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a06ea964 NC |
1 | /* tc-aarch64.c -- Assemble for the AArch64 ISA |
2 | ||
250d07de | 3 | Copyright (C) 2009-2021 Free Software Foundation, Inc. |
a06ea964 NC |
4 | Contributed by ARM Ltd. |
5 | ||
6 | This file is part of GAS. | |
7 | ||
8 | GAS 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 | GAS is distributed in the hope that it will be useful, | |
14 | but WITHOUT ANY WARRANTY; without even the implied warranty of | |
15 | MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the | |
16 | GNU General Public License for more details. | |
17 | ||
18 | You should have received a copy of the GNU General Public License | |
19 | along with this program; see the file COPYING3. If not, | |
20 | see <http://www.gnu.org/licenses/>. */ | |
21 | ||
22 | #include "as.h" | |
23 | #include <limits.h> | |
24 | #include <stdarg.h> | |
25 | #include "bfd_stdint.h" | |
26 | #define NO_RELOC 0 | |
27 | #include "safe-ctype.h" | |
28 | #include "subsegs.h" | |
29 | #include "obstack.h" | |
30 | ||
31 | #ifdef OBJ_ELF | |
32 | #include "elf/aarch64.h" | |
33 | #include "dw2gencfi.h" | |
34 | #endif | |
35 | ||
36 | #include "dwarf2dbg.h" | |
37 | ||
38 | /* Types of processor to assemble for. */ | |
39 | #ifndef CPU_DEFAULT | |
40 | #define CPU_DEFAULT AARCH64_ARCH_V8 | |
41 | #endif | |
42 | ||
43 | #define streq(a, b) (strcmp (a, b) == 0) | |
44 | ||
f4c51f60 JW |
45 | #define END_OF_INSN '\0' |
46 | ||
a06ea964 NC |
47 | static aarch64_feature_set cpu_variant; |
48 | ||
49 | /* Variables that we set while parsing command-line options. Once all | |
50 | options have been read we re-process these values to set the real | |
51 | assembly flags. */ | |
52 | static const aarch64_feature_set *mcpu_cpu_opt = NULL; | |
53 | static const aarch64_feature_set *march_cpu_opt = NULL; | |
54 | ||
55 | /* Constants for known architecture features. */ | |
56 | static const aarch64_feature_set cpu_default = CPU_DEFAULT; | |
57 | ||
7e84b55d TC |
58 | /* Currently active instruction sequence. */ |
59 | static aarch64_instr_sequence *insn_sequence = NULL; | |
60 | ||
a06ea964 NC |
61 | #ifdef OBJ_ELF |
62 | /* Pre-defined "_GLOBAL_OFFSET_TABLE_" */ | |
63 | static symbolS *GOT_symbol; | |
cec5225b | 64 | |
69091a2c YZ |
65 | /* Which ABI to use. */ |
66 | enum aarch64_abi_type | |
67 | { | |
3c0367d0 JW |
68 | AARCH64_ABI_NONE = 0, |
69 | AARCH64_ABI_LP64 = 1, | |
70 | AARCH64_ABI_ILP32 = 2 | |
69091a2c YZ |
71 | }; |
72 | ||
3c0367d0 JW |
73 | #ifndef DEFAULT_ARCH |
74 | #define DEFAULT_ARCH "aarch64" | |
75 | #endif | |
76 | ||
77 | /* DEFAULT_ARCH is initialized in gas/configure.tgt. */ | |
78 | static const char *default_arch = DEFAULT_ARCH; | |
79 | ||
69091a2c | 80 | /* AArch64 ABI for the output file. */ |
3c0367d0 | 81 | static enum aarch64_abi_type aarch64_abi = AARCH64_ABI_NONE; |
69091a2c | 82 | |
cec5225b YZ |
83 | /* When non-zero, program to a 32-bit model, in which the C data types |
84 | int, long and all pointer types are 32-bit objects (ILP32); or to a | |
85 | 64-bit model, in which the C int type is 32-bits but the C long type | |
86 | and all pointer types are 64-bit objects (LP64). */ | |
69091a2c | 87 | #define ilp32_p (aarch64_abi == AARCH64_ABI_ILP32) |
a06ea964 NC |
88 | #endif |
89 | ||
f06935a5 | 90 | enum vector_el_type |
a06ea964 NC |
91 | { |
92 | NT_invtype = -1, | |
93 | NT_b, | |
94 | NT_h, | |
95 | NT_s, | |
96 | NT_d, | |
d50c751e RS |
97 | NT_q, |
98 | NT_zero, | |
99 | NT_merge | |
a06ea964 NC |
100 | }; |
101 | ||
8f9a77af | 102 | /* Bits for DEFINED field in vector_type_el. */ |
f11ad6bc RS |
103 | #define NTA_HASTYPE 1 |
104 | #define NTA_HASINDEX 2 | |
105 | #define NTA_HASVARWIDTH 4 | |
a06ea964 | 106 | |
8f9a77af | 107 | struct vector_type_el |
a06ea964 | 108 | { |
f06935a5 | 109 | enum vector_el_type type; |
a06ea964 NC |
110 | unsigned char defined; |
111 | unsigned width; | |
112 | int64_t index; | |
113 | }; | |
114 | ||
115 | #define FIXUP_F_HAS_EXPLICIT_SHIFT 0x00000001 | |
116 | ||
117 | struct reloc | |
118 | { | |
119 | bfd_reloc_code_real_type type; | |
120 | expressionS exp; | |
121 | int pc_rel; | |
122 | enum aarch64_opnd opnd; | |
123 | uint32_t flags; | |
124 | unsigned need_libopcodes_p : 1; | |
125 | }; | |
126 | ||
127 | struct aarch64_instruction | |
128 | { | |
129 | /* libopcodes structure for instruction intermediate representation. */ | |
130 | aarch64_inst base; | |
131 | /* Record assembly errors found during the parsing. */ | |
132 | struct | |
133 | { | |
134 | enum aarch64_operand_error_kind kind; | |
135 | const char *error; | |
136 | } parsing_error; | |
137 | /* The condition that appears in the assembly line. */ | |
138 | int cond; | |
139 | /* Relocation information (including the GAS internal fixup). */ | |
140 | struct reloc reloc; | |
141 | /* Need to generate an immediate in the literal pool. */ | |
142 | unsigned gen_lit_pool : 1; | |
143 | }; | |
144 | ||
145 | typedef struct aarch64_instruction aarch64_instruction; | |
146 | ||
147 | static aarch64_instruction inst; | |
148 | ||
149 | static bfd_boolean parse_operands (char *, const aarch64_opcode *); | |
150 | static bfd_boolean programmer_friendly_fixup (aarch64_instruction *); | |
151 | ||
7e84b55d TC |
152 | #ifdef OBJ_ELF |
153 | # define now_instr_sequence seg_info \ | |
154 | (now_seg)->tc_segment_info_data.insn_sequence | |
155 | #else | |
156 | static struct aarch64_instr_sequence now_instr_sequence; | |
157 | #endif | |
158 | ||
33eaf5de | 159 | /* Diagnostics inline function utilities. |
a06ea964 | 160 | |
33eaf5de | 161 | These are lightweight utilities which should only be called by parse_operands |
a06ea964 NC |
162 | and other parsers. GAS processes each assembly line by parsing it against |
163 | instruction template(s), in the case of multiple templates (for the same | |
164 | mnemonic name), those templates are tried one by one until one succeeds or | |
165 | all fail. An assembly line may fail a few templates before being | |
166 | successfully parsed; an error saved here in most cases is not a user error | |
167 | but an error indicating the current template is not the right template. | |
168 | Therefore it is very important that errors can be saved at a low cost during | |
169 | the parsing; we don't want to slow down the whole parsing by recording | |
170 | non-user errors in detail. | |
171 | ||
33eaf5de | 172 | Remember that the objective is to help GAS pick up the most appropriate |
a06ea964 NC |
173 | error message in the case of multiple templates, e.g. FMOV which has 8 |
174 | templates. */ | |
175 | ||
176 | static inline void | |
177 | clear_error (void) | |
178 | { | |
179 | inst.parsing_error.kind = AARCH64_OPDE_NIL; | |
180 | inst.parsing_error.error = NULL; | |
181 | } | |
182 | ||
183 | static inline bfd_boolean | |
184 | error_p (void) | |
185 | { | |
186 | return inst.parsing_error.kind != AARCH64_OPDE_NIL; | |
187 | } | |
188 | ||
189 | static inline const char * | |
190 | get_error_message (void) | |
191 | { | |
192 | return inst.parsing_error.error; | |
193 | } | |
194 | ||
a06ea964 NC |
195 | static inline enum aarch64_operand_error_kind |
196 | get_error_kind (void) | |
197 | { | |
198 | return inst.parsing_error.kind; | |
199 | } | |
200 | ||
a06ea964 NC |
201 | static inline void |
202 | set_error (enum aarch64_operand_error_kind kind, const char *error) | |
203 | { | |
204 | inst.parsing_error.kind = kind; | |
205 | inst.parsing_error.error = error; | |
206 | } | |
207 | ||
208 | static inline void | |
209 | set_recoverable_error (const char *error) | |
210 | { | |
211 | set_error (AARCH64_OPDE_RECOVERABLE, error); | |
212 | } | |
213 | ||
214 | /* Use the DESC field of the corresponding aarch64_operand entry to compose | |
215 | the error message. */ | |
216 | static inline void | |
217 | set_default_error (void) | |
218 | { | |
219 | set_error (AARCH64_OPDE_SYNTAX_ERROR, NULL); | |
220 | } | |
221 | ||
222 | static inline void | |
223 | set_syntax_error (const char *error) | |
224 | { | |
225 | set_error (AARCH64_OPDE_SYNTAX_ERROR, error); | |
226 | } | |
227 | ||
228 | static inline void | |
229 | set_first_syntax_error (const char *error) | |
230 | { | |
231 | if (! error_p ()) | |
232 | set_error (AARCH64_OPDE_SYNTAX_ERROR, error); | |
233 | } | |
234 | ||
235 | static inline void | |
236 | set_fatal_syntax_error (const char *error) | |
237 | { | |
238 | set_error (AARCH64_OPDE_FATAL_SYNTAX_ERROR, error); | |
239 | } | |
240 | \f | |
a06ea964 NC |
241 | /* Return value for certain parsers when the parsing fails; those parsers |
242 | return the information of the parsed result, e.g. register number, on | |
243 | success. */ | |
244 | #define PARSE_FAIL -1 | |
245 | ||
246 | /* This is an invalid condition code that means no conditional field is | |
247 | present. */ | |
248 | #define COND_ALWAYS 0x10 | |
249 | ||
a06ea964 NC |
250 | typedef struct |
251 | { | |
252 | const char *template; | |
253 | uint32_t value; | |
254 | } asm_nzcv; | |
255 | ||
256 | struct reloc_entry | |
257 | { | |
258 | char *name; | |
259 | bfd_reloc_code_real_type reloc; | |
260 | }; | |
261 | ||
a06ea964 NC |
262 | /* Macros to define the register types and masks for the purpose |
263 | of parsing. */ | |
264 | ||
265 | #undef AARCH64_REG_TYPES | |
266 | #define AARCH64_REG_TYPES \ | |
267 | BASIC_REG_TYPE(R_32) /* w[0-30] */ \ | |
268 | BASIC_REG_TYPE(R_64) /* x[0-30] */ \ | |
269 | BASIC_REG_TYPE(SP_32) /* wsp */ \ | |
270 | BASIC_REG_TYPE(SP_64) /* sp */ \ | |
271 | BASIC_REG_TYPE(Z_32) /* wzr */ \ | |
272 | BASIC_REG_TYPE(Z_64) /* xzr */ \ | |
273 | BASIC_REG_TYPE(FP_B) /* b[0-31] *//* NOTE: keep FP_[BHSDQ] consecutive! */\ | |
274 | BASIC_REG_TYPE(FP_H) /* h[0-31] */ \ | |
275 | BASIC_REG_TYPE(FP_S) /* s[0-31] */ \ | |
276 | BASIC_REG_TYPE(FP_D) /* d[0-31] */ \ | |
277 | BASIC_REG_TYPE(FP_Q) /* q[0-31] */ \ | |
a06ea964 | 278 | BASIC_REG_TYPE(VN) /* v[0-31] */ \ |
f11ad6bc RS |
279 | BASIC_REG_TYPE(ZN) /* z[0-31] */ \ |
280 | BASIC_REG_TYPE(PN) /* p[0-15] */ \ | |
e1b988bb | 281 | /* Typecheck: any 64-bit int reg (inc SP exc XZR). */ \ |
a06ea964 | 282 | MULTI_REG_TYPE(R64_SP, REG_TYPE(R_64) | REG_TYPE(SP_64)) \ |
4df068de RS |
283 | /* Typecheck: same, plus SVE registers. */ \ |
284 | MULTI_REG_TYPE(SVE_BASE, REG_TYPE(R_64) | REG_TYPE(SP_64) \ | |
285 | | REG_TYPE(ZN)) \ | |
e1b988bb RS |
286 | /* Typecheck: x[0-30], w[0-30] or [xw]zr. */ \ |
287 | MULTI_REG_TYPE(R_Z, REG_TYPE(R_32) | REG_TYPE(R_64) \ | |
288 | | REG_TYPE(Z_32) | REG_TYPE(Z_64)) \ | |
4df068de RS |
289 | /* Typecheck: same, plus SVE registers. */ \ |
290 | MULTI_REG_TYPE(SVE_OFFSET, REG_TYPE(R_32) | REG_TYPE(R_64) \ | |
291 | | REG_TYPE(Z_32) | REG_TYPE(Z_64) \ | |
292 | | REG_TYPE(ZN)) \ | |
e1b988bb RS |
293 | /* Typecheck: x[0-30], w[0-30] or {w}sp. */ \ |
294 | MULTI_REG_TYPE(R_SP, REG_TYPE(R_32) | REG_TYPE(R_64) \ | |
295 | | REG_TYPE(SP_32) | REG_TYPE(SP_64)) \ | |
296 | /* Typecheck: any int (inc {W}SP inc [WX]ZR). */ \ | |
a06ea964 NC |
297 | MULTI_REG_TYPE(R_Z_SP, REG_TYPE(R_32) | REG_TYPE(R_64) \ |
298 | | REG_TYPE(SP_32) | REG_TYPE(SP_64) \ | |
299 | | REG_TYPE(Z_32) | REG_TYPE(Z_64)) \ | |
300 | /* Typecheck: any [BHSDQ]P FP. */ \ | |
301 | MULTI_REG_TYPE(BHSDQ, REG_TYPE(FP_B) | REG_TYPE(FP_H) \ | |
302 | | REG_TYPE(FP_S) | REG_TYPE(FP_D) | REG_TYPE(FP_Q)) \ | |
e1b988bb | 303 | /* Typecheck: any int or [BHSDQ]P FP or V reg (exc SP inc [WX]ZR). */ \ |
a06ea964 NC |
304 | MULTI_REG_TYPE(R_Z_BHSDQ_V, REG_TYPE(R_32) | REG_TYPE(R_64) \ |
305 | | REG_TYPE(Z_32) | REG_TYPE(Z_64) | REG_TYPE(VN) \ | |
306 | | REG_TYPE(FP_B) | REG_TYPE(FP_H) \ | |
307 | | REG_TYPE(FP_S) | REG_TYPE(FP_D) | REG_TYPE(FP_Q)) \ | |
5b2b928e JB |
308 | /* Typecheck: as above, but also Zn, Pn, and {W}SP. This should only \ |
309 | be used for SVE instructions, since Zn and Pn are valid symbols \ | |
c0890d26 | 310 | in other contexts. */ \ |
5b2b928e JB |
311 | MULTI_REG_TYPE(R_Z_SP_BHSDQ_VZP, REG_TYPE(R_32) | REG_TYPE(R_64) \ |
312 | | REG_TYPE(SP_32) | REG_TYPE(SP_64) \ | |
c0890d26 RS |
313 | | REG_TYPE(Z_32) | REG_TYPE(Z_64) | REG_TYPE(VN) \ |
314 | | REG_TYPE(FP_B) | REG_TYPE(FP_H) \ | |
315 | | REG_TYPE(FP_S) | REG_TYPE(FP_D) | REG_TYPE(FP_Q) \ | |
316 | | REG_TYPE(ZN) | REG_TYPE(PN)) \ | |
a06ea964 NC |
317 | /* Any integer register; used for error messages only. */ \ |
318 | MULTI_REG_TYPE(R_N, REG_TYPE(R_32) | REG_TYPE(R_64) \ | |
319 | | REG_TYPE(SP_32) | REG_TYPE(SP_64) \ | |
320 | | REG_TYPE(Z_32) | REG_TYPE(Z_64)) \ | |
321 | /* Pseudo type to mark the end of the enumerator sequence. */ \ | |
322 | BASIC_REG_TYPE(MAX) | |
323 | ||
324 | #undef BASIC_REG_TYPE | |
325 | #define BASIC_REG_TYPE(T) REG_TYPE_##T, | |
326 | #undef MULTI_REG_TYPE | |
327 | #define MULTI_REG_TYPE(T,V) BASIC_REG_TYPE(T) | |
328 | ||
329 | /* Register type enumerators. */ | |
8a0b252a | 330 | typedef enum aarch64_reg_type_ |
a06ea964 NC |
331 | { |
332 | /* A list of REG_TYPE_*. */ | |
333 | AARCH64_REG_TYPES | |
334 | } aarch64_reg_type; | |
335 | ||
336 | #undef BASIC_REG_TYPE | |
337 | #define BASIC_REG_TYPE(T) 1 << REG_TYPE_##T, | |
338 | #undef REG_TYPE | |
339 | #define REG_TYPE(T) (1 << REG_TYPE_##T) | |
340 | #undef MULTI_REG_TYPE | |
341 | #define MULTI_REG_TYPE(T,V) V, | |
342 | ||
8a0b252a TS |
343 | /* Structure for a hash table entry for a register. */ |
344 | typedef struct | |
345 | { | |
346 | const char *name; | |
347 | unsigned char number; | |
348 | ENUM_BITFIELD (aarch64_reg_type_) type : 8; | |
349 | unsigned char builtin; | |
350 | } reg_entry; | |
351 | ||
a06ea964 NC |
352 | /* Values indexed by aarch64_reg_type to assist the type checking. */ |
353 | static const unsigned reg_type_masks[] = | |
354 | { | |
355 | AARCH64_REG_TYPES | |
356 | }; | |
357 | ||
358 | #undef BASIC_REG_TYPE | |
359 | #undef REG_TYPE | |
360 | #undef MULTI_REG_TYPE | |
361 | #undef AARCH64_REG_TYPES | |
362 | ||
363 | /* Diagnostics used when we don't get a register of the expected type. | |
364 | Note: this has to synchronized with aarch64_reg_type definitions | |
365 | above. */ | |
366 | static const char * | |
367 | get_reg_expected_msg (aarch64_reg_type reg_type) | |
368 | { | |
369 | const char *msg; | |
370 | ||
371 | switch (reg_type) | |
372 | { | |
373 | case REG_TYPE_R_32: | |
374 | msg = N_("integer 32-bit register expected"); | |
375 | break; | |
376 | case REG_TYPE_R_64: | |
377 | msg = N_("integer 64-bit register expected"); | |
378 | break; | |
379 | case REG_TYPE_R_N: | |
380 | msg = N_("integer register expected"); | |
381 | break; | |
e1b988bb RS |
382 | case REG_TYPE_R64_SP: |
383 | msg = N_("64-bit integer or SP register expected"); | |
384 | break; | |
4df068de RS |
385 | case REG_TYPE_SVE_BASE: |
386 | msg = N_("base register expected"); | |
387 | break; | |
e1b988bb RS |
388 | case REG_TYPE_R_Z: |
389 | msg = N_("integer or zero register expected"); | |
390 | break; | |
4df068de RS |
391 | case REG_TYPE_SVE_OFFSET: |
392 | msg = N_("offset register expected"); | |
393 | break; | |
e1b988bb RS |
394 | case REG_TYPE_R_SP: |
395 | msg = N_("integer or SP register expected"); | |
396 | break; | |
a06ea964 NC |
397 | case REG_TYPE_R_Z_SP: |
398 | msg = N_("integer, zero or SP register expected"); | |
399 | break; | |
400 | case REG_TYPE_FP_B: | |
401 | msg = N_("8-bit SIMD scalar register expected"); | |
402 | break; | |
403 | case REG_TYPE_FP_H: | |
404 | msg = N_("16-bit SIMD scalar or floating-point half precision " | |
405 | "register expected"); | |
406 | break; | |
407 | case REG_TYPE_FP_S: | |
408 | msg = N_("32-bit SIMD scalar or floating-point single precision " | |
409 | "register expected"); | |
410 | break; | |
411 | case REG_TYPE_FP_D: | |
412 | msg = N_("64-bit SIMD scalar or floating-point double precision " | |
413 | "register expected"); | |
414 | break; | |
415 | case REG_TYPE_FP_Q: | |
416 | msg = N_("128-bit SIMD scalar or floating-point quad precision " | |
417 | "register expected"); | |
418 | break; | |
a06ea964 | 419 | case REG_TYPE_R_Z_BHSDQ_V: |
5b2b928e | 420 | case REG_TYPE_R_Z_SP_BHSDQ_VZP: |
a06ea964 NC |
421 | msg = N_("register expected"); |
422 | break; | |
423 | case REG_TYPE_BHSDQ: /* any [BHSDQ]P FP */ | |
424 | msg = N_("SIMD scalar or floating-point register expected"); | |
425 | break; | |
426 | case REG_TYPE_VN: /* any V reg */ | |
427 | msg = N_("vector register expected"); | |
428 | break; | |
f11ad6bc RS |
429 | case REG_TYPE_ZN: |
430 | msg = N_("SVE vector register expected"); | |
431 | break; | |
432 | case REG_TYPE_PN: | |
433 | msg = N_("SVE predicate register expected"); | |
434 | break; | |
a06ea964 NC |
435 | default: |
436 | as_fatal (_("invalid register type %d"), reg_type); | |
437 | } | |
438 | return msg; | |
439 | } | |
440 | ||
441 | /* Some well known registers that we refer to directly elsewhere. */ | |
442 | #define REG_SP 31 | |
c469c864 | 443 | #define REG_ZR 31 |
a06ea964 NC |
444 | |
445 | /* Instructions take 4 bytes in the object file. */ | |
446 | #define INSN_SIZE 4 | |
447 | ||
629310ab ML |
448 | static htab_t aarch64_ops_hsh; |
449 | static htab_t aarch64_cond_hsh; | |
450 | static htab_t aarch64_shift_hsh; | |
451 | static htab_t aarch64_sys_regs_hsh; | |
452 | static htab_t aarch64_pstatefield_hsh; | |
453 | static htab_t aarch64_sys_regs_ic_hsh; | |
454 | static htab_t aarch64_sys_regs_dc_hsh; | |
455 | static htab_t aarch64_sys_regs_at_hsh; | |
456 | static htab_t aarch64_sys_regs_tlbi_hsh; | |
457 | static htab_t aarch64_sys_regs_sr_hsh; | |
458 | static htab_t aarch64_reg_hsh; | |
459 | static htab_t aarch64_barrier_opt_hsh; | |
460 | static htab_t aarch64_nzcv_hsh; | |
461 | static htab_t aarch64_pldop_hsh; | |
462 | static htab_t aarch64_hint_opt_hsh; | |
a06ea964 NC |
463 | |
464 | /* Stuff needed to resolve the label ambiguity | |
465 | As: | |
466 | ... | |
467 | label: <insn> | |
468 | may differ from: | |
469 | ... | |
470 | label: | |
471 | <insn> */ | |
472 | ||
473 | static symbolS *last_label_seen; | |
474 | ||
475 | /* Literal pool structure. Held on a per-section | |
476 | and per-sub-section basis. */ | |
477 | ||
478 | #define MAX_LITERAL_POOL_SIZE 1024 | |
55d9b4c1 NC |
479 | typedef struct literal_expression |
480 | { | |
481 | expressionS exp; | |
482 | /* If exp.op == O_big then this bignum holds a copy of the global bignum value. */ | |
483 | LITTLENUM_TYPE * bignum; | |
484 | } literal_expression; | |
485 | ||
a06ea964 NC |
486 | typedef struct literal_pool |
487 | { | |
55d9b4c1 | 488 | literal_expression literals[MAX_LITERAL_POOL_SIZE]; |
a06ea964 NC |
489 | unsigned int next_free_entry; |
490 | unsigned int id; | |
491 | symbolS *symbol; | |
492 | segT section; | |
493 | subsegT sub_section; | |
494 | int size; | |
495 | struct literal_pool *next; | |
496 | } literal_pool; | |
497 | ||
498 | /* Pointer to a linked list of literal pools. */ | |
499 | static literal_pool *list_of_pools = NULL; | |
500 | \f | |
501 | /* Pure syntax. */ | |
502 | ||
503 | /* This array holds the chars that always start a comment. If the | |
504 | pre-processor is disabled, these aren't very useful. */ | |
505 | const char comment_chars[] = ""; | |
506 | ||
507 | /* This array holds the chars that only start a comment at the beginning of | |
508 | a line. If the line seems to have the form '# 123 filename' | |
509 | .line and .file directives will appear in the pre-processed output. */ | |
510 | /* Note that input_file.c hand checks for '#' at the beginning of the | |
511 | first line of the input file. This is because the compiler outputs | |
512 | #NO_APP at the beginning of its output. */ | |
513 | /* Also note that comments like this one will always work. */ | |
514 | const char line_comment_chars[] = "#"; | |
515 | ||
516 | const char line_separator_chars[] = ";"; | |
517 | ||
518 | /* Chars that can be used to separate mant | |
519 | from exp in floating point numbers. */ | |
520 | const char EXP_CHARS[] = "eE"; | |
521 | ||
522 | /* Chars that mean this number is a floating point constant. */ | |
523 | /* As in 0f12.456 */ | |
524 | /* or 0d1.2345e12 */ | |
525 | ||
b20d3859 | 526 | const char FLT_CHARS[] = "rRsSfFdDxXeEpPhH"; |
a06ea964 NC |
527 | |
528 | /* Prefix character that indicates the start of an immediate value. */ | |
529 | #define is_immediate_prefix(C) ((C) == '#') | |
530 | ||
531 | /* Separator character handling. */ | |
532 | ||
533 | #define skip_whitespace(str) do { if (*(str) == ' ') ++(str); } while (0) | |
534 | ||
535 | static inline bfd_boolean | |
536 | skip_past_char (char **str, char c) | |
537 | { | |
538 | if (**str == c) | |
539 | { | |
540 | (*str)++; | |
541 | return TRUE; | |
542 | } | |
543 | else | |
544 | return FALSE; | |
545 | } | |
546 | ||
547 | #define skip_past_comma(str) skip_past_char (str, ',') | |
548 | ||
549 | /* Arithmetic expressions (possibly involving symbols). */ | |
550 | ||
a06ea964 NC |
551 | static bfd_boolean in_my_get_expression_p = FALSE; |
552 | ||
553 | /* Third argument to my_get_expression. */ | |
554 | #define GE_NO_PREFIX 0 | |
555 | #define GE_OPT_PREFIX 1 | |
556 | ||
557 | /* Return TRUE if the string pointed by *STR is successfully parsed | |
558 | as an valid expression; *EP will be filled with the information of | |
559 | such an expression. Otherwise return FALSE. */ | |
560 | ||
561 | static bfd_boolean | |
562 | my_get_expression (expressionS * ep, char **str, int prefix_mode, | |
563 | int reject_absent) | |
564 | { | |
565 | char *save_in; | |
566 | segT seg; | |
567 | int prefix_present_p = 0; | |
568 | ||
569 | switch (prefix_mode) | |
570 | { | |
571 | case GE_NO_PREFIX: | |
572 | break; | |
573 | case GE_OPT_PREFIX: | |
574 | if (is_immediate_prefix (**str)) | |
575 | { | |
576 | (*str)++; | |
577 | prefix_present_p = 1; | |
578 | } | |
579 | break; | |
580 | default: | |
581 | abort (); | |
582 | } | |
583 | ||
584 | memset (ep, 0, sizeof (expressionS)); | |
585 | ||
586 | save_in = input_line_pointer; | |
587 | input_line_pointer = *str; | |
588 | in_my_get_expression_p = TRUE; | |
589 | seg = expression (ep); | |
590 | in_my_get_expression_p = FALSE; | |
591 | ||
592 | if (ep->X_op == O_illegal || (reject_absent && ep->X_op == O_absent)) | |
593 | { | |
594 | /* We found a bad expression in md_operand(). */ | |
595 | *str = input_line_pointer; | |
596 | input_line_pointer = save_in; | |
597 | if (prefix_present_p && ! error_p ()) | |
598 | set_fatal_syntax_error (_("bad expression")); | |
599 | else | |
600 | set_first_syntax_error (_("bad expression")); | |
601 | return FALSE; | |
602 | } | |
603 | ||
604 | #ifdef OBJ_AOUT | |
605 | if (seg != absolute_section | |
606 | && seg != text_section | |
607 | && seg != data_section | |
608 | && seg != bss_section && seg != undefined_section) | |
609 | { | |
610 | set_syntax_error (_("bad segment")); | |
611 | *str = input_line_pointer; | |
612 | input_line_pointer = save_in; | |
613 | return FALSE; | |
614 | } | |
615 | #else | |
616 | (void) seg; | |
617 | #endif | |
618 | ||
a06ea964 NC |
619 | *str = input_line_pointer; |
620 | input_line_pointer = save_in; | |
621 | return TRUE; | |
622 | } | |
623 | ||
624 | /* Turn a string in input_line_pointer into a floating point constant | |
625 | of type TYPE, and store the appropriate bytes in *LITP. The number | |
626 | of LITTLENUMS emitted is stored in *SIZEP. An error message is | |
627 | returned, or NULL on OK. */ | |
628 | ||
6d4af3c2 | 629 | const char * |
a06ea964 NC |
630 | md_atof (int type, char *litP, int *sizeP) |
631 | { | |
eb5bbc48 MM |
632 | /* If this is a bfloat16 type, then parse it slightly differently - |
633 | as it does not follow the IEEE standard exactly. */ | |
634 | if (type == 'b') | |
635 | { | |
636 | char * t; | |
637 | LITTLENUM_TYPE words[MAX_LITTLENUMS]; | |
638 | FLONUM_TYPE generic_float; | |
639 | ||
640 | t = atof_ieee_detail (input_line_pointer, 1, 8, words, &generic_float); | |
641 | ||
642 | if (t) | |
643 | input_line_pointer = t; | |
644 | else | |
645 | return _("invalid floating point number"); | |
646 | ||
647 | switch (generic_float.sign) | |
648 | { | |
649 | /* Is +Inf. */ | |
650 | case 'P': | |
651 | words[0] = 0x7f80; | |
652 | break; | |
653 | ||
654 | /* Is -Inf. */ | |
655 | case 'N': | |
656 | words[0] = 0xff80; | |
657 | break; | |
658 | ||
659 | /* Is NaN. */ | |
660 | /* bfloat16 has two types of NaN - quiet and signalling. | |
661 | Quiet NaN has bit[6] == 1 && faction != 0, whereas | |
662 | signalling Nan's have bit[0] == 0 && fraction != 0. | |
663 | Chose this specific encoding as it is the same form | |
664 | as used by other IEEE 754 encodings in GAS. */ | |
665 | case 0: | |
666 | words[0] = 0x7fff; | |
667 | break; | |
668 | ||
669 | default: | |
670 | break; | |
671 | } | |
672 | ||
673 | *sizeP = 2; | |
674 | ||
675 | md_number_to_chars (litP, (valueT) words[0], sizeof (LITTLENUM_TYPE)); | |
676 | ||
677 | return NULL; | |
678 | } | |
679 | ||
a06ea964 NC |
680 | return ieee_md_atof (type, litP, sizeP, target_big_endian); |
681 | } | |
682 | ||
683 | /* We handle all bad expressions here, so that we can report the faulty | |
684 | instruction in the error message. */ | |
685 | void | |
686 | md_operand (expressionS * exp) | |
687 | { | |
688 | if (in_my_get_expression_p) | |
689 | exp->X_op = O_illegal; | |
690 | } | |
691 | ||
692 | /* Immediate values. */ | |
693 | ||
694 | /* Errors may be set multiple times during parsing or bit encoding | |
695 | (particularly in the Neon bits), but usually the earliest error which is set | |
696 | will be the most meaningful. Avoid overwriting it with later (cascading) | |
697 | errors by calling this function. */ | |
698 | ||
699 | static void | |
700 | first_error (const char *error) | |
701 | { | |
702 | if (! error_p ()) | |
703 | set_syntax_error (error); | |
704 | } | |
705 | ||
2b0f3761 | 706 | /* Similar to first_error, but this function accepts formatted error |
a06ea964 NC |
707 | message. */ |
708 | static void | |
709 | first_error_fmt (const char *format, ...) | |
710 | { | |
711 | va_list args; | |
712 | enum | |
713 | { size = 100 }; | |
714 | /* N.B. this single buffer will not cause error messages for different | |
715 | instructions to pollute each other; this is because at the end of | |
716 | processing of each assembly line, error message if any will be | |
717 | collected by as_bad. */ | |
718 | static char buffer[size]; | |
719 | ||
720 | if (! error_p ()) | |
721 | { | |
3e0baa28 | 722 | int ret ATTRIBUTE_UNUSED; |
a06ea964 NC |
723 | va_start (args, format); |
724 | ret = vsnprintf (buffer, size, format, args); | |
725 | know (ret <= size - 1 && ret >= 0); | |
726 | va_end (args); | |
727 | set_syntax_error (buffer); | |
728 | } | |
729 | } | |
730 | ||
731 | /* Register parsing. */ | |
732 | ||
733 | /* Generic register parser which is called by other specialized | |
734 | register parsers. | |
735 | CCP points to what should be the beginning of a register name. | |
736 | If it is indeed a valid register name, advance CCP over it and | |
737 | return the reg_entry structure; otherwise return NULL. | |
738 | It does not issue diagnostics. */ | |
739 | ||
740 | static reg_entry * | |
741 | parse_reg (char **ccp) | |
742 | { | |
743 | char *start = *ccp; | |
744 | char *p; | |
745 | reg_entry *reg; | |
746 | ||
747 | #ifdef REGISTER_PREFIX | |
748 | if (*start != REGISTER_PREFIX) | |
749 | return NULL; | |
750 | start++; | |
751 | #endif | |
752 | ||
753 | p = start; | |
754 | if (!ISALPHA (*p) || !is_name_beginner (*p)) | |
755 | return NULL; | |
756 | ||
757 | do | |
758 | p++; | |
759 | while (ISALPHA (*p) || ISDIGIT (*p) || *p == '_'); | |
760 | ||
629310ab | 761 | reg = (reg_entry *) str_hash_find_n (aarch64_reg_hsh, start, p - start); |
a06ea964 NC |
762 | |
763 | if (!reg) | |
764 | return NULL; | |
765 | ||
766 | *ccp = p; | |
767 | return reg; | |
768 | } | |
769 | ||
770 | /* Return TRUE if REG->TYPE is a valid type of TYPE; otherwise | |
771 | return FALSE. */ | |
772 | static bfd_boolean | |
773 | aarch64_check_reg_type (const reg_entry *reg, aarch64_reg_type type) | |
774 | { | |
e1b988bb | 775 | return (reg_type_masks[type] & (1 << reg->type)) != 0; |
a06ea964 NC |
776 | } |
777 | ||
4df068de RS |
778 | /* Try to parse a base or offset register. Allow SVE base and offset |
779 | registers if REG_TYPE includes SVE registers. Return the register | |
780 | entry on success, setting *QUALIFIER to the register qualifier. | |
781 | Return null otherwise. | |
e1b988bb | 782 | |
a06ea964 NC |
783 | Note that this function does not issue any diagnostics. */ |
784 | ||
e1b988bb | 785 | static const reg_entry * |
4df068de RS |
786 | aarch64_addr_reg_parse (char **ccp, aarch64_reg_type reg_type, |
787 | aarch64_opnd_qualifier_t *qualifier) | |
a06ea964 NC |
788 | { |
789 | char *str = *ccp; | |
790 | const reg_entry *reg = parse_reg (&str); | |
791 | ||
792 | if (reg == NULL) | |
e1b988bb | 793 | return NULL; |
a06ea964 NC |
794 | |
795 | switch (reg->type) | |
796 | { | |
e1b988bb | 797 | case REG_TYPE_R_32: |
a06ea964 | 798 | case REG_TYPE_SP_32: |
e1b988bb RS |
799 | case REG_TYPE_Z_32: |
800 | *qualifier = AARCH64_OPND_QLF_W; | |
a06ea964 | 801 | break; |
e1b988bb | 802 | |
a06ea964 | 803 | case REG_TYPE_R_64: |
e1b988bb | 804 | case REG_TYPE_SP_64: |
a06ea964 | 805 | case REG_TYPE_Z_64: |
e1b988bb | 806 | *qualifier = AARCH64_OPND_QLF_X; |
a06ea964 | 807 | break; |
e1b988bb | 808 | |
4df068de RS |
809 | case REG_TYPE_ZN: |
810 | if ((reg_type_masks[reg_type] & (1 << REG_TYPE_ZN)) == 0 | |
811 | || str[0] != '.') | |
812 | return NULL; | |
813 | switch (TOLOWER (str[1])) | |
814 | { | |
815 | case 's': | |
816 | *qualifier = AARCH64_OPND_QLF_S_S; | |
817 | break; | |
818 | case 'd': | |
819 | *qualifier = AARCH64_OPND_QLF_S_D; | |
820 | break; | |
821 | default: | |
822 | return NULL; | |
823 | } | |
824 | str += 2; | |
825 | break; | |
826 | ||
a06ea964 | 827 | default: |
e1b988bb | 828 | return NULL; |
a06ea964 NC |
829 | } |
830 | ||
831 | *ccp = str; | |
832 | ||
e1b988bb | 833 | return reg; |
a06ea964 NC |
834 | } |
835 | ||
4df068de RS |
836 | /* Try to parse a base or offset register. Return the register entry |
837 | on success, setting *QUALIFIER to the register qualifier. Return null | |
838 | otherwise. | |
839 | ||
840 | Note that this function does not issue any diagnostics. */ | |
841 | ||
842 | static const reg_entry * | |
843 | aarch64_reg_parse_32_64 (char **ccp, aarch64_opnd_qualifier_t *qualifier) | |
844 | { | |
845 | return aarch64_addr_reg_parse (ccp, REG_TYPE_R_Z_SP, qualifier); | |
846 | } | |
847 | ||
f11ad6bc RS |
848 | /* Parse the qualifier of a vector register or vector element of type |
849 | REG_TYPE. Fill in *PARSED_TYPE and return TRUE if the parsing | |
850 | succeeds; otherwise return FALSE. | |
a06ea964 NC |
851 | |
852 | Accept only one occurrence of: | |
65a55fbb | 853 | 4b 8b 16b 2h 4h 8h 2s 4s 1d 2d |
a06ea964 NC |
854 | b h s d q */ |
855 | static bfd_boolean | |
f11ad6bc RS |
856 | parse_vector_type_for_operand (aarch64_reg_type reg_type, |
857 | struct vector_type_el *parsed_type, char **str) | |
a06ea964 NC |
858 | { |
859 | char *ptr = *str; | |
860 | unsigned width; | |
861 | unsigned element_size; | |
f06935a5 | 862 | enum vector_el_type type; |
a06ea964 NC |
863 | |
864 | /* skip '.' */ | |
d50c751e | 865 | gas_assert (*ptr == '.'); |
a06ea964 NC |
866 | ptr++; |
867 | ||
f11ad6bc | 868 | if (reg_type == REG_TYPE_ZN || reg_type == REG_TYPE_PN || !ISDIGIT (*ptr)) |
a06ea964 NC |
869 | { |
870 | width = 0; | |
871 | goto elt_size; | |
872 | } | |
873 | width = strtoul (ptr, &ptr, 10); | |
874 | if (width != 1 && width != 2 && width != 4 && width != 8 && width != 16) | |
875 | { | |
876 | first_error_fmt (_("bad size %d in vector width specifier"), width); | |
877 | return FALSE; | |
878 | } | |
879 | ||
dc1e8a47 | 880 | elt_size: |
a06ea964 NC |
881 | switch (TOLOWER (*ptr)) |
882 | { | |
883 | case 'b': | |
884 | type = NT_b; | |
885 | element_size = 8; | |
886 | break; | |
887 | case 'h': | |
888 | type = NT_h; | |
889 | element_size = 16; | |
890 | break; | |
891 | case 's': | |
892 | type = NT_s; | |
893 | element_size = 32; | |
894 | break; | |
895 | case 'd': | |
896 | type = NT_d; | |
897 | element_size = 64; | |
898 | break; | |
899 | case 'q': | |
582e12bf | 900 | if (reg_type == REG_TYPE_ZN || width == 1) |
a06ea964 NC |
901 | { |
902 | type = NT_q; | |
903 | element_size = 128; | |
904 | break; | |
905 | } | |
906 | /* fall through. */ | |
907 | default: | |
908 | if (*ptr != '\0') | |
909 | first_error_fmt (_("unexpected character `%c' in element size"), *ptr); | |
910 | else | |
911 | first_error (_("missing element size")); | |
912 | return FALSE; | |
913 | } | |
65a55fbb TC |
914 | if (width != 0 && width * element_size != 64 |
915 | && width * element_size != 128 | |
916 | && !(width == 2 && element_size == 16) | |
917 | && !(width == 4 && element_size == 8)) | |
a06ea964 NC |
918 | { |
919 | first_error_fmt (_ | |
920 | ("invalid element size %d and vector size combination %c"), | |
921 | width, *ptr); | |
922 | return FALSE; | |
923 | } | |
924 | ptr++; | |
925 | ||
926 | parsed_type->type = type; | |
927 | parsed_type->width = width; | |
928 | ||
929 | *str = ptr; | |
930 | ||
931 | return TRUE; | |
932 | } | |
933 | ||
d50c751e RS |
934 | /* *STR contains an SVE zero/merge predication suffix. Parse it into |
935 | *PARSED_TYPE and point *STR at the end of the suffix. */ | |
936 | ||
937 | static bfd_boolean | |
938 | parse_predication_for_operand (struct vector_type_el *parsed_type, char **str) | |
939 | { | |
940 | char *ptr = *str; | |
941 | ||
942 | /* Skip '/'. */ | |
943 | gas_assert (*ptr == '/'); | |
944 | ptr++; | |
945 | switch (TOLOWER (*ptr)) | |
946 | { | |
947 | case 'z': | |
948 | parsed_type->type = NT_zero; | |
949 | break; | |
950 | case 'm': | |
951 | parsed_type->type = NT_merge; | |
952 | break; | |
953 | default: | |
954 | if (*ptr != '\0' && *ptr != ',') | |
955 | first_error_fmt (_("unexpected character `%c' in predication type"), | |
956 | *ptr); | |
957 | else | |
958 | first_error (_("missing predication type")); | |
959 | return FALSE; | |
960 | } | |
961 | parsed_type->width = 0; | |
962 | *str = ptr + 1; | |
963 | return TRUE; | |
964 | } | |
965 | ||
a06ea964 NC |
966 | /* Parse a register of the type TYPE. |
967 | ||
968 | Return PARSE_FAIL if the string pointed by *CCP is not a valid register | |
969 | name or the parsed register is not of TYPE. | |
970 | ||
971 | Otherwise return the register number, and optionally fill in the actual | |
972 | type of the register in *RTYPE when multiple alternatives were given, and | |
973 | return the register shape and element index information in *TYPEINFO. | |
974 | ||
975 | IN_REG_LIST should be set with TRUE if the caller is parsing a register | |
976 | list. */ | |
977 | ||
978 | static int | |
979 | parse_typed_reg (char **ccp, aarch64_reg_type type, aarch64_reg_type *rtype, | |
8f9a77af | 980 | struct vector_type_el *typeinfo, bfd_boolean in_reg_list) |
a06ea964 NC |
981 | { |
982 | char *str = *ccp; | |
983 | const reg_entry *reg = parse_reg (&str); | |
8f9a77af RS |
984 | struct vector_type_el atype; |
985 | struct vector_type_el parsetype; | |
a06ea964 NC |
986 | bfd_boolean is_typed_vecreg = FALSE; |
987 | ||
988 | atype.defined = 0; | |
989 | atype.type = NT_invtype; | |
990 | atype.width = -1; | |
991 | atype.index = 0; | |
992 | ||
993 | if (reg == NULL) | |
994 | { | |
995 | if (typeinfo) | |
996 | *typeinfo = atype; | |
997 | set_default_error (); | |
998 | return PARSE_FAIL; | |
999 | } | |
1000 | ||
1001 | if (! aarch64_check_reg_type (reg, type)) | |
1002 | { | |
1003 | DEBUG_TRACE ("reg type check failed"); | |
1004 | set_default_error (); | |
1005 | return PARSE_FAIL; | |
1006 | } | |
1007 | type = reg->type; | |
1008 | ||
f11ad6bc | 1009 | if ((type == REG_TYPE_VN || type == REG_TYPE_ZN || type == REG_TYPE_PN) |
d50c751e | 1010 | && (*str == '.' || (type == REG_TYPE_PN && *str == '/'))) |
a06ea964 | 1011 | { |
d50c751e RS |
1012 | if (*str == '.') |
1013 | { | |
1014 | if (!parse_vector_type_for_operand (type, &parsetype, &str)) | |
1015 | return PARSE_FAIL; | |
1016 | } | |
1017 | else | |
1018 | { | |
1019 | if (!parse_predication_for_operand (&parsetype, &str)) | |
1020 | return PARSE_FAIL; | |
1021 | } | |
a235d3ae | 1022 | |
a06ea964 NC |
1023 | /* Register if of the form Vn.[bhsdq]. */ |
1024 | is_typed_vecreg = TRUE; | |
1025 | ||
f11ad6bc RS |
1026 | if (type == REG_TYPE_ZN || type == REG_TYPE_PN) |
1027 | { | |
1028 | /* The width is always variable; we don't allow an integer width | |
1029 | to be specified. */ | |
1030 | gas_assert (parsetype.width == 0); | |
1031 | atype.defined |= NTA_HASVARWIDTH | NTA_HASTYPE; | |
1032 | } | |
1033 | else if (parsetype.width == 0) | |
a06ea964 NC |
1034 | /* Expect index. In the new scheme we cannot have |
1035 | Vn.[bhsdq] represent a scalar. Therefore any | |
1036 | Vn.[bhsdq] should have an index following it. | |
33eaf5de | 1037 | Except in reglists of course. */ |
a06ea964 NC |
1038 | atype.defined |= NTA_HASINDEX; |
1039 | else | |
1040 | atype.defined |= NTA_HASTYPE; | |
1041 | ||
1042 | atype.type = parsetype.type; | |
1043 | atype.width = parsetype.width; | |
1044 | } | |
1045 | ||
1046 | if (skip_past_char (&str, '[')) | |
1047 | { | |
1048 | expressionS exp; | |
1049 | ||
1050 | /* Reject Sn[index] syntax. */ | |
1051 | if (!is_typed_vecreg) | |
1052 | { | |
1053 | first_error (_("this type of register can't be indexed")); | |
1054 | return PARSE_FAIL; | |
1055 | } | |
1056 | ||
535b785f | 1057 | if (in_reg_list) |
a06ea964 NC |
1058 | { |
1059 | first_error (_("index not allowed inside register list")); | |
1060 | return PARSE_FAIL; | |
1061 | } | |
1062 | ||
1063 | atype.defined |= NTA_HASINDEX; | |
1064 | ||
1065 | my_get_expression (&exp, &str, GE_NO_PREFIX, 1); | |
1066 | ||
1067 | if (exp.X_op != O_constant) | |
1068 | { | |
1069 | first_error (_("constant expression required")); | |
1070 | return PARSE_FAIL; | |
1071 | } | |
1072 | ||
1073 | if (! skip_past_char (&str, ']')) | |
1074 | return PARSE_FAIL; | |
1075 | ||
1076 | atype.index = exp.X_add_number; | |
1077 | } | |
1078 | else if (!in_reg_list && (atype.defined & NTA_HASINDEX) != 0) | |
1079 | { | |
1080 | /* Indexed vector register expected. */ | |
1081 | first_error (_("indexed vector register expected")); | |
1082 | return PARSE_FAIL; | |
1083 | } | |
1084 | ||
1085 | /* A vector reg Vn should be typed or indexed. */ | |
1086 | if (type == REG_TYPE_VN && atype.defined == 0) | |
1087 | { | |
1088 | first_error (_("invalid use of vector register")); | |
1089 | } | |
1090 | ||
1091 | if (typeinfo) | |
1092 | *typeinfo = atype; | |
1093 | ||
1094 | if (rtype) | |
1095 | *rtype = type; | |
1096 | ||
1097 | *ccp = str; | |
1098 | ||
1099 | return reg->number; | |
1100 | } | |
1101 | ||
1102 | /* Parse register. | |
1103 | ||
1104 | Return the register number on success; return PARSE_FAIL otherwise. | |
1105 | ||
1106 | If RTYPE is not NULL, return in *RTYPE the (possibly restricted) type of | |
1107 | the register (e.g. NEON double or quad reg when either has been requested). | |
1108 | ||
1109 | If this is a NEON vector register with additional type information, fill | |
1110 | in the struct pointed to by VECTYPE (if non-NULL). | |
1111 | ||
1112 | This parser does not handle register list. */ | |
1113 | ||
1114 | static int | |
1115 | aarch64_reg_parse (char **ccp, aarch64_reg_type type, | |
8f9a77af | 1116 | aarch64_reg_type *rtype, struct vector_type_el *vectype) |
a06ea964 | 1117 | { |
8f9a77af | 1118 | struct vector_type_el atype; |
a06ea964 NC |
1119 | char *str = *ccp; |
1120 | int reg = parse_typed_reg (&str, type, rtype, &atype, | |
1121 | /*in_reg_list= */ FALSE); | |
1122 | ||
1123 | if (reg == PARSE_FAIL) | |
1124 | return PARSE_FAIL; | |
1125 | ||
1126 | if (vectype) | |
1127 | *vectype = atype; | |
1128 | ||
1129 | *ccp = str; | |
1130 | ||
1131 | return reg; | |
1132 | } | |
1133 | ||
1134 | static inline bfd_boolean | |
8f9a77af | 1135 | eq_vector_type_el (struct vector_type_el e1, struct vector_type_el e2) |
a06ea964 NC |
1136 | { |
1137 | return | |
1138 | e1.type == e2.type | |
1139 | && e1.defined == e2.defined | |
1140 | && e1.width == e2.width && e1.index == e2.index; | |
1141 | } | |
1142 | ||
10d76650 RS |
1143 | /* This function parses a list of vector registers of type TYPE. |
1144 | On success, it returns the parsed register list information in the | |
1145 | following encoded format: | |
a06ea964 NC |
1146 | |
1147 | bit 18-22 | 13-17 | 7-11 | 2-6 | 0-1 | |
1148 | 4th regno | 3rd regno | 2nd regno | 1st regno | num_of_reg | |
1149 | ||
1150 | The information of the register shape and/or index is returned in | |
1151 | *VECTYPE. | |
1152 | ||
1153 | It returns PARSE_FAIL if the register list is invalid. | |
1154 | ||
1155 | The list contains one to four registers. | |
1156 | Each register can be one of: | |
1157 | <Vt>.<T>[<index>] | |
1158 | <Vt>.<T> | |
1159 | All <T> should be identical. | |
1160 | All <index> should be identical. | |
1161 | There are restrictions on <Vt> numbers which are checked later | |
1162 | (by reg_list_valid_p). */ | |
1163 | ||
1164 | static int | |
10d76650 RS |
1165 | parse_vector_reg_list (char **ccp, aarch64_reg_type type, |
1166 | struct vector_type_el *vectype) | |
a06ea964 NC |
1167 | { |
1168 | char *str = *ccp; | |
1169 | int nb_regs; | |
8f9a77af | 1170 | struct vector_type_el typeinfo, typeinfo_first; |
a06ea964 NC |
1171 | int val, val_range; |
1172 | int in_range; | |
1173 | int ret_val; | |
1174 | int i; | |
1175 | bfd_boolean error = FALSE; | |
1176 | bfd_boolean expect_index = FALSE; | |
1177 | ||
1178 | if (*str != '{') | |
1179 | { | |
1180 | set_syntax_error (_("expecting {")); | |
1181 | return PARSE_FAIL; | |
1182 | } | |
1183 | str++; | |
1184 | ||
1185 | nb_regs = 0; | |
1186 | typeinfo_first.defined = 0; | |
1187 | typeinfo_first.type = NT_invtype; | |
1188 | typeinfo_first.width = -1; | |
1189 | typeinfo_first.index = 0; | |
1190 | ret_val = 0; | |
1191 | val = -1; | |
1192 | val_range = -1; | |
1193 | in_range = 0; | |
1194 | do | |
1195 | { | |
1196 | if (in_range) | |
1197 | { | |
1198 | str++; /* skip over '-' */ | |
1199 | val_range = val; | |
1200 | } | |
10d76650 | 1201 | val = parse_typed_reg (&str, type, NULL, &typeinfo, |
a06ea964 NC |
1202 | /*in_reg_list= */ TRUE); |
1203 | if (val == PARSE_FAIL) | |
1204 | { | |
1205 | set_first_syntax_error (_("invalid vector register in list")); | |
1206 | error = TRUE; | |
1207 | continue; | |
1208 | } | |
1209 | /* reject [bhsd]n */ | |
f11ad6bc | 1210 | if (type == REG_TYPE_VN && typeinfo.defined == 0) |
a06ea964 NC |
1211 | { |
1212 | set_first_syntax_error (_("invalid scalar register in list")); | |
1213 | error = TRUE; | |
1214 | continue; | |
1215 | } | |
1216 | ||
1217 | if (typeinfo.defined & NTA_HASINDEX) | |
1218 | expect_index = TRUE; | |
1219 | ||
1220 | if (in_range) | |
1221 | { | |
1222 | if (val < val_range) | |
1223 | { | |
1224 | set_first_syntax_error | |
1225 | (_("invalid range in vector register list")); | |
1226 | error = TRUE; | |
1227 | } | |
1228 | val_range++; | |
1229 | } | |
1230 | else | |
1231 | { | |
1232 | val_range = val; | |
1233 | if (nb_regs == 0) | |
