xref: /openbmc/qemu/target/arm/tcg/a64.decode (revision 44463b96)
1# AArch64 A64 allowed instruction decoding
2#
3#  Copyright (c) 2023 Linaro, Ltd
4#
5# This library is free software; you can redistribute it and/or
6# modify it under the terms of the GNU Lesser General Public
7# License as published by the Free Software Foundation; either
8# version 2.1 of the License, or (at your option) any later version.
9#
10# This library is distributed in the hope that it will be useful,
11# but WITHOUT ANY WARRANTY; without even the implied warranty of
12# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
13# Lesser General Public License for more details.
14#
15# You should have received a copy of the GNU Lesser General Public
16# License along with this library; if not, see <http://www.gnu.org/licenses/>.
17
18#
19# This file is processed by scripts/decodetree.py
20#
21
22%rd             0:5
23%esz_sd         22:1 !function=plus_2
24%esz_hsd        22:2 !function=xor_2
25%hl             11:1 21:1
26%hlm            11:1 20:2
27
28&r              rn
29&ri             rd imm
30&rri_sf         rd rn imm sf
31&i              imm
32&rr_e           rd rn esz
33&rrr_e          rd rn rm esz
34&rrx_e          rd rn rm idx esz
35&rrrr_e         rd rn rm ra esz
36&qrr_e          q rd rn esz
37&qrrr_e         q rd rn rm esz
38&qrrx_e         q rd rn rm idx esz
39&qrrrr_e        q rd rn rm ra esz
40
41@rr_h           ........ ... ..... ...... rn:5 rd:5     &rr_e esz=1
42@rr_d           ........ ... ..... ...... rn:5 rd:5     &rr_e esz=3
43@rr_sd          ........ ... ..... ...... rn:5 rd:5     &rr_e esz=%esz_sd
44
45@rrr_h          ........ ... rm:5 ...... rn:5 rd:5      &rrr_e esz=1
46@rrr_d          ........ ... rm:5 ...... rn:5 rd:5      &rrr_e esz=3
47@rrr_sd         ........ ... rm:5 ...... rn:5 rd:5      &rrr_e esz=%esz_sd
48@rrr_hsd        ........ ... rm:5 ...... rn:5 rd:5      &rrr_e esz=%esz_hsd
49@rrr_e          ........ esz:2 . rm:5 ...... rn:5 rd:5  &rrr_e
50@r2r_e          ........ esz:2 . ..... ...... rm:5 rd:5 &rrr_e rn=%rd
51
52@rrx_h          ........ .. .. rm:4 .... . . rn:5 rd:5  &rrx_e esz=1 idx=%hlm
53@rrx_s          ........ .. . rm:5  .... . . rn:5 rd:5  &rrx_e esz=2 idx=%hl
54@rrx_d          ........ .. . rm:5  .... idx:1 . rn:5 rd:5  &rrx_e esz=3
55
56@rr_q1e0        ........ ........ ...... rn:5 rd:5      &qrr_e q=1 esz=0
57@r2r_q1e0       ........ ........ ...... rm:5 rd:5      &qrrr_e rn=%rd q=1 esz=0
58@rrr_q1e0       ........ ... rm:5 ...... rn:5 rd:5      &qrrr_e q=1 esz=0
59@rrr_q1e3       ........ ... rm:5 ...... rn:5 rd:5      &qrrr_e q=1 esz=3
60@rrrr_q1e3      ........ ... rm:5 . ra:5 rn:5 rd:5      &qrrrr_e q=1 esz=3
61
62@qrrr_b         . q:1 ...... ... rm:5 ...... rn:5 rd:5  &qrrr_e esz=0
63@qrrr_h         . q:1 ...... ... rm:5 ...... rn:5 rd:5  &qrrr_e esz=1
64@qrrr_sd        . q:1 ...... ... rm:5 ...... rn:5 rd:5  &qrrr_e esz=%esz_sd
65@qrrr_e         . q:1 ...... esz:2 . rm:5 ...... rn:5 rd:5  &qrrr_e
66@qr2r_e         . q:1 ...... esz:2 . ..... ...... rm:5 rd:5 &qrrr_e rn=%rd
67
68@qrrx_h         . q:1 .. .... .. .. rm:4 .... . . rn:5 rd:5 \
69                &qrrx_e esz=1 idx=%hlm
70@qrrx_s         . q:1 .. .... .. . rm:5  .... . . rn:5 rd:5 \
71                &qrrx_e esz=2 idx=%hl
72@qrrx_d         . q:1 .. .... .. . rm:5  .... idx:1 . rn:5 rd:5 \
73                &qrrx_e esz=3
74
75### Data Processing - Immediate
76
77# PC-rel addressing
78
79%imm_pcrel      5:s19 29:2
80@pcrel          . .. ..... ................... rd:5     &ri imm=%imm_pcrel
81
82ADR             0 .. 10000 ................... .....    @pcrel
83ADRP            1 .. 10000 ................... .....    @pcrel
84
85# Add/subtract (immediate)
86
87%imm12_sh12     10:12 !function=shl_12
88@addsub_imm     sf:1 .. ...... . imm:12 rn:5 rd:5
89@addsub_imm12   sf:1 .. ...... . ............ rn:5 rd:5 imm=%imm12_sh12
90
91ADD_i           . 00 100010 0 ............ ..... .....  @addsub_imm
92ADD_i           . 00 100010 1 ............ ..... .....  @addsub_imm12
93ADDS_i          . 01 100010 0 ............ ..... .....  @addsub_imm
94ADDS_i          . 01 100010 1 ............ ..... .....  @addsub_imm12
95
96SUB_i           . 10 100010 0 ............ ..... .....  @addsub_imm
97SUB_i           . 10 100010 1 ............ ..... .....  @addsub_imm12
98SUBS_i          . 11 100010 0 ............ ..... .....  @addsub_imm
99SUBS_i          . 11 100010 1 ............ ..... .....  @addsub_imm12
100
101# Add/subtract (immediate with tags)
102
103&rri_tag        rd rn uimm6 uimm4
104@addsub_imm_tag . .. ...... . uimm6:6 .. uimm4:4 rn:5 rd:5 &rri_tag
105
106ADDG_i          1 00 100011 0 ...... 00 .... ..... ..... @addsub_imm_tag
107SUBG_i          1 10 100011 0 ...... 00 .... ..... ..... @addsub_imm_tag
108
109# Logical (immediate)
110
111&rri_log        rd rn sf dbm
112@logic_imm_64   1 .. ...... dbm:13 rn:5 rd:5            &rri_log sf=1
113@logic_imm_32   0 .. ...... 0 dbm:12 rn:5 rd:5          &rri_log sf=0
114
115AND_i           . 00 100100 . ...... ...... ..... ..... @logic_imm_64
116AND_i           . 00 100100 . ...... ...... ..... ..... @logic_imm_32
117ORR_i           . 01 100100 . ...... ...... ..... ..... @logic_imm_64
118ORR_i           . 01 100100 . ...... ...... ..... ..... @logic_imm_32
119EOR_i           . 10 100100 . ...... ...... ..... ..... @logic_imm_64
120EOR_i           . 10 100100 . ...... ...... ..... ..... @logic_imm_32
121ANDS_i          . 11 100100 . ...... ...... ..... ..... @logic_imm_64
122ANDS_i          . 11 100100 . ...... ...... ..... ..... @logic_imm_32
123
124# Move wide (immediate)
125
126&movw           rd sf imm hw
127@movw_64        1 .. ...... hw:2   imm:16 rd:5          &movw sf=1
128@movw_32        0 .. ...... 0 hw:1 imm:16 rd:5          &movw sf=0
129
130MOVN            . 00 100101 .. ................ .....   @movw_64
131MOVN            . 00 100101 .. ................ .....   @movw_32
132MOVZ            . 10 100101 .. ................ .....   @movw_64
133MOVZ            . 10 100101 .. ................ .....   @movw_32
134MOVK            . 11 100101 .. ................ .....   @movw_64
135MOVK            . 11 100101 .. ................ .....   @movw_32
136
137# Bitfield
138
139&bitfield       rd rn sf immr imms
140@bitfield_64    1 .. ...... 1 immr:6 imms:6 rn:5 rd:5      &bitfield sf=1
141@bitfield_32    0 .. ...... 0 0 immr:5 0 imms:5 rn:5 rd:5  &bitfield sf=0
142
143SBFM            . 00 100110 . ...... ...... ..... ..... @bitfield_64
144SBFM            . 00 100110 . ...... ...... ..... ..... @bitfield_32
145BFM             . 01 100110 . ...... ...... ..... ..... @bitfield_64
146BFM             . 01 100110 . ...... ...... ..... ..... @bitfield_32
147UBFM            . 10 100110 . ...... ...... ..... ..... @bitfield_64
148UBFM            . 10 100110 . ...... ...... ..... ..... @bitfield_32
149
150# Extract
151
152&extract        rd rn rm imm sf
153
154EXTR            1 00 100111 1 0 rm:5 imm:6 rn:5 rd:5     &extract sf=1
155EXTR            0 00 100111 0 0 rm:5 0 imm:5 rn:5 rd:5   &extract sf=0
156
157# Branches
158
159%imm26   0:s26 !function=times_4
160@branch         . ..... .......................... &i imm=%imm26
161
162B               0 00101 .......................... @branch
163BL              1 00101 .......................... @branch
164
165%imm19   5:s19 !function=times_4
166&cbz     rt imm sf nz
167
168CBZ             sf:1 011010 nz:1 ................... rt:5 &cbz imm=%imm19
169
170%imm14     5:s14 !function=times_4
171%imm31_19  31:1 19:5
172&tbz       rt imm nz bitpos
173
174TBZ             . 011011 nz:1 ..... .............. rt:5 &tbz  imm=%imm14 bitpos=%imm31_19
175
176# B.cond and BC.cond
177B_cond          0101010 0 ................... c:1 cond:4 imm=%imm19
178
179BR              1101011 0000 11111 000000 rn:5 00000 &r
180BLR             1101011 0001 11111 000000 rn:5 00000 &r
181RET             1101011 0010 11111 000000 rn:5 00000 &r
182
183&braz       rn m
184BRAZ            1101011 0000 11111 00001 m:1 rn:5 11111 &braz   # BRAAZ, BRABZ
185BLRAZ           1101011 0001 11111 00001 m:1 rn:5 11111 &braz   # BLRAAZ, BLRABZ
186
187&reta       m
188RETA            1101011 0010 11111 00001 m:1 11111 11111 &reta  # RETAA, RETAB
189
190&bra        rn rm m
191BRA             1101011 1000 11111 00001 m:1 rn:5 rm:5 &bra # BRAA, BRAB
192BLRA            1101011 1001 11111 00001 m:1 rn:5 rm:5 &bra # BLRAA, BLRAB
193
194ERET            1101011 0100 11111 000000 11111 00000
195ERETA           1101011 0100 11111 00001 m:1 11111 11111 &reta  # ERETAA, ERETAB
196
197# We don't need to decode DRPS because it always UNDEFs except when
198# the processor is in halting debug state (which we don't implement).
