914
1915 /* ARM V6K NOP hints. */
1916 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6K),
1917 0x0320f001, 0x0fffffff, "yield%c"},
1918 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6K),
1919 0x0320f002, 0x0fffffff, "wfe%c"},
1920 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6K),
1921 0x0320f003, 0x0fffffff, "wfi%c"},
1922 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6K),
1923 0x0320f004, 0x0fffffff, "sev%c"},
1924 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6K),
1925 0x0320f000, 0x0fffff00, "nop%c\t{%0-7d}"},
1926
1927 /* ARM V6 instructions. */
1928 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
1929 0xf1080000, 0xfffffe3f, "cpsie\t%8'a%7'i%6'f"},
1930 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
1931 0xf10a0000, 0xfffffe20, "cpsie\t%8'a%7'i%6'f,#%0-4d"},
1932 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
1933 0xf10C0000, 0xfffffe3f, "cpsid\t%8'a%7'i%6'f"},
1934 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
1935 0xf10e0000, 0xfffffe20, "cpsid\t%8'a%7'i%6'f,#%0-4d"},
1936 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
1937 0xf1000000, 0xfff1fe20, "cps\t#%0-4d"},
1938 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
1939 0x06800010, 0x0ff00ff0, "pkhbt%c\t%12-15R, %16-19R, %0-3R"},
1940 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
1941 0x06800010, 0x0ff00070, "pkhbt%c\t%12-15R, %16-19R, %0-3R, lsl #%7-11d"},
1942 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
1943 0x06800050, 0x0ff00ff0, "pkhtb%c\t%12-15R, %16-19R, %0-3R, asr #32"},
1944 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
1945 0x06800050, 0x0ff00070, "pkhtb%c\t%12-15R, %16-19R, %0-3R, asr #%7-11d"},
1946 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
1947 0x01900f9f, 0x0ff00fff, "ldrex%c\tr%12-15d, [%16-19R]"},
1948 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
1949 0x06200f10, 0x0ff00ff0, "qadd16%c\t%12-15R, %16-19R, %0-3R"},
1950 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
1951 0x06200f90, 0x0ff00ff0, "qadd8%c\t%12-15R, %16-19R, %0-3R"},
1952 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
1953 0x06200f30, 0x0ff00ff0, "qasx%c\t%12-15R, %16-19R, %0-3R"},
1954 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
1955 0x06200f70, 0x0ff00ff0, "qsub16%c\t%12-15R, %16-19R, %0-3R"},
1956 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
1957 0x06200ff0, 0x0ff00ff0, "qsub8%c\t%12-15R, %16-19R, %0-3R"},
1958 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
1959 0x06200f50, 0x0ff00ff0, "qsax%c\t%12-15R, %16-19R, %0-3R"},
1960 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
1961 0x06100f10, 0x0ff00ff0, "sadd16%c\t%12-15R, %16-19R, %0-3R"},
1962 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
1963 0x06100f90, 0x0ff00ff0, "sadd8%c\t%12-15R, %16-19R, %0-3R"},
1964 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
1965 0x06100f30, 0x0ff00ff0, "sasx%c\t%12-15R, %16-19R, %0-3R"},
1966 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
1967 0x06300f10, 0x0ff00ff0, "shadd16%c\t%12-15R, %16-19R, %0-3R"},
1968 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
1969 0x06300f90, 0x0ff00ff0, "shadd8%c\t%12-15R, %16-19R, %0-3R"},
1970 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
1971 0x06300f30, 0x0ff00ff0, "shasx%c\t%12-15R, %16-19R, %0-3R"},
1972 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
1973 0x06300f70, 0x0ff00ff0, "shsub16%c\t%12-15R, %16-19R, %0-3R"},
1974 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
1975 0x06300ff0, 0x0ff00ff0, "shsub8%c\t%12-15R, %16-19R, %0-3R"},
1976 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
1977 0x06300f50, 0x0ff00ff0, "shsax%c\t%12-15R, %16-19R, %0-3R"},
1978 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
1979 0x06100f70, 0x0ff00ff0, "ssub16%c\t%12-15R, %16-19R, %0-3R"},
1980 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
1981 0x06100ff0, 0x0ff00ff0, "ssub8%c\t%12-15R, %16-19R, %0-3R"},
1982 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
1983 0x06100f50, 0x0ff00ff0, "ssax%c\t%12-15R, %16-19R, %0-3R"},
1984 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
1985 0x06500f10, 0x0ff00ff0, "uadd16%c\t%12-15R, %16-19R, %0-3R"},
1986 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
1987 0x06500f90, 0x0ff00ff0, "uadd8%c\t%12-15R, %16-19R, %0-3R"},
1988 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
1989 0x06500f30, 0x0ff00ff0, "uasx%c\t%12-15R, %16-19R, %0-3R"},
1990 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
1991 0x06700f10, 0x0ff00ff0, "uhadd16%c\t%12-15R, %16-19R, %0-3R"},
1992 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
1993 0x06700f90, 0x0ff00ff0, "uhadd8%c\t%12-15R, %16-19R, %0-3R"},
1994 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
1995 0x06700f30, 0x0ff00ff0, "uhasx%c\t%12-15R, %16-19R, %0-3R"},
1996 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
1997 0x06700f70, 0x0ff00ff0, "uhsub16%c\t%12-15R, %16-19R, %0-3R"},
1998 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
1999 0x06700ff0, 0x0ff00ff0, "uhsub8%c\t%12-15R, %16-19R, %0-3R"},
2000 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2001 0x06700f50, 0x0ff00ff0, "uhsax%c\t%12-15R, %16-19R, %0-3R"},
2002 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2003 0x06600f10, 0x0ff00ff0, "uqadd16%c\t%12-15R, %16-19R, %0-3R"},
2004 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2005 0x06600f90, 0x0ff00ff0, "uqadd8%c\t%12-15R, %16-19R, %0-3R"},
2006 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2007 0x06600f30, 0x0ff00ff0, "uqasx%c\t%12-15R, %16-19R, %0-3R"},
2008 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2009 0x06600f70, 0x0ff00ff0, "uqsub16%c\t%12-15R, %16-19R, %0-3R"},
2010 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2011 0x06600ff0, 0x0ff00ff0, "uqsub8%c\t%12-15R, %16-19R, %0-3R"},
2012 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2013 0x06600f50, 0x0ff00ff0, "uqsax%c\t%12-15R, %16-19R, %0-3R"},
2014 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2015 0x06500f70, 0x0ff00ff0, "usub16%c\t%12-15R, %16-19R, %0-3R"},
2016 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2017 0x06500ff0, 0x0ff00ff0, "usub8%c\t%12-15R, %16-19R, %0-3R"},
2018 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2019 0x06500f50, 0x0ff00ff0, "usax%c\t%12-15R, %16-19R, %0-3R"},
2020 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2021 0x06bf0f30, 0x0fff0ff0, "rev%c\t%12-15R, %0-3R"},
2022 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2023 0x06bf0fb0, 0x0fff0ff0, "rev16%c\t%12-15R, %0-3R"},
2024 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2025 0x06ff0fb0, 0x0fff0ff0, "revsh%c\t%12-15R, %0-3R"},
2026 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2027 0xf8100a00, 0xfe50ffff, "rfe%23?id%24?ba\t%16-19r%21'!"},
2028 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2029 0x06bf0070, 0x0fff0ff0, "sxth%c\t%12-15R, %0-3R"},
2030 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2031 0x06bf0470, 0x0fff0ff0, "sxth%c\t%12-15R, %0-3R, ror #8"},
2032 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2033 0x06bf0870, 0x0fff0ff0, "sxth%c\t%12-15R, %0-3R, ror #16"},
2034 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2035 0x06bf0c70, 0x0fff0ff0, "sxth%c\t%12-15R, %0-3R, ror #24"},
2036 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2037 0x068f0070, 0x0fff0ff0, "sxtb16%c\t%12-15R, %0-3R"},
2038 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2039 0x068f0470, 0x0fff0ff0, "sxtb16%c\t%12-15R, %0-3R, ror #8"},
2040 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2041 0x068f0870, 0x0fff0ff0, "sxtb16%c\t%12-15R, %0-3R, ror #16"},
2042 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2043 0x068f0c70, 0x0fff0ff0, "sxtb16%c\t%12-15R, %0-3R, ror #24"},
2044 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2045 0x06af0070, 0x0fff0ff0, "sxtb%c\t%12-15R, %0-3R"},
2046 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2047 0x06af0470, 0x0fff0ff0, "sxtb%c\t%12-15R, %0-3R, ror #8"},
2048 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2049 0x06af0870, 0x0fff0ff0, "sxtb%c\t%12-15R, %0-3R, ror #16"},
2050 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2051 0x06af0c70, 0x0fff0ff0, "sxtb%c\t%12-15R, %0-3R, ror #24"},
2052 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2053 0x06ff0070, 0x0fff0ff0, "uxth%c\t%12-15R, %0-3R"},
2054 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2055 0x06ff0470, 0x0fff0ff0, "uxth%c\t%12-15R, %0-3R, ror #8"},
2056 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2057 0x06ff0870, 0x0fff0ff0, "uxth%c\t%12-15R, %0-3R, ror #16"},
2058 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2059 0x06ff0c70, 0x0fff0ff0, "uxth%c\t%12-15R, %0-3R, ror #24"},
2060 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2061 0x06cf0070, 0x0fff0ff0, "uxtb16%c\t%12-15R, %0-3R"},
2062 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2063 0x06cf0470, 0x0fff0ff0, "uxtb16%c\t%12-15R, %0-3R, ror #8"},
2064 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2065 0x06cf0870, 0x0fff0ff0, "uxtb16%c\t%12-15R, %0-3R, ror #16"},
2066 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2067 0x06cf0c70, 0x0fff0ff0, "uxtb16%c\t%12-15R, %0-3R, ror #24"},
2068 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2069 0x06ef0070, 0x0fff0ff0, "uxtb%c\t%12-15R, %0-3R"},
2070 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2071 0x06ef0470, 0x0fff0ff0, "uxtb%c\t%12-15R, %0-3R, ror #8"},
2072 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2073 0x06ef0870, 0x0fff0ff0, "uxtb%c\t%12-15R, %0-3R, ror #16"},
2074 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2075 0x06ef0c70, 0x0fff0ff0, "uxtb%c\t%12-15R, %0-3R, ror #24"},
2076 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2077 0x06b00070, 0x0ff00ff0, "sxtah%c\t%12-15R, %16-19r, %0-3R"},
2078 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2079 0x06b00470, 0x0ff00ff0, "sxtah%c\t%12-15R, %16-19r, %0-3R, ror #8"},
2080 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2081 0x06b00870, 0x0ff00ff0, "sxtah%c\t%12-15R, %16-19r, %0-3R, ror #16"},
2082 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2083 0x06b00c70, 0x0ff00ff0, "sxtah%c\t%12-15R, %16-19r, %0-3R, ror #24"},
2084 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2085 0x06800070, 0x0ff00ff0, "sxtab16%c\t%12-15R, %16-19r, %0-3R"},
2086 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2087 0x06800470, 0x0ff00ff0, "sxtab16%c\t%12-15R, %16-19r, %0-3R, ror #8"},
2088 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2089 0x06800870, 0x0ff00ff0, "sxtab16%c\t%12-15R, %16-19r, %0-3R, ror #16"},
2090 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2091 0x06800c70, 0x0ff00ff0, "sxtab16%c\t%12-15R, %16-19r, %0-3R, ror #24"},
2092 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2093 0x06a00070, 0x0ff00ff0, "sxtab%c\t%12-15R, %16-19r, %0-3R"},
2094 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2095 0x06a00470, 0x0ff00ff0, "sxtab%c\t%12-15R, %16-19r, %0-3R, ror #8"},
2096 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2097 0x06a00870, 0x0ff00ff0, "sxtab%c\t%12-15R, %16-19r, %0-3R, ror #16"},
2098 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2099 0x06a00c70, 0x0ff00ff0, "sxtab%c\t%12-15R, %16-19r, %0-3R, ror #24"},
2100 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2101 0x06f00070, 0x0ff00ff0, "uxtah%c\t%12-15R, %16-19r, %0-3R"},
2102 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2103 0x06f00470, 0x0ff00ff0, "uxtah%c\t%12-15R, %16-19r, %0-3R, ror #8"},
2104 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2105 0x06f00870, 0x0ff00ff0, "uxtah%c\t%12-15R, %16-19r, %0-3R, ror #16"},
2106 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2107 0x06f00c70, 0x0ff00ff0, "uxtah%c\t%12-15R, %16-19r, %0-3R, ror #24"},
2108 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2109 0x06c00070, 0x0ff00ff0, "uxtab16%c\t%12-15R, %16-19r, %0-3R"},
2110 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2111 0x06c00470, 0x0ff00ff0, "uxtab16%c\t%12-15R, %16-19r, %0-3R, ror #8"},
2112 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2113 0x06c00870, 0x0ff00ff0, "uxtab16%c\t%12-15R, %16-19r, %0-3R, ror #16"},
2114 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2115 0x06c00c70, 0x0ff00ff0, "uxtab16%c\t%12-15R, %16-19r, %0-3R, ROR #24"},
2116 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2117 0x06e00070, 0x0ff00ff0, "uxtab%c\t%12-15R, %16-19r, %0-3R"},
2118 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2119 0x06e00470, 0x0ff00ff0, "uxtab%c\t%12-15R, %16-19r, %0-3R, ror #8"},
2120 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2121 0x06e00870, 0x0ff00ff0, "uxtab%c\t%12-15R, %16-19r, %0-3R, ror #16"},
2122 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2123 0x06e00c70, 0x0ff00ff0, "uxtab%c\t%12-15R, %16-19r, %0-3R, ror #24"},
2124 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2125 0x06800fb0, 0x0ff00ff0, "sel%c\t%12-15R, %16-19R, %0-3R"},
2126 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2127 0xf1010000, 0xfffffc00, "setend\t%9?ble"},
2128 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2129 0x0700f010, 0x0ff0f0d0, "smuad%5'x%c\t%16-19R, %0-3R, %8-11R"},
2130 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2131 0x0700f050, 0x0ff0f0d0, "smusd%5'x%c\t%16-19R, %0-3R, %8-11R"},
2132 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2133 0x07000010, 0x0ff000d0, "smlad%5'x%c\t%16-19R, %0-3R, %8-11R, %12-15R"},
2134 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2135 0x07400010, 0x0ff000d0, "smlald%5'x%c\t%12-15Ru, %16-19Ru, %0-3R, %8-11R"},
2136 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2137 0x07000050, 0x0ff000d0, "smlsd%5'x%c\t%16-19R, %0-3R, %8-11R, %12-15R"},
2138 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2139 0x07400050, 0x0ff000d0, "smlsld%5'x%c\t%12-15Ru, %16-19Ru, %0-3R, %8-11R"},
2140 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2141 0x0750f010, 0x0ff0f0d0, "smmul%5'r%c\t%16-19R, %0-3R, %8-11R"},
2142 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2143 0x07500010, 0x0ff000d0, "smmla%5'r%c\t%16-19R, %0-3R, %8-11R, %12-15R"},
2144 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2145 0x075000d0, 0x0ff000d0, "smmls%5'r%c\t%16-19R, %0-3R, %8-11R, %12-15R"},
2146 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2147 0xf84d0500, 0xfe5fffe0, "srs%23?id%24?ba\t%16-19r%21'!, #%0-4d"},
2148 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2149 0x06a00010, 0x0fe00ff0, "ssat%c\t%12-15R, #%16-20W, %0-3R"},
2150 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2151 0x06a00010, 0x0fe00070, "ssat%c\t%12-15R, #%16-20W, %0-3R, lsl #%7-11d"},
2152 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2153 0x06a00050, 0x0fe00070, "ssat%c\t%12-15R, #%16-20W, %0-3R, asr #%7-11d"},
2154 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2155 0x06a00f30, 0x0ff00ff0, "ssat16%c\t%12-15r, #%16-19W, %0-3r"},
2156 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2157 0x01800f90, 0x0ff00ff0, "strex%c\t%12-15R, %0-3R, [%16-19R]"},
2158 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2159 0x00400090, 0x0ff000f0, "umaal%c\t%12-15R, %16-19R, %0-3R, %8-11R"},
2160 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2161 0x0780f010, 0x0ff0f0f0, "usad8%c\t%16-19R, %0-3R, %8-11R"},
2162 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2163 0x07800010, 0x0ff000f0, "usada8%c\t%16-19R, %0-3R, %8-11R, %12-15R"},
2164 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2165 0x06e00010, 0x0fe00ff0, "usat%c\t%12-15R, #%16-20d, %0-3R"},
2166 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2167 0x06e00010, 0x0fe00070, "usat%c\t%12-15R, #%16-20d, %0-3R, lsl #%7-11d"},
2168 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2169 0x06e00050, 0x0fe00070, "usat%c\t%12-15R, #%16-20d, %0-3R, asr #%7-11d"},
2170 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6),
2171 0x06e00f30, 0x0ff00ff0, "usat16%c\t%12-15R, #%16-19d, %0-3R"},
2172
2173 /* V5J instruction. */
2174 {ARM_FEATURE_CORE_LOW (ARM_EXT_V5J),
2175 0x012fff20, 0x0ffffff0, "bxj%c\t%0-3R"},
2176
2177 /* V5 Instructions. */
2178 {ARM_FEATURE_CORE_LOW (ARM_EXT_V5),
2179 0xe1200070, 0xfff000f0,
2180 "bkpt\t0x%16-19X%12-15X%8-11X%0-3X"},
2181 {ARM_FEATURE_CORE_LOW (ARM_EXT_V5),
2182 0xfa000000, 0xfe000000, "blx\t%B"},
2183 {ARM_FEATURE_CORE_LOW (ARM_EXT_V5),
2184 0x012fff30, 0x0ffffff0, "blx%c\t%0-3R"},
2185 {ARM_FEATURE_CORE_LOW (ARM_EXT_V5),
2186 0x016f0f10, 0x0fff0ff0, "clz%c\t%12-15R, %0-3R"},
2187
2188 /* V5E "El Segundo" Instructions. */
2189 {ARM_FEATURE_CORE_LOW (ARM_EXT_V5E),
2190 0x000000d0, 0x0e1000f0, "ldrd%c\t%12-15r, %s"},
2191 {ARM_FEATURE_CORE_LOW (ARM_EXT_V5E),
2192 0x000000f0, 0x0e1000f0, "strd%c\t%12-15r, %s"},
2193 {ARM_FEATURE_CORE_LOW (ARM_EXT_V5E),
2194 0xf450f000, 0xfc70f000, "pld\t%a"},
2195 {ARM_FEATURE_CORE_LOW (ARM_EXT_V5ExP),
2196 0x01000080, 0x0ff000f0, "smlabb%c\t%16-19R, %0-3R, %8-11R, %12-15R"},
2197 {ARM_FEATURE_CORE_LOW (ARM_EXT_V5ExP),
2198 0x010000a0, 0x0ff000f0, "smlatb%c\t%16-19R, %0-3R, %8-11R, %12-15R"},
2199 {ARM_FEATURE_CORE_LOW (ARM_EXT_V5ExP),
2200 0x010000c0, 0x0ff000f0, "smlabt%c\t%16-19R, %0-3R, %8-11R, %12-15R"},
2201 {ARM_FEATURE_CORE_LOW (ARM_EXT_V5ExP),
2202 0x010000e0, 0x0ff000f0, "smlatt%c\t%16-19r, %0-3r, %8-11R, %12-15R"},
2203
2204 {ARM_FEATURE_CORE_LOW (ARM_EXT_V5ExP),
2205 0x01200080, 0x0ff000f0, "smlawb%c\t%16-19R, %0-3R, %8-11R, %12-15R"},
2206 {ARM_FEATURE_CORE_LOW (ARM_EXT_V5ExP),
2207 0x012000c0, 0x0ff000f0, "smlawt%c\t%16-19R, %0-3r, %8-11R, %12-15R"},
2208
2209 {ARM_FEATURE_CORE_LOW (ARM_EXT_V5ExP),
2210 0x01400080, 0x0ff000f0, "smlalbb%c\t%12-15Ru, %16-19Ru, %0-3R, %8-11R"},
2211 {ARM_FEATURE_CORE_LOW (ARM_EXT_V5ExP),
2212 0x014000a0, 0x0ff000f0, "smlaltb%c\t%12-15Ru, %16-19Ru, %0-3R, %8-11R"},
2213 {ARM_FEATURE_CORE_LOW (ARM_EXT_V5ExP),
2214 0x014000c0, 0x0ff000f0, "smlalbt%c\t%12-15Ru, %16-19Ru, %0-3R, %8-11R"},
2215 {ARM_FEATURE_CORE_LOW (ARM_EXT_V5ExP),
2216 0x014000e0, 0x0ff000f0, "smlaltt%c\t%12-15Ru, %16-19Ru, %0-3R, %8-11R"},
2217
2218 {ARM_FEATURE_CORE_LOW (ARM_EXT_V5ExP),
2219 0x01600080, 0x0ff0f0f0, "smulbb%c\t%16-19R, %0-3R, %8-11R"},
2220 {ARM_FEATURE_CORE_LOW (ARM_EXT_V5ExP),
2221 0x016000a0, 0x0ff0f0f0, "smultb%c\t%16-19R, %0-3R, %8-11R"},
2222 {ARM_FEATURE_CORE_LOW (ARM_EXT_V5ExP),
2223 0x016000c0, 0x0ff0f0f0, "smulbt%c\t%16-19R, %0-3R, %8-11R"},
2224 {ARM_FEATURE_CORE_LOW (ARM_EXT_V5ExP),
2225 0x016000e0, 0x0ff0f0f0, "smultt%c\t%16-19R, %0-3R, %8-11R"},
2226
2227 {ARM_FEATURE_CORE_LOW (ARM_EXT_V5ExP),
2228 0x012000a0, 0x0ff0f0f0, "smulwb%c\t%16-19R, %0-3R, %8-11R"},
2229 {ARM_FEATURE_CORE_LOW (ARM_EXT_V5ExP),
2230 0x012000e0, 0x0ff0f0f0, "smulwt%c\t%16-19R, %0-3R, %8-11R"},
2231
2232 {ARM_FEATURE_CORE_LOW (ARM_EXT_V5ExP),
2233 0x01000050, 0x0ff00ff0, "qadd%c\t%12-15R, %0-3R, %16-19R"},
2234 {ARM_FEATURE_CORE_LOW (ARM_EXT_V5ExP),
2235 0x01400050, 0x0ff00ff0, "qdadd%c\t%12-15R, %0-3R, %16-19R"},
2236 {ARM_FEATURE_CORE_LOW (ARM_EXT_V5ExP),
2237 0x01200050, 0x0ff00ff0, "qsub%c\t%12-15R, %0-3R, %16-19R"},
2238 {ARM_FEATURE_CORE_LOW (ARM_EXT_V5ExP),
2239 0x01600050, 0x0ff00ff0, "qdsub%c\t%12-15R, %0-3R, %16-19R"},
2240
2241 /* ARM Instructions. */
2242 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2243 0x052d0004, 0x0fff0fff, "push%c\t{%12-15r}\t\t; (str%c %12-15r, %a)"},
2244
2245 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2246 0x04400000, 0x0e500000, "strb%t%c\t%12-15R, %a"},
2247 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2248 0x04000000, 0x0e500000, "str%t%c\t%12-15r, %a"},
2249 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2250 0x06400000, 0x0e500ff0, "strb%t%c\t%12-15R, %a"},
2251 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2252 0x06000000, 0x0e500ff0, "str%t%c\t%12-15r, %a"},
2253 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2254 0x04400000, 0x0c500010, "strb%t%c\t%12-15R, %a"},
2255 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2256 0x04000000, 0x0c500010, "str%t%c\t%12-15r, %a"},
2257
2258 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2259 0x04400000, 0x0e500000, "strb%c\t%12-15R, %a"},
2260 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2261 0x06400000, 0x0e500010, "strb%c\t%12-15R, %a"},
2262 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2263 0x004000b0, 0x0e5000f0, "strh%c\t%12-15R, %s"},
2264 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2265 0x000000b0, 0x0e500ff0, "strh%c\t%12-15R, %s"},
2266
2267 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2268 0x00500090, 0x0e5000f0, UNDEFINED_INSTRUCTION},
2269 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2270 0x00500090, 0x0e500090, "ldr%6's%5?hb%c\t%12-15R, %s"},
2271 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2272 0x00100090, 0x0e500ff0, UNDEFINED_INSTRUCTION},
2273 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2274 0x00100090, 0x0e500f90, "ldr%6's%5?hb%c\t%12-15R, %s"},
2275
2276 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2277 0x02000000, 0x0fe00000, "and%20's%c\t%12-15r, %16-19r, %o"},
2278 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2279 0x00000000, 0x0fe00010, "and%20's%c\t%12-15r, %16-19r, %o"},
2280 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2281 0x00000010, 0x0fe00090, "and%20's%c\t%12-15R, %16-19R, %o"},
2282
2283 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2284 0x02200000, 0x0fe00000, "eor%20's%c\t%12-15r, %16-19r, %o"},
2285 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2286 0x00200000, 0x0fe00010, "eor%20's%c\t%12-15r, %16-19r, %o"},
2287 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2288 0x00200010, 0x0fe00090, "eor%20's%c\t%12-15R, %16-19R, %o"},
2289
2290 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2291 0x02400000, 0x0fe00000, "sub%20's%c\t%12-15r, %16-19r, %o"},
2292 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2293 0x00400000, 0x0fe00010, "sub%20's%c\t%12-15r, %16-19r, %o"},
2294 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2295 0x00400010, 0x0fe00090, "sub%20's%c\t%12-15R, %16-19R, %o"},
2296
2297 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2298 0x02600000, 0x0fe00000, "rsb%20's%c\t%12-15r, %16-19r, %o"},
2299 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2300 0x00600000, 0x0fe00010, "rsb%20's%c\t%12-15r, %16-19r, %o"},
2301 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2302 0x00600010, 0x0fe00090, "rsb%20's%c\t%12-15R, %16-19R, %o"},
2303
2304 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2305 0x02800000, 0x0fe00000, "add%20's%c\t%12-15r, %16-19r, %o"},
2306 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2307 0x00800000, 0x0fe00010, "add%20's%c\t%12-15r, %16-19r, %o"},
2308 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2309 0x00800010, 0x0fe00090, "add%20's%c\t%12-15R, %16-19R, %o"},
2310
2311 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2312 0x02a00000, 0x0fe00000, "adc%20's%c\t%12-15r, %16-19r, %o"},
2313 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2314 0x00a00000, 0x0fe00010, "adc%20's%c\t%12-15r, %16-19r, %o"},