1234 | typeinfo_first = typeinfo; | |
8f9a77af | 1235 | else if (! eq_vector_type_el (typeinfo_first, typeinfo)) |
a06ea964 NC |
1236 | { |
1237 | set_first_syntax_error | |
1238 | (_("type mismatch in vector register list")); | |
1239 | error = TRUE; | |
1240 | } | |
1241 | } | |
1242 | if (! error) | |
1243 | for (i = val_range; i <= val; i++) | |
1244 | { | |
1245 | ret_val |= i << (5 * nb_regs); | |
1246 | nb_regs++; | |
1247 | } | |
1248 | in_range = 0; | |
1249 | } | |
1250 | while (skip_past_comma (&str) || (in_range = 1, *str == '-')); | |
1251 | ||
1252 | skip_whitespace (str); | |
1253 | if (*str != '}') | |
1254 | { | |
1255 | set_first_syntax_error (_("end of vector register list not found")); | |
1256 | error = TRUE; | |
1257 | } | |
1258 | str++; | |
1259 | ||
1260 | skip_whitespace (str); | |
1261 | ||
1262 | if (expect_index) | |
1263 | { | |
1264 | if (skip_past_char (&str, '[')) | |
1265 | { | |
1266 | expressionS exp; | |
1267 | ||
1268 | my_get_expression (&exp, &str, GE_NO_PREFIX, 1); | |
1269 | if (exp.X_op != O_constant) | |
1270 | { | |
1271 | set_first_syntax_error (_("constant expression required.")); | |
1272 | error = TRUE; | |
1273 | } | |
1274 | if (! skip_past_char (&str, ']')) | |
1275 | error = TRUE; | |
1276 | else | |
1277 | typeinfo_first.index = exp.X_add_number; | |
1278 | } | |
1279 | else | |
1280 | { | |
1281 | set_first_syntax_error (_("expected index")); | |
1282 | error = TRUE; | |
1283 | } | |
1284 | } | |
1285 | ||
1286 | if (nb_regs > 4) | |
1287 | { | |
1288 | set_first_syntax_error (_("too many registers in vector register list")); | |
1289 | error = TRUE; | |
1290 | } | |
1291 | else if (nb_regs == 0) | |
1292 | { | |
1293 | set_first_syntax_error (_("empty vector register list")); | |
1294 | error = TRUE; | |
1295 | } | |
1296 | ||
1297 | *ccp = str; | |
1298 | if (! error) | |
1299 | *vectype = typeinfo_first; | |
1300 | ||
1301 | return error ? PARSE_FAIL : (ret_val << 2) | (nb_regs - 1); | |
1302 | } | |
1303 | ||
1304 | /* Directives: register aliases. */ | |
1305 | ||
1306 | static reg_entry * | |
1307 | insert_reg_alias (char *str, int number, aarch64_reg_type type) | |
1308 | { | |
1309 | reg_entry *new; | |
1310 | const char *name; | |
1311 | ||
629310ab | 1312 | if ((new = str_hash_find (aarch64_reg_hsh, str)) != 0) |
a06ea964 NC |
1313 | { |
1314 | if (new->builtin) | |
1315 | as_warn (_("ignoring attempt to redefine built-in register '%s'"), | |
1316 | str); | |
1317 | ||
1318 | /* Only warn about a redefinition if it's not defined as the | |
1319 | same register. */ | |
1320 | else if (new->number != number || new->type != type) | |
1321 | as_warn (_("ignoring redefinition of register alias '%s'"), str); | |
1322 | ||
1323 | return NULL; | |
1324 | } | |
1325 | ||
1326 | name = xstrdup (str); | |
add39d23 | 1327 | new = XNEW (reg_entry); |
a06ea964 NC |
1328 | |
1329 | new->name = name; | |
1330 | new->number = number; | |
1331 | new->type = type; | |
1332 | new->builtin = FALSE; | |
1333 | ||
fe0e921f | 1334 | str_hash_insert (aarch64_reg_hsh, name, new, 0); |
a06ea964 NC |
1335 | |
1336 | return new; | |
1337 | } | |
1338 | ||
1339 | /* Look for the .req directive. This is of the form: | |
1340 | ||
1341 | new_register_name .req existing_register_name | |
1342 | ||
1343 | If we find one, or if it looks sufficiently like one that we want to | |
1344 | handle any error here, return TRUE. Otherwise return FALSE. */ | |
1345 | ||
1346 | static bfd_boolean | |
1347 | create_register_alias (char *newname, char *p) | |
1348 | { | |
1349 | const reg_entry *old; | |
1350 | char *oldname, *nbuf; | |
1351 | size_t nlen; | |
1352 | ||
1353 | /* The input scrubber ensures that whitespace after the mnemonic is | |
1354 | collapsed to single spaces. */ | |
1355 | oldname = p; | |
1356 | if (strncmp (oldname, " .req ", 6) != 0) | |
1357 | return FALSE; | |
1358 | ||
1359 | oldname += 6; | |
1360 | if (*oldname == '\0') | |
1361 | return FALSE; | |
1362 | ||
629310ab | 1363 | old = str_hash_find (aarch64_reg_hsh, oldname); |
a06ea964 NC |
1364 | if (!old) |
1365 | { | |
1366 | as_warn (_("unknown register '%s' -- .req ignored"), oldname); | |
1367 | return TRUE; | |
1368 | } | |
1369 | ||
1370 | /* If TC_CASE_SENSITIVE is defined, then newname already points to | |
1371 | the desired alias name, and p points to its end. If not, then | |
1372 | the desired alias name is in the global original_case_string. */ | |
1373 | #ifdef TC_CASE_SENSITIVE | |
1374 | nlen = p - newname; | |
1375 | #else | |
1376 | newname = original_case_string; | |
1377 | nlen = strlen (newname); | |
1378 | #endif | |
1379 | ||
29a2809e | 1380 | nbuf = xmemdup0 (newname, nlen); |
a06ea964 NC |
1381 | |
1382 | /* Create aliases under the new name as stated; an all-lowercase | |
1383 | version of the new name; and an all-uppercase version of the new | |
1384 | name. */ | |
1385 | if (insert_reg_alias (nbuf, old->number, old->type) != NULL) | |
1386 | { | |
1387 | for (p = nbuf; *p; p++) | |
1388 | *p = TOUPPER (*p); | |
1389 | ||
1390 | if (strncmp (nbuf, newname, nlen)) | |
1391 | { | |
1392 | /* If this attempt to create an additional alias fails, do not bother | |
1393 | trying to create the all-lower case alias. We will fail and issue | |
1394 | a second, duplicate error message. This situation arises when the | |
1395 | programmer does something like: | |
1396 | foo .req r0 | |
1397 | Foo .req r1 | |
1398 | The second .req creates the "Foo" alias but then fails to create | |
1399 | the artificial FOO alias because it has already been created by the | |
1400 | first .req. */ | |
1401 | if (insert_reg_alias (nbuf, old->number, old->type) == NULL) | |
e1fa0163 NC |
1402 | { |
1403 | free (nbuf); | |
1404 | return TRUE; | |
1405 | } | |
a06ea964 NC |
1406 | } |
1407 | ||
1408 | for (p = nbuf; *p; p++) | |
1409 | *p = TOLOWER (*p); | |
1410 | ||
1411 | if (strncmp (nbuf, newname, nlen)) | |
1412 | insert_reg_alias (nbuf, old->number, old->type); | |
1413 | } | |
1414 | ||
e1fa0163 | 1415 | free (nbuf); |
a06ea964 NC |
1416 | return TRUE; |
1417 | } | |
1418 | ||
1419 | /* Should never be called, as .req goes between the alias and the | |
1420 | register name, not at the beginning of the line. */ | |
1421 | static void | |
1422 | s_req (int a ATTRIBUTE_UNUSED) | |
1423 | { | |
1424 | as_bad (_("invalid syntax for .req directive")); | |
1425 | } | |
1426 | ||
1427 | /* The .unreq directive deletes an alias which was previously defined | |
1428 | by .req. For example: | |
1429 | ||
1430 | my_alias .req r11 | |
1431 | .unreq my_alias */ | |
1432 | ||
1433 | static void | |
1434 | s_unreq (int a ATTRIBUTE_UNUSED) | |
1435 | { | |
1436 | char *name; | |
1437 | char saved_char; | |
1438 | ||
1439 | name = input_line_pointer; | |
1440 | ||
1441 | while (*input_line_pointer != 0 | |
1442 | && *input_line_pointer != ' ' && *input_line_pointer != '\n') | |
1443 | ++input_line_pointer; | |
1444 | ||
1445 | saved_char = *input_line_pointer; | |
1446 | *input_line_pointer = 0; | |
1447 | ||
1448 | if (!*name) | |
1449 | as_bad (_("invalid syntax for .unreq directive")); | |
1450 | else | |
1451 | { | |
629310ab | 1452 | reg_entry *reg = str_hash_find (aarch64_reg_hsh, name); |
a06ea964 NC |
1453 | |
1454 | if (!reg) | |
1455 | as_bad (_("unknown register alias '%s'"), name); | |
1456 | else if (reg->builtin) | |
1457 | as_warn (_("ignoring attempt to undefine built-in register '%s'"), | |
1458 | name); | |
1459 | else | |
1460 | { | |
1461 | char *p; | |
1462 | char *nbuf; | |
1463 | ||
629310ab | 1464 | str_hash_delete (aarch64_reg_hsh, name); |
a06ea964 NC |
1465 | free ((char *) reg->name); |
1466 | free (reg); | |
1467 | ||
1468 | /* Also locate the all upper case and all lower case versions. | |
1469 | Do not complain if we cannot find one or the other as it | |
1470 | was probably deleted above. */ | |
1471 | ||
1472 | nbuf = strdup (name); | |
1473 | for (p = nbuf; *p; p++) | |
1474 | *p = TOUPPER (*p); | |
629310ab | 1475 | reg = str_hash_find (aarch64_reg_hsh, nbuf); |
a06ea964 NC |
1476 | if (reg) |
1477 | { | |
629310ab | 1478 | str_hash_delete (aarch64_reg_hsh, nbuf); |
a06ea964 NC |
1479 | free ((char *) reg->name); |
1480 | free (reg); | |
1481 | } | |
1482 | ||
1483 | for (p = nbuf; *p; p++) | |
1484 | *p = TOLOWER (*p); | |
629310ab | 1485 | reg = str_hash_find (aarch64_reg_hsh, nbuf); |
a06ea964 NC |
1486 | if (reg) |
1487 | { | |
629310ab | 1488 | str_hash_delete (aarch64_reg_hsh, nbuf); |
a06ea964 NC |
1489 | free ((char *) reg->name); |
1490 | free (reg); | |
1491 | } | |
1492 | ||
1493 | free (nbuf); | |
1494 | } | |
1495 | } | |
1496 | ||
1497 | *input_line_pointer = saved_char; | |
1498 | demand_empty_rest_of_line (); | |
1499 | } | |
1500 | ||
1501 | /* Directives: Instruction set selection. */ | |
1502 | ||
1503 | #ifdef OBJ_ELF | |
1504 | /* This code is to handle mapping symbols as defined in the ARM AArch64 ELF | |
1505 | spec. (See "Mapping symbols", section 4.5.4, ARM AAELF64 version 0.05). | |
1506 | Note that previously, $a and $t has type STT_FUNC (BSF_OBJECT flag), | |
1507 | and $d has type STT_OBJECT (BSF_OBJECT flag). Now all three are untyped. */ | |
1508 | ||
1509 | /* Create a new mapping symbol for the transition to STATE. */ | |
1510 | ||
1511 | static void | |
1512 | make_mapping_symbol (enum mstate state, valueT value, fragS * frag) | |
1513 | { | |
1514 | symbolS *symbolP; | |
1515 | const char *symname; | |
1516 | int type; | |
1517 | ||
1518 | switch (state) | |
1519 | { | |
1520 | case MAP_DATA: | |
1521 | symname = "$d"; | |
1522 | type = BSF_NO_FLAGS; | |
1523 | break; | |
1524 | case MAP_INSN: | |
1525 | symname = "$x"; | |
1526 | type = BSF_NO_FLAGS; | |
1527 | break; | |
1528 | default: | |
1529 | abort (); | |
1530 | } | |
1531 | ||
e01e1cee | 1532 | symbolP = symbol_new (symname, now_seg, frag, value); |
a06ea964 NC |
1533 | symbol_get_bfdsym (symbolP)->flags |= type | BSF_LOCAL; |
1534 | ||
1535 | /* Save the mapping symbols for future reference. Also check that | |
1536 | we do not place two mapping symbols at the same offset within a | |
1537 | frag. We'll handle overlap between frags in | |
1538 | check_mapping_symbols. | |
1539 | ||
1540 | If .fill or other data filling directive generates zero sized data, | |
1541 | the mapping symbol for the following code will have the same value | |
1542 | as the one generated for the data filling directive. In this case, | |
1543 | we replace the old symbol with the new one at the same address. */ | |
1544 | if (value == 0) | |
1545 | { | |
1546 | if (frag->tc_frag_data.first_map != NULL) | |
1547 | { | |
1548 | know (S_GET_VALUE (frag->tc_frag_data.first_map) == 0); | |
1549 | symbol_remove (frag->tc_frag_data.first_map, &symbol_rootP, | |
1550 | &symbol_lastP); | |
1551 | } | |
1552 | frag->tc_frag_data.first_map = symbolP; | |
1553 | } | |
1554 | if (frag->tc_frag_data.last_map != NULL) | |
1555 | { | |
1556 | know (S_GET_VALUE (frag->tc_frag_data.last_map) <= | |
1557 | S_GET_VALUE (symbolP)); | |
1558 | if (S_GET_VALUE (frag->tc_frag_data.last_map) == S_GET_VALUE (symbolP)) | |
1559 | symbol_remove (frag->tc_frag_data.last_map, &symbol_rootP, | |
1560 | &symbol_lastP); | |
1561 | } | |
1562 | frag->tc_frag_data.last_map = symbolP; | |
1563 | } | |
1564 | ||
1565 | /* We must sometimes convert a region marked as code to data during | |
1566 | code alignment, if an odd number of bytes have to be padded. The | |
1567 | code mapping symbol is pushed to an aligned address. */ | |
1568 | ||
1569 | static void | |
1570 | insert_data_mapping_symbol (enum mstate state, | |
1571 | valueT value, fragS * frag, offsetT bytes) | |
1572 | { | |
1573 | /* If there was already a mapping symbol, remove it. */ | |
1574 | if (frag->tc_frag_data.last_map != NULL | |
1575 | && S_GET_VALUE (frag->tc_frag_data.last_map) == | |
1576 | frag->fr_address + value) | |
1577 | { | |
1578 | symbolS *symp = frag->tc_frag_data.last_map; | |
1579 | ||
1580 | if (value == 0) | |
1581 | { | |
1582 | know (frag->tc_frag_data.first_map == symp); | |
1583 | frag->tc_frag_data.first_map = NULL; | |
1584 | } | |
1585 | frag->tc_frag_data.last_map = NULL; | |
1586 | symbol_remove (symp, &symbol_rootP, &symbol_lastP); | |
1587 | } | |
1588 | ||
1589 | make_mapping_symbol (MAP_DATA, value, frag); | |
1590 | make_mapping_symbol (state, value + bytes, frag); | |
1591 | } | |
1592 | ||
1593 | static void mapping_state_2 (enum mstate state, int max_chars); | |
1594 | ||
1595 | /* Set the mapping state to STATE. Only call this when about to | |
1596 | emit some STATE bytes to the file. */ | |
1597 | ||
1598 | void | |
1599 | mapping_state (enum mstate state) | |
1600 | { | |
1601 | enum mstate mapstate = seg_info (now_seg)->tc_segment_info_data.mapstate; | |
1602 | ||
a578ef7e JW |
1603 | if (state == MAP_INSN) |
1604 | /* AArch64 instructions require 4-byte alignment. When emitting | |
1605 | instructions into any section, record the appropriate section | |
1606 | alignment. */ | |
1607 | record_alignment (now_seg, 2); | |
1608 | ||
448eb63d RL |
1609 | if (mapstate == state) |
1610 | /* The mapping symbol has already been emitted. | |
1611 | There is nothing else to do. */ | |
1612 | return; | |
1613 | ||
c1baaddf | 1614 | #define TRANSITION(from, to) (mapstate == (from) && state == (to)) |
a97902de RL |
1615 | if (TRANSITION (MAP_UNDEFINED, MAP_DATA) && !subseg_text_p (now_seg)) |
1616 | /* Emit MAP_DATA within executable section in order. Otherwise, it will be | |
c1baaddf | 1617 | evaluated later in the next else. */ |
a06ea964 | 1618 | return; |
c1baaddf RL |
1619 | else if (TRANSITION (MAP_UNDEFINED, MAP_INSN)) |
1620 | { | |
1621 | /* Only add the symbol if the offset is > 0: | |
1622 | if we're at the first frag, check it's size > 0; | |
1623 | if we're not at the first frag, then for sure | |
1624 | the offset is > 0. */ | |
1625 | struct frag *const frag_first = seg_info (now_seg)->frchainP->frch_root; | |
1626 | const int add_symbol = (frag_now != frag_first) | |
1627 | || (frag_now_fix () > 0); | |
1628 | ||
1629 | if (add_symbol) | |
1630 | make_mapping_symbol (MAP_DATA, (valueT) 0, frag_first); | |
1631 | } | |
1632 | #undef TRANSITION | |
a06ea964 NC |
1633 | |
1634 | mapping_state_2 (state, 0); | |
a06ea964 NC |
1635 | } |
1636 | ||
1637 | /* Same as mapping_state, but MAX_CHARS bytes have already been | |
1638 | allocated. Put the mapping symbol that far back. */ | |
1639 | ||
1640 | static void | |
1641 | mapping_state_2 (enum mstate state, int max_chars) | |
1642 | { | |
1643 | enum mstate mapstate = seg_info (now_seg)->tc_segment_info_data.mapstate; | |
1644 | ||
1645 | if (!SEG_NORMAL (now_seg)) | |
1646 | return; | |
1647 | ||
1648 | if (mapstate == state) | |
1649 | /* The mapping symbol has already been emitted. | |
1650 | There is nothing else to do. */ | |
1651 | return; | |
1652 | ||
1653 | seg_info (now_seg)->tc_segment_info_data.mapstate = state; | |
1654 | make_mapping_symbol (state, (valueT) frag_now_fix () - max_chars, frag_now); | |
1655 | } | |
1656 | #else | |
1657 | #define mapping_state(x) /* nothing */ | |
1658 | #define mapping_state_2(x, y) /* nothing */ | |
1659 | #endif | |
1660 | ||
1661 | /* Directives: sectioning and alignment. */ | |
1662 | ||
1663 | static void | |
1664 | s_bss (int ignore ATTRIBUTE_UNUSED) | |
1665 | { | |
1666 | /* We don't support putting frags in the BSS segment, we fake it by | |
1667 | marking in_bss, then looking at s_skip for clues. */ | |
1668 | subseg_set (bss_section, 0); | |
1669 | demand_empty_rest_of_line (); | |
1670 | mapping_state (MAP_DATA); | |
1671 | } | |
1672 | ||
1673 | static void | |
1674 | s_even (int ignore ATTRIBUTE_UNUSED) | |
1675 | { | |
1676 | /* Never make frag if expect extra pass. */ | |
1677 | if (!need_pass_2) | |
1678 | frag_align (1, 0, 0); | |
1679 | ||
1680 | record_alignment (now_seg, 1); | |
1681 | ||
1682 | demand_empty_rest_of_line (); | |
1683 | } | |
1684 | ||
1685 | /* Directives: Literal pools. */ | |
1686 | ||
1687 | static literal_pool * | |
1688 | find_literal_pool (int size) | |
1689 | { | |
1690 | literal_pool *pool; | |
1691 | ||
1692 | for (pool = list_of_pools; pool != NULL; pool = pool->next) | |
1693 | { | |
1694 | if (pool->section == now_seg | |
1695 | && pool->sub_section == now_subseg && pool->size == size) | |
1696 | break; | |
1697 | } | |
1698 | ||
1699 | return pool; | |
1700 | } | |
1701 | ||
1702 | static literal_pool * | |
1703 | find_or_make_literal_pool (int size) | |
1704 | { | |
1705 | /* Next literal pool ID number. */ | |
1706 | static unsigned int latest_pool_num = 1; | |
1707 | literal_pool *pool; | |
1708 | ||
1709 | pool = find_literal_pool (size); | |
1710 | ||
1711 | if (pool == NULL) | |
1712 | { | |
1713 | /* Create a new pool. */ | |
add39d23 | 1714 | pool = XNEW (literal_pool); |
a06ea964 NC |
1715 | if (!pool) |
1716 | return NULL; | |
1717 | ||
1718 | /* Currently we always put the literal pool in the current text | |
1719 | section. If we were generating "small" model code where we | |
1720 | knew that all code and initialised data was within 1MB then | |
1721 | we could output literals to mergeable, read-only data | |
1722 | sections. */ | |
1723 | ||
1724 | pool->next_free_entry = 0; | |
1725 | pool->section = now_seg; | |
1726 | pool->sub_section = now_subseg; | |
1727 | pool->size = size; | |
1728 | pool->next = list_of_pools; | |
1729 | pool->symbol = NULL; | |
1730 | ||
1731 | /* Add it to the list. */ | |
1732 | list_of_pools = pool; | |
1733 | } | |
1734 | ||
1735 | /* New pools, and emptied pools, will have a NULL symbol. */ | |
1736 | if (pool->symbol == NULL) | |
1737 | { | |
1738 | pool->symbol = symbol_create (FAKE_LABEL_NAME, undefined_section, | |
e01e1cee | 1739 | &zero_address_frag, 0); |
a06ea964 NC |
1740 | pool->id = latest_pool_num++; |
1741 | } | |
1742 | ||
1743 | /* Done. */ | |
1744 | return pool; | |
1745 | } | |
1746 | ||
1747 | /* Add the literal of size SIZE in *EXP to the relevant literal pool. | |
1748 | Return TRUE on success, otherwise return FALSE. */ | |
1749 | static bfd_boolean | |
1750 | add_to_lit_pool (expressionS *exp, int size) | |
1751 | { | |
1752 | literal_pool *pool; | |
1753 | unsigned int entry; | |
1754 | ||
1755 | pool = find_or_make_literal_pool (size); | |
1756 | ||
1757 | /* Check if this literal value is already in the pool. */ | |
1758 | for (entry = 0; entry < pool->next_free_entry; entry++) | |
1759 | { | |
55d9b4c1 NC |
1760 | expressionS * litexp = & pool->literals[entry].exp; |
1761 | ||
1762 | if ((litexp->X_op == exp->X_op) | |
a06ea964 | 1763 | && (exp->X_op == O_constant) |
55d9b4c1 NC |
1764 | && (litexp->X_add_number == exp->X_add_number) |
1765 | && (litexp->X_unsigned == exp->X_unsigned)) | |
a06ea964 NC |
1766 | break; |
1767 | ||
55d9b4c1 | 1768 | if ((litexp->X_op == exp->X_op) |
a06ea964 | 1769 | && (exp->X_op == O_symbol) |
55d9b4c1 NC |
1770 | && (litexp->X_add_number == exp->X_add_number) |
1771 | && (litexp->X_add_symbol == exp->X_add_symbol) | |
1772 | && (litexp->X_op_symbol == exp->X_op_symbol)) | |
a06ea964 NC |
1773 | break; |
1774 | } | |
1775 | ||
1776 | /* Do we need to create a new entry? */ | |
1777 | if (entry == pool->next_free_entry) | |
1778 | { | |
1779 | if (entry >= MAX_LITERAL_POOL_SIZE) | |
1780 | { | |
1781 | set_syntax_error (_("literal pool overflow")); | |
1782 | return FALSE; | |
1783 | } | |
1784 | ||
55d9b4c1 | 1785 | pool->literals[entry].exp = *exp; |
a06ea964 | 1786 | pool->next_free_entry += 1; |
55d9b4c1 NC |
1787 | if (exp->X_op == O_big) |
1788 | { | |
1789 | /* PR 16688: Bignums are held in a single global array. We must | |
1790 | copy and preserve that value now, before it is overwritten. */ | |
add39d23 TS |
1791 | pool->literals[entry].bignum = XNEWVEC (LITTLENUM_TYPE, |
1792 | exp->X_add_number); | |
55d9b4c1 NC |
1793 | memcpy (pool->literals[entry].bignum, generic_bignum, |
1794 | CHARS_PER_LITTLENUM * exp->X_add_number); | |
1795 | } | |
1796 | else | |
1797 | pool->literals[entry].bignum = NULL; | |
a06ea964 NC |
1798 | } |
1799 | ||
1800 | exp->X_op = O_symbol; | |
1801 | exp->X_add_number = ((int) entry) * size; | |
1802 | exp->X_add_symbol = pool->symbol; | |
1803 | ||
1804 | return TRUE; | |
1805 | } | |
1806 | ||
1807 | /* Can't use symbol_new here, so have to create a symbol and then at | |
33eaf5de | 1808 | a later date assign it a value. That's what these functions do. */ |
a06ea964 NC |
1809 | |
1810 | static void | |
1811 | symbol_locate (symbolS * symbolP, | |
1812 | const char *name,/* It is copied, the caller can modify. */ | |
1813 | segT segment, /* Segment identifier (SEG_<something>). */ | |
1814 | valueT valu, /* Symbol value. */ | |
1815 | fragS * frag) /* Associated fragment. */ | |
1816 | { | |
e57e6ddc | 1817 | size_t name_length; |
a06ea964 NC |
1818 | char *preserved_copy_of_name; |
1819 | ||
1820 | name_length = strlen (name) + 1; /* +1 for \0. */ | |
1821 | obstack_grow (¬es, name, name_length); | |
1822 | preserved_copy_of_name = obstack_finish (¬es); | |
1823 | ||
1824 | #ifdef tc_canonicalize_symbol_name | |
1825 | preserved_copy_of_name = | |
1826 | tc_canonicalize_symbol_name (preserved_copy_of_name); | |
1827 | #endif | |
1828 | ||
1829 | S_SET_NAME (symbolP, preserved_copy_of_name); | |
1830 | ||
1831 | S_SET_SEGMENT (symbolP, segment); | |
1832 | S_SET_VALUE (symbolP, valu); | |
1833 | symbol_clear_list_pointers (symbolP); | |
1834 | ||
1835 | symbol_set_frag (symbolP, frag); | |
1836 | ||
1837 | /* Link to end of symbol chain. */ | |
1838 | { | |
1839 | extern int symbol_table_frozen; | |
1840 | ||
1841 | if (symbol_table_frozen) | |
1842 | abort (); | |
1843 | } | |
1844 | ||
1845 | symbol_append (symbolP, symbol_lastP, &symbol_rootP, &symbol_lastP); | |
1846 | ||
1847 | obj_symbol_new_hook (symbolP); | |
1848 | ||
1849 | #ifdef tc_symbol_new_hook | |
1850 | tc_symbol_new_hook (symbolP); | |
1851 | #endif | |
1852 | ||
1853 | #ifdef DEBUG_SYMS | |
1854 | verify_symbol_chain (symbol_rootP, symbol_lastP); | |
1855 | #endif /* DEBUG_SYMS */ | |
1856 | } | |
1857 | ||
1858 | ||
1859 | static void | |
1860 | s_ltorg (int ignored ATTRIBUTE_UNUSED) | |
1861 | { | |
1862 | unsigned int entry; | |
1863 | literal_pool *pool; | |
1864 | char sym_name[20]; | |
1865 | int align; | |
1866 | ||
67a32447 | 1867 | for (align = 2; align <= 4; align++) |
a06ea964 NC |
1868 | { |
1869 | int size = 1 << align; | |
1870 | ||
1871 | pool = find_literal_pool (size); | |
1872 | if (pool == NULL || pool->symbol == NULL || pool->next_free_entry == 0) | |
1873 | continue; | |
1874 | ||
a06ea964 NC |
1875 | /* Align pool as you have word accesses. |
1876 | Only make a frag if we have to. */ | |
1877 | if (!need_pass_2) | |
1878 | frag_align (align, 0, 0); | |
1879 | ||
7ea12e5c NC |
1880 | mapping_state (MAP_DATA); |
1881 | ||
a06ea964 NC |
1882 | record_alignment (now_seg, align); |
1883 | ||
1884 | sprintf (sym_name, "$$lit_\002%x", pool->id); | |
1885 | ||
1886 | symbol_locate (pool->symbol, sym_name, now_seg, | |
1887 | (valueT) frag_now_fix (), frag_now); | |
1888 | symbol_table_insert (pool->symbol); | |
1889 | ||
1890 | for (entry = 0; entry < pool->next_free_entry; entry++) | |
55d9b4c1 NC |
1891 | { |
1892 | expressionS * exp = & pool->literals[entry].exp; | |
1893 | ||
1894 | if (exp->X_op == O_big) | |
1895 | { | |
1896 | /* PR 16688: Restore the global bignum value. */ | |
1897 | gas_assert (pool->literals[entry].bignum != NULL); | |
1898 | memcpy (generic_bignum, pool->literals[entry].bignum, | |
1899 | CHARS_PER_LITTLENUM * exp->X_add_number); | |
1900 | } | |
1901 | ||
1902 | /* First output the expression in the instruction to the pool. */ | |
1903 | emit_expr (exp, size); /* .word|.xword */ | |
1904 | ||
1905 | if (exp->X_op == O_big) | |
1906 | { | |
1907 | free (pool->literals[entry].bignum); | |
1908 | pool->literals[entry].bignum = NULL; | |
1909 | } | |
1910 | } | |
a06ea964 NC |
1911 | |
1912 | /* Mark the pool as empty. */ | |
1913 | pool->next_free_entry = 0; | |
1914 | pool->symbol = NULL; | |
1915 | } | |
1916 | } | |
1917 | ||
1918 | #ifdef OBJ_ELF | |
1919 | /* Forward declarations for functions below, in the MD interface | |
1920 | section. */ | |
1921 | static fixS *fix_new_aarch64 (fragS *, int, short, expressionS *, int, int); | |
1922 | static struct reloc_table_entry * find_reloc_table_entry (char **); | |
1923 | ||
1924 | /* Directives: Data. */ | |
1925 | /* N.B. the support for relocation suffix in this directive needs to be | |
1926 | implemented properly. */ | |
1927 | ||
1928 | static void | |
1929 | s_aarch64_elf_cons (int nbytes) | |
1930 | { | |
1931 | expressionS exp; | |
1932 | ||
1933 | #ifdef md_flush_pending_output | |
1934 | md_flush_pending_output (); | |
1935 | #endif | |
1936 | ||
1937 | if (is_it_end_of_statement ()) | |
1938 | { | |
1939 | demand_empty_rest_of_line (); | |
1940 | return; | |
1941 | } | |
1942 | ||
1943 | #ifdef md_cons_align | |
1944 | md_cons_align (nbytes); | |
1945 | #endif | |
1946 | ||
1947 | mapping_state (MAP_DATA); | |
1948 | do | |
1949 | { | |
1950 | struct reloc_table_entry *reloc; | |
1951 | ||
1952 | expression (&exp); | |
1953 | ||
1954 | if (exp.X_op != O_symbol) | |
1955 | emit_expr (&exp, (unsigned int) nbytes); | |
1956 | else | |
1957 | { | |
1958 | skip_past_char (&input_line_pointer, '#'); | |
1959 | if (skip_past_char (&input_line_pointer, ':')) | |
1960 | { | |
1961 | reloc = find_reloc_table_entry (&input_line_pointer); | |
1962 | if (reloc == NULL) | |
1963 | as_bad (_("unrecognized relocation suffix")); | |
1964 | else | |
1965 | as_bad (_("unimplemented relocation suffix")); | |
1966 | ignore_rest_of_line (); | |
1967 | return; | |
1968 | } | |
1969 | else | |
1970 | emit_expr (&exp, (unsigned int) nbytes); | |
1971 | } | |
1972 | } | |
1973 | while (*input_line_pointer++ == ','); | |
1974 | ||
1975 | /* Put terminator back into stream. */ | |
1976 | input_line_pointer--; | |
1977 | demand_empty_rest_of_line (); | |
1978 | } | |
1979 | ||
f166ae01 SN |
1980 | /* Mark symbol that it follows a variant PCS convention. */ |
1981 | ||
1982 | static void | |
1983 | s_variant_pcs (int ignored ATTRIBUTE_UNUSED) | |
1984 | { | |
1985 | char *name; | |
1986 | char c; | |
1987 | symbolS *sym; | |
1988 | asymbol *bfdsym; | |
1989 | elf_symbol_type *elfsym; | |
1990 | ||
1991 | c = get_symbol_name (&name); | |
1992 | if (!*name) | |
1993 | as_bad (_("Missing symbol name in directive")); | |
1994 | sym = symbol_find_or_make (name); | |
1995 | restore_line_pointer (c); | |
1996 | demand_empty_rest_of_line (); | |
1997 | bfdsym = symbol_get_bfdsym (sym); | |
c1229f84 | 1998 | elfsym = elf_symbol_from (bfdsym); |
f166ae01 SN |
1999 | gas_assert (elfsym); |
2000 | elfsym->internal_elf_sym.st_other |= STO_AARCH64_VARIANT_PCS; | |
2001 | } | |
a06ea964 NC |
2002 | #endif /* OBJ_ELF */ |
2003 | ||
2004 | /* Output a 32-bit word, but mark as an instruction. */ | |
2005 | ||
2006 | static void | |
2007 | s_aarch64_inst (int ignored ATTRIBUTE_UNUSED) | |
2008 | { | |
2009 | expressionS exp; | |
2010 | ||
2011 | #ifdef md_flush_pending_output | |
2012 | md_flush_pending_output (); | |
2013 | #endif | |
2014 | ||
2015 | if (is_it_end_of_statement ()) | |
2016 | { | |
2017 | demand_empty_rest_of_line (); | |
2018 | return; | |
2019 | } | |
2020 | ||
a97902de | 2021 | /* Sections are assumed to start aligned. In executable section, there is no |
c1baaddf RL |
2022 | MAP_DATA symbol pending. So we only align the address during |
2023 | MAP_DATA --> MAP_INSN transition. | |
eb9d6cc9 | 2024 | For other sections, this is not guaranteed. */ |
c1baaddf | 2025 | enum mstate mapstate = seg_info (now_seg)->tc_segment_info_data.mapstate; |
eb9d6cc9 | 2026 | if (!need_pass_2 && subseg_text_p (now_seg) && mapstate == MAP_DATA) |
a06ea964 | 2027 | frag_align_code (2, 0); |
c1baaddf | 2028 | |
a06ea964 NC |
2029 | #ifdef OBJ_ELF |
2030 | mapping_state (MAP_INSN); | |
2031 | #endif | |
2032 | ||
2033 | do | |
2034 | { | |
2035 | expression (&exp); | |
2036 | if (exp.X_op != O_constant) | |
2037 | { | |
2038 | as_bad (_("constant expression required")); | |
2039 | ignore_rest_of_line (); | |
2040 | return; | |
2041 | } | |
2042 | ||
2043 | if (target_big_endian) | |
2044 | { | |
2045 | unsigned int val = exp.X_add_number; | |
2046 | exp.X_add_number = SWAP_32 (val); | |
2047 | } | |
2048 | emit_expr (&exp, 4); | |
2049 | } | |
2050 | while (*input_line_pointer++ == ','); | |
2051 | ||
2052 | /* Put terminator back into stream. */ | |
2053 | input_line_pointer--; | |
2054 | demand_empty_rest_of_line (); | |
2055 | } | |
2056 | ||
3a67e1a6 ST |
2057 | static void |
2058 | s_aarch64_cfi_b_key_frame (int ignored ATTRIBUTE_UNUSED) | |
2059 | { | |
2060 | demand_empty_rest_of_line (); | |
2061 | struct fde_entry *fde = frchain_now->frch_cfi_data->cur_fde_data; | |
2062 | fde->pauth_key = AARCH64_PAUTH_KEY_B; | |
2063 | } | |
2064 | ||
a06ea964 | 2065 | #ifdef OBJ_ELF |
43a357f9 RL |
2066 | /* Emit BFD_RELOC_AARCH64_TLSDESC_ADD on the next ADD instruction. */ |
2067 | ||
2068 | static void | |
2069 | s_tlsdescadd (int ignored ATTRIBUTE_UNUSED) | |
2070 | { | |
2071 | expressionS exp; | |
2072 | ||
2073 | expression (&exp); | |
2074 | frag_grow (4); | |
2075 | fix_new_aarch64 (frag_now, frag_more (0) - frag_now->fr_literal, 4, &exp, 0, | |
2076 | BFD_RELOC_AARCH64_TLSDESC_ADD); | |
2077 | ||
2078 | demand_empty_rest_of_line (); | |
2079 | } | |
2080 | ||
a06ea964 NC |
2081 | /* Emit BFD_RELOC_AARCH64_TLSDESC_CALL on the next BLR instruction. */ |
2082 | ||
2083 | static void | |
2084 | s_tlsdesccall (int ignored ATTRIBUTE_UNUSED) | |
2085 | { | |
2086 | expressionS exp; | |
2087 | ||
2088 | /* Since we're just labelling the code, there's no need to define a | |
2089 | mapping symbol. */ | |
2090 | expression (&exp); | |
2091 | /* Make sure there is enough room in this frag for the following | |
2092 | blr. This trick only works if the blr follows immediately after | |
2093 | the .tlsdesc directive. */ | |
2094 | frag_grow (4); | |
2095 | fix_new_aarch64 (frag_now, frag_more (0) - frag_now->fr_literal, 4, &exp, 0, | |
2096 | BFD_RELOC_AARCH64_TLSDESC_CALL); | |
2097 | ||
2098 | demand_empty_rest_of_line (); | |
2099 | } | |
43a357f9 RL |
2100 | |
2101 | /* Emit BFD_RELOC_AARCH64_TLSDESC_LDR on the next LDR instruction. */ | |
2102 | ||
2103 | static void | |
2104 | s_tlsdescldr (int ignored ATTRIBUTE_UNUSED) | |
2105 | { | |
2106 | expressionS exp; | |
2107 | ||
2108 | expression (&exp); | |
2109 | frag_grow (4); | |
2110 | fix_new_aarch64 (frag_now, frag_more (0) - frag_now->fr_literal, 4, &exp, 0, | |
2111 | BFD_RELOC_AARCH64_TLSDESC_LDR); | |
2112 | ||
2113 | demand_empty_rest_of_line (); | |
2114 | } | |
a06ea964 NC |
2115 | #endif /* OBJ_ELF */ |
2116 | ||
2117 | static void s_aarch64_arch (int); | |
2118 | static void s_aarch64_cpu (int); | |
ae527cd8 | 2119 | static void s_aarch64_arch_extension (int); |
a06ea964 NC |
2120 | |
2121 | /* This table describes all the machine specific pseudo-ops the assembler | |
2122 | has to support. The fields are: | |
2123 | pseudo-op name without dot | |
2124 | function to call to execute this pseudo-op | |
2125 | Integer arg to pass to the function. */ | |
2126 | ||
2127 | const pseudo_typeS md_pseudo_table[] = { | |
2128 | /* Never called because '.req' does not start a line. */ | |
2129 | {"req", s_req, 0}, | |
2130 | {"unreq", s_unreq, 0}, | |
2131 | {"bss", s_bss, 0}, | |
2132 | {"even", s_even, 0}, | |
2133 | {"ltorg", s_ltorg, 0}, | |
2134 | {"pool", s_ltorg, 0}, | |
2135 | {"cpu", s_aarch64_cpu, 0}, | |
2136 | {"arch", s_aarch64_arch, 0}, | |
ae527cd8 | 2137 | {"arch_extension", s_aarch64_arch_extension, 0}, |
a06ea964 | 2138 | {"inst", s_aarch64_inst, 0}, |
3a67e1a6 | 2139 | {"cfi_b_key_frame", s_aarch64_cfi_b_key_frame, 0}, |
a06ea964 | 2140 | #ifdef OBJ_ELF |
43a357f9 | 2141 | {"tlsdescadd", s_tlsdescadd, 0}, |
a06ea964 | 2142 | {"tlsdesccall", s_tlsdesccall, 0}, |
43a357f9 | 2143 | {"tlsdescldr", s_tlsdescldr, 0}, |
a06ea964 NC |
2144 | {"word", s_aarch64_elf_cons, 4}, |
2145 | {"long", s_aarch64_elf_cons, 4}, | |
2146 | {"xword", s_aarch64_elf_cons, 8}, | |
2147 | {"dword", s_aarch64_elf_cons, 8}, | |
f166ae01 | 2148 | {"variant_pcs", s_variant_pcs, 0}, |
a06ea964 | 2149 | #endif |
b20d3859 | 2150 | {"float16", float_cons, 'h'}, |
eb5bbc48 | 2151 | {"bfloat16", float_cons, 'b'}, |
a06ea964 NC |
2152 | {0, 0, 0} |
2153 | }; | |
2154 | \f | |
2155 | ||
2156 | /* Check whether STR points to a register name followed by a comma or the | |
2157 | end of line; REG_TYPE indicates which register types are checked | |
2158 | against. Return TRUE if STR is such a register name; otherwise return | |
2159 | FALSE. The function does not intend to produce any diagnostics, but since | |
2160 | the register parser aarch64_reg_parse, which is called by this function, | |
2161 | does produce diagnostics, we call clear_error to clear any diagnostics | |
2162 | that may be generated by aarch64_reg_parse. | |
2163 | Also, the function returns FALSE directly if there is any user error | |
2164 | present at the function entry. This prevents the existing diagnostics | |
2165 | state from being spoiled. | |
2166 | The function currently serves parse_constant_immediate and | |
2167 | parse_big_immediate only. */ | |
2168 | static bfd_boolean | |
2169 | reg_name_p (char *str, aarch64_reg_type reg_type) | |
2170 | { | |
2171 | int reg; | |
2172 | ||
2173 | /* Prevent the diagnostics state from being spoiled. */ | |
2174 | if (error_p ()) | |
2175 | return FALSE; | |
2176 | ||
2177 | reg = aarch64_reg_parse (&str, reg_type, NULL, NULL); | |
2178 | ||
2179 | /* Clear the parsing error that may be set by the reg parser. */ | |
2180 | clear_error (); | |
2181 | ||
2182 | if (reg == PARSE_FAIL) | |
2183 | return FALSE; | |
2184 | ||
2185 | skip_whitespace (str); | |
f405494f | 2186 | if (*str == ',' || is_end_of_line[(unsigned char) *str]) |
a06ea964 NC |
2187 | return TRUE; |
2188 | ||
2189 | return FALSE; | |
2190 | } | |
2191 | ||
2192 | /* Parser functions used exclusively in instruction operands. */ | |
2193 | ||
2194 | /* Parse an immediate expression which may not be constant. | |
2195 | ||
2196 | To prevent the expression parser from pushing a register name | |
2197 | into the symbol table as an undefined symbol, firstly a check is | |
1799c0d0 RS |
2198 | done to find out whether STR is a register of type REG_TYPE followed |
2199 | by a comma or the end of line. Return FALSE if STR is such a string. */ | |
a06ea964 NC |
2200 | |
2201 | static bfd_boolean | |
1799c0d0 RS |
2202 | parse_immediate_expression (char **str, expressionS *exp, |
2203 | aarch64_reg_type reg_type) | |
a06ea964 | 2204 | { |
1799c0d0 | 2205 | if (reg_name_p (*str, reg_type)) |
a06ea964 NC |
2206 | { |
2207 | set_recoverable_error (_("immediate operand required")); | |
2208 | return FALSE; | |
2209 | } | |
2210 | ||
2211 | my_get_expression (exp, str, GE_OPT_PREFIX, 1); | |
2212 | ||
2213 | if (exp->X_op == O_absent) | |
2214 | { | |
2215 | set_fatal_syntax_error (_("missing immediate expression")); | |
2216 | return FALSE; | |
2217 | } | |
2218 | ||
2219 | return TRUE; | |
2220 | } | |
2221 | ||
2222 | /* Constant immediate-value read function for use in insn parsing. | |
2223 | STR points to the beginning of the immediate (with the optional | |
1799c0d0 RS |
2224 | leading #); *VAL receives the value. REG_TYPE says which register |
2225 | names should be treated as registers rather than as symbolic immediates. | |
a06ea964 NC |
2226 | |
2227 | Return TRUE on success; otherwise return FALSE. */ | |
2228 | ||
2229 | static bfd_boolean | |
1799c0d0 | 2230 | parse_constant_immediate (char **str, int64_t *val, aarch64_reg_type reg_type) |
a06ea964 NC |
2231 | { |
2232 | expressionS exp; | |
2233 | ||
1799c0d0 | 2234 | if (! parse_immediate_expression (str, &exp, reg_type)) |
a06ea964 NC |
2235 | return FALSE; |
2236 | ||
2237 | if (exp.X_op != O_constant) | |
2238 | { | |
2239 | set_syntax_error (_("constant expression required")); | |
2240 | return FALSE; | |
2241 | } | |
2242 | ||
2243 | *val = exp.X_add_number; | |
2244 | return TRUE; | |
2245 | } | |
2246 | ||
2247 | static uint32_t | |
2248 | encode_imm_float_bits (uint32_t imm) | |
2249 | { | |
2250 | return ((imm >> 19) & 0x7f) /* b[25:19] -> b[6:0] */ | |
2251 | | ((imm >> (31 - 7)) & 0x80); /* b[31] -> b[7] */ | |
2252 | } | |
2253 | ||
62b0d0d5 YZ |
2254 | /* Return TRUE if the single-precision floating-point value encoded in IMM |
2255 | can be expressed in the AArch64 8-bit signed floating-point format with | |
2256 | 3-bit exponent and normalized 4 bits of precision; in other words, the | |
2257 | floating-point value must be expressable as | |
2258 | (+/-) n / 16 * power (2, r) | |
2259 | where n and r are integers such that 16 <= n <=31 and -3 <= r <= 4. */ | |
2260 | ||
a06ea964 NC |
2261 | static bfd_boolean |
2262 | aarch64_imm_float_p (uint32_t imm) | |
2263 | { | |
62b0d0d5 YZ |
2264 | /* If a single-precision floating-point value has the following bit |
2265 | pattern, it can be expressed in the AArch64 8-bit floating-point | |
2266 | format: | |
2267 | ||
2268 | 3 32222222 2221111111111 | |
a06ea964 | 2269 | 1 09876543 21098765432109876543210 |
62b0d0d5 YZ |
2270 | n Eeeeeexx xxxx0000000000000000000 |
2271 | ||
2272 | where n, e and each x are either 0 or 1 independently, with | |
2273 | E == ~ e. */ | |
a06ea964 | 2274 | |
62b0d0d5 YZ |
2275 | uint32_t pattern; |
2276 | ||
2277 | /* Prepare the pattern for 'Eeeeee'. */ | |
2278 | if (((imm >> 30) & 0x1) == 0) | |
2279 | pattern = 0x3e000000; | |
a06ea964 | 2280 | else |
62b0d0d5 YZ |
2281 | pattern = 0x40000000; |
2282 | ||
2283 | return (imm & 0x7ffff) == 0 /* lower 19 bits are 0. */ | |
2284 | && ((imm & 0x7e000000) == pattern); /* bits 25 - 29 == ~ bit 30. */ | |
a06ea964 NC |
2285 | } |
2286 | ||
04a3379a RS |
2287 | /* Return TRUE if the IEEE double value encoded in IMM can be expressed |
2288 | as an IEEE float without any loss of precision. Store the value in | |
2289 | *FPWORD if so. */ | |
62b0d0d5 | 2290 | |
a06ea964 | 2291 | static bfd_boolean |
04a3379a | 2292 | can_convert_double_to_float (uint64_t imm, uint32_t *fpword) |
62b0d0d5 YZ |
2293 | { |
2294 | /* If a double-precision floating-point value has the following bit | |
04a3379a | 2295 | pattern, it can be expressed in a float: |
62b0d0d5 | 2296 | |
04a3379a RS |
2297 | 6 66655555555 5544 44444444 33333333 33222222 22221111 111111 |
2298 | 3 21098765432 1098 76543210 98765432 10987654 32109876 54321098 76543210 | |
2299 | n E~~~eeeeeee ssss ssssssss ssssssss SSS00000 00000000 00000000 00000000 | |
62b0d0d5 | 2300 | |
04a3379a RS |
2301 | -----------------------------> nEeeeeee esssssss ssssssss sssssSSS |
2302 | if Eeee_eeee != 1111_1111 | |
2303 | ||
2304 | where n, e, s and S are either 0 or 1 independently and where ~ is the | |
2305 | inverse of E. */ | |
62b0d0d5 YZ |
2306 | |
2307 | uint32_t pattern; | |
2308 | uint32_t high32 = imm >> 32; | |
04a3379a | 2309 | uint32_t low32 = imm; |
62b0d0d5 | 2310 | |
04a3379a RS |
2311 | /* Lower 29 bits need to be 0s. */ |
2312 | if ((imm & 0x1fffffff) != 0) | |
62b0d0d5 YZ |
2313 | return FALSE; |
2314 | ||
2315 | /* Prepare the pattern for 'Eeeeeeeee'. */ | |
2316 | if (((high32 >> 30) & 0x1) == 0) | |
04a3379a | 2317 | pattern = 0x38000000; |
62b0d0d5 YZ |
2318 | else |
2319 | pattern = 0x40000000; | |
2320 | ||
04a3379a RS |
2321 | /* Check E~~~. */ |
2322 | if ((high32 & 0x78000000) != pattern) | |
62b0d0d5 | 2323 | return FALSE; |
04a3379a RS |
2324 | |
2325 | /* Check Eeee_eeee != 1111_1111. */ | |
2326 | if ((high32 & 0x7ff00000) == 0x47f00000) | |
2327 | return FALSE; | |
2328 | ||
2329 | *fpword = ((high32 & 0xc0000000) /* 1 n bit and 1 E bit. */ | |
2330 | | ((high32 << 3) & 0x3ffffff8) /* 7 e and 20 s bits. */ | |
2331 | | (low32 >> 29)); /* 3 S bits. */ | |
2332 | return TRUE; | |
62b0d0d5 YZ |
2333 | } |
2334 | ||
165d4950 RS |
2335 | /* Return true if we should treat OPERAND as a double-precision |
2336 | floating-point operand rather than a single-precision one. */ | |
2337 | static bfd_boolean | |
2338 | double_precision_operand_p (const aarch64_opnd_info *operand) | |
2339 | { | |
2340 | /* Check for unsuffixed SVE registers, which are allowed | |
2341 | for LDR and STR but not in instructions that require an | |
2342 | immediate. We get better error messages if we arbitrarily | |
2343 | pick one size, parse the immediate normally, and then | |
2344 | report the match failure in the normal way. */ | |
2345 | return (operand->qualifier == AARCH64_OPND_QLF_NIL | |
2346 | || aarch64_get_qualifier_esize (operand->qualifier) == 8); | |
2347 | } | |
2348 | ||
62b0d0d5 YZ |
2349 | /* Parse a floating-point immediate. Return TRUE on success and return the |
2350 | value in *IMMED in the format of IEEE754 single-precision encoding. | |
2351 | *CCP points to the start of the string; DP_P is TRUE when the immediate | |
2352 | is expected to be in double-precision (N.B. this only matters when | |
1799c0d0 RS |
2353 | hexadecimal representation is involved). REG_TYPE says which register |
2354 | names should be treated as registers rather than as symbolic immediates. | |
62b0d0d5 | 2355 | |
874d7e6e RS |
2356 | This routine accepts any IEEE float; it is up to the callers to reject |
2357 | invalid ones. */ | |
62b0d0d5 YZ |
2358 | |
2359 | static bfd_boolean | |
1799c0d0 RS |
2360 | parse_aarch64_imm_float (char **ccp, int *immed, bfd_boolean dp_p, |
2361 | aarch64_reg_type reg_type) | |
a06ea964 NC |
2362 | { |
2363 | char *str = *ccp; | |
2364 | char *fpnum; | |
2365 | LITTLENUM_TYPE words[MAX_LITTLENUMS]; | |
62b0d0d5 YZ |
2366 | int64_t val = 0; |
2367 | unsigned fpword = 0; | |
2368 | bfd_boolean hex_p = FALSE; | |
a06ea964 NC |
2369 | |
2370 | skip_past_char (&str, '#'); | |
2371 | ||
a06ea964 NC |
2372 | fpnum = str; |
2373 | skip_whitespace (fpnum); | |
2374 | ||
2375 | if (strncmp (fpnum, "0x", 2) == 0) | |
62b0d0d5 YZ |
2376 | { |
2377 | /* Support the hexadecimal representation of the IEEE754 encoding. | |
2378 | Double-precision is expected when DP_P is TRUE, otherwise the | |
2379 | representation should be in single-precision. */ | |
1799c0d0 | 2380 | if (! parse_constant_immediate (&str, &val, reg_type)) |
62b0d0d5 YZ |
2381 | goto invalid_fp; |
2382 | ||
2383 | if (dp_p) | |
2384 | { | |
04a3379a | 2385 | if (!can_convert_double_to_float (val, &fpword)) |
62b0d0d5 YZ |
2386 | goto invalid_fp; |
2387 | } | |
2388 | else if ((uint64_t) val > 0xffffffff) | |
2389 | goto invalid_fp; | |
2390 | else | |
2391 | fpword = val; | |
2392 | ||
2393 | hex_p = TRUE; | |
2394 | } | |
66881839 TC |
2395 | else if (reg_name_p (str, reg_type)) |
2396 | { | |
2397 | set_recoverable_error (_("immediate operand required")); | |
2398 | return FALSE; | |
a06ea964 NC |
2399 | } |
2400 | ||
62b0d0d5 | 2401 | if (! hex_p) |
a06ea964 | 2402 | { |
a06ea964 NC |
2403 | int i; |
2404 | ||
62b0d0d5 YZ |
2405 | if ((str = atof_ieee (str, 's', words)) == NULL) |
2406 | goto invalid_fp; | |
2407 | ||
a06ea964 NC |
2408 | /* Our FP word must be 32 bits (single-precision FP). */ |
2409 | for (i = 0; i < 32 / LITTLENUM_NUMBER_OF_BITS; i++) | |
2410 | { | |
2411 | fpword <<= LITTLENUM_NUMBER_OF_BITS; | |
2412 | fpword |= words[i]; | |