199# The pattern is listed here as documentation.
200# DRPS            1101011 0101 11111 000000 11111 00000
201
202# Hint instruction group
203{
204  [
205    YIELD       1101 0101 0000 0011 0010 0000 001 11111
206    WFE         1101 0101 0000 0011 0010 0000 010 11111
207    WFI         1101 0101 0000 0011 0010 0000 011 11111
208    # We implement WFE to never block, so our SEV/SEVL are NOPs
209    # SEV       1101 0101 0000 0011 0010 0000 100 11111
210    # SEVL      1101 0101 0000 0011 0010 0000 101 11111
211    # Our DGL is a NOP because we don't merge memory accesses anyway.
212    # DGL       1101 0101 0000 0011 0010 0000 110 11111
213    XPACLRI     1101 0101 0000 0011 0010 0000 111 11111
214    PACIA1716   1101 0101 0000 0011 0010 0001 000 11111
215    PACIB1716   1101 0101 0000 0011 0010 0001 010 11111
216    AUTIA1716   1101 0101 0000 0011 0010 0001 100 11111
217    AUTIB1716   1101 0101 0000 0011 0010 0001 110 11111
218    ESB         1101 0101 0000 0011 0010 0010 000 11111
219    PACIAZ      1101 0101 0000 0011 0010 0011 000 11111
220    PACIASP     1101 0101 0000 0011 0010 0011 001 11111
221    PACIBZ      1101 0101 0000 0011 0010 0011 010 11111
222    PACIBSP     1101 0101 0000 0011 0010 0011 011 11111
223    AUTIAZ      1101 0101 0000 0011 0010 0011 100 11111
224    AUTIASP     1101 0101 0000 0011 0010 0011 101 11111
225    AUTIBZ      1101 0101 0000 0011 0010 0011 110 11111
226    AUTIBSP     1101 0101 0000 0011 0010 0011 111 11111
227  ]
228  # The canonical NOP has CRm == op2 == 0, but all of the space
229  # that isn't specifically allocated to an instruction must NOP
230  NOP           1101 0101 0000 0011 0010 ---- --- 11111
231}
232
233# Barriers
234
235CLREX           1101 0101 0000 0011 0011 ---- 010 11111
236DSB_DMB         1101 0101 0000 0011 0011 domain:2 types:2 10- 11111
237ISB             1101 0101 0000 0011 0011 ---- 110 11111
238SB              1101 0101 0000 0011 0011 0000 111 11111
239
240# PSTATE
241
242CFINV           1101 0101 0000 0 000 0100 0000 000 11111
243XAFLAG          1101 0101 0000 0 000 0100 0000 001 11111
244AXFLAG          1101 0101 0000 0 000 0100 0000 010 11111
245
246# These are architecturally all "MSR (immediate)"; we decode the destination
247# register too because there is no commonality in our implementation.
248@msr_i          .... .... .... . ... .... imm:4 ... .....
249MSR_i_UAO       1101 0101 0000 0 000 0100 .... 011 11111 @msr_i
250MSR_i_PAN       1101 0101 0000 0 000 0100 .... 100 11111 @msr_i
251MSR_i_SPSEL     1101 0101 0000 0 000 0100 .... 101 11111 @msr_i
252MSR_i_SBSS      1101 0101 0000 0 011 0100 .... 001 11111 @msr_i
253MSR_i_DIT       1101 0101 0000 0 011 0100 .... 010 11111 @msr_i
254MSR_i_TCO       1101 0101 0000 0 011 0100 .... 100 11111 @msr_i
255MSR_i_DAIFSET   1101 0101 0000 0 011 0100 .... 110 11111 @msr_i
256MSR_i_DAIFCLEAR 1101 0101 0000 0 011 0100 .... 111 11111 @msr_i
257MSR_i_ALLINT    1101 0101 0000 0 001 0100 000 imm:1 000 11111
258MSR_i_SVCR      1101 0101 0000 0 011 0100 0 mask:2 imm:1 011 11111
259
260# MRS, MSR (register), SYS, SYSL. These are all essentially the
261# same instruction as far as QEMU is concerned.
262# NB: op0 is bits [20:19], but op0=0b00 is other insns, so we have
263# to hand-decode it.
264SYS             1101 0101 00 l:1 01 op1:3 crn:4 crm:4 op2:3 rt:5 op0=1
265SYS             1101 0101 00 l:1 10 op1:3 crn:4 crm:4 op2:3 rt:5 op0=2
266SYS             1101 0101 00 l:1 11 op1:3 crn:4 crm:4 op2:3 rt:5 op0=3
267
268# Exception generation
269
270@i16            .... .... ... imm:16           ... .. &i
271SVC             1101 0100 000 ................ 000 01 @i16
272HVC             1101 0100 000 ................ 000 10 @i16
273SMC             1101 0100 000 ................ 000 11 @i16
274BRK             1101 0100 001 ................ 000 00 @i16
275HLT             1101 0100 010 ................ 000 00 @i16
276# These insns always UNDEF unless in halting debug state, which
277# we don't implement. So we don't need to decode them. The patterns
278# are listed here as documentation.
279# DCPS1         1101 0100 101 ................ 000 01 @i16
280# DCPS2         1101 0100 101 ................ 000 10 @i16
281# DCPS3         1101 0100 101 ................ 000 11 @i16
282
283# Loads and stores
284
285&stxr           rn rt rt2 rs sz lasr
286&stlr           rn rt sz lasr
287@stxr           sz:2 ...... ... rs:5 lasr:1 rt2:5 rn:5 rt:5 &stxr
288@stlr           sz:2 ...... ... ..... lasr:1 ..... rn:5 rt:5 &stlr
289%imm1_30_p2 30:1 !function=plus_2
290@stxp           .. ...... ... rs:5 lasr:1 rt2:5 rn:5 rt:5 &stxr sz=%imm1_30_p2
291STXR            .. 001000 000 ..... . ..... ..... ..... @stxr  # inc STLXR
292LDXR            .. 001000 010 ..... . ..... ..... ..... @stxr  # inc LDAXR
293STLR            .. 001000 100 11111 . 11111 ..... ..... @stlr  # inc STLLR
294LDAR            .. 001000 110 11111 . 11111 ..... ..... @stlr  # inc LDLAR
295
296STXP            1 . 001000 001 ..... . ..... ..... ..... @stxp # inc STLXP
297LDXP            1 . 001000 011 ..... . ..... ..... ..... @stxp # inc LDAXP
298
299# CASP, CASPA, CASPAL, CASPL (we don't decode the bits that determine
300# acquire/release semantics because QEMU's cmpxchg always has those)
301CASP            0 . 001000 0 - 1 rs:5 - 11111 rn:5 rt:5 sz=%imm1_30_p2
302# CAS, CASA, CASAL, CASL
303CAS             sz:2 001000 1 - 1 rs:5 - 11111 rn:5 rt:5
304
305&ldlit          rt imm sz sign
306@ldlit          .. ... . .. ................... rt:5 &ldlit imm=%imm19
307
308LD_lit          00 011 0 00 ................... ..... @ldlit sz=2 sign=0
309LD_lit          01 011 0 00 ................... ..... @ldlit sz=3 sign=0
310LD_lit          10 011 0 00 ................... ..... @ldlit sz=2 sign=1
311LD_lit_v        00 011 1 00 ................... ..... @ldlit sz=2 sign=0
312LD_lit_v        01 011 1 00 ................... ..... @ldlit sz=3 sign=0
313LD_lit_v        10 011 1 00 ................... ..... @ldlit sz=4 sign=0
314
315# PRFM
316NOP             11 011 0 00 ------------------- -----
317
318&ldstpair       rt2 rt rn imm sz sign w p
319@ldstpair       .. ... . ... . imm:s7 rt2:5 rn:5 rt:5 &ldstpair
320
321# STNP, LDNP: Signed offset, non-temporal hint. We don't emulate caches
322# so we ignore hints about data access patterns, and handle these like
323# plain signed offset.