2315 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2316 0x00a00010, 0x0fe00090, "adc%20's%c\t%12-15R, %16-19R, %o"},
2317
2318 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2319 0x02c00000, 0x0fe00000, "sbc%20's%c\t%12-15r, %16-19r, %o"},
2320 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2321 0x00c00000, 0x0fe00010, "sbc%20's%c\t%12-15r, %16-19r, %o"},
2322 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2323 0x00c00010, 0x0fe00090, "sbc%20's%c\t%12-15R, %16-19R, %o"},
2324
2325 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2326 0x02e00000, 0x0fe00000, "rsc%20's%c\t%12-15r, %16-19r, %o"},
2327 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2328 0x00e00000, 0x0fe00010, "rsc%20's%c\t%12-15r, %16-19r, %o"},
2329 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2330 0x00e00010, 0x0fe00090, "rsc%20's%c\t%12-15R, %16-19R, %o"},
2331
2332 {ARM_FEATURE_CORE_LOW (ARM_EXT_VIRT),
2333 0x0120f200, 0x0fb0f200, "msr%c\t%C, %0-3r"},
2334 {ARM_FEATURE_CORE_LOW (ARM_EXT_V3),
2335 0x0120f000, 0x0db0f000, "msr%c\t%C, %o"},
2336 {ARM_FEATURE_CORE_LOW (ARM_EXT_V3),
2337 0x01000000, 0x0fb00cff, "mrs%c\t%12-15R, %R"},
2338
2339 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2340 0x03000000, 0x0fe00000, "tst%p%c\t%16-19r, %o"},
2341 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2342 0x01000000, 0x0fe00010, "tst%p%c\t%16-19r, %o"},
2343 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2344 0x01000010, 0x0fe00090, "tst%p%c\t%16-19R, %o"},
2345
2346 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2347 0x03300000, 0x0ff00000, "teq%p%c\t%16-19r, %o"},
2348 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2349 0x01300000, 0x0ff00010, "teq%p%c\t%16-19r, %o"},
2350 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2351 0x01300010, 0x0ff00010, "teq%p%c\t%16-19R, %o"},
2352
2353 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2354 0x03400000, 0x0fe00000, "cmp%p%c\t%16-19r, %o"},
2355 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2356 0x01400000, 0x0fe00010, "cmp%p%c\t%16-19r, %o"},
2357 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2358 0x01400010, 0x0fe00090, "cmp%p%c\t%16-19R, %o"},
2359
2360 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2361 0x03600000, 0x0fe00000, "cmn%p%c\t%16-19r, %o"},
2362 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2363 0x01600000, 0x0fe00010, "cmn%p%c\t%16-19r, %o"},
2364 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2365 0x01600010, 0x0fe00090, "cmn%p%c\t%16-19R, %o"},
2366
2367 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2368 0x03800000, 0x0fe00000, "orr%20's%c\t%12-15r, %16-19r, %o"},
2369 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2370 0x01800000, 0x0fe00010, "orr%20's%c\t%12-15r, %16-19r, %o"},
2371 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2372 0x01800010, 0x0fe00090, "orr%20's%c\t%12-15R, %16-19R, %o"},
2373
2374 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2375 0x03a00000, 0x0fef0000, "mov%20's%c\t%12-15r, %o"},
2376 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2377 0x01a00000, 0x0def0ff0, "mov%20's%c\t%12-15r, %0-3r"},
2378 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2379 0x01a00000, 0x0def0060, "lsl%20's%c\t%12-15R, %q"},
2380 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2381 0x01a00020, 0x0def0060, "lsr%20's%c\t%12-15R, %q"},
2382 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2383 0x01a00040, 0x0def0060, "asr%20's%c\t%12-15R, %q"},
2384 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2385 0x01a00060, 0x0def0ff0, "rrx%20's%c\t%12-15r, %0-3r"},
2386 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2387 0x01a00060, 0x0def0060, "ror%20's%c\t%12-15R, %q"},
2388
2389 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2390 0x03c00000, 0x0fe00000, "bic%20's%c\t%12-15r, %16-19r, %o"},
2391 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2392 0x01c00000, 0x0fe00010, "bic%20's%c\t%12-15r, %16-19r, %o"},
2393 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2394 0x01c00010, 0x0fe00090, "bic%20's%c\t%12-15R, %16-19R, %o"},
2395
2396 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2397 0x03e00000, 0x0fe00000, "mvn%20's%c\t%12-15r, %o"},
2398 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2399 0x01e00000, 0x0fe00010, "mvn%20's%c\t%12-15r, %o"},
2400 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2401 0x01e00010, 0x0fe00090, "mvn%20's%c\t%12-15R, %o"},
2402
2403 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2404 0x06000010, 0x0e000010, UNDEFINED_INSTRUCTION},
2405 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2406 0x049d0004, 0x0fff0fff, "pop%c\t{%12-15r}\t\t; (ldr%c %12-15r, %a)"},
2407
2408 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2409 0x04500000, 0x0c500000, "ldrb%t%c\t%12-15R, %a"},
2410
2411 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2412 0x04300000, 0x0d700000, "ldrt%c\t%12-15R, %a"},
2413 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2414 0x04100000, 0x0c500000, "ldr%c\t%12-15r, %a"},
2415
2416 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2417 0x092d0001, 0x0fffffff, "stmfd%c\t%16-19R!, %m"},
2418 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2419 0x092d0002, 0x0fffffff, "stmfd%c\t%16-19R!, %m"},
2420 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2421 0x092d0004, 0x0fffffff, "stmfd%c\t%16-19R!, %m"},
2422 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2423 0x092d0008, 0x0fffffff, "stmfd%c\t%16-19R!, %m"},
2424 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2425 0x092d0010, 0x0fffffff, "stmfd%c\t%16-19R!, %m"},
2426 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2427 0x092d0020, 0x0fffffff, "stmfd%c\t%16-19R!, %m"},
2428 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2429 0x092d0040, 0x0fffffff, "stmfd%c\t%16-19R!, %m"},
2430 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2431 0x092d0080, 0x0fffffff, "stmfd%c\t%16-19R!, %m"},
2432 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2433 0x092d0100, 0x0fffffff, "stmfd%c\t%16-19R!, %m"},
2434 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2435 0x092d0200, 0x0fffffff, "stmfd%c\t%16-19R!, %m"},
2436 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2437 0x092d0400, 0x0fffffff, "stmfd%c\t%16-19R!, %m"},
2438 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2439 0x092d0800, 0x0fffffff, "stmfd%c\t%16-19R!, %m"},
2440 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2441 0x092d1000, 0x0fffffff, "stmfd%c\t%16-19R!, %m"},
2442 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2443 0x092d2000, 0x0fffffff, "stmfd%c\t%16-19R!, %m"},
2444 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2445 0x092d4000, 0x0fffffff, "stmfd%c\t%16-19R!, %m"},
2446 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2447 0x092d8000, 0x0fffffff, "stmfd%c\t%16-19R!, %m"},
2448 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2449 0x092d0000, 0x0fff0000, "push%c\t%m"},
2450 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2451 0x08800000, 0x0ff00000, "stm%c\t%16-19R%21'!, %m%22'^"},
2452 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2453 0x08000000, 0x0e100000, "stm%23?id%24?ba%c\t%16-19R%21'!, %m%22'^"},
2454
2455 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2456 0x08bd0001, 0x0fffffff, "ldmfd%c\t%16-19R!, %m"},
2457 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2458 0x08bd0002, 0x0fffffff, "ldmfd%c\t%16-19R!, %m"},
2459 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2460 0x08bd0004, 0x0fffffff, "ldmfd%c\t%16-19R!, %m"},
2461 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2462 0x08bd0008, 0x0fffffff, "ldmfd%c\t%16-19R!, %m"},
2463 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2464 0x08bd0010, 0x0fffffff, "ldmfd%c\t%16-19R!, %m"},
2465 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2466 0x08bd0020, 0x0fffffff, "ldmfd%c\t%16-19R!, %m"},
2467 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2468 0x08bd0040, 0x0fffffff, "ldmfd%c\t%16-19R!, %m"},
2469 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2470 0x08bd0080, 0x0fffffff, "ldmfd%c\t%16-19R!, %m"},
2471 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2472 0x08bd0100, 0x0fffffff, "ldmfd%c\t%16-19R!, %m"},
2473 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2474 0x08bd0200, 0x0fffffff, "ldmfd%c\t%16-19R!, %m"},
2475 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2476 0x08bd0400, 0x0fffffff, "ldmfd%c\t%16-19R!, %m"},
2477 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2478 0x08bd0800, 0x0fffffff, "ldmfd%c\t%16-19R!, %m"},
2479 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2480 0x08bd1000, 0x0fffffff, "ldmfd%c\t%16-19R!, %m"},
2481 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2482 0x08bd2000, 0x0fffffff, "ldmfd%c\t%16-19R!, %m"},
2483 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2484 0x08bd4000, 0x0fffffff, "ldmfd%c\t%16-19R!, %m"},
2485 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2486 0x08bd8000, 0x0fffffff, "ldmfd%c\t%16-19R!, %m"},
2487 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2488 0x08bd0000, 0x0fff0000, "pop%c\t%m"},
2489 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2490 0x08900000, 0x0f900000, "ldm%c\t%16-19R%21'!, %m%22'^"},
2491 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2492 0x08100000, 0x0e100000, "ldm%23?id%24?ba%c\t%16-19R%21'!, %m%22'^"},
2493
2494 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2495 0x0a000000, 0x0e000000, "b%24'l%c\t%b"},
2496 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2497 0x0f000000, 0x0f000000, "svc%c\t%0-23x"},
2498
2499 /* The rest. */
2500 {ARM_FEATURE_CORE_LOW (ARM_EXT_V7),
2501 0x03200000, 0x0fff00ff, "nop%c\t{%0-7d}" UNPREDICTABLE_INSTRUCTION},
2502 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
2503 0x00000000, 0x00000000, UNDEFINED_INSTRUCTION},
2504 {ARM_FEATURE_CORE_LOW (0),
2505 0x00000000, 0x00000000, 0}
2506 };
2507
2508 /* print_insn_thumb16 recognizes the following format control codes:
2509
2510 %S print Thumb register (bits 3..5 as high number if bit 6 set)
2511 %D print Thumb register (bits 0..2 as high number if bit 7 set)
2512 %<bitfield>I print bitfield as a signed decimal
2513 (top bit of range being the sign bit)
2514 %N print Thumb register mask (with LR)
2515 %O print Thumb register mask (with PC)
2516 %M print Thumb register mask
2517 %b print CZB's 6-bit unsigned branch destination
2518 %s print Thumb right-shift immediate (6..10; 0 == 32).
2519 %c print the condition code
2520 %C print the condition code, or "s" if not conditional
2521 %x print warning if conditional an not at end of IT block"
2522 %X print "\t; unpredictable <IT:code>" if conditional
2523 %I print IT instruction suffix and operands
2524 %W print Thumb Writeback indicator for LDMIA
2525 %<bitfield>r print bitfield as an ARM register
2526 %<bitfield>d print bitfield as a decimal
2527 %<bitfield>H print (bitfield * 2) as a decimal
2528 %<bitfield>W print (bitfield * 4) as a decimal
2529 %<bitfield>a print (bitfield * 4) as a pc-rel offset + decoded symbol
2530 %<bitfield>B print Thumb branch destination (signed displacement)
2531 %<bitfield>c print bitfield as a condition code
2532 %<bitnum>'c print specified char iff bit is one
2533 %<bitnum>?ab print a if bit is one else print b. */
2534
2535 static const struct opcode16 thumb_opcodes[] =
2536 {
2537 /* Thumb instructions. */
2538
2539 /* ARMv8-M Security Extensions instructions. */
2540 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_V8M), 0x4784, 0xff87, "blxns\t%3-6r"},
2541 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_V8M), 0x4704, 0xff87, "bxns\t%3-6r"},
2542
2543 /* ARM V8 instructions. */
2544 {ARM_FEATURE_CORE_LOW (ARM_EXT_V8), 0xbf50, 0xffff, "sevl%c"},
2545 {ARM_FEATURE_CORE_LOW (ARM_EXT_V8), 0xba80, 0xffc0, "hlt\t%0-5x"},
2546 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_PAN), 0xb610, 0xfff7, "setpan\t#%3-3d"},
2547
2548 /* ARM V6K no-argument instructions. */
2549 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6K), 0xbf00, 0xffff, "nop%c"},
2550 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6K), 0xbf10, 0xffff, "yield%c"},
2551 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6K), 0xbf20, 0xffff, "wfe%c"},
2552 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6K), 0xbf30, 0xffff, "wfi%c"},
2553 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6K), 0xbf40, 0xffff, "sev%c"},
2554 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6K), 0xbf00, 0xff0f, "nop%c\t{%4-7d}"},
2555
2556 /* ARM V6T2 instructions. */
2557 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_V6T2_V8M),
2558 0xb900, 0xfd00, "cbnz\t%0-2r, %b%X"},
2559 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_V6T2_V8M),
2560 0xb100, 0xfd00, "cbz\t%0-2r, %b%X"},
2561 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2), 0xbf00, 0xff00, "it%I%X"},
2562
2563 /* ARM V6. */
2564 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6), 0xb660, 0xfff8, "cpsie\t%2'a%1'i%0'f%X"},
2565 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6), 0xb670, 0xfff8, "cpsid\t%2'a%1'i%0'f%X"},
2566 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6), 0x4600, 0xffc0, "mov%c\t%0-2r, %3-5r"},
2567 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6), 0xba00, 0xffc0, "rev%c\t%0-2r, %3-5r"},
2568 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6), 0xba40, 0xffc0, "rev16%c\t%0-2r, %3-5r"},
2569 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6), 0xbac0, 0xffc0, "revsh%c\t%0-2r, %3-5r"},
2570 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6), 0xb650, 0xfff7, "setend\t%3?ble%X"},
2571 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6), 0xb200, 0xffc0, "sxth%c\t%0-2r, %3-5r"},
2572 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6), 0xb240, 0xffc0, "sxtb%c\t%0-2r, %3-5r"},
2573 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6), 0xb280, 0xffc0, "uxth%c\t%0-2r, %3-5r"},
2574 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6), 0xb2c0, 0xffc0, "uxtb%c\t%0-2r, %3-5r"},
2575
2576 /* ARM V5 ISA extends Thumb. */
2577 {ARM_FEATURE_CORE_LOW (ARM_EXT_V5T),
2578 0xbe00, 0xff00, "bkpt\t%0-7x"}, /* Is always unconditional. */
2579 /* This is BLX(2). BLX(1) is a 32-bit instruction. */
2580 {ARM_FEATURE_CORE_LOW (ARM_EXT_V5T),
2581 0x4780, 0xff87, "blx%c\t%3-6r%x"}, /* note: 4 bit register number. */
2582 /* ARM V4T ISA (Thumb v1). */
2583 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T),
2584 0x46C0, 0xFFFF, "nop%c\t\t\t; (mov r8, r8)"},
2585 /* Format 4. */
2586 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T), 0x4000, 0xFFC0, "and%C\t%0-2r, %3-5r"},
2587 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T), 0x4040, 0xFFC0, "eor%C\t%0-2r, %3-5r"},
2588 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T), 0x4080, 0xFFC0, "lsl%C\t%0-2r, %3-5r"},
2589 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T), 0x40C0, 0xFFC0, "lsr%C\t%0-2r, %3-5r"},
2590 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T), 0x4100, 0xFFC0, "asr%C\t%0-2r, %3-5r"},
2591 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T), 0x4140, 0xFFC0, "adc%C\t%0-2r, %3-5r"},
2592 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T), 0x4180, 0xFFC0, "sbc%C\t%0-2r, %3-5r"},
2593 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T), 0x41C0, 0xFFC0, "ror%C\t%0-2r, %3-5r"},
2594 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T), 0x4200, 0xFFC0, "tst%c\t%0-2r, %3-5r"},
2595 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T), 0x4240, 0xFFC0, "neg%C\t%0-2r, %3-5r"},
2596 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T), 0x4280, 0xFFC0, "cmp%c\t%0-2r, %3-5r"},
2597 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T), 0x42C0, 0xFFC0, "cmn%c\t%0-2r, %3-5r"},
2598 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T), 0x4300, 0xFFC0, "orr%C\t%0-2r, %3-5r"},
2599 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T), 0x4340, 0xFFC0, "mul%C\t%0-2r, %3-5r"},
2600 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T), 0x4380, 0xFFC0, "bic%C\t%0-2r, %3-5r"},
2601 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T), 0x43C0, 0xFFC0, "mvn%C\t%0-2r, %3-5r"},
2602 /* format 13 */
2603 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T), 0xB000, 0xFF80, "add%c\tsp, #%0-6W"},
2604 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T), 0xB080, 0xFF80, "sub%c\tsp, #%0-6W"},
2605 /* format 5 */
2606 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T), 0x4700, 0xFF80, "bx%c\t%S%x"},
2607 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T), 0x4400, 0xFF00, "add%c\t%D, %S"},
2608 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T), 0x4500, 0xFF00, "cmp%c\t%D, %S"},
2609 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T), 0x4600, 0xFF00, "mov%c\t%D, %S"},
2610 /* format 14 */
2611 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T), 0xB400, 0xFE00, "push%c\t%N"},
2612 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T), 0xBC00, 0xFE00, "pop%c\t%O"},
2613 /* format 2 */
2614 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T),
2615 0x1800, 0xFE00, "add%C\t%0-2r, %3-5r, %6-8r"},
2616 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T),
2617 0x1A00, 0xFE00, "sub%C\t%0-2r, %3-5r, %6-8r"},
2618 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T),
2619 0x1C00, 0xFE00, "add%C\t%0-2r, %3-5r, #%6-8d"},
2620 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T),
2621 0x1E00, 0xFE00, "sub%C\t%0-2r, %3-5r, #%6-8d"},
2622 /* format 8 */
2623 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T),
2624 0x5200, 0xFE00, "strh%c\t%0-2r, [%3-5r, %6-8r]"},
2625 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T),
2626 0x5A00, 0xFE00, "ldrh%c\t%0-2r, [%3-5r, %6-8r]"},
2627 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T),
2628 0x5600, 0xF600, "ldrs%11?hb%c\t%0-2r, [%3-5r, %6-8r]"},
2629 /* format 7 */
2630 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T),
2631 0x5000, 0xFA00, "str%10'b%c\t%0-2r, [%3-5r, %6-8r]"},
2632 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T),
2633 0x5800, 0xFA00, "ldr%10'b%c\t%0-2r, [%3-5r, %6-8r]"},
2634 /* format 1 */
2635 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T), 0x0000, 0xFFC0, "mov%C\t%0-2r, %3-5r"},
2636 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T),
2637 0x0000, 0xF800, "lsl%C\t%0-2r, %3-5r, #%6-10d"},
2638 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T), 0x0800, 0xF800, "lsr%C\t%0-2r, %3-5r, %s"},
2639 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T), 0x1000, 0xF800, "asr%C\t%0-2r, %3-5r, %s"},
2640 /* format 3 */
2641 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T), 0x2000, 0xF800, "mov%C\t%8-10r, #%0-7d"},
2642 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T), 0x2800, 0xF800, "cmp%c\t%8-10r, #%0-7d"},
2643 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T), 0x3000, 0xF800, "add%C\t%8-10r, #%0-7d"},
2644 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T), 0x3800, 0xF800, "sub%C\t%8-10r, #%0-7d"},
2645 /* format 6 */
2646 /* TODO: Disassemble PC relative "LDR rD,=<symbolic>" */
2647 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T),
2648 0x4800, 0xF800,
2649 "ldr%c\t%8-10r, [pc, #%0-7W]\t; (%0-7a)"},
2650 /* format 9 */
2651 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T),
2652 0x6000, 0xF800, "str%c\t%0-2r, [%3-5r, #%6-10W]"},
2653 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T),
2654 0x6800, 0xF800, "ldr%c\t%0-2r, [%3-5r, #%6-10W]"},
2655 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T),
2656 0x7000, 0xF800, "strb%c\t%0-2r, [%3-5r, #%6-10d]"},
2657 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T),
2658 0x7800, 0xF800, "ldrb%c\t%0-2r, [%3-5r, #%6-10d]"},
2659 /* format 10 */
2660 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T),
2661 0x8000, 0xF800, "strh%c\t%0-2r, [%3-5r, #%6-10H]"},
2662 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T),
2663 0x8800, 0xF800, "ldrh%c\t%0-2r, [%3-5r, #%6-10H]"},
2664 /* format 11 */
2665 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T),
2666 0x9000, 0xF800, "str%c\t%8-10r, [sp, #%0-7W]"},
2667 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T),
2668 0x9800, 0xF800, "ldr%c\t%8-10r, [sp, #%0-7W]"},
2669 /* format 12 */
2670 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T),
2671 0xA000, 0xF800, "add%c\t%8-10r, pc, #%0-7W\t; (adr %8-10r, %0-7a)"},
2672 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T),
2673 0xA800, 0xF800, "add%c\t%8-10r, sp, #%0-7W"},
2674 /* format 15 */
2675 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T), 0xC000, 0xF800, "stmia%c\t%8-10r!, %M"},
2676 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T), 0xC800, 0xF800, "ldmia%c\t%8-10r%W, %M"},
2677 /* format 17 */
2678 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T), 0xDF00, 0xFF00, "svc%c\t%0-7d"},
2679 /* format 16 */
2680 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T), 0xDE00, 0xFF00, "udf%c\t#%0-7d"},
2681 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T), 0xDE00, 0xFE00, UNDEFINED_INSTRUCTION},
2682 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T), 0xD000, 0xF000, "b%8-11c.n\t%0-7B%X"},
2683 /* format 18 */
2684 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T), 0xE000, 0xF800, "b%c.n\t%0-10B%x"},
2685
2686 /* The E800 .. FFFF range is unconditionally redirected to the
2687 32-bit table, because even in pre-V6T2 ISAs, BL and BLX(1) pairs
2688 are processed via that table. Thus, we can never encounter a
2689 bare "second half of BL/BLX(1)" instruction here. */
2690 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1), 0x0000, 0x0000, UNDEFINED_INSTRUCTION},
2691 {ARM_FEATURE_CORE_LOW (0), 0, 0, 0}
2692 };
2693
2694 /* Thumb32 opcodes use the same table structure as the ARM opcodes.
2695 We adopt the convention that hw1 is the high 16 bits of .value and
2696 .mask, hw2 the low 16 bits.
2697
2698 print_insn_thumb32 recognizes the following format control codes:
2699
2700 %% %
2701
2702 %I print a 12-bit immediate from hw1[10],hw2[14:12,7:0]
2703 %M print a modified 12-bit immediate (same location)
2704 %J print a 16-bit immediate from hw1[3:0,10],hw2[14:12,7:0]
2705 %K print a 16-bit immediate from hw2[3:0],hw1[3:0],hw2[11:4]
2706 %H print a 16-bit immediate from hw2[3:0],hw1[11:0]
2707 %S print a possibly-shifted Rm
2708
2709 %L print address for a ldrd/strd instruction
2710 %a print the address of a plain load/store
2711 %w print the width and signedness of a core load/store
2712 %m print register mask for ldm/stm
2713
2714 %E print the lsb and width fields of a bfc/bfi instruction
2715 %F print the lsb and width fields of a sbfx/ubfx instruction
2716 %G print a fallback offset for Branch Future instructions
2717 %W print an offset for BF instruction
2718 %Y print an offset for BFL instruction
2719 %Z print an offset for BFCSEL instruction
2720 %b print a conditional branch offset
2721 %B print an unconditional branch offset
2722 %s print the shift field of an SSAT instruction
2723 %R print the rotation field of an SXT instruction
2724 %U print barrier type.
2725 %P print address for pli instruction.