2413 | } | |
62b0d0d5 | 2414 | } |
a06ea964 | 2415 | |
874d7e6e RS |
2416 | *immed = fpword; |
2417 | *ccp = str; | |
2418 | return TRUE; | |
a06ea964 | 2419 | |
dc1e8a47 | 2420 | invalid_fp: |
a06ea964 NC |
2421 | set_fatal_syntax_error (_("invalid floating-point constant")); |
2422 | return FALSE; | |
2423 | } | |
2424 | ||
2425 | /* Less-generic immediate-value read function with the possibility of loading | |
2426 | a big (64-bit) immediate, as required by AdvSIMD Modified immediate | |
2427 | instructions. | |
2428 | ||
2429 | To prevent the expression parser from pushing a register name into the | |
2430 | symbol table as an undefined symbol, a check is firstly done to find | |
1799c0d0 RS |
2431 | out whether STR is a register of type REG_TYPE followed by a comma or |
2432 | the end of line. Return FALSE if STR is such a register. */ | |
a06ea964 NC |
2433 | |
2434 | static bfd_boolean | |
1799c0d0 | 2435 | parse_big_immediate (char **str, int64_t *imm, aarch64_reg_type reg_type) |
a06ea964 NC |
2436 | { |
2437 | char *ptr = *str; | |
2438 | ||
1799c0d0 | 2439 | if (reg_name_p (ptr, reg_type)) |
a06ea964 NC |
2440 | { |
2441 | set_syntax_error (_("immediate operand required")); | |
2442 | return FALSE; | |
2443 | } | |
2444 | ||
2445 | my_get_expression (&inst.reloc.exp, &ptr, GE_OPT_PREFIX, 1); | |
2446 | ||
2447 | if (inst.reloc.exp.X_op == O_constant) | |
2448 | *imm = inst.reloc.exp.X_add_number; | |
2449 | ||
2450 | *str = ptr; | |
2451 | ||
2452 | return TRUE; | |
2453 | } | |
2454 | ||
2455 | /* Set operand IDX of the *INSTR that needs a GAS internal fixup. | |
2456 | if NEED_LIBOPCODES is non-zero, the fixup will need | |
2457 | assistance from the libopcodes. */ | |
2458 | ||
2459 | static inline void | |
2460 | aarch64_set_gas_internal_fixup (struct reloc *reloc, | |
2461 | const aarch64_opnd_info *operand, | |
2462 | int need_libopcodes_p) | |
2463 | { | |
2464 | reloc->type = BFD_RELOC_AARCH64_GAS_INTERNAL_FIXUP; | |
2465 | reloc->opnd = operand->type; | |
2466 | if (need_libopcodes_p) | |
2467 | reloc->need_libopcodes_p = 1; | |
2468 | }; | |
2469 | ||
2470 | /* Return TRUE if the instruction needs to be fixed up later internally by | |
2471 | the GAS; otherwise return FALSE. */ | |
2472 | ||
2473 | static inline bfd_boolean | |
2474 | aarch64_gas_internal_fixup_p (void) | |
2475 | { | |
2476 | return inst.reloc.type == BFD_RELOC_AARCH64_GAS_INTERNAL_FIXUP; | |
2477 | } | |
2478 | ||
33eaf5de | 2479 | /* Assign the immediate value to the relevant field in *OPERAND if |
a06ea964 NC |
2480 | RELOC->EXP is a constant expression; otherwise, flag that *OPERAND |
2481 | needs an internal fixup in a later stage. | |
2482 | ADDR_OFF_P determines whether it is the field ADDR.OFFSET.IMM or | |
2483 | IMM.VALUE that may get assigned with the constant. */ | |
2484 | static inline void | |
2485 | assign_imm_if_const_or_fixup_later (struct reloc *reloc, | |
2486 | aarch64_opnd_info *operand, | |
2487 | int addr_off_p, | |
2488 | int need_libopcodes_p, | |
2489 | int skip_p) | |
2490 | { | |
2491 | if (reloc->exp.X_op == O_constant) | |
2492 | { | |
2493 | if (addr_off_p) | |
2494 | operand->addr.offset.imm = reloc->exp.X_add_number; | |
2495 | else | |
2496 | operand->imm.value = reloc->exp.X_add_number; | |
2497 | reloc->type = BFD_RELOC_UNUSED; | |
2498 | } | |
2499 | else | |
2500 | { | |
2501 | aarch64_set_gas_internal_fixup (reloc, operand, need_libopcodes_p); | |
2502 | /* Tell libopcodes to ignore this operand or not. This is helpful | |
2503 | when one of the operands needs to be fixed up later but we need | |
2504 | libopcodes to check the other operands. */ | |
2505 | operand->skip = skip_p; | |
2506 | } | |
2507 | } | |
2508 | ||
2509 | /* Relocation modifiers. Each entry in the table contains the textual | |
2510 | name for the relocation which may be placed before a symbol used as | |
2511 | a load/store offset, or add immediate. It must be surrounded by a | |
2512 | leading and trailing colon, for example: | |
2513 | ||
2514 | ldr x0, [x1, #:rello:varsym] | |
2515 | add x0, x1, #:rello:varsym */ | |
2516 | ||
2517 | struct reloc_table_entry | |
2518 | { | |
2519 | const char *name; | |
2520 | int pc_rel; | |
6f4a313b | 2521 | bfd_reloc_code_real_type adr_type; |
a06ea964 NC |
2522 | bfd_reloc_code_real_type adrp_type; |
2523 | bfd_reloc_code_real_type movw_type; | |
2524 | bfd_reloc_code_real_type add_type; | |
2525 | bfd_reloc_code_real_type ldst_type; | |
74ad790c | 2526 | bfd_reloc_code_real_type ld_literal_type; |
a06ea964 NC |
2527 | }; |
2528 | ||
2529 | static struct reloc_table_entry reloc_table[] = { | |
2530 | /* Low 12 bits of absolute address: ADD/i and LDR/STR */ | |
2531 | {"lo12", 0, | |
6f4a313b | 2532 | 0, /* adr_type */ |
a06ea964 NC |
2533 | 0, |
2534 | 0, | |
2535 | BFD_RELOC_AARCH64_ADD_LO12, | |
74ad790c MS |
2536 | BFD_RELOC_AARCH64_LDST_LO12, |
2537 | 0}, | |
a06ea964 NC |
2538 | |
2539 | /* Higher 21 bits of pc-relative page offset: ADRP */ | |
2540 | {"pg_hi21", 1, | |
6f4a313b | 2541 | 0, /* adr_type */ |
a06ea964 NC |
2542 | BFD_RELOC_AARCH64_ADR_HI21_PCREL, |
2543 | 0, | |
2544 | 0, | |
74ad790c | 2545 | 0, |
a06ea964 NC |
2546 | 0}, |
2547 | ||
2548 | /* Higher 21 bits of pc-relative page offset: ADRP, no check */ | |
2549 | {"pg_hi21_nc", 1, | |
6f4a313b | 2550 | 0, /* adr_type */ |
a06ea964 NC |
2551 | BFD_RELOC_AARCH64_ADR_HI21_NC_PCREL, |
2552 | 0, | |
2553 | 0, | |
74ad790c | 2554 | 0, |
a06ea964 NC |
2555 | 0}, |
2556 | ||
2557 | /* Most significant bits 0-15 of unsigned address/value: MOVZ */ | |
2558 | {"abs_g0", 0, | |
6f4a313b | 2559 | 0, /* adr_type */ |
a06ea964 NC |
2560 | 0, |
2561 | BFD_RELOC_AARCH64_MOVW_G0, | |
2562 | 0, | |
74ad790c | 2563 | 0, |
a06ea964 NC |
2564 | 0}, |
2565 | ||
2566 | /* Most significant bits 0-15 of signed address/value: MOVN/Z */ | |
2567 | {"abs_g0_s", 0, | |
6f4a313b | 2568 | 0, /* adr_type */ |
a06ea964 NC |
2569 | 0, |
2570 | BFD_RELOC_AARCH64_MOVW_G0_S, | |
2571 | 0, | |
74ad790c | 2572 | 0, |
a06ea964 NC |
2573 | 0}, |
2574 | ||
2575 | /* Less significant bits 0-15 of address/value: MOVK, no check */ | |
2576 | {"abs_g0_nc", 0, | |
6f4a313b | 2577 | 0, /* adr_type */ |
a06ea964 NC |
2578 | 0, |
2579 | BFD_RELOC_AARCH64_MOVW_G0_NC, | |
2580 | 0, | |
74ad790c | 2581 | 0, |
a06ea964 NC |
2582 | 0}, |
2583 | ||
2584 | /* Most significant bits 16-31 of unsigned address/value: MOVZ */ | |
2585 | {"abs_g1", 0, | |
6f4a313b | 2586 | 0, /* adr_type */ |
a06ea964 NC |
2587 | 0, |
2588 | BFD_RELOC_AARCH64_MOVW_G1, | |
2589 | 0, | |
74ad790c | 2590 | 0, |
a06ea964 NC |
2591 | 0}, |
2592 | ||
2593 | /* Most significant bits 16-31 of signed address/value: MOVN/Z */ | |
2594 | {"abs_g1_s", 0, | |
6f4a313b | 2595 | 0, /* adr_type */ |
a06ea964 NC |
2596 | 0, |
2597 | BFD_RELOC_AARCH64_MOVW_G1_S, | |
2598 | 0, | |
74ad790c | 2599 | 0, |
a06ea964 NC |
2600 | 0}, |
2601 | ||
2602 | /* Less significant bits 16-31 of address/value: MOVK, no check */ | |
2603 | {"abs_g1_nc", 0, | |
6f4a313b | 2604 | 0, /* adr_type */ |
a06ea964 NC |
2605 | 0, |
2606 | BFD_RELOC_AARCH64_MOVW_G1_NC, | |
2607 | 0, | |
74ad790c | 2608 | 0, |
a06ea964 NC |
2609 | 0}, |
2610 | ||
2611 | /* Most significant bits 32-47 of unsigned address/value: MOVZ */ | |
2612 | {"abs_g2", 0, | |
6f4a313b | 2613 | 0, /* adr_type */ |
a06ea964 NC |
2614 | 0, |
2615 | BFD_RELOC_AARCH64_MOVW_G2, | |
2616 | 0, | |
74ad790c | 2617 | 0, |
a06ea964 NC |
2618 | 0}, |
2619 | ||
2620 | /* Most significant bits 32-47 of signed address/value: MOVN/Z */ | |
2621 | {"abs_g2_s", 0, | |
6f4a313b | 2622 | 0, /* adr_type */ |
a06ea964 NC |
2623 | 0, |
2624 | BFD_RELOC_AARCH64_MOVW_G2_S, | |
2625 | 0, | |
74ad790c | 2626 | 0, |
a06ea964 NC |
2627 | 0}, |
2628 | ||
2629 | /* Less significant bits 32-47 of address/value: MOVK, no check */ | |
2630 | {"abs_g2_nc", 0, | |
6f4a313b | 2631 | 0, /* adr_type */ |
a06ea964 NC |
2632 | 0, |
2633 | BFD_RELOC_AARCH64_MOVW_G2_NC, | |
2634 | 0, | |
74ad790c | 2635 | 0, |
a06ea964 NC |
2636 | 0}, |
2637 | ||
2638 | /* Most significant bits 48-63 of signed/unsigned address/value: MOVZ */ | |
2639 | {"abs_g3", 0, | |
6f4a313b | 2640 | 0, /* adr_type */ |
a06ea964 NC |
2641 | 0, |
2642 | BFD_RELOC_AARCH64_MOVW_G3, | |
2643 | 0, | |
74ad790c | 2644 | 0, |
a06ea964 | 2645 | 0}, |
4aa2c5e2 | 2646 | |
32247401 RL |
2647 | /* Most significant bits 0-15 of signed/unsigned address/value: MOVZ */ |
2648 | {"prel_g0", 1, | |
2649 | 0, /* adr_type */ | |
2650 | 0, | |
2651 | BFD_RELOC_AARCH64_MOVW_PREL_G0, | |
2652 | 0, | |
2653 | 0, | |
2654 | 0}, | |
2655 | ||
2656 | /* Most significant bits 0-15 of signed/unsigned address/value: MOVK */ | |
2657 | {"prel_g0_nc", 1, | |
2658 | 0, /* adr_type */ | |
2659 | 0, | |
2660 | BFD_RELOC_AARCH64_MOVW_PREL_G0_NC, | |
2661 | 0, | |
2662 | 0, | |
2663 | 0}, | |
2664 | ||
2665 | /* Most significant bits 16-31 of signed/unsigned address/value: MOVZ */ | |
2666 | {"prel_g1", 1, | |
2667 | 0, /* adr_type */ | |
2668 | 0, | |
2669 | BFD_RELOC_AARCH64_MOVW_PREL_G1, | |
2670 | 0, | |
2671 | 0, | |
2672 | 0}, | |
2673 | ||
2674 | /* Most significant bits 16-31 of signed/unsigned address/value: MOVK */ | |
2675 | {"prel_g1_nc", 1, | |
2676 | 0, /* adr_type */ | |
2677 | 0, | |
2678 | BFD_RELOC_AARCH64_MOVW_PREL_G1_NC, | |
2679 | 0, | |
2680 | 0, | |
2681 | 0}, | |
2682 | ||
2683 | /* Most significant bits 32-47 of signed/unsigned address/value: MOVZ */ | |
2684 | {"prel_g2", 1, | |
2685 | 0, /* adr_type */ | |
2686 | 0, | |
2687 | BFD_RELOC_AARCH64_MOVW_PREL_G2, | |
2688 | 0, | |
2689 | 0, | |
2690 | 0}, | |
2691 | ||
2692 | /* Most significant bits 32-47 of signed/unsigned address/value: MOVK */ | |
2693 | {"prel_g2_nc", 1, | |
2694 | 0, /* adr_type */ | |
2695 | 0, | |
2696 | BFD_RELOC_AARCH64_MOVW_PREL_G2_NC, | |
2697 | 0, | |
2698 | 0, | |
2699 | 0}, | |
2700 | ||
2701 | /* Most significant bits 48-63 of signed/unsigned address/value: MOVZ */ | |
2702 | {"prel_g3", 1, | |
2703 | 0, /* adr_type */ | |
2704 | 0, | |
2705 | BFD_RELOC_AARCH64_MOVW_PREL_G3, | |
2706 | 0, | |
2707 | 0, | |
2708 | 0}, | |
2709 | ||
a06ea964 NC |
2710 | /* Get to the page containing GOT entry for a symbol. */ |
2711 | {"got", 1, | |
6f4a313b | 2712 | 0, /* adr_type */ |
a06ea964 NC |
2713 | BFD_RELOC_AARCH64_ADR_GOT_PAGE, |
2714 | 0, | |
2715 | 0, | |
74ad790c | 2716 | 0, |
4aa2c5e2 MS |
2717 | BFD_RELOC_AARCH64_GOT_LD_PREL19}, |
2718 | ||
a06ea964 NC |
2719 | /* 12 bit offset into the page containing GOT entry for that symbol. */ |
2720 | {"got_lo12", 0, | |
6f4a313b | 2721 | 0, /* adr_type */ |
a06ea964 NC |
2722 | 0, |
2723 | 0, | |
2724 | 0, | |
74ad790c MS |
2725 | BFD_RELOC_AARCH64_LD_GOT_LO12_NC, |
2726 | 0}, | |
a06ea964 | 2727 | |
ca632371 RL |
2728 | /* 0-15 bits of address/value: MOVk, no check. */ |
2729 | {"gotoff_g0_nc", 0, | |
2730 | 0, /* adr_type */ | |
2731 | 0, | |
2732 | BFD_RELOC_AARCH64_MOVW_GOTOFF_G0_NC, | |
2733 | 0, | |
2734 | 0, | |
2735 | 0}, | |
2736 | ||
654248e7 RL |
2737 | /* Most significant bits 16-31 of address/value: MOVZ. */ |
2738 | {"gotoff_g1", 0, | |
2739 | 0, /* adr_type */ | |
2740 | 0, | |
2741 | BFD_RELOC_AARCH64_MOVW_GOTOFF_G1, | |
2742 | 0, | |
2743 | 0, | |
2744 | 0}, | |
2745 | ||
87f5fbcc RL |
2746 | /* 15 bit offset into the page containing GOT entry for that symbol. */ |
2747 | {"gotoff_lo15", 0, | |
2748 | 0, /* adr_type */ | |
2749 | 0, | |
2750 | 0, | |
2751 | 0, | |
2752 | BFD_RELOC_AARCH64_LD64_GOTOFF_LO15, | |
2753 | 0}, | |
2754 | ||
3b957e5b RL |
2755 | /* Get to the page containing GOT TLS entry for a symbol */ |
2756 | {"gottprel_g0_nc", 0, | |
2757 | 0, /* adr_type */ | |
2758 | 0, | |
2759 | BFD_RELOC_AARCH64_TLSIE_MOVW_GOTTPREL_G0_NC, | |
2760 | 0, | |
2761 | 0, | |
2762 | 0}, | |
2763 | ||
2764 | /* Get to the page containing GOT TLS entry for a symbol */ | |
2765 | {"gottprel_g1", 0, | |
2766 | 0, /* adr_type */ | |
2767 | 0, | |
2768 | BFD_RELOC_AARCH64_TLSIE_MOVW_GOTTPREL_G1, | |
2769 | 0, | |
2770 | 0, | |
2771 | 0}, | |
2772 | ||
a06ea964 NC |
2773 | /* Get to the page containing GOT TLS entry for a symbol */ |
2774 | {"tlsgd", 0, | |
3c12b054 | 2775 | BFD_RELOC_AARCH64_TLSGD_ADR_PREL21, /* adr_type */ |
a06ea964 NC |
2776 | BFD_RELOC_AARCH64_TLSGD_ADR_PAGE21, |
2777 | 0, | |
2778 | 0, | |
74ad790c | 2779 | 0, |
a06ea964 NC |
2780 | 0}, |
2781 | ||
2782 | /* 12 bit offset into the page containing GOT TLS entry for a symbol */ | |
2783 | {"tlsgd_lo12", 0, | |
6f4a313b | 2784 | 0, /* adr_type */ |
a06ea964 NC |
2785 | 0, |
2786 | 0, | |
2787 | BFD_RELOC_AARCH64_TLSGD_ADD_LO12_NC, | |
74ad790c | 2788 | 0, |
a06ea964 NC |
2789 | 0}, |
2790 | ||
3e8286c0 RL |
2791 | /* Lower 16 bits address/value: MOVk. */ |
2792 | {"tlsgd_g0_nc", 0, | |
2793 | 0, /* adr_type */ | |
2794 | 0, | |
2795 | BFD_RELOC_AARCH64_TLSGD_MOVW_G0_NC, | |
2796 | 0, | |
2797 | 0, | |
2798 | 0}, | |
2799 | ||
1aa66fb1 RL |
2800 | /* Most significant bits 16-31 of address/value: MOVZ. */ |
2801 | {"tlsgd_g1", 0, | |
2802 | 0, /* adr_type */ | |
2803 | 0, | |
2804 | BFD_RELOC_AARCH64_TLSGD_MOVW_G1, | |
2805 | 0, | |
2806 | 0, | |
2807 | 0}, | |
2808 | ||
a06ea964 NC |
2809 | /* Get to the page containing GOT TLS entry for a symbol */ |
2810 | {"tlsdesc", 0, | |
389b8029 | 2811 | BFD_RELOC_AARCH64_TLSDESC_ADR_PREL21, /* adr_type */ |
418009c2 | 2812 | BFD_RELOC_AARCH64_TLSDESC_ADR_PAGE21, |
a06ea964 NC |
2813 | 0, |
2814 | 0, | |
74ad790c | 2815 | 0, |
1ada945d | 2816 | BFD_RELOC_AARCH64_TLSDESC_LD_PREL19}, |
a06ea964 NC |
2817 | |
2818 | /* 12 bit offset into the page containing GOT TLS entry for a symbol */ | |
2819 | {"tlsdesc_lo12", 0, | |
6f4a313b | 2820 | 0, /* adr_type */ |
a06ea964 NC |
2821 | 0, |
2822 | 0, | |
f955cccf | 2823 | BFD_RELOC_AARCH64_TLSDESC_ADD_LO12, |
74ad790c MS |
2824 | BFD_RELOC_AARCH64_TLSDESC_LD_LO12_NC, |
2825 | 0}, | |
a06ea964 | 2826 | |
6c37fedc JW |
2827 | /* Get to the page containing GOT TLS entry for a symbol. |
2828 | The same as GD, we allocate two consecutive GOT slots | |
2829 | for module index and module offset, the only difference | |
33eaf5de | 2830 | with GD is the module offset should be initialized to |
6c37fedc JW |
2831 | zero without any outstanding runtime relocation. */ |
2832 | {"tlsldm", 0, | |
2833 | BFD_RELOC_AARCH64_TLSLD_ADR_PREL21, /* adr_type */ | |
1107e076 | 2834 | BFD_RELOC_AARCH64_TLSLD_ADR_PAGE21, |
6c37fedc JW |
2835 | 0, |
2836 | 0, | |
2837 | 0, | |
2838 | 0}, | |
2839 | ||
a12fad50 JW |
2840 | /* 12 bit offset into the page containing GOT TLS entry for a symbol */ |
2841 | {"tlsldm_lo12_nc", 0, | |
2842 | 0, /* adr_type */ | |
2843 | 0, | |
2844 | 0, | |
2845 | BFD_RELOC_AARCH64_TLSLD_ADD_LO12_NC, | |
2846 | 0, | |
2847 | 0}, | |
2848 | ||
70151fb5 JW |
2849 | /* 12 bit offset into the module TLS base address. */ |
2850 | {"dtprel_lo12", 0, | |
2851 | 0, /* adr_type */ | |
2852 | 0, | |
2853 | 0, | |
2854 | BFD_RELOC_AARCH64_TLSLD_ADD_DTPREL_LO12, | |
4c562523 | 2855 | BFD_RELOC_AARCH64_TLSLD_LDST_DTPREL_LO12, |
70151fb5 JW |
2856 | 0}, |
2857 | ||
13289c10 JW |
2858 | /* Same as dtprel_lo12, no overflow check. */ |
2859 | {"dtprel_lo12_nc", 0, | |
2860 | 0, /* adr_type */ | |
2861 | 0, | |
2862 | 0, | |
2863 | BFD_RELOC_AARCH64_TLSLD_ADD_DTPREL_LO12_NC, | |
4c562523 | 2864 | BFD_RELOC_AARCH64_TLSLD_LDST_DTPREL_LO12_NC, |
13289c10 JW |
2865 | 0}, |
2866 | ||
49df5539 JW |
2867 | /* bits[23:12] of offset to the module TLS base address. */ |
2868 | {"dtprel_hi12", 0, | |
2869 | 0, /* adr_type */ | |
2870 | 0, | |
2871 | 0, | |
2872 | BFD_RELOC_AARCH64_TLSLD_ADD_DTPREL_HI12, | |
2873 | 0, | |
2874 | 0}, | |
2875 | ||
2876 | /* bits[15:0] of offset to the module TLS base address. */ | |
2877 | {"dtprel_g0", 0, | |
2878 | 0, /* adr_type */ | |
2879 | 0, | |
2880 | BFD_RELOC_AARCH64_TLSLD_MOVW_DTPREL_G0, | |
2881 | 0, | |
2882 | 0, | |
2883 | 0}, | |
2884 | ||
2885 | /* No overflow check version of BFD_RELOC_AARCH64_TLSLD_MOVW_DTPREL_G0. */ | |
2886 | {"dtprel_g0_nc", 0, | |
2887 | 0, /* adr_type */ | |
2888 | 0, | |
2889 | BFD_RELOC_AARCH64_TLSLD_MOVW_DTPREL_G0_NC, | |
2890 | 0, | |
2891 | 0, | |
2892 | 0}, | |
2893 | ||
2894 | /* bits[31:16] of offset to the module TLS base address. */ | |
2895 | {"dtprel_g1", 0, | |
2896 | 0, /* adr_type */ | |
2897 | 0, | |
2898 | BFD_RELOC_AARCH64_TLSLD_MOVW_DTPREL_G1, | |
2899 | 0, | |
2900 | 0, | |
2901 | 0}, | |
2902 | ||
2903 | /* No overflow check version of BFD_RELOC_AARCH64_TLSLD_MOVW_DTPREL_G1. */ | |
2904 | {"dtprel_g1_nc", 0, | |
2905 | 0, /* adr_type */ | |
2906 | 0, | |
2907 | BFD_RELOC_AARCH64_TLSLD_MOVW_DTPREL_G1_NC, | |
2908 | 0, | |
2909 | 0, | |
2910 | 0}, | |
2911 | ||
2912 | /* bits[47:32] of offset to the module TLS base address. */ | |
2913 | {"dtprel_g2", 0, | |
2914 | 0, /* adr_type */ | |
2915 | 0, | |
2916 | BFD_RELOC_AARCH64_TLSLD_MOVW_DTPREL_G2, | |
2917 | 0, | |
2918 | 0, | |
2919 | 0}, | |
2920 | ||
43a357f9 RL |
2921 | /* Lower 16 bit offset into GOT entry for a symbol */ |
2922 | {"tlsdesc_off_g0_nc", 0, | |
2923 | 0, /* adr_type */ | |
2924 | 0, | |
2925 | BFD_RELOC_AARCH64_TLSDESC_OFF_G0_NC, | |
2926 | 0, | |
2927 | 0, | |
2928 | 0}, | |
2929 | ||
2930 | /* Higher 16 bit offset into GOT entry for a symbol */ | |
2931 | {"tlsdesc_off_g1", 0, | |
2932 | 0, /* adr_type */ | |
2933 | 0, | |
2934 | BFD_RELOC_AARCH64_TLSDESC_OFF_G1, | |
2935 | 0, | |
2936 | 0, | |
2937 | 0}, | |
2938 | ||
a06ea964 NC |
2939 | /* Get to the page containing GOT TLS entry for a symbol */ |
2940 | {"gottprel", 0, | |
6f4a313b | 2941 | 0, /* adr_type */ |
a06ea964 NC |
2942 | BFD_RELOC_AARCH64_TLSIE_ADR_GOTTPREL_PAGE21, |
2943 | 0, | |
2944 | 0, | |
74ad790c | 2945 | 0, |
043bf05a | 2946 | BFD_RELOC_AARCH64_TLSIE_LD_GOTTPREL_PREL19}, |
a06ea964 NC |
2947 | |
2948 | /* 12 bit offset into the page containing GOT TLS entry for a symbol */ | |
2949 | {"gottprel_lo12", 0, | |
6f4a313b | 2950 | 0, /* adr_type */ |
a06ea964 NC |
2951 | 0, |
2952 | 0, | |
2953 | 0, | |
74ad790c MS |
2954 | BFD_RELOC_AARCH64_TLSIE_LD_GOTTPREL_LO12_NC, |
2955 | 0}, | |
a06ea964 NC |
2956 | |
2957 | /* Get tp offset for a symbol. */ | |
2958 | {"tprel", 0, | |
6f4a313b | 2959 | 0, /* adr_type */ |
a06ea964 NC |
2960 | 0, |
2961 | 0, | |
2962 | BFD_RELOC_AARCH64_TLSLE_ADD_TPREL_LO12, | |
74ad790c | 2963 | 0, |
a06ea964 NC |
2964 | 0}, |
2965 | ||
2966 | /* Get tp offset for a symbol. */ | |
2967 | {"tprel_lo12", 0, | |
6f4a313b | 2968 | 0, /* adr_type */ |
a06ea964 NC |
2969 | 0, |
2970 | 0, | |
2971 | BFD_RELOC_AARCH64_TLSLE_ADD_TPREL_LO12, | |
84f1b9fb | 2972 | BFD_RELOC_AARCH64_TLSLE_LDST_TPREL_LO12, |
a06ea964 NC |
2973 | 0}, |
2974 | ||
2975 | /* Get tp offset for a symbol. */ | |
2976 | {"tprel_hi12", 0, | |
6f4a313b | 2977 | 0, /* adr_type */ |
a06ea964 NC |
2978 | 0, |
2979 | 0, | |
2980 | BFD_RELOC_AARCH64_TLSLE_ADD_TPREL_HI12, | |
74ad790c | 2981 | 0, |
a06ea964 NC |
2982 | 0}, |
2983 | ||
2984 | /* Get tp offset for a symbol. */ | |
2985 | {"tprel_lo12_nc", 0, | |
6f4a313b | 2986 | 0, /* adr_type */ |
a06ea964 NC |
2987 | 0, |
2988 | 0, | |
2989 | BFD_RELOC_AARCH64_TLSLE_ADD_TPREL_LO12_NC, | |
84f1b9fb | 2990 | BFD_RELOC_AARCH64_TLSLE_LDST_TPREL_LO12_NC, |
a06ea964 NC |
2991 | 0}, |
2992 | ||
2993 | /* Most significant bits 32-47 of address/value: MOVZ. */ | |
2994 | {"tprel_g2", 0, | |
6f4a313b | 2995 | 0, /* adr_type */ |
a06ea964 NC |
2996 | 0, |
2997 | BFD_RELOC_AARCH64_TLSLE_MOVW_TPREL_G2, | |
2998 | 0, | |
74ad790c | 2999 | 0, |
a06ea964 NC |
3000 | 0}, |
3001 | ||
3002 | /* Most significant bits 16-31 of address/value: MOVZ. */ | |
3003 | {"tprel_g1", 0, | |
6f4a313b | 3004 | 0, /* adr_type */ |
a06ea964 NC |
3005 | 0, |
3006 | BFD_RELOC_AARCH64_TLSLE_MOVW_TPREL_G1, | |
3007 | 0, | |
74ad790c | 3008 | 0, |
a06ea964 NC |
3009 | 0}, |
3010 | ||
3011 | /* Most significant bits 16-31 of address/value: MOVZ, no check. */ | |
3012 | {"tprel_g1_nc", 0, | |
6f4a313b | 3013 | 0, /* adr_type */ |
a06ea964 NC |
3014 | 0, |
3015 | BFD_RELOC_AARCH64_TLSLE_MOVW_TPREL_G1_NC, | |
3016 | 0, | |
74ad790c | 3017 | 0, |
a06ea964 NC |
3018 | 0}, |
3019 | ||
3020 | /* Most significant bits 0-15 of address/value: MOVZ. */ | |
3021 | {"tprel_g0", 0, | |
6f4a313b | 3022 | 0, /* adr_type */ |
a06ea964 NC |
3023 | 0, |
3024 | BFD_RELOC_AARCH64_TLSLE_MOVW_TPREL_G0, | |
3025 | 0, | |
74ad790c | 3026 | 0, |
a06ea964 NC |
3027 | 0}, |
3028 | ||
3029 | /* Most significant bits 0-15 of address/value: MOVZ, no check. */ | |
3030 | {"tprel_g0_nc", 0, | |
6f4a313b | 3031 | 0, /* adr_type */ |
a06ea964 NC |
3032 | 0, |
3033 | BFD_RELOC_AARCH64_TLSLE_MOVW_TPREL_G0_NC, | |
3034 | 0, | |
74ad790c | 3035 | 0, |
a06ea964 | 3036 | 0}, |
a921b5bd JW |
3037 | |
3038 | /* 15bit offset from got entry to base address of GOT table. */ | |
3039 | {"gotpage_lo15", 0, | |
3040 | 0, | |
3041 | 0, | |
3042 | 0, | |
3043 | 0, | |
3044 | BFD_RELOC_AARCH64_LD64_GOTPAGE_LO15, | |
3045 | 0}, | |
3d715ce4 JW |
3046 | |
3047 | /* 14bit offset from got entry to base address of GOT table. */ | |
3048 | {"gotpage_lo14", 0, | |
3049 | 0, | |
3050 | 0, | |
3051 | 0, | |
3052 | 0, | |
3053 | BFD_RELOC_AARCH64_LD32_GOTPAGE_LO14, | |
3054 | 0}, | |
a06ea964 NC |
3055 | }; |
3056 | ||
3057 | /* Given the address of a pointer pointing to the textual name of a | |
3058 | relocation as may appear in assembler source, attempt to find its | |
3059 | details in reloc_table. The pointer will be updated to the character | |
3060 | after the trailing colon. On failure, NULL will be returned; | |
3061 | otherwise return the reloc_table_entry. */ | |
3062 | ||
3063 | static struct reloc_table_entry * | |
3064 | find_reloc_table_entry (char **str) | |
3065 | { | |
3066 | unsigned int i; | |
3067 | for (i = 0; i < ARRAY_SIZE (reloc_table); i++) | |
3068 | { | |
3069 | int length = strlen (reloc_table[i].name); | |
3070 | ||
3071 | if (strncasecmp (reloc_table[i].name, *str, length) == 0 | |
3072 | && (*str)[length] == ':') | |
3073 | { | |
3074 | *str += (length + 1); | |
3075 | return &reloc_table[i]; | |
3076 | } | |
3077 | } | |
3078 | ||
3079 | return NULL; | |
3080 | } | |
3081 | ||
3082 | /* Mode argument to parse_shift and parser_shifter_operand. */ | |
3083 | enum parse_shift_mode | |
3084 | { | |
98907a70 | 3085 | SHIFTED_NONE, /* no shifter allowed */ |
a06ea964 NC |
3086 | SHIFTED_ARITH_IMM, /* "rn{,lsl|lsr|asl|asr|uxt|sxt #n}" or |
3087 | "#imm{,lsl #n}" */ | |
3088 | SHIFTED_LOGIC_IMM, /* "rn{,lsl|lsr|asl|asr|ror #n}" or | |
3089 | "#imm" */ | |
3090 | SHIFTED_LSL, /* bare "lsl #n" */ | |
2442d846 | 3091 | SHIFTED_MUL, /* bare "mul #n" */ |
a06ea964 | 3092 | SHIFTED_LSL_MSL, /* "lsl|msl #n" */ |
98907a70 | 3093 | SHIFTED_MUL_VL, /* "mul vl" */ |
a06ea964 NC |
3094 | SHIFTED_REG_OFFSET /* [su]xtw|sxtx {#n} or lsl #n */ |
3095 | }; | |
3096 | ||
3097 | /* Parse a <shift> operator on an AArch64 data processing instruction. | |
3098 | Return TRUE on success; otherwise return FALSE. */ | |
3099 | static bfd_boolean | |
3100 | parse_shift (char **str, aarch64_opnd_info *operand, enum parse_shift_mode mode) | |
3101 | { | |
3102 | const struct aarch64_name_value_pair *shift_op; | |
3103 | enum aarch64_modifier_kind kind; | |
3104 | expressionS exp; | |
3105 | int exp_has_prefix; | |
3106 | char *s = *str; | |
3107 | char *p = s; | |
3108 | ||
3109 | for (p = *str; ISALPHA (*p); p++) | |
3110 | ; | |
3111 | ||
3112 | if (p == *str) | |
3113 | { | |
3114 | set_syntax_error (_("shift expression expected")); | |
3115 | return FALSE; | |
3116 | } | |
3117 | ||
629310ab | 3118 | shift_op = str_hash_find_n (aarch64_shift_hsh, *str, p - *str); |
a06ea964 NC |
3119 | |
3120 | if (shift_op == NULL) | |
3121 | { | |
3122 | set_syntax_error (_("shift operator expected")); | |
3123 | return FALSE; | |
3124 | } | |
3125 | ||
3126 | kind = aarch64_get_operand_modifier (shift_op); | |
3127 | ||
3128 | if (kind == AARCH64_MOD_MSL && mode != SHIFTED_LSL_MSL) | |
3129 | { | |
3130 | set_syntax_error (_("invalid use of 'MSL'")); | |
3131 | return FALSE; | |
3132 | } | |
3133 | ||
2442d846 | 3134 | if (kind == AARCH64_MOD_MUL |
98907a70 RS |
3135 | && mode != SHIFTED_MUL |
3136 | && mode != SHIFTED_MUL_VL) | |
2442d846 RS |
3137 | { |
3138 | set_syntax_error (_("invalid use of 'MUL'")); | |
3139 | return FALSE; | |
3140 | } | |
3141 | ||
a06ea964 NC |
3142 | switch (mode) |
3143 | { | |
3144 | case SHIFTED_LOGIC_IMM: | |
535b785f | 3145 | if (aarch64_extend_operator_p (kind)) |
a06ea964 NC |
3146 | { |
3147 | set_syntax_error (_("extending shift is not permitted")); | |
3148 | return FALSE; | |
3149 | } | |
3150 | break; | |
3151 | ||
3152 | case SHIFTED_ARITH_IMM: | |
3153 | if (kind == AARCH64_MOD_ROR) | |
3154 | { | |
3155 | set_syntax_error (_("'ROR' shift is not permitted")); | |
3156 | return FALSE; | |
3157 | } | |
3158 | break; | |
3159 | ||
3160 | case SHIFTED_LSL: | |
3161 | if (kind != AARCH64_MOD_LSL) | |
3162 | { | |
3163 | set_syntax_error (_("only 'LSL' shift is permitted")); | |
3164 | return FALSE; | |
3165 | } | |
3166 | break; | |
3167 | ||
2442d846 RS |
3168 | case SHIFTED_MUL: |
3169 | if (kind != AARCH64_MOD_MUL) | |
3170 | { | |
3171 | set_syntax_error (_("only 'MUL' is permitted")); | |
3172 | return FALSE; | |
3173 | } | |
3174 | break; | |
3175 | ||
98907a70 RS |
3176 | case SHIFTED_MUL_VL: |
3177 | /* "MUL VL" consists of two separate tokens. Require the first | |
3178 | token to be "MUL" and look for a following "VL". */ | |
3179 | if (kind == AARCH64_MOD_MUL) | |
3180 | { | |
3181 | skip_whitespace (p); | |
3182 | if (strncasecmp (p, "vl", 2) == 0 && !ISALPHA (p[2])) | |
3183 | { | |
3184 | p += 2; | |
3185 | kind = AARCH64_MOD_MUL_VL; | |
3186 | break; | |
3187 | } | |
3188 | } | |
3189 | set_syntax_error (_("only 'MUL VL' is permitted")); | |
3190 | return FALSE; | |
3191 | ||
a06ea964 NC |
3192 | case SHIFTED_REG_OFFSET: |
3193 | if (kind != AARCH64_MOD_UXTW && kind != AARCH64_MOD_LSL | |
3194 | && kind != AARCH64_MOD_SXTW && kind != AARCH64_MOD_SXTX) | |
3195 | { | |
3196 | set_fatal_syntax_error | |
3197 | (_("invalid shift for the register offset addressing mode")); | |
3198 | return FALSE; | |
3199 | } | |
3200 | break; | |
3201 | ||
3202 | case SHIFTED_LSL_MSL: | |
3203 | if (kind != AARCH64_MOD_LSL && kind != AARCH64_MOD_MSL) | |
3204 | { | |
3205 | set_syntax_error (_("invalid shift operator")); | |
3206 | return FALSE; | |
3207 | } | |
3208 | break; | |
3209 | ||
3210 | default: | |
3211 | abort (); | |
3212 | } | |
3213 | ||
3214 | /* Whitespace can appear here if the next thing is a bare digit. */ | |
3215 | skip_whitespace (p); | |
3216 | ||
3217 | /* Parse shift amount. */ | |
3218 | exp_has_prefix = 0; | |
98907a70 | 3219 | if ((mode == SHIFTED_REG_OFFSET && *p == ']') || kind == AARCH64_MOD_MUL_VL) |
a06ea964 NC |
3220 | exp.X_op = O_absent; |
3221 | else | |
3222 | { | |
3223 | if (is_immediate_prefix (*p)) | |
3224 | { | |
3225 | p++; | |
3226 | exp_has_prefix = 1; | |
3227 | } | |
3228 | my_get_expression (&exp, &p, GE_NO_PREFIX, 0); | |
3229 | } | |
98907a70 RS |
3230 | if (kind == AARCH64_MOD_MUL_VL) |
3231 | /* For consistency, give MUL VL the same shift amount as an implicit | |
3232 | MUL #1. */ | |
3233 | operand->shifter.amount = 1; | |
3234 | else if (exp.X_op == O_absent) | |
a06ea964 | 3235 | { |
535b785f | 3236 | if (!aarch64_extend_operator_p (kind) || exp_has_prefix) |
a06ea964 NC |
3237 | { |
3238 | set_syntax_error (_("missing shift amount")); | |
3239 | return FALSE; | |
3240 | } | |
3241 | operand->shifter.amount = 0; | |
3242 | } | |
3243 | else if (exp.X_op != O_constant) | |
3244 | { | |
3245 | set_syntax_error (_("constant shift amount required")); | |
3246 | return FALSE; | |
3247 | } | |
2442d846 RS |
3248 | /* For parsing purposes, MUL #n has no inherent range. The range |
3249 | depends on the operand and will be checked by operand-specific | |
3250 | routines. */ | |
3251 | else if (kind != AARCH64_MOD_MUL | |
3252 | && (exp.X_add_number < 0 || exp.X_add_number > 63)) | |
a06ea964 NC |
3253 | { |
3254 | set_fatal_syntax_error (_("shift amount out of range 0 to 63")); | |
3255 | return FALSE; | |
3256 | } | |
3257 | else | |
3258 | { | |
3259 | operand->shifter.amount = exp.X_add_number; | |
3260 | operand->shifter.amount_present = 1; | |
3261 | } | |
3262 | ||
3263 | operand->shifter.operator_present = 1; | |
3264 | operand->shifter.kind = kind; | |
3265 | ||
3266 | *str = p; | |
3267 | return TRUE; | |
3268 | } | |
3269 | ||
3270 | /* Parse a <shifter_operand> for a data processing instruction: | |
3271 | ||
3272 | #<immediate> | |
3273 | #<immediate>, LSL #imm | |
3274 | ||
3275 | Validation of immediate operands is deferred to md_apply_fix. | |
3276 | ||
3277 | Return TRUE on success; otherwise return FALSE. */ | |
3278 | ||
3279 | static bfd_boolean | |
3280 | parse_shifter_operand_imm (char **str, aarch64_opnd_info *operand, | |
3281 | enum parse_shift_mode mode) | |
3282 | { | |
3283 | char *p; | |
3284 | ||
3285 | if (mode != SHIFTED_ARITH_IMM && mode != SHIFTED_LOGIC_IMM) | |
3286 | return FALSE; | |
3287 | ||
3288 | p = *str; | |
3289 | ||
3290 | /* Accept an immediate expression. */ | |
3291 | if (! my_get_expression (&inst.reloc.exp, &p, GE_OPT_PREFIX, 1)) | |
3292 | return FALSE; | |
3293 | ||
3294 | /* Accept optional LSL for arithmetic immediate values. */ | |
3295 | if (mode == SHIFTED_ARITH_IMM && skip_past_comma (&p)) | |
3296 | if (! parse_shift (&p, operand, SHIFTED_LSL)) | |
3297 | return FALSE; | |
3298 | ||
3299 | /* Not accept any shifter for logical immediate values. */ | |
3300 | if (mode == SHIFTED_LOGIC_IMM && skip_past_comma (&p) | |
3301 | && parse_shift (&p, operand, mode)) | |
3302 | { | |
3303 | set_syntax_error (_("unexpected shift operator")); | |
3304 | return FALSE; | |
3305 | } | |
3306 | ||
3307 | *str = p; | |
3308 | return TRUE; | |
3309 | } | |
3310 | ||
3311 | /* Parse a <shifter_operand> for a data processing instruction: | |
3312 | ||
3313 | <Rm> | |
3314 | <Rm>, <shift> | |
3315 | #<immediate> | |
3316 | #<immediate>, LSL #imm | |
3317 | ||
3318 | where <shift> is handled by parse_shift above, and the last two | |
3319 | cases are handled by the function above. | |
3320 | ||
3321 | Validation of immediate operands is deferred to md_apply_fix. | |
3322 | ||
3323 | Return TRUE on success; otherwise return FALSE. */ | |
3324 | ||
3325 | static bfd_boolean | |
3326 | parse_shifter_operand (char **str, aarch64_opnd_info *operand, | |
3327 | enum parse_shift_mode mode) | |
3328 | { | |
e1b988bb RS |
3329 | const reg_entry *reg; |
3330 | aarch64_opnd_qualifier_t qualifier; | |
a06ea964 NC |
3331 | enum aarch64_operand_class opd_class |
3332 | = aarch64_get_operand_class (operand->type); | |
3333 | ||
e1b988bb RS |
3334 | reg = aarch64_reg_parse_32_64 (str, &qualifier); |
3335 | if (reg) | |
a06ea964 NC |
3336 | { |
3337 | if (opd_class == AARCH64_OPND_CLASS_IMMEDIATE) | |
3338 | { | |
3339 | set_syntax_error (_("unexpected register in the immediate operand")); | |
3340 | return FALSE; | |
3341 | } | |
3342 | ||
e1b988bb | 3343 | if (!aarch64_check_reg_type (reg, REG_TYPE_R_Z)) |
a06ea964 | 3344 | { |
e1b988bb | 3345 | set_syntax_error (_(get_reg_expected_msg (REG_TYPE_R_Z))); |
a06ea964 NC |
3346 | return FALSE; |
3347 | } | |
3348 | ||
e1b988bb RS |
3349 | operand->reg.regno = reg->number; |
3350 | operand->qualifier = qualifier; | |
a06ea964 NC |
3351 | |
3352 | /* Accept optional shift operation on register. */ | |
3353 | if (! skip_past_comma (str)) | |
3354 | return TRUE; | |
3355 | ||
3356 | if (! parse_shift (str, operand, mode)) | |
3357 | return FALSE; | |
3358 | ||
3359 | return TRUE; | |
3360 | } | |
3361 | else if (opd_class == AARCH64_OPND_CLASS_MODIFIED_REG) | |
3362 | { | |
3363 | set_syntax_error | |
3364 | (_("integer register expected in the extended/shifted operand " | |
3365 | "register")); | |
3366 | return FALSE; | |
3367 | } | |
3368 | ||
3369 | /* We have a shifted immediate variable. */ | |
3370 | return parse_shifter_operand_imm (str, operand, mode); | |
3371 | } | |
3372 | ||
3373 | /* Return TRUE on success; return FALSE otherwise. */ | |
3374 | ||
3375 | static bfd_boolean | |
3376 | parse_shifter_operand_reloc (char **str, aarch64_opnd_info *operand, | |
3377 | enum parse_shift_mode mode) | |
3378 | { | |
3379 | char *p = *str; | |
3380 | ||
3381 | /* Determine if we have the sequence of characters #: or just : | |
3382 | coming next. If we do, then we check for a :rello: relocation | |
3383 | modifier. If we don't, punt the whole lot to | |
3384 | parse_shifter_operand. */ | |
3385 | ||
3386 | if ((p[0] == '#' && p[1] == ':') || p[0] == ':') | |
3387 | { | |
3388 | struct reloc_table_entry *entry; | |
3389 | ||
3390 | if (p[0] == '#') | |
3391 | p += 2; | |
3392 | else | |
3393 | p++; | |
3394 | *str = p; | |
3395 | ||
3396 | /* Try to parse a relocation. Anything else is an error. */ | |
3397 | if (!(entry = find_reloc_table_entry (str))) | |
3398 | { | |
3399 | set_syntax_error (_("unknown relocation modifier")); | |
3400 | return FALSE; | |
3401 | } | |
3402 | ||
3403 | if (entry->add_type == 0) | |
3404 | { | |
3405 | set_syntax_error | |
3406 | (_("this relocation modifier is not allowed on this instruction")); | |
3407 | return FALSE; | |
3408 | } | |
3409 | ||
3410 | /* Save str before we decompose it. */ | |
3411 | p = *str; | |
3412 | ||
3413 | /* Next, we parse the expression. */ | |
3414 | if (! my_get_expression (&inst.reloc.exp, str, GE_NO_PREFIX, 1)) | |
3415 | return FALSE; | |
3416 | ||
3417 | /* Record the relocation type (use the ADD variant here). */ | |
3418 | inst.reloc.type = entry->add_type; | |
3419 | inst.reloc.pc_rel = entry->pc_rel; | |
3420 | ||
3421 | /* If str is empty, we've reached the end, stop here. */ | |
3422 | if (**str == '\0') | |
3423 | return TRUE; | |
3424 | ||
55d9b4c1 | 3425 | /* Otherwise, we have a shifted reloc modifier, so rewind to |
a06ea964 NC |
3426 | recover the variable name and continue parsing for the shifter. */ |
3427 | *str = p; | |
3428 | return parse_shifter_operand_imm (str, operand, mode); | |
3429 | } | |
3430 | ||
3431 | return parse_shifter_operand (str, operand, mode); | |
3432 | } | |
3433 | ||
3434 | /* Parse all forms of an address expression. Information is written | |
3435 | to *OPERAND and/or inst.reloc. | |
3436 | ||
3437 | The A64 instruction set has the following addressing modes: | |
3438 | ||
3439 | Offset | |
4df068de RS |
3440 | [base] // in SIMD ld/st structure |
3441 | [base{,#0}] // in ld/st exclusive | |
a06ea964 NC |
3442 | [base{,#imm}] |
3443 | [base,Xm{,LSL #imm}] | |
3444 | [base,Xm,SXTX {#imm}] | |
3445 | [base,Wm,(S|U)XTW {#imm}] | |
3446 | Pre-indexed | |
1820262b | 3447 | [base]! // in ldraa/ldrab exclusive |
a06ea964 NC |
3448 | [base,#imm]! |
3449 | Post-indexed | |
3450 | [base],#imm | |
4df068de | 3451 | [base],Xm // in SIMD ld/st structure |
a06ea964 NC |
3452 | PC-relative (literal) |
3453 | label | |
4df068de | 3454 | SVE: |
98907a70 | 3455 | [base,#imm,MUL VL] |
4df068de RS |
3456 | [base,Zm.D{,LSL #imm}] |
3457 | [base,Zm.S,(S|U)XTW {#imm}] | |
3458 | [base,Zm.D,(S|U)XTW {#imm}] // ignores top 32 bits of Zm.D elements | |
3459 | [Zn.S,#imm] | |
3460 | [Zn.D,#imm] | |
c469c864 | 3461 | [Zn.S{, Xm}] |
4df068de RS |
3462 | [Zn.S,Zm.S{,LSL #imm}] // in ADR |
3463 | [Zn.D,Zm.D{,LSL #imm}] // in ADR | |
3464 | [Zn.D,Zm.D,(S|U)XTW {#imm}] // in ADR | |
a06ea964 NC |
3465 | |
3466 | (As a convenience, the notation "=immediate" is permitted in conjunction | |
3467 | with the pc-relative literal load instructions to automatically place an | |
3468 | immediate value or symbolic address in a nearby literal pool and generate | |
3469 | a hidden label which references it.) | |
3470 | ||
3471 | Upon a successful parsing, the address structure in *OPERAND will be | |
3472 | filled in the following way: | |
3473 | ||
3474 | .base_regno = <base> | |
3475 | .offset.is_reg // 1 if the offset is a register | |
3476 | .offset.imm = <imm> | |
3477 | .offset.regno = <Rm> | |
3478 | ||
3479 | For different addressing modes defined in the A64 ISA: | |
3480 | ||
3481 | Offset | |
3482 | .pcrel=0; .preind=1; .postind=0; .writeback=0 | |
3483 | Pre-indexed | |
3484 | .pcrel=0; .preind=1; .postind=0; .writeback=1 | |
3485 | Post-indexed | |
3486 | .pcrel=0; .preind=0; .postind=1; .writeback=1 | |
3487 | PC-relative (literal) | |
3488 | .pcrel=1; .preind=1; .postind=0; .writeback=0 | |
3489 | ||
3490 | The shift/extension information, if any, will be stored in .shifter. | |
4df068de RS |
3491 | The base and offset qualifiers will be stored in *BASE_QUALIFIER and |
3492 | *OFFSET_QUALIFIER respectively, with NIL being used if there's no | |
3493 | corresponding register. | |
a06ea964 | 3494 | |
4df068de | 3495 | BASE_TYPE says which types of base register should be accepted and |
98907a70 RS |
3496 | OFFSET_TYPE says the same for offset registers. IMM_SHIFT_MODE |
3497 | is the type of shifter that is allowed for immediate offsets, | |
3498 | or SHIFTED_NONE if none. | |
3499 | ||
3500 | In all other respects, it is the caller's responsibility to check | |
3501 | for addressing modes not supported by the instruction, and to set | |
3502 | inst.reloc.type. */ | |
a06ea964 NC |
3503 | |
3504 | static bfd_boolean | |
4df068de RS |
3505 | parse_address_main (char **str, aarch64_opnd_info *operand, |
3506 | aarch64_opnd_qualifier_t *base_qualifier, | |
3507 | aarch64_opnd_qualifier_t *offset_qualifier, | |
98907a70 RS |
3508 | aarch64_reg_type base_type, aarch64_reg_type offset_type, |
3509 | enum parse_shift_mode imm_shift_mode) | |
a06ea964 NC |
3510 | { |
3511 | char *p = *str; | |
e1b988bb | 3512 | const reg_entry *reg; |
a06ea964 NC |
3513 | expressionS *exp = &inst.reloc.exp; |
3514 | ||
4df068de RS |
3515 | *base_qualifier = AARCH64_OPND_QLF_NIL; |
3516 | *offset_qualifier = AARCH64_OPND_QLF_NIL; | |
a06ea964 NC |
3517 | if (! skip_past_char (&p, '[')) |
3518 | { | |
3519 | /* =immediate or label. */ | |
3520 | operand->addr.pcrel = 1; | |
3521 | operand->addr.preind = 1; | |
3522 | ||
f41aef5f RE |
3523 | /* #:<reloc_op>:<symbol> */ |
3524 | skip_past_char (&p, '#'); | |
73866052 | 3525 | if (skip_past_char (&p, ':')) |
f41aef5f | 3526 | { |
6f4a313b | 3527 | bfd_reloc_code_real_type ty; |
f41aef5f RE |
3528 | struct reloc_table_entry *entry; |
3529 | ||
3530 | /* Try to parse a relocation modifier. Anything else is | |
3531 | an error. */ | |
3532 | entry = find_reloc_table_entry (&p); | |
3533 | if (! entry) | |
3534 | { | |
3535 | set_syntax_error (_("unknown relocation modifier")); | |
3536 | return FALSE; | |
3537 | } | |
3538 | ||
6f4a313b MS |
3539 | switch (operand->type) |
3540 | { | |
3541 | case AARCH64_OPND_ADDR_PCREL21: | |
3542 | /* adr */ | |
3543 | ty = entry->adr_type; | |
3544 | break; | |
3545 | ||
3546 | default: | |
74ad790c | 3547 | ty = entry->ld_literal_type; |
6f4a313b MS |
3548 | break; |
3549 | } | |
3550 | ||
3551 | if (ty == 0) | |
f41aef5f RE |
3552 | { |
3553 | set_syntax_error | |
3554 | (_("this relocation modifier is not allowed on this " | |
3555 | "instruction")); | |
3556 | return FALSE; | |
3557 | } | |
3558 | ||
3559 | /* #:<reloc_op>: */ | |
3560 | if (! my_get_expression (exp, &p, GE_NO_PREFIX, 1)) | |
3561 | { | |
3562 | set_syntax_error (_("invalid relocation expression")); | |
3563 | return FALSE; | |
3564 | } | |
a06ea964 | 3565 | |
f41aef5f | 3566 | /* #:<reloc_op>:<expr> */ |
6f4a313b MS |
3567 | /* Record the relocation type. */ |
3568 | inst.reloc.type = ty; | |
f41aef5f RE |
3569 | inst.reloc.pc_rel = entry->pc_rel; |
3570 | } | |
3571 | else | |
a06ea964 | 3572 | { |
f41aef5f RE |
3573 | |
3574 | if (skip_past_char (&p, '=')) | |
3575 | /* =immediate; need to generate the literal in the literal pool. */ | |
3576 | inst.gen_lit_pool = 1; | |
3577 | ||
3578 | if (!my_get_expression (exp, &p, GE_NO_PREFIX, 1)) | |
3579 | { | |
3580 | set_syntax_error (_("invalid address")); | |
3581 | return FALSE; | |
3582 | } | |
a06ea964 NC |
3583 | } |
3584 | ||
3585 | *str = p; | |
3586 | return TRUE; | |
3587 | } | |
3588 | ||
3589 | /* [ */ | |
3590 | ||
4df068de RS |
3591 | reg = aarch64_addr_reg_parse (&p, base_type, base_qualifier); |
3592 | if (!reg || !aarch64_check_reg_type (reg, base_type)) | |
a06ea964 | 3593 | { |
4df068de | 3594 | set_syntax_error (_(get_reg_expected_msg (base_type))); |
a06ea964 NC |
3595 | return FALSE; |
3596 | } | |
e1b988bb | 3597 | operand->addr.base_regno = reg->number; |
a06ea964 NC |
3598 | |
3599 | /* [Xn */ | |
3600 | if (skip_past_comma (&p)) | |
3601 | { | |
3602 | /* [Xn, */ | |
3603 | operand->addr.preind = 1; | |
3604 | ||
4df068de | 3605 | reg = aarch64_addr_reg_parse (&p, offset_type, offset_qualifier); |
e1b988bb | 3606 | if (reg) |
a06ea964 | 3607 | { |
4df068de | 3608 | if (!aarch64_check_reg_type (reg, offset_type)) |
e1b988bb | 3609 | { |
4df068de | 3610 | set_syntax_error (_(get_reg_expected_msg (offset_type))); |
e1b988bb RS |
3611 | return FALSE; |
3612 | } | |
3613 | ||
a06ea964 | 3614 | /* [Xn,Rm */ |
e1b988bb | 3615 | operand->addr.offset.regno = reg->number; |
a06ea964 NC |
3616 | operand->addr.offset.is_reg = 1; |
3617 | /* Shifted index. */ | |
3618 | if (skip_past_comma (&p)) | |
3619 | { | |
3620 | /* [Xn,Rm, */ | |
3621 | if (! parse_shift (&p, operand, SHIFTED_REG_OFFSET)) | |
3622 | /* Use the diagnostics set in parse_shift, so not set new | |
3623 | error message here. */ | |
3624 | return FALSE; | |
3625 | } | |
3626 | /* We only accept: | |
c469c864 | 3627 | [base,Xm] # For vector plus scalar SVE2 indexing. |
a06ea964 NC |
3628 | [base,Xm{,LSL #imm}] |
3629 | [base,Xm,SXTX {#imm}] | |
3630 | [base,Wm,(S|U)XTW {#imm}] */ | |
3631 | if (operand->shifter.kind == AARCH64_MOD_NONE | |
3632 | || operand->shifter.kind == AARCH64_MOD_LSL | |
3633 | || operand->shifter.kind == AARCH64_MOD_SXTX) | |
3634 | { | |
4df068de | 3635 | if (*offset_qualifier == AARCH64_OPND_QLF_W) |
a06ea964 NC |
3636 | { |
3637 | set_syntax_error (_("invalid use of 32-bit register offset")); | |
3638 | return FALSE; | |
3639 | } | |
4df068de | 3640 | if (aarch64_get_qualifier_esize (*base_qualifier) |
c469c864 MM |
3641 | != aarch64_get_qualifier_esize (*offset_qualifier) |
3642 | && (operand->type != AARCH64_OPND_SVE_ADDR_ZX | |
3643 | || *base_qualifier != AARCH64_OPND_QLF_S_S | |
3644 | || *offset_qualifier != AARCH64_OPND_QLF_X)) | |
4df068de RS |
3645 | { |
3646 | set_syntax_error (_("offset has different size from base")); | |
3647 | return FALSE; | |
3648 | } | |
a06ea964 | 3649 | } |
4df068de | 3650 | else if (*offset_qualifier == AARCH64_OPND_QLF_X) |
a06ea964 NC |
3651 | { |
3652 | set_syntax_error (_("invalid use of 64-bit register offset")); | |
3653 | return FALSE; | |
3654 | } | |
3655 | } | |
3656 | else | |
3657 | { | |
3658 | /* [Xn,#:<reloc_op>:<symbol> */ | |
3659 | skip_past_char (&p, '#'); | |
73866052 | 3660 | if (skip_past_char (&p, ':')) |
a06ea964 NC |
3661 | { |
3662 | struct reloc_table_entry *entry; | |
3663 | ||
3664 | /* Try to parse a relocation modifier. Anything else is | |
3665 | an error. */ | |
3666 | if (!(entry = find_reloc_table_entry (&p))) | |
3667 | { | |
3668 | set_syntax_error (_("unknown relocation modifier")); | |
3669 | return FALSE; | |
3670 | } | |
3671 | ||
3672 | if (entry->ldst_type == 0) | |
3673 | { | |
3674 | set_syntax_error | |
3675 | (_("this relocation modifier is not allowed on this " | |