324STP             00 101 0 000 0 ....... ..... ..... ..... @ldstpair sz=2 sign=0 p=0 w=0
325LDP             00 101 0 000 1 ....... ..... ..... ..... @ldstpair sz=2 sign=0 p=0 w=0
326STP             10 101 0 000 0 ....... ..... ..... ..... @ldstpair sz=3 sign=0 p=0 w=0
327LDP             10 101 0 000 1 ....... ..... ..... ..... @ldstpair sz=3 sign=0 p=0 w=0
328STP_v           00 101 1 000 0 ....... ..... ..... ..... @ldstpair sz=2 sign=0 p=0 w=0
329LDP_v           00 101 1 000 1 ....... ..... ..... ..... @ldstpair sz=2 sign=0 p=0 w=0
330STP_v           01 101 1 000 0 ....... ..... ..... ..... @ldstpair sz=3 sign=0 p=0 w=0
331LDP_v           01 101 1 000 1 ....... ..... ..... ..... @ldstpair sz=3 sign=0 p=0 w=0
332STP_v           10 101 1 000 0 ....... ..... ..... ..... @ldstpair sz=4 sign=0 p=0 w=0
333LDP_v           10 101 1 000 1 ....... ..... ..... ..... @ldstpair sz=4 sign=0 p=0 w=0
334
335# STP and LDP: post-indexed
336STP             00 101 0 001 0 ....... ..... ..... ..... @ldstpair sz=2 sign=0 p=1 w=1
337LDP             00 101 0 001 1 ....... ..... ..... ..... @ldstpair sz=2 sign=0 p=1 w=1
338LDP             01 101 0 001 1 ....... ..... ..... ..... @ldstpair sz=2 sign=1 p=1 w=1
339STP             10 101 0 001 0 ....... ..... ..... ..... @ldstpair sz=3 sign=0 p=1 w=1
340LDP             10 101 0 001 1 ....... ..... ..... ..... @ldstpair sz=3 sign=0 p=1 w=1
341STP_v           00 101 1 001 0 ....... ..... ..... ..... @ldstpair sz=2 sign=0 p=1 w=1
342LDP_v           00 101 1 001 1 ....... ..... ..... ..... @ldstpair sz=2 sign=0 p=1 w=1
343STP_v           01 101 1 001 0 ....... ..... ..... ..... @ldstpair sz=3 sign=0 p=1 w=1
344LDP_v           01 101 1 001 1 ....... ..... ..... ..... @ldstpair sz=3 sign=0 p=1 w=1
345STP_v           10 101 1 001 0 ....... ..... ..... ..... @ldstpair sz=4 sign=0 p=1 w=1
346LDP_v           10 101 1 001 1 ....... ..... ..... ..... @ldstpair sz=4 sign=0 p=1 w=1
347
348# STP and LDP: offset
349STP             00 101 0 010 0 ....... ..... ..... ..... @ldstpair sz=2 sign=0 p=0 w=0
350LDP             00 101 0 010 1 ....... ..... ..... ..... @ldstpair sz=2 sign=0 p=0 w=0
351LDP             01 101 0 010 1 ....... ..... ..... ..... @ldstpair sz=2 sign=1 p=0 w=0
352STP             10 101 0 010 0 ....... ..... ..... ..... @ldstpair sz=3 sign=0 p=0 w=0
353LDP             10 101 0 010 1 ....... ..... ..... ..... @ldstpair sz=3 sign=0 p=0 w=0
354STP_v           00 101 1 010 0 ....... ..... ..... ..... @ldstpair sz=2 sign=0 p=0 w=0
355LDP_v           00 101 1 010 1 ....... ..... ..... ..... @ldstpair sz=2 sign=0 p=0 w=0
356STP_v           01 101 1 010 0 ....... ..... ..... ..... @ldstpair sz=3 sign=0 p=0 w=0
357LDP_v           01 101 1 010 1 ....... ..... ..... ..... @ldstpair sz=3 sign=0 p=0 w=0
358STP_v           10 101 1 010 0 ....... ..... ..... ..... @ldstpair sz=4 sign=0 p=0 w=0
359LDP_v           10 101 1 010 1 ....... ..... ..... ..... @ldstpair sz=4 sign=0 p=0 w=0
360
361# STP and LDP: pre-indexed
362STP             00 101 0 011 0 ....... ..... ..... ..... @ldstpair sz=2 sign=0 p=0 w=1
363LDP             00 101 0 011 1 ....... ..... ..... ..... @ldstpair sz=2 sign=0 p=0 w=1
364LDP             01 101 0 011 1 ....... ..... ..... ..... @ldstpair sz=2 sign=1 p=0 w=1
365STP             10 101 0 011 0 ....... ..... ..... ..... @ldstpair sz=3 sign=0 p=0 w=1
366LDP             10 101 0 011 1 ....... ..... ..... ..... @ldstpair sz=3 sign=0 p=0 w=1
367STP_v           00 101 1 011 0 ....... ..... ..... ..... @ldstpair sz=2 sign=0 p=0 w=1
368LDP_v           00 101 1 011 1 ....... ..... ..... ..... @ldstpair sz=2 sign=0 p=0 w=1
369STP_v           01 101 1 011 0 ....... ..... ..... ..... @ldstpair sz=3 sign=0 p=0 w=1
370LDP_v           01 101 1 011 1 ....... ..... ..... ..... @ldstpair sz=3 sign=0 p=0 w=1
371STP_v           10 101 1 011 0 ....... ..... ..... ..... @ldstpair sz=4 sign=0 p=0 w=1
372LDP_v           10 101 1 011 1 ....... ..... ..... ..... @ldstpair sz=4 sign=0 p=0 w=1
373
374# STGP: store tag and pair
375STGP            01 101 0 001 0 ....... ..... ..... ..... @ldstpair sz=3 sign=0 p=1 w=1
376STGP            01 101 0 010 0 ....... ..... ..... ..... @ldstpair sz=3 sign=0 p=0 w=0
377STGP            01 101 0 011 0 ....... ..... ..... ..... @ldstpair sz=3 sign=0 p=0 w=1
378
379# Load/store register (unscaled immediate)
380&ldst_imm       rt rn imm sz sign w p unpriv ext
381@ldst_imm       .. ... . .. .. . imm:s9 .. rn:5 rt:5 &ldst_imm unpriv=0 p=0 w=0
382@ldst_imm_pre   .. ... . .. .. . imm:s9 .. rn:5 rt:5 &ldst_imm unpriv=0 p=0 w=1
383@ldst_imm_post  .. ... . .. .. . imm:s9 .. rn:5 rt:5 &ldst_imm unpriv=0 p=1 w=1
384@ldst_imm_user  .. ... . .. .. . imm:s9 .. rn:5 rt:5 &ldst_imm unpriv=1 p=0 w=0
385
386STR_i           sz:2 111 0 00 00 0 ......... 00 ..... ..... @ldst_imm sign=0 ext=0
387LDR_i           00 111 0 00 01 0 ......... 00 ..... ..... @ldst_imm sign=0 ext=1 sz=0
388LDR_i           01 111 0 00 01 0 ......... 00 ..... ..... @ldst_imm sign=0 ext=1 sz=1
389LDR_i           10 111 0 00 01 0 ......... 00 ..... ..... @ldst_imm sign=0 ext=1 sz=2
390LDR_i           11 111 0 00 01 0 ......... 00 ..... ..... @ldst_imm sign=0 ext=0 sz=3
391LDR_i           00 111 0 00 10 0 ......... 00 ..... ..... @ldst_imm sign=1 ext=0 sz=0
392LDR_i           01 111 0 00 10 0 ......... 00 ..... ..... @ldst_imm sign=1 ext=0 sz=1
393LDR_i           10 111 0 00 10 0 ......... 00 ..... ..... @ldst_imm sign=1 ext=0 sz=2
394LDR_i           00 111 0 00 11 0 ......... 00 ..... ..... @ldst_imm sign=1 ext=1 sz=0
395LDR_i           01 111 0 00 11 0 ......... 00 ..... ..... @ldst_imm sign=1 ext=1 sz=1
396
397STR_i           sz:2 111 0 00 00 0 ......... 01 ..... ..... @ldst_imm_post sign=0 ext=0
398LDR_i           00 111 0 00 01 0 ......... 01 ..... ..... @ldst_imm_post sign=0 ext=1 sz=0
399LDR_i           01 111 0 00 01 0 ......... 01 ..... ..... @ldst_imm_post sign=0 ext=1 sz=1
400LDR_i           10 111 0 00 01 0 ......... 01 ..... ..... @ldst_imm_post sign=0 ext=1 sz=2
401LDR_i           11 111 0 00 01 0 ......... 01 ..... ..... @ldst_imm_post sign=0 ext=0 sz=3
402LDR_i           00 111 0 00 10 0 ......... 01 ..... ..... @ldst_imm_post sign=1 ext=0 sz=0
403LDR_i           01 111 0 00 10 0 ......... 01 ..... ..... @ldst_imm_post sign=1 ext=0 sz=1
404LDR_i           10 111 0 00 10 0 ......... 01 ..... ..... @ldst_imm_post sign=1 ext=0 sz=2
405LDR_i           00 111 0 00 11 0 ......... 01 ..... ..... @ldst_imm_post sign=1 ext=1 sz=0
406LDR_i           01 111 0 00 11 0 ......... 01 ..... ..... @ldst_imm_post sign=1 ext=1 sz=1
407
408STR_i           sz:2 111 0 00 00 0 ......... 10 ..... ..... @ldst_imm_user sign=0 ext=0
409LDR_i           00 111 0 00 01 0 ......... 10 ..... ..... @ldst_imm_user sign=0 ext=1 sz=0
410LDR_i           01 111 0 00 01 0 ......... 10 ..... ..... @ldst_imm_user sign=0 ext=1 sz=1