2726 %c print the condition code
2727 %x print warning if conditional an not at end of IT block"
2728 %X print "\t; unpredictable <IT:code>" if conditional
2729
2730 %<bitfield>d print bitfield in decimal
2731 %<bitfield>D print bitfield plus one in decimal
2732 %<bitfield>W print bitfield*4 in decimal
2733 %<bitfield>r print bitfield as an ARM register
2734 %<bitfield>R as %<>r but r15 is UNPREDICTABLE
2735 %<bitfield>S as %<>r but r13 and r15 is UNPREDICTABLE
2736 %<bitfield>c print bitfield as a condition code
2737
2738 %<bitfield>'c print specified char iff bitfield is all ones
2739 %<bitfield>`c print specified char iff bitfield is all zeroes
2740 %<bitfield>?ab... select from array of values in big endian order
2741
2742 With one exception at the bottom (done because BL and BLX(1) need
2743 to come dead last), this table was machine-sorted first in
2744 decreasing order of number of bits set in the mask, then in
2745 increasing numeric order of mask, then in increasing numeric order
2746 of opcode. This order is not the clearest for a human reader, but
2747 is guaranteed never to catch a special-case bit pattern with a more
2748 general mask, which is important, because this instruction encoding
2749 makes heavy use of special-case bit patterns. */
2750 static const struct opcode32 thumb32_opcodes[] =
2751 {
2752 /* Armv8.1-M Mainline instructions. */
2753 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_V8_1M_MAIN),
2754 0xf040e001, 0xf860f001, "bf%c\t%G, %W"},
2755 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_V8_1M_MAIN),
2756 0xf060e001, 0xf8f0f001, "bfx%c\t%G, %16-19S"},
2757 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_V8_1M_MAIN),
2758 0xf000c001, 0xf800f001, "bfl%c\t%G, %Y"},
2759 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_V8_1M_MAIN),
2760 0xf070e001, 0xf8f0f001, "bflx%c\t%G, %16-19S"},
2761 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_V8_1M_MAIN),
2762 0xf000e001, 0xf840f001, "bfcsel\t%G, %Z, %18-21c"},
2763
2764
2765 /* ARMv8-M and ARMv8-M Security Extensions instructions. */
2766 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_V8M), 0xe97fe97f, 0xffffffff, "sg"},
2767 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_V8M),
2768 0xe840f000, 0xfff0f0ff, "tt\t%8-11r, %16-19r"},
2769 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_V8M),
2770 0xe840f040, 0xfff0f0ff, "ttt\t%8-11r, %16-19r"},
2771 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_V8M),
2772 0xe840f080, 0xfff0f0ff, "tta\t%8-11r, %16-19r"},
2773 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_V8M),
2774 0xe840f0c0, 0xfff0f0ff, "ttat\t%8-11r, %16-19r"},
2775
2776 /* ARM V8.2 RAS extension instructions. */
2777 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_RAS),
2778 0xf3af8010, 0xffffffff, "esb"},
2779
2780 /* V8 instructions. */
2781 {ARM_FEATURE_CORE_LOW (ARM_EXT_V8),
2782 0xf3af8005, 0xffffffff, "sevl%c.w"},
2783 {ARM_FEATURE_CORE_LOW (ARM_EXT_V8),
2784 0xf78f8000, 0xfffffffc, "dcps%0-1d"},
2785 {ARM_FEATURE_CORE_LOW (ARM_EXT_V8),
2786 0xe8c00f8f, 0xfff00fff, "stlb%c\t%12-15r, [%16-19R]"},
2787 {ARM_FEATURE_CORE_LOW (ARM_EXT_V8),
2788 0xe8c00f9f, 0xfff00fff, "stlh%c\t%12-15r, [%16-19R]"},
2789 {ARM_FEATURE_CORE_LOW (ARM_EXT_V8),
2790 0xe8c00faf, 0xfff00fff, "stl%c\t%12-15r, [%16-19R]"},
2791 {ARM_FEATURE_CORE_LOW (ARM_EXT_V8),
2792 0xe8c00fc0, 0xfff00ff0, "stlexb%c\t%0-3r, %12-15r, [%16-19R]"},
2793 {ARM_FEATURE_CORE_LOW (ARM_EXT_V8),
2794 0xe8c00fd0, 0xfff00ff0, "stlexh%c\t%0-3r, %12-15r, [%16-19R]"},
2795 {ARM_FEATURE_CORE_LOW (ARM_EXT_V8),
2796 0xe8c00fe0, 0xfff00ff0, "stlex%c\t%0-3r, %12-15r, [%16-19R]"},
2797 {ARM_FEATURE_CORE_LOW (ARM_EXT_V8),
2798 0xe8c000f0, 0xfff000f0, "stlexd%c\t%0-3r, %12-15r, %8-11r, [%16-19R]"},
2799 {ARM_FEATURE_CORE_LOW (ARM_EXT_V8),
2800 0xe8d00f8f, 0xfff00fff, "ldab%c\t%12-15r, [%16-19R]"},
2801 {ARM_FEATURE_CORE_LOW (ARM_EXT_V8),
2802 0xe8d00f9f, 0xfff00fff, "ldah%c\t%12-15r, [%16-19R]"},
2803 {ARM_FEATURE_CORE_LOW (ARM_EXT_V8),
2804 0xe8d00faf, 0xfff00fff, "lda%c\t%12-15r, [%16-19R]"},
2805 {ARM_FEATURE_CORE_LOW (ARM_EXT_V8),
2806 0xe8d00fcf, 0xfff00fff, "ldaexb%c\t%12-15r, [%16-19R]"},
2807 {ARM_FEATURE_CORE_LOW (ARM_EXT_V8),
2808 0xe8d00fdf, 0xfff00fff, "ldaexh%c\t%12-15r, [%16-19R]"},
2809 {ARM_FEATURE_CORE_LOW (ARM_EXT_V8),
2810 0xe8d00fef, 0xfff00fff, "ldaex%c\t%12-15r, [%16-19R]"},
2811 {ARM_FEATURE_CORE_LOW (ARM_EXT_V8),
2812 0xe8d000ff, 0xfff000ff, "ldaexd%c\t%12-15r, %8-11r, [%16-19R]"},
2813
2814 /* CRC32 instructions. */
2815 {ARM_FEATURE_COPROC (CRC_EXT_ARMV8),
2816 0xfac0f080, 0xfff0f0f0, "crc32b\t%8-11R, %16-19R, %0-3R"},
2817 {ARM_FEATURE_COPROC (CRC_EXT_ARMV8),
2818 0xfac0f090, 0xfff0f0f0, "crc32h\t%9-11R, %16-19R, %0-3R"},
2819 {ARM_FEATURE_COPROC (CRC_EXT_ARMV8),
2820 0xfac0f0a0, 0xfff0f0f0, "crc32w\t%8-11R, %16-19R, %0-3R"},
2821 {ARM_FEATURE_COPROC (CRC_EXT_ARMV8),
2822 0xfad0f080, 0xfff0f0f0, "crc32cb\t%8-11R, %16-19R, %0-3R"},
2823 {ARM_FEATURE_COPROC (CRC_EXT_ARMV8),
2824 0xfad0f090, 0xfff0f0f0, "crc32ch\t%8-11R, %16-19R, %0-3R"},
2825 {ARM_FEATURE_COPROC (CRC_EXT_ARMV8),
2826 0xfad0f0a0, 0xfff0f0f0, "crc32cw\t%8-11R, %16-19R, %0-3R"},
2827
2828 /* Speculation Barriers. */
2829 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2), 0xf3af8014, 0xffffffff, "csdb"},
2830 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2), 0xf3bf8f40, 0xffffffff, "ssbb"},
2831 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2), 0xf3bf8f44, 0xffffffff, "pssbb"},
2832
2833 /* V7 instructions. */
2834 {ARM_FEATURE_CORE_LOW (ARM_EXT_V7), 0xf910f000, 0xff70f000, "pli%c\t%a"},
2835 {ARM_FEATURE_CORE_LOW (ARM_EXT_V7), 0xf3af80f0, 0xfffffff0, "dbg%c\t#%0-3d"},
2836 {ARM_FEATURE_CORE_LOW (ARM_EXT_V8), 0xf3bf8f51, 0xfffffff3, "dmb%c\t%U"},
2837 {ARM_FEATURE_CORE_LOW (ARM_EXT_V8), 0xf3bf8f41, 0xfffffff3, "dsb%c\t%U"},
2838 {ARM_FEATURE_CORE_LOW (ARM_EXT_V7), 0xf3bf8f50, 0xfffffff0, "dmb%c\t%U"},
2839 {ARM_FEATURE_CORE_LOW (ARM_EXT_V7), 0xf3bf8f40, 0xfffffff0, "dsb%c\t%U"},
2840 {ARM_FEATURE_CORE_LOW (ARM_EXT_V7), 0xf3bf8f60, 0xfffffff0, "isb%c\t%U"},
2841 {ARM_FEATURE_CORE_LOW (ARM_EXT_DIV),
2842 0xfb90f0f0, 0xfff0f0f0, "sdiv%c\t%8-11r, %16-19r, %0-3r"},
2843 {ARM_FEATURE_CORE_LOW (ARM_EXT_DIV),
2844 0xfbb0f0f0, 0xfff0f0f0, "udiv%c\t%8-11r, %16-19r, %0-3r"},
2845
2846 /* Virtualization Extension instructions. */
2847 {ARM_FEATURE_CORE_LOW (ARM_EXT_VIRT), 0xf7e08000, 0xfff0f000, "hvc%c\t%V"},
2848 /* We skip ERET as that is SUBS pc, lr, #0. */
2849
2850 /* MP Extension instructions. */
2851 {ARM_FEATURE_CORE_LOW (ARM_EXT_MP), 0xf830f000, 0xff70f000, "pldw%c\t%a"},
2852
2853 /* Security extension instructions. */
2854 {ARM_FEATURE_CORE_LOW (ARM_EXT_SEC), 0xf7f08000, 0xfff0f000, "smc%c\t%K"},
2855
2856 /* ARMv8.5-A instructions. */
2857 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_SB), 0xf3bf8f70, 0xffffffff, "sb"},
2858
2859 /* Instructions defined in the basic V6T2 set. */
2860 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2), 0xf3af8000, 0xffffffff, "nop%c.w"},
2861 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2), 0xf3af8001, 0xffffffff, "yield%c.w"},
2862 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2), 0xf3af8002, 0xffffffff, "wfe%c.w"},
2863 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2), 0xf3af8003, 0xffffffff, "wfi%c.w"},
2864 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2), 0xf3af8004, 0xffffffff, "sev%c.w"},
2865 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2866 0xf3af8000, 0xffffff00, "nop%c.w\t{%0-7d}"},
2867 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2), 0xf7f0a000, 0xfff0f000, "udf%c.w\t%H"},
2868
2869 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_V6T2_V8M),
2870 0xf3bf8f2f, 0xffffffff, "clrex%c"},
2871 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2872 0xf3af8400, 0xffffff1f, "cpsie.w\t%7'a%6'i%5'f%X"},
2873 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2874 0xf3af8600, 0xffffff1f, "cpsid.w\t%7'a%6'i%5'f%X"},
2875 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2876 0xf3c08f00, 0xfff0ffff, "bxj%c\t%16-19r%x"},
2877 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2878 0xe810c000, 0xffd0ffff, "rfedb%c\t%16-19r%21'!"},
2879 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2880 0xe990c000, 0xffd0ffff, "rfeia%c\t%16-19r%21'!"},
2881 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2882 0xf3e08000, 0xffe0f000, "mrs%c\t%8-11r, %D"},
2883 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2884 0xf3af8100, 0xffffffe0, "cps\t#%0-4d%X"},
2885 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2886 0xe8d0f000, 0xfff0fff0, "tbb%c\t[%16-19r, %0-3r]%x"},
2887 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2888 0xe8d0f010, 0xfff0fff0, "tbh%c\t[%16-19r, %0-3r, lsl #1]%x"},
2889 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2890 0xf3af8500, 0xffffff00, "cpsie\t%7'a%6'i%5'f, #%0-4d%X"},
2891 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2892 0xf3af8700, 0xffffff00, "cpsid\t%7'a%6'i%5'f, #%0-4d%X"},
2893 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2894 0xf3de8f00, 0xffffff00, "subs%c\tpc, lr, #%0-7d"},
2895 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2896 0xf3808000, 0xffe0f000, "msr%c\t%C, %16-19r"},
2897 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_V6T2_V8M),
2898 0xe8500f00, 0xfff00fff, "ldrex%c\t%12-15r, [%16-19r]"},
2899 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_V6T2_V8M),
2900 0xe8d00f4f, 0xfff00fef, "ldrex%4?hb%c\t%12-15r, [%16-19r]"},
2901 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2902 0xe800c000, 0xffd0ffe0, "srsdb%c\t%16-19r%21'!, #%0-4d"},
2903 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2904 0xe980c000, 0xffd0ffe0, "srsia%c\t%16-19r%21'!, #%0-4d"},
2905 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2906 0xfa0ff080, 0xfffff0c0, "sxth%c.w\t%8-11r, %0-3r%R"},
2907 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2908 0xfa1ff080, 0xfffff0c0, "uxth%c.w\t%8-11r, %0-3r%R"},
2909 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2910 0xfa2ff080, 0xfffff0c0, "sxtb16%c\t%8-11r, %0-3r%R"},
2911 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2912 0xfa3ff080, 0xfffff0c0, "uxtb16%c\t%8-11r, %0-3r%R"},
2913 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2914 0xfa4ff080, 0xfffff0c0, "sxtb%c.w\t%8-11r, %0-3r%R"},
2915 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2916 0xfa5ff080, 0xfffff0c0, "uxtb%c.w\t%8-11r, %0-3r%R"},
2917 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_V6T2_V8M),
2918 0xe8400000, 0xfff000ff, "strex%c\t%8-11r, %12-15r, [%16-19r]"},
2919 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2920 0xe8d0007f, 0xfff000ff, "ldrexd%c\t%12-15r, %8-11r, [%16-19r]"},
2921 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2922 0xfa80f000, 0xfff0f0f0, "sadd8%c\t%8-11r, %16-19r, %0-3r"},
2923 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2924 0xfa80f010, 0xfff0f0f0, "qadd8%c\t%8-11r, %16-19r, %0-3r"},
2925 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2926 0xfa80f020, 0xfff0f0f0, "shadd8%c\t%8-11r, %16-19r, %0-3r"},
2927 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2928 0xfa80f040, 0xfff0f0f0, "uadd8%c\t%8-11r, %16-19r, %0-3r"},
2929 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2930 0xfa80f050, 0xfff0f0f0, "uqadd8%c\t%8-11r, %16-19r, %0-3r"},
2931 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2932 0xfa80f060, 0xfff0f0f0, "uhadd8%c\t%8-11r, %16-19r, %0-3r"},
2933 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2934 0xfa80f080, 0xfff0f0f0, "qadd%c\t%8-11r, %0-3r, %16-19r"},
2935 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2936 0xfa80f090, 0xfff0f0f0, "qdadd%c\t%8-11r, %0-3r, %16-19r"},
2937 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2938 0xfa80f0a0, 0xfff0f0f0, "qsub%c\t%8-11r, %0-3r, %16-19r"},
2939 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2940 0xfa80f0b0, 0xfff0f0f0, "qdsub%c\t%8-11r, %0-3r, %16-19r"},
2941 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2942 0xfa90f000, 0xfff0f0f0, "sadd16%c\t%8-11r, %16-19r, %0-3r"},
2943 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2944 0xfa90f010, 0xfff0f0f0, "qadd16%c\t%8-11r, %16-19r, %0-3r"},
2945 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2946 0xfa90f020, 0xfff0f0f0, "shadd16%c\t%8-11r, %16-19r, %0-3r"},
2947 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2948 0xfa90f040, 0xfff0f0f0, "uadd16%c\t%8-11r, %16-19r, %0-3r"},
2949 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2950 0xfa90f050, 0xfff0f0f0, "uqadd16%c\t%8-11r, %16-19r, %0-3r"},
2951 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2952 0xfa90f060, 0xfff0f0f0, "uhadd16%c\t%8-11r, %16-19r, %0-3r"},
2953 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2954 0xfa90f080, 0xfff0f0f0, "rev%c.w\t%8-11r, %16-19r"},
2955 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2956 0xfa90f090, 0xfff0f0f0, "rev16%c.w\t%8-11r, %16-19r"},
2957 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2958 0xfa90f0a0, 0xfff0f0f0, "rbit%c\t%8-11r, %16-19r"},
2959 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2960 0xfa90f0b0, 0xfff0f0f0, "revsh%c.w\t%8-11r, %16-19r"},
2961 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2962 0xfaa0f000, 0xfff0f0f0, "sasx%c\t%8-11r, %16-19r, %0-3r"},
2963 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2964 0xfaa0f010, 0xfff0f0f0, "qasx%c\t%8-11r, %16-19r, %0-3r"},
2965 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2966 0xfaa0f020, 0xfff0f0f0, "shasx%c\t%8-11r, %16-19r, %0-3r"},
2967 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2968 0xfaa0f040, 0xfff0f0f0, "uasx%c\t%8-11r, %16-19r, %0-3r"},
2969 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2970 0xfaa0f050, 0xfff0f0f0, "uqasx%c\t%8-11r, %16-19r, %0-3r"},
2971 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2972 0xfaa0f060, 0xfff0f0f0, "uhasx%c\t%8-11r, %16-19r, %0-3r"},
2973 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2974 0xfaa0f080, 0xfff0f0f0, "sel%c\t%8-11r, %16-19r, %0-3r"},
2975 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2976 0xfab0f080, 0xfff0f0f0, "clz%c\t%8-11r, %16-19r"},
2977 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2978 0xfac0f000, 0xfff0f0f0, "ssub8%c\t%8-11r, %16-19r, %0-3r"},
2979 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2980 0xfac0f010, 0xfff0f0f0, "qsub8%c\t%8-11r, %16-19r, %0-3r"},
2981 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2982 0xfac0f020, 0xfff0f0f0, "shsub8%c\t%8-11r, %16-19r, %0-3r"},
2983 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2984 0xfac0f040, 0xfff0f0f0, "usub8%c\t%8-11r, %16-19r, %0-3r"},
2985 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2986 0xfac0f050, 0xfff0f0f0, "uqsub8%c\t%8-11r, %16-19r, %0-3r"},
2987 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2988 0xfac0f060, 0xfff0f0f0, "uhsub8%c\t%8-11r, %16-19r, %0-3r"},
2989 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2990 0xfad0f000, 0xfff0f0f0, "ssub16%c\t%8-11r, %16-19r, %0-3r"},
2991 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2992 0xfad0f010, 0xfff0f0f0, "qsub16%c\t%8-11r, %16-19r, %0-3r"},
2993 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2994 0xfad0f020, 0xfff0f0f0, "shsub16%c\t%8-11r, %16-19r, %0-3r"},
2995 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2996 0xfad0f040, 0xfff0f0f0, "usub16%c\t%8-11r, %16-19r, %0-3r"},
2997 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
2998 0xfad0f050, 0xfff0f0f0, "uqsub16%c\t%8-11r, %16-19r, %0-3r"},
2999 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3000 0xfad0f060, 0xfff0f0f0, "uhsub16%c\t%8-11r, %16-19r, %0-3r"},
3001 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3002 0xfae0f000, 0xfff0f0f0, "ssax%c\t%8-11r, %16-19r, %0-3r"},
3003 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3004 0xfae0f010, 0xfff0f0f0, "qsax%c\t%8-11r, %16-19r, %0-3r"},
3005 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3006 0xfae0f020, 0xfff0f0f0, "shsax%c\t%8-11r, %16-19r, %0-3r"},
3007 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3008 0xfae0f040, 0xfff0f0f0, "usax%c\t%8-11r, %16-19r, %0-3r"},
3009 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3010 0xfae0f050, 0xfff0f0f0, "uqsax%c\t%8-11r, %16-19r, %0-3r"},
3011 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3012 0xfae0f060, 0xfff0f0f0, "uhsax%c\t%8-11r, %16-19r, %0-3r"},
3013 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3014 0xfb00f000, 0xfff0f0f0, "mul%c.w\t%8-11r, %16-19r, %0-3r"},
3015 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3016 0xfb70f000, 0xfff0f0f0, "usad8%c\t%8-11r, %16-19r, %0-3r"},
3017 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3018 0xfa00f000, 0xffe0f0f0, "lsl%20's%c.w\t%8-11R, %16-19R, %0-3R"},
3019 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3020 0xfa20f000, 0xffe0f0f0, "lsr%20's%c.w\t%8-11R, %16-19R, %0-3R"},
3021 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3022 0xfa40f000, 0xffe0f0f0, "asr%20's%c.w\t%8-11R, %16-19R, %0-3R"},
3023 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3024 0xfa60f000, 0xffe0f0f0, "ror%20's%c.w\t%8-11r, %16-19r, %0-3r"},
3025 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_V6T2_V8M),
3026 0xe8c00f40, 0xfff00fe0, "strex%4?hb%c\t%0-3r, %12-15r, [%16-19r]"},
3027 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3028 0xf3200000, 0xfff0f0e0, "ssat16%c\t%8-11r, #%0-4D, %16-19r"},
3029 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3030 0xf3a00000, 0xfff0f0e0, "usat16%c\t%8-11r, #%0-4d, %16-19r"},
3031 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3032 0xfb20f000, 0xfff0f0e0, "smuad%4'x%c\t%8-11r, %16-19r, %0-3r"},
3033 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3034 0xfb30f000, 0xfff0f0e0, "smulw%4?tb%c\t%8-11r, %16-19r, %0-3r"},
3035 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3036 0xfb40f000, 0xfff0f0e0, "smusd%4'x%c\t%8-11r, %16-19r, %0-3r"},
3037 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3038 0xfb50f000, 0xfff0f0e0, "smmul%4'r%c\t%8-11r, %16-19r, %0-3r"},
3039 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3040 0xfa00f080, 0xfff0f0c0, "sxtah%c\t%8-11r, %16-19r, %0-3r%R"},
3041 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3042 0xfa10f080, 0xfff0f0c0, "uxtah%c\t%8-11r, %16-19r, %0-3r%R"},
3043 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3044 0xfa20f080, 0xfff0f0c0, "sxtab16%c\t%8-11r, %16-19r, %0-3r%R"},
3045 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3046 0xfa30f080, 0xfff0f0c0, "uxtab16%c\t%8-11r, %16-19r, %0-3r%R"},
3047 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3048 0xfa40f080, 0xfff0f0c0, "sxtab%c\t%8-11r, %16-19r, %0-3r%R"},
3049 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3050 0xfa50f080, 0xfff0f0c0, "uxtab%c\t%8-11r, %16-19r, %0-3r%R"},
3051 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3052 0xfb10f000, 0xfff0f0c0, "smul%5?tb%4?tb%c\t%8-11r, %16-19r, %0-3r"},
3053 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3054 0xf36f0000, 0xffff8020, "bfc%c\t%8-11r, %E"},
3055 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3056 0xea100f00, 0xfff08f00, "tst%c.w\t%16-19r, %S"},
3057 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3058 0xea900f00, 0xfff08f00, "teq%c\t%16-19r, %S"},
3059 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3060 0xeb100f00, 0xfff08f00, "cmn%c.w\t%16-19r, %S"},
3061 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3062 0xebb00f00, 0xfff08f00, "cmp%c.w\t%16-19r, %S"},
3063 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3064 0xf0100f00, 0xfbf08f00, "tst%c.w\t%16-19r, %M"},
3065 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3066 0xf0900f00, 0xfbf08f00, "teq%c\t%16-19r, %M"},
3067 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3068 0xf1100f00, 0xfbf08f00, "cmn%c.w\t%16-19r, %M"},
3069 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3070 0xf1b00f00, 0xfbf08f00, "cmp%c.w\t%16-19r, %M"},
3071 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3072 0xea4f0000, 0xffef8000, "mov%20's%c.w\t%8-11r, %S"},
3073 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3074 0xea6f0000, 0xffef8000, "mvn%20's%c.w\t%8-11r, %S"},
3075 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3076 0xe8c00070, 0xfff000f0, "strexd%c\t%0-3r, %12-15r, %8-11r, [%16-19r]"},
3077 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3078 0xfb000000, 0xfff000f0, "mla%c\t%8-11r, %16-19r, %0-3r, %12-15r"},
3079 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3080 0xfb000010, 0xfff000f0, "mls%c\t%8-11r, %16-19r, %0-3r, %12-15r"},
3081 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3082 0xfb700000, 0xfff000f0, "usada8%c\t%8-11R, %16-19R, %0-3R, %12-15R"},
3083 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3084 0xfb800000, 0xfff000f0, "smull%c\t%12-15R, %8-11R, %16-19R, %0-3R"},
3085 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3086 0xfba00000, 0xfff000f0, "umull%c\t%12-15R, %8-11R, %16-19R, %0-3R"},
3087 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3088 0xfbc00000, 0xfff000f0, "smlal%c\t%12-15R, %8-11R, %16-19R, %0-3R"},
3089 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3090 0xfbe00000, 0xfff000f0, "umlal%c\t%12-15R, %8-11R, %16-19R, %0-3R"},
3091 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3092 0xfbe00060, 0xfff000f0, "umaal%c\t%12-15R, %8-11R, %16-19R, %0-3R"},
3093 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_V6T2_V8M),
3094 0xe8500f00, 0xfff00f00, "ldrex%c\t%12-15r, [%16-19r, #%0-7W]"},
3095 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3096 0xf04f0000, 0xfbef8000, "mov%20's%c.w\t%8-11r, %M"},
3097 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3098 0xf06f0000, 0xfbef8000, "mvn%20's%c.w\t%8-11r, %M"},