3676 | "instruction")); | |
3677 | return FALSE; | |
3678 | } | |
3679 | ||
3680 | /* [Xn,#:<reloc_op>: */ | |
3681 | /* We now have the group relocation table entry corresponding to | |
3682 | the name in the assembler source. Next, we parse the | |
3683 | expression. */ | |
3684 | if (! my_get_expression (exp, &p, GE_NO_PREFIX, 1)) | |
3685 | { | |
3686 | set_syntax_error (_("invalid relocation expression")); | |
3687 | return FALSE; | |
3688 | } | |
3689 | ||
3690 | /* [Xn,#:<reloc_op>:<expr> */ | |
3691 | /* Record the load/store relocation type. */ | |
3692 | inst.reloc.type = entry->ldst_type; | |
3693 | inst.reloc.pc_rel = entry->pc_rel; | |
3694 | } | |
98907a70 | 3695 | else |
a06ea964 | 3696 | { |
98907a70 RS |
3697 | if (! my_get_expression (exp, &p, GE_OPT_PREFIX, 1)) |
3698 | { | |
3699 | set_syntax_error (_("invalid expression in the address")); | |
3700 | return FALSE; | |
3701 | } | |
3702 | /* [Xn,<expr> */ | |
3703 | if (imm_shift_mode != SHIFTED_NONE && skip_past_comma (&p)) | |
3704 | /* [Xn,<expr>,<shifter> */ | |
3705 | if (! parse_shift (&p, operand, imm_shift_mode)) | |
3706 | return FALSE; | |
a06ea964 | 3707 | } |
a06ea964 NC |
3708 | } |
3709 | } | |
3710 | ||
3711 | if (! skip_past_char (&p, ']')) | |
3712 | { | |
3713 | set_syntax_error (_("']' expected")); | |
3714 | return FALSE; | |
3715 | } | |
3716 | ||
3717 | if (skip_past_char (&p, '!')) | |
3718 | { | |
3719 | if (operand->addr.preind && operand->addr.offset.is_reg) | |
3720 | { | |
3721 | set_syntax_error (_("register offset not allowed in pre-indexed " | |
3722 | "addressing mode")); | |
3723 | return FALSE; | |
3724 | } | |
3725 | /* [Xn]! */ | |
3726 | operand->addr.writeback = 1; | |
3727 | } | |
3728 | else if (skip_past_comma (&p)) | |
3729 | { | |
3730 | /* [Xn], */ | |
3731 | operand->addr.postind = 1; | |
3732 | operand->addr.writeback = 1; | |
3733 | ||
3734 | if (operand->addr.preind) | |
3735 | { | |
3736 | set_syntax_error (_("cannot combine pre- and post-indexing")); | |
3737 | return FALSE; | |
3738 | } | |
3739 | ||
4df068de | 3740 | reg = aarch64_reg_parse_32_64 (&p, offset_qualifier); |
73866052 | 3741 | if (reg) |
a06ea964 NC |
3742 | { |
3743 | /* [Xn],Xm */ | |
e1b988bb | 3744 | if (!aarch64_check_reg_type (reg, REG_TYPE_R_64)) |
a06ea964 | 3745 | { |
e1b988bb | 3746 | set_syntax_error (_(get_reg_expected_msg (REG_TYPE_R_64))); |
a06ea964 NC |
3747 | return FALSE; |
3748 | } | |
e1b988bb RS |
3749 | |
3750 | operand->addr.offset.regno = reg->number; | |
a06ea964 NC |
3751 | operand->addr.offset.is_reg = 1; |
3752 | } | |
3753 | else if (! my_get_expression (exp, &p, GE_OPT_PREFIX, 1)) | |
3754 | { | |
3755 | /* [Xn],#expr */ | |
3756 | set_syntax_error (_("invalid expression in the address")); | |
3757 | return FALSE; | |
3758 | } | |
3759 | } | |
3760 | ||
3761 | /* If at this point neither .preind nor .postind is set, we have a | |
1820262b DB |
3762 | bare [Rn]{!}; only accept [Rn]! as a shorthand for [Rn,#0]! for ldraa and |
3763 | ldrab, accept [Rn] as a shorthand for [Rn,#0]. | |
c469c864 MM |
3764 | For SVE2 vector plus scalar offsets, allow [Zn.<T>] as shorthand for |
3765 | [Zn.<T>, xzr]. */ | |
a06ea964 NC |
3766 | if (operand->addr.preind == 0 && operand->addr.postind == 0) |
3767 | { | |
550fd7bf | 3768 | if (operand->addr.writeback) |
a06ea964 | 3769 | { |
1820262b DB |
3770 | if (operand->type == AARCH64_OPND_ADDR_SIMM10) |
3771 | { | |
3772 | /* Accept [Rn]! as a shorthand for [Rn,#0]! */ | |
3773 | operand->addr.offset.is_reg = 0; | |
3774 | operand->addr.offset.imm = 0; | |
3775 | operand->addr.preind = 1; | |
3776 | } | |
3777 | else | |
3778 | { | |
3779 | /* Reject [Rn]! */ | |
3780 | set_syntax_error (_("missing offset in the pre-indexed address")); | |
3781 | return FALSE; | |
3782 | } | |
a06ea964 | 3783 | } |
1820262b | 3784 | else |
c469c864 | 3785 | { |
1820262b DB |
3786 | operand->addr.preind = 1; |
3787 | if (operand->type == AARCH64_OPND_SVE_ADDR_ZX) | |
3788 | { | |
3789 | operand->addr.offset.is_reg = 1; | |
3790 | operand->addr.offset.regno = REG_ZR; | |
3791 | *offset_qualifier = AARCH64_OPND_QLF_X; | |
3792 | } | |
3793 | else | |
3794 | { | |
3795 | inst.reloc.exp.X_op = O_constant; | |
3796 | inst.reloc.exp.X_add_number = 0; | |
3797 | } | |
c469c864 | 3798 | } |
a06ea964 NC |
3799 | } |
3800 | ||
3801 | *str = p; | |
3802 | return TRUE; | |
3803 | } | |
3804 | ||
73866052 RS |
3805 | /* Parse a base AArch64 address (as opposed to an SVE one). Return TRUE |
3806 | on success. */ | |
a06ea964 | 3807 | static bfd_boolean |
73866052 | 3808 | parse_address (char **str, aarch64_opnd_info *operand) |
a06ea964 | 3809 | { |
4df068de RS |
3810 | aarch64_opnd_qualifier_t base_qualifier, offset_qualifier; |
3811 | return parse_address_main (str, operand, &base_qualifier, &offset_qualifier, | |
98907a70 | 3812 | REG_TYPE_R64_SP, REG_TYPE_R_Z, SHIFTED_NONE); |
4df068de RS |
3813 | } |
3814 | ||
98907a70 | 3815 | /* Parse an address in which SVE vector registers and MUL VL are allowed. |
4df068de RS |
3816 | The arguments have the same meaning as for parse_address_main. |
3817 | Return TRUE on success. */ | |
3818 | static bfd_boolean | |
3819 | parse_sve_address (char **str, aarch64_opnd_info *operand, | |
3820 | aarch64_opnd_qualifier_t *base_qualifier, | |
3821 | aarch64_opnd_qualifier_t *offset_qualifier) | |
3822 | { | |
3823 | return parse_address_main (str, operand, base_qualifier, offset_qualifier, | |
98907a70 RS |
3824 | REG_TYPE_SVE_BASE, REG_TYPE_SVE_OFFSET, |
3825 | SHIFTED_MUL_VL); | |
a06ea964 NC |
3826 | } |
3827 | ||
3828 | /* Parse an operand for a MOVZ, MOVN or MOVK instruction. | |
3829 | Return TRUE on success; otherwise return FALSE. */ | |
3830 | static bfd_boolean | |
3831 | parse_half (char **str, int *internal_fixup_p) | |
3832 | { | |
671eeb28 | 3833 | char *p = *str; |
a06ea964 | 3834 | |
a06ea964 NC |
3835 | skip_past_char (&p, '#'); |
3836 | ||
3837 | gas_assert (internal_fixup_p); | |
3838 | *internal_fixup_p = 0; | |
3839 | ||
3840 | if (*p == ':') | |
3841 | { | |
3842 | struct reloc_table_entry *entry; | |
3843 | ||
3844 | /* Try to parse a relocation. Anything else is an error. */ | |
3845 | ++p; | |
3846 | if (!(entry = find_reloc_table_entry (&p))) | |
3847 | { | |
3848 | set_syntax_error (_("unknown relocation modifier")); | |
3849 | return FALSE; | |
3850 | } | |
3851 | ||
3852 | if (entry->movw_type == 0) | |
3853 | { | |
3854 | set_syntax_error | |
3855 | (_("this relocation modifier is not allowed on this instruction")); | |
3856 | return FALSE; | |
3857 | } | |
3858 | ||
3859 | inst.reloc.type = entry->movw_type; | |
3860 | } | |
3861 | else | |
3862 | *internal_fixup_p = 1; | |
3863 | ||
a06ea964 NC |
3864 | if (! my_get_expression (&inst.reloc.exp, &p, GE_NO_PREFIX, 1)) |
3865 | return FALSE; | |
3866 | ||
3867 | *str = p; | |
3868 | return TRUE; | |
3869 | } | |
3870 | ||
3871 | /* Parse an operand for an ADRP instruction: | |
3872 | ADRP <Xd>, <label> | |
3873 | Return TRUE on success; otherwise return FALSE. */ | |
3874 | ||
3875 | static bfd_boolean | |
3876 | parse_adrp (char **str) | |
3877 | { | |
3878 | char *p; | |
3879 | ||
3880 | p = *str; | |
3881 | if (*p == ':') | |
3882 | { | |
3883 | struct reloc_table_entry *entry; | |
3884 | ||
3885 | /* Try to parse a relocation. Anything else is an error. */ | |
3886 | ++p; | |
3887 | if (!(entry = find_reloc_table_entry (&p))) | |
3888 | { | |
3889 | set_syntax_error (_("unknown relocation modifier")); | |
3890 | return FALSE; | |
3891 | } | |
3892 | ||
3893 | if (entry->adrp_type == 0) | |
3894 | { | |
3895 | set_syntax_error | |
3896 | (_("this relocation modifier is not allowed on this instruction")); | |
3897 | return FALSE; | |
3898 | } | |
3899 | ||
3900 | inst.reloc.type = entry->adrp_type; | |
3901 | } | |
3902 | else | |
3903 | inst.reloc.type = BFD_RELOC_AARCH64_ADR_HI21_PCREL; | |
3904 | ||
3905 | inst.reloc.pc_rel = 1; | |
3906 | ||
3907 | if (! my_get_expression (&inst.reloc.exp, &p, GE_NO_PREFIX, 1)) | |
3908 | return FALSE; | |
3909 | ||
3910 | *str = p; | |
3911 | return TRUE; | |
3912 | } | |
3913 | ||
3914 | /* Miscellaneous. */ | |
3915 | ||
245d2e3f RS |
3916 | /* Parse a symbolic operand such as "pow2" at *STR. ARRAY is an array |
3917 | of SIZE tokens in which index I gives the token for field value I, | |
3918 | or is null if field value I is invalid. REG_TYPE says which register | |
3919 | names should be treated as registers rather than as symbolic immediates. | |
3920 | ||
3921 | Return true on success, moving *STR past the operand and storing the | |
3922 | field value in *VAL. */ | |
3923 | ||
3924 | static int | |
3925 | parse_enum_string (char **str, int64_t *val, const char *const *array, | |
3926 | size_t size, aarch64_reg_type reg_type) | |
3927 | { | |
3928 | expressionS exp; | |
3929 | char *p, *q; | |
3930 | size_t i; | |
3931 | ||
3932 | /* Match C-like tokens. */ | |
3933 | p = q = *str; | |
3934 | while (ISALNUM (*q)) | |
3935 | q++; | |
3936 | ||
3937 | for (i = 0; i < size; ++i) | |
3938 | if (array[i] | |
3939 | && strncasecmp (array[i], p, q - p) == 0 | |
3940 | && array[i][q - p] == 0) | |
3941 | { | |
3942 | *val = i; | |
3943 | *str = q; | |
3944 | return TRUE; | |
3945 | } | |
3946 | ||
3947 | if (!parse_immediate_expression (&p, &exp, reg_type)) | |
3948 | return FALSE; | |
3949 | ||
3950 | if (exp.X_op == O_constant | |
3951 | && (uint64_t) exp.X_add_number < size) | |
3952 | { | |
3953 | *val = exp.X_add_number; | |
3954 | *str = p; | |
3955 | return TRUE; | |
3956 | } | |
3957 | ||
3958 | /* Use the default error for this operand. */ | |
3959 | return FALSE; | |
3960 | } | |
3961 | ||
a06ea964 NC |
3962 | /* Parse an option for a preload instruction. Returns the encoding for the |
3963 | option, or PARSE_FAIL. */ | |
3964 | ||
3965 | static int | |
3966 | parse_pldop (char **str) | |
3967 | { | |
3968 | char *p, *q; | |
3969 | const struct aarch64_name_value_pair *o; | |
3970 | ||
3971 | p = q = *str; | |
3972 | while (ISALNUM (*q)) | |
3973 | q++; | |
3974 | ||
629310ab | 3975 | o = str_hash_find_n (aarch64_pldop_hsh, p, q - p); |
a06ea964 NC |
3976 | if (!o) |
3977 | return PARSE_FAIL; | |
3978 | ||
3979 | *str = q; | |
3980 | return o->value; | |
3981 | } | |
3982 | ||
3983 | /* Parse an option for a barrier instruction. Returns the encoding for the | |
3984 | option, or PARSE_FAIL. */ | |
3985 | ||
3986 | static int | |
3987 | parse_barrier (char **str) | |
3988 | { | |
3989 | char *p, *q; | |
05cfb0d8 | 3990 | const struct aarch64_name_value_pair *o; |
a06ea964 NC |
3991 | |
3992 | p = q = *str; | |
3993 | while (ISALPHA (*q)) | |
3994 | q++; | |
3995 | ||
629310ab | 3996 | o = str_hash_find_n (aarch64_barrier_opt_hsh, p, q - p); |
a06ea964 NC |
3997 | if (!o) |
3998 | return PARSE_FAIL; | |
3999 | ||
4000 | *str = q; | |
4001 | return o->value; | |
4002 | } | |
4003 | ||
1e6f4800 MW |
4004 | /* Parse an operand for a PSB barrier. Set *HINT_OPT to the hint-option record |
4005 | return 0 if successful. Otherwise return PARSE_FAIL. */ | |
4006 | ||
4007 | static int | |
4008 | parse_barrier_psb (char **str, | |
4009 | const struct aarch64_name_value_pair ** hint_opt) | |
4010 | { | |
4011 | char *p, *q; | |
4012 | const struct aarch64_name_value_pair *o; | |
4013 | ||
4014 | p = q = *str; | |
4015 | while (ISALPHA (*q)) | |
4016 | q++; | |
4017 | ||
629310ab | 4018 | o = str_hash_find_n (aarch64_hint_opt_hsh, p, q - p); |
1e6f4800 MW |
4019 | if (!o) |
4020 | { | |
4021 | set_fatal_syntax_error | |
c2e5c986 | 4022 | ( _("unknown or missing option to PSB/TSB")); |
1e6f4800 MW |
4023 | return PARSE_FAIL; |
4024 | } | |
4025 | ||
4026 | if (o->value != 0x11) | |
4027 | { | |
4028 | /* PSB only accepts option name 'CSYNC'. */ | |
4029 | set_syntax_error | |
c2e5c986 | 4030 | (_("the specified option is not accepted for PSB/TSB")); |
1e6f4800 MW |
4031 | return PARSE_FAIL; |
4032 | } | |
4033 | ||
4034 | *str = q; | |
4035 | *hint_opt = o; | |
4036 | return 0; | |
4037 | } | |
4038 | ||
ff605452 SD |
4039 | /* Parse an operand for BTI. Set *HINT_OPT to the hint-option record |
4040 | return 0 if successful. Otherwise return PARSE_FAIL. */ | |
4041 | ||
4042 | static int | |
4043 | parse_bti_operand (char **str, | |
4044 | const struct aarch64_name_value_pair ** hint_opt) | |
4045 | { | |
4046 | char *p, *q; | |
4047 | const struct aarch64_name_value_pair *o; | |
4048 | ||
4049 | p = q = *str; | |
4050 | while (ISALPHA (*q)) | |
4051 | q++; | |
4052 | ||
629310ab | 4053 | o = str_hash_find_n (aarch64_hint_opt_hsh, p, q - p); |
ff605452 SD |
4054 | if (!o) |
4055 | { | |
4056 | set_fatal_syntax_error | |
4057 | ( _("unknown option to BTI")); | |
4058 | return PARSE_FAIL; | |
4059 | } | |
4060 | ||
4061 | switch (o->value) | |
4062 | { | |
4063 | /* Valid BTI operands. */ | |
4064 | case HINT_OPD_C: | |
4065 | case HINT_OPD_J: | |
4066 | case HINT_OPD_JC: | |
4067 | break; | |
4068 | ||
4069 | default: | |
4070 | set_syntax_error | |
4071 | (_("unknown option to BTI")); | |
4072 | return PARSE_FAIL; | |
4073 | } | |
4074 | ||
4075 | *str = q; | |
4076 | *hint_opt = o; | |
4077 | return 0; | |
4078 | } | |
4079 | ||
a06ea964 | 4080 | /* Parse a system register or a PSTATE field name for an MSR/MRS instruction. |
a203d9b7 | 4081 | Returns the encoding for the option, or PARSE_FAIL. |
a06ea964 NC |
4082 | |
4083 | If IMPLE_DEFINED_P is non-zero, the function will also try to parse the | |
72ca8fad MW |
4084 | implementation defined system register name S<op0>_<op1>_<Cn>_<Cm>_<op2>. |
4085 | ||
4086 | If PSTATEFIELD_P is non-zero, the function will parse the name as a PSTATE | |
4087 | field, otherwise as a system register. | |
4088 | */ | |
a06ea964 NC |
4089 | |
4090 | static int | |
629310ab | 4091 | parse_sys_reg (char **str, htab_t sys_regs, |
561a72d4 TC |
4092 | int imple_defined_p, int pstatefield_p, |
4093 | uint32_t* flags) | |
a06ea964 NC |
4094 | { |
4095 | char *p, *q; | |
fa63795f | 4096 | char buf[AARCH64_MAX_SYSREG_NAME_LEN]; |
49eec193 | 4097 | const aarch64_sys_reg *o; |
a06ea964 NC |
4098 | int value; |
4099 | ||
4100 | p = buf; | |
4101 | for (q = *str; ISALNUM (*q) || *q == '_'; q++) | |
fa63795f | 4102 | if (p < buf + (sizeof (buf) - 1)) |
a06ea964 NC |
4103 | *p++ = TOLOWER (*q); |
4104 | *p = '\0'; | |
fa63795f AC |
4105 | |
4106 | /* If the name is longer than AARCH64_MAX_SYSREG_NAME_LEN then it cannot be a | |
4107 | valid system register. This is enforced by construction of the hash | |
4108 | table. */ | |
4109 | if (p - buf != q - *str) | |
4110 | return PARSE_FAIL; | |
a06ea964 | 4111 | |
629310ab | 4112 | o = str_hash_find (sys_regs, buf); |
a06ea964 NC |
4113 | if (!o) |
4114 | { | |
4115 | if (!imple_defined_p) | |
4116 | return PARSE_FAIL; | |
4117 | else | |
4118 | { | |
df7b4545 | 4119 | /* Parse S<op0>_<op1>_<Cn>_<Cm>_<op2>. */ |
a06ea964 | 4120 | unsigned int op0, op1, cn, cm, op2; |
df7b4545 JW |
4121 | |
4122 | if (sscanf (buf, "s%u_%u_c%u_c%u_%u", &op0, &op1, &cn, &cm, &op2) | |
4123 | != 5) | |
a06ea964 | 4124 | return PARSE_FAIL; |
df7b4545 | 4125 | if (op0 > 3 || op1 > 7 || cn > 15 || cm > 15 || op2 > 7) |
a06ea964 NC |
4126 | return PARSE_FAIL; |
4127 | value = (op0 << 14) | (op1 << 11) | (cn << 7) | (cm << 3) | op2; | |
561a72d4 TC |
4128 | if (flags) |
4129 | *flags = 0; | |
a06ea964 NC |
4130 | } |
4131 | } | |
4132 | else | |
49eec193 | 4133 | { |
72ca8fad MW |
4134 | if (pstatefield_p && !aarch64_pstatefield_supported_p (cpu_variant, o)) |
4135 | as_bad (_("selected processor does not support PSTATE field " | |
4136 | "name '%s'"), buf); | |
f7cb161e | 4137 | if (!pstatefield_p |
38cf07a6 AC |
4138 | && !aarch64_sys_ins_reg_supported_p (cpu_variant, o->name, |
4139 | o->value, o->flags, o->features)) | |
72ca8fad MW |
4140 | as_bad (_("selected processor does not support system register " |
4141 | "name '%s'"), buf); | |
f7cb161e | 4142 | if (aarch64_sys_reg_deprecated_p (o->flags)) |
49eec193 | 4143 | as_warn (_("system register name '%s' is deprecated and may be " |
72ca8fad | 4144 | "removed in a future release"), buf); |
49eec193 | 4145 | value = o->value; |
561a72d4 TC |
4146 | if (flags) |
4147 | *flags = o->flags; | |
49eec193 | 4148 | } |
a06ea964 NC |
4149 | |
4150 | *str = q; | |
4151 | return value; | |
4152 | } | |
4153 | ||
4154 | /* Parse a system reg for ic/dc/at/tlbi instructions. Returns the table entry | |
4155 | for the option, or NULL. */ | |
4156 | ||
4157 | static const aarch64_sys_ins_reg * | |
629310ab | 4158 | parse_sys_ins_reg (char **str, htab_t sys_ins_regs) |
a06ea964 NC |
4159 | { |
4160 | char *p, *q; | |
fa63795f | 4161 | char buf[AARCH64_MAX_SYSREG_NAME_LEN]; |
a06ea964 NC |
4162 | const aarch64_sys_ins_reg *o; |
4163 | ||
4164 | p = buf; | |
4165 | for (q = *str; ISALNUM (*q) || *q == '_'; q++) | |
fa63795f | 4166 | if (p < buf + (sizeof (buf) - 1)) |
a06ea964 NC |
4167 | *p++ = TOLOWER (*q); |
4168 | *p = '\0'; | |
4169 | ||
fa63795f AC |
4170 | /* If the name is longer than AARCH64_MAX_SYSREG_NAME_LEN then it cannot be a |
4171 | valid system register. This is enforced by construction of the hash | |
4172 | table. */ | |
4173 | if (p - buf != q - *str) | |
4174 | return NULL; | |
4175 | ||
629310ab | 4176 | o = str_hash_find (sys_ins_regs, buf); |
a06ea964 NC |
4177 | if (!o) |
4178 | return NULL; | |
4179 | ||
38cf07a6 AC |
4180 | if (!aarch64_sys_ins_reg_supported_p (cpu_variant, |
4181 | o->name, o->value, o->flags, 0)) | |
d6bf7ce6 MW |
4182 | as_bad (_("selected processor does not support system register " |
4183 | "name '%s'"), buf); | |
f7cb161e PW |
4184 | if (aarch64_sys_reg_deprecated_p (o->flags)) |
4185 | as_warn (_("system register name '%s' is deprecated and may be " | |
4186 | "removed in a future release"), buf); | |
d6bf7ce6 | 4187 | |
a06ea964 NC |
4188 | *str = q; |
4189 | return o; | |
4190 | } | |
4191 | \f | |
4192 | #define po_char_or_fail(chr) do { \ | |
4193 | if (! skip_past_char (&str, chr)) \ | |
4194 | goto failure; \ | |
4195 | } while (0) | |
4196 | ||
4197 | #define po_reg_or_fail(regtype) do { \ | |
4198 | val = aarch64_reg_parse (&str, regtype, &rtype, NULL); \ | |
4199 | if (val == PARSE_FAIL) \ | |
4200 | { \ | |
4201 | set_default_error (); \ | |
4202 | goto failure; \ | |
4203 | } \ | |
4204 | } while (0) | |
4205 | ||
e1b988bb RS |
4206 | #define po_int_reg_or_fail(reg_type) do { \ |
4207 | reg = aarch64_reg_parse_32_64 (&str, &qualifier); \ | |
4208 | if (!reg || !aarch64_check_reg_type (reg, reg_type)) \ | |
a06ea964 NC |
4209 | { \ |
4210 | set_default_error (); \ | |
4211 | goto failure; \ | |
4212 | } \ | |
e1b988bb RS |
4213 | info->reg.regno = reg->number; \ |
4214 | info->qualifier = qualifier; \ | |
a06ea964 NC |
4215 | } while (0) |
4216 | ||
4217 | #define po_imm_nc_or_fail() do { \ | |
1799c0d0 | 4218 | if (! parse_constant_immediate (&str, &val, imm_reg_type)) \ |
a06ea964 NC |
4219 | goto failure; \ |
4220 | } while (0) | |
4221 | ||
4222 | #define po_imm_or_fail(min, max) do { \ | |
1799c0d0 | 4223 | if (! parse_constant_immediate (&str, &val, imm_reg_type)) \ |
a06ea964 NC |
4224 | goto failure; \ |
4225 | if (val < min || val > max) \ | |
4226 | { \ | |
4227 | set_fatal_syntax_error (_("immediate value out of range "\ | |
4228 | #min " to "#max)); \ | |
4229 | goto failure; \ | |
4230 | } \ | |
4231 | } while (0) | |
4232 | ||
245d2e3f RS |
4233 | #define po_enum_or_fail(array) do { \ |
4234 | if (!parse_enum_string (&str, &val, array, \ | |
4235 | ARRAY_SIZE (array), imm_reg_type)) \ | |
4236 | goto failure; \ | |
4237 | } while (0) | |
4238 | ||
a06ea964 NC |
4239 | #define po_misc_or_fail(expr) do { \ |
4240 | if (!expr) \ | |
4241 | goto failure; \ | |
4242 | } while (0) | |
4243 | \f | |
4244 | /* encode the 12-bit imm field of Add/sub immediate */ | |
4245 | static inline uint32_t | |
4246 | encode_addsub_imm (uint32_t imm) | |
4247 | { | |
4248 | return imm << 10; | |
4249 | } | |
4250 | ||
4251 | /* encode the shift amount field of Add/sub immediate */ | |
4252 | static inline uint32_t | |
4253 | encode_addsub_imm_shift_amount (uint32_t cnt) | |
4254 | { | |
4255 | return cnt << 22; | |
4256 | } | |
4257 | ||
4258 | ||
4259 | /* encode the imm field of Adr instruction */ | |
4260 | static inline uint32_t | |
4261 | encode_adr_imm (uint32_t imm) | |
4262 | { | |
4263 | return (((imm & 0x3) << 29) /* [1:0] -> [30:29] */ | |
4264 | | ((imm & (0x7ffff << 2)) << 3)); /* [20:2] -> [23:5] */ | |
4265 | } | |
4266 | ||
4267 | /* encode the immediate field of Move wide immediate */ | |
4268 | static inline uint32_t | |
4269 | encode_movw_imm (uint32_t imm) | |
4270 | { | |
4271 | return imm << 5; | |
4272 | } | |
4273 | ||
4274 | /* encode the 26-bit offset of unconditional branch */ | |
4275 | static inline uint32_t | |
4276 | encode_branch_ofs_26 (uint32_t ofs) | |
4277 | { | |
4278 | return ofs & ((1 << 26) - 1); | |
4279 | } | |
4280 | ||
4281 | /* encode the 19-bit offset of conditional branch and compare & branch */ | |
4282 | static inline uint32_t | |
4283 | encode_cond_branch_ofs_19 (uint32_t ofs) | |
4284 | { | |
4285 | return (ofs & ((1 << 19) - 1)) << 5; | |
4286 | } | |
4287 | ||
4288 | /* encode the 19-bit offset of ld literal */ | |
4289 | static inline uint32_t | |
4290 | encode_ld_lit_ofs_19 (uint32_t ofs) | |
4291 | { | |
4292 | return (ofs & ((1 << 19) - 1)) << 5; | |
4293 | } | |
4294 | ||
4295 | /* Encode the 14-bit offset of test & branch. */ | |
4296 | static inline uint32_t | |
4297 | encode_tst_branch_ofs_14 (uint32_t ofs) | |
4298 | { | |
4299 | return (ofs & ((1 << 14) - 1)) << 5; | |
4300 | } | |
4301 | ||
4302 | /* Encode the 16-bit imm field of svc/hvc/smc. */ | |
4303 | static inline uint32_t | |
4304 | encode_svc_imm (uint32_t imm) | |
4305 | { | |
4306 | return imm << 5; | |
4307 | } | |
4308 | ||
4309 | /* Reencode add(s) to sub(s), or sub(s) to add(s). */ | |
4310 | static inline uint32_t | |
4311 | reencode_addsub_switch_add_sub (uint32_t opcode) | |
4312 | { | |
4313 | return opcode ^ (1 << 30); | |
4314 | } | |
4315 | ||
4316 | static inline uint32_t | |
4317 | reencode_movzn_to_movz (uint32_t opcode) | |
4318 | { | |
4319 | return opcode | (1 << 30); | |
4320 | } | |
4321 | ||
4322 | static inline uint32_t | |
4323 | reencode_movzn_to_movn (uint32_t opcode) | |
4324 | { | |
4325 | return opcode & ~(1 << 30); | |
4326 | } | |
4327 | ||
4328 | /* Overall per-instruction processing. */ | |
4329 | ||
4330 | /* We need to be able to fix up arbitrary expressions in some statements. | |
4331 | This is so that we can handle symbols that are an arbitrary distance from | |
4332 | the pc. The most common cases are of the form ((+/-sym -/+ . - 8) & mask), | |
4333 | which returns part of an address in a form which will be valid for | |
4334 | a data instruction. We do this by pushing the expression into a symbol | |
4335 | in the expr_section, and creating a fix for that. */ | |
4336 | ||
4337 | static fixS * | |
4338 | fix_new_aarch64 (fragS * frag, | |
4339 | int where, | |
f7cb161e PW |
4340 | short int size, |
4341 | expressionS * exp, | |
4342 | int pc_rel, | |
4343 | int reloc) | |
a06ea964 NC |
4344 | { |
4345 | fixS *new_fix; | |
4346 | ||
4347 | switch (exp->X_op) | |
4348 | { | |
4349 | case O_constant: | |
4350 | case O_symbol: | |
4351 | case O_add: | |
4352 | case O_subtract: | |
4353 | new_fix = fix_new_exp (frag, where, size, exp, pc_rel, reloc); | |
4354 | break; | |
4355 | ||
4356 | default: | |
4357 | new_fix = fix_new (frag, where, size, make_expr_symbol (exp), 0, | |
4358 | pc_rel, reloc); | |
4359 | break; | |
4360 | } | |
4361 | return new_fix; | |
4362 | } | |
4363 | \f | |
4364 | /* Diagnostics on operands errors. */ | |
4365 | ||
a52e6fd3 YZ |
4366 | /* By default, output verbose error message. |
4367 | Disable the verbose error message by -mno-verbose-error. */ | |
4368 | static int verbose_error_p = 1; | |
a06ea964 NC |
4369 | |
4370 | #ifdef DEBUG_AARCH64 | |
4371 | /* N.B. this is only for the purpose of debugging. */ | |
4372 | const char* operand_mismatch_kind_names[] = | |
4373 | { | |
4374 | "AARCH64_OPDE_NIL", | |
4375 | "AARCH64_OPDE_RECOVERABLE", | |
4376 | "AARCH64_OPDE_SYNTAX_ERROR", | |
4377 | "AARCH64_OPDE_FATAL_SYNTAX_ERROR", | |
4378 | "AARCH64_OPDE_INVALID_VARIANT", | |
4379 | "AARCH64_OPDE_OUT_OF_RANGE", | |
4380 | "AARCH64_OPDE_UNALIGNED", | |
4381 | "AARCH64_OPDE_REG_LIST", | |
4382 | "AARCH64_OPDE_OTHER_ERROR", | |
4383 | }; | |
4384 | #endif /* DEBUG_AARCH64 */ | |
4385 | ||
4386 | /* Return TRUE if LHS is of higher severity than RHS, otherwise return FALSE. | |
4387 | ||
4388 | When multiple errors of different kinds are found in the same assembly | |
4389 | line, only the error of the highest severity will be picked up for | |
4390 | issuing the diagnostics. */ | |
4391 | ||
4392 | static inline bfd_boolean | |
4393 | operand_error_higher_severity_p (enum aarch64_operand_error_kind lhs, | |
4394 | enum aarch64_operand_error_kind rhs) | |
4395 | { | |
4396 | gas_assert (AARCH64_OPDE_RECOVERABLE > AARCH64_OPDE_NIL); | |
4397 | gas_assert (AARCH64_OPDE_SYNTAX_ERROR > AARCH64_OPDE_RECOVERABLE); | |
4398 | gas_assert (AARCH64_OPDE_FATAL_SYNTAX_ERROR > AARCH64_OPDE_SYNTAX_ERROR); | |
4399 | gas_assert (AARCH64_OPDE_INVALID_VARIANT > AARCH64_OPDE_FATAL_SYNTAX_ERROR); | |
4400 | gas_assert (AARCH64_OPDE_OUT_OF_RANGE > AARCH64_OPDE_INVALID_VARIANT); | |
4401 | gas_assert (AARCH64_OPDE_UNALIGNED > AARCH64_OPDE_OUT_OF_RANGE); | |
4402 | gas_assert (AARCH64_OPDE_REG_LIST > AARCH64_OPDE_UNALIGNED); | |
4403 | gas_assert (AARCH64_OPDE_OTHER_ERROR > AARCH64_OPDE_REG_LIST); | |
4404 | return lhs > rhs; | |
4405 | } | |
4406 | ||
4407 | /* Helper routine to get the mnemonic name from the assembly instruction | |
4408 | line; should only be called for the diagnosis purpose, as there is | |
4409 | string copy operation involved, which may affect the runtime | |
4410 | performance if used in elsewhere. */ | |
4411 | ||
4412 | static const char* | |
4413 | get_mnemonic_name (const char *str) | |
4414 | { | |
4415 | static char mnemonic[32]; | |
4416 | char *ptr; | |
4417 | ||
4418 | /* Get the first 15 bytes and assume that the full name is included. */ | |
4419 | strncpy (mnemonic, str, 31); | |
4420 | mnemonic[31] = '\0'; | |
4421 | ||
4422 | /* Scan up to the end of the mnemonic, which must end in white space, | |
4423 | '.', or end of string. */ | |
4424 | for (ptr = mnemonic; is_part_of_name(*ptr); ++ptr) | |
4425 | ; | |
4426 | ||
4427 | *ptr = '\0'; | |
4428 | ||
4429 | /* Append '...' to the truncated long name. */ | |
4430 | if (ptr - mnemonic == 31) | |
4431 | mnemonic[28] = mnemonic[29] = mnemonic[30] = '.'; | |
4432 | ||
4433 | return mnemonic; | |
4434 | } | |
4435 | ||
4436 | static void | |
4437 | reset_aarch64_instruction (aarch64_instruction *instruction) | |
4438 | { | |
4439 | memset (instruction, '\0', sizeof (aarch64_instruction)); | |
4440 | instruction->reloc.type = BFD_RELOC_UNUSED; | |
4441 | } | |
4442 | ||
33eaf5de | 4443 | /* Data structures storing one user error in the assembly code related to |
a06ea964 NC |
4444 | operands. */ |
4445 | ||
4446 | struct operand_error_record | |
4447 | { | |
4448 | const aarch64_opcode *opcode; | |
4449 | aarch64_operand_error detail; | |
4450 | struct operand_error_record *next; | |
4451 | }; | |
4452 | ||
4453 | typedef struct operand_error_record operand_error_record; | |
4454 | ||
4455 | struct operand_errors | |
4456 | { | |
4457 | operand_error_record *head; | |
4458 | operand_error_record *tail; | |
4459 | }; | |
4460 | ||
4461 | typedef struct operand_errors operand_errors; | |
4462 | ||
4463 | /* Top-level data structure reporting user errors for the current line of | |
4464 | the assembly code. | |
4465 | The way md_assemble works is that all opcodes sharing the same mnemonic | |
4466 | name are iterated to find a match to the assembly line. In this data | |
4467 | structure, each of the such opcodes will have one operand_error_record | |
4468 | allocated and inserted. In other words, excessive errors related with | |
4469 | a single opcode are disregarded. */ | |
4470 | operand_errors operand_error_report; | |
4471 | ||
4472 | /* Free record nodes. */ | |
4473 | static operand_error_record *free_opnd_error_record_nodes = NULL; | |
4474 | ||
4475 | /* Initialize the data structure that stores the operand mismatch | |
4476 | information on assembling one line of the assembly code. */ | |
4477 | static void | |
4478 | init_operand_error_report (void) | |
4479 | { | |
4480 | if (operand_error_report.head != NULL) | |
4481 | { | |
4482 | gas_assert (operand_error_report.tail != NULL); | |
4483 | operand_error_report.tail->next = free_opnd_error_record_nodes; | |
4484 | free_opnd_error_record_nodes = operand_error_report.head; | |
4485 | operand_error_report.head = NULL; | |
4486 | operand_error_report.tail = NULL; | |
4487 | return; | |
4488 | } | |
4489 | gas_assert (operand_error_report.tail == NULL); | |
4490 | } | |
4491 | ||
4492 | /* Return TRUE if some operand error has been recorded during the | |
4493 | parsing of the current assembly line using the opcode *OPCODE; | |
4494 | otherwise return FALSE. */ | |
4495 | static inline bfd_boolean | |
4496 | opcode_has_operand_error_p (const aarch64_opcode *opcode) | |
4497 | { | |
4498 | operand_error_record *record = operand_error_report.head; | |
4499 | return record && record->opcode == opcode; | |
4500 | } | |
4501 | ||
4502 | /* Add the error record *NEW_RECORD to operand_error_report. The record's | |
4503 | OPCODE field is initialized with OPCODE. | |
4504 | N.B. only one record for each opcode, i.e. the maximum of one error is | |
4505 | recorded for each instruction template. */ | |
4506 | ||
4507 | static void | |
4508 | add_operand_error_record (const operand_error_record* new_record) | |
4509 | { | |
4510 | const aarch64_opcode *opcode = new_record->opcode; | |
4511 | operand_error_record* record = operand_error_report.head; | |
4512 | ||
4513 | /* The record may have been created for this opcode. If not, we need | |
4514 | to prepare one. */ | |
4515 | if (! opcode_has_operand_error_p (opcode)) | |
4516 | { | |
4517 | /* Get one empty record. */ | |
4518 | if (free_opnd_error_record_nodes == NULL) | |
4519 | { | |
325801bd | 4520 | record = XNEW (operand_error_record); |
a06ea964 NC |
4521 | } |
4522 | else | |
4523 | { | |
4524 | record = free_opnd_error_record_nodes; | |
4525 | free_opnd_error_record_nodes = record->next; | |
4526 | } | |
4527 | record->opcode = opcode; | |
4528 | /* Insert at the head. */ | |
4529 | record->next = operand_error_report.head; | |
4530 | operand_error_report.head = record; | |
4531 | if (operand_error_report.tail == NULL) | |
4532 | operand_error_report.tail = record; | |
4533 | } | |
4534 | else if (record->detail.kind != AARCH64_OPDE_NIL | |
4535 | && record->detail.index <= new_record->detail.index | |
4536 | && operand_error_higher_severity_p (record->detail.kind, | |
4537 | new_record->detail.kind)) | |
4538 | { | |
4539 | /* In the case of multiple errors found on operands related with a | |
4540 | single opcode, only record the error of the leftmost operand and | |
4541 | only if the error is of higher severity. */ | |
4542 | DEBUG_TRACE ("error %s on operand %d not added to the report due to" | |
4543 | " the existing error %s on operand %d", | |
4544 | operand_mismatch_kind_names[new_record->detail.kind], | |
4545 | new_record->detail.index, | |
4546 | operand_mismatch_kind_names[record->detail.kind], | |
4547 | record->detail.index); | |
4548 | return; | |
4549 | } | |
4550 | ||
4551 | record->detail = new_record->detail; | |
4552 | } | |
4553 | ||
4554 | static inline void | |
4555 | record_operand_error_info (const aarch64_opcode *opcode, | |
4556 | aarch64_operand_error *error_info) | |
4557 | { | |
4558 | operand_error_record record; | |
4559 | record.opcode = opcode; | |
4560 | record.detail = *error_info; | |
4561 | add_operand_error_record (&record); | |
4562 | } | |
4563 | ||
4564 | /* Record an error of kind KIND and, if ERROR is not NULL, of the detailed | |
4565 | error message *ERROR, for operand IDX (count from 0). */ | |
4566 | ||
4567 | static void | |
4568 | record_operand_error (const aarch64_opcode *opcode, int idx, | |
4569 | enum aarch64_operand_error_kind kind, | |
4570 | const char* error) | |
4571 | { | |
4572 | aarch64_operand_error info; | |
4573 | memset(&info, 0, sizeof (info)); | |
4574 | info.index = idx; | |
4575 | info.kind = kind; | |
4576 | info.error = error; | |
2a9b2c1a | 4577 | info.non_fatal = FALSE; |
a06ea964 NC |
4578 | record_operand_error_info (opcode, &info); |
4579 | } | |
4580 | ||
4581 | static void | |
4582 | record_operand_error_with_data (const aarch64_opcode *opcode, int idx, | |
4583 | enum aarch64_operand_error_kind kind, | |
4584 | const char* error, const int *extra_data) | |
4585 | { | |
4586 | aarch64_operand_error info; | |
4587 | info.index = idx; | |
4588 | info.kind = kind; | |
4589 | info.error = error; | |
4590 | info.data[0] = extra_data[0]; | |
4591 | info.data[1] = extra_data[1]; | |
4592 | info.data[2] = extra_data[2]; | |
2a9b2c1a | 4593 | info.non_fatal = FALSE; |
a06ea964 NC |
4594 | record_operand_error_info (opcode, &info); |
4595 | } | |
4596 | ||
4597 | static void | |
4598 | record_operand_out_of_range_error (const aarch64_opcode *opcode, int idx, | |
4599 | const char* error, int lower_bound, | |
4600 | int upper_bound) | |
4601 | { | |
4602 | int data[3] = {lower_bound, upper_bound, 0}; | |
4603 | record_operand_error_with_data (opcode, idx, AARCH64_OPDE_OUT_OF_RANGE, | |
4604 | error, data); | |
4605 | } | |
4606 | ||
4607 | /* Remove the operand error record for *OPCODE. */ | |
4608 | static void ATTRIBUTE_UNUSED | |
4609 | remove_operand_error_record (const aarch64_opcode *opcode) | |
4610 | { | |
4611 | if (opcode_has_operand_error_p (opcode)) | |
4612 | { | |
4613 | operand_error_record* record = operand_error_report.head; | |
4614 | gas_assert (record != NULL && operand_error_report.tail != NULL); | |
4615 | operand_error_report.head = record->next; | |
4616 | record->next = free_opnd_error_record_nodes; | |
4617 | free_opnd_error_record_nodes = record; | |
4618 | if (operand_error_report.head == NULL) | |
4619 | { | |
4620 | gas_assert (operand_error_report.tail == record); | |
4621 | operand_error_report.tail = NULL; | |
4622 | } | |
4623 | } | |
4624 | } | |
4625 | ||
4626 | /* Given the instruction in *INSTR, return the index of the best matched | |
4627 | qualifier sequence in the list (an array) headed by QUALIFIERS_LIST. | |
4628 | ||
4629 | Return -1 if there is no qualifier sequence; return the first match | |
4630 | if there is multiple matches found. */ | |
4631 | ||
4632 | static int | |
4633 | find_best_match (const aarch64_inst *instr, | |
4634 | const aarch64_opnd_qualifier_seq_t *qualifiers_list) | |
4635 | { | |
4636 | int i, num_opnds, max_num_matched, idx; | |
4637 | ||
4638 | num_opnds = aarch64_num_of_operands (instr->opcode); | |
4639 | if (num_opnds == 0) | |
4640 | { | |
4641 | DEBUG_TRACE ("no operand"); | |
4642 | return -1; | |
4643 | } | |
4644 | ||
4645 | max_num_matched = 0; | |
4989adac | 4646 | idx = 0; |
a06ea964 NC |
4647 | |
4648 | /* For each pattern. */ | |
4649 | for (i = 0; i < AARCH64_MAX_QLF_SEQ_NUM; ++i, ++qualifiers_list) | |
4650 | { | |
4651 | int j, num_matched; | |
4652 | const aarch64_opnd_qualifier_t *qualifiers = *qualifiers_list; | |
4653 | ||
4654 | /* Most opcodes has much fewer patterns in the list. */ | |
535b785f | 4655 | if (empty_qualifier_sequence_p (qualifiers)) |
a06ea964 NC |
4656 | { |
4657 | DEBUG_TRACE_IF (i == 0, "empty list of qualifier sequence"); | |
a06ea964 NC |
4658 | break; |
4659 | } | |
4660 | ||
4661 | for (j = 0, num_matched = 0; j < num_opnds; ++j, ++qualifiers) | |
4662 | if (*qualifiers == instr->operands[j].qualifier) | |
4663 | ++num_matched; | |
4664 | ||
4665 | if (num_matched > max_num_matched) | |
4666 | { | |
4667 | max_num_matched = num_matched; | |
4668 | idx = i; | |
4669 | } | |
4670 | } | |
4671 | ||
4672 | DEBUG_TRACE ("return with %d", idx); | |
4673 | return idx; | |
4674 | } | |
4675 | ||
33eaf5de | 4676 | /* Assign qualifiers in the qualifier sequence (headed by QUALIFIERS) to the |
a06ea964 NC |
4677 | corresponding operands in *INSTR. */ |
4678 | ||
4679 | static inline void | |
4680 | assign_qualifier_sequence (aarch64_inst *instr, | |
4681 | const aarch64_opnd_qualifier_t *qualifiers) | |
4682 | { | |
4683 | int i = 0; | |
4684 | int num_opnds = aarch64_num_of_operands (instr->opcode); | |
4685 | gas_assert (num_opnds); | |
4686 | for (i = 0; i < num_opnds; ++i, ++qualifiers) | |
4687 | instr->operands[i].qualifier = *qualifiers; | |
4688 | } | |
4689 | ||
4690 | /* Print operands for the diagnosis purpose. */ | |
4691 | ||
4692 | static void | |
4693 | print_operands (char *buf, const aarch64_opcode *opcode, | |
4694 | const aarch64_opnd_info *opnds) | |
4695 | { | |
4696 | int i; | |
4697 | ||
4698 | for (i = 0; i < AARCH64_MAX_OPND_NUM; ++i) | |
4699 | { | |
08d3b0cc | 4700 | char str[128]; |
a06ea964 NC |
4701 | |
4702 | /* We regard the opcode operand info more, however we also look into | |
4703 | the inst->operands to support the disassembling of the optional | |
4704 | operand. | |
4705 | The two operand code should be the same in all cases, apart from | |
4706 | when the operand can be optional. */ | |
4707 | if (opcode->operands[i] == AARCH64_OPND_NIL | |
4708 | || opnds[i].type == AARCH64_OPND_NIL) | |
4709 | break; | |
4710 | ||
4711 | /* Generate the operand string in STR. */ | |
7d02540a | 4712 | aarch64_print_operand (str, sizeof (str), 0, opcode, opnds, i, NULL, NULL, |
38cf07a6 | 4713 | NULL, cpu_variant); |
a06ea964 NC |
4714 | |
4715 | /* Delimiter. */ | |
4716 | if (str[0] != '\0') | |
ad43e107 | 4717 | strcat (buf, i == 0 ? " " : ", "); |
a06ea964 NC |
4718 | |
4719 | /* Append the operand string. */ | |
4720 | strcat (buf, str); | |
4721 | } | |
4722 | } | |
4723 | ||
4724 | /* Send to stderr a string as information. */ | |
4725 | ||
4726 | static void | |
4727 | output_info (const char *format, ...) | |
4728 | { | |
3b4dbbbf | 4729 | const char *file; |
a06ea964 NC |
4730 | unsigned int line; |
4731 | va_list args; | |
4732 | ||
3b4dbbbf | 4733 | file = as_where (&line); |
a06ea964 NC |
4734 | if (file) |
4735 | { | |
4736 | if (line != 0) | |
4737 | fprintf (stderr, "%s:%u: ", file, line); | |
4738 | else | |
4739 | fprintf (stderr, "%s: ", file); | |
4740 | } | |
4741 | fprintf (stderr, _("Info: ")); | |
4742 | va_start (args, format); | |
4743 | vfprintf (stderr, format, args); | |
4744 | va_end (args); | |
4745 | (void) putc ('\n', stderr); | |
4746 | } | |
4747 | ||
4748 | /* Output one operand error record. */ | |
4749 | ||
4750 | static void | |
4751 | output_operand_error_record (const operand_error_record *record, char *str) | |
4752 | { | |
28f013d5 JB |
4753 | const aarch64_operand_error *detail = &record->detail; |
4754 | int idx = detail->index; | |
a06ea964 | 4755 | const aarch64_opcode *opcode = record->opcode; |
28f013d5 | 4756 | enum aarch64_opnd opd_code = (idx >= 0 ? opcode->operands[idx] |
a06ea964 | 4757 | : AARCH64_OPND_NIL); |
a06ea964 | 4758 | |
7d02540a TC |
4759 | typedef void (*handler_t)(const char *format, ...); |
4760 | handler_t handler = detail->non_fatal ? as_warn : as_bad; | |
4761 | ||
a06ea964 NC |
4762 | switch (detail->kind) |
4763 | { | |
4764 | case AARCH64_OPDE_NIL: | |
4765 | gas_assert (0); | |
4766 | break; | |
a06ea964 NC |
4767 | case AARCH64_OPDE_SYNTAX_ERROR: |
4768 | case AARCH64_OPDE_RECOVERABLE: | |
4769 | case AARCH64_OPDE_FATAL_SYNTAX_ERROR: | |
4770 | case AARCH64_OPDE_OTHER_ERROR: | |
a06ea964 NC |
4771 | /* Use the prepared error message if there is, otherwise use the |
4772 | operand description string to describe the error. */ | |
4773 | if (detail->error != NULL) | |
4774 | { | |
28f013d5 | 4775 | if (idx < 0) |
7d02540a | 4776 | handler (_("%s -- `%s'"), detail->error, str); |
a06ea964 | 4777 | else |
7d02540a TC |
4778 | handler (_("%s at operand %d -- `%s'"), |
4779 | detail->error, idx + 1, str); | |
a06ea964 NC |
4780 | } |
4781 | else | |
28f013d5 JB |
4782 | { |
4783 | gas_assert (idx >= 0); | |
7d02540a TC |
4784 | handler (_("operand %d must be %s -- `%s'"), idx + 1, |
4785 | aarch64_get_operand_desc (opd_code), str); | |
28f013d5 | 4786 | } |
a06ea964 NC |
4787 | break; |
4788 | ||
4789 | case AARCH64_OPDE_INVALID_VARIANT: | |
7d02540a | 4790 | handler (_("operand mismatch -- `%s'"), str); |
a06ea964 NC |
4791 | if (verbose_error_p) |
4792 | { | |
4793 | /* We will try to correct the erroneous instruction and also provide | |
4794 | more information e.g. all other valid variants. | |
4795 | ||
4796 | The string representation of the corrected instruction and other | |
4797 | valid variants are generated by | |
4798 | ||
4799 | 1) obtaining the intermediate representation of the erroneous | |
4800 | instruction; | |
4801 | 2) manipulating the IR, e.g. replacing the operand qualifier; | |
4802 | 3) printing out the instruction by calling the printer functions | |
4803 | shared with the disassembler. | |
4804 | ||
4805 | The limitation of this method is that the exact input assembly | |
4806 | line cannot be accurately reproduced in some cases, for example an | |
4807 | optional operand present in the actual assembly line will be | |
4808 | omitted in the output; likewise for the optional syntax rules, | |
4809 | e.g. the # before the immediate. Another limitation is that the | |
4810 | assembly symbols and relocation operations in the assembly line | |
4811 | currently cannot be printed out in the error report. Last but not | |
4812 | least, when there is other error(s) co-exist with this error, the | |
4813 | 'corrected' instruction may be still incorrect, e.g. given | |
4814 | 'ldnp h0,h1,[x0,#6]!' | |
4815 | this diagnosis will provide the version: | |
4816 | 'ldnp s0,s1,[x0,#6]!' | |
4817 | which is still not right. */ | |
4818 | size_t len = strlen (get_mnemonic_name (str)); | |
4819 | int i, qlf_idx; | |
4820 | bfd_boolean result; | |
08d3b0cc | 4821 | char buf[2048]; |
a06ea964 NC |
4822 | aarch64_inst *inst_base = &inst.base; |
4823 | const aarch64_opnd_qualifier_seq_t *qualifiers_list; | |
4824 | ||
4825 | /* Init inst. */ | |
4826 | reset_aarch64_instruction (&inst); | |
4827 | inst_base->opcode = opcode; | |
4828 | ||
4829 | /* Reset the error report so that there is no side effect on the | |
4830 | following operand parsing. */ | |
4831 | init_operand_error_report (); | |
4832 | ||
4833 | /* Fill inst. */ | |
4834 | result = parse_operands (str + len, opcode) | |
4835 | && programmer_friendly_fixup (&inst); | |
4836 | gas_assert (result); | |
4837 | result = aarch64_opcode_encode (opcode, inst_base, &inst_base->value, | |
7e84b55d | 4838 | NULL, NULL, insn_sequence); |
a06ea964 NC |
4839 | gas_assert (!result); |
4840 | ||
4841 | /* Find the most matched qualifier sequence. */ | |
4842 | qlf_idx = find_best_match (inst_base, opcode->qualifiers_list); | |
4843 | gas_assert (qlf_idx > -1); | |
4844 | ||
4845 | /* Assign the qualifiers. */ | |
4846 | assign_qualifier_sequence (inst_base, | |
4847 | opcode->qualifiers_list[qlf_idx]); | |
4848 | ||
4849 | /* Print the hint. */ | |
4850 | output_info (_(" did you mean this?")); | |