411LDR_i           10 111 0 00 01 0 ......... 10 ..... ..... @ldst_imm_user sign=0 ext=1 sz=2
412LDR_i           11 111 0 00 01 0 ......... 10 ..... ..... @ldst_imm_user sign=0 ext=0 sz=3
413LDR_i           00 111 0 00 10 0 ......... 10 ..... ..... @ldst_imm_user sign=1 ext=0 sz=0
414LDR_i           01 111 0 00 10 0 ......... 10 ..... ..... @ldst_imm_user sign=1 ext=0 sz=1
415LDR_i           10 111 0 00 10 0 ......... 10 ..... ..... @ldst_imm_user sign=1 ext=0 sz=2
416LDR_i           00 111 0 00 11 0 ......... 10 ..... ..... @ldst_imm_user sign=1 ext=1 sz=0
417LDR_i           01 111 0 00 11 0 ......... 10 ..... ..... @ldst_imm_user sign=1 ext=1 sz=1
418
419STR_i           sz:2 111 0 00 00 0 ......... 11 ..... ..... @ldst_imm_pre sign=0 ext=0
420LDR_i           00 111 0 00 01 0 ......... 11 ..... ..... @ldst_imm_pre sign=0 ext=1 sz=0
421LDR_i           01 111 0 00 01 0 ......... 11 ..... ..... @ldst_imm_pre sign=0 ext=1 sz=1
422LDR_i           10 111 0 00 01 0 ......... 11 ..... ..... @ldst_imm_pre sign=0 ext=1 sz=2
423LDR_i           11 111 0 00 01 0 ......... 11 ..... ..... @ldst_imm_pre sign=0 ext=0 sz=3
424LDR_i           00 111 0 00 10 0 ......... 11 ..... ..... @ldst_imm_pre sign=1 ext=0 sz=0
425LDR_i           01 111 0 00 10 0 ......... 11 ..... ..... @ldst_imm_pre sign=1 ext=0 sz=1
426LDR_i           10 111 0 00 10 0 ......... 11 ..... ..... @ldst_imm_pre sign=1 ext=0 sz=2
427LDR_i           00 111 0 00 11 0 ......... 11 ..... ..... @ldst_imm_pre sign=1 ext=1 sz=0
428LDR_i           01 111 0 00 11 0 ......... 11 ..... ..... @ldst_imm_pre sign=1 ext=1 sz=1
429
430# PRFM : prefetch memory: a no-op for QEMU
431NOP             11 111 0 00 10 0 --------- 00 ----- -----
432
433STR_v_i         sz:2 111 1 00 00 0 ......... 00 ..... ..... @ldst_imm sign=0 ext=0
434STR_v_i         00 111 1 00 10 0 ......... 00 ..... ..... @ldst_imm sign=0 ext=0 sz=4
435LDR_v_i         sz:2 111 1 00 01 0 ......... 00 ..... ..... @ldst_imm sign=0 ext=0
436LDR_v_i         00 111 1 00 11 0 ......... 00 ..... ..... @ldst_imm sign=0 ext=0 sz=4
437
438STR_v_i         sz:2 111 1 00 00 0 ......... 01 ..... ..... @ldst_imm_post sign=0 ext=0
439STR_v_i         00 111 1 00 10 0 ......... 01 ..... ..... @ldst_imm_post sign=0 ext=0 sz=4
440LDR_v_i         sz:2 111 1 00 01 0 ......... 01 ..... ..... @ldst_imm_post sign=0 ext=0
441LDR_v_i         00 111 1 00 11 0 ......... 01 ..... ..... @ldst_imm_post sign=0 ext=0 sz=4
442
443STR_v_i         sz:2 111 1 00 00 0 ......... 11 ..... ..... @ldst_imm_pre sign=0 ext=0
444STR_v_i         00 111 1 00 10 0 ......... 11 ..... ..... @ldst_imm_pre sign=0 ext=0 sz=4
445LDR_v_i         sz:2 111 1 00 01 0 ......... 11 ..... ..... @ldst_imm_pre sign=0 ext=0
446LDR_v_i         00 111 1 00 11 0 ......... 11 ..... ..... @ldst_imm_pre sign=0 ext=0 sz=4
447
448# Load/store with an unsigned 12 bit immediate, which is scaled by the
449# element size. The function gets the sz:imm and returns the scaled immediate.
450%uimm_scaled   10:12 sz:3 !function=uimm_scaled
451
452@ldst_uimm      .. ... . .. .. ............ rn:5 rt:5 &ldst_imm unpriv=0 p=0 w=0 imm=%uimm_scaled
453
454STR_i           sz:2 111 0 01 00 ............ ..... ..... @ldst_uimm sign=0 ext=0
455LDR_i           00 111 0 01 01 ............ ..... ..... @ldst_uimm sign=0 ext=1 sz=0
456LDR_i           01 111 0 01 01 ............ ..... ..... @ldst_uimm sign=0 ext=1 sz=1
457LDR_i           10 111 0 01 01 ............ ..... ..... @ldst_uimm sign=0 ext=1 sz=2
458LDR_i           11 111 0 01 01 ............ ..... ..... @ldst_uimm sign=0 ext=0 sz=3
459LDR_i           00 111 0 01 10 ............ ..... ..... @ldst_uimm sign=1 ext=0 sz=0
460LDR_i           01 111 0 01 10 ............ ..... ..... @ldst_uimm sign=1 ext=0 sz=1
461LDR_i           10 111 0 01 10 ............ ..... ..... @ldst_uimm sign=1 ext=0 sz=2
462LDR_i           00 111 0 01 11 ............ ..... ..... @ldst_uimm sign=1 ext=1 sz=0
463LDR_i           01 111 0 01 11 ............ ..... ..... @ldst_uimm sign=1 ext=1 sz=1
464
465# PRFM
466NOP             11 111 0 01 10 ------------ ----- -----
467
468STR_v_i         sz:2 111 1 01 00 ............ ..... ..... @ldst_uimm sign=0 ext=0
469STR_v_i         00 111 1 01 10 ............ ..... ..... @ldst_uimm sign=0 ext=0 sz=4
470LDR_v_i         sz:2 111 1 01 01 ............ ..... ..... @ldst_uimm sign=0 ext=0
471LDR_v_i         00 111 1 01 11 ............ ..... ..... @ldst_uimm sign=0 ext=0 sz=4
472
473# Load/store with register offset
474&ldst rm rn rt sign ext sz opt s
475@ldst           .. ... . .. .. . rm:5 opt:3 s:1 .. rn:5 rt:5 &ldst
476STR             sz:2 111 0 00 00 1 ..... ... . 10 ..... ..... @ldst sign=0 ext=0
477LDR             00 111 0 00 01 1 ..... ... . 10 ..... ..... @ldst sign=0 ext=1 sz=0
478LDR             01 111 0 00 01 1 ..... ... . 10 ..... ..... @ldst sign=0 ext=1 sz=1
479LDR             10 111 0 00 01 1 ..... ... . 10 ..... ..... @ldst sign=0 ext=1 sz=2
480LDR             11 111 0 00 01 1 ..... ... . 10 ..... ..... @ldst sign=0 ext=0 sz=3
481LDR             00 111 0 00 10 1 ..... ... . 10 ..... ..... @ldst sign=1 ext=0 sz=0
482LDR             01 111 0 00 10 1 ..... ... . 10 ..... ..... @ldst sign=1 ext=0 sz=1
483LDR             10 111 0 00 10 1 ..... ... . 10 ..... ..... @ldst sign=1 ext=0 sz=2
484LDR             00 111 0 00 11 1 ..... ... . 10 ..... ..... @ldst sign=1 ext=1 sz=0
485LDR             01 111 0 00 11 1 ..... ... . 10 ..... ..... @ldst sign=1 ext=1 sz=1
486
487# PRFM
488NOP             11 111 0 00 10 1 ----- -1- - 10 ----- -----
489
490STR_v           sz:2 111 1 00 00 1 ..... ... . 10 ..... ..... @ldst sign=0 ext=0
491STR_v           00 111 1 00 10 1 ..... ... . 10 ..... ..... @ldst sign=0 ext=0 sz=4
492LDR_v           sz:2 111 1 00 01 1 ..... ... . 10 ..... ..... @ldst sign=0 ext=0
493LDR_v           00 111 1 00 11 1 ..... ... . 10 ..... ..... @ldst sign=0 ext=0 sz=4
494
495# Atomic memory operations
496&atomic         rs rn rt a r sz
497@atomic         sz:2 ... . .. a:1 r:1 . rs:5 . ... .. rn:5 rt:5 &atomic
498LDADD           .. 111 0 00 . . 1 ..... 0000 00 ..... ..... @atomic
499LDCLR           .. 111 0 00 . . 1 ..... 0001 00 ..... ..... @atomic
500LDEOR           .. 111 0 00 . . 1 ..... 0010 00 ..... ..... @atomic
501LDSET           .. 111 0 00 . . 1 ..... 0011 00 ..... ..... @atomic
502LDSMAX          .. 111 0 00 . . 1 ..... 0100 00 ..... ..... @atomic
503LDSMIN          .. 111 0 00 . . 1 ..... 0101 00 ..... ..... @atomic
504LDUMAX          .. 111 0 00 . . 1 ..... 0110 00 ..... ..... @atomic
505LDUMIN          .. 111 0 00 . . 1 ..... 0111 00 ..... ..... @atomic
506SWP             .. 111 0 00 . . 1 ..... 1000 00 ..... ..... @atomic
507
508LDAPR           sz:2 111 0 00 1 0 1 11111 1100 00 rn:5 rt:5
509
510# Load/store register (pointer authentication)