3099 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3100 0xf810f000, 0xff70f000, "pld%c\t%a"},
3101 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3102 0xfb200000, 0xfff000e0, "smlad%4'x%c\t%8-11R, %16-19R, %0-3R, %12-15R"},
3103 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3104 0xfb300000, 0xfff000e0, "smlaw%4?tb%c\t%8-11R, %16-19R, %0-3R, %12-15R"},
3105 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3106 0xfb400000, 0xfff000e0, "smlsd%4'x%c\t%8-11R, %16-19R, %0-3R, %12-15R"},
3107 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3108 0xfb500000, 0xfff000e0, "smmla%4'r%c\t%8-11R, %16-19R, %0-3R, %12-15R"},
3109 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3110 0xfb600000, 0xfff000e0, "smmls%4'r%c\t%8-11R, %16-19R, %0-3R, %12-15R"},
3111 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3112 0xfbc000c0, 0xfff000e0, "smlald%4'x%c\t%12-15R, %8-11R, %16-19R, %0-3R"},
3113 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3114 0xfbd000c0, 0xfff000e0, "smlsld%4'x%c\t%12-15R, %8-11R, %16-19R, %0-3R"},
3115 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3116 0xeac00000, 0xfff08030, "pkhbt%c\t%8-11r, %16-19r, %S"},
3117 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3118 0xeac00020, 0xfff08030, "pkhtb%c\t%8-11r, %16-19r, %S"},
3119 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3120 0xf3400000, 0xfff08020, "sbfx%c\t%8-11r, %16-19r, %F"},
3121 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3122 0xf3c00000, 0xfff08020, "ubfx%c\t%8-11r, %16-19r, %F"},
3123 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3124 0xf8000e00, 0xff900f00, "str%wt%c\t%12-15r, %a"},
3125 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3126 0xfb100000, 0xfff000c0,
3127 "smla%5?tb%4?tb%c\t%8-11r, %16-19r, %0-3r, %12-15r"},
3128 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3129 0xfbc00080, 0xfff000c0,
3130 "smlal%5?tb%4?tb%c\t%12-15r, %8-11r, %16-19r, %0-3r"},
3131 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3132 0xf3600000, 0xfff08020, "bfi%c\t%8-11r, %16-19r, %E"},
3133 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3134 0xf8100e00, 0xfe900f00, "ldr%wt%c\t%12-15r, %a"},
3135 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3136 0xf3000000, 0xffd08020, "ssat%c\t%8-11r, #%0-4D, %16-19r%s"},
3137 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3138 0xf3800000, 0xffd08020, "usat%c\t%8-11r, #%0-4d, %16-19r%s"},
3139 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3140 0xf2000000, 0xfbf08000, "addw%c\t%8-11r, %16-19r, %I"},
3141 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_V6T2_V8M),
3142 0xf2400000, 0xfbf08000, "movw%c\t%8-11r, %J"},
3143 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3144 0xf2a00000, 0xfbf08000, "subw%c\t%8-11r, %16-19r, %I"},
3145 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_V6T2_V8M),
3146 0xf2c00000, 0xfbf08000, "movt%c\t%8-11r, %J"},
3147 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3148 0xea000000, 0xffe08000, "and%20's%c.w\t%8-11r, %16-19r, %S"},
3149 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3150 0xea200000, 0xffe08000, "bic%20's%c.w\t%8-11r, %16-19r, %S"},
3151 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3152 0xea400000, 0xffe08000, "orr%20's%c.w\t%8-11r, %16-19r, %S"},
3153 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3154 0xea600000, 0xffe08000, "orn%20's%c\t%8-11r, %16-19r, %S"},
3155 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3156 0xea800000, 0xffe08000, "eor%20's%c.w\t%8-11r, %16-19r, %S"},
3157 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3158 0xeb000000, 0xffe08000, "add%20's%c.w\t%8-11r, %16-19r, %S"},
3159 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3160 0xeb400000, 0xffe08000, "adc%20's%c.w\t%8-11r, %16-19r, %S"},
3161 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3162 0xeb600000, 0xffe08000, "sbc%20's%c.w\t%8-11r, %16-19r, %S"},
3163 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3164 0xeba00000, 0xffe08000, "sub%20's%c.w\t%8-11r, %16-19r, %S"},
3165 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3166 0xebc00000, 0xffe08000, "rsb%20's%c\t%8-11r, %16-19r, %S"},
3167 {ARM_FEATURE_CORE_HIGH (ARM_EXT2_V6T2_V8M),
3168 0xe8400000, 0xfff00000, "strex%c\t%8-11r, %12-15r, [%16-19r, #%0-7W]"},
3169 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3170 0xf0000000, 0xfbe08000, "and%20's%c.w\t%8-11r, %16-19r, %M"},
3171 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3172 0xf0200000, 0xfbe08000, "bic%20's%c.w\t%8-11r, %16-19r, %M"},
3173 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3174 0xf0400000, 0xfbe08000, "orr%20's%c.w\t%8-11r, %16-19r, %M"},
3175 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3176 0xf0600000, 0xfbe08000, "orn%20's%c\t%8-11r, %16-19r, %M"},
3177 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3178 0xf0800000, 0xfbe08000, "eor%20's%c.w\t%8-11r, %16-19r, %M"},
3179 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3180 0xf1000000, 0xfbe08000, "add%20's%c.w\t%8-11r, %16-19r, %M"},
3181 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3182 0xf1400000, 0xfbe08000, "adc%20's%c.w\t%8-11r, %16-19r, %M"},
3183 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3184 0xf1600000, 0xfbe08000, "sbc%20's%c.w\t%8-11r, %16-19r, %M"},
3185 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3186 0xf1a00000, 0xfbe08000, "sub%20's%c.w\t%8-11r, %16-19r, %M"},
3187 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3188 0xf1c00000, 0xfbe08000, "rsb%20's%c\t%8-11r, %16-19r, %M"},
3189 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3190 0xe8800000, 0xffd00000, "stmia%c.w\t%16-19r%21'!, %m"},
3191 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3192 0xe8900000, 0xffd00000, "ldmia%c.w\t%16-19r%21'!, %m"},
3193 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3194 0xe9000000, 0xffd00000, "stmdb%c\t%16-19r%21'!, %m"},
3195 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3196 0xe9100000, 0xffd00000, "ldmdb%c\t%16-19r%21'!, %m"},
3197 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3198 0xe9c00000, 0xffd000ff, "strd%c\t%12-15r, %8-11r, [%16-19r]"},
3199 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3200 0xe9d00000, 0xffd000ff, "ldrd%c\t%12-15r, %8-11r, [%16-19r]"},
3201 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3202 0xe9400000, 0xff500000,
3203 "strd%c\t%12-15r, %8-11r, [%16-19r, #%23`-%0-7W]%21'!%L"},
3204 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3205 0xe9500000, 0xff500000,
3206 "ldrd%c\t%12-15r, %8-11r, [%16-19r, #%23`-%0-7W]%21'!%L"},
3207 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3208 0xe8600000, 0xff700000,
3209 "strd%c\t%12-15r, %8-11r, [%16-19r], #%23`-%0-7W%L"},
3210 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3211 0xe8700000, 0xff700000,
3212 "ldrd%c\t%12-15r, %8-11r, [%16-19r], #%23`-%0-7W%L"},
3213 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3214 0xf8000000, 0xff100000, "str%w%c.w\t%12-15r, %a"},
3215 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3216 0xf8100000, 0xfe100000, "ldr%w%c.w\t%12-15r, %a"},
3217
3218 /* Filter out Bcc with cond=E or F, which are used for other instructions. */
3219 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3220 0xf3c08000, 0xfbc0d000, "undefined (bcc, cond=0xF)"},
3221 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3222 0xf3808000, 0xfbc0d000, "undefined (bcc, cond=0xE)"},
3223 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3224 0xf0008000, 0xf800d000, "b%22-25c.w\t%b%X"},
3225 {ARM_FEATURE_CORE_LOW (ARM_EXT_V6T2),
3226 0xf0009000, 0xf800d000, "b%c.w\t%B%x"},
3227
3228 /* These have been 32-bit since the invention of Thumb. */
3229 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T),
3230 0xf000c000, 0xf800d001, "blx%c\t%B%x"},
3231 {ARM_FEATURE_CORE_LOW (ARM_EXT_V4T),
3232 0xf000d000, 0xf800d000, "bl%c\t%B%x"},
3233
3234 /* Fallback. */
3235 {ARM_FEATURE_CORE_LOW (ARM_EXT_V1),
3236 0x00000000, 0x00000000, UNDEFINED_INSTRUCTION},
3237 {ARM_FEATURE_CORE_LOW (0), 0, 0, 0}
3238 };
3239
3240 static const char *const arm_conditional[] =
3241 {"eq", "ne", "cs", "cc", "mi", "pl", "vs", "vc",
3242 "hi", "ls", "ge", "lt", "gt", "le", "al", "<und>", ""};
3243
3244 static const char *const arm_fp_const[] =
3245 {"0.0", "1.0", "2.0", "3.0", "4.0", "5.0", "0.5", "10.0"};
3246
3247 static const char *const arm_shift[] =
3248 {"lsl", "lsr", "asr", "ror"};
3249
3250 typedef struct
3251 {
3252 const char *name;
3253 const char *description;
3254 const char *reg_names[16];
3255 }
3256 arm_regname;
3257
3258 static const arm_regname regnames[] =
3259 {
3260 { "reg-names-raw", N_("Select raw register names"),
3261 { "r0", "r1", "r2", "r3", "r4", "r5", "r6", "r7", "r8", "r9", "r10", "r11", "r12", "r13", "r14", "r15"}},
3262 { "reg-names-gcc", N_("Select register names used by GCC"),
3263 { "r0", "r1", "r2", "r3", "r4", "r5", "r6", "r7", "r8", "r9", "sl", "fp", "ip", "sp", "lr", "pc" }},
3264 { "reg-names-std", N_("Select register names used in ARM's ISA documentation"),
3265 { "r0", "r1", "r2", "r3", "r4", "r5", "r6", "r7", "r8", "r9", "r10", "r11", "r12", "sp", "lr", "pc" }},
3266 { "force-thumb", N_("Assume all insns are Thumb insns"), {NULL} },
3267 { "no-force-thumb", N_("Examine preceding label to determine an insn's type"), {NULL} },
3268 { "reg-names-apcs", N_("Select register names used in the APCS"),
3269 { "a1", "a2", "a3", "a4", "v1", "v2", "v3", "v4", "v5", "v6", "sl", "fp", "ip", "sp", "lr", "pc" }},
3270 { "reg-names-atpcs", N_("Select register names used in the ATPCS"),
3271 { "a1", "a2", "a3", "a4", "v1", "v2", "v3", "v4", "v5", "v6", "v7", "v8", "IP", "SP", "LR", "PC" }},
3272 { "reg-names-special-atpcs", N_("Select special register names used in the ATPCS"),
3273 { "a1", "a2", "a3", "a4", "v1", "v2", "v3", "WR", "v5", "SB", "SL", "FP", "IP", "SP", "LR", "PC" }}
3274 };
3275
3276 static const char *const iwmmxt_wwnames[] =
3277 {"b", "h", "w", "d"};
3278
3279 static const char *const iwmmxt_wwssnames[] =
3280 {"b", "bus", "bc", "bss",
3281 "h", "hus", "hc", "hss",
3282 "w", "wus", "wc", "wss",
3283 "d", "dus", "dc", "dss"
3284 };
3285
3286 static const char *const iwmmxt_regnames[] =
3287 { "wr0", "wr1", "wr2", "wr3", "wr4", "wr5", "wr6", "wr7",
3288 "wr8", "wr9", "wr10", "wr11", "wr12", "wr13", "wr14", "wr15"
3289 };
3290
3291 static const char *const iwmmxt_cregnames[] =
3292 { "wcid", "wcon", "wcssf", "wcasf", "reserved", "reserved", "reserved", "reserved",
3293 "wcgr0", "wcgr1", "wcgr2", "wcgr3", "reserved", "reserved", "reserved", "reserved"
3294 };
3295
3296 /* Default to GCC register name set. */
3297 static unsigned int regname_selected = 1;
3298
3299 #define NUM_ARM_OPTIONS ARRAY_SIZE (regnames)
3300 #define arm_regnames regnames[regname_selected].reg_names
3301
3302 static bfd_boolean force_thumb = FALSE;
3303
3304 /* Current IT instruction state. This contains the same state as the IT
3305 bits in the CPSR. */
3306 static unsigned int ifthen_state;
3307 /* IT state for the next instruction. */
3308 static unsigned int ifthen_next_state;
3309 /* The address of the insn for which the IT state is valid. */
3310 static bfd_vma ifthen_address;
3311 #define IFTHEN_COND ((ifthen_state >> 4) & 0xf)
3312 /* Indicates that the current Conditional state is unconditional or outside
3313 an IT block. */
3314 #define COND_UNCOND 16
3315
3316 \f
3317 /* Functions. */
3318
3319 /* Decode a bitfield of the form matching regexp (N(-N)?,)*N(-N)?.
3320 Returns pointer to following character of the format string and
3321 fills in *VALUEP and *WIDTHP with the extracted value and number of
3322 bits extracted. WIDTHP can be NULL. */
3323
3324 static const char *
3325 arm_decode_bitfield (const char *ptr,
3326 unsigned long insn,
3327 unsigned long *valuep,
3328 int *widthp)
3329 {
3330 unsigned long value = 0;
3331 int width = 0;
3332
3333 do
3334 {
3335 int start, end;
3336 int bits;
3337
3338 for (start = 0; *ptr >= '0' && *ptr <= '9'; ptr++)
3339 start = start * 10 + *ptr - '0';
3340 if (*ptr == '-')
3341 for (end = 0, ptr++; *ptr >= '0' && *ptr <= '9'; ptr++)
3342 end = end * 10 + *ptr - '0';
3343 else
3344 end = start;
3345 bits = end - start;
3346 if (bits < 0)
3347 abort ();
3348 value |= ((insn >> start) & ((2ul << bits) - 1)) << width;
3349 width += bits + 1;
3350 }
3351 while (*ptr++ == ',');
3352 *valuep = value;
3353 if (widthp)
3354 *widthp = width;
3355 return ptr - 1;
3356 }
3357
3358 static void
3359 arm_decode_shift (long given, fprintf_ftype func, void *stream,
3360 bfd_boolean print_shift)
3361 {
3362 func (stream, "%s", arm_regnames[given & 0xf]);
3363
3364 if ((given & 0xff0) != 0)
3365 {
3366 if ((given & 0x10) == 0)
3367 {
3368 int amount = (given & 0xf80) >> 7;
3369 int shift = (given & 0x60) >> 5;
3370
3371 if (amount == 0)
3372 {
3373 if (shift == 3)
3374 {
3375 func (stream, ", rrx");
3376 return;
3377 }
3378
3379 amount = 32;
3380 }
3381
3382 if (print_shift)
3383 func (stream, ", %s #%d", arm_shift[shift], amount);
3384 else
3385 func (stream, ", #%d", amount);
3386 }
3387 else if ((given & 0x80) == 0x80)
3388 func (stream, "\t; <illegal shifter operand>");
3389 else if (print_shift)
3390 func (stream, ", %s %s", arm_shift[(given & 0x60) >> 5],
3391 arm_regnames[(given & 0xf00) >> 8]);
3392 else
3393 func (stream, ", %s", arm_regnames[(given & 0xf00) >> 8]);
3394 }
3395 }
3396
3397 #define W_BIT 21
3398 #define I_BIT 22
3399 #define U_BIT 23
3400 #define P_BIT 24
3401
3402 #define WRITEBACK_BIT_SET (given & (1 << W_BIT))
3403 #define IMMEDIATE_BIT_SET (given & (1 << I_BIT))
3404 #define NEGATIVE_BIT_SET ((given & (1 << U_BIT)) == 0)
3405 #define PRE_BIT_SET (given & (1 << P_BIT))
3406
3407 /* Print one coprocessor instruction on INFO->STREAM.
3408 Return TRUE if the instuction matched, FALSE if this is not a
3409 recognised coprocessor instruction. */
3410
3411 static bfd_boolean
3412 print_insn_coprocessor (bfd_vma pc,
3413 struct disassemble_info *info,
3414 long given,
3415 bfd_boolean thumb)
3416 {
3417 const struct opcode32 *insn;
3418 void *stream = info->stream;
3419 fprintf_ftype func = info->fprintf_func;
3420 unsigned long mask;
3421 unsigned long value = 0;
3422 int cond;
3423 int cp_num;
3424 struct arm_private_data *private_data = info->private_data;
3425 arm_feature_set allowed_arches = ARM_ARCH_NONE;
3426
3427 allowed_arches = private_data->features;
3428
3429 for (insn = coprocessor_opcodes; insn->assembler; insn++)
3430 {
3431 unsigned long u_reg = 16;
3432 bfd_boolean is_unpredictable = FALSE;
3433 signed long value_in_comment = 0;
3434 const char *c;
3435
3436 if (ARM_FEATURE_ZERO (insn->arch))
3437 switch (insn->value)
3438 {
3439 case SENTINEL_IWMMXT_START:
3440 if (info->mach != bfd_mach_arm_XScale
3441 && info->mach != bfd_mach_arm_iWMMXt
3442 && info->mach != bfd_mach_arm_iWMMXt2)
3443 do
3444 insn++;
3445 while ((! ARM_FEATURE_ZERO (insn->arch))
3446 && insn->value != SENTINEL_IWMMXT_END);
3447 continue;
3448
3449 case SENTINEL_IWMMXT_END:
3450 continue;
3451
3452 case SENTINEL_GENERIC_START:
3453 allowed_arches = private_data->features;
3454 continue;
3455
3456 default:
3457 abort ();
3458 }
3459
3460 mask = insn->mask;
3461 value = insn->value;
3462 cp_num = (given >> 8) & 0xf;
3463
3464 if (thumb)
3465 {
3466 /* The high 4 bits are 0xe for Arm conditional instructions, and
3467 0xe for arm unconditional instructions. The rest of the
3468 encoding is the same. */
3469 mask |= 0xf0000000;
3470 value |= 0xe0000000;
3471 if (ifthen_state)
3472 cond = IFTHEN_COND;
3473 else
3474 cond = COND_UNCOND;
3475 }
3476 else
3477 {
3478 /* Only match unconditional instuctions against unconditional
3479 patterns. */
3480 if ((given & 0xf0000000) == 0xf0000000)
3481 {
3482 mask |= 0xf0000000;
3483 cond = COND_UNCOND;
3484 }
3485 else
3486 {
3487 cond = (given >> 28) & 0xf;
3488 if (cond == 0xe)
3489 cond = COND_UNCOND;
3490 }
3491 }
3492
3493 if ((given & mask) != value)
3494 continue;
3495
3496 if (! ARM_CPU_HAS_FEATURE (insn->arch, allowed_arches))
3497 continue;
3498
3499 if (insn->value == 0xfe000010 /* mcr2 */
3500 || insn->value == 0xfe100010 /* mrc2 */
3501 || insn->value == 0xfc100000 /* ldc2 */
3502 || insn->value == 0xfc000000) /* stc2 */
3503 {
3504 if (cp_num == 9 || cp_num == 10 || cp_num == 11)
3505 is_unpredictable = TRUE;
3506 }
3507 else if (insn->value == 0x0e000000 /* cdp */
3508 || insn->value == 0xfe000000 /* cdp2 */
3509 || insn->value == 0x0e000010 /* mcr */
3510 || insn->value == 0x0e100010 /* mrc */
3511 || insn->value == 0x0c100000 /* ldc */
3512 || insn->value == 0x0c000000) /* stc */
3513 {
3514 /* Floating-point instructions. */
3515 if (cp_num == 9 || cp_num == 10 || cp_num == 11)
3516 continue;
3517 }
3518
3519 for (c = insn->assembler; *c; c++)
3520 {
3521 if (*c == '%')
3522 {
3523 switch (*++c)
3524 {
3525 case '%':
3526 func (stream, "%%");
3527 break;
3528
3529 case 'A':
3530 {
3531 int rn = (given >> 16) & 0xf;
3532 bfd_vma offset = given & 0xff;
3533
3534 func (stream, "[%s", arm_regnames [(given >> 16) & 0xf]);
3535
3536 if (PRE_BIT_SET || WRITEBACK_BIT_SET)
3537 {
3538 /* Not unindexed. The offset is scaled. */
3539 if (cp_num == 9)
3540 /* vldr.16/vstr.16 will shift the address
3541 left by 1 bit only. */
3542 offset = offset * 2;
3543 else
3544 offset = offset * 4;
3545
3546 if (NEGATIVE_BIT_SET)
3547 offset = - offset;
3548 if (rn != 15)
3549 value_in_comment = offset;
3550 }
3551
3552 if (PRE_BIT_SET)
3553 {
3554 if (offset)
3555 func (stream, ", #%d]%s",
3556 (int) offset,
3557 WRITEBACK_BIT_SET ? "!" : "");
3558 else if (NEGATIVE_BIT_SET)
3559 func (stream, ", #-0]");
3560 else
3561 func (stream, "]");
3562 }
3563 else
3564 {
3565 func (stream, "]");
3566
3567 if (WRITEBACK_BIT_SET)
3568 {
3569 if (offset)
3570 func (stream, ", #%d", (int) offset);
3571 else if (NEGATIVE_BIT_SET)
3572 func (stream, ", #-0");
3573 }
3574 else
3575 {
3576 func (stream, ", {%s%d}",
3577 (NEGATIVE_BIT_SET && !offset) ? "-" : "",
3578 (int) offset);
3579 value_in_comment = offset;
3580 }
3581 }
3582 if (rn == 15 && (PRE_BIT_SET || WRITEBACK_BIT_SET))
3583 {
3584 func (stream, "\t; ");
3585 /* For unaligned PCs, apply off-by-alignment
3586 correction. */
3587 info->print_address_func (offset + pc
3588 + info->bytes_per_chunk * 2
3589 - (pc & 3),
3590 info);
3591 }
3592 }
3593 break;
3594
3595 case 'B':
3596 {
3597 int regno = ((given >> 12) & 0xf) | ((given >> (22 - 4)) & 0x10);
3598 int offset = (given >> 1) & 0x3f;
3599
3600 if (offset == 1)
3601 func (stream, "{d%d}", regno);
3602 else if (regno + offset > 32)
3603 func (stream, "{d%d-<overflow reg d%d>}", regno, regno + offset - 1);
3604 else
3605 func (stream, "{d%d-d%d}", regno, regno + offset - 1);
3606 }
3607 break;
3608
3609 case 'u':
3610 if (cond != COND_UNCOND)
3611 is_unpredictable = TRUE;
3612
3613 /* Fall through. */
3614 case 'c':
3615 if (cond != COND_UNCOND && cp_num == 9)
3616 is_unpredictable = TRUE;
3617
3618 func (stream, "%s", arm_conditional[cond]);
3619 break;
3620
3621 case 'I':
3622 /* Print a Cirrus/DSP shift immediate. */
3623 /* Immediates are 7bit signed ints with bits 0..3 in
3624 bits 0..3 of opcode and bits 4..6 in bits 5..7
3625 of opcode. */
3626 {
3627 int imm;
3628
3629 imm = (given & 0xf) | ((given & 0xe0) >> 1);
3630
3631 /* Is ``imm'' a negative number? */
3632 if (imm & 0x40)
3633 imm -= 0x80;
3634
3635 func (stream, "%d", imm);
3636 }
3637
3638 break;
3639
3640 case 'F':
3641 switch (given & 0x00408000)
3642 {
3643 case 0:
3644 func (stream, "4");
3645 break;
3646 case 0x8000:
3647 func (stream, "1");
3648 break;
3649 case 0x00400000:
3650 func (stream, "2");
3651 break;
3652 default:
3653 func (stream, "3");
3654 }
3655 break;
3656
3657 case 'P':
3658 switch (given & 0x00080080)
3659 {
3660 case 0:
3661 func (stream, "s");
3662 break;
3663 case 0x80:
3664 func (stream, "d");
3665 break;
3666 case 0x00080000:
3667 func (stream, "e");
3668 break;
3669 default:
3670 func (stream, _("<illegal precision>"));
3671 break;
3672 }
3673 break;
3674
3675 case 'Q':
3676 switch (given & 0x00408000)
3677 {
3678 case 0:
3679 func (stream, "s");
3680 break;
3681 case 0x8000:
3682 func (stream, "d");
3683 break;
3684 case 0x00400000:
3685 func (stream, "e");
3686 break;
3687 default:
3688 func (stream, "p");
3689 break;
3690 }
3691 break;
3692
3693 case 'R':
3694 switch (given & 0x60)
3695 {
3696 case 0:
3697 break;
3698 case 0x20:
3699 func (stream, "p");
3700 break;
3701 case 0x40:
3702 func (stream, "m");
3703 break;
3704 default:
3705 func (stream, "z");
3706 break;
3707 }
3708 break;
3709
3710 case '0': case '1': case '2': case '3': case '4':
3711 case '5': case '6': case '7': case '8': case '9':
3712 {
3713 int width;
3714
3715 c = arm_decode_bitfield (c, given, &value, &width);
3716
3717 switch (*c)
3718 {
3719 case 'R':
3720 if (value == 15)
3721 is_unpredictable = TRUE;
3722 /* Fall through. */
3723 case 'r':
3724 if (c[1] == 'u')
3725 {
3726 /* Eat the 'u' character. */
3727 ++ c;
3728
3729 if (u_reg == value)
3730 is_unpredictable = TRUE;
3731 u_reg = value;
3732 }
3733 func (stream, "%s", arm_regnames[value]);
3734 break;
3735 case 'V':
3736 if (given & (1 << 6))
3737 goto Q;
3738 /* FALLTHROUGH */
3739 case 'D':
3740 func (stream, "d%ld", value);
3741 break;
3742 case 'Q':
3743 Q:
3744 if (value & 1)
3745 func (stream, "<illegal reg q%ld.5>", value >> 1);
3746 else
3747 func (stream, "q%ld", value >> 1);
3748 break;
3749 case 'd':
3750 func (stream, "%ld", value);
3751 value_in_comment = value;
3752 break;
3753 case 'E':
3754 {
3755 /* Converts immediate 8 bit back to float value. */
3756 unsigned floatVal = (value & 0x80) << 24
3757 | (value & 0x3F) << 19
3758 | ((value & 0x40) ? (0xF8 << 22) : (1 << 30));
3759
3760 /* Quarter float have a maximum value of 31.0.