08d3b0cc | 4851 | snprintf (buf, sizeof (buf), "\t%s", get_mnemonic_name (str)); |
a06ea964 NC |
4852 | print_operands (buf, opcode, inst_base->operands); |
4853 | output_info (_(" %s"), buf); | |
4854 | ||
4855 | /* Print out other variant(s) if there is any. */ | |
4856 | if (qlf_idx != 0 || | |
4857 | !empty_qualifier_sequence_p (opcode->qualifiers_list[1])) | |
4858 | output_info (_(" other valid variant(s):")); | |
4859 | ||
4860 | /* For each pattern. */ | |
4861 | qualifiers_list = opcode->qualifiers_list; | |
4862 | for (i = 0; i < AARCH64_MAX_QLF_SEQ_NUM; ++i, ++qualifiers_list) | |
4863 | { | |
4864 | /* Most opcodes has much fewer patterns in the list. | |
4865 | First NIL qualifier indicates the end in the list. */ | |
535b785f | 4866 | if (empty_qualifier_sequence_p (*qualifiers_list)) |
a06ea964 NC |
4867 | break; |
4868 | ||
4869 | if (i != qlf_idx) | |
4870 | { | |
4871 | /* Mnemonics name. */ | |
08d3b0cc | 4872 | snprintf (buf, sizeof (buf), "\t%s", get_mnemonic_name (str)); |
a06ea964 NC |
4873 | |
4874 | /* Assign the qualifiers. */ | |
4875 | assign_qualifier_sequence (inst_base, *qualifiers_list); | |
4876 | ||
4877 | /* Print instruction. */ | |
4878 | print_operands (buf, opcode, inst_base->operands); | |
4879 | ||
4880 | output_info (_(" %s"), buf); | |
4881 | } | |
4882 | } | |
4883 | } | |
4884 | break; | |
4885 | ||
0c608d6b | 4886 | case AARCH64_OPDE_UNTIED_OPERAND: |
7d02540a TC |
4887 | handler (_("operand %d must be the same register as operand 1 -- `%s'"), |
4888 | detail->index + 1, str); | |
0c608d6b RS |
4889 | break; |
4890 | ||
a06ea964 | 4891 | case AARCH64_OPDE_OUT_OF_RANGE: |
f5555712 | 4892 | if (detail->data[0] != detail->data[1]) |
7d02540a TC |
4893 | handler (_("%s out of range %d to %d at operand %d -- `%s'"), |
4894 | detail->error ? detail->error : _("immediate value"), | |
4895 | detail->data[0], detail->data[1], idx + 1, str); | |
f5555712 | 4896 | else |
7d02540a TC |
4897 | handler (_("%s must be %d at operand %d -- `%s'"), |
4898 | detail->error ? detail->error : _("immediate value"), | |
4899 | detail->data[0], idx + 1, str); | |
a06ea964 NC |
4900 | break; |
4901 | ||
4902 | case AARCH64_OPDE_REG_LIST: | |
4903 | if (detail->data[0] == 1) | |
7d02540a TC |
4904 | handler (_("invalid number of registers in the list; " |
4905 | "only 1 register is expected at operand %d -- `%s'"), | |
4906 | idx + 1, str); | |
a06ea964 | 4907 | else |
7d02540a TC |
4908 | handler (_("invalid number of registers in the list; " |
4909 | "%d registers are expected at operand %d -- `%s'"), | |
4910 | detail->data[0], idx + 1, str); | |
a06ea964 NC |
4911 | break; |
4912 | ||
4913 | case AARCH64_OPDE_UNALIGNED: | |
7d02540a TC |
4914 | handler (_("immediate value must be a multiple of " |
4915 | "%d at operand %d -- `%s'"), | |
4916 | detail->data[0], idx + 1, str); | |
a06ea964 NC |
4917 | break; |
4918 | ||
4919 | default: | |
4920 | gas_assert (0); | |
4921 | break; | |
4922 | } | |
4923 | } | |
4924 | ||
4925 | /* Process and output the error message about the operand mismatching. | |
4926 | ||
4927 | When this function is called, the operand error information had | |
4928 | been collected for an assembly line and there will be multiple | |
33eaf5de | 4929 | errors in the case of multiple instruction templates; output the |
7d02540a TC |
4930 | error message that most closely describes the problem. |
4931 | ||
4932 | The errors to be printed can be filtered on printing all errors | |
4933 | or only non-fatal errors. This distinction has to be made because | |
4934 | the error buffer may already be filled with fatal errors we don't want to | |
4935 | print due to the different instruction templates. */ | |
a06ea964 NC |
4936 | |
4937 | static void | |
7d02540a | 4938 | output_operand_error_report (char *str, bfd_boolean non_fatal_only) |
a06ea964 NC |
4939 | { |
4940 | int largest_error_pos; | |
4941 | const char *msg = NULL; | |
4942 | enum aarch64_operand_error_kind kind; | |
4943 | operand_error_record *curr; | |
4944 | operand_error_record *head = operand_error_report.head; | |
4945 | operand_error_record *record = NULL; | |
4946 | ||
4947 | /* No error to report. */ | |
4948 | if (head == NULL) | |
4949 | return; | |
4950 | ||
4951 | gas_assert (head != NULL && operand_error_report.tail != NULL); | |
4952 | ||
4953 | /* Only one error. */ | |
4954 | if (head == operand_error_report.tail) | |
4955 | { | |
7d02540a TC |
4956 | /* If the only error is a non-fatal one and we don't want to print it, |
4957 | just exit. */ | |
4958 | if (!non_fatal_only || head->detail.non_fatal) | |
4959 | { | |
4960 | DEBUG_TRACE ("single opcode entry with error kind: %s", | |
4961 | operand_mismatch_kind_names[head->detail.kind]); | |
4962 | output_operand_error_record (head, str); | |
4963 | } | |
a06ea964 NC |
4964 | return; |
4965 | } | |
4966 | ||
4967 | /* Find the error kind of the highest severity. */ | |
33eaf5de | 4968 | DEBUG_TRACE ("multiple opcode entries with error kind"); |
a06ea964 NC |
4969 | kind = AARCH64_OPDE_NIL; |
4970 | for (curr = head; curr != NULL; curr = curr->next) | |
4971 | { | |
4972 | gas_assert (curr->detail.kind != AARCH64_OPDE_NIL); | |
4973 | DEBUG_TRACE ("\t%s", operand_mismatch_kind_names[curr->detail.kind]); | |
a68f4cd2 TC |
4974 | if (operand_error_higher_severity_p (curr->detail.kind, kind) |
4975 | && (!non_fatal_only || (non_fatal_only && curr->detail.non_fatal))) | |
a06ea964 NC |
4976 | kind = curr->detail.kind; |
4977 | } | |
a68f4cd2 TC |
4978 | |
4979 | gas_assert (kind != AARCH64_OPDE_NIL || non_fatal_only); | |
a06ea964 NC |
4980 | |
4981 | /* Pick up one of errors of KIND to report. */ | |
4982 | largest_error_pos = -2; /* Index can be -1 which means unknown index. */ | |
4983 | for (curr = head; curr != NULL; curr = curr->next) | |
4984 | { | |
7d02540a TC |
4985 | /* If we don't want to print non-fatal errors then don't consider them |
4986 | at all. */ | |
4987 | if (curr->detail.kind != kind | |
af81c43b | 4988 | || (non_fatal_only && !curr->detail.non_fatal)) |
a06ea964 NC |
4989 | continue; |
4990 | /* If there are multiple errors, pick up the one with the highest | |
4991 | mismatching operand index. In the case of multiple errors with | |
4992 | the equally highest operand index, pick up the first one or the | |
4993 | first one with non-NULL error message. */ | |
4994 | if (curr->detail.index > largest_error_pos | |
4995 | || (curr->detail.index == largest_error_pos && msg == NULL | |
4996 | && curr->detail.error != NULL)) | |
4997 | { | |
4998 | largest_error_pos = curr->detail.index; | |
4999 | record = curr; | |
5000 | msg = record->detail.error; | |
5001 | } | |
5002 | } | |
5003 | ||
7d02540a TC |
5004 | /* The way errors are collected in the back-end is a bit non-intuitive. But |
5005 | essentially, because each operand template is tried recursively you may | |
5006 | always have errors collected from the previous tried OPND. These are | |
5007 | usually skipped if there is one successful match. However now with the | |
5008 | non-fatal errors we have to ignore those previously collected hard errors | |
5009 | when we're only interested in printing the non-fatal ones. This condition | |
5010 | prevents us from printing errors that are not appropriate, since we did | |
5011 | match a condition, but it also has warnings that it wants to print. */ | |
5012 | if (non_fatal_only && !record) | |
5013 | return; | |
5014 | ||
a06ea964 NC |
5015 | gas_assert (largest_error_pos != -2 && record != NULL); |
5016 | DEBUG_TRACE ("Pick up error kind %s to report", | |
5017 | operand_mismatch_kind_names[record->detail.kind]); | |
5018 | ||
5019 | /* Output. */ | |
5020 | output_operand_error_record (record, str); | |
5021 | } | |
5022 | \f | |
5023 | /* Write an AARCH64 instruction to buf - always little-endian. */ | |
5024 | static void | |
5025 | put_aarch64_insn (char *buf, uint32_t insn) | |
5026 | { | |
5027 | unsigned char *where = (unsigned char *) buf; | |
5028 | where[0] = insn; | |
5029 | where[1] = insn >> 8; | |
5030 | where[2] = insn >> 16; | |
5031 | where[3] = insn >> 24; | |
5032 | } | |
5033 | ||
5034 | static uint32_t | |
5035 | get_aarch64_insn (char *buf) | |
5036 | { | |
5037 | unsigned char *where = (unsigned char *) buf; | |
5038 | uint32_t result; | |
4f7cc141 AM |
5039 | result = ((where[0] | (where[1] << 8) | (where[2] << 16) |
5040 | | ((uint32_t) where[3] << 24))); | |
a06ea964 NC |
5041 | return result; |
5042 | } | |
5043 | ||
5044 | static void | |
5045 | output_inst (struct aarch64_inst *new_inst) | |
5046 | { | |
5047 | char *to = NULL; | |
5048 | ||
5049 | to = frag_more (INSN_SIZE); | |
5050 | ||
5051 | frag_now->tc_frag_data.recorded = 1; | |
5052 | ||
5053 | put_aarch64_insn (to, inst.base.value); | |
5054 | ||
5055 | if (inst.reloc.type != BFD_RELOC_UNUSED) | |
5056 | { | |
5057 | fixS *fixp = fix_new_aarch64 (frag_now, to - frag_now->fr_literal, | |
5058 | INSN_SIZE, &inst.reloc.exp, | |
5059 | inst.reloc.pc_rel, | |
5060 | inst.reloc.type); | |
5061 | DEBUG_TRACE ("Prepared relocation fix up"); | |
5062 | /* Don't check the addend value against the instruction size, | |
5063 | that's the job of our code in md_apply_fix(). */ | |
5064 | fixp->fx_no_overflow = 1; | |
5065 | if (new_inst != NULL) | |
5066 | fixp->tc_fix_data.inst = new_inst; | |
5067 | if (aarch64_gas_internal_fixup_p ()) | |
5068 | { | |
5069 | gas_assert (inst.reloc.opnd != AARCH64_OPND_NIL); | |
5070 | fixp->tc_fix_data.opnd = inst.reloc.opnd; | |
5071 | fixp->fx_addnumber = inst.reloc.flags; | |
5072 | } | |
5073 | } | |
5074 | ||
5075 | dwarf2_emit_insn (INSN_SIZE); | |
5076 | } | |
5077 | ||
5078 | /* Link together opcodes of the same name. */ | |
5079 | ||
5080 | struct templates | |
5081 | { | |
5082 | aarch64_opcode *opcode; | |
5083 | struct templates *next; | |
5084 | }; | |
5085 | ||
5086 | typedef struct templates templates; | |
5087 | ||
5088 | static templates * | |
5089 | lookup_mnemonic (const char *start, int len) | |
5090 | { | |
5091 | templates *templ = NULL; | |
5092 | ||
629310ab | 5093 | templ = str_hash_find_n (aarch64_ops_hsh, start, len); |
a06ea964 NC |
5094 | return templ; |
5095 | } | |
5096 | ||
5097 | /* Subroutine of md_assemble, responsible for looking up the primary | |
5098 | opcode from the mnemonic the user wrote. STR points to the | |
5099 | beginning of the mnemonic. */ | |
5100 | ||
5101 | static templates * | |
5102 | opcode_lookup (char **str) | |
5103 | { | |
bb7eff52 | 5104 | char *end, *base, *dot; |
a06ea964 NC |
5105 | const aarch64_cond *cond; |
5106 | char condname[16]; | |
5107 | int len; | |
5108 | ||
5109 | /* Scan up to the end of the mnemonic, which must end in white space, | |
5110 | '.', or end of string. */ | |
bb7eff52 | 5111 | dot = 0; |
a06ea964 | 5112 | for (base = end = *str; is_part_of_name(*end); end++) |
bb7eff52 RS |
5113 | if (*end == '.' && !dot) |
5114 | dot = end; | |
a06ea964 | 5115 | |
bb7eff52 | 5116 | if (end == base || dot == base) |
a06ea964 NC |
5117 | return 0; |
5118 | ||
5119 | inst.cond = COND_ALWAYS; | |
5120 | ||
5121 | /* Handle a possible condition. */ | |
bb7eff52 | 5122 | if (dot) |
a06ea964 | 5123 | { |
629310ab | 5124 | cond = str_hash_find_n (aarch64_cond_hsh, dot + 1, end - dot - 1); |
a06ea964 NC |
5125 | if (cond) |
5126 | { | |
5127 | inst.cond = cond->value; | |
bb7eff52 | 5128 | *str = end; |
a06ea964 NC |
5129 | } |
5130 | else | |
5131 | { | |
bb7eff52 | 5132 | *str = dot; |
a06ea964 NC |
5133 | return 0; |
5134 | } | |
bb7eff52 | 5135 | len = dot - base; |
a06ea964 NC |
5136 | } |
5137 | else | |
bb7eff52 RS |
5138 | { |
5139 | *str = end; | |
5140 | len = end - base; | |
5141 | } | |
a06ea964 NC |
5142 | |
5143 | if (inst.cond == COND_ALWAYS) | |
5144 | { | |
5145 | /* Look for unaffixed mnemonic. */ | |
5146 | return lookup_mnemonic (base, len); | |
5147 | } | |
5148 | else if (len <= 13) | |
5149 | { | |
5150 | /* append ".c" to mnemonic if conditional */ | |
5151 | memcpy (condname, base, len); | |
5152 | memcpy (condname + len, ".c", 2); | |
5153 | base = condname; | |
5154 | len += 2; | |
5155 | return lookup_mnemonic (base, len); | |
5156 | } | |
5157 | ||
5158 | return NULL; | |
5159 | } | |
5160 | ||
8f9a77af RS |
5161 | /* Internal helper routine converting a vector_type_el structure *VECTYPE |
5162 | to a corresponding operand qualifier. */ | |
a06ea964 NC |
5163 | |
5164 | static inline aarch64_opnd_qualifier_t | |
8f9a77af | 5165 | vectype_to_qualifier (const struct vector_type_el *vectype) |
a06ea964 | 5166 | { |
f06935a5 | 5167 | /* Element size in bytes indexed by vector_el_type. */ |
a06ea964 NC |
5168 | const unsigned char ele_size[5] |
5169 | = {1, 2, 4, 8, 16}; | |
65f2205d MW |
5170 | const unsigned int ele_base [5] = |
5171 | { | |
a3b3345a | 5172 | AARCH64_OPND_QLF_V_4B, |
3067d3b9 | 5173 | AARCH64_OPND_QLF_V_2H, |
65f2205d MW |
5174 | AARCH64_OPND_QLF_V_2S, |
5175 | AARCH64_OPND_QLF_V_1D, | |
5176 | AARCH64_OPND_QLF_V_1Q | |
5177 | }; | |
a06ea964 NC |
5178 | |
5179 | if (!vectype->defined || vectype->type == NT_invtype) | |
5180 | goto vectype_conversion_fail; | |
5181 | ||
d50c751e RS |
5182 | if (vectype->type == NT_zero) |
5183 | return AARCH64_OPND_QLF_P_Z; | |
5184 | if (vectype->type == NT_merge) | |
5185 | return AARCH64_OPND_QLF_P_M; | |
5186 | ||
a06ea964 NC |
5187 | gas_assert (vectype->type >= NT_b && vectype->type <= NT_q); |
5188 | ||
f11ad6bc | 5189 | if (vectype->defined & (NTA_HASINDEX | NTA_HASVARWIDTH)) |
00c2093f TC |
5190 | { |
5191 | /* Special case S_4B. */ | |
5192 | if (vectype->type == NT_b && vectype->width == 4) | |
5193 | return AARCH64_OPND_QLF_S_4B; | |
5194 | ||
df678013 MM |
5195 | /* Special case S_2H. */ |
5196 | if (vectype->type == NT_h && vectype->width == 2) | |
5197 | return AARCH64_OPND_QLF_S_2H; | |
5198 | ||
00c2093f TC |
5199 | /* Vector element register. */ |
5200 | return AARCH64_OPND_QLF_S_B + vectype->type; | |
5201 | } | |
a06ea964 NC |
5202 | else |
5203 | { | |
5204 | /* Vector register. */ | |
5205 | int reg_size = ele_size[vectype->type] * vectype->width; | |
5206 | unsigned offset; | |
65f2205d | 5207 | unsigned shift; |
3067d3b9 | 5208 | if (reg_size != 16 && reg_size != 8 && reg_size != 4) |
a06ea964 | 5209 | goto vectype_conversion_fail; |
65f2205d MW |
5210 | |
5211 | /* The conversion is by calculating the offset from the base operand | |
5212 | qualifier for the vector type. The operand qualifiers are regular | |
5213 | enough that the offset can established by shifting the vector width by | |
5214 | a vector-type dependent amount. */ | |
5215 | shift = 0; | |
5216 | if (vectype->type == NT_b) | |
a3b3345a | 5217 | shift = 3; |
3067d3b9 | 5218 | else if (vectype->type == NT_h || vectype->type == NT_s) |
65f2205d MW |
5219 | shift = 2; |
5220 | else if (vectype->type >= NT_d) | |
5221 | shift = 1; | |
5222 | else | |
5223 | gas_assert (0); | |
5224 | ||
5225 | offset = ele_base [vectype->type] + (vectype->width >> shift); | |
a3b3345a | 5226 | gas_assert (AARCH64_OPND_QLF_V_4B <= offset |
65f2205d MW |
5227 | && offset <= AARCH64_OPND_QLF_V_1Q); |
5228 | return offset; | |
a06ea964 NC |
5229 | } |
5230 | ||
dc1e8a47 | 5231 | vectype_conversion_fail: |
a06ea964 NC |
5232 | first_error (_("bad vector arrangement type")); |
5233 | return AARCH64_OPND_QLF_NIL; | |
5234 | } | |
5235 | ||
5236 | /* Process an optional operand that is found omitted from the assembly line. | |
5237 | Fill *OPERAND for such an operand of type TYPE. OPCODE points to the | |
5238 | instruction's opcode entry while IDX is the index of this omitted operand. | |
5239 | */ | |
5240 | ||
5241 | static void | |
5242 | process_omitted_operand (enum aarch64_opnd type, const aarch64_opcode *opcode, | |
5243 | int idx, aarch64_opnd_info *operand) | |
5244 | { | |
5245 | aarch64_insn default_value = get_optional_operand_default_value (opcode); | |
5246 | gas_assert (optional_operand_p (opcode, idx)); | |
5247 | gas_assert (!operand->present); | |
5248 | ||
5249 | switch (type) | |
5250 | { | |
5251 | case AARCH64_OPND_Rd: | |
5252 | case AARCH64_OPND_Rn: | |
5253 | case AARCH64_OPND_Rm: | |
5254 | case AARCH64_OPND_Rt: | |
5255 | case AARCH64_OPND_Rt2: | |
8edca81e | 5256 | case AARCH64_OPND_Rt_LS64: |
bd7ceb8d | 5257 | case AARCH64_OPND_Rt_SP: |
a06ea964 NC |
5258 | case AARCH64_OPND_Rs: |
5259 | case AARCH64_OPND_Ra: | |
5260 | case AARCH64_OPND_Rt_SYS: | |
5261 | case AARCH64_OPND_Rd_SP: | |
5262 | case AARCH64_OPND_Rn_SP: | |
c84364ec | 5263 | case AARCH64_OPND_Rm_SP: |
a06ea964 NC |
5264 | case AARCH64_OPND_Fd: |
5265 | case AARCH64_OPND_Fn: | |
5266 | case AARCH64_OPND_Fm: | |
5267 | case AARCH64_OPND_Fa: | |
5268 | case AARCH64_OPND_Ft: | |
5269 | case AARCH64_OPND_Ft2: | |
5270 | case AARCH64_OPND_Sd: | |
5271 | case AARCH64_OPND_Sn: | |
5272 | case AARCH64_OPND_Sm: | |
f42f1a1d | 5273 | case AARCH64_OPND_Va: |
a06ea964 NC |
5274 | case AARCH64_OPND_Vd: |
5275 | case AARCH64_OPND_Vn: | |
5276 | case AARCH64_OPND_Vm: | |
5277 | case AARCH64_OPND_VdD1: | |
5278 | case AARCH64_OPND_VnD1: | |
5279 | operand->reg.regno = default_value; | |
5280 | break; | |
5281 | ||
5282 | case AARCH64_OPND_Ed: | |
5283 | case AARCH64_OPND_En: | |
5284 | case AARCH64_OPND_Em: | |
369c9167 | 5285 | case AARCH64_OPND_Em16: |
f42f1a1d | 5286 | case AARCH64_OPND_SM3_IMM2: |
a06ea964 NC |
5287 | operand->reglane.regno = default_value; |
5288 | break; | |
5289 | ||
5290 | case AARCH64_OPND_IDX: | |
5291 | case AARCH64_OPND_BIT_NUM: | |
5292 | case AARCH64_OPND_IMMR: | |
5293 | case AARCH64_OPND_IMMS: | |
5294 | case AARCH64_OPND_SHLL_IMM: | |
5295 | case AARCH64_OPND_IMM_VLSL: | |
5296 | case AARCH64_OPND_IMM_VLSR: | |
5297 | case AARCH64_OPND_CCMP_IMM: | |
5298 | case AARCH64_OPND_FBITS: | |
5299 | case AARCH64_OPND_UIMM4: | |
5300 | case AARCH64_OPND_UIMM3_OP1: | |
5301 | case AARCH64_OPND_UIMM3_OP2: | |
5302 | case AARCH64_OPND_IMM: | |
f42f1a1d | 5303 | case AARCH64_OPND_IMM_2: |
a06ea964 NC |
5304 | case AARCH64_OPND_WIDTH: |
5305 | case AARCH64_OPND_UIMM7: | |
5306 | case AARCH64_OPND_NZCV: | |
245d2e3f RS |
5307 | case AARCH64_OPND_SVE_PATTERN: |
5308 | case AARCH64_OPND_SVE_PRFOP: | |
a06ea964 NC |
5309 | operand->imm.value = default_value; |
5310 | break; | |
5311 | ||
2442d846 RS |
5312 | case AARCH64_OPND_SVE_PATTERN_SCALED: |
5313 | operand->imm.value = default_value; | |
5314 | operand->shifter.kind = AARCH64_MOD_MUL; | |
5315 | operand->shifter.amount = 1; | |
5316 | break; | |
5317 | ||
a06ea964 NC |
5318 | case AARCH64_OPND_EXCEPTION: |
5319 | inst.reloc.type = BFD_RELOC_UNUSED; | |
5320 | break; | |
5321 | ||
5322 | case AARCH64_OPND_BARRIER_ISB: | |
5323 | operand->barrier = aarch64_barrier_options + default_value; | |
ff605452 SD |
5324 | break; |
5325 | ||
5326 | case AARCH64_OPND_BTI_TARGET: | |
5327 | operand->hint_option = aarch64_hint_options + default_value; | |
5328 | break; | |
a06ea964 NC |
5329 | |
5330 | default: | |
5331 | break; | |
5332 | } | |
5333 | } | |
5334 | ||
5335 | /* Process the relocation type for move wide instructions. | |
5336 | Return TRUE on success; otherwise return FALSE. */ | |
5337 | ||
5338 | static bfd_boolean | |
5339 | process_movw_reloc_info (void) | |
5340 | { | |
5341 | int is32; | |
5342 | unsigned shift; | |
5343 | ||
5344 | is32 = inst.base.operands[0].qualifier == AARCH64_OPND_QLF_W ? 1 : 0; | |
5345 | ||
5346 | if (inst.base.opcode->op == OP_MOVK) | |
5347 | switch (inst.reloc.type) | |
5348 | { | |
5349 | case BFD_RELOC_AARCH64_MOVW_G0_S: | |
5350 | case BFD_RELOC_AARCH64_MOVW_G1_S: | |
5351 | case BFD_RELOC_AARCH64_MOVW_G2_S: | |
32247401 RL |
5352 | case BFD_RELOC_AARCH64_MOVW_PREL_G0: |
5353 | case BFD_RELOC_AARCH64_MOVW_PREL_G1: | |
5354 | case BFD_RELOC_AARCH64_MOVW_PREL_G2: | |
5355 | case BFD_RELOC_AARCH64_MOVW_PREL_G3: | |
1aa66fb1 | 5356 | case BFD_RELOC_AARCH64_TLSGD_MOVW_G1: |
a06ea964 | 5357 | case BFD_RELOC_AARCH64_TLSLE_MOVW_TPREL_G0: |
a06ea964 | 5358 | case BFD_RELOC_AARCH64_TLSLE_MOVW_TPREL_G1: |
a06ea964 NC |
5359 | case BFD_RELOC_AARCH64_TLSLE_MOVW_TPREL_G2: |
5360 | set_syntax_error | |
5361 | (_("the specified relocation type is not allowed for MOVK")); | |
5362 | return FALSE; | |
5363 | default: | |
5364 | break; | |
5365 | } | |
5366 | ||
5367 | switch (inst.reloc.type) | |
5368 | { | |
5369 | case BFD_RELOC_AARCH64_MOVW_G0: | |
a06ea964 | 5370 | case BFD_RELOC_AARCH64_MOVW_G0_NC: |
f09c556a | 5371 | case BFD_RELOC_AARCH64_MOVW_G0_S: |
ca632371 | 5372 | case BFD_RELOC_AARCH64_MOVW_GOTOFF_G0_NC: |
32247401 RL |
5373 | case BFD_RELOC_AARCH64_MOVW_PREL_G0: |
5374 | case BFD_RELOC_AARCH64_MOVW_PREL_G0_NC: | |
43a357f9 | 5375 | case BFD_RELOC_AARCH64_TLSDESC_OFF_G0_NC: |
3e8286c0 | 5376 | case BFD_RELOC_AARCH64_TLSGD_MOVW_G0_NC: |
3b957e5b | 5377 | case BFD_RELOC_AARCH64_TLSIE_MOVW_GOTTPREL_G0_NC: |
49df5539 JW |
5378 | case BFD_RELOC_AARCH64_TLSLD_MOVW_DTPREL_G0: |
5379 | case BFD_RELOC_AARCH64_TLSLD_MOVW_DTPREL_G0_NC: | |
a06ea964 NC |
5380 | case BFD_RELOC_AARCH64_TLSLE_MOVW_TPREL_G0: |
5381 | case BFD_RELOC_AARCH64_TLSLE_MOVW_TPREL_G0_NC: | |
5382 | shift = 0; | |
5383 | break; | |
5384 | case BFD_RELOC_AARCH64_MOVW_G1: | |
a06ea964 | 5385 | case BFD_RELOC_AARCH64_MOVW_G1_NC: |
f09c556a | 5386 | case BFD_RELOC_AARCH64_MOVW_G1_S: |
654248e7 | 5387 | case BFD_RELOC_AARCH64_MOVW_GOTOFF_G1: |
32247401 RL |
5388 | case BFD_RELOC_AARCH64_MOVW_PREL_G1: |
5389 | case BFD_RELOC_AARCH64_MOVW_PREL_G1_NC: | |
43a357f9 | 5390 | case BFD_RELOC_AARCH64_TLSDESC_OFF_G1: |
1aa66fb1 | 5391 | case BFD_RELOC_AARCH64_TLSGD_MOVW_G1: |
3b957e5b | 5392 | case BFD_RELOC_AARCH64_TLSIE_MOVW_GOTTPREL_G1: |
49df5539 JW |
5393 | case BFD_RELOC_AARCH64_TLSLD_MOVW_DTPREL_G1: |
5394 | case BFD_RELOC_AARCH64_TLSLD_MOVW_DTPREL_G1_NC: | |
a06ea964 NC |
5395 | case BFD_RELOC_AARCH64_TLSLE_MOVW_TPREL_G1: |
5396 | case BFD_RELOC_AARCH64_TLSLE_MOVW_TPREL_G1_NC: | |
5397 | shift = 16; | |
5398 | break; | |
5399 | case BFD_RELOC_AARCH64_MOVW_G2: | |
a06ea964 | 5400 | case BFD_RELOC_AARCH64_MOVW_G2_NC: |
f09c556a | 5401 | case BFD_RELOC_AARCH64_MOVW_G2_S: |
32247401 RL |
5402 | case BFD_RELOC_AARCH64_MOVW_PREL_G2: |
5403 | case BFD_RELOC_AARCH64_MOVW_PREL_G2_NC: | |
49df5539 | 5404 | case BFD_RELOC_AARCH64_TLSLD_MOVW_DTPREL_G2: |
a06ea964 NC |
5405 | case BFD_RELOC_AARCH64_TLSLE_MOVW_TPREL_G2: |
5406 | if (is32) | |
5407 | { | |
5408 | set_fatal_syntax_error | |
5409 | (_("the specified relocation type is not allowed for 32-bit " | |
5410 | "register")); | |
5411 | return FALSE; | |
5412 | } | |
5413 | shift = 32; | |
5414 | break; | |
5415 | case BFD_RELOC_AARCH64_MOVW_G3: | |
32247401 | 5416 | case BFD_RELOC_AARCH64_MOVW_PREL_G3: |
a06ea964 NC |
5417 | if (is32) |
5418 | { | |
5419 | set_fatal_syntax_error | |
5420 | (_("the specified relocation type is not allowed for 32-bit " | |
5421 | "register")); | |
5422 | return FALSE; | |
5423 | } | |
5424 | shift = 48; | |
5425 | break; | |
5426 | default: | |
5427 | /* More cases should be added when more MOVW-related relocation types | |
5428 | are supported in GAS. */ | |
5429 | gas_assert (aarch64_gas_internal_fixup_p ()); | |
5430 | /* The shift amount should have already been set by the parser. */ | |
5431 | return TRUE; | |
5432 | } | |
5433 | inst.base.operands[1].shifter.amount = shift; | |
5434 | return TRUE; | |
5435 | } | |
5436 | ||
33eaf5de | 5437 | /* A primitive log calculator. */ |
a06ea964 NC |
5438 | |
5439 | static inline unsigned int | |
5440 | get_logsz (unsigned int size) | |
5441 | { | |
5442 | const unsigned char ls[16] = | |
5443 | {0, 1, -1, 2, -1, -1, -1, 3, -1, -1, -1, -1, -1, -1, -1, 4}; | |
5444 | if (size > 16) | |
5445 | { | |
5446 | gas_assert (0); | |
5447 | return -1; | |
5448 | } | |
5449 | gas_assert (ls[size - 1] != (unsigned char)-1); | |
5450 | return ls[size - 1]; | |
5451 | } | |
5452 | ||
5453 | /* Determine and return the real reloc type code for an instruction | |
5454 | with the pseudo reloc type code BFD_RELOC_AARCH64_LDST_LO12. */ | |
5455 | ||
5456 | static inline bfd_reloc_code_real_type | |
5457 | ldst_lo12_determine_real_reloc_type (void) | |
5458 | { | |
4c562523 | 5459 | unsigned logsz; |
a06ea964 NC |
5460 | enum aarch64_opnd_qualifier opd0_qlf = inst.base.operands[0].qualifier; |
5461 | enum aarch64_opnd_qualifier opd1_qlf = inst.base.operands[1].qualifier; | |
5462 | ||
84f1b9fb | 5463 | const bfd_reloc_code_real_type reloc_ldst_lo12[5][5] = { |
4c562523 JW |
5464 | { |
5465 | BFD_RELOC_AARCH64_LDST8_LO12, | |
5466 | BFD_RELOC_AARCH64_LDST16_LO12, | |
5467 | BFD_RELOC_AARCH64_LDST32_LO12, | |
5468 | BFD_RELOC_AARCH64_LDST64_LO12, | |
a06ea964 | 5469 | BFD_RELOC_AARCH64_LDST128_LO12 |
4c562523 JW |
5470 | }, |
5471 | { | |
5472 | BFD_RELOC_AARCH64_TLSLD_LDST8_DTPREL_LO12, | |
5473 | BFD_RELOC_AARCH64_TLSLD_LDST16_DTPREL_LO12, | |
5474 | BFD_RELOC_AARCH64_TLSLD_LDST32_DTPREL_LO12, | |
5475 | BFD_RELOC_AARCH64_TLSLD_LDST64_DTPREL_LO12, | |
5476 | BFD_RELOC_AARCH64_NONE | |
5477 | }, | |
5478 | { | |
5479 | BFD_RELOC_AARCH64_TLSLD_LDST8_DTPREL_LO12_NC, | |
5480 | BFD_RELOC_AARCH64_TLSLD_LDST16_DTPREL_LO12_NC, | |
5481 | BFD_RELOC_AARCH64_TLSLD_LDST32_DTPREL_LO12_NC, | |
5482 | BFD_RELOC_AARCH64_TLSLD_LDST64_DTPREL_LO12_NC, | |
5483 | BFD_RELOC_AARCH64_NONE | |
84f1b9fb RL |
5484 | }, |
5485 | { | |
5486 | BFD_RELOC_AARCH64_TLSLE_LDST8_TPREL_LO12, | |
5487 | BFD_RELOC_AARCH64_TLSLE_LDST16_TPREL_LO12, | |
5488 | BFD_RELOC_AARCH64_TLSLE_LDST32_TPREL_LO12, | |
5489 | BFD_RELOC_AARCH64_TLSLE_LDST64_TPREL_LO12, | |
5490 | BFD_RELOC_AARCH64_NONE | |
5491 | }, | |
5492 | { | |
5493 | BFD_RELOC_AARCH64_TLSLE_LDST8_TPREL_LO12_NC, | |
5494 | BFD_RELOC_AARCH64_TLSLE_LDST16_TPREL_LO12_NC, | |
5495 | BFD_RELOC_AARCH64_TLSLE_LDST32_TPREL_LO12_NC, | |
5496 | BFD_RELOC_AARCH64_TLSLE_LDST64_TPREL_LO12_NC, | |
5497 | BFD_RELOC_AARCH64_NONE | |
4c562523 | 5498 | } |
a06ea964 NC |
5499 | }; |
5500 | ||
4c562523 JW |
5501 | gas_assert (inst.reloc.type == BFD_RELOC_AARCH64_LDST_LO12 |
5502 | || inst.reloc.type == BFD_RELOC_AARCH64_TLSLD_LDST_DTPREL_LO12 | |
5503 | || (inst.reloc.type | |
84f1b9fb RL |
5504 | == BFD_RELOC_AARCH64_TLSLD_LDST_DTPREL_LO12_NC) |
5505 | || (inst.reloc.type | |
5506 | == BFD_RELOC_AARCH64_TLSLE_LDST_TPREL_LO12) | |
5507 | || (inst.reloc.type | |
5508 | == BFD_RELOC_AARCH64_TLSLE_LDST_TPREL_LO12_NC)); | |
a06ea964 NC |
5509 | gas_assert (inst.base.opcode->operands[1] == AARCH64_OPND_ADDR_UIMM12); |
5510 | ||
5511 | if (opd1_qlf == AARCH64_OPND_QLF_NIL) | |
5512 | opd1_qlf = | |
5513 | aarch64_get_expected_qualifier (inst.base.opcode->qualifiers_list, | |
5514 | 1, opd0_qlf, 0); | |
5515 | gas_assert (opd1_qlf != AARCH64_OPND_QLF_NIL); | |
5516 | ||
5517 | logsz = get_logsz (aarch64_get_qualifier_esize (opd1_qlf)); | |
4c562523 | 5518 | if (inst.reloc.type == BFD_RELOC_AARCH64_TLSLD_LDST_DTPREL_LO12 |
84f1b9fb RL |
5519 | || inst.reloc.type == BFD_RELOC_AARCH64_TLSLD_LDST_DTPREL_LO12_NC |
5520 | || inst.reloc.type == BFD_RELOC_AARCH64_TLSLE_LDST_TPREL_LO12 | |
5521 | || inst.reloc.type == BFD_RELOC_AARCH64_TLSLE_LDST_TPREL_LO12_NC) | |
4c562523 JW |
5522 | gas_assert (logsz <= 3); |
5523 | else | |
5524 | gas_assert (logsz <= 4); | |
a06ea964 | 5525 | |
4c562523 | 5526 | /* In reloc.c, these pseudo relocation types should be defined in similar |
33eaf5de | 5527 | order as above reloc_ldst_lo12 array. Because the array index calculation |
4c562523 JW |
5528 | below relies on this. */ |
5529 | return reloc_ldst_lo12[inst.reloc.type - BFD_RELOC_AARCH64_LDST_LO12][logsz]; | |
a06ea964 NC |
5530 | } |
5531 | ||
5532 | /* Check whether a register list REGINFO is valid. The registers must be | |
5533 | numbered in increasing order (modulo 32), in increments of one or two. | |
5534 | ||
5535 | If ACCEPT_ALTERNATE is non-zero, the register numbers should be in | |
5536 | increments of two. | |
5537 | ||
5538 | Return FALSE if such a register list is invalid, otherwise return TRUE. */ | |
5539 | ||
5540 | static bfd_boolean | |
5541 | reg_list_valid_p (uint32_t reginfo, int accept_alternate) | |
5542 | { | |
5543 | uint32_t i, nb_regs, prev_regno, incr; | |
5544 | ||
5545 | nb_regs = 1 + (reginfo & 0x3); | |
5546 | reginfo >>= 2; | |
5547 | prev_regno = reginfo & 0x1f; | |
5548 | incr = accept_alternate ? 2 : 1; | |
5549 | ||
5550 | for (i = 1; i < nb_regs; ++i) | |
5551 | { | |
5552 | uint32_t curr_regno; | |
5553 | reginfo >>= 5; | |
5554 | curr_regno = reginfo & 0x1f; | |
5555 | if (curr_regno != ((prev_regno + incr) & 0x1f)) | |
5556 | return FALSE; | |
5557 | prev_regno = curr_regno; | |
5558 | } | |
5559 | ||
5560 | return TRUE; | |
5561 | } | |
5562 | ||
5563 | /* Generic instruction operand parser. This does no encoding and no | |
5564 | semantic validation; it merely squirrels values away in the inst | |
5565 | structure. Returns TRUE or FALSE depending on whether the | |
5566 | specified grammar matched. */ | |
5567 | ||
5568 | static bfd_boolean | |
5569 | parse_operands (char *str, const aarch64_opcode *opcode) | |
5570 | { | |
5571 | int i; | |
5572 | char *backtrack_pos = 0; | |
5573 | const enum aarch64_opnd *operands = opcode->operands; | |
1799c0d0 | 5574 | aarch64_reg_type imm_reg_type; |
a06ea964 NC |
5575 | |
5576 | clear_error (); | |
5577 | skip_whitespace (str); | |
5578 | ||
c0890d26 | 5579 | if (AARCH64_CPU_HAS_FEATURE (AARCH64_FEATURE_SVE, *opcode->avariant)) |
5b2b928e | 5580 | imm_reg_type = REG_TYPE_R_Z_SP_BHSDQ_VZP; |
c0890d26 RS |
5581 | else |
5582 | imm_reg_type = REG_TYPE_R_Z_BHSDQ_V; | |
1799c0d0 | 5583 | |
a06ea964 NC |
5584 | for (i = 0; operands[i] != AARCH64_OPND_NIL; i++) |
5585 | { | |
5586 | int64_t val; | |
e1b988bb | 5587 | const reg_entry *reg; |
a06ea964 NC |
5588 | int comma_skipped_p = 0; |
5589 | aarch64_reg_type rtype; | |
8f9a77af | 5590 | struct vector_type_el vectype; |
4df068de | 5591 | aarch64_opnd_qualifier_t qualifier, base_qualifier, offset_qualifier; |
a06ea964 | 5592 | aarch64_opnd_info *info = &inst.base.operands[i]; |
f11ad6bc | 5593 | aarch64_reg_type reg_type; |
a06ea964 NC |
5594 | |
5595 | DEBUG_TRACE ("parse operand %d", i); | |
5596 | ||
5597 | /* Assign the operand code. */ | |
5598 | info->type = operands[i]; | |
5599 | ||
5600 | if (optional_operand_p (opcode, i)) | |
5601 | { | |
5602 | /* Remember where we are in case we need to backtrack. */ | |
5603 | gas_assert (!backtrack_pos); | |
5604 | backtrack_pos = str; | |
5605 | } | |
5606 | ||
33eaf5de | 5607 | /* Expect comma between operands; the backtrack mechanism will take |
a06ea964 NC |
5608 | care of cases of omitted optional operand. */ |
5609 | if (i > 0 && ! skip_past_char (&str, ',')) | |
5610 | { | |
5611 | set_syntax_error (_("comma expected between operands")); | |
5612 | goto failure; | |
5613 | } | |
5614 | else | |
5615 | comma_skipped_p = 1; | |
5616 | ||
5617 | switch (operands[i]) | |
5618 | { | |
5619 | case AARCH64_OPND_Rd: | |
5620 | case AARCH64_OPND_Rn: | |
5621 | case AARCH64_OPND_Rm: | |
5622 | case AARCH64_OPND_Rt: | |
5623 | case AARCH64_OPND_Rt2: | |
5624 | case AARCH64_OPND_Rs: | |
5625 | case AARCH64_OPND_Ra: | |
8edca81e | 5626 | case AARCH64_OPND_Rt_LS64: |
a06ea964 | 5627 | case AARCH64_OPND_Rt_SYS: |
ee804238 | 5628 | case AARCH64_OPND_PAIRREG: |
047cd301 | 5629 | case AARCH64_OPND_SVE_Rm: |
e1b988bb | 5630 | po_int_reg_or_fail (REG_TYPE_R_Z); |
8edca81e | 5631 | |
4a3e3e22 PW |
5632 | /* In LS64 load/store instructions Rt register number must be even |
5633 | and <=22. */ | |
8edca81e PW |
5634 | if (operands[i] == AARCH64_OPND_Rt_LS64) |
5635 | { | |
5636 | /* We've already checked if this is valid register. | |
5637 | This will check if register number (Rt) is not undefined for LS64 | |
5638 | instructions: | |
5639 | if Rt<4:3> == '11' || Rt<0> == '1' then UNDEFINED. */ | |
5640 | if ((info->reg.regno & 0x18) == 0x18 || (info->reg.regno & 0x01) == 0x01) | |
5641 | { | |
5642 | set_syntax_error (_("invalid Rt register number in 64-byte load/store")); | |
5643 | goto failure; | |
5644 | } | |
5645 | } | |
a06ea964 NC |
5646 | break; |
5647 | ||
5648 | case AARCH64_OPND_Rd_SP: | |
5649 | case AARCH64_OPND_Rn_SP: | |
bd7ceb8d | 5650 | case AARCH64_OPND_Rt_SP: |
047cd301 | 5651 | case AARCH64_OPND_SVE_Rn_SP: |
c84364ec | 5652 | case AARCH64_OPND_Rm_SP: |
e1b988bb | 5653 | po_int_reg_or_fail (REG_TYPE_R_SP); |
a06ea964 NC |
5654 | break; |
5655 | ||
5656 | case AARCH64_OPND_Rm_EXT: | |
5657 | case AARCH64_OPND_Rm_SFT: | |
5658 | po_misc_or_fail (parse_shifter_operand | |
5659 | (&str, info, (operands[i] == AARCH64_OPND_Rm_EXT | |
5660 | ? SHIFTED_ARITH_IMM | |
5661 | : SHIFTED_LOGIC_IMM))); | |
5662 | if (!info->shifter.operator_present) | |
5663 | { | |
5664 | /* Default to LSL if not present. Libopcodes prefers shifter | |
5665 | kind to be explicit. */ | |
5666 | gas_assert (info->shifter.kind == AARCH64_MOD_NONE); | |
5667 | info->shifter.kind = AARCH64_MOD_LSL; | |
5668 | /* For Rm_EXT, libopcodes will carry out further check on whether | |
5669 | or not stack pointer is used in the instruction (Recall that | |
5670 | "the extend operator is not optional unless at least one of | |
5671 | "Rd" or "Rn" is '11111' (i.e. WSP)"). */ | |
5672 | } | |
5673 | break; | |
5674 | ||
5675 | case AARCH64_OPND_Fd: | |
5676 | case AARCH64_OPND_Fn: | |
5677 | case AARCH64_OPND_Fm: | |
5678 | case AARCH64_OPND_Fa: | |
5679 | case AARCH64_OPND_Ft: | |
5680 | case AARCH64_OPND_Ft2: | |
5681 | case AARCH64_OPND_Sd: | |
5682 | case AARCH64_OPND_Sn: | |
5683 | case AARCH64_OPND_Sm: | |
047cd301 RS |
5684 | case AARCH64_OPND_SVE_VZn: |
5685 | case AARCH64_OPND_SVE_Vd: | |
5686 | case AARCH64_OPND_SVE_Vm: | |
5687 | case AARCH64_OPND_SVE_Vn: | |
a06ea964 NC |
5688 | val = aarch64_reg_parse (&str, REG_TYPE_BHSDQ, &rtype, NULL); |
5689 | if (val == PARSE_FAIL) | |
5690 | { | |
5691 | first_error (_(get_reg_expected_msg (REG_TYPE_BHSDQ))); | |
5692 | goto failure; | |
5693 | } | |
5694 | gas_assert (rtype >= REG_TYPE_FP_B && rtype <= REG_TYPE_FP_Q); | |
5695 | ||
5696 | info->reg.regno = val; | |
5697 | info->qualifier = AARCH64_OPND_QLF_S_B + (rtype - REG_TYPE_FP_B); | |
5698 | break; | |
5699 | ||
f11ad6bc RS |
5700 | case AARCH64_OPND_SVE_Pd: |
5701 | case AARCH64_OPND_SVE_Pg3: | |
5702 | case AARCH64_OPND_SVE_Pg4_5: | |
5703 | case AARCH64_OPND_SVE_Pg4_10: | |
5704 | case AARCH64_OPND_SVE_Pg4_16: | |
5705 | case AARCH64_OPND_SVE_Pm: | |
5706 | case AARCH64_OPND_SVE_Pn: | |
5707 | case AARCH64_OPND_SVE_Pt: | |
5708 | reg_type = REG_TYPE_PN; | |
5709 | goto vector_reg; | |
5710 | ||
5711 | case AARCH64_OPND_SVE_Za_5: | |
5712 | case AARCH64_OPND_SVE_Za_16: | |
5713 | case AARCH64_OPND_SVE_Zd: | |
5714 | case AARCH64_OPND_SVE_Zm_5: | |
5715 | case AARCH64_OPND_SVE_Zm_16: | |
5716 | case AARCH64_OPND_SVE_Zn: | |
5717 | case AARCH64_OPND_SVE_Zt: | |
5718 | reg_type = REG_TYPE_ZN; | |
5719 | goto vector_reg; | |
5720 | ||
f42f1a1d | 5721 | case AARCH64_OPND_Va: |
a06ea964 NC |
5722 | case AARCH64_OPND_Vd: |
5723 | case AARCH64_OPND_Vn: | |
5724 | case AARCH64_OPND_Vm: | |
f11ad6bc RS |
5725 | reg_type = REG_TYPE_VN; |
5726 | vector_reg: | |
5727 | val = aarch64_reg_parse (&str, reg_type, NULL, &vectype); | |
a06ea964 NC |
5728 | if (val == PARSE_FAIL) |
5729 | { | |
f11ad6bc | 5730 | first_error (_(get_reg_expected_msg (reg_type))); |
a06ea964 NC |
5731 | goto failure; |
5732 | } | |
5733 | if (vectype.defined & NTA_HASINDEX) | |
5734 | goto failure; | |
5735 | ||
5736 | info->reg.regno = val; | |
f11ad6bc RS |
5737 | if ((reg_type == REG_TYPE_PN || reg_type == REG_TYPE_ZN) |
5738 | && vectype.type == NT_invtype) | |
5739 | /* Unqualified Pn and Zn registers are allowed in certain | |
5740 | contexts. Rely on F_STRICT qualifier checking to catch | |
5741 | invalid uses. */ | |
5742 | info->qualifier = AARCH64_OPND_QLF_NIL; | |
5743 | else | |
5744 | { | |
5745 | info->qualifier = vectype_to_qualifier (&vectype); | |
5746 | if (info->qualifier == AARCH64_OPND_QLF_NIL) | |
5747 | goto failure; | |
5748 | } | |
a06ea964 NC |
5749 | break; |
5750 | ||
5751 | case AARCH64_OPND_VdD1: | |
5752 | case AARCH64_OPND_VnD1: | |
5753 | val = aarch64_reg_parse (&str, REG_TYPE_VN, NULL, &vectype); | |
5754 | if (val == PARSE_FAIL) | |
5755 | { | |
5756 | set_first_syntax_error (_(get_reg_expected_msg (REG_TYPE_VN))); | |
5757 | goto failure; | |
5758 | } | |
5759 | if (vectype.type != NT_d || vectype.index != 1) | |
5760 | { | |
5761 | set_fatal_syntax_error | |
5762 | (_("the top half of a 128-bit FP/SIMD register is expected")); | |
5763 | goto failure; | |
5764 | } | |
5765 | info->reg.regno = val; | |
5766 | /* N.B: VdD1 and VnD1 are treated as an fp or advsimd scalar register | |
5767 | here; it is correct for the purpose of encoding/decoding since | |
5768 | only the register number is explicitly encoded in the related | |
5769 | instructions, although this appears a bit hacky. */ | |
5770 | info->qualifier = AARCH64_OPND_QLF_S_D; | |
5771 | break; | |
5772 | ||
582e12bf RS |
5773 | case AARCH64_OPND_SVE_Zm3_INDEX: |
5774 | case AARCH64_OPND_SVE_Zm3_22_INDEX: | |
116adc27 | 5775 | case AARCH64_OPND_SVE_Zm3_11_INDEX: |
31e36ab3 | 5776 | case AARCH64_OPND_SVE_Zm4_11_INDEX: |
582e12bf | 5777 | case AARCH64_OPND_SVE_Zm4_INDEX: |
f11ad6bc RS |
5778 | case AARCH64_OPND_SVE_Zn_INDEX: |
5779 | reg_type = REG_TYPE_ZN; | |
5780 | goto vector_reg_index; | |
5781 | ||
a06ea964 NC |
5782 | case AARCH64_OPND_Ed: |
5783 | case AARCH64_OPND_En: | |
5784 | case AARCH64_OPND_Em: | |
369c9167 | 5785 | case AARCH64_OPND_Em16: |
f42f1a1d | 5786 | case AARCH64_OPND_SM3_IMM2: |
f11ad6bc RS |
5787 | reg_type = REG_TYPE_VN; |
5788 | vector_reg_index: | |
5789 | val = aarch64_reg_parse (&str, reg_type, NULL, &vectype); | |
a06ea964 NC |
5790 | if (val == PARSE_FAIL) |
5791 | { | |
f11ad6bc | 5792 | first_error (_(get_reg_expected_msg (reg_type))); |
a06ea964 NC |
5793 | goto failure; |
5794 | } | |
5795 | if (vectype.type == NT_invtype || !(vectype.defined & NTA_HASINDEX)) | |
5796 | goto failure; | |
5797 | ||
5798 | info->reglane.regno = val; | |
5799 | info->reglane.index = vectype.index; | |
5800 | info->qualifier = vectype_to_qualifier (&vectype); | |
5801 | if (info->qualifier == AARCH64_OPND_QLF_NIL) | |
5802 | goto failure; | |
5803 | break; | |
5804 | ||
f11ad6bc RS |
5805 | case AARCH64_OPND_SVE_ZnxN: |
5806 | case AARCH64_OPND_SVE_ZtxN: | |
5807 | reg_type = REG_TYPE_ZN; | |
5808 | goto vector_reg_list; | |
5809 | ||
a06ea964 NC |
5810 | case AARCH64_OPND_LVn: |
5811 | case AARCH64_OPND_LVt: | |
5812 | case AARCH64_OPND_LVt_AL: | |
5813 | case AARCH64_OPND_LEt: | |
f11ad6bc RS |
5814 | reg_type = REG_TYPE_VN; |
5815 | vector_reg_list: | |
5816 | if (reg_type == REG_TYPE_ZN | |
5817 | && get_opcode_dependent_value (opcode) == 1 | |
5818 | && *str != '{') | |
a06ea964 | 5819 | { |
f11ad6bc RS |
5820 | val = aarch64_reg_parse (&str, reg_type, NULL, &vectype); |
5821 | if (val == PARSE_FAIL) | |
5822 | { | |
5823 | first_error (_(get_reg_expected_msg (reg_type))); | |
5824 | goto failure; | |
5825 | } | |
5826 | info->reglist.first_regno = val; | |
5827 | info->reglist.num_regs = 1; | |
5828 | } | |
5829 | else | |
5830 | { | |
5831 | val = parse_vector_reg_list (&str, reg_type, &vectype); | |
5832 | if (val == PARSE_FAIL) | |
5833 | goto failure; | |
163b2c58 | 5834 | |
f11ad6bc RS |
5835 | if (! reg_list_valid_p (val, /* accept_alternate */ 0)) |
5836 | { | |
5837 | set_fatal_syntax_error (_("invalid register list")); | |
5838 | goto failure; | |
5839 | } | |
163b2c58 BW |
5840 | |
5841 | if (vectype.width != 0 && *str != ',') | |
5842 | { | |
5843 | set_fatal_syntax_error | |
5844 | (_("expected element type rather than vector type")); | |
5845 | goto failure; | |
5846 | } | |
5847 | ||
f11ad6bc RS |
5848 | info->reglist.first_regno = (val >> 2) & 0x1f; |
5849 | info->reglist.num_regs = (val & 0x3) + 1; | |
a06ea964 | 5850 | } |
a06ea964 NC |
5851 | if (operands[i] == AARCH64_OPND_LEt) |
5852 | { | |
5853 | if (!(vectype.defined & NTA_HASINDEX)) | |
5854 | goto failure; | |
5855 | info->reglist.has_index = 1; | |
5856 | info->reglist.index = vectype.index; | |
5857 | } | |
f11ad6bc RS |
5858 | else |
5859 | { | |
5860 | if (vectype.defined & NTA_HASINDEX) | |
5861 | goto failure; | |
5862 | if (!(vectype.defined & NTA_HASTYPE)) | |
5863 | { | |
5864 | if (reg_type == REG_TYPE_ZN) | |
5865 | set_fatal_syntax_error (_("missing type suffix")); | |
5866 | goto failure; | |
5867 | } | |
5868 | } | |
a06ea964 NC |
5869 | info->qualifier = vectype_to_qualifier (&vectype); |
5870 | if (info->qualifier == AARCH64_OPND_QLF_NIL) | |
5871 | goto failure; | |
5872 | break; | |
5873 | ||
a6a51754 RL |
5874 | case AARCH64_OPND_CRn: |
5875 | case AARCH64_OPND_CRm: | |
a06ea964 | 5876 | { |
a6a51754 RL |
5877 | char prefix = *(str++); |
5878 | if (prefix != 'c' && prefix != 'C') | |
5879 | goto failure; | |
5880 | ||
5881 | po_imm_nc_or_fail (); | |
5882 | if (val > 15) | |
5883 | { | |
5884 | set_fatal_syntax_error (_(N_ ("C0 - C15 expected"))); | |
5885 | goto failure; | |
5886 | } | |
5887 | info->qualifier = AARCH64_OPND_QLF_CR; | |
5888 | info->imm.value = val; | |
5889 | break; | |
a06ea964 | 5890 | } |
a06ea964 NC |
5891 | |
5892 | case AARCH64_OPND_SHLL_IMM: | |
5893 | case AARCH64_OPND_IMM_VLSR: | |
5894 | po_imm_or_fail (1, 64); | |
5895 | info->imm.value = val; | |
5896 | break; | |
5897 | ||
5898 | case AARCH64_OPND_CCMP_IMM: | |
e950b345 | 5899 | case AARCH64_OPND_SIMM5: |
a06ea964 | 5900 | case AARCH64_OPND_FBITS: |
b83b4b13 | 5901 | case AARCH64_OPND_TME_UIMM16: |
a06ea964 | 5902 | case AARCH64_OPND_UIMM4: |
193614f2 SD |
5903 | case AARCH64_OPND_UIMM4_ADDG: |
5904 | case AARCH64_OPND_UIMM10: | |
a06ea964 NC |
5905 | case AARCH64_OPND_UIMM3_OP1: |
5906 | case AARCH64_OPND_UIMM3_OP2: | |
5907 | case AARCH64_OPND_IMM_VLSL: | |
5908 | case AARCH64_OPND_IMM: | |
f42f1a1d | 5909 | case AARCH64_OPND_IMM_2: |
a06ea964 | 5910 | case AARCH64_OPND_WIDTH: |
e950b345 RS |
5911 | case AARCH64_OPND_SVE_INV_LIMM: |
5912 | case AARCH64_OPND_SVE_LIMM: | |
5913 | case AARCH64_OPND_SVE_LIMM_MOV: | |
5914 | case AARCH64_OPND_SVE_SHLIMM_PRED: | |
5915 | case AARCH64_OPND_SVE_SHLIMM_UNPRED: | |
28ed815a | 5916 | case AARCH64_OPND_SVE_SHLIMM_UNPRED_22: |
e950b345 RS |
5917 | case AARCH64_OPND_SVE_SHRIMM_PRED: |
5918 | case AARCH64_OPND_SVE_SHRIMM_UNPRED: | |
3c17238b | 5919 | case AARCH64_OPND_SVE_SHRIMM_UNPRED_22: |
e950b345 RS |
5920 | case AARCH64_OPND_SVE_SIMM5: |
5921 | case AARCH64_OPND_SVE_SIMM5B: | |
5922 | case AARCH64_OPND_SVE_SIMM6: | |
5923 | case AARCH64_OPND_SVE_SIMM8: | |
5924 | case AARCH64_OPND_SVE_UIMM3: | |
5925 | case AARCH64_OPND_SVE_UIMM7: | |
5926 | case AARCH64_OPND_SVE_UIMM8: | |
5927 | case AARCH64_OPND_SVE_UIMM8_53: | |
c2c4ff8d SN |
5928 | case AARCH64_OPND_IMM_ROT1: |
5929 | case AARCH64_OPND_IMM_ROT2: | |
5930 | case AARCH64_OPND_IMM_ROT3: | |
582e12bf RS |
5931 | case AARCH64_OPND_SVE_IMM_ROT1: |
5932 | case AARCH64_OPND_SVE_IMM_ROT2: | |
adccc507 | 5933 | case AARCH64_OPND_SVE_IMM_ROT3: |
a06ea964 NC |
5934 | po_imm_nc_or_fail (); |
5935 | info->imm.value = val; | |
5936 | break; | |
5937 | ||
e950b345 RS |
5938 | case AARCH64_OPND_SVE_AIMM: |
5939 | case AARCH64_OPND_SVE_ASIMM: | |
5940 | po_imm_nc_or_fail (); | |
5941 | info->imm.value = val; | |
5942 | skip_whitespace (str); | |
5943 | if (skip_past_comma (&str)) | |
5944 | po_misc_or_fail (parse_shift (&str, info, SHIFTED_LSL)); | |