511
512# LDRA immediate is 10 bits signed and scaled, but the bits aren't all contiguous
513%ldra_imm       22:s1 12:9 !function=times_8
514
515LDRA            11 111 0 00 m:1 . 1 ......... w:1 1 rn:5 rt:5 imm=%ldra_imm
516
517&ldapr_stlr_i   rn rt imm sz sign ext
518@ldapr_stlr_i   .. ...... .. . imm:9 .. rn:5 rt:5 &ldapr_stlr_i
519STLR_i          sz:2 011001 00 0 ......... 00 ..... ..... @ldapr_stlr_i sign=0 ext=0
520LDAPR_i         sz:2 011001 01 0 ......... 00 ..... ..... @ldapr_stlr_i sign=0 ext=0
521LDAPR_i         00 011001 10 0 ......... 00 ..... ..... @ldapr_stlr_i sign=1 ext=0 sz=0
522LDAPR_i         01 011001 10 0 ......... 00 ..... ..... @ldapr_stlr_i sign=1 ext=0 sz=1
523LDAPR_i         10 011001 10 0 ......... 00 ..... ..... @ldapr_stlr_i sign=1 ext=0 sz=2
524LDAPR_i         00 011001 11 0 ......... 00 ..... ..... @ldapr_stlr_i sign=1 ext=1 sz=0
525LDAPR_i         01 011001 11 0 ......... 00 ..... ..... @ldapr_stlr_i sign=1 ext=1 sz=1
526
527# Load/store multiple structures
528# The 4-bit opcode in [15:12] encodes repeat count and structure elements
529&ldst_mult      rm rn rt sz q p rpt selem
530@ldst_mult      . q:1 ...... p:1 . . rm:5 .... sz:2 rn:5 rt:5 &ldst_mult
531ST_mult         0 . 001100 . 0 0 ..... 0000 .. ..... ..... @ldst_mult rpt=1 selem=4
532ST_mult         0 . 001100 . 0 0 ..... 0010 .. ..... ..... @ldst_mult rpt=4 selem=1
533ST_mult         0 . 001100 . 0 0 ..... 0100 .. ..... ..... @ldst_mult rpt=1 selem=3
534ST_mult         0 . 001100 . 0 0 ..... 0110 .. ..... ..... @ldst_mult rpt=3 selem=1
535ST_mult         0 . 001100 . 0 0 ..... 0111 .. ..... ..... @ldst_mult rpt=1 selem=1
536ST_mult         0 . 001100 . 0 0 ..... 1000 .. ..... ..... @ldst_mult rpt=1 selem=2
537ST_mult         0 . 001100 . 0 0 ..... 1010 .. ..... ..... @ldst_mult rpt=2 selem=1
538
539LD_mult         0 . 001100 . 1 0 ..... 0000 .. ..... ..... @ldst_mult rpt=1 selem=4
540LD_mult         0 . 001100 . 1 0 ..... 0010 .. ..... ..... @ldst_mult rpt=4 selem=1
541LD_mult         0 . 001100 . 1 0 ..... 0100 .. ..... ..... @ldst_mult rpt=1 selem=3
542LD_mult         0 . 001100 . 1 0 ..... 0110 .. ..... ..... @ldst_mult rpt=3 selem=1
543LD_mult         0 . 001100 . 1 0 ..... 0111 .. ..... ..... @ldst_mult rpt=1 selem=1
544LD_mult         0 . 001100 . 1 0 ..... 1000 .. ..... ..... @ldst_mult rpt=1 selem=2
545LD_mult         0 . 001100 . 1 0 ..... 1010 .. ..... ..... @ldst_mult rpt=2 selem=1
546
547# Load/store single structure
548&ldst_single    rm rn rt p selem index scale
549
550%ldst_single_selem 13:1 21:1 !function=plus_1
551
552%ldst_single_index_b  30:1 10:3
553%ldst_single_index_h  30:1 11:2
554%ldst_single_index_s  30:1 12:1
555
556@ldst_single_b     .. ...... p:1 .. rm:5 ...... rn:5 rt:5 \
557                   &ldst_single scale=0 selem=%ldst_single_selem \
558                   index=%ldst_single_index_b
559@ldst_single_h     .. ...... p:1 .. rm:5 ...... rn:5 rt:5 \
560                   &ldst_single scale=1 selem=%ldst_single_selem \
561                   index=%ldst_single_index_h
562@ldst_single_s     .. ...... p:1 .. rm:5 ...... rn:5 rt:5 \
563                   &ldst_single scale=2 selem=%ldst_single_selem \
564                   index=%ldst_single_index_s
565@ldst_single_d     . index:1 ...... p:1 .. rm:5 ...... rn:5 rt:5 \
566                   &ldst_single scale=3 selem=%ldst_single_selem
567
568ST_single          0 . 001101 . 0 . ..... 00 . ... ..... .....  @ldst_single_b
569ST_single          0 . 001101 . 0 . ..... 01 . ..0 ..... .....  @ldst_single_h
570ST_single          0 . 001101 . 0 . ..... 10 . .00 ..... .....  @ldst_single_s
571ST_single          0 . 001101 . 0 . ..... 10 . 001 ..... .....  @ldst_single_d
572
573LD_single          0 . 001101 . 1 . ..... 00 . ... ..... .....  @ldst_single_b
574LD_single          0 . 001101 . 1 . ..... 01 . ..0 ..... .....  @ldst_single_h
575LD_single          0 . 001101 . 1 . ..... 10 . .00 ..... .....  @ldst_single_s
576LD_single          0 . 001101 . 1 . ..... 10 . 001 ..... .....  @ldst_single_d
577
578# Replicating load case
579LD_single_repl  0 q:1 001101 p:1 1 . rm:5 11 . 0 scale:2 rn:5 rt:5 selem=%ldst_single_selem
580
581%tag_offset     12:s9 !function=scale_by_log2_tag_granule
582&ldst_tag       rn rt imm p w
583@ldst_tag       ........ .. . ......... .. rn:5 rt:5 &ldst_tag imm=%tag_offset
584@ldst_tag_mult  ........ .. . 000000000 .. rn:5 rt:5 &ldst_tag imm=0
585
586STZGM           11011001 00 1 ......... 00 ..... ..... @ldst_tag_mult p=0 w=0
587STG             11011001 00 1 ......... 01 ..... ..... @ldst_tag p=1 w=1
588STG             11011001 00 1 ......... 10 ..... ..... @ldst_tag p=0 w=0
589STG             11011001 00 1 ......... 11 ..... ..... @ldst_tag p=0 w=1
590
591LDG             11011001 01 1 ......... 00 ..... ..... @ldst_tag p=0 w=0
592STZG            11011001 01 1 ......... 01 ..... ..... @ldst_tag p=1 w=1
593STZG            11011001 01 1 ......... 10 ..... ..... @ldst_tag p=0 w=0
594STZG            11011001 01 1 ......... 11 ..... ..... @ldst_tag p=0 w=1
595
596STGM            11011001 10 1 ......... 00 ..... ..... @ldst_tag_mult p=0 w=0
597ST2G            11011001 10 1 ......... 01 ..... ..... @ldst_tag p=1 w=1
598ST2G            11011001 10 1 ......... 10 ..... ..... @ldst_tag p=0 w=0
599ST2G            11011001 10 1 ......... 11 ..... ..... @ldst_tag p=0 w=1
600
601LDGM            11011001 11 1 ......... 00 ..... ..... @ldst_tag_mult p=0 w=0
602STZ2G           11011001 11 1 ......... 01 ..... ..... @ldst_tag p=1 w=1
603STZ2G           11011001 11 1 ......... 10 ..... ..... @ldst_tag p=0 w=0
604STZ2G           11011001 11 1 ......... 11 ..... ..... @ldst_tag p=0 w=1
605
606# Memory operations (memset, memcpy, memmove)
607# Each of these comes in a set of three, eg SETP (prologue), SETM (main),
608# SETE (epilogue), and each of those has different flavours to
609# indicate whether memory accesses should be unpriv or non-temporal.
610# We don't distinguish temporal and non-temporal accesses, but we
611# do need to report it in syndrome register values.
612
613# Memset
614&set rs rn rd unpriv nontemp
615# op2 bit 1 is nontemporal bit
616@set         .. ......... rs:5 .. nontemp:1 unpriv:1 .. rn:5 rd:5 &set
617
618SETP            00 011001110 ..... 00 . . 01 ..... ..... @set
619SETM            00 011001110 ..... 01 . . 01 ..... ..... @set
620SETE            00 011001110 ..... 10 . . 01 ..... ..... @set
621
622# Like SET, but also setting MTE tags
623SETGP           00 011101110 ..... 00 . . 01 ..... ..... @set
624SETGM           00 011101110 ..... 01 . . 01 ..... ..... @set
625SETGE           00 011101110 ..... 10 . . 01 ..... ..... @set
626
627# Memmove/Memcopy: the CPY insns allow overlapping src/dest and
628# copy in the correct direction; the CPYF insns always copy forwards.