3761 Get floating point value multiplied by 1e7.
3762 The maximum value stays in limit of a 32-bit int. */
3763 unsigned decVal =
3764 (78125 << (((floatVal >> 23) & 0xFF) - 124)) *
3765 (16 + (value & 0xF));
3766
3767 if (!(decVal % 1000000))
3768 func (stream, "%ld\t; 0x%08x %c%u.%01u", value,
3769 floatVal, value & 0x80 ? '-' : ' ',
3770 decVal / 10000000,
3771 decVal % 10000000 / 1000000);
3772 else if (!(decVal % 10000))
3773 func (stream, "%ld\t; 0x%08x %c%u.%03u", value,
3774 floatVal, value & 0x80 ? '-' : ' ',
3775 decVal / 10000000,
3776 decVal % 10000000 / 10000);
3777 else
3778 func (stream, "%ld\t; 0x%08x %c%u.%07u", value,
3779 floatVal, value & 0x80 ? '-' : ' ',
3780 decVal / 10000000, decVal % 10000000);
3781 break;
3782 }
3783 case 'k':
3784 {
3785 int from = (given & (1 << 7)) ? 32 : 16;
3786 func (stream, "%ld", from - value);
3787 }
3788 break;
3789
3790 case 'f':
3791 if (value > 7)
3792 func (stream, "#%s", arm_fp_const[value & 7]);
3793 else
3794 func (stream, "f%ld", value);
3795 break;
3796
3797 case 'w':
3798 if (width == 2)
3799 func (stream, "%s", iwmmxt_wwnames[value]);
3800 else
3801 func (stream, "%s", iwmmxt_wwssnames[value]);
3802 break;
3803
3804 case 'g':
3805 func (stream, "%s", iwmmxt_regnames[value]);
3806 break;
3807 case 'G':
3808 func (stream, "%s", iwmmxt_cregnames[value]);
3809 break;
3810
3811 case 'x':
3812 func (stream, "0x%lx", (value & 0xffffffffUL));
3813 break;
3814
3815 case 'c':
3816 switch (value)
3817 {
3818 case 0:
3819 func (stream, "eq");
3820 break;
3821
3822 case 1:
3823 func (stream, "vs");
3824 break;
3825
3826 case 2:
3827 func (stream, "ge");
3828 break;
3829
3830 case 3:
3831 func (stream, "gt");
3832 break;
3833
3834 default:
3835 func (stream, "??");
3836 break;
3837 }
3838 break;
3839
3840 case '`':
3841 c++;
3842 if (value == 0)
3843 func (stream, "%c", *c);
3844 break;
3845 case '\'':
3846 c++;
3847 if (value == ((1ul << width) - 1))
3848 func (stream, "%c", *c);
3849 break;
3850 case '?':
3851 func (stream, "%c", c[(1 << width) - (int) value]);
3852 c += 1 << width;
3853 break;
3854 default:
3855 abort ();
3856 }
3857 }
3858 break;
3859
3860 case 'y':
3861 case 'z':
3862 {
3863 int single = *c++ == 'y';
3864 int regno;
3865
3866 switch (*c)
3867 {
3868 case '4': /* Sm pair */
3869 case '0': /* Sm, Dm */
3870 regno = given & 0x0000000f;
3871 if (single)
3872 {
3873 regno <<= 1;
3874 regno += (given >> 5) & 1;
3875 }
3876 else
3877 regno += ((given >> 5) & 1) << 4;
3878 break;
3879
3880 case '1': /* Sd, Dd */
3881 regno = (given >> 12) & 0x0000000f;
3882 if (single)
3883 {
3884 regno <<= 1;
3885 regno += (given >> 22) & 1;
3886 }
3887 else
3888 regno += ((given >> 22) & 1) << 4;
3889 break;
3890
3891 case '2': /* Sn, Dn */
3892 regno = (given >> 16) & 0x0000000f;
3893 if (single)
3894 {
3895 regno <<= 1;
3896 regno += (given >> 7) & 1;
3897 }
3898 else
3899 regno += ((given >> 7) & 1) << 4;
3900 break;
3901
3902 case '3': /* List */
3903 func (stream, "{");
3904 regno = (given >> 12) & 0x0000000f;
3905 if (single)
3906 {
3907 regno <<= 1;
3908 regno += (given >> 22) & 1;
3909 }
3910 else
3911 regno += ((given >> 22) & 1) << 4;
3912 break;
3913
3914 default:
3915 abort ();
3916 }
3917
3918 func (stream, "%c%d", single ? 's' : 'd', regno);
3919
3920 if (*c == '3')
3921 {
3922 int count = given & 0xff;
3923
3924 if (single == 0)
3925 count >>= 1;
3926
3927 if (--count)
3928 {
3929 func (stream, "-%c%d",
3930 single ? 's' : 'd',
3931 regno + count);
3932 }
3933
3934 func (stream, "}");
3935 }
3936 else if (*c == '4')
3937 func (stream, ", %c%d", single ? 's' : 'd',
3938 regno + 1);
3939 }
3940 break;
3941
3942 case 'L':
3943 switch (given & 0x00400100)
3944 {
3945 case 0x00000000: func (stream, "b"); break;
3946 case 0x00400000: func (stream, "h"); break;
3947 case 0x00000100: func (stream, "w"); break;
3948 case 0x00400100: func (stream, "d"); break;
3949 default:
3950 break;
3951 }
3952 break;
3953
3954 case 'Z':
3955 {
3956 /* given (20, 23) | given (0, 3) */
3957 value = ((given >> 16) & 0xf0) | (given & 0xf);
3958 func (stream, "%d", (int) value);
3959 }
3960 break;
3961
3962 case 'l':
3963 /* This is like the 'A' operator, except that if
3964 the width field "M" is zero, then the offset is
3965 *not* multiplied by four. */
3966 {
3967 int offset = given & 0xff;
3968 int multiplier = (given & 0x00000100) ? 4 : 1;
3969
3970 func (stream, "[%s", arm_regnames [(given >> 16) & 0xf]);
3971
3972 if (multiplier > 1)
3973 {
3974 value_in_comment = offset * multiplier;
3975 if (NEGATIVE_BIT_SET)
3976 value_in_comment = - value_in_comment;
3977 }
3978
3979 if (offset)
3980 {
3981 if (PRE_BIT_SET)
3982 func (stream, ", #%s%d]%s",
3983 NEGATIVE_BIT_SET ? "-" : "",
3984 offset * multiplier,
3985 WRITEBACK_BIT_SET ? "!" : "");
3986 else
3987 func (stream, "], #%s%d",
3988 NEGATIVE_BIT_SET ? "-" : "",
3989 offset * multiplier);
3990 }
3991 else
3992 func (stream, "]");
3993 }
3994 break;
3995
3996 case 'r':
3997 {
3998 int imm4 = (given >> 4) & 0xf;
3999 int puw_bits = ((given >> 22) & 6) | ((given >> W_BIT) & 1);
4000 int ubit = ! NEGATIVE_BIT_SET;
4001 const char *rm = arm_regnames [given & 0xf];
4002 const char *rn = arm_regnames [(given >> 16) & 0xf];
4003
4004 switch (puw_bits)
4005 {
4006 case 1:
4007 case 3:
4008 func (stream, "[%s], %c%s", rn, ubit ? '+' : '-', rm);
4009 if (imm4)
4010 func (stream, ", lsl #%d", imm4);
4011 break;
4012
4013 case 4:
4014 case 5:
4015 case 6:
4016 case 7:
4017 func (stream, "[%s, %c%s", rn, ubit ? '+' : '-', rm);
4018 if (imm4 > 0)
4019 func (stream, ", lsl #%d", imm4);
4020 func (stream, "]");
4021 if (puw_bits == 5 || puw_bits == 7)
4022 func (stream, "!");
4023 break;
4024
4025 default:
4026 func (stream, "INVALID");
4027 }
4028 }
4029 break;
4030
4031 case 'i':
4032 {
4033 long imm5;
4034 imm5 = ((given & 0x100) >> 4) | (given & 0xf);
4035 func (stream, "%ld", (imm5 == 0) ? 32 : imm5);
4036 }
4037 break;
4038
4039 default:
4040 abort ();
4041 }
4042 }
4043 else
4044 func (stream, "%c", *c);
4045 }
4046
4047 if (value_in_comment > 32 || value_in_comment < -16)
4048 func (stream, "\t; 0x%lx", (value_in_comment & 0xffffffffUL));
4049
4050 if (is_unpredictable)
4051 func (stream, UNPREDICTABLE_INSTRUCTION);
4052
4053 return TRUE;
4054 }
4055 return FALSE;
4056 }
4057
4058 /* Decodes and prints ARM addressing modes. Returns the offset
4059 used in the address, if any, if it is worthwhile printing the
4060 offset as a hexadecimal value in a comment at the end of the
4061 line of disassembly. */
4062
4063 static signed long
4064 print_arm_address (bfd_vma pc, struct disassemble_info *info, long given)
4065 {
4066 void *stream = info->stream;
4067 fprintf_ftype func = info->fprintf_func;
4068 bfd_vma offset = 0;
4069
4070 if (((given & 0x000f0000) == 0x000f0000)
4071 && ((given & 0x02000000) == 0))
4072 {
4073 offset = given & 0xfff;
4074
4075 func (stream, "[pc");
4076
4077 if (PRE_BIT_SET)
4078 {
4079 /* Pre-indexed. Elide offset of positive zero when
4080 non-writeback. */
4081 if (WRITEBACK_BIT_SET || NEGATIVE_BIT_SET || offset)
4082 func (stream, ", #%s%d", NEGATIVE_BIT_SET ? "-" : "", (int) offset);
4083
4084 if (NEGATIVE_BIT_SET)
4085 offset = -offset;
4086
4087 offset += pc + 8;
4088
4089 /* Cope with the possibility of write-back
4090 being used. Probably a very dangerous thing
4091 for the programmer to do, but who are we to
4092 argue ? */
4093 func (stream, "]%s", WRITEBACK_BIT_SET ? "!" : "");
4094 }
4095 else /* Post indexed. */
4096 {
4097 func (stream, "], #%s%d", NEGATIVE_BIT_SET ? "-" : "", (int) offset);
4098
4099 /* Ie ignore the offset. */
4100 offset = pc + 8;
4101 }
4102
4103 func (stream, "\t; ");
4104 info->print_address_func (offset, info);
4105 offset = 0;
4106 }
4107 else
4108 {
4109 func (stream, "[%s",
4110 arm_regnames[(given >> 16) & 0xf]);
4111
4112 if (PRE_BIT_SET)
4113 {
4114 if ((given & 0x02000000) == 0)
4115 {
4116 /* Elide offset of positive zero when non-writeback. */
4117 offset = given & 0xfff;
4118 if (WRITEBACK_BIT_SET || NEGATIVE_BIT_SET || offset)
4119 func (stream, ", #%s%d", NEGATIVE_BIT_SET ? "-" : "", (int) offset);
4120 }
4121 else
4122 {
4123 func (stream, ", %s", NEGATIVE_BIT_SET ? "-" : "");
4124 arm_decode_shift (given, func, stream, TRUE);
4125 }
4126
4127 func (stream, "]%s",
4128 WRITEBACK_BIT_SET ? "!" : "");
4129 }
4130 else
4131 {
4132 if ((given & 0x02000000) == 0)
4133 {
4134 /* Always show offset. */
4135 offset = given & 0xfff;
4136 func (stream, "], #%s%d",
4137 NEGATIVE_BIT_SET ? "-" : "", (int) offset);
4138 }
4139 else
4140 {
4141 func (stream, "], %s",
4142 NEGATIVE_BIT_SET ? "-" : "");
4143 arm_decode_shift (given, func, stream, TRUE);
4144 }
4145 }
4146 if (NEGATIVE_BIT_SET)
4147 offset = -offset;
4148 }
4149
4150 return (signed long) offset;
4151 }
4152
4153 /* Print one neon instruction on INFO->STREAM.
4154 Return TRUE if the instuction matched, FALSE if this is not a
4155 recognised neon instruction. */
4156
4157 static bfd_boolean
4158 print_insn_neon (struct disassemble_info *info, long given, bfd_boolean thumb)
4159 {
4160 const struct opcode32 *insn;
4161 void *stream = info->stream;
4162 fprintf_ftype func = info->fprintf_func;
4163
4164 if (thumb)
4165 {
4166 if ((given & 0xef000000) == 0xef000000)
4167 {
4168 /* Move bit 28 to bit 24 to translate Thumb2 to ARM encoding. */
4169 unsigned long bit28 = given & (1 << 28);
4170
4171 given &= 0x00ffffff;
4172 if (bit28)
4173 given |= 0xf3000000;
4174 else
4175 given |= 0xf2000000;
4176 }
4177 else if ((given & 0xff000000) == 0xf9000000)
4178 given ^= 0xf9000000 ^ 0xf4000000;
4179 else
4180 return FALSE;
4181 }
4182
4183 for (insn = neon_opcodes; insn->assembler; insn++)
4184 {
4185 if ((given & insn->mask) == insn->value)
4186 {
4187 signed long value_in_comment = 0;
4188 bfd_boolean is_unpredictable = FALSE;
4189 const char *c;
4190
4191 for (c = insn->assembler; *c; c++)
4192 {
4193 if (*c == '%')
4194 {
4195 switch (*++c)
4196 {
4197 case '%':
4198 func (stream, "%%");
4199 break;
4200
4201 case 'u':
4202 if (thumb && ifthen_state)
4203 is_unpredictable = TRUE;
4204
4205 /* Fall through. */
4206 case 'c':
4207 if (thumb && ifthen_state)
4208 func (stream, "%s", arm_conditional[IFTHEN_COND]);
4209 break;
4210
4211 case 'A':
4212 {
4213 static const unsigned char enc[16] =
4214 {
4215 0x4, 0x14, /* st4 0,1 */
4216 0x4, /* st1 2 */
4217 0x4, /* st2 3 */
4218 0x3, /* st3 4 */
4219 0x13, /* st3 5 */
4220 0x3, /* st1 6 */
4221 0x1, /* st1 7 */
4222 0x2, /* st2 8 */
4223 0x12, /* st2 9 */
4224 0x2, /* st1 10 */
4225 0, 0, 0, 0, 0
4226 };
4227 int rd = ((given >> 12) & 0xf) | (((given >> 22) & 1) << 4);
4228 int rn = ((given >> 16) & 0xf);
4229 int rm = ((given >> 0) & 0xf);
4230 int align = ((given >> 4) & 0x3);
4231 int type = ((given >> 8) & 0xf);
4232 int n = enc[type] & 0xf;
4233 int stride = (enc[type] >> 4) + 1;
4234 int ix;
4235
4236 func (stream, "{");
4237 if (stride > 1)
4238 for (ix = 0; ix != n; ix++)
4239 func (stream, "%sd%d", ix ? "," : "", rd + ix * stride);
4240 else if (n == 1)
4241 func (stream, "d%d", rd);
4242 else
4243 func (stream, "d%d-d%d", rd, rd + n - 1);
4244 func (stream, "}, [%s", arm_regnames[rn]);
4245 if (align)
4246 func (stream, " :%d", 32 << align);
4247 func (stream, "]");
4248 if (rm == 0xd)
4249 func (stream, "!");
4250 else if (rm != 0xf)
4251 func (stream, ", %s", arm_regnames[rm]);
4252 }
4253 break;
4254
4255 case 'B':
4256 {
4257 int rd = ((given >> 12) & 0xf) | (((given >> 22) & 1) << 4);
4258 int rn = ((given >> 16) & 0xf);
4259 int rm = ((given >> 0) & 0xf);
4260 int idx_align = ((given >> 4) & 0xf);
4261 int align = 0;
4262 int size = ((given >> 10) & 0x3);
4263 int idx = idx_align >> (size + 1);
4264 int length = ((given >> 8) & 3) + 1;
4265 int stride = 1;
4266 int i;
4267
4268 if (length > 1 && size > 0)
4269 stride = (idx_align & (1 << size)) ? 2 : 1;
4270
4271 switch (length)
4272 {
4273 case 1:
4274 {
4275 int amask = (1 << size) - 1;
4276 if ((idx_align & (1 << size)) != 0)
4277 return FALSE;
4278 if (size > 0)
4279 {
4280 if ((idx_align & amask) == amask)
4281 align = 8 << size;
4282 else if ((idx_align & amask) != 0)
4283 return FALSE;
4284 }
4285 }
4286 break;
4287
4288 case 2:
4289 if (size == 2 && (idx_align & 2) != 0)
4290 return FALSE;
4291 align = (idx_align & 1) ? 16 << size : 0;
4292 break;
4293
4294 case 3:
4295 if ((size == 2 && (idx_align & 3) != 0)
4296 || (idx_align & 1) != 0)
4297 return FALSE;
4298 break;
4299
4300 case 4:
4301 if (size == 2)
4302 {
4303 if ((idx_align & 3) == 3)
4304 return FALSE;
4305 align = (idx_align & 3) * 64;
4306 }
4307 else
4308 align = (idx_align & 1) ? 32 << size : 0;
4309 break;
4310
4311 default:
4312 abort ();
4313 }
4314
4315 func (stream, "{");
4316 for (i = 0; i < length; i++)
4317 func (stream, "%sd%d[%d]", (i == 0) ? "" : ",",
4318 rd + i * stride, idx);
4319 func (stream, "}, [%s", arm_regnames[rn]);
4320 if (align)
4321 func (stream, " :%d", align);
4322 func (stream, "]");
4323 if (rm == 0xd)
4324 func (stream, "!");
4325 else if (rm != 0xf)
4326 func (stream, ", %s", arm_regnames[rm]);
4327 }
4328 break;
4329
4330 case 'C':
4331 {
4332 int rd = ((given >> 12) & 0xf) | (((given >> 22) & 1) << 4);
4333 int rn = ((given >> 16) & 0xf);
4334 int rm = ((given >> 0) & 0xf);
4335 int align = ((given >> 4) & 0x1);
4336 int size = ((given >> 6) & 0x3);
4337 int type = ((given >> 8) & 0x3);
4338 int n = type + 1;
4339 int stride = ((given >> 5) & 0x1);
4340 int ix;
4341
4342 if (stride && (n == 1))
4343 n++;
4344 else
4345 stride++;
4346
4347 func (stream, "{");
4348 if (stride > 1)
4349 for (ix = 0; ix != n; ix++)
4350 func (stream, "%sd%d[]", ix ? "," : "", rd + ix * stride);
4351 else if (n == 1)
4352 func (stream, "d%d[]", rd);
4353 else
4354 func (stream, "d%d[]-d%d[]", rd, rd + n - 1);
4355 func (stream, "}, [%s", arm_regnames[rn]);
4356 if (align)
4357 {
4358 align = (8 * (type + 1)) << size;
4359 if (type == 3)
4360 align = (size > 1) ? align >> 1 : align;
4361 if (type == 2 || (type == 0 && !size))
4362 func (stream, " :<bad align %d>", align);
4363 else
4364 func (stream, " :%d", align);
4365 }
4366 func (stream, "]");
4367 if (rm == 0xd)
4368 func (stream, "!");
4369 else if (rm != 0xf)
4370 func (stream, ", %s", arm_regnames[rm]);
4371 }
4372 break;
4373
4374 case 'D':
4375 {
4376 int raw_reg = (given & 0xf) | ((given >> 1) & 0x10);
4377 int size = (given >> 20) & 3;
4378 int reg = raw_reg & ((4 << size) - 1);
4379 int ix = raw_reg >> size >> 2;
4380
4381 func (stream, "d%d[%d]", reg, ix);
4382 }
4383 break;
4384
4385 case 'E':
4386 /* Neon encoded constant for mov, mvn, vorr, vbic. */
4387 {
4388 int bits = 0;
4389 int cmode = (given >> 8) & 0xf;
4390 int op = (given >> 5) & 0x1;
4391 unsigned long value = 0, hival = 0;
4392 unsigned shift;
4393 int size = 0;
4394 int isfloat = 0;
4395
4396 bits |= ((given >> 24) & 1) << 7;
4397 bits |= ((given >> 16) & 7) << 4;
4398 bits |= ((given >> 0) & 15) << 0;
4399
4400 if (cmode < 8)
4401 {
4402 shift = (cmode >> 1) & 3;
4403 value = (unsigned long) bits << (8 * shift);
4404 size = 32;
4405 }
4406 else if (cmode < 12)
4407 {
4408 shift = (cmode >> 1) & 1;
4409 value = (unsigned long) bits << (8 * shift);
4410 size = 16;
4411 }
4412 else if (cmode < 14)
4413 {
4414 shift = (cmode & 1) + 1;
4415 value = (unsigned long) bits << (8 * shift);
4416 value |= (1ul << (8 * shift)) - 1;
4417 size = 32;
4418 }
4419 else if (cmode == 14)
4420 {
4421 if (op)
4422 {
4423 /* Bit replication into bytes. */
4424 int ix;
4425 unsigned long mask;
4426
4427 value = 0;
4428 hival = 0;
4429 for (ix = 7; ix >= 0; ix--)
4430 {
4431 mask = ((bits >> ix) & 1) ? 0xff : 0;
4432 if (ix <= 3)
4433 value = (value << 8) | mask;
4434 else
4435 hival = (hival << 8) | mask;
4436 }
4437 size = 64;
4438 }
4439 else
4440 {
4441 /* Byte replication. */
4442 value = (unsigned long) bits;
4443 size = 8;
4444 }
4445 }
4446 else if (!op)
4447 {
4448 /* Floating point encoding. */
4449 int tmp;
4450
4451 value = (unsigned long) (bits & 0x7f) << 19;
4452 value |= (unsigned long) (bits & 0x80) << 24;
4453 tmp = bits & 0x40 ? 0x3c : 0x40;
4454 value |= (unsigned long) tmp << 24;
4455 size = 32;
4456 isfloat = 1;
4457 }
4458 else
4459 {
4460 func (stream, "<illegal constant %.8x:%x:%x>",
4461 bits, cmode, op);
4462 size = 32;
4463 break;
4464 }
4465 switch (size)
4466 {
4467 case 8:
4468 func (stream, "#%ld\t; 0x%.2lx", value, value);
4469 break;
4470
4471 case 16:
4472 func (stream, "#%ld\t; 0x%.4lx", value, value);
4473 break;
4474
4475 case 32:
4476 if (isfloat)
4477 {
4478 unsigned char valbytes[4];
4479 double fvalue;
4480
4481 /* Do this a byte at a time so we don't have to
4482 worry about the host's endianness. */
4483 valbytes[0] = value & 0xff;
4484 valbytes[1] = (value >> 8) & 0xff;
4485 valbytes[2] = (value >> 16) & 0xff;
4486 valbytes[3] = (value >> 24) & 0xff;
4487
4488 floatformat_to_double
4489 (& floatformat_ieee_single_little, valbytes,
4490 & fvalue);
4491
4492 func (stream, "#%.7g\t; 0x%.8lx", fvalue,
4493 value);
4494 }
4495 else
4496 func (stream, "#%ld\t; 0x%.8lx",
4497 (long) (((value & 0x80000000L) != 0)
4498 ? value | ~0xffffffffL : value),
4499 value);
4500 break;
4501
4502 case 64:
4503 func (stream, "#0x%.8lx%.8lx", hival, value);
4504 break;
4505
4506 default:
4507 abort ();
4508 }
4509 }
4510 break;
4511
4512 case 'F':
4513 {
4514 int regno = ((given >> 16) & 0xf) | ((given >> (7 - 4)) & 0x10);
4515 int num = (given >> 8) & 0x3;
4516
4517 if (!num)
4518 func (stream, "{d%d}", regno);
4519 else if (num + regno >= 32)
4520 func (stream, "{d%d-<overflow reg d%d}", regno, regno + num);
4521 else
4522 func (stream, "{d%d-d%d}", regno, regno + num);
4523 }
4524 break;
4525
4526
4527 case '0': case '1': case '2': case '3': case '4':
4528 case '5': case '6': case '7': case '8': case '9':
4529 {
4530 int width;
4531 unsigned long value;
4532
4533 c = arm_decode_bitfield (c, given, &value, &width);
4534
4535 switch (*c)
4536 {
4537 case 'r':
4538 func (stream, "%s", arm_regnames[value]);
4539 break;
4540 case 'd':
4541 func (stream, "%ld", value);
4542 value_in_comment = value;
4543 break;
4544 case 'e':
4545 func (stream, "%ld", (1ul << width) - value);
4546 break;
4547
4548 case 'S':
4549 case 'T':
4550 case 'U':
4551 /* Various width encodings. */
4552 {
4553 int base = 8 << (*c - 'S'); /* 8,16 or 32 */
4554 int limit;
4555 unsigned low, high;
4556
4557 c++;
4558 if (*c >= '0' && *c <= '9')
4559 limit = *c - '0';
4560 else if (*c >= 'a' && *c <= 'f')
4561 limit = *c - 'a' + 10;
4562 else
4563 abort ();
4564 low = limit >> 2;
4565 high = limit & 3;
4566
4567 if (value < low || value > high)
4568 func (stream, "<illegal width %d>", base << value);
4569 else
4570 func (stream, "%d", base << value);
4571 }
4572 break;
4573 case 'R':
4574 if (given & (1 << 6))
4575 goto Q;
4576 /* FALLTHROUGH */
4577 case 'D':
4578 func (stream, "d%ld", value);
4579 break;
4580 case 'Q':
4581 Q:
4582 if (value & 1)
4583 func (stream, "<illegal reg q%ld.5>", value >> 1);
4584 else
4585 func (stream, "q%ld", value >> 1);
4586 break;
4587
4588 case '`':
4589 c++;
4590 if (value == 0)
4591 func (stream, "%c", *c);
4592 break;
4593 case '\'':
4594 c++;
4595 if (value == ((1ul << width) - 1))
4596 func (stream, "%c", *c);
4597 break;
4598 case '?':
4599 func (stream, "%c", c[(1 << width) - (int) value]);
4600 c += 1 << width;
4601 break;
4602 default:
4603 abort ();
4604 }
4605 }
4606 break;
4607
4608 default:
4609 abort ();
4610 }
4611 }
4612 else
4613 func (stream, "%c", *c);
4614 }
4615
4616 if (value_in_comment > 32 || value_in_comment < -16)
4617 func (stream, "\t; 0x%lx", value_in_comment);
4618
4619 if (is_unpredictable)
4620 func (stream, UNPREDICTABLE_INSTRUCTION);
4621
4622 return TRUE;
4623 }
4624 }
4625 return FALSE;
4626 }
4627
4628 /* Return the name of a v7A special register. */
4629
4630 static const char *
4631 banked_regname (unsigned reg)
4632 {
4633 switch (reg)
4634 {
4635 case 15: return "CPSR";
4636 case 32: return "R8_usr";
4637 case 33: return "R9_usr";
4638 case 34: return "R10_usr";
4639 case 35: return "R11_usr";
4640 case 36: return "R12_usr";
4641 case 37: return "SP_usr";
4642 case 38: return "LR_usr";
4643 case 40: return "R8_fiq";
4644 case 41: return "R9_fiq";
4645 case 42: return "R10_fiq";
4646 case 43: return "R11_fiq";
4647 case 44: return "R12_fiq";
4648 case 45: return "SP_fiq";
4649 case 46: return "LR_fiq";
4650 case 48: return "LR_irq";
4651 case 49: return "SP_irq";
4652 case 50: return "LR_svc";
4653 case 51: return "SP_svc";
4654 case 52: return "LR_abt";
4655 case 53: return "SP_abt";
4656 case 54: return "LR_und";
4657 case 55: return "SP_und";
4658 case 60: return "LR_mon";
4659 case 61: return "SP_mon";
4660 case 62: return "ELR_hyp";
4661 case 63: return "SP_hyp";
4662 case 79: return "SPSR";
4663 case 110: return "SPSR_fiq";
4664 case 112: return "SPSR_irq";
4665 case 114: return "SPSR_svc";
4666 case 116: return "SPSR_abt";
4667 case 118: return "SPSR_und";
4668 case 124: return "SPSR_mon";
4669 case 126: return "SPSR_hyp";
4670 default: return NULL;
4671 }
4672 }
4673
4674 /* Return the name of the DMB/DSB option. */
4675 static const char *
4676 data_barrier_option (unsigned option)
4677 {
4678 switch (option & 0xf)
4679 {
4680 case 0xf: return "sy";
4681 case 0xe: return "st";
4682 case 0xd: return "ld";
4683 case 0xb: return "ish";
4684 case 0xa: return "ishst";
4685 case 0x9: return "ishld";
4686 case 0x7: return "un";
4687 case 0x6: return "unst";
4688 case 0x5: return "nshld";
4689 case 0x3: return "osh";
4690 case 0x2: return "oshst";
4691 case 0x1: return "oshld";
4692 default: return NULL;
4693 }
4694 }
4695
4696 /* Print one ARM instruction from PC on INFO->STREAM. */
4697
4698 static void
4699 print_insn_arm (bfd_vma pc, struct disassemble_info *info, long given)
4700 {
4701 const struct opcode32 *insn;
4702 void *stream = info->stream;
4703 fprintf_ftype func = info->fprintf_func;
4704 struct arm_private_data *private_data = info->private_data;
4705
4706 if (print_insn_coprocessor (pc, info, given, FALSE))
4707 return;
4708
4709 if (print_insn_neon (info, given, FALSE))
4710 return;
4711
4712 for (insn = arm_opcodes; insn->assembler; insn++)
4713 {
4714 if ((given & insn->mask) != insn->value)
4715 continue;
4716
4717 if (! ARM_CPU_HAS_FEATURE (insn->arch, private_data->features))
4718 continue;
4719
4720 /* Special case: an instruction with all bits set in the condition field
4721 (0xFnnn_nnnn) is only matched if all those bits are set in insn->mask,
4722 or by the catchall at the end of the table. */
4723 if ((given & 0xF0000000) != 0xF0000000
4724 || (insn->mask & 0xF0000000) == 0xF0000000
4725 || (insn->mask == 0 && insn->value == 0))
4726 {
4727 unsigned long u_reg = 16;
4728 unsigned long U_reg = 16;
4729 bfd_boolean is_unpredictable = FALSE;
4730 signed long value_in_comment = 0;
4731 const char *c;
4732
4733 for (c = insn->assembler; *c; c++)
4734 {
4735 if (*c == '%')
4736 {
4737 bfd_boolean allow_unpredictable = FALSE;
4738
4739 switch (*++c)
4740 {
4741 case '%':
4742 func (stream, "%%");
4743 break;
4744
4745 case 'a':
4746 value_in_comment = print_arm_address (pc, info, given);
4747 break;
4748
4749 case 'P':
4750 /* Set P address bit and use normal address
4751 printing routine. */
4752 value_in_comment = print_arm_address (pc, info, given | (1 << P_BIT));
4753 break;
4754
4755 case 'S':
4756 allow_unpredictable = TRUE;
4757 /* Fall through. */
4758 case 's':
4759 if ((given & 0x004f0000) == 0x004f0000)
4760 {
4761 /* PC relative with immediate offset. */
4762 bfd_vma offset = ((given & 0xf00) >> 4) | (given & 0xf);
4763
4764 if (PRE_BIT_SET)
4765 {
4766 /* Elide positive zero offset. */
4767 if (offset || NEGATIVE_BIT_SET)
4768 func (stream, "[pc, #%s%d]\t; ",
4769 NEGATIVE_BIT_SET ? "-" : "", (int) offset);
4770 else
4771 func (stream, "[pc]\t; ");
4772 if (NEGATIVE_BIT_SET)
4773 offset = -offset;
4774 info->print_address_func (offset + pc + 8, info);
4775 }
4776 else
4777 {
4778 /* Always show the offset. */
4779 func (stream, "[pc], #%s%d",
4780 NEGATIVE_BIT_SET ? "-" : "", (int) offset);
4781 if (! allow_unpredictable)
4782 is_unpredictable = TRUE;
4783 }
4784 }
4785 else
4786 {
4787 int offset = ((given & 0xf00) >> 4) | (given & 0xf);
4788
4789 func (stream, "[%s",
4790 arm_regnames[(given >> 16) & 0xf]);
4791
4792 if (PRE_BIT_SET)
4793 {
4794 if (IMMEDIATE_BIT_SET)
4795 {
4796 /* Elide offset for non-writeback
4797 positive zero. */
4798 if (WRITEBACK_BIT_SET || NEGATIVE_BIT_SET
4799 || offset)
4800 func (stream, ", #%s%d",
4801 NEGATIVE_BIT_SET ? "-" : "", offset);
4802
4803 if (NEGATIVE_BIT_SET)
4804 offset = -offset;
4805
4806 value_in_comment = offset;
4807 }
4808 else
4809 {
4810 /* Register Offset or Register Pre-Indexed. */
4811 func (stream, ", %s%s",
4812 NEGATIVE_BIT_SET ? "-" : "",
4813 arm_regnames[given & 0xf]);
4814
4815 /* Writing back to the register that is the source/
4816 destination of the load/store is unpredictable. */
4817 if (! allow_unpredictable
4818 && WRITEBACK_BIT_SET
4819 && ((given & 0xf) == ((given >> 12) & 0xf)))
4820 is_unpredictable = TRUE;
4821 }
4822
4823 func (stream, "]%s",
4824 WRITEBACK_BIT_SET ? "!" : "");
4825 }
4826 else
4827 {
4828 if (IMMEDIATE_BIT_SET)
4829 {
4830 /* Immediate Post-indexed. */
4831 /* PR 10924: Offset must be printed, even if it is zero. */
4832 func (stream, "], #%s%d",
4833 NEGATIVE_BIT_SET ? "-" : "", offset);
4834 if (NEGATIVE_BIT_SET)
4835 offset = -offset;
4836 value_in_comment = offset;
4837 }
4838 else
4839 {
4840 /* Register Post-indexed. */
4841 func (stream, "], %s%s",
4842 NEGATIVE_BIT_SET ? "-" : "",
4843 arm_regnames[given & 0xf]);
4844
4845 /* Writing back to the register that is the source/
4846 destination of the load/store is unpredictable. */
4847 if (! allow_unpredictable
4848 && (given & 0xf) == ((given >> 12) & 0xf))
4849 is_unpredictable = TRUE;
4850 }
4851
4852 if (! allow_unpredictable)
4853 {
4854 /* Writeback is automatically implied by post- addressing.