5945 | else | |
5946 | inst.base.operands[i].shifter.kind = AARCH64_MOD_LSL; | |
5947 | break; | |
5948 | ||
245d2e3f RS |
5949 | case AARCH64_OPND_SVE_PATTERN: |
5950 | po_enum_or_fail (aarch64_sve_pattern_array); | |
5951 | info->imm.value = val; | |
5952 | break; | |
5953 | ||
2442d846 RS |
5954 | case AARCH64_OPND_SVE_PATTERN_SCALED: |
5955 | po_enum_or_fail (aarch64_sve_pattern_array); | |
5956 | info->imm.value = val; | |
5957 | if (skip_past_comma (&str) | |
5958 | && !parse_shift (&str, info, SHIFTED_MUL)) | |
5959 | goto failure; | |
5960 | if (!info->shifter.operator_present) | |
5961 | { | |
5962 | gas_assert (info->shifter.kind == AARCH64_MOD_NONE); | |
5963 | info->shifter.kind = AARCH64_MOD_MUL; | |
5964 | info->shifter.amount = 1; | |
5965 | } | |
5966 | break; | |
5967 | ||
245d2e3f RS |
5968 | case AARCH64_OPND_SVE_PRFOP: |
5969 | po_enum_or_fail (aarch64_sve_prfop_array); | |
5970 | info->imm.value = val; | |
5971 | break; | |
5972 | ||
a06ea964 NC |
5973 | case AARCH64_OPND_UIMM7: |
5974 | po_imm_or_fail (0, 127); | |
5975 | info->imm.value = val; | |
5976 | break; | |
5977 | ||
5978 | case AARCH64_OPND_IDX: | |
f42f1a1d | 5979 | case AARCH64_OPND_MASK: |
a06ea964 NC |
5980 | case AARCH64_OPND_BIT_NUM: |
5981 | case AARCH64_OPND_IMMR: | |
5982 | case AARCH64_OPND_IMMS: | |
5983 | po_imm_or_fail (0, 63); | |
5984 | info->imm.value = val; | |
5985 | break; | |
5986 | ||
5987 | case AARCH64_OPND_IMM0: | |
5988 | po_imm_nc_or_fail (); | |
5989 | if (val != 0) | |
5990 | { | |
5991 | set_fatal_syntax_error (_("immediate zero expected")); | |
5992 | goto failure; | |
5993 | } | |
5994 | info->imm.value = 0; | |
5995 | break; | |
5996 | ||
5997 | case AARCH64_OPND_FPIMM0: | |
5998 | { | |
5999 | int qfloat; | |
6000 | bfd_boolean res1 = FALSE, res2 = FALSE; | |
6001 | /* N.B. -0.0 will be rejected; although -0.0 shouldn't be rejected, | |
6002 | it is probably not worth the effort to support it. */ | |
1799c0d0 RS |
6003 | if (!(res1 = parse_aarch64_imm_float (&str, &qfloat, FALSE, |
6004 | imm_reg_type)) | |
6a9deabe RS |
6005 | && (error_p () |
6006 | || !(res2 = parse_constant_immediate (&str, &val, | |
6007 | imm_reg_type)))) | |
a06ea964 NC |
6008 | goto failure; |
6009 | if ((res1 && qfloat == 0) || (res2 && val == 0)) | |
6010 | { | |
6011 | info->imm.value = 0; | |
6012 | info->imm.is_fp = 1; | |
6013 | break; | |
6014 | } | |
6015 | set_fatal_syntax_error (_("immediate zero expected")); | |
6016 | goto failure; | |
6017 | } | |
6018 | ||
6019 | case AARCH64_OPND_IMM_MOV: | |
6020 | { | |
6021 | char *saved = str; | |
8db49cc2 WN |
6022 | if (reg_name_p (str, REG_TYPE_R_Z_SP) || |
6023 | reg_name_p (str, REG_TYPE_VN)) | |
a06ea964 NC |
6024 | goto failure; |
6025 | str = saved; | |
6026 | po_misc_or_fail (my_get_expression (&inst.reloc.exp, &str, | |
6027 | GE_OPT_PREFIX, 1)); | |
6028 | /* The MOV immediate alias will be fixed up by fix_mov_imm_insn | |
6029 | later. fix_mov_imm_insn will try to determine a machine | |
6030 | instruction (MOVZ, MOVN or ORR) for it and will issue an error | |
6031 | message if the immediate cannot be moved by a single | |
6032 | instruction. */ | |
6033 | aarch64_set_gas_internal_fixup (&inst.reloc, info, 1); | |
6034 | inst.base.operands[i].skip = 1; | |
6035 | } | |
6036 | break; | |
6037 | ||
6038 | case AARCH64_OPND_SIMD_IMM: | |
6039 | case AARCH64_OPND_SIMD_IMM_SFT: | |
1799c0d0 | 6040 | if (! parse_big_immediate (&str, &val, imm_reg_type)) |
a06ea964 NC |
6041 | goto failure; |
6042 | assign_imm_if_const_or_fixup_later (&inst.reloc, info, | |
6043 | /* addr_off_p */ 0, | |
6044 | /* need_libopcodes_p */ 1, | |
6045 | /* skip_p */ 1); | |
6046 | /* Parse shift. | |
6047 | N.B. although AARCH64_OPND_SIMD_IMM doesn't permit any | |
6048 | shift, we don't check it here; we leave the checking to | |
6049 | the libopcodes (operand_general_constraint_met_p). By | |
6050 | doing this, we achieve better diagnostics. */ | |
6051 | if (skip_past_comma (&str) | |
6052 | && ! parse_shift (&str, info, SHIFTED_LSL_MSL)) | |
6053 | goto failure; | |
6054 | if (!info->shifter.operator_present | |
6055 | && info->type == AARCH64_OPND_SIMD_IMM_SFT) | |
6056 | { | |
6057 | /* Default to LSL if not present. Libopcodes prefers shifter | |
6058 | kind to be explicit. */ | |
6059 | gas_assert (info->shifter.kind == AARCH64_MOD_NONE); | |
6060 | info->shifter.kind = AARCH64_MOD_LSL; | |
6061 | } | |
6062 | break; | |
6063 | ||
6064 | case AARCH64_OPND_FPIMM: | |
6065 | case AARCH64_OPND_SIMD_FPIMM: | |
165d4950 | 6066 | case AARCH64_OPND_SVE_FPIMM8: |
a06ea964 NC |
6067 | { |
6068 | int qfloat; | |
165d4950 RS |
6069 | bfd_boolean dp_p; |
6070 | ||
6071 | dp_p = double_precision_operand_p (&inst.base.operands[0]); | |
6a9deabe | 6072 | if (!parse_aarch64_imm_float (&str, &qfloat, dp_p, imm_reg_type) |
874d7e6e | 6073 | || !aarch64_imm_float_p (qfloat)) |
a06ea964 | 6074 | { |
6a9deabe RS |
6075 | if (!error_p ()) |
6076 | set_fatal_syntax_error (_("invalid floating-point" | |
6077 | " constant")); | |
a06ea964 NC |
6078 | goto failure; |
6079 | } | |
6080 | inst.base.operands[i].imm.value = encode_imm_float_bits (qfloat); | |
6081 | inst.base.operands[i].imm.is_fp = 1; | |
6082 | } | |
6083 | break; | |
6084 | ||
165d4950 RS |
6085 | case AARCH64_OPND_SVE_I1_HALF_ONE: |
6086 | case AARCH64_OPND_SVE_I1_HALF_TWO: | |
6087 | case AARCH64_OPND_SVE_I1_ZERO_ONE: | |
6088 | { | |
6089 | int qfloat; | |
6090 | bfd_boolean dp_p; | |
6091 | ||
6092 | dp_p = double_precision_operand_p (&inst.base.operands[0]); | |
6093 | if (!parse_aarch64_imm_float (&str, &qfloat, dp_p, imm_reg_type)) | |
6094 | { | |
6095 | if (!error_p ()) | |
6096 | set_fatal_syntax_error (_("invalid floating-point" | |
6097 | " constant")); | |
6098 | goto failure; | |
6099 | } | |
6100 | inst.base.operands[i].imm.value = qfloat; | |
6101 | inst.base.operands[i].imm.is_fp = 1; | |
6102 | } | |
6103 | break; | |
6104 | ||
a06ea964 NC |
6105 | case AARCH64_OPND_LIMM: |
6106 | po_misc_or_fail (parse_shifter_operand (&str, info, | |
6107 | SHIFTED_LOGIC_IMM)); | |
6108 | if (info->shifter.operator_present) | |
6109 | { | |
6110 | set_fatal_syntax_error | |
6111 | (_("shift not allowed for bitmask immediate")); | |
6112 | goto failure; | |
6113 | } | |
6114 | assign_imm_if_const_or_fixup_later (&inst.reloc, info, | |
6115 | /* addr_off_p */ 0, | |
6116 | /* need_libopcodes_p */ 1, | |
6117 | /* skip_p */ 1); | |
6118 | break; | |
6119 | ||
6120 | case AARCH64_OPND_AIMM: | |
6121 | if (opcode->op == OP_ADD) | |
6122 | /* ADD may have relocation types. */ | |
6123 | po_misc_or_fail (parse_shifter_operand_reloc (&str, info, | |
6124 | SHIFTED_ARITH_IMM)); | |
6125 | else | |
6126 | po_misc_or_fail (parse_shifter_operand (&str, info, | |
6127 | SHIFTED_ARITH_IMM)); | |
6128 | switch (inst.reloc.type) | |
6129 | { | |
6130 | case BFD_RELOC_AARCH64_TLSLE_ADD_TPREL_HI12: | |
6131 | info->shifter.amount = 12; | |
6132 | break; | |
6133 | case BFD_RELOC_UNUSED: | |
6134 | aarch64_set_gas_internal_fixup (&inst.reloc, info, 0); | |
6135 | if (info->shifter.kind != AARCH64_MOD_NONE) | |
6136 | inst.reloc.flags = FIXUP_F_HAS_EXPLICIT_SHIFT; | |
6137 | inst.reloc.pc_rel = 0; | |
6138 | break; | |
6139 | default: | |
6140 | break; | |
6141 | } | |
6142 | info->imm.value = 0; | |
6143 | if (!info->shifter.operator_present) | |
6144 | { | |
6145 | /* Default to LSL if not present. Libopcodes prefers shifter | |
6146 | kind to be explicit. */ | |
6147 | gas_assert (info->shifter.kind == AARCH64_MOD_NONE); | |
6148 | info->shifter.kind = AARCH64_MOD_LSL; | |
6149 | } | |
6150 | break; | |
6151 | ||
6152 | case AARCH64_OPND_HALF: | |
6153 | { | |
6154 | /* #<imm16> or relocation. */ | |
6155 | int internal_fixup_p; | |
6156 | po_misc_or_fail (parse_half (&str, &internal_fixup_p)); | |
6157 | if (internal_fixup_p) | |
6158 | aarch64_set_gas_internal_fixup (&inst.reloc, info, 0); | |
6159 | skip_whitespace (str); | |
6160 | if (skip_past_comma (&str)) | |
6161 | { | |
6162 | /* {, LSL #<shift>} */ | |
6163 | if (! aarch64_gas_internal_fixup_p ()) | |
6164 | { | |
6165 | set_fatal_syntax_error (_("can't mix relocation modifier " | |
6166 | "with explicit shift")); | |
6167 | goto failure; | |
6168 | } | |
6169 | po_misc_or_fail (parse_shift (&str, info, SHIFTED_LSL)); | |
6170 | } | |
6171 | else | |
6172 | inst.base.operands[i].shifter.amount = 0; | |
6173 | inst.base.operands[i].shifter.kind = AARCH64_MOD_LSL; | |
6174 | inst.base.operands[i].imm.value = 0; | |
6175 | if (! process_movw_reloc_info ()) | |
6176 | goto failure; | |
6177 | } | |
6178 | break; | |
6179 | ||
6180 | case AARCH64_OPND_EXCEPTION: | |
09c1e68a | 6181 | case AARCH64_OPND_UNDEFINED: |
1799c0d0 RS |
6182 | po_misc_or_fail (parse_immediate_expression (&str, &inst.reloc.exp, |
6183 | imm_reg_type)); | |
a06ea964 NC |
6184 | assign_imm_if_const_or_fixup_later (&inst.reloc, info, |
6185 | /* addr_off_p */ 0, | |
6186 | /* need_libopcodes_p */ 0, | |
6187 | /* skip_p */ 1); | |
6188 | break; | |
6189 | ||
6190 | case AARCH64_OPND_NZCV: | |
6191 | { | |
629310ab | 6192 | const asm_nzcv *nzcv = str_hash_find_n (aarch64_nzcv_hsh, str, 4); |
a06ea964 NC |
6193 | if (nzcv != NULL) |
6194 | { | |
6195 | str += 4; | |
6196 | info->imm.value = nzcv->value; | |
6197 | break; | |
6198 | } | |
6199 | po_imm_or_fail (0, 15); | |
6200 | info->imm.value = val; | |
6201 | } | |
6202 | break; | |
6203 | ||
6204 | case AARCH64_OPND_COND: | |
68a64283 | 6205 | case AARCH64_OPND_COND1: |
bb7eff52 RS |
6206 | { |
6207 | char *start = str; | |
6208 | do | |
6209 | str++; | |
6210 | while (ISALPHA (*str)); | |
629310ab | 6211 | info->cond = str_hash_find_n (aarch64_cond_hsh, start, str - start); |
bb7eff52 RS |
6212 | if (info->cond == NULL) |
6213 | { | |
6214 | set_syntax_error (_("invalid condition")); | |
6215 | goto failure; | |
6216 | } | |
6217 | else if (operands[i] == AARCH64_OPND_COND1 | |
6218 | && (info->cond->value & 0xe) == 0xe) | |
6219 | { | |
6220 | /* Do not allow AL or NV. */ | |
6221 | set_default_error (); | |
6222 | goto failure; | |
6223 | } | |
6224 | } | |
a06ea964 NC |
6225 | break; |
6226 | ||
6227 | case AARCH64_OPND_ADDR_ADRP: | |
6228 | po_misc_or_fail (parse_adrp (&str)); | |
6229 | /* Clear the value as operand needs to be relocated. */ | |
6230 | info->imm.value = 0; | |
6231 | break; | |
6232 | ||
6233 | case AARCH64_OPND_ADDR_PCREL14: | |
6234 | case AARCH64_OPND_ADDR_PCREL19: | |
6235 | case AARCH64_OPND_ADDR_PCREL21: | |
6236 | case AARCH64_OPND_ADDR_PCREL26: | |
73866052 | 6237 | po_misc_or_fail (parse_address (&str, info)); |
a06ea964 NC |
6238 | if (!info->addr.pcrel) |
6239 | { | |
6240 | set_syntax_error (_("invalid pc-relative address")); | |
6241 | goto failure; | |
6242 | } | |
6243 | if (inst.gen_lit_pool | |
6244 | && (opcode->iclass != loadlit || opcode->op == OP_PRFM_LIT)) | |
6245 | { | |
6246 | /* Only permit "=value" in the literal load instructions. | |
6247 | The literal will be generated by programmer_friendly_fixup. */ | |
6248 | set_syntax_error (_("invalid use of \"=immediate\"")); | |
6249 | goto failure; | |
6250 | } | |
6251 | if (inst.reloc.exp.X_op == O_symbol && find_reloc_table_entry (&str)) | |
6252 | { | |
6253 | set_syntax_error (_("unrecognized relocation suffix")); | |
6254 | goto failure; | |
6255 | } | |
6256 | if (inst.reloc.exp.X_op == O_constant && !inst.gen_lit_pool) | |
6257 | { | |
6258 | info->imm.value = inst.reloc.exp.X_add_number; | |
6259 | inst.reloc.type = BFD_RELOC_UNUSED; | |
6260 | } | |
6261 | else | |
6262 | { | |
6263 | info->imm.value = 0; | |
f41aef5f RE |
6264 | if (inst.reloc.type == BFD_RELOC_UNUSED) |
6265 | switch (opcode->iclass) | |
6266 | { | |
6267 | case compbranch: | |
6268 | case condbranch: | |
6269 | /* e.g. CBZ or B.COND */ | |
6270 | gas_assert (operands[i] == AARCH64_OPND_ADDR_PCREL19); | |
6271 | inst.reloc.type = BFD_RELOC_AARCH64_BRANCH19; | |
6272 | break; | |
6273 | case testbranch: | |
6274 | /* e.g. TBZ */ | |
6275 | gas_assert (operands[i] == AARCH64_OPND_ADDR_PCREL14); | |
6276 | inst.reloc.type = BFD_RELOC_AARCH64_TSTBR14; | |
6277 | break; | |
6278 | case branch_imm: | |
6279 | /* e.g. B or BL */ | |
6280 | gas_assert (operands[i] == AARCH64_OPND_ADDR_PCREL26); | |
6281 | inst.reloc.type = | |
6282 | (opcode->op == OP_BL) ? BFD_RELOC_AARCH64_CALL26 | |
6283 | : BFD_RELOC_AARCH64_JUMP26; | |
6284 | break; | |
6285 | case loadlit: | |
6286 | gas_assert (operands[i] == AARCH64_OPND_ADDR_PCREL19); | |
6287 | inst.reloc.type = BFD_RELOC_AARCH64_LD_LO19_PCREL; | |
6288 | break; | |
6289 | case pcreladdr: | |
6290 | gas_assert (operands[i] == AARCH64_OPND_ADDR_PCREL21); | |
6291 | inst.reloc.type = BFD_RELOC_AARCH64_ADR_LO21_PCREL; | |
6292 | break; | |
6293 | default: | |
6294 | gas_assert (0); | |
6295 | abort (); | |
6296 | } | |
a06ea964 NC |
6297 | inst.reloc.pc_rel = 1; |
6298 | } | |
6299 | break; | |
6300 | ||
6301 | case AARCH64_OPND_ADDR_SIMPLE: | |
6302 | case AARCH64_OPND_SIMD_ADDR_SIMPLE: | |
e1b988bb RS |
6303 | { |
6304 | /* [<Xn|SP>{, #<simm>}] */ | |
6305 | char *start = str; | |
6306 | /* First use the normal address-parsing routines, to get | |
6307 | the usual syntax errors. */ | |
73866052 | 6308 | po_misc_or_fail (parse_address (&str, info)); |
e1b988bb RS |
6309 | if (info->addr.pcrel || info->addr.offset.is_reg |
6310 | || !info->addr.preind || info->addr.postind | |
550fd7bf | 6311 | || info->addr.writeback) |
e1b988bb RS |
6312 | { |
6313 | set_syntax_error (_("invalid addressing mode")); | |
6314 | goto failure; | |
6315 | } | |
6316 | ||
6317 | /* Then retry, matching the specific syntax of these addresses. */ | |
6318 | str = start; | |
6319 | po_char_or_fail ('['); | |
6320 | po_reg_or_fail (REG_TYPE_R64_SP); | |
6321 | /* Accept optional ", #0". */ | |
6322 | if (operands[i] == AARCH64_OPND_ADDR_SIMPLE | |
6323 | && skip_past_char (&str, ',')) | |
6324 | { | |
6325 | skip_past_char (&str, '#'); | |
6326 | if (! skip_past_char (&str, '0')) | |
6327 | { | |
6328 | set_fatal_syntax_error | |
6329 | (_("the optional immediate offset can only be 0")); | |
6330 | goto failure; | |
6331 | } | |
6332 | } | |
6333 | po_char_or_fail (']'); | |
6334 | break; | |
6335 | } | |
a06ea964 NC |
6336 | |
6337 | case AARCH64_OPND_ADDR_REGOFF: | |
6338 | /* [<Xn|SP>, <R><m>{, <extend> {<amount>}}] */ | |
73866052 | 6339 | po_misc_or_fail (parse_address (&str, info)); |
4df068de | 6340 | regoff_addr: |
a06ea964 NC |
6341 | if (info->addr.pcrel || !info->addr.offset.is_reg |
6342 | || !info->addr.preind || info->addr.postind | |
6343 | || info->addr.writeback) | |
6344 | { | |
6345 | set_syntax_error (_("invalid addressing mode")); | |
6346 | goto failure; | |
6347 | } | |
6348 | if (!info->shifter.operator_present) | |
6349 | { | |
6350 | /* Default to LSL if not present. Libopcodes prefers shifter | |
6351 | kind to be explicit. */ | |
6352 | gas_assert (info->shifter.kind == AARCH64_MOD_NONE); | |
6353 | info->shifter.kind = AARCH64_MOD_LSL; | |
6354 | } | |
6355 | /* Qualifier to be deduced by libopcodes. */ | |
6356 | break; | |
6357 | ||
6358 | case AARCH64_OPND_ADDR_SIMM7: | |
73866052 | 6359 | po_misc_or_fail (parse_address (&str, info)); |
a06ea964 NC |
6360 | if (info->addr.pcrel || info->addr.offset.is_reg |
6361 | || (!info->addr.preind && !info->addr.postind)) | |
6362 | { | |
6363 | set_syntax_error (_("invalid addressing mode")); | |
6364 | goto failure; | |
6365 | } | |
73866052 RS |
6366 | if (inst.reloc.type != BFD_RELOC_UNUSED) |
6367 | { | |
6368 | set_syntax_error (_("relocation not allowed")); | |
6369 | goto failure; | |
6370 | } | |
a06ea964 NC |
6371 | assign_imm_if_const_or_fixup_later (&inst.reloc, info, |
6372 | /* addr_off_p */ 1, | |
6373 | /* need_libopcodes_p */ 1, | |
6374 | /* skip_p */ 0); | |
6375 | break; | |
6376 | ||
6377 | case AARCH64_OPND_ADDR_SIMM9: | |
6378 | case AARCH64_OPND_ADDR_SIMM9_2: | |
fb3265b3 SD |
6379 | case AARCH64_OPND_ADDR_SIMM11: |
6380 | case AARCH64_OPND_ADDR_SIMM13: | |
73866052 | 6381 | po_misc_or_fail (parse_address (&str, info)); |
a06ea964 NC |
6382 | if (info->addr.pcrel || info->addr.offset.is_reg |
6383 | || (!info->addr.preind && !info->addr.postind) | |
6384 | || (operands[i] == AARCH64_OPND_ADDR_SIMM9_2 | |
6385 | && info->addr.writeback)) | |
6386 | { | |
6387 | set_syntax_error (_("invalid addressing mode")); | |
6388 | goto failure; | |
6389 | } | |
6390 | if (inst.reloc.type != BFD_RELOC_UNUSED) | |
6391 | { | |
6392 | set_syntax_error (_("relocation not allowed")); | |
6393 | goto failure; | |
6394 | } | |
6395 | assign_imm_if_const_or_fixup_later (&inst.reloc, info, | |
6396 | /* addr_off_p */ 1, | |
6397 | /* need_libopcodes_p */ 1, | |
6398 | /* skip_p */ 0); | |
6399 | break; | |
6400 | ||
3f06e550 | 6401 | case AARCH64_OPND_ADDR_SIMM10: |
f42f1a1d | 6402 | case AARCH64_OPND_ADDR_OFFSET: |
3f06e550 SN |
6403 | po_misc_or_fail (parse_address (&str, info)); |
6404 | if (info->addr.pcrel || info->addr.offset.is_reg | |
6405 | || !info->addr.preind || info->addr.postind) | |
6406 | { | |
6407 | set_syntax_error (_("invalid addressing mode")); | |
6408 | goto failure; | |
6409 | } | |
6410 | if (inst.reloc.type != BFD_RELOC_UNUSED) | |
6411 | { | |
6412 | set_syntax_error (_("relocation not allowed")); | |
6413 | goto failure; | |
6414 | } | |
6415 | assign_imm_if_const_or_fixup_later (&inst.reloc, info, | |
6416 | /* addr_off_p */ 1, | |
6417 | /* need_libopcodes_p */ 1, | |
6418 | /* skip_p */ 0); | |
6419 | break; | |
6420 | ||
a06ea964 | 6421 | case AARCH64_OPND_ADDR_UIMM12: |
73866052 | 6422 | po_misc_or_fail (parse_address (&str, info)); |
a06ea964 NC |
6423 | if (info->addr.pcrel || info->addr.offset.is_reg |
6424 | || !info->addr.preind || info->addr.writeback) | |
6425 | { | |
6426 | set_syntax_error (_("invalid addressing mode")); | |
6427 | goto failure; | |
6428 | } | |
6429 | if (inst.reloc.type == BFD_RELOC_UNUSED) | |
6430 | aarch64_set_gas_internal_fixup (&inst.reloc, info, 1); | |
4c562523 JW |
6431 | else if (inst.reloc.type == BFD_RELOC_AARCH64_LDST_LO12 |
6432 | || (inst.reloc.type | |
6433 | == BFD_RELOC_AARCH64_TLSLD_LDST_DTPREL_LO12) | |
6434 | || (inst.reloc.type | |
84f1b9fb RL |
6435 | == BFD_RELOC_AARCH64_TLSLD_LDST_DTPREL_LO12_NC) |
6436 | || (inst.reloc.type | |
6437 | == BFD_RELOC_AARCH64_TLSLE_LDST_TPREL_LO12) | |
6438 | || (inst.reloc.type | |
6439 | == BFD_RELOC_AARCH64_TLSLE_LDST_TPREL_LO12_NC)) | |
a06ea964 NC |
6440 | inst.reloc.type = ldst_lo12_determine_real_reloc_type (); |
6441 | /* Leave qualifier to be determined by libopcodes. */ | |
6442 | break; | |
6443 | ||
6444 | case AARCH64_OPND_SIMD_ADDR_POST: | |
6445 | /* [<Xn|SP>], <Xm|#<amount>> */ | |
73866052 | 6446 | po_misc_or_fail (parse_address (&str, info)); |
a06ea964 NC |
6447 | if (!info->addr.postind || !info->addr.writeback) |
6448 | { | |
6449 | set_syntax_error (_("invalid addressing mode")); | |
6450 | goto failure; | |
6451 | } | |
6452 | if (!info->addr.offset.is_reg) | |
6453 | { | |
6454 | if (inst.reloc.exp.X_op == O_constant) | |
6455 | info->addr.offset.imm = inst.reloc.exp.X_add_number; | |
6456 | else | |
6457 | { | |
6458 | set_fatal_syntax_error | |
ab3b8fcf | 6459 | (_("writeback value must be an immediate constant")); |
a06ea964 NC |
6460 | goto failure; |
6461 | } | |
6462 | } | |
6463 | /* No qualifier. */ | |
6464 | break; | |
6465 | ||
582e12bf | 6466 | case AARCH64_OPND_SVE_ADDR_RI_S4x16: |
8382113f | 6467 | case AARCH64_OPND_SVE_ADDR_RI_S4x32: |
98907a70 RS |
6468 | case AARCH64_OPND_SVE_ADDR_RI_S4xVL: |
6469 | case AARCH64_OPND_SVE_ADDR_RI_S4x2xVL: | |
6470 | case AARCH64_OPND_SVE_ADDR_RI_S4x3xVL: | |
6471 | case AARCH64_OPND_SVE_ADDR_RI_S4x4xVL: | |
6472 | case AARCH64_OPND_SVE_ADDR_RI_S6xVL: | |
6473 | case AARCH64_OPND_SVE_ADDR_RI_S9xVL: | |
4df068de RS |
6474 | case AARCH64_OPND_SVE_ADDR_RI_U6: |
6475 | case AARCH64_OPND_SVE_ADDR_RI_U6x2: | |
6476 | case AARCH64_OPND_SVE_ADDR_RI_U6x4: | |
6477 | case AARCH64_OPND_SVE_ADDR_RI_U6x8: | |
98907a70 RS |
6478 | /* [X<n>{, #imm, MUL VL}] |
6479 | [X<n>{, #imm}] | |
4df068de RS |
6480 | but recognizing SVE registers. */ |
6481 | po_misc_or_fail (parse_sve_address (&str, info, &base_qualifier, | |
6482 | &offset_qualifier)); | |
6483 | if (base_qualifier != AARCH64_OPND_QLF_X) | |
6484 | { | |
6485 | set_syntax_error (_("invalid addressing mode")); | |
6486 | goto failure; | |
6487 | } | |
6488 | sve_regimm: | |
6489 | if (info->addr.pcrel || info->addr.offset.is_reg | |
6490 | || !info->addr.preind || info->addr.writeback) | |
6491 | { | |
6492 | set_syntax_error (_("invalid addressing mode")); | |
6493 | goto failure; | |
6494 | } | |
6495 | if (inst.reloc.type != BFD_RELOC_UNUSED | |
6496 | || inst.reloc.exp.X_op != O_constant) | |
6497 | { | |
6498 | /* Make sure this has priority over | |
6499 | "invalid addressing mode". */ | |
6500 | set_fatal_syntax_error (_("constant offset required")); | |
6501 | goto failure; | |
6502 | } | |
6503 | info->addr.offset.imm = inst.reloc.exp.X_add_number; | |
6504 | break; | |
6505 | ||
c8d59609 NC |
6506 | case AARCH64_OPND_SVE_ADDR_R: |
6507 | /* [<Xn|SP>{, <R><m>}] | |
6508 | but recognizing SVE registers. */ | |
6509 | po_misc_or_fail (parse_sve_address (&str, info, &base_qualifier, | |
6510 | &offset_qualifier)); | |
6511 | if (offset_qualifier == AARCH64_OPND_QLF_NIL) | |
6512 | { | |
6513 | offset_qualifier = AARCH64_OPND_QLF_X; | |
6514 | info->addr.offset.is_reg = 1; | |
6515 | info->addr.offset.regno = 31; | |
6516 | } | |
6517 | else if (base_qualifier != AARCH64_OPND_QLF_X | |
6518 | || offset_qualifier != AARCH64_OPND_QLF_X) | |
6519 | { | |
6520 | set_syntax_error (_("invalid addressing mode")); | |
6521 | goto failure; | |
6522 | } | |
6523 | goto regoff_addr; | |
6524 | ||
4df068de RS |
6525 | case AARCH64_OPND_SVE_ADDR_RR: |
6526 | case AARCH64_OPND_SVE_ADDR_RR_LSL1: | |
6527 | case AARCH64_OPND_SVE_ADDR_RR_LSL2: | |
6528 | case AARCH64_OPND_SVE_ADDR_RR_LSL3: | |
6529 | case AARCH64_OPND_SVE_ADDR_RX: | |
6530 | case AARCH64_OPND_SVE_ADDR_RX_LSL1: | |
6531 | case AARCH64_OPND_SVE_ADDR_RX_LSL2: | |
6532 | case AARCH64_OPND_SVE_ADDR_RX_LSL3: | |
6533 | /* [<Xn|SP>, <R><m>{, lsl #<amount>}] | |
6534 | but recognizing SVE registers. */ | |
6535 | po_misc_or_fail (parse_sve_address (&str, info, &base_qualifier, | |
6536 | &offset_qualifier)); | |
6537 | if (base_qualifier != AARCH64_OPND_QLF_X | |
6538 | || offset_qualifier != AARCH64_OPND_QLF_X) | |
6539 | { | |
6540 | set_syntax_error (_("invalid addressing mode")); | |
6541 | goto failure; | |
6542 | } | |
6543 | goto regoff_addr; | |
6544 | ||
6545 | case AARCH64_OPND_SVE_ADDR_RZ: | |
6546 | case AARCH64_OPND_SVE_ADDR_RZ_LSL1: | |
6547 | case AARCH64_OPND_SVE_ADDR_RZ_LSL2: | |
6548 | case AARCH64_OPND_SVE_ADDR_RZ_LSL3: | |
6549 | case AARCH64_OPND_SVE_ADDR_RZ_XTW_14: | |
6550 | case AARCH64_OPND_SVE_ADDR_RZ_XTW_22: | |
6551 | case AARCH64_OPND_SVE_ADDR_RZ_XTW1_14: | |
6552 | case AARCH64_OPND_SVE_ADDR_RZ_XTW1_22: | |
6553 | case AARCH64_OPND_SVE_ADDR_RZ_XTW2_14: | |
6554 | case AARCH64_OPND_SVE_ADDR_RZ_XTW2_22: | |
6555 | case AARCH64_OPND_SVE_ADDR_RZ_XTW3_14: | |
6556 | case AARCH64_OPND_SVE_ADDR_RZ_XTW3_22: | |
6557 | /* [<Xn|SP>, Z<m>.D{, LSL #<amount>}] | |
6558 | [<Xn|SP>, Z<m>.<T>, <extend> {#<amount>}] */ | |
6559 | po_misc_or_fail (parse_sve_address (&str, info, &base_qualifier, | |
6560 | &offset_qualifier)); | |
6561 | if (base_qualifier != AARCH64_OPND_QLF_X | |
6562 | || (offset_qualifier != AARCH64_OPND_QLF_S_S | |
6563 | && offset_qualifier != AARCH64_OPND_QLF_S_D)) | |
6564 | { | |
6565 | set_syntax_error (_("invalid addressing mode")); | |
6566 | goto failure; | |
6567 | } | |
6568 | info->qualifier = offset_qualifier; | |
6569 | goto regoff_addr; | |
6570 | ||
c469c864 MM |
6571 | case AARCH64_OPND_SVE_ADDR_ZX: |
6572 | /* [Zn.<T>{, <Xm>}]. */ | |
6573 | po_misc_or_fail (parse_sve_address (&str, info, &base_qualifier, | |
6574 | &offset_qualifier)); | |
6575 | /* Things to check: | |
6576 | base_qualifier either S_S or S_D | |
6577 | offset_qualifier must be X | |
6578 | */ | |
6579 | if ((base_qualifier != AARCH64_OPND_QLF_S_S | |
6580 | && base_qualifier != AARCH64_OPND_QLF_S_D) | |
6581 | || offset_qualifier != AARCH64_OPND_QLF_X) | |
6582 | { | |
6583 | set_syntax_error (_("invalid addressing mode")); | |
6584 | goto failure; | |
6585 | } | |
6586 | info->qualifier = base_qualifier; | |
6587 | if (!info->addr.offset.is_reg || info->addr.pcrel | |
6588 | || !info->addr.preind || info->addr.writeback | |
6589 | || info->shifter.operator_present != 0) | |
6590 | { | |
6591 | set_syntax_error (_("invalid addressing mode")); | |
6592 | goto failure; | |
6593 | } | |
6594 | info->shifter.kind = AARCH64_MOD_LSL; | |
6595 | break; | |
6596 | ||
6597 | ||
4df068de RS |
6598 | case AARCH64_OPND_SVE_ADDR_ZI_U5: |
6599 | case AARCH64_OPND_SVE_ADDR_ZI_U5x2: | |
6600 | case AARCH64_OPND_SVE_ADDR_ZI_U5x4: | |
6601 | case AARCH64_OPND_SVE_ADDR_ZI_U5x8: | |
6602 | /* [Z<n>.<T>{, #imm}] */ | |
6603 | po_misc_or_fail (parse_sve_address (&str, info, &base_qualifier, | |
6604 | &offset_qualifier)); | |
6605 | if (base_qualifier != AARCH64_OPND_QLF_S_S | |
6606 | && base_qualifier != AARCH64_OPND_QLF_S_D) | |
6607 | { | |
6608 | set_syntax_error (_("invalid addressing mode")); | |
6609 | goto failure; | |
6610 | } | |
6611 | info->qualifier = base_qualifier; | |
6612 | goto sve_regimm; | |
6613 | ||
6614 | case AARCH64_OPND_SVE_ADDR_ZZ_LSL: | |
6615 | case AARCH64_OPND_SVE_ADDR_ZZ_SXTW: | |
6616 | case AARCH64_OPND_SVE_ADDR_ZZ_UXTW: | |
6617 | /* [Z<n>.<T>, Z<m>.<T>{, LSL #<amount>}] | |
6618 | [Z<n>.D, Z<m>.D, <extend> {#<amount>}] | |
6619 | ||
6620 | We don't reject: | |
6621 | ||
6622 | [Z<n>.S, Z<m>.S, <extend> {#<amount>}] | |
6623 | ||
6624 | here since we get better error messages by leaving it to | |
6625 | the qualifier checking routines. */ | |
6626 | po_misc_or_fail (parse_sve_address (&str, info, &base_qualifier, | |
6627 | &offset_qualifier)); | |
6628 | if ((base_qualifier != AARCH64_OPND_QLF_S_S | |
6629 | && base_qualifier != AARCH64_OPND_QLF_S_D) | |
6630 | || offset_qualifier != base_qualifier) | |
6631 | { | |
6632 | set_syntax_error (_("invalid addressing mode")); | |
6633 | goto failure; | |
6634 | } | |
6635 | info->qualifier = base_qualifier; | |
6636 | goto regoff_addr; | |
6637 | ||
a06ea964 | 6638 | case AARCH64_OPND_SYSREG: |
7d02540a TC |
6639 | { |
6640 | uint32_t sysreg_flags; | |
6641 | if ((val = parse_sys_reg (&str, aarch64_sys_regs_hsh, 1, 0, | |
6642 | &sysreg_flags)) == PARSE_FAIL) | |
6643 | { | |
6644 | set_syntax_error (_("unknown or missing system register name")); | |
6645 | goto failure; | |
6646 | } | |
6647 | inst.base.operands[i].sysreg.value = val; | |
6648 | inst.base.operands[i].sysreg.flags = sysreg_flags; | |
6649 | break; | |
6650 | } | |
a06ea964 NC |
6651 | |
6652 | case AARCH64_OPND_PSTATEFIELD: | |
561a72d4 | 6653 | if ((val = parse_sys_reg (&str, aarch64_pstatefield_hsh, 0, 1, NULL)) |
a3251895 | 6654 | == PARSE_FAIL) |
a06ea964 NC |
6655 | { |
6656 | set_syntax_error (_("unknown or missing PSTATE field name")); | |
6657 | goto failure; | |
6658 | } | |
6659 | inst.base.operands[i].pstatefield = val; | |
6660 | break; | |
6661 | ||
6662 | case AARCH64_OPND_SYSREG_IC: | |
6663 | inst.base.operands[i].sysins_op = | |
6664 | parse_sys_ins_reg (&str, aarch64_sys_regs_ic_hsh); | |
6665 | goto sys_reg_ins; | |
2ac435d4 | 6666 | |
a06ea964 NC |
6667 | case AARCH64_OPND_SYSREG_DC: |
6668 | inst.base.operands[i].sysins_op = | |
6669 | parse_sys_ins_reg (&str, aarch64_sys_regs_dc_hsh); | |
6670 | goto sys_reg_ins; | |
2ac435d4 | 6671 | |
a06ea964 NC |
6672 | case AARCH64_OPND_SYSREG_AT: |
6673 | inst.base.operands[i].sysins_op = | |
6674 | parse_sys_ins_reg (&str, aarch64_sys_regs_at_hsh); | |
6675 | goto sys_reg_ins; | |
2ac435d4 SD |
6676 | |
6677 | case AARCH64_OPND_SYSREG_SR: | |
6678 | inst.base.operands[i].sysins_op = | |
6679 | parse_sys_ins_reg (&str, aarch64_sys_regs_sr_hsh); | |
6680 | goto sys_reg_ins; | |
6681 | ||
a06ea964 NC |
6682 | case AARCH64_OPND_SYSREG_TLBI: |
6683 | inst.base.operands[i].sysins_op = | |
6684 | parse_sys_ins_reg (&str, aarch64_sys_regs_tlbi_hsh); | |
dc1e8a47 | 6685 | sys_reg_ins: |
a06ea964 NC |
6686 | if (inst.base.operands[i].sysins_op == NULL) |
6687 | { | |
6688 | set_fatal_syntax_error ( _("unknown or missing operation name")); | |
6689 | goto failure; | |
6690 | } | |
6691 | break; | |
6692 | ||
6693 | case AARCH64_OPND_BARRIER: | |
6694 | case AARCH64_OPND_BARRIER_ISB: | |
6695 | val = parse_barrier (&str); | |
6696 | if (val != PARSE_FAIL | |
6697 | && operands[i] == AARCH64_OPND_BARRIER_ISB && val != 0xf) | |
6698 | { | |
6699 | /* ISB only accepts options name 'sy'. */ | |
6700 | set_syntax_error | |
6701 | (_("the specified option is not accepted in ISB")); | |
6702 | /* Turn off backtrack as this optional operand is present. */ | |
6703 | backtrack_pos = 0; | |
6704 | goto failure; | |
6705 | } | |
fd195909 PW |
6706 | if (val != PARSE_FAIL |
6707 | && operands[i] == AARCH64_OPND_BARRIER) | |
6708 | { | |
6709 | /* Regular barriers accept options CRm (C0-C15). | |
6710 | DSB nXS barrier variant accepts values > 15. */ | |
59d5613e PW |
6711 | if (val < 0 || val > 15) |
6712 | { | |
6713 | set_syntax_error (_("the specified option is not accepted in DSB")); | |
6714 | goto failure; | |
6715 | } | |
fd195909 | 6716 | } |
a06ea964 NC |
6717 | /* This is an extension to accept a 0..15 immediate. */ |
6718 | if (val == PARSE_FAIL) | |
6719 | po_imm_or_fail (0, 15); | |
6720 | info->barrier = aarch64_barrier_options + val; | |
6721 | break; | |
6722 | ||
fd195909 PW |
6723 | case AARCH64_OPND_BARRIER_DSB_NXS: |
6724 | val = parse_barrier (&str); | |
6725 | if (val != PARSE_FAIL) | |
6726 | { | |
6727 | /* DSB nXS barrier variant accept only <option>nXS qualifiers. */ | |
6728 | if (!(val == 16 || val == 20 || val == 24 || val == 28)) | |
6729 | { | |
6730 | set_syntax_error (_("the specified option is not accepted in DSB")); | |
6731 | /* Turn off backtrack as this optional operand is present. */ | |
6732 | backtrack_pos = 0; | |
6733 | goto failure; | |
6734 | } | |
6735 | } | |
6736 | else | |
6737 | { | |
6738 | /* DSB nXS barrier variant accept 5-bit unsigned immediate, with | |
6739 | possible values 16, 20, 24 or 28 , encoded as val<3:2>. */ | |
6740 | if (! parse_constant_immediate (&str, &val, imm_reg_type)) | |
6741 | goto failure; | |
6742 | if (!(val == 16 || val == 20 || val == 24 || val == 28)) | |
6743 | { | |
6744 | set_syntax_error (_("immediate value must be 16, 20, 24, 28")); | |
6745 | goto failure; | |
6746 | } | |
6747 | } | |
6748 | /* Option index is encoded as 2-bit value in val<3:2>. */ | |
6749 | val = (val >> 2) - 4; | |
6750 | info->barrier = aarch64_barrier_dsb_nxs_options + val; | |
6751 | break; | |
6752 | ||
a06ea964 NC |
6753 | case AARCH64_OPND_PRFOP: |
6754 | val = parse_pldop (&str); | |
6755 | /* This is an extension to accept a 0..31 immediate. */ | |
6756 | if (val == PARSE_FAIL) | |
6757 | po_imm_or_fail (0, 31); | |
6758 | inst.base.operands[i].prfop = aarch64_prfops + val; | |
6759 | break; | |
6760 | ||
1e6f4800 MW |
6761 | case AARCH64_OPND_BARRIER_PSB: |
6762 | val = parse_barrier_psb (&str, &(info->hint_option)); | |
6763 | if (val == PARSE_FAIL) | |
6764 | goto failure; | |
6765 | break; | |
6766 | ||
ff605452 SD |
6767 | case AARCH64_OPND_BTI_TARGET: |
6768 | val = parse_bti_operand (&str, &(info->hint_option)); | |
6769 | if (val == PARSE_FAIL) | |
6770 | goto failure; | |
6771 | break; | |
6772 | ||
a06ea964 NC |
6773 | default: |
6774 | as_fatal (_("unhandled operand code %d"), operands[i]); | |
6775 | } | |
6776 | ||
6777 | /* If we get here, this operand was successfully parsed. */ | |
6778 | inst.base.operands[i].present = 1; | |
6779 | continue; | |
6780 | ||
dc1e8a47 | 6781 | failure: |
a06ea964 NC |
6782 | /* The parse routine should already have set the error, but in case |
6783 | not, set a default one here. */ | |
6784 | if (! error_p ()) | |
6785 | set_default_error (); | |
6786 | ||
6787 | if (! backtrack_pos) | |
6788 | goto parse_operands_return; | |
6789 | ||
f4c51f60 JW |
6790 | { |
6791 | /* We reach here because this operand is marked as optional, and | |
6792 | either no operand was supplied or the operand was supplied but it | |
6793 | was syntactically incorrect. In the latter case we report an | |
6794 | error. In the former case we perform a few more checks before | |
6795 | dropping through to the code to insert the default operand. */ | |
6796 | ||
6797 | char *tmp = backtrack_pos; | |
6798 | char endchar = END_OF_INSN; | |
6799 | ||
6800 | if (i != (aarch64_num_of_operands (opcode) - 1)) | |
6801 | endchar = ','; | |
6802 | skip_past_char (&tmp, ','); | |
6803 | ||
6804 | if (*tmp != endchar) | |
6805 | /* The user has supplied an operand in the wrong format. */ | |
6806 | goto parse_operands_return; | |
6807 | ||
6808 | /* Make sure there is not a comma before the optional operand. | |
6809 | For example the fifth operand of 'sys' is optional: | |
6810 | ||
6811 | sys #0,c0,c0,#0, <--- wrong | |
6812 | sys #0,c0,c0,#0 <--- correct. */ | |
6813 | if (comma_skipped_p && i && endchar == END_OF_INSN) | |
6814 | { | |
6815 | set_fatal_syntax_error | |
6816 | (_("unexpected comma before the omitted optional operand")); | |
6817 | goto parse_operands_return; | |
6818 | } | |
6819 | } | |
6820 | ||
a06ea964 NC |
6821 | /* Reaching here means we are dealing with an optional operand that is |
6822 | omitted from the assembly line. */ | |
6823 | gas_assert (optional_operand_p (opcode, i)); | |
6824 | info->present = 0; | |
6825 | process_omitted_operand (operands[i], opcode, i, info); | |
6826 | ||
6827 | /* Try again, skipping the optional operand at backtrack_pos. */ | |
6828 | str = backtrack_pos; | |
6829 | backtrack_pos = 0; | |
6830 | ||
a06ea964 NC |
6831 | /* Clear any error record after the omitted optional operand has been |
6832 | successfully handled. */ | |
6833 | clear_error (); | |
6834 | } | |
6835 | ||
6836 | /* Check if we have parsed all the operands. */ | |
6837 | if (*str != '\0' && ! error_p ()) | |
6838 | { | |
6839 | /* Set I to the index of the last present operand; this is | |
6840 | for the purpose of diagnostics. */ | |
6841 | for (i -= 1; i >= 0 && !inst.base.operands[i].present; --i) | |
6842 | ; | |
6843 | set_fatal_syntax_error | |
6844 | (_("unexpected characters following instruction")); | |
6845 | } | |
6846 | ||
dc1e8a47 | 6847 | parse_operands_return: |
a06ea964 NC |
6848 | |
6849 | if (error_p ()) | |
6850 | { | |
6851 | DEBUG_TRACE ("parsing FAIL: %s - %s", | |
6852 | operand_mismatch_kind_names[get_error_kind ()], | |
6853 | get_error_message ()); | |
6854 | /* Record the operand error properly; this is useful when there | |
6855 | are multiple instruction templates for a mnemonic name, so that | |
6856 | later on, we can select the error that most closely describes | |
6857 | the problem. */ | |
6858 | record_operand_error (opcode, i, get_error_kind (), | |
6859 | get_error_message ()); | |
6860 | return FALSE; | |
6861 | } | |
6862 | else | |
6863 | { | |
6864 | DEBUG_TRACE ("parsing SUCCESS"); | |
6865 | return TRUE; | |
6866 | } | |
6867 | } | |
6868 | ||
6869 | /* It does some fix-up to provide some programmer friendly feature while | |
6870 | keeping the libopcodes happy, i.e. libopcodes only accepts | |
6871 | the preferred architectural syntax. | |
6872 | Return FALSE if there is any failure; otherwise return TRUE. */ | |
6873 | ||
6874 | static bfd_boolean | |
6875 | programmer_friendly_fixup (aarch64_instruction *instr) | |
6876 | { | |
6877 | aarch64_inst *base = &instr->base; | |
6878 | const aarch64_opcode *opcode = base->opcode; | |
6879 | enum aarch64_op op = opcode->op; | |
6880 | aarch64_opnd_info *operands = base->operands; | |
6881 | ||
6882 | DEBUG_TRACE ("enter"); | |
6883 | ||
6884 | switch (opcode->iclass) | |
6885 | { | |
6886 | case testbranch: | |
6887 | /* TBNZ Xn|Wn, #uimm6, label | |
6888 | Test and Branch Not Zero: conditionally jumps to label if bit number | |
6889 | uimm6 in register Xn is not zero. The bit number implies the width of | |
6890 | the register, which may be written and should be disassembled as Wn if | |
6891 | uimm is less than 32. */ | |
6892 | if (operands[0].qualifier == AARCH64_OPND_QLF_W) | |
6893 | { | |
6894 | if (operands[1].imm.value >= 32) | |
6895 | { | |
6896 | record_operand_out_of_range_error (opcode, 1, _("immediate value"), | |
6897 | 0, 31); | |
6898 | return FALSE; | |
6899 | } | |
6900 | operands[0].qualifier = AARCH64_OPND_QLF_X; | |
6901 | } | |
6902 | break; | |
6903 | case loadlit: | |
6904 | /* LDR Wt, label | =value | |
6905 | As a convenience assemblers will typically permit the notation | |
6906 | "=value" in conjunction with the pc-relative literal load instructions | |
6907 | to automatically place an immediate value or symbolic address in a | |
6908 | nearby literal pool and generate a hidden label which references it. | |
6909 | ISREG has been set to 0 in the case of =value. */ | |
6910 | if (instr->gen_lit_pool | |
6911 | && (op == OP_LDR_LIT || op == OP_LDRV_LIT || op == OP_LDRSW_LIT)) | |
6912 | { | |
6913 | int size = aarch64_get_qualifier_esize (operands[0].qualifier); | |
6914 | if (op == OP_LDRSW_LIT) | |
6915 | size = 4; | |
6916 | if (instr->reloc.exp.X_op != O_constant | |
67a32447 | 6917 | && instr->reloc.exp.X_op != O_big |
a06ea964 NC |
6918 | && instr->reloc.exp.X_op != O_symbol) |
6919 | { | |
6920 | record_operand_error (opcode, 1, | |
6921 | AARCH64_OPDE_FATAL_SYNTAX_ERROR, | |
6922 | _("constant expression expected")); | |
6923 | return FALSE; | |
6924 | } | |
6925 | if (! add_to_lit_pool (&instr->reloc.exp, size)) | |
6926 | { | |
6927 | record_operand_error (opcode, 1, | |
6928 | AARCH64_OPDE_OTHER_ERROR, | |
6929 | _("literal pool insertion failed")); | |
6930 | return FALSE; | |
6931 | } | |
6932 | } | |
6933 | break; | |
a06ea964 NC |
6934 | case log_shift: |
6935 | case bitfield: | |
6936 | /* UXT[BHW] Wd, Wn | |
6937 | Unsigned Extend Byte|Halfword|Word: UXT[BH] is architectural alias | |
6938 | for UBFM Wd,Wn,#0,#7|15, while UXTW is pseudo instruction which is | |
6939 | encoded using ORR Wd, WZR, Wn (MOV Wd,Wn). | |
6940 | A programmer-friendly assembler should accept a destination Xd in | |
6941 | place of Wd, however that is not the preferred form for disassembly. | |
6942 | */ | |
6943 | if ((op == OP_UXTB || op == OP_UXTH || op == OP_UXTW) | |
6944 | && operands[1].qualifier == AARCH64_OPND_QLF_W | |
6945 | && operands[0].qualifier == AARCH64_OPND_QLF_X) | |
6946 | operands[0].qualifier = AARCH64_OPND_QLF_W; | |
6947 | break; | |
6948 | ||
6949 | case addsub_ext: | |
6950 | { | |
6951 | /* In the 64-bit form, the final register operand is written as Wm | |
6952 | for all but the (possibly omitted) UXTX/LSL and SXTX | |
6953 | operators. | |
6954 | As a programmer-friendly assembler, we accept e.g. | |
6955 | ADDS <Xd>, <Xn|SP>, <Xm>{, UXTB {#<amount>}} and change it to | |
6956 | ADDS <Xd>, <Xn|SP>, <Wm>{, UXTB {#<amount>}}. */ | |
6957 | int idx = aarch64_operand_index (opcode->operands, | |
6958 | AARCH64_OPND_Rm_EXT); | |
6959 | gas_assert (idx == 1 || idx == 2); | |
6960 | if (operands[0].qualifier == AARCH64_OPND_QLF_X | |
6961 | && operands[idx].qualifier == AARCH64_OPND_QLF_X | |
6962 | && operands[idx].shifter.kind != AARCH64_MOD_LSL | |
6963 | && operands[idx].shifter.kind != AARCH64_MOD_UXTX | |
6964 | && operands[idx].shifter.kind != AARCH64_MOD_SXTX) | |
6965 | operands[idx].qualifier = AARCH64_OPND_QLF_W; | |
6966 | } | |
6967 | break; | |
6968 | ||
6969 | default: | |
6970 | break; | |
6971 | } | |
6972 | ||
6973 | DEBUG_TRACE ("exit with SUCCESS"); | |
6974 | return TRUE; | |
6975 | } | |
6976 | ||
5c47e525 | 6977 | /* Check for loads and stores that will cause unpredictable behavior. */ |
54a28c4c JW |
6978 | |
6979 | static void | |
6980 | warn_unpredictable_ldst (aarch64_instruction *instr, char *str) | |
6981 | { | |
6982 | aarch64_inst *base = &instr->base; | |
6983 | const aarch64_opcode *opcode = base->opcode; | |
6984 | const aarch64_opnd_info *opnds = base->operands; | |
6985 | switch (opcode->iclass) | |
6986 | { | |
6987 | case ldst_pos: | |
6988 | case ldst_imm9: | |
3f06e550 | 6989 | case ldst_imm10: |
54a28c4c JW |
6990 | case ldst_unscaled: |
6991 | case ldst_unpriv: | |
5c47e525 RE |
6992 | /* Loading/storing the base register is unpredictable if writeback. */ |
6993 | if ((aarch64_get_operand_class (opnds[0].type) | |
6994 | == AARCH64_OPND_CLASS_INT_REG) | |
6995 | && opnds[0].reg.regno == opnds[1].addr.base_regno | |
4bf8c6e8 | 6996 | && opnds[1].addr.base_regno != REG_SP |
69105ce4 SD |
6997 | /* Exempt STG/STZG/ST2G/STZ2G. */ |
6998 | && !(opnds[1].type == AARCH64_OPND_ADDR_SIMM13) | |
54a28c4c | 6999 | && opnds[1].addr.writeback) |
5c47e525 | 7000 | as_warn (_("unpredictable transfer with writeback -- `%s'"), str); |
54a28c4c | 7001 | break; |
503ba600 | 7002 | |
54a28c4c JW |
7003 | case ldstpair_off: |
7004 | case ldstnapair_offs: | |
7005 | case ldstpair_indexed: | |
5c47e525 RE |
7006 | /* Loading/storing the base register is unpredictable if writeback. */ |
7007 | if ((aarch64_get_operand_class (opnds[0].type) | |
7008 | == AARCH64_OPND_CLASS_INT_REG) | |
7009 | && (opnds[0].reg.regno == opnds[2].addr.base_regno | |
7010 | || opnds[1].reg.regno == opnds[2].addr.base_regno) | |
4bf8c6e8 | 7011 | && opnds[2].addr.base_regno != REG_SP |
fb3265b3 SD |
7012 | /* Exempt STGP. */ |
7013 | && !(opnds[2].type == AARCH64_OPND_ADDR_SIMM11) | |
54a28c4c | 7014 | && opnds[2].addr.writeback) |
5c47e525 RE |
7015 | as_warn (_("unpredictable transfer with writeback -- `%s'"), str); |
7016 | /* Load operations must load different registers. */ | |
54a28c4c JW |
7017 | if ((opcode->opcode & (1 << 22)) |
7018 | && opnds[0].reg.regno == opnds[1].reg.regno) | |
7019 | as_warn (_("unpredictable load of register pair -- `%s'"), str); | |
7020 | break; | |
ee943970 RR |
7021 | |
7022 | case ldstexcl: | |
7023 | /* It is unpredictable if the destination and status registers are the | |
7024 | same. */ | |
7025 | if ((aarch64_get_operand_class (opnds[0].type) | |
7026 | == AARCH64_OPND_CLASS_INT_REG) | |
7027 | && (aarch64_get_operand_class (opnds[1].type) | |
7028 | == AARCH64_OPND_CLASS_INT_REG) | |
7029 | && (opnds[0].reg.regno == opnds[1].reg.regno | |
7030 | || opnds[0].reg.regno == opnds[2].reg.regno)) | |
7031 | as_warn (_("unpredictable: identical transfer and status registers" | |
7032 | " --`%s'"), | |
7033 | str); | |
7034 | ||
7035 | break; | |
7036 | ||
54a28c4c JW |
7037 | default: |
7038 | break; | |
7039 | } | |
7040 | } | |
7041 | ||
4f5d2536 TC |
7042 | static void |
7043 | force_automatic_sequence_close (void) | |
7044 | { | |
7045 | if (now_instr_sequence.instr) | |
7046 | { | |
7047 | as_warn (_("previous `%s' sequence has not been closed"), | |
7048 | now_instr_sequence.instr->opcode->name); | |
7049 | init_insn_sequence (NULL, &now_instr_sequence); | |
7050 | } | |
7051 | } | |
7052 | ||
a06ea964 NC |
7053 | /* A wrapper function to interface with libopcodes on encoding and |
7054 | record the error message if there is any. | |
7055 | ||
7056 | Return TRUE on success; otherwise return FALSE. */ | |