629#
630# options has the nontemporal and unpriv bits for src and dest
631&cpy rs rn rd options
632@cpy            .. ... . ..... rs:5 options:4 .. rn:5 rd:5 &cpy
633
634CPYFP           00 011 0 01000 ..... .... 01 ..... ..... @cpy
635CPYFM           00 011 0 01010 ..... .... 01 ..... ..... @cpy
636CPYFE           00 011 0 01100 ..... .... 01 ..... ..... @cpy
637CPYP            00 011 1 01000 ..... .... 01 ..... ..... @cpy
638CPYM            00 011 1 01010 ..... .... 01 ..... ..... @cpy
639CPYE            00 011 1 01100 ..... .... 01 ..... ..... @cpy
640
641### Cryptographic AES
642
643AESE            01001110 00 10100 00100 10 ..... .....  @r2r_q1e0
644AESD            01001110 00 10100 00101 10 ..... .....  @r2r_q1e0
645AESMC           01001110 00 10100 00110 10 ..... .....  @rr_q1e0
646AESIMC          01001110 00 10100 00111 10 ..... .....  @rr_q1e0
647
648### Cryptographic three-register SHA
649
650SHA1C           0101 1110 000 ..... 000000 ..... .....  @rrr_q1e0
651SHA1P           0101 1110 000 ..... 000100 ..... .....  @rrr_q1e0
652SHA1M           0101 1110 000 ..... 001000 ..... .....  @rrr_q1e0
653SHA1SU0         0101 1110 000 ..... 001100 ..... .....  @rrr_q1e0
654SHA256H         0101 1110 000 ..... 010000 ..... .....  @rrr_q1e0
655SHA256H2        0101 1110 000 ..... 010100 ..... .....  @rrr_q1e0
656SHA256SU1       0101 1110 000 ..... 011000 ..... .....  @rrr_q1e0
657
658### Cryptographic two-register SHA
659
660SHA1H           0101 1110 0010 1000 0000 10 ..... ..... @rr_q1e0
661SHA1SU1         0101 1110 0010 1000 0001 10 ..... ..... @rr_q1e0
662SHA256SU0       0101 1110 0010 1000 0010 10 ..... ..... @rr_q1e0
663
664### Cryptographic three-register SHA512
665
666SHA512H         1100 1110 011 ..... 100000 ..... .....  @rrr_q1e0
667SHA512H2        1100 1110 011 ..... 100001 ..... .....  @rrr_q1e0
668SHA512SU1       1100 1110 011 ..... 100010 ..... .....  @rrr_q1e0
669RAX1            1100 1110 011 ..... 100011 ..... .....  @rrr_q1e3
670SM3PARTW1       1100 1110 011 ..... 110000 ..... .....  @rrr_q1e0
671SM3PARTW2       1100 1110 011 ..... 110001 ..... .....  @rrr_q1e0
672SM4EKEY         1100 1110 011 ..... 110010 ..... .....  @rrr_q1e0
673
674### Cryptographic two-register SHA512
675
676SHA512SU0       1100 1110 110 00000 100000 ..... .....  @rr_q1e0
677SM4E            1100 1110 110 00000 100001 ..... .....  @r2r_q1e0
678
679### Cryptographic four-register
680
681EOR3            1100 1110 000 ..... 0 ..... ..... ..... @rrrr_q1e3
682BCAX            1100 1110 001 ..... 0 ..... ..... ..... @rrrr_q1e3
683SM3SS1          1100 1110 010 ..... 0 ..... ..... ..... @rrrr_q1e3
684
685### Cryptographic three-register, imm2
686
687&crypto3i       rd rn rm imm
688@crypto3i       ........ ... rm:5 .. imm:2 .. rn:5 rd:5 &crypto3i
689
690SM3TT1A         11001110 010 ..... 10 .. 00 ..... ..... @crypto3i
691SM3TT1B         11001110 010 ..... 10 .. 01 ..... ..... @crypto3i
692SM3TT2A         11001110 010 ..... 10 .. 10 ..... ..... @crypto3i
693SM3TT2B         11001110 010 ..... 10 .. 11 ..... ..... @crypto3i
694
695### Cryptographic XAR
696
697XAR             1100 1110 100 rm:5 imm:6 rn:5 rd:5
698
699### Advanced SIMD scalar copy
700
701DUP_element_s   0101 1110 000 imm:5 0 0000 1 rn:5 rd:5
702
703### Advanced SIMD copy
704
705DUP_element_v   0 q:1 00 1110 000 imm:5 0 0000 1 rn:5 rd:5
706DUP_general     0 q:1 00 1110 000 imm:5 0 0001 1 rn:5 rd:5
707INS_general     0 1   00 1110 000 imm:5 0 0011 1 rn:5 rd:5
708SMOV            0 q:1 00 1110 000 imm:5 0 0101 1 rn:5 rd:5
709UMOV            0 q:1 00 1110 000 imm:5 0 0111 1 rn:5 rd:5
710INS_element     0 1   10 1110 000 di:5  0 si:4 1 rn:5 rd:5
711
712### Advanced SIMD scalar three same
713
714FADD_s          0001 1110 ..1 ..... 0010 10 ..... ..... @rrr_hsd
715FSUB_s          0001 1110 ..1 ..... 0011 10 ..... ..... @rrr_hsd
716FDIV_s          0001 1110 ..1 ..... 0001 10 ..... ..... @rrr_hsd
717FMUL_s          0001 1110 ..1 ..... 0000 10 ..... ..... @rrr_hsd
718FNMUL_s         0001 1110 ..1 ..... 1000 10 ..... ..... @rrr_hsd
719
720FMAX_s          0001 1110 ..1 ..... 0100 10 ..... ..... @rrr_hsd
721FMIN_s          0001 1110 ..1 ..... 0101 10 ..... ..... @rrr_hsd
722FMAXNM_s        0001 1110 ..1 ..... 0110 10 ..... ..... @rrr_hsd
723FMINNM_s        0001 1110 ..1 ..... 0111 10 ..... ..... @rrr_hsd
724
725FMULX_s         0101 1110 010 ..... 00011 1 ..... ..... @rrr_h
726FMULX_s         0101 1110 0.1 ..... 11011 1 ..... ..... @rrr_sd
727
728FCMEQ_s         0101 1110 010 ..... 00100 1 ..... ..... @rrr_h
729FCMEQ_s         0101 1110 0.1 ..... 11100 1 ..... ..... @rrr_sd
730
731FCMGE_s         0111 1110 010 ..... 00100 1 ..... ..... @rrr_h
732FCMGE_s         0111 1110 0.1 ..... 11100 1 ..... ..... @rrr_sd
733
734FCMGT_s         0111 1110 110 ..... 00100 1 ..... ..... @rrr_h
735FCMGT_s         0111 1110 1.1 ..... 11100 1 ..... ..... @rrr_sd
736
737FACGE_s         0111 1110 010 ..... 00101 1 ..... ..... @rrr_h
738FACGE_s         0111 1110 0.1 ..... 11101 1 ..... ..... @rrr_sd
739
740FACGT_s         0111 1110 110 ..... 00101 1 ..... ..... @rrr_h
741FACGT_s         0111 1110 1.1 ..... 11101 1 ..... ..... @rrr_sd
742
743FABD_s          0111 1110 110 ..... 00010 1 ..... ..... @rrr_h
744FABD_s          0111 1110 1.1 ..... 11010 1 ..... ..... @rrr_sd
745
746FRECPS_s        0101 1110 010 ..... 00111 1 ..... ..... @rrr_h
747FRECPS_s        0101 1110 0.1 ..... 11111 1 ..... ..... @rrr_sd
748
749FRSQRTS_s       0101 1110 110 ..... 00111 1 ..... ..... @rrr_h
750FRSQRTS_s       0101 1110 1.1 ..... 11111 1 ..... ..... @rrr_sd
751
752SQADD_s         0101 1110 ..1 ..... 00001 1 ..... ..... @rrr_e
753UQADD_s         0111 1110 ..1 ..... 00001 1 ..... ..... @rrr_e
754SQSUB_s         0101 1110 ..1 ..... 00101 1 ..... ..... @rrr_e
755UQSUB_s         0111 1110 ..1 ..... 00101 1 ..... ..... @rrr_e
756
757SUQADD_s        0101 1110 ..1 00000 00111 0 ..... ..... @r2r_e
758USQADD_s        0111 1110 ..1 00000 00111 0 ..... ..... @r2r_e
759
760SSHL_s          0101 1110 111 ..... 01000 1 ..... ..... @rrr_d
761USHL_s          0111 1110 111 ..... 01000 1 ..... ..... @rrr_d
762SRSHL_s         0101 1110 111 ..... 01010 1 ..... ..... @rrr_d
763URSHL_s         0111 1110 111 ..... 01010 1 ..... ..... @rrr_d
764SQSHL_s         0101 1110 ..1 ..... 01001 1 ..... ..... @rrr_e