4855 Setting the W bit is unnecessary and ARM specify it as
4856 being unpredictable. */
4857 if (WRITEBACK_BIT_SET
4858 /* Specifying the PC register as the post-indexed
4859 registers is also unpredictable. */
4860 || (! IMMEDIATE_BIT_SET && ((given & 0xf) == 0xf)))
4861 is_unpredictable = TRUE;
4862 }
4863 }
4864 }
4865 break;
4866
4867 case 'b':
4868 {
4869 bfd_vma disp = (((given & 0xffffff) ^ 0x800000) - 0x800000);
4870 info->print_address_func (disp * 4 + pc + 8, info);
4871 }
4872 break;
4873
4874 case 'c':
4875 if (((given >> 28) & 0xf) != 0xe)
4876 func (stream, "%s",
4877 arm_conditional [(given >> 28) & 0xf]);
4878 break;
4879
4880 case 'm':
4881 {
4882 int started = 0;
4883 int reg;
4884
4885 func (stream, "{");
4886 for (reg = 0; reg < 16; reg++)
4887 if ((given & (1 << reg)) != 0)
4888 {
4889 if (started)
4890 func (stream, ", ");
4891 started = 1;
4892 func (stream, "%s", arm_regnames[reg]);
4893 }
4894 func (stream, "}");
4895 if (! started)
4896 is_unpredictable = TRUE;
4897 }
4898 break;
4899
4900 case 'q':
4901 arm_decode_shift (given, func, stream, FALSE);
4902 break;
4903
4904 case 'o':
4905 if ((given & 0x02000000) != 0)
4906 {
4907 unsigned int rotate = (given & 0xf00) >> 7;
4908 unsigned int immed = (given & 0xff);
4909 unsigned int a, i;
4910
4911 a = (((immed << (32 - rotate))
4912 | (immed >> rotate)) & 0xffffffff);
4913 /* If there is another encoding with smaller rotate,
4914 the rotate should be specified directly. */
4915 for (i = 0; i < 32; i += 2)
4916 if ((a << i | a >> (32 - i)) <= 0xff)
4917 break;
4918
4919 if (i != rotate)
4920 func (stream, "#%d, %d", immed, rotate);
4921 else
4922 func (stream, "#%d", a);
4923 value_in_comment = a;
4924 }
4925 else
4926 arm_decode_shift (given, func, stream, TRUE);
4927 break;
4928
4929 case 'p':
4930 if ((given & 0x0000f000) == 0x0000f000)
4931 {
4932 arm_feature_set arm_ext_v6 =
4933 ARM_FEATURE_CORE_LOW (ARM_EXT_V6);
4934
4935 /* The p-variants of tst/cmp/cmn/teq are the pre-V6
4936 mechanism for setting PSR flag bits. They are
4937 obsolete in V6 onwards. */
4938 if (! ARM_CPU_HAS_FEATURE (private_data->features, \
4939 arm_ext_v6))
4940 func (stream, "p");
4941 else
4942 is_unpredictable = TRUE;
4943 }
4944 break;
4945
4946 case 't':
4947 if ((given & 0x01200000) == 0x00200000)
4948 func (stream, "t");
4949 break;
4950
4951 case 'A':
4952 {
4953 int offset = given & 0xff;
4954
4955 value_in_comment = offset * 4;
4956 if (NEGATIVE_BIT_SET)
4957 value_in_comment = - value_in_comment;
4958
4959 func (stream, "[%s", arm_regnames [(given >> 16) & 0xf]);
4960
4961 if (PRE_BIT_SET)
4962 {
4963 if (offset)
4964 func (stream, ", #%d]%s",
4965 (int) value_in_comment,
4966 WRITEBACK_BIT_SET ? "!" : "");
4967 else
4968 func (stream, "]");
4969 }
4970 else
4971 {
4972 func (stream, "]");
4973
4974 if (WRITEBACK_BIT_SET)
4975 {
4976 if (offset)
4977 func (stream, ", #%d", (int) value_in_comment);
4978 }
4979 else
4980 {
4981 func (stream, ", {%d}", (int) offset);
4982 value_in_comment = offset;
4983 }
4984 }
4985 }
4986 break;
4987
4988 case 'B':
4989 /* Print ARM V5 BLX(1) address: pc+25 bits. */
4990 {
4991 bfd_vma address;
4992 bfd_vma offset = 0;
4993
4994 if (! NEGATIVE_BIT_SET)
4995 /* Is signed, hi bits should be ones. */
4996 offset = (-1) ^ 0x00ffffff;
4997
4998 /* Offset is (SignExtend(offset field)<<2). */
4999 offset += given & 0x00ffffff;
5000 offset <<= 2;
5001 address = offset + pc + 8;
5002
5003 if (given & 0x01000000)
5004 /* H bit allows addressing to 2-byte boundaries. */
5005 address += 2;
5006
5007 info->print_address_func (address, info);
5008 }
5009 break;
5010
5011 case 'C':
5012 if ((given & 0x02000200) == 0x200)
5013 {
5014 const char * name;
5015 unsigned sysm = (given & 0x004f0000) >> 16;
5016
5017 sysm |= (given & 0x300) >> 4;
5018 name = banked_regname (sysm);
5019
5020 if (name != NULL)
5021 func (stream, "%s", name);
5022 else
5023 func (stream, "(UNDEF: %lu)", (unsigned long) sysm);
5024 }
5025 else
5026 {
5027 func (stream, "%cPSR_",
5028 (given & 0x00400000) ? 'S' : 'C');
5029 if (given & 0x80000)
5030 func (stream, "f");
5031 if (given & 0x40000)
5032 func (stream, "s");
5033 if (given & 0x20000)
5034 func (stream, "x");
5035 if (given & 0x10000)
5036 func (stream, "c");
5037 }
5038 break;
5039
5040 case 'U':
5041 if ((given & 0xf0) == 0x60)
5042 {
5043 switch (given & 0xf)
5044 {
5045 case 0xf: func (stream, "sy"); break;
5046 default:
5047 func (stream, "#%d", (int) given & 0xf);
5048 break;
5049 }
5050 }
5051 else
5052 {
5053 const char * opt = data_barrier_option (given & 0xf);
5054 if (opt != NULL)
5055 func (stream, "%s", opt);
5056 else
5057 func (stream, "#%d", (int) given & 0xf);
5058 }
5059 break;
5060
5061 case '0': case '1': case '2': case '3': case '4':
5062 case '5': case '6': case '7': case '8': case '9':
5063 {
5064 int width;
5065 unsigned long value;
5066
5067 c = arm_decode_bitfield (c, given, &value, &width);
5068
5069 switch (*c)
5070 {
5071 case 'R':
5072 if (value == 15)
5073 is_unpredictable = TRUE;
5074 /* Fall through. */
5075 case 'r':
5076 case 'T':
5077 /* We want register + 1 when decoding T. */
5078 if (*c == 'T')
5079 ++value;
5080
5081 if (c[1] == 'u')
5082 {
5083 /* Eat the 'u' character. */
5084 ++ c;
5085
5086 if (u_reg == value)
5087 is_unpredictable = TRUE;
5088 u_reg = value;
5089 }
5090 if (c[1] == 'U')
5091 {
5092 /* Eat the 'U' character. */
5093 ++ c;
5094
5095 if (U_reg == value)
5096 is_unpredictable = TRUE;
5097 U_reg = value;
5098 }
5099 func (stream, "%s", arm_regnames[value]);
5100 break;
5101 case 'd':
5102 func (stream, "%ld", value);
5103 value_in_comment = value;
5104 break;
5105 case 'b':
5106 func (stream, "%ld", value * 8);
5107 value_in_comment = value * 8;
5108 break;
5109 case 'W':
5110 func (stream, "%ld", value + 1);
5111 value_in_comment = value + 1;
5112 break;
5113 case 'x':
5114 func (stream, "0x%08lx", value);
5115
5116 /* Some SWI instructions have special
5117 meanings. */
5118 if ((given & 0x0fffffff) == 0x0FF00000)
5119 func (stream, "\t; IMB");
5120 else if ((given & 0x0fffffff) == 0x0FF00001)
5121 func (stream, "\t; IMBRange");
5122 break;
5123 case 'X':
5124 func (stream, "%01lx", value & 0xf);
5125 value_in_comment = value;
5126 break;
5127 case '`':
5128 c++;
5129 if (value == 0)
5130 func (stream, "%c", *c);
5131 break;
5132 case '\'':
5133 c++;
5134 if (value == ((1ul << width) - 1))
5135 func (stream, "%c", *c);
5136 break;
5137 case '?':
5138 func (stream, "%c", c[(1 << width) - (int) value]);
5139 c += 1 << width;
5140 break;
5141 default:
5142 abort ();
5143 }
5144 }
5145 break;
5146
5147 case 'e':
5148 {
5149 int imm;
5150
5151 imm = (given & 0xf) | ((given & 0xfff00) >> 4);
5152 func (stream, "%d", imm);
5153 value_in_comment = imm;
5154 }
5155 break;
5156
5157 case 'E':
5158 /* LSB and WIDTH fields of BFI or BFC. The machine-
5159 language instruction encodes LSB and MSB. */
5160 {
5161 long msb = (given & 0x001f0000) >> 16;
5162 long lsb = (given & 0x00000f80) >> 7;
5163 long w = msb - lsb + 1;
5164
5165 if (w > 0)
5166 func (stream, "#%lu, #%lu", lsb, w);
5167 else
5168 func (stream, "(invalid: %lu:%lu)", lsb, msb);
5169 }
5170 break;
5171
5172 case 'R':
5173 /* Get the PSR/banked register name. */
5174 {
5175 const char * name;
5176 unsigned sysm = (given & 0x004f0000) >> 16;
5177
5178 sysm |= (given & 0x300) >> 4;
5179 name = banked_regname (sysm);
5180
5181 if (name != NULL)
5182 func (stream, "%s", name);
5183 else
5184 func (stream, "(UNDEF: %lu)", (unsigned long) sysm);
5185 }
5186 break;
5187
5188 case 'V':
5189 /* 16-bit unsigned immediate from a MOVT or MOVW
5190 instruction, encoded in bits 0:11 and 15:19. */
5191 {
5192 long hi = (given & 0x000f0000) >> 4;
5193 long lo = (given & 0x00000fff);
5194 long imm16 = hi | lo;
5195
5196 func (stream, "#%lu", imm16);
5197 value_in_comment = imm16;
5198 }
5199 break;
5200
5201 default:
5202 abort ();
5203 }
5204 }
5205 else
5206 func (stream, "%c", *c);
5207 }
5208
5209 if (value_in_comment > 32 || value_in_comment < -16)
5210 func (stream, "\t; 0x%lx", (value_in_comment & 0xffffffffUL));
5211
5212 if (is_unpredictable)
5213 func (stream, UNPREDICTABLE_INSTRUCTION);
5214
5215 return;
5216 }
5217 }
5218 func (stream, UNKNOWN_INSTRUCTION_32BIT, (unsigned)given);
5219 return;
5220 }
5221
5222 /* Print one 16-bit Thumb instruction from PC on INFO->STREAM. */
5223
5224 static void
5225 print_insn_thumb16 (bfd_vma pc, struct disassemble_info *info, long given)
5226 {
5227 const struct opcode16 *insn;
5228 void *stream = info->stream;
5229 fprintf_ftype func = info->fprintf_func;
5230
5231 for (insn = thumb_opcodes; insn->assembler; insn++)
5232 if ((given & insn->mask) == insn->value)
5233 {
5234 signed long value_in_comment = 0;
5235 const char *c = insn->assembler;
5236
5237 for (; *c; c++)
5238 {
5239 int domaskpc = 0;
5240 int domasklr = 0;
5241
5242 if (*c != '%')
5243 {
5244 func (stream, "%c", *c);
5245 continue;
5246 }
5247
5248 switch (*++c)
5249 {
5250 case '%':
5251 func (stream, "%%");
5252 break;
5253
5254 case 'c':
5255 if (ifthen_state)
5256 func (stream, "%s", arm_conditional[IFTHEN_COND]);
5257 break;
5258
5259 case 'C':
5260 if (ifthen_state)
5261 func (stream, "%s", arm_conditional[IFTHEN_COND]);
5262 else
5263 func (stream, "s");
5264 break;
5265
5266 case 'I':
5267 {
5268 unsigned int tmp;
5269
5270 ifthen_next_state = given & 0xff;
5271 for (tmp = given << 1; tmp & 0xf; tmp <<= 1)
5272 func (stream, ((given ^ tmp) & 0x10) ? "e" : "t");
5273 func (stream, "\t%s", arm_conditional[(given >> 4) & 0xf]);
5274 }
5275 break;
5276
5277 case 'x':
5278 if (ifthen_next_state)
5279 func (stream, "\t; unpredictable branch in IT block\n");
5280 break;
5281
5282 case 'X':
5283 if (ifthen_state)
5284 func (stream, "\t; unpredictable <IT:%s>",
5285 arm_conditional[IFTHEN_COND]);
5286 break;
5287
5288 case 'S':
5289 {
5290 long reg;
5291
5292 reg = (given >> 3) & 0x7;
5293 if (given & (1 << 6))
5294 reg += 8;
5295
5296 func (stream, "%s", arm_regnames[reg]);
5297 }
5298 break;
5299
5300 case 'D':
5301 {
5302 long reg;
5303
5304 reg = given & 0x7;
5305 if (given & (1 << 7))
5306 reg += 8;
5307
5308 func (stream, "%s", arm_regnames[reg]);
5309 }
5310 break;
5311
5312 case 'N':
5313 if (given & (1 << 8))
5314 domasklr = 1;
5315 /* Fall through. */
5316 case 'O':
5317 if (*c == 'O' && (given & (1 << 8)))
5318 domaskpc = 1;
5319 /* Fall through. */
5320 case 'M':
5321 {
5322 int started = 0;
5323 int reg;
5324
5325 func (stream, "{");
5326
5327 /* It would be nice if we could spot
5328 ranges, and generate the rS-rE format: */
5329 for (reg = 0; (reg < 8); reg++)
5330 if ((given & (1 << reg)) != 0)
5331 {
5332 if (started)
5333 func (stream, ", ");
5334 started = 1;
5335 func (stream, "%s", arm_regnames[reg]);
5336 }
5337
5338 if (domasklr)
5339 {
5340 if (started)
5341 func (stream, ", ");
5342 started = 1;
5343 func (stream, "%s", arm_regnames[14] /* "lr" */);
5344 }
5345
5346 if (domaskpc)
5347 {
5348 if (started)
5349 func (stream, ", ");
5350 func (stream, "%s", arm_regnames[15] /* "pc" */);
5351 }
5352
5353 func (stream, "}");
5354 }
5355 break;
5356
5357 case 'W':
5358 /* Print writeback indicator for a LDMIA. We are doing a
5359 writeback if the base register is not in the register
5360 mask. */
5361 if ((given & (1 << ((given & 0x0700) >> 8))) == 0)
5362 func (stream, "!");
5363 break;
5364
5365 case 'b':
5366 /* Print ARM V6T2 CZB address: pc+4+6 bits. */
5367 {
5368 bfd_vma address = (pc + 4
5369 + ((given & 0x00f8) >> 2)
5370 + ((given & 0x0200) >> 3));
5371 info->print_address_func (address, info);
5372 }
5373 break;
5374
5375 case 's':
5376 /* Right shift immediate -- bits 6..10; 1-31 print
5377 as themselves, 0 prints as 32. */
5378 {
5379 long imm = (given & 0x07c0) >> 6;
5380 if (imm == 0)
5381 imm = 32;
5382 func (stream, "#%ld", imm);
5383 }
5384 break;
5385
5386 case '0': case '1': case '2': case '3': case '4':
5387 case '5': case '6': case '7': case '8': case '9':
5388 {
5389 int bitstart = *c++ - '0';
5390 int bitend = 0;
5391
5392 while (*c >= '0' && *c <= '9')
5393 bitstart = (bitstart * 10) + *c++ - '0';
5394
5395 switch (*c)
5396 {
5397 case '-':
5398 {
5399 bfd_vma reg;
5400
5401 c++;
5402 while (*c >= '0' && *c <= '9')
5403 bitend = (bitend * 10) + *c++ - '0';
5404 if (!bitend)
5405 abort ();
5406 reg = given >> bitstart;
5407 reg &= (2 << (bitend - bitstart)) - 1;
5408
5409 switch (*c)
5410 {
5411 case 'r':
5412 func (stream, "%s", arm_regnames[reg]);
5413 break;
5414
5415 case 'd':
5416 func (stream, "%ld", (long) reg);
5417 value_in_comment = reg;
5418 break;
5419
5420 case 'H':
5421 func (stream, "%ld", (long) (reg << 1));
5422 value_in_comment = reg << 1;
5423 break;
5424
5425 case 'W':
5426 func (stream, "%ld", (long) (reg << 2));
5427 value_in_comment = reg << 2;
5428 break;
5429
5430 case 'a':
5431 /* PC-relative address -- the bottom two
5432 bits of the address are dropped
5433 before the calculation. */
5434 info->print_address_func
5435 (((pc + 4) & ~3) + (reg << 2), info);
5436 value_in_comment = 0;
5437 break;
5438
5439 case 'x':
5440 func (stream, "0x%04lx", (long) reg);
5441 break;
5442
5443 case 'B':
5444 reg = ((reg ^ (1 << bitend)) - (1 << bitend));
5445 info->print_address_func (reg * 2 + pc + 4, info);
5446 value_in_comment = 0;
5447 break;
5448
5449 case 'c':
5450 func (stream, "%s", arm_conditional [reg]);
5451 break;
5452
5453 default:
5454 abort ();
5455 }
5456 }
5457 break;
5458
5459 case '\'':
5460 c++;
5461 if ((given & (1 << bitstart)) != 0)
5462 func (stream, "%c", *c);
5463 break;
5464
5465 case '?':
5466 ++c;
5467 if ((given & (1 << bitstart)) != 0)
5468 func (stream, "%c", *c++);
5469 else
5470 func (stream, "%c", *++c);
5471 break;
5472
5473 default:
5474 abort ();
5475 }
5476 }
5477 break;
5478
5479 default:
5480 abort ();
5481 }
5482 }
5483
5484 if (value_in_comment > 32 || value_in_comment < -16)
5485 func (stream, "\t; 0x%lx", value_in_comment);
5486 return;
5487 }
5488
5489 /* No match. */
5490 func (stream, UNKNOWN_INSTRUCTION_16BIT, (unsigned)given);
5491 return;
5492 }
5493
5494 /* Return the name of an V7M special register. */
5495
5496 static const char *
5497 psr_name (int regno)
5498 {
5499 switch (regno)
5500 {
5501 case 0x0: return "APSR";
5502 case 0x1: return "IAPSR";
5503 case 0x2: return "EAPSR";
5504 case 0x3: return "PSR";
5505 case 0x5: return "IPSR";
5506 case 0x6: return "EPSR";
5507 case 0x7: return "IEPSR";
5508 case 0x8: return "MSP";
5509 case 0x9: return "PSP";
5510 case 0xa: return "MSPLIM";
5511 case 0xb: return "PSPLIM";
5512 case 0x10: return "PRIMASK";
5513 case 0x11: return "BASEPRI";
5514 case 0x12: return "BASEPRI_MAX";
5515 case 0x13: return "FAULTMASK";
5516 case 0x14: return "CONTROL";
5517 case 0x88: return "MSP_NS";
5518 case 0x89: return "PSP_NS";
5519 case 0x8a: return "MSPLIM_NS";
5520 case 0x8b: return "PSPLIM_NS";
5521 case 0x90: return "PRIMASK_NS";
5522 case 0x91: return "BASEPRI_NS";
5523 case 0x93: return "FAULTMASK_NS";
5524 case 0x94: return "CONTROL_NS";
5525 case 0x98: return "SP_NS";
5526 default: return "<unknown>";
5527 }
5528 }
5529
5530 /* Print one 32-bit Thumb instruction from PC on INFO->STREAM. */
5531
5532 static void
5533 print_insn_thumb32 (bfd_vma pc, struct disassemble_info *info, long given)
5534 {
5535 const struct opcode32 *insn;
5536 void *stream = info->stream;
5537 fprintf_ftype func = info->fprintf_func;
5538
5539 if (print_insn_coprocessor (pc, info, given, TRUE))
5540 return;
5541
5542 if (print_insn_neon (info, given, TRUE))
5543 return;
5544
5545 for (insn = thumb32_opcodes; insn->assembler; insn++)
5546 if ((given & insn->mask) == insn->value)
5547 {
5548 bfd_boolean is_unpredictable = FALSE;
5549 signed long value_in_comment = 0;
5550 const char *c = insn->assembler;
5551
5552 for (; *c; c++)
5553 {
5554 if (*c != '%')
5555 {
5556 func (stream, "%c", *c);
5557 continue;
5558 }
5559
5560 switch (*++c)
5561 {
5562 case '%':
5563 func (stream, "%%");
5564 break;
5565
5566 case 'c':
5567 if (ifthen_state)
5568 func (stream, "%s", arm_conditional[IFTHEN_COND]);
5569 break;
5570
5571 case 'x':
5572 if (ifthen_next_state)
5573 func (stream, "\t; unpredictable branch in IT block\n");
5574 break;
5575
5576 case 'X':
5577 if (ifthen_state)
5578 func (stream, "\t; unpredictable <IT:%s>",
5579 arm_conditional[IFTHEN_COND]);
5580 break;
5581
5582 case 'I':
5583 {
5584 unsigned int imm12 = 0;
5585
5586 imm12 |= (given & 0x000000ffu);
5587 imm12 |= (given & 0x00007000u) >> 4;
5588 imm12 |= (given & 0x04000000u) >> 15;
5589 func (stream, "#%u", imm12);
5590 value_in_comment = imm12;
5591 }
5592 break;
5593
5594 case 'M':
5595 {
5596 unsigned int bits = 0, imm, imm8, mod;
5597
5598 bits |= (given & 0x000000ffu);
5599 bits |= (given & 0x00007000u) >> 4;
5600 bits |= (given & 0x04000000u) >> 15;
5601 imm8 = (bits & 0x0ff);
5602 mod = (bits & 0xf00) >> 8;
5603 switch (mod)
5604 {
5605 case 0: imm = imm8; break;
5606 case 1: imm = ((imm8 << 16) | imm8); break;
5607 case 2: imm = ((imm8 << 24) | (imm8 << 8)); break;
5608 case 3: imm = ((imm8 << 24) | (imm8 << 16) | (imm8 << 8) | imm8); break;
5609 default:
5610 mod = (bits & 0xf80) >> 7;
5611 imm8 = (bits & 0x07f) | 0x80;
5612 imm = (((imm8 << (32 - mod)) | (imm8 >> mod)) & 0xffffffff);
5613 }
5614 func (stream, "#%u", imm);
5615 value_in_comment = imm;
5616 }
5617 break;
5618
5619 case 'J':
5620 {
5621 unsigned int imm = 0;
5622
5623 imm |= (given & 0x000000ffu);
5624 imm |= (given & 0x00007000u) >> 4;
5625 imm |= (given & 0x04000000u) >> 15;
5626 imm |= (given & 0x000f0000u) >> 4;