7057 | ||
7058 | static bfd_boolean | |
7059 | do_encode (const aarch64_opcode *opcode, aarch64_inst *instr, | |
7060 | aarch64_insn *code) | |
7061 | { | |
7062 | aarch64_operand_error error_info; | |
7d02540a | 7063 | memset (&error_info, '\0', sizeof (error_info)); |
a06ea964 | 7064 | error_info.kind = AARCH64_OPDE_NIL; |
7e84b55d | 7065 | if (aarch64_opcode_encode (opcode, instr, code, NULL, &error_info, insn_sequence) |
7d02540a | 7066 | && !error_info.non_fatal) |
a06ea964 | 7067 | return TRUE; |
7d02540a TC |
7068 | |
7069 | gas_assert (error_info.kind != AARCH64_OPDE_NIL); | |
7070 | record_operand_error_info (opcode, &error_info); | |
7071 | return error_info.non_fatal; | |
a06ea964 NC |
7072 | } |
7073 | ||
7074 | #ifdef DEBUG_AARCH64 | |
7075 | static inline void | |
7076 | dump_opcode_operands (const aarch64_opcode *opcode) | |
7077 | { | |
7078 | int i = 0; | |
7079 | while (opcode->operands[i] != AARCH64_OPND_NIL) | |
7080 | { | |
7081 | aarch64_verbose ("\t\t opnd%d: %s", i, | |
7082 | aarch64_get_operand_name (opcode->operands[i])[0] != '\0' | |
7083 | ? aarch64_get_operand_name (opcode->operands[i]) | |
7084 | : aarch64_get_operand_desc (opcode->operands[i])); | |
7085 | ++i; | |
7086 | } | |
7087 | } | |
7088 | #endif /* DEBUG_AARCH64 */ | |
7089 | ||
7090 | /* This is the guts of the machine-dependent assembler. STR points to a | |
7091 | machine dependent instruction. This function is supposed to emit | |
7092 | the frags/bytes it assembles to. */ | |
7093 | ||
7094 | void | |
7095 | md_assemble (char *str) | |
7096 | { | |
7097 | char *p = str; | |
7098 | templates *template; | |
7099 | aarch64_opcode *opcode; | |
7100 | aarch64_inst *inst_base; | |
7101 | unsigned saved_cond; | |
7102 | ||
7103 | /* Align the previous label if needed. */ | |
7104 | if (last_label_seen != NULL) | |
7105 | { | |
7106 | symbol_set_frag (last_label_seen, frag_now); | |
7107 | S_SET_VALUE (last_label_seen, (valueT) frag_now_fix ()); | |
7108 | S_SET_SEGMENT (last_label_seen, now_seg); | |
7109 | } | |
7110 | ||
7e84b55d TC |
7111 | /* Update the current insn_sequence from the segment. */ |
7112 | insn_sequence = &seg_info (now_seg)->tc_segment_info_data.insn_sequence; | |
7113 | ||
a06ea964 NC |
7114 | inst.reloc.type = BFD_RELOC_UNUSED; |
7115 | ||
7116 | DEBUG_TRACE ("\n\n"); | |
7117 | DEBUG_TRACE ("=============================="); | |
7118 | DEBUG_TRACE ("Enter md_assemble with %s", str); | |
7119 | ||
7120 | template = opcode_lookup (&p); | |
7121 | if (!template) | |
7122 | { | |
7123 | /* It wasn't an instruction, but it might be a register alias of | |
7124 | the form alias .req reg directive. */ | |
7125 | if (!create_register_alias (str, p)) | |
7126 | as_bad (_("unknown mnemonic `%s' -- `%s'"), get_mnemonic_name (str), | |
7127 | str); | |
7128 | return; | |
7129 | } | |
7130 | ||
7131 | skip_whitespace (p); | |
7132 | if (*p == ',') | |
7133 | { | |
7134 | as_bad (_("unexpected comma after the mnemonic name `%s' -- `%s'"), | |
7135 | get_mnemonic_name (str), str); | |
7136 | return; | |
7137 | } | |
7138 | ||
7139 | init_operand_error_report (); | |
7140 | ||
eb9d6cc9 RL |
7141 | /* Sections are assumed to start aligned. In executable section, there is no |
7142 | MAP_DATA symbol pending. So we only align the address during | |
7143 | MAP_DATA --> MAP_INSN transition. | |
7144 | For other sections, this is not guaranteed. */ | |
7145 | enum mstate mapstate = seg_info (now_seg)->tc_segment_info_data.mapstate; | |
7146 | if (!need_pass_2 && subseg_text_p (now_seg) && mapstate == MAP_DATA) | |
7147 | frag_align_code (2, 0); | |
7148 | ||
a06ea964 NC |
7149 | saved_cond = inst.cond; |
7150 | reset_aarch64_instruction (&inst); | |
7151 | inst.cond = saved_cond; | |
7152 | ||
7153 | /* Iterate through all opcode entries with the same mnemonic name. */ | |
7154 | do | |
7155 | { | |
7156 | opcode = template->opcode; | |
7157 | ||
7158 | DEBUG_TRACE ("opcode %s found", opcode->name); | |
7159 | #ifdef DEBUG_AARCH64 | |
7160 | if (debug_dump) | |
7161 | dump_opcode_operands (opcode); | |
7162 | #endif /* DEBUG_AARCH64 */ | |
7163 | ||
a06ea964 NC |
7164 | mapping_state (MAP_INSN); |
7165 | ||
7166 | inst_base = &inst.base; | |
7167 | inst_base->opcode = opcode; | |
7168 | ||
7169 | /* Truly conditionally executed instructions, e.g. b.cond. */ | |
7170 | if (opcode->flags & F_COND) | |
7171 | { | |
7172 | gas_assert (inst.cond != COND_ALWAYS); | |
7173 | inst_base->cond = get_cond_from_value (inst.cond); | |
7174 | DEBUG_TRACE ("condition found %s", inst_base->cond->names[0]); | |
7175 | } | |
7176 | else if (inst.cond != COND_ALWAYS) | |
7177 | { | |
7178 | /* It shouldn't arrive here, where the assembly looks like a | |
7179 | conditional instruction but the found opcode is unconditional. */ | |
7180 | gas_assert (0); | |
7181 | continue; | |
7182 | } | |
7183 | ||
7184 | if (parse_operands (p, opcode) | |
7185 | && programmer_friendly_fixup (&inst) | |
7186 | && do_encode (inst_base->opcode, &inst.base, &inst_base->value)) | |
7187 | { | |
3f06bfce YZ |
7188 | /* Check that this instruction is supported for this CPU. */ |
7189 | if (!opcode->avariant | |
93d8990c | 7190 | || !AARCH64_CPU_HAS_ALL_FEATURES (cpu_variant, *opcode->avariant)) |
3f06bfce YZ |
7191 | { |
7192 | as_bad (_("selected processor does not support `%s'"), str); | |
7193 | return; | |
7194 | } | |
7195 | ||
54a28c4c JW |
7196 | warn_unpredictable_ldst (&inst, str); |
7197 | ||
a06ea964 NC |
7198 | if (inst.reloc.type == BFD_RELOC_UNUSED |
7199 | || !inst.reloc.need_libopcodes_p) | |
7200 | output_inst (NULL); | |
7201 | else | |
7202 | { | |
7203 | /* If there is relocation generated for the instruction, | |
7204 | store the instruction information for the future fix-up. */ | |
7205 | struct aarch64_inst *copy; | |
7206 | gas_assert (inst.reloc.type != BFD_RELOC_UNUSED); | |
325801bd | 7207 | copy = XNEW (struct aarch64_inst); |
a06ea964 NC |
7208 | memcpy (copy, &inst.base, sizeof (struct aarch64_inst)); |
7209 | output_inst (copy); | |
7210 | } | |
7d02540a TC |
7211 | |
7212 | /* Issue non-fatal messages if any. */ | |
7213 | output_operand_error_report (str, TRUE); | |
a06ea964 NC |
7214 | return; |
7215 | } | |
7216 | ||
7217 | template = template->next; | |
7218 | if (template != NULL) | |
7219 | { | |
7220 | reset_aarch64_instruction (&inst); | |
7221 | inst.cond = saved_cond; | |
7222 | } | |
7223 | } | |
7224 | while (template != NULL); | |
7225 | ||
7226 | /* Issue the error messages if any. */ | |
7d02540a | 7227 | output_operand_error_report (str, FALSE); |
a06ea964 NC |
7228 | } |
7229 | ||
7230 | /* Various frobbings of labels and their addresses. */ | |
7231 | ||
7232 | void | |
7233 | aarch64_start_line_hook (void) | |
7234 | { | |
7235 | last_label_seen = NULL; | |
7236 | } | |
7237 | ||
7238 | void | |
7239 | aarch64_frob_label (symbolS * sym) | |
7240 | { | |
7241 | last_label_seen = sym; | |
7242 | ||
7243 | dwarf2_emit_label (sym); | |
7244 | } | |
7245 | ||
4f5d2536 TC |
7246 | void |
7247 | aarch64_frob_section (asection *sec ATTRIBUTE_UNUSED) | |
7248 | { | |
7249 | /* Check to see if we have a block to close. */ | |
7250 | force_automatic_sequence_close (); | |
7251 | } | |
7252 | ||
a06ea964 NC |
7253 | int |
7254 | aarch64_data_in_code (void) | |
7255 | { | |
7256 | if (!strncmp (input_line_pointer + 1, "data:", 5)) | |
7257 | { | |
7258 | *input_line_pointer = '/'; | |
7259 | input_line_pointer += 5; | |
7260 | *input_line_pointer = 0; | |
7261 | return 1; | |
7262 | } | |
7263 | ||
7264 | return 0; | |
7265 | } | |
7266 | ||
7267 | char * | |
7268 | aarch64_canonicalize_symbol_name (char *name) | |
7269 | { | |
7270 | int len; | |
7271 | ||
7272 | if ((len = strlen (name)) > 5 && streq (name + len - 5, "/data")) | |
7273 | *(name + len - 5) = 0; | |
7274 | ||
7275 | return name; | |
7276 | } | |
7277 | \f | |
7278 | /* Table of all register names defined by default. The user can | |
7279 | define additional names with .req. Note that all register names | |
7280 | should appear in both upper and lowercase variants. Some registers | |
7281 | also have mixed-case names. */ | |
7282 | ||
7283 | #define REGDEF(s,n,t) { #s, n, REG_TYPE_##t, TRUE } | |
8975f864 | 7284 | #define REGDEF_ALIAS(s, n, t) { #s, n, REG_TYPE_##t, FALSE} |
a06ea964 | 7285 | #define REGNUM(p,n,t) REGDEF(p##n, n, t) |
f11ad6bc | 7286 | #define REGSET16(p,t) \ |
a06ea964 NC |
7287 | REGNUM(p, 0,t), REGNUM(p, 1,t), REGNUM(p, 2,t), REGNUM(p, 3,t), \ |
7288 | REGNUM(p, 4,t), REGNUM(p, 5,t), REGNUM(p, 6,t), REGNUM(p, 7,t), \ | |
7289 | REGNUM(p, 8,t), REGNUM(p, 9,t), REGNUM(p,10,t), REGNUM(p,11,t), \ | |
f11ad6bc RS |
7290 | REGNUM(p,12,t), REGNUM(p,13,t), REGNUM(p,14,t), REGNUM(p,15,t) |
7291 | #define REGSET31(p,t) \ | |
7292 | REGSET16(p, t), \ | |
a06ea964 NC |
7293 | REGNUM(p,16,t), REGNUM(p,17,t), REGNUM(p,18,t), REGNUM(p,19,t), \ |
7294 | REGNUM(p,20,t), REGNUM(p,21,t), REGNUM(p,22,t), REGNUM(p,23,t), \ | |
7295 | REGNUM(p,24,t), REGNUM(p,25,t), REGNUM(p,26,t), REGNUM(p,27,t), \ | |
7296 | REGNUM(p,28,t), REGNUM(p,29,t), REGNUM(p,30,t) | |
7297 | #define REGSET(p,t) \ | |
7298 | REGSET31(p,t), REGNUM(p,31,t) | |
7299 | ||
7300 | /* These go into aarch64_reg_hsh hash-table. */ | |
7301 | static const reg_entry reg_names[] = { | |
7302 | /* Integer registers. */ | |
7303 | REGSET31 (x, R_64), REGSET31 (X, R_64), | |
7304 | REGSET31 (w, R_32), REGSET31 (W, R_32), | |
7305 | ||
8975f864 | 7306 | REGDEF_ALIAS (ip0, 16, R_64), REGDEF_ALIAS (IP0, 16, R_64), |
f10e937a | 7307 | REGDEF_ALIAS (ip1, 17, R_64), REGDEF_ALIAS (IP1, 17, R_64), |
8975f864 RR |
7308 | REGDEF_ALIAS (fp, 29, R_64), REGDEF_ALIAS (FP, 29, R_64), |
7309 | REGDEF_ALIAS (lr, 30, R_64), REGDEF_ALIAS (LR, 30, R_64), | |
a06ea964 NC |
7310 | REGDEF (wsp, 31, SP_32), REGDEF (WSP, 31, SP_32), |
7311 | REGDEF (sp, 31, SP_64), REGDEF (SP, 31, SP_64), | |
7312 | ||
7313 | REGDEF (wzr, 31, Z_32), REGDEF (WZR, 31, Z_32), | |
7314 | REGDEF (xzr, 31, Z_64), REGDEF (XZR, 31, Z_64), | |
7315 | ||
a06ea964 NC |
7316 | /* Floating-point single precision registers. */ |
7317 | REGSET (s, FP_S), REGSET (S, FP_S), | |
7318 | ||
7319 | /* Floating-point double precision registers. */ | |
7320 | REGSET (d, FP_D), REGSET (D, FP_D), | |
7321 | ||
7322 | /* Floating-point half precision registers. */ | |
7323 | REGSET (h, FP_H), REGSET (H, FP_H), | |
7324 | ||
7325 | /* Floating-point byte precision registers. */ | |
7326 | REGSET (b, FP_B), REGSET (B, FP_B), | |
7327 | ||
7328 | /* Floating-point quad precision registers. */ | |
7329 | REGSET (q, FP_Q), REGSET (Q, FP_Q), | |
7330 | ||
7331 | /* FP/SIMD registers. */ | |
7332 | REGSET (v, VN), REGSET (V, VN), | |
f11ad6bc RS |
7333 | |
7334 | /* SVE vector registers. */ | |
7335 | REGSET (z, ZN), REGSET (Z, ZN), | |
7336 | ||
7337 | /* SVE predicate registers. */ | |
7338 | REGSET16 (p, PN), REGSET16 (P, PN) | |
a06ea964 NC |
7339 | }; |
7340 | ||
7341 | #undef REGDEF | |
8975f864 | 7342 | #undef REGDEF_ALIAS |
a06ea964 | 7343 | #undef REGNUM |
f11ad6bc RS |
7344 | #undef REGSET16 |
7345 | #undef REGSET31 | |
a06ea964 NC |
7346 | #undef REGSET |
7347 | ||
7348 | #define N 1 | |
7349 | #define n 0 | |
7350 | #define Z 1 | |
7351 | #define z 0 | |
7352 | #define C 1 | |
7353 | #define c 0 | |
7354 | #define V 1 | |
7355 | #define v 0 | |
7356 | #define B(a,b,c,d) (((a) << 3) | ((b) << 2) | ((c) << 1) | (d)) | |
7357 | static const asm_nzcv nzcv_names[] = { | |
7358 | {"nzcv", B (n, z, c, v)}, | |
7359 | {"nzcV", B (n, z, c, V)}, | |
7360 | {"nzCv", B (n, z, C, v)}, | |
7361 | {"nzCV", B (n, z, C, V)}, | |
7362 | {"nZcv", B (n, Z, c, v)}, | |
7363 | {"nZcV", B (n, Z, c, V)}, | |
7364 | {"nZCv", B (n, Z, C, v)}, | |
7365 | {"nZCV", B (n, Z, C, V)}, | |
7366 | {"Nzcv", B (N, z, c, v)}, | |
7367 | {"NzcV", B (N, z, c, V)}, | |
7368 | {"NzCv", B (N, z, C, v)}, | |
7369 | {"NzCV", B (N, z, C, V)}, | |
7370 | {"NZcv", B (N, Z, c, v)}, | |
7371 | {"NZcV", B (N, Z, c, V)}, | |
7372 | {"NZCv", B (N, Z, C, v)}, | |
7373 | {"NZCV", B (N, Z, C, V)} | |
7374 | }; | |
7375 | ||
7376 | #undef N | |
7377 | #undef n | |
7378 | #undef Z | |
7379 | #undef z | |
7380 | #undef C | |
7381 | #undef c | |
7382 | #undef V | |
7383 | #undef v | |
7384 | #undef B | |
7385 | \f | |
7386 | /* MD interface: bits in the object file. */ | |
7387 | ||
7388 | /* Turn an integer of n bytes (in val) into a stream of bytes appropriate | |
7389 | for use in the a.out file, and stores them in the array pointed to by buf. | |
7390 | This knows about the endian-ness of the target machine and does | |
7391 | THE RIGHT THING, whatever it is. Possible values for n are 1 (byte) | |
7392 | 2 (short) and 4 (long) Floating numbers are put out as a series of | |
7393 | LITTLENUMS (shorts, here at least). */ | |
7394 | ||
7395 | void | |
7396 | md_number_to_chars (char *buf, valueT val, int n) | |
7397 | { | |
7398 | if (target_big_endian) | |
7399 | number_to_chars_bigendian (buf, val, n); | |
7400 | else | |
7401 | number_to_chars_littleendian (buf, val, n); | |
7402 | } | |
7403 | ||
7404 | /* MD interface: Sections. */ | |
7405 | ||
7406 | /* Estimate the size of a frag before relaxing. Assume everything fits in | |
7407 | 4 bytes. */ | |
7408 | ||
7409 | int | |
7410 | md_estimate_size_before_relax (fragS * fragp, segT segtype ATTRIBUTE_UNUSED) | |
7411 | { | |
7412 | fragp->fr_var = 4; | |
7413 | return 4; | |
7414 | } | |
7415 | ||
7416 | /* Round up a section size to the appropriate boundary. */ | |
7417 | ||
7418 | valueT | |
7419 | md_section_align (segT segment ATTRIBUTE_UNUSED, valueT size) | |
7420 | { | |
7421 | return size; | |
7422 | } | |
7423 | ||
7424 | /* This is called from HANDLE_ALIGN in write.c. Fill in the contents | |
f803aa8e DPT |
7425 | of an rs_align_code fragment. |
7426 | ||
7427 | Here we fill the frag with the appropriate info for padding the | |
7428 | output stream. The resulting frag will consist of a fixed (fr_fix) | |
7429 | and of a repeating (fr_var) part. | |
7430 | ||
7431 | The fixed content is always emitted before the repeating content and | |
7432 | these two parts are used as follows in constructing the output: | |
7433 | - the fixed part will be used to align to a valid instruction word | |
7434 | boundary, in case that we start at a misaligned address; as no | |
7435 | executable instruction can live at the misaligned location, we | |
7436 | simply fill with zeros; | |
7437 | - the variable part will be used to cover the remaining padding and | |
7438 | we fill using the AArch64 NOP instruction. | |
7439 | ||
7440 | Note that the size of a RS_ALIGN_CODE fragment is always 7 to provide | |
7441 | enough storage space for up to 3 bytes for padding the back to a valid | |
7442 | instruction alignment and exactly 4 bytes to store the NOP pattern. */ | |
a06ea964 NC |
7443 | |
7444 | void | |
7445 | aarch64_handle_align (fragS * fragP) | |
7446 | { | |
7447 | /* NOP = d503201f */ | |
7448 | /* AArch64 instructions are always little-endian. */ | |
d9235011 | 7449 | static unsigned char const aarch64_noop[4] = { 0x1f, 0x20, 0x03, 0xd5 }; |
a06ea964 NC |
7450 | |
7451 | int bytes, fix, noop_size; | |
7452 | char *p; | |
a06ea964 NC |
7453 | |
7454 | if (fragP->fr_type != rs_align_code) | |
7455 | return; | |
7456 | ||
7457 | bytes = fragP->fr_next->fr_address - fragP->fr_address - fragP->fr_fix; | |
7458 | p = fragP->fr_literal + fragP->fr_fix; | |
a06ea964 NC |
7459 | |
7460 | #ifdef OBJ_ELF | |
7461 | gas_assert (fragP->tc_frag_data.recorded); | |
7462 | #endif | |
7463 | ||
a06ea964 | 7464 | noop_size = sizeof (aarch64_noop); |
a06ea964 | 7465 | |
f803aa8e DPT |
7466 | fix = bytes & (noop_size - 1); |
7467 | if (fix) | |
a06ea964 | 7468 | { |
a06ea964 NC |
7469 | #ifdef OBJ_ELF |
7470 | insert_data_mapping_symbol (MAP_INSN, fragP->fr_fix, fragP, fix); | |
7471 | #endif | |
7472 | memset (p, 0, fix); | |
7473 | p += fix; | |
f803aa8e | 7474 | fragP->fr_fix += fix; |
a06ea964 NC |
7475 | } |
7476 | ||
f803aa8e DPT |
7477 | if (noop_size) |
7478 | memcpy (p, aarch64_noop, noop_size); | |
7479 | fragP->fr_var = noop_size; | |
a06ea964 NC |
7480 | } |
7481 | ||
7482 | /* Perform target specific initialisation of a frag. | |
7483 | Note - despite the name this initialisation is not done when the frag | |
7484 | is created, but only when its type is assigned. A frag can be created | |
7485 | and used a long time before its type is set, so beware of assuming that | |
33eaf5de | 7486 | this initialisation is performed first. */ |
a06ea964 NC |
7487 | |
7488 | #ifndef OBJ_ELF | |
7489 | void | |
7490 | aarch64_init_frag (fragS * fragP ATTRIBUTE_UNUSED, | |
7491 | int max_chars ATTRIBUTE_UNUSED) | |
7492 | { | |
7493 | } | |
7494 | ||
7495 | #else /* OBJ_ELF is defined. */ | |
7496 | void | |
7497 | aarch64_init_frag (fragS * fragP, int max_chars) | |
7498 | { | |
7499 | /* Record a mapping symbol for alignment frags. We will delete this | |
7500 | later if the alignment ends up empty. */ | |
7501 | if (!fragP->tc_frag_data.recorded) | |
c7ad08e6 RL |
7502 | fragP->tc_frag_data.recorded = 1; |
7503 | ||
e8d84ca1 NC |
7504 | /* PR 21809: Do not set a mapping state for debug sections |
7505 | - it just confuses other tools. */ | |
fd361982 | 7506 | if (bfd_section_flags (now_seg) & SEC_DEBUGGING) |
e8d84ca1 NC |
7507 | return; |
7508 | ||
c7ad08e6 | 7509 | switch (fragP->fr_type) |
a06ea964 | 7510 | { |
c7ad08e6 RL |
7511 | case rs_align_test: |
7512 | case rs_fill: | |
7513 | mapping_state_2 (MAP_DATA, max_chars); | |
7514 | break; | |
7ea12e5c NC |
7515 | case rs_align: |
7516 | /* PR 20364: We can get alignment frags in code sections, | |
7517 | so do not just assume that we should use the MAP_DATA state. */ | |
7518 | mapping_state_2 (subseg_text_p (now_seg) ? MAP_INSN : MAP_DATA, max_chars); | |
7519 | break; | |
c7ad08e6 RL |
7520 | case rs_align_code: |
7521 | mapping_state_2 (MAP_INSN, max_chars); | |
7522 | break; | |
7523 | default: | |
7524 | break; | |
a06ea964 NC |
7525 | } |
7526 | } | |
7527 | \f | |
7528 | /* Initialize the DWARF-2 unwind information for this procedure. */ | |
7529 | ||
7530 | void | |
7531 | tc_aarch64_frame_initial_instructions (void) | |
7532 | { | |
7533 | cfi_add_CFA_def_cfa (REG_SP, 0); | |
7534 | } | |
7535 | #endif /* OBJ_ELF */ | |
7536 | ||
7537 | /* Convert REGNAME to a DWARF-2 register number. */ | |
7538 | ||
7539 | int | |
7540 | tc_aarch64_regname_to_dw2regnum (char *regname) | |
7541 | { | |
7542 | const reg_entry *reg = parse_reg (®name); | |
7543 | if (reg == NULL) | |
7544 | return -1; | |
7545 | ||
7546 | switch (reg->type) | |
7547 | { | |
7548 | case REG_TYPE_SP_32: | |
7549 | case REG_TYPE_SP_64: | |
7550 | case REG_TYPE_R_32: | |
7551 | case REG_TYPE_R_64: | |
a2cac51c RH |
7552 | return reg->number; |
7553 | ||
a06ea964 NC |
7554 | case REG_TYPE_FP_B: |
7555 | case REG_TYPE_FP_H: | |
7556 | case REG_TYPE_FP_S: | |
7557 | case REG_TYPE_FP_D: | |
7558 | case REG_TYPE_FP_Q: | |
a2cac51c RH |
7559 | return reg->number + 64; |
7560 | ||
a06ea964 NC |
7561 | default: |
7562 | break; | |
7563 | } | |
7564 | return -1; | |
7565 | } | |
7566 | ||
cec5225b YZ |
7567 | /* Implement DWARF2_ADDR_SIZE. */ |
7568 | ||
7569 | int | |
7570 | aarch64_dwarf2_addr_size (void) | |
7571 | { | |
7572 | #if defined (OBJ_MAYBE_ELF) || defined (OBJ_ELF) | |
7573 | if (ilp32_p) | |
7574 | return 4; | |
7575 | #endif | |
7576 | return bfd_arch_bits_per_address (stdoutput) / 8; | |
7577 | } | |
7578 | ||
a06ea964 NC |
7579 | /* MD interface: Symbol and relocation handling. */ |
7580 | ||
7581 | /* Return the address within the segment that a PC-relative fixup is | |
7582 | relative to. For AArch64 PC-relative fixups applied to instructions | |
7583 | are generally relative to the location plus AARCH64_PCREL_OFFSET bytes. */ | |
7584 | ||
7585 | long | |
7586 | md_pcrel_from_section (fixS * fixP, segT seg) | |
7587 | { | |
7588 | offsetT base = fixP->fx_where + fixP->fx_frag->fr_address; | |
7589 | ||
7590 | /* If this is pc-relative and we are going to emit a relocation | |
7591 | then we just want to put out any pipeline compensation that the linker | |
7592 | will need. Otherwise we want to use the calculated base. */ | |
7593 | if (fixP->fx_pcrel | |
7594 | && ((fixP->fx_addsy && S_GET_SEGMENT (fixP->fx_addsy) != seg) | |
7595 | || aarch64_force_relocation (fixP))) | |
7596 | base = 0; | |
7597 | ||
7598 | /* AArch64 should be consistent for all pc-relative relocations. */ | |
7599 | return base + AARCH64_PCREL_OFFSET; | |
7600 | } | |
7601 | ||
7602 | /* Under ELF we need to default _GLOBAL_OFFSET_TABLE. | |
7603 | Otherwise we have no need to default values of symbols. */ | |
7604 | ||
7605 | symbolS * | |
7606 | md_undefined_symbol (char *name ATTRIBUTE_UNUSED) | |
7607 | { | |
7608 | #ifdef OBJ_ELF | |
7609 | if (name[0] == '_' && name[1] == 'G' | |
7610 | && streq (name, GLOBAL_OFFSET_TABLE_NAME)) | |
7611 | { | |
7612 | if (!GOT_symbol) | |
7613 | { | |
7614 | if (symbol_find (name)) | |
7615 | as_bad (_("GOT already in the symbol table")); | |
7616 | ||
7617 | GOT_symbol = symbol_new (name, undefined_section, | |
e01e1cee | 7618 | &zero_address_frag, 0); |
a06ea964 NC |
7619 | } |
7620 | ||
7621 | return GOT_symbol; | |
7622 | } | |
7623 | #endif | |
7624 | ||
7625 | return 0; | |
7626 | } | |
7627 | ||
7628 | /* Return non-zero if the indicated VALUE has overflowed the maximum | |
7629 | range expressible by a unsigned number with the indicated number of | |
7630 | BITS. */ | |
7631 | ||
7632 | static bfd_boolean | |
7633 | unsigned_overflow (valueT value, unsigned bits) | |
7634 | { | |
7635 | valueT lim; | |
7636 | if (bits >= sizeof (valueT) * 8) | |
7637 | return FALSE; | |
7638 | lim = (valueT) 1 << bits; | |
7639 | return (value >= lim); | |
7640 | } | |
7641 | ||
7642 | ||
7643 | /* Return non-zero if the indicated VALUE has overflowed the maximum | |
7644 | range expressible by an signed number with the indicated number of | |
7645 | BITS. */ | |
7646 | ||
7647 | static bfd_boolean | |
7648 | signed_overflow (offsetT value, unsigned bits) | |
7649 | { | |
7650 | offsetT lim; | |
7651 | if (bits >= sizeof (offsetT) * 8) | |
7652 | return FALSE; | |
7653 | lim = (offsetT) 1 << (bits - 1); | |
7654 | return (value < -lim || value >= lim); | |
7655 | } | |
7656 | ||
7657 | /* Given an instruction in *INST, which is expected to be a scaled, 12-bit, | |
7658 | unsigned immediate offset load/store instruction, try to encode it as | |
7659 | an unscaled, 9-bit, signed immediate offset load/store instruction. | |
7660 | Return TRUE if it is successful; otherwise return FALSE. | |
7661 | ||
7662 | As a programmer-friendly assembler, LDUR/STUR instructions can be generated | |
7663 | in response to the standard LDR/STR mnemonics when the immediate offset is | |
7664 | unambiguous, i.e. when it is negative or unaligned. */ | |
7665 | ||
7666 | static bfd_boolean | |
7667 | try_to_encode_as_unscaled_ldst (aarch64_inst *instr) | |
7668 | { | |
7669 | int idx; | |
7670 | enum aarch64_op new_op; | |
7671 | const aarch64_opcode *new_opcode; | |
7672 | ||
7673 | gas_assert (instr->opcode->iclass == ldst_pos); | |
7674 | ||
7675 | switch (instr->opcode->op) | |
7676 | { | |
7677 | case OP_LDRB_POS:new_op = OP_LDURB; break; | |
7678 | case OP_STRB_POS: new_op = OP_STURB; break; | |
7679 | case OP_LDRSB_POS: new_op = OP_LDURSB; break; | |
7680 | case OP_LDRH_POS: new_op = OP_LDURH; break; | |
7681 | case OP_STRH_POS: new_op = OP_STURH; break; | |
7682 | case OP_LDRSH_POS: new_op = OP_LDURSH; break; | |
7683 | case OP_LDR_POS: new_op = OP_LDUR; break; | |
7684 | case OP_STR_POS: new_op = OP_STUR; break; | |
7685 | case OP_LDRF_POS: new_op = OP_LDURV; break; | |
7686 | case OP_STRF_POS: new_op = OP_STURV; break; | |
7687 | case OP_LDRSW_POS: new_op = OP_LDURSW; break; | |
7688 | case OP_PRFM_POS: new_op = OP_PRFUM; break; | |
7689 | default: new_op = OP_NIL; break; | |
7690 | } | |
7691 | ||
7692 | if (new_op == OP_NIL) | |
7693 | return FALSE; | |
7694 | ||
7695 | new_opcode = aarch64_get_opcode (new_op); | |
7696 | gas_assert (new_opcode != NULL); | |
7697 | ||
7698 | DEBUG_TRACE ("Check programmer-friendly STURB/LDURB -> STRB/LDRB: %d == %d", | |
7699 | instr->opcode->op, new_opcode->op); | |
7700 | ||
7701 | aarch64_replace_opcode (instr, new_opcode); | |
7702 | ||
7703 | /* Clear up the ADDR_SIMM9's qualifier; otherwise the | |
7704 | qualifier matching may fail because the out-of-date qualifier will | |
7705 | prevent the operand being updated with a new and correct qualifier. */ | |
7706 | idx = aarch64_operand_index (instr->opcode->operands, | |
7707 | AARCH64_OPND_ADDR_SIMM9); | |
7708 | gas_assert (idx == 1); | |
7709 | instr->operands[idx].qualifier = AARCH64_OPND_QLF_NIL; | |
7710 | ||
7711 | DEBUG_TRACE ("Found LDURB entry to encode programmer-friendly LDRB"); | |
7712 | ||
7e84b55d TC |
7713 | if (!aarch64_opcode_encode (instr->opcode, instr, &instr->value, NULL, NULL, |
7714 | insn_sequence)) | |
a06ea964 NC |
7715 | return FALSE; |
7716 | ||
7717 | return TRUE; | |
7718 | } | |
7719 | ||
7720 | /* Called by fix_insn to fix a MOV immediate alias instruction. | |
7721 | ||
7722 | Operand for a generic move immediate instruction, which is an alias | |
7723 | instruction that generates a single MOVZ, MOVN or ORR instruction to loads | |
7724 | a 32-bit/64-bit immediate value into general register. An assembler error | |
7725 | shall result if the immediate cannot be created by a single one of these | |
7726 | instructions. If there is a choice, then to ensure reversability an | |
7727 | assembler must prefer a MOVZ to MOVN, and MOVZ or MOVN to ORR. */ | |
7728 | ||
7729 | static void | |
7730 | fix_mov_imm_insn (fixS *fixP, char *buf, aarch64_inst *instr, offsetT value) | |
7731 | { | |
7732 | const aarch64_opcode *opcode; | |
7733 | ||
7734 | /* Need to check if the destination is SP/ZR. The check has to be done | |
7735 | before any aarch64_replace_opcode. */ | |
7736 | int try_mov_wide_p = !aarch64_stack_pointer_p (&instr->operands[0]); | |
7737 | int try_mov_bitmask_p = !aarch64_zero_register_p (&instr->operands[0]); | |
7738 | ||
7739 | instr->operands[1].imm.value = value; | |
7740 | instr->operands[1].skip = 0; | |
7741 | ||
7742 | if (try_mov_wide_p) | |
7743 | { | |
7744 | /* Try the MOVZ alias. */ | |
7745 | opcode = aarch64_get_opcode (OP_MOV_IMM_WIDE); | |
7746 | aarch64_replace_opcode (instr, opcode); | |
7747 | if (aarch64_opcode_encode (instr->opcode, instr, | |
7e84b55d | 7748 | &instr->value, NULL, NULL, insn_sequence)) |
a06ea964 NC |
7749 | { |
7750 | put_aarch64_insn (buf, instr->value); | |
7751 | return; | |
7752 | } | |
7753 | /* Try the MOVK alias. */ | |
7754 | opcode = aarch64_get_opcode (OP_MOV_IMM_WIDEN); | |
7755 | aarch64_replace_opcode (instr, opcode); | |
7756 | if (aarch64_opcode_encode (instr->opcode, instr, | |
7e84b55d | 7757 | &instr->value, NULL, NULL, insn_sequence)) |
a06ea964 NC |
7758 | { |
7759 | put_aarch64_insn (buf, instr->value); | |
7760 | return; | |
7761 | } | |
7762 | } | |
7763 | ||
7764 | if (try_mov_bitmask_p) | |
7765 | { | |
7766 | /* Try the ORR alias. */ | |
7767 | opcode = aarch64_get_opcode (OP_MOV_IMM_LOG); | |
7768 | aarch64_replace_opcode (instr, opcode); | |
7769 | if (aarch64_opcode_encode (instr->opcode, instr, | |
7e84b55d | 7770 | &instr->value, NULL, NULL, insn_sequence)) |
a06ea964 NC |
7771 | { |
7772 | put_aarch64_insn (buf, instr->value); | |
7773 | return; | |
7774 | } | |
7775 | } | |
7776 | ||
7777 | as_bad_where (fixP->fx_file, fixP->fx_line, | |
7778 | _("immediate cannot be moved by a single instruction")); | |
7779 | } | |
7780 | ||
7781 | /* An instruction operand which is immediate related may have symbol used | |
7782 | in the assembly, e.g. | |
7783 | ||
7784 | mov w0, u32 | |
7785 | .set u32, 0x00ffff00 | |
7786 | ||
7787 | At the time when the assembly instruction is parsed, a referenced symbol, | |
7788 | like 'u32' in the above example may not have been seen; a fixS is created | |
7789 | in such a case and is handled here after symbols have been resolved. | |
7790 | Instruction is fixed up with VALUE using the information in *FIXP plus | |
7791 | extra information in FLAGS. | |
7792 | ||
7793 | This function is called by md_apply_fix to fix up instructions that need | |
7794 | a fix-up described above but does not involve any linker-time relocation. */ | |
7795 | ||
7796 | static void | |
7797 | fix_insn (fixS *fixP, uint32_t flags, offsetT value) | |
7798 | { | |
7799 | int idx; | |
7800 | uint32_t insn; | |
7801 | char *buf = fixP->fx_where + fixP->fx_frag->fr_literal; | |
7802 | enum aarch64_opnd opnd = fixP->tc_fix_data.opnd; | |
7803 | aarch64_inst *new_inst = fixP->tc_fix_data.inst; | |
7804 | ||
7805 | if (new_inst) | |
7806 | { | |
7807 | /* Now the instruction is about to be fixed-up, so the operand that | |
7808 | was previously marked as 'ignored' needs to be unmarked in order | |
7809 | to get the encoding done properly. */ | |
7810 | idx = aarch64_operand_index (new_inst->opcode->operands, opnd); | |
7811 | new_inst->operands[idx].skip = 0; | |
7812 | } | |
7813 | ||
7814 | gas_assert (opnd != AARCH64_OPND_NIL); | |
7815 | ||
7816 | switch (opnd) | |
7817 | { | |
7818 | case AARCH64_OPND_EXCEPTION: | |
09c1e68a | 7819 | case AARCH64_OPND_UNDEFINED: |
a06ea964 NC |
7820 | if (unsigned_overflow (value, 16)) |
7821 | as_bad_where (fixP->fx_file, fixP->fx_line, | |
7822 | _("immediate out of range")); | |
7823 | insn = get_aarch64_insn (buf); | |
09c1e68a | 7824 | insn |= (opnd == AARCH64_OPND_EXCEPTION) ? encode_svc_imm (value) : value; |
a06ea964 NC |
7825 | put_aarch64_insn (buf, insn); |
7826 | break; | |
7827 | ||
7828 | case AARCH64_OPND_AIMM: | |
7829 | /* ADD or SUB with immediate. | |
7830 | NOTE this assumes we come here with a add/sub shifted reg encoding | |
7831 | 3 322|2222|2 2 2 21111 111111 | |
7832 | 1 098|7654|3 2 1 09876 543210 98765 43210 | |
7833 | 0b000000 sf 000|1011|shift 0 Rm imm6 Rn Rd ADD | |
7834 | 2b000000 sf 010|1011|shift 0 Rm imm6 Rn Rd ADDS | |
7835 | 4b000000 sf 100|1011|shift 0 Rm imm6 Rn Rd SUB | |
7836 | 6b000000 sf 110|1011|shift 0 Rm imm6 Rn Rd SUBS | |
7837 | -> | |
7838 | 3 322|2222|2 2 221111111111 | |
7839 | 1 098|7654|3 2 109876543210 98765 43210 | |
7840 | 11000000 sf 001|0001|shift imm12 Rn Rd ADD | |
7841 | 31000000 sf 011|0001|shift imm12 Rn Rd ADDS | |
7842 | 51000000 sf 101|0001|shift imm12 Rn Rd SUB | |
7843 | 71000000 sf 111|0001|shift imm12 Rn Rd SUBS | |
7844 | Fields sf Rn Rd are already set. */ | |
7845 | insn = get_aarch64_insn (buf); | |
7846 | if (value < 0) | |
7847 | { | |
7848 | /* Add <-> sub. */ | |
7849 | insn = reencode_addsub_switch_add_sub (insn); | |
7850 | value = -value; | |
7851 | } | |
7852 | ||
7853 | if ((flags & FIXUP_F_HAS_EXPLICIT_SHIFT) == 0 | |
7854 | && unsigned_overflow (value, 12)) | |
7855 | { | |
7856 | /* Try to shift the value by 12 to make it fit. */ | |
7857 | if (((value >> 12) << 12) == value | |
7858 | && ! unsigned_overflow (value, 12 + 12)) | |
7859 | { | |
7860 | value >>= 12; | |
7861 | insn |= encode_addsub_imm_shift_amount (1); | |
7862 | } | |
7863 | } | |
7864 | ||
7865 | if (unsigned_overflow (value, 12)) | |
7866 | as_bad_where (fixP->fx_file, fixP->fx_line, | |
7867 | _("immediate out of range")); | |
7868 | ||
7869 | insn |= encode_addsub_imm (value); | |
7870 | ||
7871 | put_aarch64_insn (buf, insn); | |
7872 | break; | |
7873 | ||
7874 | case AARCH64_OPND_SIMD_IMM: | |
7875 | case AARCH64_OPND_SIMD_IMM_SFT: | |
7876 | case AARCH64_OPND_LIMM: | |
7877 | /* Bit mask immediate. */ | |
7878 | gas_assert (new_inst != NULL); | |
7879 | idx = aarch64_operand_index (new_inst->opcode->operands, opnd); | |
7880 | new_inst->operands[idx].imm.value = value; | |
7881 | if (aarch64_opcode_encode (new_inst->opcode, new_inst, | |
7e84b55d | 7882 | &new_inst->value, NULL, NULL, insn_sequence)) |
a06ea964 NC |
7883 | put_aarch64_insn (buf, new_inst->value); |
7884 | else | |
7885 | as_bad_where (fixP->fx_file, fixP->fx_line, | |
7886 | _("invalid immediate")); | |
7887 | break; | |
7888 | ||
7889 | case AARCH64_OPND_HALF: | |
7890 | /* 16-bit unsigned immediate. */ | |
7891 | if (unsigned_overflow (value, 16)) | |
7892 | as_bad_where (fixP->fx_file, fixP->fx_line, | |
7893 | _("immediate out of range")); | |
7894 | insn = get_aarch64_insn (buf); | |
7895 | insn |= encode_movw_imm (value & 0xffff); | |
7896 | put_aarch64_insn (buf, insn); | |
7897 | break; | |
7898 | ||
7899 | case AARCH64_OPND_IMM_MOV: | |
7900 | /* Operand for a generic move immediate instruction, which is | |
7901 | an alias instruction that generates a single MOVZ, MOVN or ORR | |
7902 | instruction to loads a 32-bit/64-bit immediate value into general | |
7903 | register. An assembler error shall result if the immediate cannot be | |
7904 | created by a single one of these instructions. If there is a choice, | |
7905 | then to ensure reversability an assembler must prefer a MOVZ to MOVN, | |
7906 | and MOVZ or MOVN to ORR. */ | |
7907 | gas_assert (new_inst != NULL); | |
7908 | fix_mov_imm_insn (fixP, buf, new_inst, value); | |
7909 | break; | |
7910 | ||
7911 | case AARCH64_OPND_ADDR_SIMM7: | |
7912 | case AARCH64_OPND_ADDR_SIMM9: | |
7913 | case AARCH64_OPND_ADDR_SIMM9_2: | |
3f06e550 | 7914 | case AARCH64_OPND_ADDR_SIMM10: |
a06ea964 | 7915 | case AARCH64_OPND_ADDR_UIMM12: |
fb3265b3 SD |
7916 | case AARCH64_OPND_ADDR_SIMM11: |
7917 | case AARCH64_OPND_ADDR_SIMM13: | |
a06ea964 NC |
7918 | /* Immediate offset in an address. */ |
7919 | insn = get_aarch64_insn (buf); | |
7920 | ||
7921 | gas_assert (new_inst != NULL && new_inst->value == insn); | |
7922 | gas_assert (new_inst->opcode->operands[1] == opnd | |
7923 | || new_inst->opcode->operands[2] == opnd); | |
7924 | ||
7925 | /* Get the index of the address operand. */ | |
7926 | if (new_inst->opcode->operands[1] == opnd) | |
7927 | /* e.g. STR <Xt>, [<Xn|SP>, <R><m>{, <extend> {<amount>}}]. */ | |
7928 | idx = 1; | |
7929 | else | |
7930 | /* e.g. LDP <Qt1>, <Qt2>, [<Xn|SP>{, #<imm>}]. */ | |
7931 | idx = 2; | |
7932 | ||
7933 | /* Update the resolved offset value. */ | |
7934 | new_inst->operands[idx].addr.offset.imm = value; | |
7935 | ||
7936 | /* Encode/fix-up. */ | |
7937 | if (aarch64_opcode_encode (new_inst->opcode, new_inst, | |
7e84b55d | 7938 | &new_inst->value, NULL, NULL, insn_sequence)) |
a06ea964 NC |
7939 | { |
7940 | put_aarch64_insn (buf, new_inst->value); | |
7941 | break; | |
7942 | } | |
7943 | else if (new_inst->opcode->iclass == ldst_pos | |
7944 | && try_to_encode_as_unscaled_ldst (new_inst)) | |
7945 | { | |
7946 | put_aarch64_insn (buf, new_inst->value); | |
7947 | break; | |
7948 | } | |
7949 | ||
7950 | as_bad_where (fixP->fx_file, fixP->fx_line, | |
7951 | _("immediate offset out of range")); | |
7952 | break; | |
7953 | ||
7954 | default: | |
7955 | gas_assert (0); | |
7956 | as_fatal (_("unhandled operand code %d"), opnd); | |
7957 | } | |
7958 | } | |
7959 | ||
7960 | /* Apply a fixup (fixP) to segment data, once it has been determined | |
7961 | by our caller that we have all the info we need to fix it up. | |
7962 | ||
7963 | Parameter valP is the pointer to the value of the bits. */ | |
7964 | ||
7965 | void | |
7966 | md_apply_fix (fixS * fixP, valueT * valP, segT seg) | |
7967 | { | |
7968 | offsetT value = *valP; | |
7969 | uint32_t insn; | |
7970 | char *buf = fixP->fx_where + fixP->fx_frag->fr_literal; | |
7971 | int scale; | |
7972 | unsigned flags = fixP->fx_addnumber; | |
7973 | ||
7974 | DEBUG_TRACE ("\n\n"); | |
7975 | DEBUG_TRACE ("~~~~~~~~~~~~~~~~~~~~~~~~~"); | |
7976 | DEBUG_TRACE ("Enter md_apply_fix"); | |
7977 | ||
7978 | gas_assert (fixP->fx_r_type <= BFD_RELOC_UNUSED); | |
7979 | ||
7980 | /* Note whether this will delete the relocation. */ | |
7981 | ||
7982 | if (fixP->fx_addsy == 0 && !fixP->fx_pcrel) | |
7983 | fixP->fx_done = 1; | |
7984 | ||
7985 | /* Process the relocations. */ | |
7986 | switch (fixP->fx_r_type) | |
7987 | { | |
7988 | case BFD_RELOC_NONE: | |
7989 | /* This will need to go in the object file. */ | |
7990 | fixP->fx_done = 0; | |
7991 | break; | |
7992 | ||
7993 | case BFD_RELOC_8: | |
7994 | case BFD_RELOC_8_PCREL: | |
7995 | if (fixP->fx_done || !seg->use_rela_p) | |
7996 | md_number_to_chars (buf, value, 1); | |
7997 | break; | |
7998 | ||
7999 | case BFD_RELOC_16: | |
8000 | case BFD_RELOC_16_PCREL: | |
8001 | if (fixP->fx_done || !seg->use_rela_p) | |
8002 | md_number_to_chars (buf, value, 2); | |
8003 | break; | |
8004 | ||
8005 | case BFD_RELOC_32: | |
8006 | case BFD_RELOC_32_PCREL: | |
8007 | if (fixP->fx_done || !seg->use_rela_p) | |
8008 | md_number_to_chars (buf, value, 4); | |
8009 | break; | |
8010 | ||
8011 | case BFD_RELOC_64: | |
8012 | case BFD_RELOC_64_PCREL: | |
8013 | if (fixP->fx_done || !seg->use_rela_p) | |
8014 | md_number_to_chars (buf, value, 8); | |
8015 | break; | |
8016 | ||
8017 | case BFD_RELOC_AARCH64_GAS_INTERNAL_FIXUP: | |
8018 | /* We claim that these fixups have been processed here, even if | |
8019 | in fact we generate an error because we do not have a reloc | |
8020 | for them, so tc_gen_reloc() will reject them. */ | |
8021 | fixP->fx_done = 1; | |
8022 | if (fixP->fx_addsy && !S_IS_DEFINED (fixP->fx_addsy)) | |
8023 | { | |
8024 | as_bad_where (fixP->fx_file, fixP->fx_line, | |
8025 | _("undefined symbol %s used as an immediate value"), | |
8026 | S_GET_NAME (fixP->fx_addsy)); | |
8027 | goto apply_fix_return; | |
8028 | } | |
8029 | fix_insn (fixP, flags, value); | |
8030 | break; | |
8031 | ||
8032 | case BFD_RELOC_AARCH64_LD_LO19_PCREL: | |
a06ea964 NC |
8033 | if (fixP->fx_done || !seg->use_rela_p) |
8034 | { | |
89d2a2a3 MS |
8035 | if (value & 3) |
8036 | as_bad_where (fixP->fx_file, fixP->fx_line, | |
8037 | _("pc-relative load offset not word aligned")); | |
8038 | if (signed_overflow (value, 21)) | |
8039 | as_bad_where (fixP->fx_file, fixP->fx_line, | |
8040 | _("pc-relative load offset out of range")); | |
a06ea964 NC |
8041 | insn = get_aarch64_insn (buf); |
8042 | insn |= encode_ld_lit_ofs_19 (value >> 2); | |
8043 | put_aarch64_insn (buf, insn); | |
8044 | } | |
8045 | break; | |
8046 | ||
8047 | case BFD_RELOC_AARCH64_ADR_LO21_PCREL: | |
a06ea964 NC |
8048 | if (fixP->fx_done || !seg->use_rela_p) |
8049 | { | |
89d2a2a3 MS |
8050 | if (signed_overflow (value, 21)) |
8051 | as_bad_where (fixP->fx_file, fixP->fx_line, | |
8052 | _("pc-relative address offset out of range")); | |
a06ea964 NC |
8053 | insn = get_aarch64_insn (buf); |
8054 | insn |= encode_adr_imm (value); | |
8055 | put_aarch64_insn (buf, insn); | |
8056 | } | |
8057 | break; | |
8058 | ||
8059 | case BFD_RELOC_AARCH64_BRANCH19: | |
a06ea964 NC |
8060 | if (fixP->fx_done || !seg->use_rela_p) |
8061 | { | |
89d2a2a3 MS |
8062 | if (value & 3) |
8063 | as_bad_where (fixP->fx_file, fixP->fx_line, | |
8064 | _("conditional branch target not word aligned")); | |
8065 | if (signed_overflow (value, 21)) | |
8066 | as_bad_where (fixP->fx_file, fixP->fx_line, | |
8067 | _("conditional branch out of range")); | |
a06ea964 NC |
8068 | insn = get_aarch64_insn (buf); |
8069 | insn |= encode_cond_branch_ofs_19 (value >> 2); | |
8070 | put_aarch64_insn (buf, insn); | |
8071 | } | |
8072 | break; | |
8073 | ||
8074 | case BFD_RELOC_AARCH64_TSTBR14: | |
a06ea964 NC |
8075 | if (fixP->fx_done || !seg->use_rela_p) |
8076 | { | |
89d2a2a3 MS |
8077 | if (value & 3) |
8078 | as_bad_where (fixP->fx_file, fixP->fx_line, | |
8079 | _("conditional branch target not word aligned")); | |
8080 | if (signed_overflow (value, 16)) | |
8081 | as_bad_where (fixP->fx_file, fixP->fx_line, | |
8082 | _("conditional branch out of range")); | |
a06ea964 NC |
8083 | insn = get_aarch64_insn (buf); |
8084 | insn |= encode_tst_branch_ofs_14 (value >> 2); | |
8085 | put_aarch64_insn (buf, insn); | |
8086 | } | |
8087 | break; | |
8088 | ||
a06ea964 | 8089 | case BFD_RELOC_AARCH64_CALL26: |
f09c556a | 8090 | case BFD_RELOC_AARCH64_JUMP26: |
a06ea964 NC |
8091 | if (fixP->fx_done || !seg->use_rela_p) |
8092 | { | |
89d2a2a3 MS |
8093 | if (value & 3) |
8094 | as_bad_where (fixP->fx_file, fixP->fx_line, | |
8095 | _("branch target not word aligned")); | |
8096 | if (signed_overflow (value, 28)) | |
8097 | as_bad_where (fixP->fx_file, fixP->fx_line, | |
8098 | _("branch out of range")); | |
a06ea964 NC |
8099 | insn = get_aarch64_insn (buf); |
8100 | insn |= encode_branch_ofs_26 (value >> 2); | |
8101 | put_aarch64_insn (buf, insn); | |
8102 | } | |
8103 | break; | |
8104 | ||
8105 | case BFD_RELOC_AARCH64_MOVW_G0: | |
a06ea964 | 8106 | case BFD_RELOC_AARCH64_MOVW_G0_NC: |
f09c556a | 8107 | case BFD_RELOC_AARCH64_MOVW_G0_S: |
ca632371 | 8108 | case BFD_RELOC_AARCH64_MOVW_GOTOFF_G0_NC: |
32247401 RL |
8109 | case BFD_RELOC_AARCH64_MOVW_PREL_G0: |
8110 | case BFD_RELOC_AARCH64_MOVW_PREL_G0_NC: | |
a06ea964 NC |
8111 | scale = 0; |
8112 | goto movw_common; | |
8113 | case BFD_RELOC_AARCH64_MOVW_G1: | |
a06ea964 | 8114 | case BFD_RELOC_AARCH64_MOVW_G1_NC: |
f09c556a | 8115 | case BFD_RELOC_AARCH64_MOVW_G1_S: |
654248e7 | 8116 | case BFD_RELOC_AARCH64_MOVW_GOTOFF_G1: |
32247401 RL |
8117 | case BFD_RELOC_AARCH64_MOVW_PREL_G1: |
8118 | case BFD_RELOC_AARCH64_MOVW_PREL_G1_NC: | |
a06ea964 NC |
8119 | scale = 16; |
8120 | goto movw_common; | |
43a357f9 RL |
8121 | case BFD_RELOC_AARCH64_TLSDESC_OFF_G0_NC: |
8122 | scale = 0; | |
8123 | S_SET_THREAD_LOCAL (fixP->fx_addsy); | |
8124 | /* Should always be exported to object file, see | |
8125 | aarch64_force_relocation(). */ | |
8126 | gas_assert (!fixP->fx_done); | |
8127 | gas_assert (seg->use_rela_p); | |
8128 | goto movw_common; | |
8129 | case BFD_RELOC_AARCH64_TLSDESC_OFF_G1: | |
8130 | scale = 16; | |
8131 | S_SET_THREAD_LOCAL (fixP->fx_addsy); | |
8132 | /* Should always be exported to object file, see | |
8133 | aarch64_force_relocation(). */ | |
8134 | gas_assert (!fixP->fx_done); | |
8135 | gas_assert (seg->use_rela_p); | |
8136 | goto movw_common; | |
a06ea964 | 8137 | case BFD_RELOC_AARCH64_MOVW_G2: |
a06ea964 | 8138 | case BFD_RELOC_AARCH64_MOVW_G2_NC: |
f09c556a | 8139 | case BFD_RELOC_AARCH64_MOVW_G2_S: |
32247401 RL |
8140 | case BFD_RELOC_AARCH64_MOVW_PREL_G2: |
8141 | case BFD_RELOC_AARCH64_MOVW_PREL_G2_NC: | |
a06ea964 NC |
8142 | scale = 32; |
8143 | goto movw_common; | |
8144 | case BFD_RELOC_AARCH64_MOVW_G3: | |
32247401 | 8145 | case BFD_RELOC_AARCH64_MOVW_PREL_G3: |
a06ea964 NC |
8146 | scale = 48; |
8147 | movw_common: | |
8148 | if (fixP->fx_done || !seg->use_rela_p) | |
8149 | { | |
8150 | insn = get_aarch64_insn (buf); | |
8151 | ||
8152 | if (!fixP->fx_done) | |
8153 | { | |
8154 | /* REL signed addend must fit in 16 bits */ | |
8155 | if (signed_overflow (value, 16)) | |
8156 | as_bad_where (fixP->fx_file, fixP->fx_line, | |
8157 | _("offset out of range")); | |
8158 | } | |
8159 | else | |
8160 | { | |
8161 | /* Check for overflow and scale. */ | |
8162 | switch (fixP->fx_r_type) | |
8163 | { | |
8164 | case BFD_RELOC_AARCH64_MOVW_G0: | |
8165 | case BFD_RELOC_AARCH64_MOVW_G1: | |
8166 | case BFD_RELOC_AARCH64_MOVW_G2: | |
8167 | case BFD_RELOC_AARCH64_MOVW_G3: | |
654248e7 | 8168 | case BFD_RELOC_AARCH64_MOVW_GOTOFF_G1: |
43a357f9 | 8169 | case BFD_RELOC_AARCH64_TLSDESC_OFF_G1: |
a06ea964 NC |