765UQSHL_s         0111 1110 ..1 ..... 01001 1 ..... ..... @rrr_e
766SQRSHL_s        0101 1110 ..1 ..... 01011 1 ..... ..... @rrr_e
767UQRSHL_s        0111 1110 ..1 ..... 01011 1 ..... ..... @rrr_e
768
769ADD_s           0101 1110 111 ..... 10000 1 ..... ..... @rrr_d
770SUB_s           0111 1110 111 ..... 10000 1 ..... ..... @rrr_d
771CMGT_s          0101 1110 111 ..... 00110 1 ..... ..... @rrr_d
772CMHI_s          0111 1110 111 ..... 00110 1 ..... ..... @rrr_d
773CMGE_s          0101 1110 111 ..... 00111 1 ..... ..... @rrr_d
774CMHS_s          0111 1110 111 ..... 00111 1 ..... ..... @rrr_d
775CMTST_s         0101 1110 111 ..... 10001 1 ..... ..... @rrr_d
776CMEQ_s          0111 1110 111 ..... 10001 1 ..... ..... @rrr_d
777
778SQDMULH_s       0101 1110 ..1 ..... 10110 1 ..... ..... @rrr_e
779SQRDMULH_s      0111 1110 ..1 ..... 10110 1 ..... ..... @rrr_e
780
781### Advanced SIMD scalar pairwise
782
783FADDP_s         0101 1110 0011 0000 1101 10 ..... ..... @rr_h
784FADDP_s         0111 1110 0.11 0000 1101 10 ..... ..... @rr_sd
785
786FMAXP_s         0101 1110 0011 0000 1111 10 ..... ..... @rr_h
787FMAXP_s         0111 1110 0.11 0000 1111 10 ..... ..... @rr_sd
788
789FMINP_s         0101 1110 1011 0000 1111 10 ..... ..... @rr_h
790FMINP_s         0111 1110 1.11 0000 1111 10 ..... ..... @rr_sd
791
792FMAXNMP_s       0101 1110 0011 0000 1100 10 ..... ..... @rr_h
793FMAXNMP_s       0111 1110 0.11 0000 1100 10 ..... ..... @rr_sd
794
795FMINNMP_s       0101 1110 1011 0000 1100 10 ..... ..... @rr_h
796FMINNMP_s       0111 1110 1.11 0000 1100 10 ..... ..... @rr_sd
797
798ADDP_s          0101 1110 1111 0001 1011 10 ..... ..... @rr_d
799
800### Advanced SIMD three same
801
802FADD_v          0.00 1110 010 ..... 00010 1 ..... ..... @qrrr_h
803FADD_v          0.00 1110 0.1 ..... 11010 1 ..... ..... @qrrr_sd
804
805FSUB_v          0.00 1110 110 ..... 00010 1 ..... ..... @qrrr_h
806FSUB_v          0.00 1110 1.1 ..... 11010 1 ..... ..... @qrrr_sd
807
808FDIV_v          0.10 1110 010 ..... 00111 1 ..... ..... @qrrr_h
809FDIV_v          0.10 1110 0.1 ..... 11111 1 ..... ..... @qrrr_sd
810
811FMUL_v          0.10 1110 010 ..... 00011 1 ..... ..... @qrrr_h
812FMUL_v          0.10 1110 0.1 ..... 11011 1 ..... ..... @qrrr_sd
813
814FMAX_v          0.00 1110 010 ..... 00110 1 ..... ..... @qrrr_h
815FMAX_v          0.00 1110 0.1 ..... 11110 1 ..... ..... @qrrr_sd
816
817FMIN_v          0.00 1110 110 ..... 00110 1 ..... ..... @qrrr_h
818FMIN_v          0.00 1110 1.1 ..... 11110 1 ..... ..... @qrrr_sd
819
820FMAXNM_v        0.00 1110 010 ..... 00000 1 ..... ..... @qrrr_h
821FMAXNM_v        0.00 1110 0.1 ..... 11000 1 ..... ..... @qrrr_sd
822
823FMINNM_v        0.00 1110 110 ..... 00000 1 ..... ..... @qrrr_h
824FMINNM_v        0.00 1110 1.1 ..... 11000 1 ..... ..... @qrrr_sd
825
826FMULX_v         0.00 1110 010 ..... 00011 1 ..... ..... @qrrr_h
827FMULX_v         0.00 1110 0.1 ..... 11011 1 ..... ..... @qrrr_sd
828
829FMLA_v          0.00 1110 010 ..... 00001 1 ..... ..... @qrrr_h
830FMLA_v          0.00 1110 0.1 ..... 11001 1 ..... ..... @qrrr_sd
831
832FMLS_v          0.00 1110 110 ..... 00001 1 ..... ..... @qrrr_h
833FMLS_v          0.00 1110 1.1 ..... 11001 1 ..... ..... @qrrr_sd
834
835FMLAL_v         0.00 1110 001 ..... 11101 1 ..... ..... @qrrr_h
836FMLSL_v         0.00 1110 101 ..... 11101 1 ..... ..... @qrrr_h
837FMLAL2_v        0.10 1110 001 ..... 11001 1 ..... ..... @qrrr_h
838FMLSL2_v        0.10 1110 101 ..... 11001 1 ..... ..... @qrrr_h
839
840FCMEQ_v         0.00 1110 010 ..... 00100 1 ..... ..... @qrrr_h
841FCMEQ_v         0.00 1110 0.1 ..... 11100 1 ..... ..... @qrrr_sd
842
843FCMGE_v         0.10 1110 010 ..... 00100 1 ..... ..... @qrrr_h
844FCMGE_v         0.10 1110 0.1 ..... 11100 1 ..... ..... @qrrr_sd
845
846FCMGT_v         0.10 1110 110 ..... 00100 1 ..... ..... @qrrr_h
847FCMGT_v         0.10 1110 1.1 ..... 11100 1 ..... ..... @qrrr_sd
848
849FACGE_v         0.10 1110 010 ..... 00101 1 ..... ..... @qrrr_h
850FACGE_v         0.10 1110 0.1 ..... 11101 1 ..... ..... @qrrr_sd
851
852FACGT_v         0.10 1110 110 ..... 00101 1 ..... ..... @qrrr_h
853FACGT_v         0.10 1110 1.1 ..... 11101 1 ..... ..... @qrrr_sd
854
855FABD_v          0.10 1110 110 ..... 00010 1 ..... ..... @qrrr_h
856FABD_v          0.10 1110 1.1 ..... 11010 1 ..... ..... @qrrr_sd
857
858FRECPS_v        0.00 1110 010 ..... 00111 1 ..... ..... @qrrr_h
859FRECPS_v        0.00 1110 0.1 ..... 11111 1 ..... ..... @qrrr_sd
860
861FRSQRTS_v       0.00 1110 110 ..... 00111 1 ..... ..... @qrrr_h
862FRSQRTS_v       0.00 1110 1.1 ..... 11111 1 ..... ..... @qrrr_sd
863
864FADDP_v         0.10 1110 010 ..... 00010 1 ..... ..... @qrrr_h
865FADDP_v         0.10 1110 0.1 ..... 11010 1 ..... ..... @qrrr_sd
866
867FMAXP_v         0.10 1110 010 ..... 00110 1 ..... ..... @qrrr_h
868FMAXP_v         0.10 1110 0.1 ..... 11110 1 ..... ..... @qrrr_sd
869
870FMINP_v         0.10 1110 110 ..... 00110 1 ..... ..... @qrrr_h
871FMINP_v         0.10 1110 1.1 ..... 11110 1 ..... ..... @qrrr_sd
872
873FMAXNMP_v       0.10 1110 010 ..... 00000 1 ..... ..... @qrrr_h
874FMAXNMP_v       0.10 1110 0.1 ..... 11000 1 ..... ..... @qrrr_sd
875
876FMINNMP_v       0.10 1110 110 ..... 00000 1 ..... ..... @qrrr_h
877FMINNMP_v       0.10 1110 1.1 ..... 11000 1 ..... ..... @qrrr_sd
878
879ADDP_v          0.00 1110 ..1 ..... 10111 1 ..... ..... @qrrr_e
880SMAXP_v         0.00 1110 ..1 ..... 10100 1 ..... ..... @qrrr_e
881SMINP_v         0.00 1110 ..1 ..... 10101 1 ..... ..... @qrrr_e
882UMAXP_v         0.10 1110 ..1 ..... 10100 1 ..... ..... @qrrr_e
883UMINP_v         0.10 1110 ..1 ..... 10101 1 ..... ..... @qrrr_e
884
885AND_v           0.00 1110 001 ..... 00011 1 ..... ..... @qrrr_b
886BIC_v           0.00 1110 011 ..... 00011 1 ..... ..... @qrrr_b
887ORR_v           0.00 1110 101 ..... 00011 1 ..... ..... @qrrr_b
888ORN_v           0.00 1110 111 ..... 00011 1 ..... ..... @qrrr_b
889EOR_v           0.10 1110 001 ..... 00011 1 ..... ..... @qrrr_b
890BSL_v           0.10 1110 011 ..... 00011 1 ..... ..... @qrrr_b
891BIT_v           0.10 1110 101 ..... 00011 1 ..... ..... @qrrr_b
892BIF_v           0.10 1110 111 ..... 00011 1 ..... ..... @qrrr_b
893
894SQADD_v         0.00 1110 ..1 ..... 00001 1 ..... ..... @qrrr_e
895UQADD_v         0.10 1110 ..1 ..... 00001 1 ..... ..... @qrrr_e