5627 func (stream, "#%u", imm);
5628 value_in_comment = imm;
5629 }
5630 break;
5631
5632 case 'K':
5633 {
5634 unsigned int imm = 0;
5635
5636 imm |= (given & 0x000f0000u) >> 16;
5637 imm |= (given & 0x00000ff0u) >> 0;
5638 imm |= (given & 0x0000000fu) << 12;
5639 func (stream, "#%u", imm);
5640 value_in_comment = imm;
5641 }
5642 break;
5643
5644 case 'H':
5645 {
5646 unsigned int imm = 0;
5647
5648 imm |= (given & 0x000f0000u) >> 4;
5649 imm |= (given & 0x00000fffu) >> 0;
5650 func (stream, "#%u", imm);
5651 value_in_comment = imm;
5652 }
5653 break;
5654
5655 case 'V':
5656 {
5657 unsigned int imm = 0;
5658
5659 imm |= (given & 0x00000fffu);
5660 imm |= (given & 0x000f0000u) >> 4;
5661 func (stream, "#%u", imm);
5662 value_in_comment = imm;
5663 }
5664 break;
5665
5666 case 'S':
5667 {
5668 unsigned int reg = (given & 0x0000000fu);
5669 unsigned int stp = (given & 0x00000030u) >> 4;
5670 unsigned int imm = 0;
5671 imm |= (given & 0x000000c0u) >> 6;
5672 imm |= (given & 0x00007000u) >> 10;
5673
5674 func (stream, "%s", arm_regnames[reg]);
5675 switch (stp)
5676 {
5677 case 0:
5678 if (imm > 0)
5679 func (stream, ", lsl #%u", imm);
5680 break;
5681
5682 case 1:
5683 if (imm == 0)
5684 imm = 32;
5685 func (stream, ", lsr #%u", imm);
5686 break;
5687
5688 case 2:
5689 if (imm == 0)
5690 imm = 32;
5691 func (stream, ", asr #%u", imm);
5692 break;
5693
5694 case 3:
5695 if (imm == 0)
5696 func (stream, ", rrx");
5697 else
5698 func (stream, ", ror #%u", imm);
5699 }
5700 }
5701 break;
5702
5703 case 'a':
5704 {
5705 unsigned int Rn = (given & 0x000f0000) >> 16;
5706 unsigned int U = ! NEGATIVE_BIT_SET;
5707 unsigned int op = (given & 0x00000f00) >> 8;
5708 unsigned int i12 = (given & 0x00000fff);
5709 unsigned int i8 = (given & 0x000000ff);
5710 bfd_boolean writeback = FALSE, postind = FALSE;
5711 bfd_vma offset = 0;
5712
5713 func (stream, "[%s", arm_regnames[Rn]);
5714 if (U) /* 12-bit positive immediate offset. */
5715 {
5716 offset = i12;
5717 if (Rn != 15)
5718 value_in_comment = offset;
5719 }
5720 else if (Rn == 15) /* 12-bit negative immediate offset. */
5721 offset = - (int) i12;
5722 else if (op == 0x0) /* Shifted register offset. */
5723 {
5724 unsigned int Rm = (i8 & 0x0f);
5725 unsigned int sh = (i8 & 0x30) >> 4;
5726
5727 func (stream, ", %s", arm_regnames[Rm]);
5728 if (sh)
5729 func (stream, ", lsl #%u", sh);
5730 func (stream, "]");
5731 break;
5732 }
5733 else switch (op)
5734 {
5735 case 0xE: /* 8-bit positive immediate offset. */
5736 offset = i8;
5737 break;
5738
5739 case 0xC: /* 8-bit negative immediate offset. */
5740 offset = -i8;
5741 break;
5742
5743 case 0xF: /* 8-bit + preindex with wb. */
5744 offset = i8;
5745 writeback = TRUE;
5746 break;
5747
5748 case 0xD: /* 8-bit - preindex with wb. */
5749 offset = -i8;
5750 writeback = TRUE;
5751 break;
5752
5753 case 0xB: /* 8-bit + postindex. */
5754 offset = i8;
5755 postind = TRUE;
5756 break;
5757
5758 case 0x9: /* 8-bit - postindex. */
5759 offset = -i8;
5760 postind = TRUE;
5761 break;
5762
5763 default:
5764 func (stream, ", <undefined>]");
5765 goto skip;
5766 }
5767
5768 if (postind)
5769 func (stream, "], #%d", (int) offset);
5770 else
5771 {
5772 if (offset)
5773 func (stream, ", #%d", (int) offset);
5774 func (stream, writeback ? "]!" : "]");
5775 }
5776
5777 if (Rn == 15)
5778 {
5779 func (stream, "\t; ");
5780 info->print_address_func (((pc + 4) & ~3) + offset, info);
5781 }
5782 }
5783 skip:
5784 break;
5785
5786 case 'A':
5787 {
5788 unsigned int U = ! NEGATIVE_BIT_SET;
5789 unsigned int W = WRITEBACK_BIT_SET;
5790 unsigned int Rn = (given & 0x000f0000) >> 16;
5791 unsigned int off = (given & 0x000000ff);
5792
5793 func (stream, "[%s", arm_regnames[Rn]);
5794
5795 if (PRE_BIT_SET)
5796 {
5797 if (off || !U)
5798 {
5799 func (stream, ", #%c%u", U ? '+' : '-', off * 4);
5800 value_in_comment = off * 4 * (U ? 1 : -1);
5801 }
5802 func (stream, "]");
5803 if (W)
5804 func (stream, "!");
5805 }
5806 else
5807 {
5808 func (stream, "], ");
5809 if (W)
5810 {
5811 func (stream, "#%c%u", U ? '+' : '-', off * 4);
5812 value_in_comment = off * 4 * (U ? 1 : -1);
5813 }
5814 else
5815 {
5816 func (stream, "{%u}", off);
5817 value_in_comment = off;
5818 }
5819 }
5820 }
5821 break;
5822
5823 case 'w':
5824 {
5825 unsigned int Sbit = (given & 0x01000000) >> 24;
5826 unsigned int type = (given & 0x00600000) >> 21;
5827
5828 switch (type)
5829 {
5830 case 0: func (stream, Sbit ? "sb" : "b"); break;
5831 case 1: func (stream, Sbit ? "sh" : "h"); break;
5832 case 2:
5833 if (Sbit)
5834 func (stream, "??");
5835 break;
5836 case 3:
5837 func (stream, "??");
5838 break;
5839 }
5840 }
5841 break;
5842
5843 case 'm':
5844 {
5845 int started = 0;
5846 int reg;
5847
5848 func (stream, "{");
5849 for (reg = 0; reg < 16; reg++)
5850 if ((given & (1 << reg)) != 0)
5851 {
5852 if (started)
5853 func (stream, ", ");
5854 started = 1;
5855 func (stream, "%s", arm_regnames[reg]);
5856 }
5857 func (stream, "}");
5858 }
5859 break;
5860
5861 case 'E':
5862 {
5863 unsigned int msb = (given & 0x0000001f);
5864 unsigned int lsb = 0;
5865
5866 lsb |= (given & 0x000000c0u) >> 6;
5867 lsb |= (given & 0x00007000u) >> 10;
5868 func (stream, "#%u, #%u", lsb, msb - lsb + 1);
5869 }
5870 break;
5871
5872 case 'F':
5873 {
5874 unsigned int width = (given & 0x0000001f) + 1;
5875 unsigned int lsb = 0;
5876
5877 lsb |= (given & 0x000000c0u) >> 6;
5878 lsb |= (given & 0x00007000u) >> 10;
5879 func (stream, "#%u, #%u", lsb, width);
5880 }
5881 break;
5882
5883 case 'G':
5884 {
5885 unsigned int boff = (((given & 0x07800000) >> 23) << 1);
5886 func (stream, "%x", boff);
5887 }
5888 break;
5889
5890 case 'W':
5891 {
5892 unsigned int immA = (given & 0x001f0000u) >> 16;
5893 unsigned int immB = (given & 0x000007feu) >> 1;
5894 unsigned int immC = (given & 0x00000800u) >> 11;
5895 bfd_vma offset = 0;
5896
5897 offset |= immA << 12;
5898 offset |= immB << 2;
5899 offset |= immC << 1;
5900 /* Sign extend. */
5901 offset = (offset & 0x10000) ? offset - (1 << 17) : offset;
5902
5903 info->print_address_func (pc + 4 + offset, info);
5904 }
5905 break;
5906
5907 case 'Y':
5908 {
5909 unsigned int immA = (given & 0x007f0000u) >> 16;
5910 unsigned int immB = (given & 0x000007feu) >> 1;
5911 unsigned int immC = (given & 0x00000800u) >> 11;
5912 bfd_vma offset = 0;
5913
5914 offset |= immA << 12;
5915 offset |= immB << 2;
5916 offset |= immC << 1;
5917 /* Sign extend. */
5918 offset = (offset & 0x40000) ? offset - (1 << 19) : offset;
5919
5920 info->print_address_func (pc + 4 + offset, info);
5921 }
5922 break;
5923
5924 case 'Z':
5925 {
5926 unsigned int immA = (given & 0x00010000u) >> 16;
5927 unsigned int immB = (given & 0x000007feu) >> 1;
5928 unsigned int immC = (given & 0x00000800u) >> 11;
5929 bfd_vma offset = 0;
5930
5931 offset |= immA << 12;
5932 offset |= immB << 2;
5933 offset |= immC << 1;
5934 /* Sign extend. */
5935 offset = (offset & 0x1000) ? offset - (1 << 13) : offset;
5936
5937 info->print_address_func (pc + 4 + offset, info);
5938
5939 unsigned int T = (given & 0x00020000u) >> 17;
5940 unsigned int endoffset = (((given & 0x07800000) >> 23) << 1);
5941 unsigned int boffset = (T == 1) ? 4 : 2;
5942 func (stream, ", ");
5943 func (stream, "%x", endoffset + boffset);
5944 }
5945 break;
5946
5947 case 'b':
5948 {
5949 unsigned int S = (given & 0x04000000u) >> 26;
5950 unsigned int J1 = (given & 0x00002000u) >> 13;
5951 unsigned int J2 = (given & 0x00000800u) >> 11;
5952 bfd_vma offset = 0;
5953
5954 offset |= !S << 20;
5955 offset |= J2 << 19;
5956 offset |= J1 << 18;
5957 offset |= (given & 0x003f0000) >> 4;
5958 offset |= (given & 0x000007ff) << 1;
5959 offset -= (1 << 20);
5960
5961 info->print_address_func (pc + 4 + offset, info);
5962 }
5963 break;
5964
5965 case 'B':
5966 {
5967 unsigned int S = (given & 0x04000000u) >> 26;
5968 unsigned int I1 = (given & 0x00002000u) >> 13;
5969 unsigned int I2 = (given & 0x00000800u) >> 11;
5970 bfd_vma offset = 0;
5971
5972 offset |= !S << 24;
5973 offset |= !(I1 ^ S) << 23;
5974 offset |= !(I2 ^ S) << 22;
5975 offset |= (given & 0x03ff0000u) >> 4;
5976 offset |= (given & 0x000007ffu) << 1;
5977 offset -= (1 << 24);
5978 offset += pc + 4;
5979
5980 /* BLX target addresses are always word aligned. */
5981 if ((given & 0x00001000u) == 0)
5982 offset &= ~2u;
5983
5984 info->print_address_func (offset, info);
5985 }
5986 break;
5987
5988 case 's':
5989 {
5990 unsigned int shift = 0;
5991
5992 shift |= (given & 0x000000c0u) >> 6;
5993 shift |= (given & 0x00007000u) >> 10;
5994 if (WRITEBACK_BIT_SET)
5995 func (stream, ", asr #%u", shift);
5996 else if (shift)
5997 func (stream, ", lsl #%u", shift);
5998 /* else print nothing - lsl #0 */
5999 }
6000 break;
6001
6002 case 'R':
6003 {
6004 unsigned int rot = (given & 0x00000030) >> 4;
6005
6006 if (rot)
6007 func (stream, ", ror #%u", rot * 8);
6008 }
6009 break;
6010
6011 case 'U':
6012 if ((given & 0xf0) == 0x60)
6013 {
6014 switch (given & 0xf)
6015 {
6016 case 0xf: func (stream, "sy"); break;
6017 default:
6018 func (stream, "#%d", (int) given & 0xf);
6019 break;
6020 }
6021 }
6022 else
6023 {
6024 const char * opt = data_barrier_option (given & 0xf);
6025 if (opt != NULL)
6026 func (stream, "%s", opt);
6027 else
6028 func (stream, "#%d", (int) given & 0xf);
6029 }
6030 break;
6031
6032 case 'C':
6033 if ((given & 0xff) == 0)
6034 {
6035 func (stream, "%cPSR_", (given & 0x100000) ? 'S' : 'C');
6036 if (given & 0x800)
6037 func (stream, "f");
6038 if (given & 0x400)
6039 func (stream, "s");
6040 if (given & 0x200)
6041 func (stream, "x");
6042 if (given & 0x100)
6043 func (stream, "c");
6044 }
6045 else if ((given & 0x20) == 0x20)
6046 {
6047 char const* name;
6048 unsigned sysm = (given & 0xf00) >> 8;
6049
6050 sysm |= (given & 0x30);
6051 sysm |= (given & 0x00100000) >> 14;
6052 name = banked_regname (sysm);
6053
6054 if (name != NULL)
6055 func (stream, "%s", name);
6056 else
6057 func (stream, "(UNDEF: %lu)", (unsigned long) sysm);
6058 }
6059 else
6060 {
6061 func (stream, "%s", psr_name (given & 0xff));
6062 }
6063 break;
6064
6065 case 'D':
6066 if (((given & 0xff) == 0)
6067 || ((given & 0x20) == 0x20))
6068 {
6069 char const* name;
6070 unsigned sm = (given & 0xf0000) >> 16;
6071
6072 sm |= (given & 0x30);
6073 sm |= (given & 0x00100000) >> 14;
6074 name = banked_regname (sm);
6075
6076 if (name != NULL)
6077 func (stream, "%s", name);
6078 else
6079 func (stream, "(UNDEF: %lu)", (unsigned long) sm);
6080 }
6081 else
6082 func (stream, "%s", psr_name (given & 0xff));
6083 break;
6084
6085 case '0': case '1': case '2': case '3': case '4':
6086 case '5': case '6': case '7': case '8': case '9':
6087 {
6088 int width;
6089 unsigned long val;
6090
6091 c = arm_decode_bitfield (c, given, &val, &width);
6092
6093 switch (*c)
6094 {
6095 case 'd':
6096 func (stream, "%lu", val);
6097 value_in_comment = val;
6098 break;
6099
6100 case 'D':
6101 func (stream, "%lu", val + 1);
6102 value_in_comment = val + 1;
6103 break;
6104
6105 case 'W':
6106 func (stream, "%lu", val * 4);
6107 value_in_comment = val * 4;
6108 break;
6109
6110 case 'S':
6111 if (val == 13)
6112 is_unpredictable = TRUE;
6113 /* Fall through. */
6114 case 'R':
6115 if (val == 15)
6116 is_unpredictable = TRUE;
6117 /* Fall through. */
6118 case 'r':
6119 func (stream, "%s", arm_regnames[val]);
6120 break;
6121
6122 case 'c':
6123 func (stream, "%s", arm_conditional[val]);
6124 break;
6125
6126 case '\'':
6127 c++;
6128 if (val == ((1ul << width) - 1))
6129 func (stream, "%c", *c);
6130 break;
6131
6132 case '`':
6133 c++;
6134 if (val == 0)
6135 func (stream, "%c", *c);
6136 break;
6137
6138 case '?':
6139 func (stream, "%c", c[(1 << width) - (int) val]);
6140 c += 1 << width;
6141 break;
6142
6143 case 'x':
6144 func (stream, "0x%lx", val & 0xffffffffUL);
6145 break;
6146
6147 default:
6148 abort ();
6149 }
6150 }
6151 break;
6152
6153 case 'L':
6154 /* PR binutils/12534
6155 If we have a PC relative offset in an LDRD or STRD
6156 instructions then display the decoded address. */
6157 if (((given >> 16) & 0xf) == 0xf)
6158 {
6159 bfd_vma offset = (given & 0xff) * 4;
6160
6161 if ((given & (1 << 23)) == 0)
6162 offset = - offset;
6163 func (stream, "\t; ");
6164 info->print_address_func ((pc & ~3) + 4 + offset, info);
6165 }
6166 break;
6167
6168 default:
6169 abort ();
6170 }
6171 }
6172
6173 if (value_in_comment > 32 || value_in_comment < -16)
6174 func (stream, "\t; 0x%lx", value_in_comment);
6175
6176 if (is_unpredictable)
6177 func (stream, UNPREDICTABLE_INSTRUCTION);
6178
6179 return;
6180 }
6181
6182 /* No match. */
6183 func (stream, UNKNOWN_INSTRUCTION_32BIT, (unsigned)given);
6184 return;
6185 }
6186
6187 /* Print data bytes on INFO->STREAM. */
6188
6189 static void
6190 print_insn_data (bfd_vma pc ATTRIBUTE_UNUSED,
6191 struct disassemble_info *info,
6192 long given)
6193 {
6194 switch (info->bytes_per_chunk)
6195 {
6196 case 1:
6197 info->fprintf_func (info->stream, ".byte\t0x%02lx", given);
6198 break;
6199 case 2:
6200 info->fprintf_func (info->stream, ".short\t0x%04lx", given);
6201 break;
6202 case 4:
6203 info->fprintf_func (info->stream, ".word\t0x%08lx", given);
6204 break;
6205 default:
6206 abort ();
6207 }
6208 }
6209
6210 /* Disallow mapping symbols ($a, $b, $d, $t etc) from
6211 being displayed in symbol relative addresses.
6212
6213 Also disallow private symbol, with __tagsym$$ prefix,
6214 from ARM RVCT toolchain being displayed. */
6215
6216 bfd_boolean
6217 arm_symbol_is_valid (asymbol * sym,
6218 struct disassemble_info * info ATTRIBUTE_UNUSED)
6219 {
6220 const char * name;
6221
6222 if (sym == NULL)
6223 return FALSE;
6224
6225 name = bfd_asymbol_name (sym);
6226
6227 return (name && *name != '$' && strncmp (name, "__tagsym$$", 10));
6228 }
6229
6230 /* Parse the string of disassembler options. */
6231
6232 static void
6233 parse_arm_disassembler_options (const char *options)
6234 {
6235 const char *opt;
6236
6237 FOR_EACH_DISASSEMBLER_OPTION (opt, options)
6238 {
6239 if (CONST_STRNEQ (opt, "reg-names-"))
6240 {
6241 unsigned int i;
6242 for (i = 0; i < NUM_ARM_OPTIONS; i++)
6243 if (disassembler_options_cmp (opt, regnames[i].name) == 0)
6244 {
6245 regname_selected = i;
6246 break;
6247 }
6248
6249 if (i >= NUM_ARM_OPTIONS)
6250 /* xgettext: c-format */
6251 opcodes_error_handler (_("unrecognised register name set: %s"),
6252 opt);
6253 }
6254 else if (CONST_STRNEQ (opt, "force-thumb"))
6255 force_thumb = 1;
6256 else if (CONST_STRNEQ (opt, "no-force-thumb"))
6257 force_thumb = 0;
6258 else
6259 /* xgettext: c-format */
6260 opcodes_error_handler (_("unrecognised disassembler option: %s"), opt);
6261 }
6262
6263 return;
6264 }
6265
6266 static bfd_boolean
6267 mapping_symbol_for_insn (bfd_vma pc, struct disassemble_info *info,
6268 enum map_type *map_symbol);
6269
6270 /* Search back through the insn stream to determine if this instruction is
6271 conditionally executed. */
6272
6273 static void
6274 find_ifthen_state (bfd_vma pc,
6275 struct disassemble_info *info,
6276 bfd_boolean little)
6277 {
6278 unsigned char b[2];
6279 unsigned int insn;
6280 int status;
6281 /* COUNT is twice the number of instructions seen. It will be odd if we
6282 just crossed an instruction boundary. */
6283 int count;
6284 int it_count;
6285 unsigned int seen_it;
6286 bfd_vma addr;
6287
6288 ifthen_address = pc;
6289 ifthen_state = 0;
6290
6291 addr = pc;
6292 count = 1;
6293 it_count = 0;
6294 seen_it = 0;
6295 /* Scan backwards looking for IT instructions, keeping track of where
6296 instruction boundaries are. We don't know if something is actually an
6297 IT instruction until we find a definite instruction boundary. */
6298 for (;;)
6299 {
6300 if (addr == 0 || info->symbol_at_address_func (addr, info))
6301 {
6302 /* A symbol must be on an instruction boundary, and will not
6303 be within an IT block. */
6304 if (seen_it && (count & 1))
6305 break;
6306
6307 return;
6308 }
6309 addr -= 2;
6310 status = info->read_memory_func (addr, (bfd_byte *) b, 2, info);
6311 if (status)
6312 return;
6313
6314 if (little)
6315 insn = (b[0]) | (b[1] << 8);
6316 else
6317 insn = (b[1]) | (b[0] << 8);
6318 if (seen_it)
6319 {
6320 if ((insn & 0xf800) < 0xe800)
6321 {
6322 /* Addr + 2 is an instruction boundary. See if this matches
6323 the expected boundary based on the position of the last
6324 IT candidate. */
6325 if (count & 1)
6326 break;
6327 seen_it = 0;
6328 }
6329 }
6330 if ((insn & 0xff00) == 0xbf00 && (insn & 0xf) != 0)
6331 {
6332 enum map_type type = MAP_ARM;
6333 bfd_boolean found = mapping_symbol_for_insn (addr, info, &type);
6334
6335 if (!found || (found && type == MAP_THUMB))
6336 {
6337 /* This could be an IT instruction. */
6338 seen_it = insn;
6339 it_count = count >> 1;
6340 }
6341 }
6342 if ((insn & 0xf800) >= 0xe800)
6343 count++;
6344 else
6345 count = (count + 2) | 1;
6346 /* IT blocks contain at most 4 instructions. */
6347 if (count >= 8 && !seen_it)
6348 return;
6349 }
6350 /* We found an IT instruction. */
6351 ifthen_state = (seen_it & 0xe0) | ((seen_it << it_count) & 0x1f);
6352 if ((ifthen_state & 0xf) == 0)
6353 ifthen_state = 0;
6354 }
6355
6356 /* Returns nonzero and sets *MAP_TYPE if the N'th symbol is a
6357 mapping symbol. */
6358
6359 static int
6360 is_mapping_symbol (struct disassemble_info *info, int n,
6361 enum map_type *map_type)
6362 {
6363 const char *name;
6364
6365 name = bfd_asymbol_name (info->symtab[n]);
6366 if (name[0] == '$' && (name[1] == 'a' || name[1] == 't' || name[1] == 'd')
6367 && (name[2] == 0 || name[2] == '.'))
6368 {
6369 *map_type = ((name[1] == 'a') ? MAP_ARM
6370 : (name[1] == 't') ? MAP_THUMB
6371 : MAP_DATA);
6372 return TRUE;
6373 }
6374
6375 return FALSE;
6376 }
6377
6378 /* Try to infer the code type (ARM or Thumb) from a mapping symbol.
6379 Returns nonzero if *MAP_TYPE was set. */
6380
6381 static int
6382 get_map_sym_type (struct disassemble_info *info,
6383 int n,
6384 enum map_type *map_type)
6385 {
6386 /* If the symbol is in a different section, ignore it. */
6387 if (info->section != NULL && info->section != info->symtab[n]->section)
6388 return FALSE;
6389
6390 return is_mapping_symbol (info, n, map_type);
6391 }
6392
6393 /* Try to infer the code type (ARM or Thumb) from a non-mapping symbol.
6394 Returns nonzero if *MAP_TYPE was set. */
6395
6396 static int
6397 get_sym_code_type (struct disassemble_info *info,
6398 int n,
6399 enum map_type *map_type)
6400 {
6401 elf_symbol_type *es;
6402 unsigned int type;
6403
6404 /* If the symbol is in a different section, ignore it. */
6405 if (info->section != NULL && info->section != info->symtab[n]->section)
6406 return FALSE;
6407
6408 es = *(elf_symbol_type **)(info->symtab + n);
6409 type = ELF_ST_TYPE (es->internal_elf_sym.st_info);
6410
6411 /* If the symbol has function type then use that. */
6412 if (type == STT_FUNC || type == STT_GNU_IFUNC)
6413 {
6414 if (ARM_GET_SYM_BRANCH_TYPE (es->internal_elf_sym.st_target_internal)
6415 == ST_BRANCH_TO_THUMB)
6416 *map_type = MAP_THUMB;
6417 else
6418 *map_type = MAP_ARM;
6419 return TRUE;
6420 }
6421
6422 return FALSE;
6423 }
6424
6425 /* Search the mapping symbol state for instruction at pc. This is only
6426 applicable for elf target.
6427
6428 There is an assumption Here, info->private_data contains the correct AND
6429 up-to-date information about current scan process. The information will be
6430 used to speed this search process.
6431
6432 Return TRUE if the mapping state can be determined, and map_symbol
6433 will be updated accordingly. Otherwise, return FALSE. */
6434
6435 static bfd_boolean
6436 mapping_symbol_for_insn (bfd_vma pc, struct disassemble_info *info,
6437 enum map_type *map_symbol)
6438 {
6439 bfd_vma addr, section_vma = 0;
6440 int n, last_sym = -1;
6441 bfd_boolean found = FALSE;
6442 bfd_boolean can_use_search_opt_p = FALSE;
6443
6444 /* Default to DATA. A text section is required by the ABI to contain an
6445 INSN mapping symbol at the start. A data section has no such
6446 requirement, hence if no mapping symbol is found the section must
6447 contain only data. This however isn't very useful if the user has
6448 fully stripped the binaries. If this is the case use the section
6449 attributes to determine the default. If we have no section default to
6450 INSN as well, as we may be disassembling some raw bytes on a baremetal
6451 HEX file or similar. */
6452 enum map_type type = MAP_DATA;
6453 if ((info->section && info->section->flags & SEC_CODE) || !info->section)
6454 type = MAP_ARM;
6455 struct arm_private_data *private_data;
6456
6457 if (info->private_data == NULL
6458 || bfd_asymbol_flavour (*info->symtab) != bfd_target_elf_flavour)
6459 return FALSE;
6460
6461 private_data = info->private_data;
6462
6463 /* First, look for mapping symbols. */
6464 if (info->symtab_size != 0)
6465 {
6466 if (pc <= private_data->last_mapping_addr)
6467 private_data->last_mapping_sym = -1;
6468
6469 /* Start scanning at the start of the function, or wherever
6470 we finished last time. */
6471 n = info->symtab_pos + 1;
6472
6473 /* If the last stop offset is different from the current one it means we
6474 are disassembling a different glob of bytes. As such the optimization
6475 would not be safe and we should start over. */
6476 can_use_search_opt_p
6477 = private_data->last_mapping_sym >= 0
6478 && info->stop_offset == private_data->last_stop_offset;
6479
6480 if (n >= private_data->last_mapping_sym && can_use_search_opt_p)
6481 n = private_data->last_mapping_sym;
6482
6483 /* Look down while we haven't passed the location being disassembled.
6484 The reason for this is that there's no defined order between a symbol
6485 and an mapping symbol that may be at the same address. We may have to
6486 look at least one position ahead. */
6487 for (; n < info->symtab_size; n++)
6488 {
6489 addr = bfd_asymbol_value (info->symtab[n]);
6490 if (addr > pc)
6491 break;
6492 if (get_map_sym_type (info, n, &type))
6493 {
6494 last_sym = n;
6495 found = TRUE;
6496 }
6497 }
6498
6499 if (!found)
6500 {
6501 n = info->symtab_pos;
6502 if (n >= private_data->last_mapping_sym && can_use_search_opt_p)
6503 n = private_data->last_mapping_sym;
6504
6505 /* No mapping symbol found at this address. Look backwards
6506 for a preceeding one, but don't go pass the section start
6507 otherwise a data section with no mapping symbol can pick up
6508 a text mapping symbol of a preceeding section. The documentation
6509 says section can be NULL, in which case we will seek up all the
6510 way to the top. */
6511 if (info->section)
6512 section_vma = info->section->vma;
6513
6514 for (; n >= 0; n--)
6515 {
6516 addr = bfd_asymbol_value (info->symtab[n]);
6517 if (addr < section_vma)
6518 break;
6519
6520 if (get_map_sym_type (info, n, &type))
6521 {
6522 last_sym = n;
6523 found = TRUE;
6524 break;
6525 }
6526 }
6527 }
6528 }
6529
6530 /* If no mapping symbol was found, try looking up without a mapping
6531 symbol. This is done by walking up from the current PC to the nearest
6532 symbol. We don't actually have to loop here since symtab_pos will
6533 contain the nearest symbol already. */
6534 if (!found)
6535 {
6536 n = info->symtab_pos;
6537 if (n >= 0 && get_sym_code_type (info, n, &type))
6538 {
6539 last_sym = n;
6540 found = TRUE;
6541 }
6542 }
6543
6544 private_data->last_mapping_sym = last_sym;
6545 private_data->last_type = type;
6546 private_data->last_stop_offset = info->stop_offset;
6547
6548 *map_symbol = type;
6549 return found;
6550 }
6551
6552 /* Given a bfd_mach_arm_XXX value, this function fills in the fields
6553 of the supplied arm_feature_set structure with bitmasks indicating
6554 the supported base architectures and coprocessor extensions.
6555
6556 FIXME: This could more efficiently implemented as a constant array,
6557 although it would also be less robust. */
6558
6559 static void
6560 select_arm_features (unsigned long mach,
6561 arm_feature_set * features)
6562 {
6563 arm_feature_set arch_fset;
6564 const arm_feature_set fpu_any = FPU_ANY;
6565
6566 #undef ARM_SET_FEATURES
6567 #define ARM_SET_FEATURES(FSET) \
6568 { \
6569 const arm_feature_set fset = FSET; \
6570 arch_fset = fset; \
6571 }
6572
6573 /* When several architecture versions share the same bfd_mach_arm_XXX value
6574 the most featureful is chosen. */
6575 switch (mach)
6576 {
6577 case bfd_mach_arm_2: ARM_SET_FEATURES (ARM_ARCH_V2); break;
6578 case bfd_mach_arm_2a: ARM_SET_FEATURES (ARM_ARCH_V2S); break;
6579 case bfd_mach_arm_3: ARM_SET_FEATURES (ARM_ARCH_V3); break;
6580 case bfd_mach_arm_3M: ARM_SET_FEATURES (ARM_ARCH_V3M); break;
6581 case bfd_mach_arm_4: ARM_SET_FEATURES (ARM_ARCH_V4); break;
6582 case bfd_mach_arm_4T: ARM_SET_FEATURES (ARM_ARCH_V4T); break;
6583 case bfd_mach_arm_5: ARM_SET_FEATURES (ARM_ARCH_V5); break;
6584 case bfd_mach_arm_5T: ARM_SET_FEATURES (ARM_ARCH_V5T); break;
6585 case bfd_mach_arm_5TE: ARM_SET_FEATURES (ARM_ARCH_V5TE); break;
6586 case bfd_mach_arm_XScale: ARM_SET_FEATURES (ARM_ARCH_XSCALE); break;
6587 case bfd_mach_arm_ep9312:
6588 ARM_SET_FEATURES (ARM_FEATURE_LOW (ARM_AEXT_V4T,
6589 ARM_CEXT_MAVERICK | FPU_MAVERICK));
6590 break;
6591 case bfd_mach_arm_iWMMXt: ARM_SET_FEATURES (ARM_ARCH_IWMMXT); break;
6592 case bfd_mach_arm_iWMMXt2: ARM_SET_FEATURES (ARM_ARCH_IWMMXT2); break;
6593 case bfd_mach_arm_5TEJ: ARM_SET_FEATURES (ARM_ARCH_V5TEJ); break;
6594 case bfd_mach_arm_6: ARM_SET_FEATURES (ARM_ARCH_V6); break;
6595 case bfd_mach_arm_6KZ: ARM_SET_FEATURES (ARM_ARCH_V6KZ); break;
6596 case bfd_mach_arm_6T2: ARM_SET_FEATURES (ARM_ARCH_V6KZT2); break;
6597 case bfd_mach_arm_6K: ARM_SET_FEATURES (ARM_ARCH_V6K); break;
6598 case bfd_mach_arm_7: ARM_SET_FEATURES (ARM_ARCH_V7VE); break;
6599 case bfd_mach_arm_6M: ARM_SET_FEATURES (ARM_ARCH_V6M); break;
6600 case bfd_mach_arm_6SM: ARM_SET_FEATURES (ARM_ARCH_V6SM); break;
6601 case bfd_mach_arm_7EM: ARM_SET_FEATURES (ARM_ARCH_V7EM); break;
6602 case bfd_mach_arm_8:
6603 {
6604 /* Add bits for extensions that Armv8.5-A recognizes. */
6605 arm_feature_set armv8_5_ext_fset
6606 = ARM_FEATURE_CORE_HIGH (ARM_EXT2_FP16_INST);
6607 ARM_SET_FEATURES (ARM_ARCH_V8_5A);
6608 ARM_MERGE_FEATURE_SETS (arch_fset, arch_fset, armv8_5_ext_fset);
6609 break;
6610 }
6611 case bfd_mach_arm_8R: ARM_SET_FEATURES (ARM_ARCH_V8R); break;
6612 case bfd_mach_arm_8M_BASE: ARM_SET_FEATURES (ARM_ARCH_V8M_BASE); break;
6613 case bfd_mach_arm_8M_MAIN: ARM_SET_FEATURES (ARM_ARCH_V8M_MAIN); break;
6614 case bfd_mach_arm_8_1M_MAIN: ARM_SET_FEATURES (ARM_ARCH_V8_1M_MAIN); break;
6615 /* If the machine type is unknown allow all architecture types and all
6616 extensions. */
6617 case bfd_mach_arm_unknown: ARM_SET_FEATURES (ARM_FEATURE_ALL); break;
6618 default:
6619 abort ();
6620 }
6621 #undef ARM_SET_FEATURES
6622
6623 /* None of the feature bits related to -mfpu have an impact on Tag_CPU_arch
6624 and thus on bfd_mach_arm_XXX value. Therefore for a given
6625 bfd_mach_arm_XXX value all coprocessor feature bits should be allowed. */
6626 ARM_MERGE_FEATURE_SETS (*features, arch_fset, fpu_any);
6627 }
6628
6629
6630 /* NOTE: There are no checks in these routines that
6631 the relevant number of data bytes exist. */
6632
6633 static int
6634 print_insn (bfd_vma pc, struct disassemble_info *info, bfd_boolean little)
6635 {
6636 unsigned char b[4];
6637 long given;
6638 int status;
6639 int is_thumb = FALSE;
6640 int is_data = FALSE;
6641 int little_code;
6642 unsigned int size = 4;
6643 void (*printer) (bfd_vma, struct disassemble_info *, long);
6644 bfd_boolean found = FALSE;
6645 struct arm_private_data *private_data;
6646
6647 if (info->disassembler_options)
6648 {
6649 parse_arm_disassembler_options (info->disassembler_options);
6650
6651 /* To avoid repeated parsing of these options, we remove them here. */
6652 info->disassembler_options = NULL;
6653 }
6654
6655 /* PR 10288: Control which instructions will be disassembled. */
6656 if (info->private_data == NULL)
6657 {
6658 static struct arm_private_data private;
6659
6660 if ((info->flags & USER_SPECIFIED_MACHINE_TYPE) == 0)
6661 /* If the user did not use the -m command line switch then default to
6662 disassembling all types of ARM instruction.
6663
6664 The info->mach value has to be ignored as this will be based on
6665 the default archictecture for the target and/or hints in the notes
6666 section, but it will never be greater than the current largest arm
6667 machine value (iWMMXt2), which is only equivalent to the V5TE
6668 architecture. ARM architectures have advanced beyond the machine
6669 value encoding, and these newer architectures would be ignored if
6670 the machine value was used.
6671
6672 Ie the -m switch is used to restrict which instructions will be
6673 disassembled. If it is necessary to use the -m switch to tell
6674 objdump that an ARM binary is being disassembled, eg because the
6675 input is a raw binary file, but it is also desired to disassemble
6676 all ARM instructions then use "-marm". This will select the
6677 "unknown" arm architecture which is compatible with any ARM
6678 instruction. */
6679 info->mach = bfd_mach_arm_unknown;
6680
6681 /* Compute the architecture bitmask from the machine number.
6682 Note: This assumes that the machine number will not change
6683 during disassembly.... */
6684 select_arm_features (info->mach, & private.features);
6685
6686 private.last_mapping_sym = -1;
6687 private.last_mapping_addr = 0;
6688 private.last_stop_offset = 0;
6689
6690 info->private_data = & private;
6691 }
6692
6693 private_data = info->private_data;
6694
6695 /* Decide if our code is going to be little-endian, despite what the
6696 function argument might say. */
6697 little_code = ((info->endian_code == BFD_ENDIAN_LITTLE) || little);
6698
6699 /* For ELF, consult the symbol table to determine what kind of code
6700 or data we have. */
6701 if (info->symtab_size != 0
6702 && bfd_asymbol_flavour (*info->symtab) == bfd_target_elf_flavour)
6703 {
6704 bfd_vma addr;
6705 int n;
6706 int last_sym = -1;
6707 enum map_type type = MAP_ARM;
6708
6709 found = mapping_symbol_for_insn (pc, info, &type);
6710 last_sym = private_data->last_mapping_sym;
6711
6712 is_thumb = (private_data->last_type == MAP_THUMB);
6713 is_data = (private_data->last_type == MAP_DATA);
6714
6715 /* Look a little bit ahead to see if we should print out
6716 two or four bytes of data. If there's a symbol,
6717 mapping or otherwise, after two bytes then don't
6718 print more. */
6719 if (is_data)
6720 {
6721 size = 4 - (pc & 3);
6722 for (n = last_sym + 1; n < info->symtab_size; n++)
6723 {
6724 addr = bfd_asymbol_value (info->symtab[n]);
6725 if (addr > pc
6726 && (info->section == NULL
6727 || info->section == info->symtab[n]->section))
6728 {
6729 if (addr - pc < size)
6730 size = addr - pc;
6731 break;
6732 }
6733 }
6734 /* If the next symbol is after three bytes, we need to
6735 print only part of the data, so that we can use either
6736 .byte or .short. */
6737 if (size == 3)
6738 size = (pc & 1) ? 1 : 2;
6739 }
6740 }
6741
6742 if (info->symbols != NULL)
6743 {
6744 if (bfd_asymbol_flavour (*info->symbols) == bfd_target_coff_flavour)
6745 {
6746 coff_symbol_type * cs;
6747
6748 cs = coffsymbol (*info->symbols);
6749 is_thumb = ( cs->native->u.syment.n_sclass == C_THUMBEXT
6750 || cs->native->u.syment.n_sclass == C_THUMBSTAT
6751 || cs->native->u.syment.n_sclass == C_THUMBLABEL
6752 || cs->native->u.syment.n_sclass == C_THUMBEXTFUNC
6753 || cs->native->u.syment.n_sclass == C_THUMBSTATFUNC);
6754 }
6755 else if (bfd_asymbol_flavour (*info->symbols) == bfd_target_elf_flavour
6756 && !found)
6757 {
6758 /* If no mapping symbol has been found then fall back to the type
6759 of the function symbol. */
6760 elf_symbol_type * es;
6761 unsigned int type;
6762
6763 es = *(elf_symbol_type **)(info->symbols);
6764 type = ELF_ST_TYPE (es->internal_elf_sym.st_info);
6765
6766 is_thumb =
6767 ((ARM_GET_SYM_BRANCH_TYPE (es->internal_elf_sym.st_target_internal)
6768 == ST_BRANCH_TO_THUMB) || type == STT_ARM_16BIT);
6769 }
6770 else if (bfd_asymbol_flavour (*info->symbols)
6771 == bfd_target_mach_o_flavour)
6772 {
6773 bfd_mach_o_asymbol *asym = (bfd_mach_o_asymbol *)*info->symbols;
6774
6775 is_thumb = (asym->n_desc & BFD_MACH_O_N_ARM_THUMB_DEF);
6776 }
6777 }
6778
6779 if (force_thumb)
6780 is_thumb = TRUE;
6781
6782 if (is_data)
6783 info->display_endian = little ? BFD_ENDIAN_LITTLE : BFD_ENDIAN_BIG;
6784 else
6785 info->display_endian = little_code ? BFD_ENDIAN_LITTLE : BFD_ENDIAN_BIG;
6786
6787 info->bytes_per_line = 4;
6788
6789 /* PR 10263: Disassemble data if requested to do so by the user. */
6790 if (is_data && ((info->flags & DISASSEMBLE_DATA) == 0))
6791 {
6792 int i;
6793
6794 /* Size was already set above. */
6795 info->bytes_per_chunk = size;
6796 printer = print_insn_data;
6797
6798 status = info->read_memory_func (pc, (bfd_byte *) b, size, info);
6799 given = 0;
6800 if (little)
6801 for (i = size - 1; i >= 0; i--)
6802 given = b[i] | (given << 8);
6803 else
6804 for (i = 0; i < (int) size; i++)
6805 given = b[i] | (given << 8);
6806 }
6807 else if (!is_thumb)
6808 {
6809 /* In ARM mode endianness is a straightforward issue: the instruction
6810 is four bytes long and is either ordered 0123 or 3210. */
6811 printer = print_insn_arm;
6812 info->bytes_per_chunk = 4;
6813 size = 4;
6814
6815 status = info->read_memory_func (pc, (bfd_byte *) b, 4, info);
6816 if (little_code)
6817 given = (b[0]) | (b[1] << 8) | (b[2] << 16) | (b[3] << 24);
6818 else
6819 given = (b[3]) | (b[2] << 8) | (b[1] << 16) | (b[0] << 24);
6820 }
6821 else
6822 {
6823 /* In Thumb mode we have the additional wrinkle of two
6824 instruction lengths. Fortunately, the bits that determine
6825 the length of the current instruction are always to be found
6826 in the first two bytes. */
6827 printer = print_insn_thumb16;
6828 info->bytes_per_chunk = 2;
6829 size = 2;
6830
6831 status = info->read_memory_func (pc, (bfd_byte *) b, 2, info);
6832 if (little_code)
6833 given = (b[0]) | (b[1] << 8);
6834 else
6835 given = (b[1]) | (b[0] << 8);
6836
6837 if (!status)
6838 {
6839 /* These bit patterns signal a four-byte Thumb
6840 instruction. */
6841 if ((given & 0xF800) == 0xF800
6842 || (given & 0xF800) == 0xF000
6843 || (given & 0xF800) == 0xE800)
6844 {
6845 status = info->read_memory_func (pc + 2, (bfd_byte *) b, 2, info);
6846 if (little_code)
6847 given = (b[0]) | (b[1] << 8) | (given << 16);
6848 else
6849 given = (b[1]) | (b[0] << 8) | (given << 16);
6850
6851 printer = print_insn_thumb32;
6852 size = 4;
6853 }
6854 }
6855
6856 if (ifthen_address != pc)
6857 find_ifthen_state (pc, info, little_code);
6858
6859 if (ifthen_state)
6860 {
6861 if ((ifthen_state & 0xf) == 0x8)
6862 ifthen_next_state = 0;
6863 else
6864 ifthen_next_state = (ifthen_state & 0xe0)
6865 | ((ifthen_state & 0xf) << 1);
6866 }
6867 }
6868
6869 if (status)
6870 {
6871 info->memory_error_func (status, pc, info);
6872 return -1;
6873 }
6874 if (info->flags & INSN_HAS_RELOC)
6875 /* If the instruction has a reloc associated with it, then
6876 the offset field in the instruction will actually be the
6877 addend for the reloc. (We are using REL type relocs).
6878 In such cases, we can ignore the pc when computing
6879 addresses, since the addend is not currently pc-relative. */
6880 pc = 0;
6881
6882 printer (pc, info, given);
6883
6884 if (is_thumb)
6885 {
6886 ifthen_state = ifthen_next_state;
6887 ifthen_address += size;
6888 }
6889 return size;
6890 }
6891
6892 int
6893 print_insn_big_arm (bfd_vma pc, struct disassemble_info *info)
6894 {
6895 /* Detect BE8-ness and record it in the disassembler info. */
6896 if (info->flavour == bfd_target_elf_flavour
6897 && info->section != NULL
6898 && (elf_elfheader (info->section->owner)->e_flags & EF_ARM_BE8))
6899 info->endian_code = BFD_ENDIAN_LITTLE;
6900
6901 return print_insn (pc, info, FALSE);
6902 }
6903
6904 int
6905 print_insn_little_arm (bfd_vma pc, struct disassemble_info *info)
6906 {
6907 return print_insn (pc, info, TRUE);
6908 }
6909
6910 const disasm_options_and_args_t *
6911 disassembler_options_arm (void)
6912 {
6913 static disasm_options_and_args_t *opts_and_args;
6914
6915 if (opts_and_args == NULL)
6916 {
6917 disasm_options_t *opts;
6918 unsigned int i;
6919
6920 opts_and_args = XNEW (disasm_options_and_args_t);
6921 opts_and_args->args = NULL;
6922
6923 opts = &opts_and_args->options;
6924 opts->name = XNEWVEC (const char *, NUM_ARM_OPTIONS + 1);
6925 opts->description = XNEWVEC (const char *, NUM_ARM_OPTIONS + 1);
6926 opts->arg = NULL;
6927 for (i = 0; i < NUM_ARM_OPTIONS; i++)
6928 {
6929 opts->name[i] = regnames[i].name;
6930 if (regnames[i].description != NULL)
6931 opts->description[i] = _(regnames[i].description);
6932 else
6933 opts->description[i] = NULL;
6934 }
6935 /* The array we return must be NULL terminated. */
6936 opts->name[i] = NULL;
6937 opts->description[i] = NULL;
6938 }
6939
6940 return opts_and_args;
6941 }
6942
6943 void
6944 print_arm_disassembler_options (FILE *stream)
6945 {
6946 unsigned int i, max_len = 0;
6947 fprintf (stream, _("\n\
6948 The following ARM specific disassembler options are supported for use with\n\
6949 the -M switch:\n"));
6950
6951 for (i = 0; i < NUM_ARM_OPTIONS; i++)
6952 {
6953 unsigned int len = strlen (regnames[i].name);
6954 if (max_len < len)
6955 max_len = len;
6956 }
6957
6958 for (i = 0, max_len++; i < NUM_ARM_OPTIONS; i++)
6959 fprintf (stream, " %s%*c %s\n",
6960 regnames[i].name,
6961 (int)(max_len - strlen (regnames[i].name)), ' ',
6962 _(regnames[i].description));
6963 }
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