896SQSUB_v         0.00 1110 ..1 ..... 00101 1 ..... ..... @qrrr_e
897UQSUB_v         0.10 1110 ..1 ..... 00101 1 ..... ..... @qrrr_e
898
899SUQADD_v        0.00 1110 ..1 00000 00111 0 ..... ..... @qr2r_e
900USQADD_v        0.10 1110 ..1 00000 00111 0 ..... ..... @qr2r_e
901
902SSHL_v          0.00 1110 ..1 ..... 01000 1 ..... ..... @qrrr_e
903USHL_v          0.10 1110 ..1 ..... 01000 1 ..... ..... @qrrr_e
904SRSHL_v         0.00 1110 ..1 ..... 01010 1 ..... ..... @qrrr_e
905URSHL_v         0.10 1110 ..1 ..... 01010 1 ..... ..... @qrrr_e
906SQSHL_v         0.00 1110 ..1 ..... 01001 1 ..... ..... @qrrr_e
907UQSHL_v         0.10 1110 ..1 ..... 01001 1 ..... ..... @qrrr_e
908SQRSHL_v        0.00 1110 ..1 ..... 01011 1 ..... ..... @qrrr_e
909UQRSHL_v        0.10 1110 ..1 ..... 01011 1 ..... ..... @qrrr_e
910
911ADD_v           0.00 1110 ..1 ..... 10000 1 ..... ..... @qrrr_e
912SUB_v           0.10 1110 ..1 ..... 10000 1 ..... ..... @qrrr_e
913CMGT_v          0.00 1110 ..1 ..... 00110 1 ..... ..... @qrrr_e
914CMHI_v          0.10 1110 ..1 ..... 00110 1 ..... ..... @qrrr_e
915CMGE_v          0.00 1110 ..1 ..... 00111 1 ..... ..... @qrrr_e
916CMHS_v          0.10 1110 ..1 ..... 00111 1 ..... ..... @qrrr_e
917CMTST_v         0.00 1110 ..1 ..... 10001 1 ..... ..... @qrrr_e
918CMEQ_v          0.10 1110 ..1 ..... 10001 1 ..... ..... @qrrr_e
919SHADD_v         0.00 1110 ..1 ..... 00000 1 ..... ..... @qrrr_e
920UHADD_v         0.10 1110 ..1 ..... 00000 1 ..... ..... @qrrr_e
921SHSUB_v         0.00 1110 ..1 ..... 00100 1 ..... ..... @qrrr_e
922UHSUB_v         0.10 1110 ..1 ..... 00100 1 ..... ..... @qrrr_e
923SRHADD_v        0.00 1110 ..1 ..... 00010 1 ..... ..... @qrrr_e
924URHADD_v        0.10 1110 ..1 ..... 00010 1 ..... ..... @qrrr_e
925SMAX_v          0.00 1110 ..1 ..... 01100 1 ..... ..... @qrrr_e
926UMAX_v          0.10 1110 ..1 ..... 01100 1 ..... ..... @qrrr_e
927SMIN_v          0.00 1110 ..1 ..... 01101 1 ..... ..... @qrrr_e
928UMIN_v          0.10 1110 ..1 ..... 01101 1 ..... ..... @qrrr_e
929SABD_v          0.00 1110 ..1 ..... 01110 1 ..... ..... @qrrr_e
930UABD_v          0.10 1110 ..1 ..... 01110 1 ..... ..... @qrrr_e
931SABA_v          0.00 1110 ..1 ..... 01111 1 ..... ..... @qrrr_e
932UABA_v          0.10 1110 ..1 ..... 01111 1 ..... ..... @qrrr_e
933MUL_v           0.00 1110 ..1 ..... 10011 1 ..... ..... @qrrr_e
934PMUL_v          0.10 1110 001 ..... 10011 1 ..... ..... @qrrr_b
935MLA_v           0.00 1110 ..1 ..... 10010 1 ..... ..... @qrrr_e
936MLS_v           0.10 1110 ..1 ..... 10010 1 ..... ..... @qrrr_e
937
938SQDMULH_v       0.00 1110 ..1 ..... 10110 1 ..... ..... @qrrr_e
939SQRDMULH_v      0.10 1110 ..1 ..... 10110 1 ..... ..... @qrrr_e
940
941### Advanced SIMD scalar x indexed element
942
943FMUL_si         0101 1111 00 .. .... 1001 . 0 ..... .....   @rrx_h
944FMUL_si         0101 1111 10 . ..... 1001 . 0 ..... .....   @rrx_s
945FMUL_si         0101 1111 11 0 ..... 1001 . 0 ..... .....   @rrx_d
946
947FMLA_si         0101 1111 00 .. .... 0001 . 0 ..... .....   @rrx_h
948FMLA_si         0101 1111 10 .. .... 0001 . 0 ..... .....   @rrx_s
949FMLA_si         0101 1111 11 0. .... 0001 . 0 ..... .....   @rrx_d
950
951FMLS_si         0101 1111 00 .. .... 0101 . 0 ..... .....   @rrx_h
952FMLS_si         0101 1111 10 .. .... 0101 . 0 ..... .....   @rrx_s
953FMLS_si         0101 1111 11 0. .... 0101 . 0 ..... .....   @rrx_d
954
955FMULX_si        0111 1111 00 .. .... 1001 . 0 ..... .....   @rrx_h
956FMULX_si        0111 1111 10 . ..... 1001 . 0 ..... .....   @rrx_s
957FMULX_si        0111 1111 11 0 ..... 1001 . 0 ..... .....   @rrx_d
958
959SQDMULH_si      0101 1111 01 .. .... 1100 . 0 ..... .....   @rrx_h
960SQDMULH_si      0101 1111 10 .. .... 1100 . 0 ..... .....   @rrx_s
961
962SQRDMULH_si     0101 1111 01 .. .... 1101 . 0 ..... .....   @rrx_h
963SQRDMULH_si     0101 1111 10 . ..... 1101 . 0 ..... .....   @rrx_s
964
965### Advanced SIMD vector x indexed element
966
967FMUL_vi         0.00 1111 00 .. .... 1001 . 0 ..... .....   @qrrx_h
968FMUL_vi         0.00 1111 10 . ..... 1001 . 0 ..... .....   @qrrx_s
969FMUL_vi         0.00 1111 11 0 ..... 1001 . 0 ..... .....   @qrrx_d
970
971FMLA_vi         0.00 1111 00 .. .... 0001 . 0 ..... .....   @qrrx_h
972FMLA_vi         0.00 1111 10 . ..... 0001 . 0 ..... .....   @qrrx_s
973FMLA_vi         0.00 1111 11 0 ..... 0001 . 0 ..... .....   @qrrx_d
974
975FMLS_vi         0.00 1111 00 .. .... 0101 . 0 ..... .....   @qrrx_h
976FMLS_vi         0.00 1111 10 . ..... 0101 . 0 ..... .....   @qrrx_s
977FMLS_vi         0.00 1111 11 0 ..... 0101 . 0 ..... .....   @qrrx_d
978
979FMULX_vi        0.10 1111 00 .. .... 1001 . 0 ..... .....   @qrrx_h
980FMULX_vi        0.10 1111 10 . ..... 1001 . 0 ..... .....   @qrrx_s
981FMULX_vi        0.10 1111 11 0 ..... 1001 . 0 ..... .....   @qrrx_d
982
983FMLAL_vi        0.00 1111 10 .. .... 0000 . 0 ..... .....   @qrrx_h
984FMLSL_vi        0.00 1111 10 .. .... 0100 . 0 ..... .....   @qrrx_h
985FMLAL2_vi       0.10 1111 10 .. .... 1000 . 0 ..... .....   @qrrx_h
986FMLSL2_vi       0.10 1111 10 .. .... 1100 . 0 ..... .....   @qrrx_h
987
988MUL_vi          0.00 1111 01 .. .... 1000 . 0 ..... .....   @qrrx_h
989MUL_vi          0.00 1111 10 . ..... 1000 . 0 ..... .....   @qrrx_s
990
991MLA_vi          0.10 1111 01 .. .... 0000 . 0 ..... .....   @qrrx_h
992MLA_vi          0.10 1111 10 . ..... 0000 . 0 ..... .....   @qrrx_s
993
994MLS_vi          0.10 1111 01 .. .... 0100 . 0 ..... .....   @qrrx_h
995MLS_vi          0.10 1111 10 . ..... 0100 . 0 ..... .....   @qrrx_s
996
997SQDMULH_vi      0.00 1111 01 .. .... 1100 . 0 ..... .....   @qrrx_h
998SQDMULH_vi      0.00 1111 10 . ..... 1100 . 0 ..... .....   @qrrx_s
999
1000SQRDMULH_vi     0.00 1111 01 .. .... 1101 . 0 ..... .....   @qrrx_h
1001SQRDMULH_vi     0.00 1111 10 . ..... 1101 . 0 ..... .....   @qrrx_s
1002
1003# Floating-point data-processing (3 source)
1004
1005@rrrr_hsd       .... .... .. . rm:5  . ra:5  rn:5  rd:5     &rrrr_e esz=%esz_hsd
1006
1007FMADD           0001 1111 .. 0 ..... 0 ..... ..... .....    @rrrr_hsd
1008FMSUB           0001 1111 .. 0 ..... 1 ..... ..... .....    @rrrr_hsd
1009FNMADD          0001 1111 .. 1 ..... 0 ..... ..... .....    @rrrr_hsd
1010FNMSUB          0001 1111 .. 1 ..... 1 ..... ..... .....    @rrrr_hsd
1011