8170 | if (unsigned_overflow (value, scale + 16)) |
8171 | as_bad_where (fixP->fx_file, fixP->fx_line, | |
8172 | _("unsigned value out of range")); | |
8173 | break; | |
8174 | case BFD_RELOC_AARCH64_MOVW_G0_S: | |
8175 | case BFD_RELOC_AARCH64_MOVW_G1_S: | |
8176 | case BFD_RELOC_AARCH64_MOVW_G2_S: | |
32247401 RL |
8177 | case BFD_RELOC_AARCH64_MOVW_PREL_G0: |
8178 | case BFD_RELOC_AARCH64_MOVW_PREL_G1: | |
8179 | case BFD_RELOC_AARCH64_MOVW_PREL_G2: | |
a06ea964 NC |
8180 | /* NOTE: We can only come here with movz or movn. */ |
8181 | if (signed_overflow (value, scale + 16)) | |
8182 | as_bad_where (fixP->fx_file, fixP->fx_line, | |
8183 | _("signed value out of range")); | |
8184 | if (value < 0) | |
8185 | { | |
8186 | /* Force use of MOVN. */ | |
8187 | value = ~value; | |
8188 | insn = reencode_movzn_to_movn (insn); | |
8189 | } | |
8190 | else | |
8191 | { | |
8192 | /* Force use of MOVZ. */ | |
8193 | insn = reencode_movzn_to_movz (insn); | |
8194 | } | |
8195 | break; | |
8196 | default: | |
8197 | /* Unchecked relocations. */ | |
8198 | break; | |
8199 | } | |
8200 | value >>= scale; | |
8201 | } | |
8202 | ||
8203 | /* Insert value into MOVN/MOVZ/MOVK instruction. */ | |
8204 | insn |= encode_movw_imm (value & 0xffff); | |
8205 | ||
8206 | put_aarch64_insn (buf, insn); | |
8207 | } | |
8208 | break; | |
8209 | ||
a6bb11b2 YZ |
8210 | case BFD_RELOC_AARCH64_TLSIE_LD_GOTTPREL_LO12_NC: |
8211 | fixP->fx_r_type = (ilp32_p | |
8212 | ? BFD_RELOC_AARCH64_TLSIE_LD32_GOTTPREL_LO12_NC | |
8213 | : BFD_RELOC_AARCH64_TLSIE_LD64_GOTTPREL_LO12_NC); | |
8214 | S_SET_THREAD_LOCAL (fixP->fx_addsy); | |
8215 | /* Should always be exported to object file, see | |
8216 | aarch64_force_relocation(). */ | |
8217 | gas_assert (!fixP->fx_done); | |
8218 | gas_assert (seg->use_rela_p); | |
8219 | break; | |
8220 | ||
8221 | case BFD_RELOC_AARCH64_TLSDESC_LD_LO12_NC: | |
8222 | fixP->fx_r_type = (ilp32_p | |
8223 | ? BFD_RELOC_AARCH64_TLSDESC_LD32_LO12_NC | |
f955cccf | 8224 | : BFD_RELOC_AARCH64_TLSDESC_LD64_LO12); |
a6bb11b2 YZ |
8225 | S_SET_THREAD_LOCAL (fixP->fx_addsy); |
8226 | /* Should always be exported to object file, see | |
8227 | aarch64_force_relocation(). */ | |
8228 | gas_assert (!fixP->fx_done); | |
8229 | gas_assert (seg->use_rela_p); | |
8230 | break; | |
8231 | ||
f955cccf | 8232 | case BFD_RELOC_AARCH64_TLSDESC_ADD_LO12: |
2c0a3565 | 8233 | case BFD_RELOC_AARCH64_TLSDESC_ADR_PAGE21: |
389b8029 | 8234 | case BFD_RELOC_AARCH64_TLSDESC_ADR_PREL21: |
2c0a3565 | 8235 | case BFD_RELOC_AARCH64_TLSDESC_LD32_LO12_NC: |
f955cccf | 8236 | case BFD_RELOC_AARCH64_TLSDESC_LD64_LO12: |
1ada945d | 8237 | case BFD_RELOC_AARCH64_TLSDESC_LD_PREL19: |
a06ea964 | 8238 | case BFD_RELOC_AARCH64_TLSGD_ADD_LO12_NC: |
2c0a3565 | 8239 | case BFD_RELOC_AARCH64_TLSGD_ADR_PAGE21: |
3c12b054 | 8240 | case BFD_RELOC_AARCH64_TLSGD_ADR_PREL21: |
3e8286c0 | 8241 | case BFD_RELOC_AARCH64_TLSGD_MOVW_G0_NC: |
1aa66fb1 | 8242 | case BFD_RELOC_AARCH64_TLSGD_MOVW_G1: |
a06ea964 | 8243 | case BFD_RELOC_AARCH64_TLSIE_ADR_GOTTPREL_PAGE21: |
a6bb11b2 | 8244 | case BFD_RELOC_AARCH64_TLSIE_LD32_GOTTPREL_LO12_NC: |
2c0a3565 | 8245 | case BFD_RELOC_AARCH64_TLSIE_LD64_GOTTPREL_LO12_NC: |
043bf05a | 8246 | case BFD_RELOC_AARCH64_TLSIE_LD_GOTTPREL_PREL19: |
3b957e5b RL |
8247 | case BFD_RELOC_AARCH64_TLSIE_MOVW_GOTTPREL_G0_NC: |
8248 | case BFD_RELOC_AARCH64_TLSIE_MOVW_GOTTPREL_G1: | |
49df5539 | 8249 | case BFD_RELOC_AARCH64_TLSLD_ADD_DTPREL_HI12: |
70151fb5 | 8250 | case BFD_RELOC_AARCH64_TLSLD_ADD_DTPREL_LO12: |
13289c10 | 8251 | case BFD_RELOC_AARCH64_TLSLD_ADD_DTPREL_LO12_NC: |
a12fad50 | 8252 | case BFD_RELOC_AARCH64_TLSLD_ADD_LO12_NC: |
1107e076 | 8253 | case BFD_RELOC_AARCH64_TLSLD_ADR_PAGE21: |
6c37fedc | 8254 | case BFD_RELOC_AARCH64_TLSLD_ADR_PREL21: |
4c562523 JW |
8255 | case BFD_RELOC_AARCH64_TLSLD_LDST16_DTPREL_LO12: |
8256 | case BFD_RELOC_AARCH64_TLSLD_LDST16_DTPREL_LO12_NC: | |
8257 | case BFD_RELOC_AARCH64_TLSLD_LDST32_DTPREL_LO12: | |
8258 | case BFD_RELOC_AARCH64_TLSLD_LDST32_DTPREL_LO12_NC: | |
8259 | case BFD_RELOC_AARCH64_TLSLD_LDST64_DTPREL_LO12: | |
8260 | case BFD_RELOC_AARCH64_TLSLD_LDST64_DTPREL_LO12_NC: | |
8261 | case BFD_RELOC_AARCH64_TLSLD_LDST8_DTPREL_LO12: | |
8262 | case BFD_RELOC_AARCH64_TLSLD_LDST8_DTPREL_LO12_NC: | |
49df5539 JW |
8263 | case BFD_RELOC_AARCH64_TLSLD_MOVW_DTPREL_G0: |
8264 | case BFD_RELOC_AARCH64_TLSLD_MOVW_DTPREL_G0_NC: | |
8265 | case BFD_RELOC_AARCH64_TLSLD_MOVW_DTPREL_G1: | |
8266 | case BFD_RELOC_AARCH64_TLSLD_MOVW_DTPREL_G1_NC: | |
8267 | case BFD_RELOC_AARCH64_TLSLD_MOVW_DTPREL_G2: | |
84f1b9fb RL |
8268 | case BFD_RELOC_AARCH64_TLSLE_LDST16_TPREL_LO12: |
8269 | case BFD_RELOC_AARCH64_TLSLE_LDST16_TPREL_LO12_NC: | |
8270 | case BFD_RELOC_AARCH64_TLSLE_LDST32_TPREL_LO12: | |
8271 | case BFD_RELOC_AARCH64_TLSLE_LDST32_TPREL_LO12_NC: | |
8272 | case BFD_RELOC_AARCH64_TLSLE_LDST64_TPREL_LO12: | |
8273 | case BFD_RELOC_AARCH64_TLSLE_LDST64_TPREL_LO12_NC: | |
8274 | case BFD_RELOC_AARCH64_TLSLE_LDST8_TPREL_LO12: | |
8275 | case BFD_RELOC_AARCH64_TLSLE_LDST8_TPREL_LO12_NC: | |
a06ea964 | 8276 | case BFD_RELOC_AARCH64_TLSLE_ADD_TPREL_HI12: |
2c0a3565 | 8277 | case BFD_RELOC_AARCH64_TLSLE_ADD_TPREL_LO12: |
a06ea964 | 8278 | case BFD_RELOC_AARCH64_TLSLE_ADD_TPREL_LO12_NC: |
a06ea964 NC |
8279 | case BFD_RELOC_AARCH64_TLSLE_MOVW_TPREL_G0: |
8280 | case BFD_RELOC_AARCH64_TLSLE_MOVW_TPREL_G0_NC: | |
2c0a3565 MS |
8281 | case BFD_RELOC_AARCH64_TLSLE_MOVW_TPREL_G1: |
8282 | case BFD_RELOC_AARCH64_TLSLE_MOVW_TPREL_G1_NC: | |
8283 | case BFD_RELOC_AARCH64_TLSLE_MOVW_TPREL_G2: | |
a06ea964 NC |
8284 | S_SET_THREAD_LOCAL (fixP->fx_addsy); |
8285 | /* Should always be exported to object file, see | |
8286 | aarch64_force_relocation(). */ | |
8287 | gas_assert (!fixP->fx_done); | |
8288 | gas_assert (seg->use_rela_p); | |
8289 | break; | |
8290 | ||
a6bb11b2 YZ |
8291 | case BFD_RELOC_AARCH64_LD_GOT_LO12_NC: |
8292 | /* Should always be exported to object file, see | |
8293 | aarch64_force_relocation(). */ | |
8294 | fixP->fx_r_type = (ilp32_p | |
8295 | ? BFD_RELOC_AARCH64_LD32_GOT_LO12_NC | |
8296 | : BFD_RELOC_AARCH64_LD64_GOT_LO12_NC); | |
8297 | gas_assert (!fixP->fx_done); | |
8298 | gas_assert (seg->use_rela_p); | |
8299 | break; | |
8300 | ||
a06ea964 | 8301 | case BFD_RELOC_AARCH64_ADD_LO12: |
f09c556a JW |
8302 | case BFD_RELOC_AARCH64_ADR_GOT_PAGE: |
8303 | case BFD_RELOC_AARCH64_ADR_HI21_NC_PCREL: | |
8304 | case BFD_RELOC_AARCH64_ADR_HI21_PCREL: | |
8305 | case BFD_RELOC_AARCH64_GOT_LD_PREL19: | |
8306 | case BFD_RELOC_AARCH64_LD32_GOT_LO12_NC: | |
3d715ce4 | 8307 | case BFD_RELOC_AARCH64_LD32_GOTPAGE_LO14: |
87f5fbcc | 8308 | case BFD_RELOC_AARCH64_LD64_GOTOFF_LO15: |
a921b5bd | 8309 | case BFD_RELOC_AARCH64_LD64_GOTPAGE_LO15: |
f09c556a JW |
8310 | case BFD_RELOC_AARCH64_LD64_GOT_LO12_NC: |
8311 | case BFD_RELOC_AARCH64_LDST128_LO12: | |
a06ea964 NC |
8312 | case BFD_RELOC_AARCH64_LDST16_LO12: |
8313 | case BFD_RELOC_AARCH64_LDST32_LO12: | |
8314 | case BFD_RELOC_AARCH64_LDST64_LO12: | |
f09c556a | 8315 | case BFD_RELOC_AARCH64_LDST8_LO12: |
a06ea964 NC |
8316 | /* Should always be exported to object file, see |
8317 | aarch64_force_relocation(). */ | |
8318 | gas_assert (!fixP->fx_done); | |
8319 | gas_assert (seg->use_rela_p); | |
8320 | break; | |
8321 | ||
8322 | case BFD_RELOC_AARCH64_TLSDESC_ADD: | |
a06ea964 | 8323 | case BFD_RELOC_AARCH64_TLSDESC_CALL: |
f09c556a | 8324 | case BFD_RELOC_AARCH64_TLSDESC_LDR: |
a06ea964 NC |
8325 | break; |
8326 | ||
b97e87cc NC |
8327 | case BFD_RELOC_UNUSED: |
8328 | /* An error will already have been reported. */ | |
8329 | break; | |
8330 | ||
a06ea964 NC |
8331 | default: |
8332 | as_bad_where (fixP->fx_file, fixP->fx_line, | |
8333 | _("unexpected %s fixup"), | |
8334 | bfd_get_reloc_code_name (fixP->fx_r_type)); | |
8335 | break; | |
8336 | } | |
8337 | ||
dc1e8a47 | 8338 | apply_fix_return: |
a06ea964 NC |
8339 | /* Free the allocated the struct aarch64_inst. |
8340 | N.B. currently there are very limited number of fix-up types actually use | |
8341 | this field, so the impact on the performance should be minimal . */ | |
9fbb53c7 | 8342 | free (fixP->tc_fix_data.inst); |
a06ea964 NC |
8343 | |
8344 | return; | |
8345 | } | |
8346 | ||
8347 | /* Translate internal representation of relocation info to BFD target | |
8348 | format. */ | |
8349 | ||
8350 | arelent * | |
8351 | tc_gen_reloc (asection * section, fixS * fixp) | |
8352 | { | |
8353 | arelent *reloc; | |
8354 | bfd_reloc_code_real_type code; | |
8355 | ||
325801bd | 8356 | reloc = XNEW (arelent); |
a06ea964 | 8357 | |
325801bd | 8358 | reloc->sym_ptr_ptr = XNEW (asymbol *); |
a06ea964 NC |
8359 | *reloc->sym_ptr_ptr = symbol_get_bfdsym (fixp->fx_addsy); |
8360 | reloc->address = fixp->fx_frag->fr_address + fixp->fx_where; | |
8361 | ||
8362 | if (fixp->fx_pcrel) | |
8363 | { | |
8364 | if (section->use_rela_p) | |
8365 | fixp->fx_offset -= md_pcrel_from_section (fixp, section); | |
8366 | else | |
8367 | fixp->fx_offset = reloc->address; | |
8368 | } | |
8369 | reloc->addend = fixp->fx_offset; | |
8370 | ||
8371 | code = fixp->fx_r_type; | |
8372 | switch (code) | |
8373 | { | |
8374 | case BFD_RELOC_16: | |
8375 | if (fixp->fx_pcrel) | |
8376 | code = BFD_RELOC_16_PCREL; | |
8377 | break; | |
8378 | ||
8379 | case BFD_RELOC_32: | |
8380 | if (fixp->fx_pcrel) | |
8381 | code = BFD_RELOC_32_PCREL; | |
8382 | break; | |
8383 | ||
8384 | case BFD_RELOC_64: | |
8385 | if (fixp->fx_pcrel) | |
8386 | code = BFD_RELOC_64_PCREL; | |
8387 | break; | |
8388 | ||
8389 | default: | |
8390 | break; | |
8391 | } | |
8392 | ||
8393 | reloc->howto = bfd_reloc_type_lookup (stdoutput, code); | |
8394 | if (reloc->howto == NULL) | |
8395 | { | |
8396 | as_bad_where (fixp->fx_file, fixp->fx_line, | |
8397 | _ | |
8398 | ("cannot represent %s relocation in this object file format"), | |
8399 | bfd_get_reloc_code_name (code)); | |
8400 | return NULL; | |
8401 | } | |
8402 | ||
8403 | return reloc; | |
8404 | } | |
8405 | ||
8406 | /* This fix_new is called by cons via TC_CONS_FIX_NEW. */ | |
8407 | ||
8408 | void | |
8409 | cons_fix_new_aarch64 (fragS * frag, int where, int size, expressionS * exp) | |
8410 | { | |
8411 | bfd_reloc_code_real_type type; | |
8412 | int pcrel = 0; | |
8413 | ||
8414 | /* Pick a reloc. | |
8415 | FIXME: @@ Should look at CPU word size. */ | |
8416 | switch (size) | |
8417 | { | |
8418 | case 1: | |
8419 | type = BFD_RELOC_8; | |
8420 | break; | |
8421 | case 2: | |
8422 | type = BFD_RELOC_16; | |
8423 | break; | |
8424 | case 4: | |
8425 | type = BFD_RELOC_32; | |
8426 | break; | |
8427 | case 8: | |
8428 | type = BFD_RELOC_64; | |
8429 | break; | |
8430 | default: | |
8431 | as_bad (_("cannot do %u-byte relocation"), size); | |
8432 | type = BFD_RELOC_UNUSED; | |
8433 | break; | |
8434 | } | |
8435 | ||
8436 | fix_new_exp (frag, where, (int) size, exp, pcrel, type); | |
8437 | } | |
8438 | ||
8439 | int | |
8440 | aarch64_force_relocation (struct fix *fixp) | |
8441 | { | |
8442 | switch (fixp->fx_r_type) | |
8443 | { | |
8444 | case BFD_RELOC_AARCH64_GAS_INTERNAL_FIXUP: | |
8445 | /* Perform these "immediate" internal relocations | |
8446 | even if the symbol is extern or weak. */ | |
8447 | return 0; | |
8448 | ||
a6bb11b2 | 8449 | case BFD_RELOC_AARCH64_LD_GOT_LO12_NC: |
f09c556a JW |
8450 | case BFD_RELOC_AARCH64_TLSDESC_LD_LO12_NC: |
8451 | case BFD_RELOC_AARCH64_TLSIE_LD_GOTTPREL_LO12_NC: | |
a6bb11b2 YZ |
8452 | /* Pseudo relocs that need to be fixed up according to |
8453 | ilp32_p. */ | |
8454 | return 0; | |
8455 | ||
2c0a3565 MS |
8456 | case BFD_RELOC_AARCH64_ADD_LO12: |
8457 | case BFD_RELOC_AARCH64_ADR_GOT_PAGE: | |
8458 | case BFD_RELOC_AARCH64_ADR_HI21_NC_PCREL: | |
8459 | case BFD_RELOC_AARCH64_ADR_HI21_PCREL: | |
8460 | case BFD_RELOC_AARCH64_GOT_LD_PREL19: | |
8461 | case BFD_RELOC_AARCH64_LD32_GOT_LO12_NC: | |
3d715ce4 | 8462 | case BFD_RELOC_AARCH64_LD32_GOTPAGE_LO14: |
87f5fbcc | 8463 | case BFD_RELOC_AARCH64_LD64_GOTOFF_LO15: |
a921b5bd | 8464 | case BFD_RELOC_AARCH64_LD64_GOTPAGE_LO15: |
2c0a3565 MS |
8465 | case BFD_RELOC_AARCH64_LD64_GOT_LO12_NC: |
8466 | case BFD_RELOC_AARCH64_LDST128_LO12: | |
8467 | case BFD_RELOC_AARCH64_LDST16_LO12: | |
8468 | case BFD_RELOC_AARCH64_LDST32_LO12: | |
8469 | case BFD_RELOC_AARCH64_LDST64_LO12: | |
8470 | case BFD_RELOC_AARCH64_LDST8_LO12: | |
f955cccf | 8471 | case BFD_RELOC_AARCH64_TLSDESC_ADD_LO12: |
2c0a3565 | 8472 | case BFD_RELOC_AARCH64_TLSDESC_ADR_PAGE21: |
389b8029 | 8473 | case BFD_RELOC_AARCH64_TLSDESC_ADR_PREL21: |
2c0a3565 | 8474 | case BFD_RELOC_AARCH64_TLSDESC_LD32_LO12_NC: |
f955cccf | 8475 | case BFD_RELOC_AARCH64_TLSDESC_LD64_LO12: |
1ada945d | 8476 | case BFD_RELOC_AARCH64_TLSDESC_LD_PREL19: |
43a357f9 RL |
8477 | case BFD_RELOC_AARCH64_TLSDESC_OFF_G0_NC: |
8478 | case BFD_RELOC_AARCH64_TLSDESC_OFF_G1: | |
a06ea964 | 8479 | case BFD_RELOC_AARCH64_TLSGD_ADD_LO12_NC: |
2c0a3565 | 8480 | case BFD_RELOC_AARCH64_TLSGD_ADR_PAGE21: |
3c12b054 | 8481 | case BFD_RELOC_AARCH64_TLSGD_ADR_PREL21: |
3e8286c0 | 8482 | case BFD_RELOC_AARCH64_TLSGD_MOVW_G0_NC: |
1aa66fb1 | 8483 | case BFD_RELOC_AARCH64_TLSGD_MOVW_G1: |
a06ea964 | 8484 | case BFD_RELOC_AARCH64_TLSIE_ADR_GOTTPREL_PAGE21: |
a6bb11b2 | 8485 | case BFD_RELOC_AARCH64_TLSIE_LD32_GOTTPREL_LO12_NC: |
2c0a3565 | 8486 | case BFD_RELOC_AARCH64_TLSIE_LD64_GOTTPREL_LO12_NC: |
043bf05a | 8487 | case BFD_RELOC_AARCH64_TLSIE_LD_GOTTPREL_PREL19: |
3b957e5b RL |
8488 | case BFD_RELOC_AARCH64_TLSIE_MOVW_GOTTPREL_G0_NC: |
8489 | case BFD_RELOC_AARCH64_TLSIE_MOVW_GOTTPREL_G1: | |
8490 | case BFD_RELOC_AARCH64_TLSLD_ADD_DTPREL_HI12: | |
70151fb5 | 8491 | case BFD_RELOC_AARCH64_TLSLD_ADD_DTPREL_LO12: |
13289c10 | 8492 | case BFD_RELOC_AARCH64_TLSLD_ADD_DTPREL_LO12_NC: |
a12fad50 | 8493 | case BFD_RELOC_AARCH64_TLSLD_ADD_LO12_NC: |
1107e076 | 8494 | case BFD_RELOC_AARCH64_TLSLD_ADR_PAGE21: |
6c37fedc | 8495 | case BFD_RELOC_AARCH64_TLSLD_ADR_PREL21: |
4c562523 JW |
8496 | case BFD_RELOC_AARCH64_TLSLD_LDST16_DTPREL_LO12: |
8497 | case BFD_RELOC_AARCH64_TLSLD_LDST16_DTPREL_LO12_NC: | |
8498 | case BFD_RELOC_AARCH64_TLSLD_LDST32_DTPREL_LO12: | |
8499 | case BFD_RELOC_AARCH64_TLSLD_LDST32_DTPREL_LO12_NC: | |
8500 | case BFD_RELOC_AARCH64_TLSLD_LDST64_DTPREL_LO12: | |
8501 | case BFD_RELOC_AARCH64_TLSLD_LDST64_DTPREL_LO12_NC: | |
8502 | case BFD_RELOC_AARCH64_TLSLD_LDST8_DTPREL_LO12: | |
8503 | case BFD_RELOC_AARCH64_TLSLD_LDST8_DTPREL_LO12_NC: | |
49df5539 JW |
8504 | case BFD_RELOC_AARCH64_TLSLD_MOVW_DTPREL_G0: |
8505 | case BFD_RELOC_AARCH64_TLSLD_MOVW_DTPREL_G0_NC: | |
8506 | case BFD_RELOC_AARCH64_TLSLD_MOVW_DTPREL_G1: | |
8507 | case BFD_RELOC_AARCH64_TLSLD_MOVW_DTPREL_G1_NC: | |
8508 | case BFD_RELOC_AARCH64_TLSLD_MOVW_DTPREL_G2: | |
84f1b9fb RL |
8509 | case BFD_RELOC_AARCH64_TLSLE_LDST16_TPREL_LO12: |
8510 | case BFD_RELOC_AARCH64_TLSLE_LDST16_TPREL_LO12_NC: | |
8511 | case BFD_RELOC_AARCH64_TLSLE_LDST32_TPREL_LO12: | |
8512 | case BFD_RELOC_AARCH64_TLSLE_LDST32_TPREL_LO12_NC: | |
8513 | case BFD_RELOC_AARCH64_TLSLE_LDST64_TPREL_LO12: | |
8514 | case BFD_RELOC_AARCH64_TLSLE_LDST64_TPREL_LO12_NC: | |
8515 | case BFD_RELOC_AARCH64_TLSLE_LDST8_TPREL_LO12: | |
8516 | case BFD_RELOC_AARCH64_TLSLE_LDST8_TPREL_LO12_NC: | |
a06ea964 | 8517 | case BFD_RELOC_AARCH64_TLSLE_ADD_TPREL_HI12: |
2c0a3565 | 8518 | case BFD_RELOC_AARCH64_TLSLE_ADD_TPREL_LO12: |
a06ea964 | 8519 | case BFD_RELOC_AARCH64_TLSLE_ADD_TPREL_LO12_NC: |
a06ea964 NC |
8520 | case BFD_RELOC_AARCH64_TLSLE_MOVW_TPREL_G0: |
8521 | case BFD_RELOC_AARCH64_TLSLE_MOVW_TPREL_G0_NC: | |
2c0a3565 MS |
8522 | case BFD_RELOC_AARCH64_TLSLE_MOVW_TPREL_G1: |
8523 | case BFD_RELOC_AARCH64_TLSLE_MOVW_TPREL_G1_NC: | |
8524 | case BFD_RELOC_AARCH64_TLSLE_MOVW_TPREL_G2: | |
a06ea964 NC |
8525 | /* Always leave these relocations for the linker. */ |
8526 | return 1; | |
8527 | ||
8528 | default: | |
8529 | break; | |
8530 | } | |
8531 | ||
8532 | return generic_force_reloc (fixp); | |
8533 | } | |
8534 | ||
8535 | #ifdef OBJ_ELF | |
8536 | ||
3c0367d0 JW |
8537 | /* Implement md_after_parse_args. This is the earliest time we need to decide |
8538 | ABI. If no -mabi specified, the ABI will be decided by target triplet. */ | |
8539 | ||
8540 | void | |
8541 | aarch64_after_parse_args (void) | |
8542 | { | |
8543 | if (aarch64_abi != AARCH64_ABI_NONE) | |
8544 | return; | |
8545 | ||
8546 | /* DEFAULT_ARCH will have ":32" extension if it's configured for ILP32. */ | |
8547 | if (strlen (default_arch) > 7 && strcmp (default_arch + 7, ":32") == 0) | |
8548 | aarch64_abi = AARCH64_ABI_ILP32; | |
8549 | else | |
8550 | aarch64_abi = AARCH64_ABI_LP64; | |
8551 | } | |
8552 | ||
a06ea964 NC |
8553 | const char * |
8554 | elf64_aarch64_target_format (void) | |
8555 | { | |
12400dcc AM |
8556 | #ifdef TE_CLOUDABI |
8557 | /* FIXME: What to do for ilp32_p ? */ | |
8558 | if (target_big_endian) | |
8559 | return "elf64-bigaarch64-cloudabi"; | |
8560 | else | |
8561 | return "elf64-littleaarch64-cloudabi"; | |
8562 | #else | |
a06ea964 | 8563 | if (target_big_endian) |
cec5225b | 8564 | return ilp32_p ? "elf32-bigaarch64" : "elf64-bigaarch64"; |
a06ea964 | 8565 | else |
cec5225b | 8566 | return ilp32_p ? "elf32-littleaarch64" : "elf64-littleaarch64"; |
12400dcc | 8567 | #endif |
a06ea964 NC |
8568 | } |
8569 | ||
8570 | void | |
8571 | aarch64elf_frob_symbol (symbolS * symp, int *puntp) | |
8572 | { | |
8573 | elf_frob_symbol (symp, puntp); | |
8574 | } | |
8575 | #endif | |
8576 | ||
8577 | /* MD interface: Finalization. */ | |
8578 | ||
8579 | /* A good place to do this, although this was probably not intended | |
8580 | for this kind of use. We need to dump the literal pool before | |
8581 | references are made to a null symbol pointer. */ | |
8582 | ||
8583 | void | |
8584 | aarch64_cleanup (void) | |
8585 | { | |
8586 | literal_pool *pool; | |
8587 | ||
8588 | for (pool = list_of_pools; pool; pool = pool->next) | |
8589 | { | |
8590 | /* Put it at the end of the relevant section. */ | |
8591 | subseg_set (pool->section, pool->sub_section); | |
8592 | s_ltorg (0); | |
8593 | } | |
8594 | } | |
8595 | ||
8596 | #ifdef OBJ_ELF | |
8597 | /* Remove any excess mapping symbols generated for alignment frags in | |
8598 | SEC. We may have created a mapping symbol before a zero byte | |
8599 | alignment; remove it if there's a mapping symbol after the | |
8600 | alignment. */ | |
8601 | static void | |
8602 | check_mapping_symbols (bfd * abfd ATTRIBUTE_UNUSED, asection * sec, | |
8603 | void *dummy ATTRIBUTE_UNUSED) | |
8604 | { | |
8605 | segment_info_type *seginfo = seg_info (sec); | |
8606 | fragS *fragp; | |
8607 | ||
8608 | if (seginfo == NULL || seginfo->frchainP == NULL) | |
8609 | return; | |
8610 | ||
8611 | for (fragp = seginfo->frchainP->frch_root; | |
8612 | fragp != NULL; fragp = fragp->fr_next) | |
8613 | { | |
8614 | symbolS *sym = fragp->tc_frag_data.last_map; | |
8615 | fragS *next = fragp->fr_next; | |
8616 | ||
8617 | /* Variable-sized frags have been converted to fixed size by | |
8618 | this point. But if this was variable-sized to start with, | |
8619 | there will be a fixed-size frag after it. So don't handle | |
8620 | next == NULL. */ | |
8621 | if (sym == NULL || next == NULL) | |
8622 | continue; | |
8623 | ||
8624 | if (S_GET_VALUE (sym) < next->fr_address) | |
8625 | /* Not at the end of this frag. */ | |
8626 | continue; | |
8627 | know (S_GET_VALUE (sym) == next->fr_address); | |
8628 | ||
8629 | do | |
8630 | { | |
8631 | if (next->tc_frag_data.first_map != NULL) | |
8632 | { | |
8633 | /* Next frag starts with a mapping symbol. Discard this | |
8634 | one. */ | |
8635 | symbol_remove (sym, &symbol_rootP, &symbol_lastP); | |
8636 | break; | |
8637 | } | |
8638 | ||
8639 | if (next->fr_next == NULL) | |
8640 | { | |
8641 | /* This mapping symbol is at the end of the section. Discard | |
8642 | it. */ | |
8643 | know (next->fr_fix == 0 && next->fr_var == 0); | |
8644 | symbol_remove (sym, &symbol_rootP, &symbol_lastP); | |
8645 | break; | |
8646 | } | |
8647 | ||
8648 | /* As long as we have empty frags without any mapping symbols, | |
8649 | keep looking. */ | |
8650 | /* If the next frag is non-empty and does not start with a | |
8651 | mapping symbol, then this mapping symbol is required. */ | |
8652 | if (next->fr_address != next->fr_next->fr_address) | |
8653 | break; | |
8654 | ||
8655 | next = next->fr_next; | |
8656 | } | |
8657 | while (next != NULL); | |
8658 | } | |
8659 | } | |
8660 | #endif | |
8661 | ||
8662 | /* Adjust the symbol table. */ | |
8663 | ||
8664 | void | |
8665 | aarch64_adjust_symtab (void) | |
8666 | { | |
8667 | #ifdef OBJ_ELF | |
8668 | /* Remove any overlapping mapping symbols generated by alignment frags. */ | |
8669 | bfd_map_over_sections (stdoutput, check_mapping_symbols, (char *) 0); | |
8670 | /* Now do generic ELF adjustments. */ | |
8671 | elf_adjust_symtab (); | |
8672 | #endif | |
8673 | } | |
8674 | ||
8675 | static void | |
629310ab | 8676 | checked_hash_insert (htab_t table, const char *key, void *value) |
a06ea964 | 8677 | { |
fe0e921f | 8678 | str_hash_insert (table, key, value, 0); |
a06ea964 NC |
8679 | } |
8680 | ||
fa63795f | 8681 | static void |
629310ab | 8682 | sysreg_hash_insert (htab_t table, const char *key, void *value) |
fa63795f AC |
8683 | { |
8684 | gas_assert (strlen (key) < AARCH64_MAX_SYSREG_NAME_LEN); | |
8685 | checked_hash_insert (table, key, value); | |
8686 | } | |
8687 | ||
a06ea964 NC |
8688 | static void |
8689 | fill_instruction_hash_table (void) | |
8690 | { | |
8691 | aarch64_opcode *opcode = aarch64_opcode_table; | |
8692 | ||
8693 | while (opcode->name != NULL) | |
8694 | { | |
8695 | templates *templ, *new_templ; | |
629310ab | 8696 | templ = str_hash_find (aarch64_ops_hsh, opcode->name); |
a06ea964 | 8697 | |
add39d23 | 8698 | new_templ = XNEW (templates); |
a06ea964 NC |
8699 | new_templ->opcode = opcode; |
8700 | new_templ->next = NULL; | |
8701 | ||
8702 | if (!templ) | |
8703 | checked_hash_insert (aarch64_ops_hsh, opcode->name, (void *) new_templ); | |
8704 | else | |
8705 | { | |
8706 | new_templ->next = templ->next; | |
8707 | templ->next = new_templ; | |
8708 | } | |
8709 | ++opcode; | |
8710 | } | |
8711 | } | |
8712 | ||
8713 | static inline void | |
8714 | convert_to_upper (char *dst, const char *src, size_t num) | |
8715 | { | |
8716 | unsigned int i; | |
8717 | for (i = 0; i < num && *src != '\0'; ++i, ++dst, ++src) | |
8718 | *dst = TOUPPER (*src); | |
8719 | *dst = '\0'; | |
8720 | } | |
8721 | ||
8722 | /* Assume STR point to a lower-case string, allocate, convert and return | |
8723 | the corresponding upper-case string. */ | |
8724 | static inline const char* | |
8725 | get_upper_str (const char *str) | |
8726 | { | |
8727 | char *ret; | |
8728 | size_t len = strlen (str); | |
325801bd | 8729 | ret = XNEWVEC (char, len + 1); |
a06ea964 NC |
8730 | convert_to_upper (ret, str, len); |
8731 | return ret; | |
8732 | } | |
8733 | ||
8734 | /* MD interface: Initialization. */ | |
8735 | ||
8736 | void | |
8737 | md_begin (void) | |
8738 | { | |
8739 | unsigned mach; | |
8740 | unsigned int i; | |
8741 | ||
f16c3d4f AM |
8742 | aarch64_ops_hsh = str_htab_create (); |
8743 | aarch64_cond_hsh = str_htab_create (); | |
8744 | aarch64_shift_hsh = str_htab_create (); | |
8745 | aarch64_sys_regs_hsh = str_htab_create (); | |
8746 | aarch64_pstatefield_hsh = str_htab_create (); | |
8747 | aarch64_sys_regs_ic_hsh = str_htab_create (); | |
8748 | aarch64_sys_regs_dc_hsh = str_htab_create (); | |
8749 | aarch64_sys_regs_at_hsh = str_htab_create (); | |
8750 | aarch64_sys_regs_tlbi_hsh = str_htab_create (); | |
8751 | aarch64_sys_regs_sr_hsh = str_htab_create (); | |
8752 | aarch64_reg_hsh = str_htab_create (); | |
8753 | aarch64_barrier_opt_hsh = str_htab_create (); | |
8754 | aarch64_nzcv_hsh = str_htab_create (); | |
8755 | aarch64_pldop_hsh = str_htab_create (); | |
8756 | aarch64_hint_opt_hsh = str_htab_create (); | |
a06ea964 NC |
8757 | |
8758 | fill_instruction_hash_table (); | |
8759 | ||
8760 | for (i = 0; aarch64_sys_regs[i].name != NULL; ++i) | |
fa63795f | 8761 | sysreg_hash_insert (aarch64_sys_regs_hsh, aarch64_sys_regs[i].name, |
a06ea964 NC |
8762 | (void *) (aarch64_sys_regs + i)); |
8763 | ||
8764 | for (i = 0; aarch64_pstatefields[i].name != NULL; ++i) | |
fa63795f | 8765 | sysreg_hash_insert (aarch64_pstatefield_hsh, |
a06ea964 NC |
8766 | aarch64_pstatefields[i].name, |
8767 | (void *) (aarch64_pstatefields + i)); | |
8768 | ||
875880c6 | 8769 | for (i = 0; aarch64_sys_regs_ic[i].name != NULL; i++) |
fa63795f | 8770 | sysreg_hash_insert (aarch64_sys_regs_ic_hsh, |
875880c6 | 8771 | aarch64_sys_regs_ic[i].name, |
a06ea964 NC |
8772 | (void *) (aarch64_sys_regs_ic + i)); |
8773 | ||
875880c6 | 8774 | for (i = 0; aarch64_sys_regs_dc[i].name != NULL; i++) |
fa63795f | 8775 | sysreg_hash_insert (aarch64_sys_regs_dc_hsh, |
875880c6 | 8776 | aarch64_sys_regs_dc[i].name, |
a06ea964 NC |
8777 | (void *) (aarch64_sys_regs_dc + i)); |
8778 | ||
875880c6 | 8779 | for (i = 0; aarch64_sys_regs_at[i].name != NULL; i++) |
fa63795f | 8780 | sysreg_hash_insert (aarch64_sys_regs_at_hsh, |
875880c6 | 8781 | aarch64_sys_regs_at[i].name, |
a06ea964 NC |
8782 | (void *) (aarch64_sys_regs_at + i)); |
8783 | ||
875880c6 | 8784 | for (i = 0; aarch64_sys_regs_tlbi[i].name != NULL; i++) |
fa63795f | 8785 | sysreg_hash_insert (aarch64_sys_regs_tlbi_hsh, |
875880c6 | 8786 | aarch64_sys_regs_tlbi[i].name, |
a06ea964 NC |
8787 | (void *) (aarch64_sys_regs_tlbi + i)); |
8788 | ||
2ac435d4 | 8789 | for (i = 0; aarch64_sys_regs_sr[i].name != NULL; i++) |
fa63795f | 8790 | sysreg_hash_insert (aarch64_sys_regs_sr_hsh, |
2ac435d4 SD |
8791 | aarch64_sys_regs_sr[i].name, |
8792 | (void *) (aarch64_sys_regs_sr + i)); | |
8793 | ||
a06ea964 NC |
8794 | for (i = 0; i < ARRAY_SIZE (reg_names); i++) |
8795 | checked_hash_insert (aarch64_reg_hsh, reg_names[i].name, | |
8796 | (void *) (reg_names + i)); | |
8797 | ||
8798 | for (i = 0; i < ARRAY_SIZE (nzcv_names); i++) | |
8799 | checked_hash_insert (aarch64_nzcv_hsh, nzcv_names[i].template, | |
8800 | (void *) (nzcv_names + i)); | |
8801 | ||
8802 | for (i = 0; aarch64_operand_modifiers[i].name != NULL; i++) | |
8803 | { | |
8804 | const char *name = aarch64_operand_modifiers[i].name; | |
8805 | checked_hash_insert (aarch64_shift_hsh, name, | |
8806 | (void *) (aarch64_operand_modifiers + i)); | |
8807 | /* Also hash the name in the upper case. */ | |
8808 | checked_hash_insert (aarch64_shift_hsh, get_upper_str (name), | |
8809 | (void *) (aarch64_operand_modifiers + i)); | |
8810 | } | |
8811 | ||
8812 | for (i = 0; i < ARRAY_SIZE (aarch64_conds); i++) | |
8813 | { | |
8814 | unsigned int j; | |
8815 | /* A condition code may have alias(es), e.g. "cc", "lo" and "ul" are | |
8816 | the same condition code. */ | |
8817 | for (j = 0; j < ARRAY_SIZE (aarch64_conds[i].names); ++j) | |
8818 | { | |
8819 | const char *name = aarch64_conds[i].names[j]; | |
8820 | if (name == NULL) | |
8821 | break; | |
8822 | checked_hash_insert (aarch64_cond_hsh, name, | |
8823 | (void *) (aarch64_conds + i)); | |
8824 | /* Also hash the name in the upper case. */ | |
8825 | checked_hash_insert (aarch64_cond_hsh, get_upper_str (name), | |
8826 | (void *) (aarch64_conds + i)); | |
8827 | } | |
8828 | } | |
8829 | ||
8830 | for (i = 0; i < ARRAY_SIZE (aarch64_barrier_options); i++) | |
8831 | { | |
8832 | const char *name = aarch64_barrier_options[i].name; | |
8833 | /* Skip xx00 - the unallocated values of option. */ | |
8834 | if ((i & 0x3) == 0) | |
8835 | continue; | |
8836 | checked_hash_insert (aarch64_barrier_opt_hsh, name, | |
8837 | (void *) (aarch64_barrier_options + i)); | |
8838 | /* Also hash the name in the upper case. */ | |
8839 | checked_hash_insert (aarch64_barrier_opt_hsh, get_upper_str (name), | |
8840 | (void *) (aarch64_barrier_options + i)); | |
8841 | } | |
8842 | ||
fd195909 PW |
8843 | for (i = 0; i < ARRAY_SIZE (aarch64_barrier_dsb_nxs_options); i++) |
8844 | { | |
8845 | const char *name = aarch64_barrier_dsb_nxs_options[i].name; | |
8846 | checked_hash_insert (aarch64_barrier_opt_hsh, name, | |
8847 | (void *) (aarch64_barrier_dsb_nxs_options + i)); | |
8848 | /* Also hash the name in the upper case. */ | |
8849 | checked_hash_insert (aarch64_barrier_opt_hsh, get_upper_str (name), | |
8850 | (void *) (aarch64_barrier_dsb_nxs_options + i)); | |
8851 | } | |
8852 | ||
a06ea964 NC |
8853 | for (i = 0; i < ARRAY_SIZE (aarch64_prfops); i++) |
8854 | { | |
8855 | const char* name = aarch64_prfops[i].name; | |
a1ccaec9 YZ |
8856 | /* Skip the unallocated hint encodings. */ |
8857 | if (name == NULL) | |
a06ea964 NC |
8858 | continue; |
8859 | checked_hash_insert (aarch64_pldop_hsh, name, | |
8860 | (void *) (aarch64_prfops + i)); | |
8861 | /* Also hash the name in the upper case. */ | |
8862 | checked_hash_insert (aarch64_pldop_hsh, get_upper_str (name), | |
8863 | (void *) (aarch64_prfops + i)); | |
8864 | } | |
8865 | ||
1e6f4800 MW |
8866 | for (i = 0; aarch64_hint_options[i].name != NULL; i++) |
8867 | { | |
8868 | const char* name = aarch64_hint_options[i].name; | |
0a821c4f | 8869 | const char* upper_name = get_upper_str(name); |
1e6f4800 MW |
8870 | |
8871 | checked_hash_insert (aarch64_hint_opt_hsh, name, | |
8872 | (void *) (aarch64_hint_options + i)); | |
0a821c4f AP |
8873 | |
8874 | /* Also hash the name in the upper case if not the same. */ | |
8875 | if (strcmp (name, upper_name) != 0) | |
8876 | checked_hash_insert (aarch64_hint_opt_hsh, upper_name, | |
8877 | (void *) (aarch64_hint_options + i)); | |
1e6f4800 MW |
8878 | } |
8879 | ||
a06ea964 NC |
8880 | /* Set the cpu variant based on the command-line options. */ |
8881 | if (!mcpu_cpu_opt) | |
8882 | mcpu_cpu_opt = march_cpu_opt; | |
8883 | ||
8884 | if (!mcpu_cpu_opt) | |
8885 | mcpu_cpu_opt = &cpu_default; | |
8886 | ||
8887 | cpu_variant = *mcpu_cpu_opt; | |
8888 | ||
8889 | /* Record the CPU type. */ | |
cec5225b | 8890 | mach = ilp32_p ? bfd_mach_aarch64_ilp32 : bfd_mach_aarch64; |
a06ea964 NC |
8891 | |
8892 | bfd_set_arch_mach (stdoutput, TARGET_ARCH, mach); | |
8893 | } | |
8894 | ||
8895 | /* Command line processing. */ | |
8896 | ||
8897 | const char *md_shortopts = "m:"; | |
8898 | ||
8899 | #ifdef AARCH64_BI_ENDIAN | |
8900 | #define OPTION_EB (OPTION_MD_BASE + 0) | |
8901 | #define OPTION_EL (OPTION_MD_BASE + 1) | |
8902 | #else | |
8903 | #if TARGET_BYTES_BIG_ENDIAN | |
8904 | #define OPTION_EB (OPTION_MD_BASE + 0) | |
8905 | #else | |
8906 | #define OPTION_EL (OPTION_MD_BASE + 1) | |
8907 | #endif | |
8908 | #endif | |
8909 | ||
8910 | struct option md_longopts[] = { | |
8911 | #ifdef OPTION_EB | |
8912 | {"EB", no_argument, NULL, OPTION_EB}, | |
8913 | #endif | |
8914 | #ifdef OPTION_EL | |
8915 | {"EL", no_argument, NULL, OPTION_EL}, | |
8916 | #endif | |
8917 | {NULL, no_argument, NULL, 0} | |
8918 | }; | |
8919 | ||
8920 | size_t md_longopts_size = sizeof (md_longopts); | |
8921 | ||
8922 | struct aarch64_option_table | |
8923 | { | |
e0471c16 TS |
8924 | const char *option; /* Option name to match. */ |
8925 | const char *help; /* Help information. */ | |
a06ea964 NC |
8926 | int *var; /* Variable to change. */ |
8927 | int value; /* What to change it to. */ | |
8928 | char *deprecated; /* If non-null, print this message. */ | |
8929 | }; | |
8930 | ||
8931 | static struct aarch64_option_table aarch64_opts[] = { | |
8932 | {"mbig-endian", N_("assemble for big-endian"), &target_big_endian, 1, NULL}, | |
8933 | {"mlittle-endian", N_("assemble for little-endian"), &target_big_endian, 0, | |
8934 | NULL}, | |
8935 | #ifdef DEBUG_AARCH64 | |
8936 | {"mdebug-dump", N_("temporary switch for dumping"), &debug_dump, 1, NULL}, | |
8937 | #endif /* DEBUG_AARCH64 */ | |
8938 | {"mverbose-error", N_("output verbose error messages"), &verbose_error_p, 1, | |
8939 | NULL}, | |
a52e6fd3 YZ |
8940 | {"mno-verbose-error", N_("do not output verbose error messages"), |
8941 | &verbose_error_p, 0, NULL}, | |
a06ea964 NC |
8942 | {NULL, NULL, NULL, 0, NULL} |
8943 | }; | |
8944 | ||
8945 | struct aarch64_cpu_option_table | |
8946 | { | |
e0471c16 | 8947 | const char *name; |
a06ea964 NC |
8948 | const aarch64_feature_set value; |
8949 | /* The canonical name of the CPU, or NULL to use NAME converted to upper | |
8950 | case. */ | |
8951 | const char *canonical_name; | |
8952 | }; | |
8953 | ||
8954 | /* This list should, at a minimum, contain all the cpu names | |
8955 | recognized by GCC. */ | |
8956 | static const struct aarch64_cpu_option_table aarch64_cpus[] = { | |
8957 | {"all", AARCH64_ANY, NULL}, | |
546053ac DZ |
8958 | {"cortex-a34", AARCH64_FEATURE (AARCH64_ARCH_V8, |
8959 | AARCH64_FEATURE_CRC), "Cortex-A34"}, | |
9c352f1c JG |
8960 | {"cortex-a35", AARCH64_FEATURE (AARCH64_ARCH_V8, |
8961 | AARCH64_FEATURE_CRC), "Cortex-A35"}, | |
aa31c464 JW |
8962 | {"cortex-a53", AARCH64_FEATURE (AARCH64_ARCH_V8, |
8963 | AARCH64_FEATURE_CRC), "Cortex-A53"}, | |
8964 | {"cortex-a57", AARCH64_FEATURE (AARCH64_ARCH_V8, | |
8965 | AARCH64_FEATURE_CRC), "Cortex-A57"}, | |
2abdd192 JW |
8966 | {"cortex-a72", AARCH64_FEATURE (AARCH64_ARCH_V8, |
8967 | AARCH64_FEATURE_CRC), "Cortex-A72"}, | |
1aa70332 KT |
8968 | {"cortex-a73", AARCH64_FEATURE (AARCH64_ARCH_V8, |
8969 | AARCH64_FEATURE_CRC), "Cortex-A73"}, | |
1e292627 | 8970 | {"cortex-a55", AARCH64_FEATURE (AARCH64_ARCH_V8_2, |
1c5c938a | 8971 | AARCH64_FEATURE_RCPC | AARCH64_FEATURE_F16 | AARCH64_FEATURE_DOTPROD), |
1e292627 JG |
8972 | "Cortex-A55"}, |
8973 | {"cortex-a75", AARCH64_FEATURE (AARCH64_ARCH_V8_2, | |
1c5c938a | 8974 | AARCH64_FEATURE_RCPC | AARCH64_FEATURE_F16 | AARCH64_FEATURE_DOTPROD), |
1e292627 | 8975 | "Cortex-A75"}, |
c2a0f929 | 8976 | {"cortex-a76", AARCH64_FEATURE (AARCH64_ARCH_V8_2, |
8977 | AARCH64_FEATURE_RCPC | AARCH64_FEATURE_F16 | AARCH64_FEATURE_DOTPROD), | |
8978 | "Cortex-A76"}, | |
546053ac DZ |
8979 | {"cortex-a76ae", AARCH64_FEATURE (AARCH64_ARCH_V8_2, |
8980 | AARCH64_FEATURE_F16 | AARCH64_FEATURE_RCPC | |
8981 | | AARCH64_FEATURE_DOTPROD | |
8982 | | AARCH64_FEATURE_SSBS), | |
8983 | "Cortex-A76AE"}, | |
8984 | {"cortex-a77", AARCH64_FEATURE (AARCH64_ARCH_V8_2, | |
8985 | AARCH64_FEATURE_F16 | AARCH64_FEATURE_RCPC | |
8986 | | AARCH64_FEATURE_DOTPROD | |
8987 | | AARCH64_FEATURE_SSBS), | |
8988 | "Cortex-A77"}, | |
8989 | {"cortex-a65", AARCH64_FEATURE (AARCH64_ARCH_V8_2, | |
8990 | AARCH64_FEATURE_F16 | AARCH64_FEATURE_RCPC | |
8991 | | AARCH64_FEATURE_DOTPROD | |
8992 | | AARCH64_FEATURE_SSBS), | |
8993 | "Cortex-A65"}, | |
8994 | {"cortex-a65ae", AARCH64_FEATURE (AARCH64_ARCH_V8_2, | |
8995 | AARCH64_FEATURE_F16 | AARCH64_FEATURE_RCPC | |
8996 | | AARCH64_FEATURE_DOTPROD | |
8997 | | AARCH64_FEATURE_SSBS), | |
8998 | "Cortex-A65AE"}, | |
77718e5b PW |
8999 | {"cortex-a78", AARCH64_FEATURE (AARCH64_ARCH_V8_2, |
9000 | AARCH64_FEATURE_F16 | |
9001 | | AARCH64_FEATURE_RCPC | |
9002 | | AARCH64_FEATURE_DOTPROD | |
9003 | | AARCH64_FEATURE_SSBS | |
9004 | | AARCH64_FEATURE_PROFILE), | |
9005 | "Cortex-A78"}, | |
9006 | {"cortex-a78ae", AARCH64_FEATURE (AARCH64_ARCH_V8_2, | |
9007 | AARCH64_FEATURE_F16 | |
9008 | | AARCH64_FEATURE_RCPC | |
9009 | | AARCH64_FEATURE_DOTPROD | |
9010 | | AARCH64_FEATURE_SSBS | |
9011 | | AARCH64_FEATURE_PROFILE), | |
9012 | "Cortex-A78AE"}, | |
a3a02fe8 PW |
9013 | {"cortex-a78c", AARCH64_FEATURE (AARCH64_ARCH_V8_2, |
9014 | AARCH64_FEATURE_DOTPROD | |
9015 | | AARCH64_FEATURE_F16 | |
9016 | | AARCH64_FEATURE_FLAGM | |
9017 | | AARCH64_FEATURE_PAC | |
9018 | | AARCH64_FEATURE_PROFILE | |
9019 | | AARCH64_FEATURE_RCPC | |
9020 | | AARCH64_FEATURE_SSBS), | |
9021 | "Cortex-A78C"}, | |
c8fcc360 KT |
9022 | {"ares", AARCH64_FEATURE (AARCH64_ARCH_V8_2, |
9023 | AARCH64_FEATURE_RCPC | AARCH64_FEATURE_F16 | |
9024 | | AARCH64_FEATURE_DOTPROD | |
9025 | | AARCH64_FEATURE_PROFILE), | |
9026 | "Ares"}, | |
2412d878 EM |
9027 | {"exynos-m1", AARCH64_FEATURE (AARCH64_ARCH_V8, |
9028 | AARCH64_FEATURE_CRC | AARCH64_FEATURE_CRYPTO), | |
9029 | "Samsung Exynos M1"}, | |
2fe9c2a0 | 9030 | {"falkor", AARCH64_FEATURE (AARCH64_ARCH_V8, |
e58ff055 JW |
9031 | AARCH64_FEATURE_CRC | AARCH64_FEATURE_CRYPTO |
9032 | | AARCH64_FEATURE_RDMA), | |
2fe9c2a0 | 9033 | "Qualcomm Falkor"}, |
516dbc44 KT |
9034 | {"neoverse-e1", AARCH64_FEATURE (AARCH64_ARCH_V8_2, |
9035 | AARCH64_FEATURE_RCPC | AARCH64_FEATURE_F16 | |
9036 | | AARCH64_FEATURE_DOTPROD | |
9037 | | AARCH64_FEATURE_SSBS), | |
9038 | "Neoverse E1"}, | |
38e75bf2 KT |
9039 | {"neoverse-n1", AARCH64_FEATURE (AARCH64_ARCH_V8_2, |
9040 | AARCH64_FEATURE_RCPC | AARCH64_FEATURE_F16 | |
9041 | | AARCH64_FEATURE_DOTPROD | |
9042 | | AARCH64_FEATURE_PROFILE), | |
9043 | "Neoverse N1"}, | |
990e5268 AC |
9044 | {"neoverse-n2", AARCH64_FEATURE (AARCH64_ARCH_V8_5, |
9045 | AARCH64_FEATURE_BFLOAT16 | |
9046 | | AARCH64_FEATURE_I8MM | |
9047 | | AARCH64_FEATURE_F16 | |
9048 | | AARCH64_FEATURE_SVE | |
9049 | | AARCH64_FEATURE_SVE2 | |
9050 | | AARCH64_FEATURE_SVE2_BITPERM | |
9051 | | AARCH64_FEATURE_MEMTAG | |
9052 | | AARCH64_FEATURE_RNG), | |
9053 | "Neoverse N2"}, | |
c769fd6a AC |
9054 | {"neoverse-v1", AARCH64_FEATURE (AARCH64_ARCH_V8_4, |
9055 | AARCH64_FEATURE_PROFILE | |
9056 | | AARCH64_FEATURE_CVADP | |
9057 | | AARCH64_FEATURE_SVE | |
9058 | | AARCH64_FEATURE_SSBS | |
9059 | | AARCH64_FEATURE_RNG | |
9060 | | AARCH64_FEATURE_F16 | |
9061 | | AARCH64_FEATURE_BFLOAT16 | |
9062 | | AARCH64_FEATURE_I8MM), "Neoverse V1"}, | |
6b21c2bf | 9063 | {"qdf24xx", AARCH64_FEATURE (AARCH64_ARCH_V8, |
e58ff055 JW |
9064 | AARCH64_FEATURE_CRC | AARCH64_FEATURE_CRYPTO |
9065 | | AARCH64_FEATURE_RDMA), | |
6b21c2bf | 9066 | "Qualcomm QDF24XX"}, |
eb5c42e5 | 9067 | {"saphira", AARCH64_FEATURE (AARCH64_ARCH_V8_4, |
7605d944 SP |
9068 | AARCH64_FEATURE_CRYPTO | AARCH64_FEATURE_PROFILE), |
9069 | "Qualcomm Saphira"}, | |
faade851 JW |
9070 | {"thunderx", AARCH64_FEATURE (AARCH64_ARCH_V8, |
9071 | AARCH64_FEATURE_CRC | AARCH64_FEATURE_CRYPTO), | |
9072 | "Cavium ThunderX"}, | |
9f99c22e VP |
9073 | {"vulcan", AARCH64_FEATURE (AARCH64_ARCH_V8_1, |
9074 | AARCH64_FEATURE_CRYPTO), | |
0a8be2fe | 9075 | "Broadcom Vulcan"}, |
070cb956 PT |
9076 | /* The 'xgene-1' name is an older name for 'xgene1', which was used |
9077 | in earlier releases and is superseded by 'xgene1' in all | |
9078 | tools. */ | |
9877c63c | 9079 | {"xgene-1", AARCH64_ARCH_V8, "APM X-Gene 1"}, |
070cb956 | 9080 | {"xgene1", AARCH64_ARCH_V8, "APM X-Gene 1"}, |
aa31c464 JW |
9081 | {"xgene2", AARCH64_FEATURE (AARCH64_ARCH_V8, |
9082 | AARCH64_FEATURE_CRC), "APM X-Gene 2"}, | |
f1363b0f | 9083 | {"cortex-r82", AARCH64_ARCH_V8_R, "Cortex-R82"}, |
47e1f9de | 9084 | {"cortex-x1", AARCH64_FEATURE (AARCH64_ARCH_V8_2, |
f9b1d75e PW |
9085 | AARCH64_FEATURE_F16 |
9086 | | AARCH64_FEATURE_RCPC | |
9087 | | AARCH64_FEATURE_DOTPROD | |
9088 | | AARCH64_FEATURE_SSBS | |
9089 | | AARCH64_FEATURE_PROFILE), | |
9090 | "Cortex-X1"}, | |
a06ea964 NC |
9091 | {"generic", AARCH64_ARCH_V8, NULL}, |
9092 | ||
a06ea964 NC |
9093 | {NULL, AARCH64_ARCH_NONE, NULL} |
9094 | }; | |
9095 | ||
9096 | struct aarch64_arch_option_table | |
9097 | { | |
e0471c16 | 9098 | const char *name; |
a06ea964 NC |
9099 | const aarch64_feature_set value; |
9100 | }; | |
9101 | ||
9102 | /* This list should, at a minimum, contain all the architecture names | |
9103 | recognized by GCC. */ | |
9104 | static const struct aarch64_arch_option_table aarch64_archs[] = { | |
9105 | {"all", AARCH64_ANY}, | |
5a1ad39d | 9106 | {"armv8-a", AARCH64_ARCH_V8}, |
88f0ea34 | 9107 | {"armv8.1-a", AARCH64_ARCH_V8_1}, |
acb787b0 | 9108 | {"armv8.2-a", AARCH64_ARCH_V8_2}, |
1924ff75 | 9109 | {"armv8.3-a", AARCH64_ARCH_V8_3}, |
b6b9ca0c | 9110 | {"armv8.4-a", AARCH64_ARCH_V8_4}, |
70d56181 | 9111 | {"armv8.5-a", AARCH64_ARCH_V8_5}, |
8ae2d3d9 | 9112 | {"armv8.6-a", AARCH64_ARCH_V8_6}, |
8926e54e | 9113 | {"armv8.7-a", AARCH64_ARCH_V8_7}, |
95830c98 | 9114 | {"armv8-r", AARCH64_ARCH_V8_R}, |
a06ea964 NC |
9115 | {NULL, AARCH64_ARCH_NONE} |
9116 | }; | |
9117 | ||
9118 | /* ISA extensions. */ | |
9119 | struct aarch64_option_cpu_value_table | |
9120 | { | |
e0471c16 | 9121 | const char *name; |
a06ea964 | 9122 | const aarch64_feature_set value; |
93d8990c | 9123 | const aarch64_feature_set require; /* Feature dependencies. */ |
a06ea964 NC |
9124 | }; |
9125 | ||
9126 | static const struct aarch64_option_cpu_value_table aarch64_features[] = { | |
93d8990c SN |
9127 | {"crc", AARCH64_FEATURE (AARCH64_FEATURE_CRC, 0), |
9128 | AARCH64_ARCH_NONE}, | |
2dc4b12f | 9129 | {"crypto", AARCH64_FEATURE (AARCH64_FEATURE_CRYPTO, 0), |
fa09f4ea | 9130 | AARCH64_FEATURE (AARCH64_FEATURE_SIMD, 0)}, |
93d8990c SN |
9131 | {"fp", AARCH64_FEATURE (AARCH64_FEATURE_FP, 0), |
9132 | AARCH64_ARCH_NONE}, | |
9133 | {"lse", AARCH64_FEATURE (AARCH64_FEATURE_LSE, 0), | |
9134 | AARCH64_ARCH_NONE}, | |
9135 | {"simd", AARCH64_FEATURE (AARCH64_FEATURE_SIMD, 0), | |
fa09f4ea | 9136 | AARCH64_FEATURE (AARCH64_FEATURE_FP, 0)}, |
93d8990c SN |
9137 | {"pan", AARCH64_FEATURE (AARCH64_FEATURE_PAN, 0), |
9138 | AARCH64_ARCH_NONE}, | |
9139 | {"lor", AARCH64_FEATURE (AARCH64_FEATURE_LOR, 0), | |
9140 | AARCH64_ARCH_NONE}, | |
9141 | {"ras", AARCH64_FEATURE (AARCH64_FEATURE_RAS, 0), | |
9142 | AARCH64_ARCH_NONE}, | |
9143 | {"rdma", AARCH64_FEATURE (AARCH64_FEATURE_RDMA, 0), | |
9144 | AARCH64_FEATURE (AARCH64_FEATURE_SIMD, 0)}, | |
9145 | {"fp16", AARCH64_FEATURE (AARCH64_FEATURE_F16, 0), | |
9146 | AARCH64_FEATURE (AARCH64_FEATURE_FP, 0)}, | |
d0f7791c TC |
9147 | {"fp16fml", AARCH64_FEATURE (AARCH64_FEATURE_F16_FML, 0), |
9148 | AARCH64_FEATURE (AARCH64_FEATURE_FP | |
9149 | | AARCH64_FEATURE_F16, 0)}, | |
93d8990c SN |
9150 | {"profile", AARCH64_FEATURE (AARCH64_FEATURE_PROFILE, 0), |
9151 | AARCH64_ARCH_NONE}, | |
c0890d26 | 9152 | {"sve", AARCH64_FEATURE (AARCH64_FEATURE_SVE, 0), |
582e12bf RS |
9153 | AARCH64_FEATURE (AARCH64_FEATURE_F16 |
9154 | | AARCH64_FEATURE_SIMD | |
9155 | | AARCH64_FEATURE_COMPNUM, 0)}, | |
b83b4b13 SD |
9156 | {"tme", AARCH64_FEATURE (AARCH64_FEATURE_TME, 0), |
9157 | AARCH64_ARCH_NONE}, | |
f482d304 RS |
9158 | {"compnum", AARCH64_FEATURE (AARCH64_FEATURE_COMPNUM, 0), |
9159 | AARCH64_FEATURE (AARCH64_FEATURE_F16 | |
9160 | | AARCH64_FEATURE_SIMD, 0)}, | |
d74d4880 SN |
9161 | {"rcpc", AARCH64_FEATURE (AARCH64_FEATURE_RCPC, 0), |
9162 | AARCH64_ARCH_NONE}, | |
65a55fbb TC |
9163 | {"dotprod", AARCH64_FEATURE (AARCH64_FEATURE_DOTPROD, 0), |
9164 | AARCH64_ARCH_NONE}, | |
c0e7cef7 NC |
9165 | {"sha2", AARCH64_FEATURE (AARCH64_FEATURE_SHA2, 0), |
9166 | AARCH64_ARCH_NONE}, | |
68dfbb92 SD |
9167 | {"sb", AARCH64_FEATURE (AARCH64_FEATURE_SB, 0), |
9168 | AARCH64_ARCH_NONE}, | |
2ac435d4 SD |
9169 | {"predres", AARCH64_FEATURE (AARCH64_FEATURE_PREDRES, 0), |
9170 | AARCH64_ARCH_NONE}, | |
c0e7cef7 NC |
9171 | {"aes", AARCH64_FEATURE (AARCH64_FEATURE_AES, 0), |
9172 | AARCH64_ARCH_NONE}, | |
b6b9ca0c TC |
9173 | {"sm4", AARCH64_FEATURE (AARCH64_FEATURE_SM4, 0), |
9174 | AARCH64_ARCH_NONE}, | |
d4340f89 JB |
9175 | {"sha3", AARCH64_FEATURE (AARCH64_FEATURE_SHA3, 0), |
9176 | AARCH64_FEATURE (AARCH64_FEATURE_SHA2, 0)}, | |
af4bcb4c SD |
9177 | {"rng", AARCH64_FEATURE (AARCH64_FEATURE_RNG, 0), |
9178 | AARCH64_ARCH_NONE}, | |
104fefee SD |
9179 | {"ssbs", AARCH64_FEATURE (AARCH64_FEATURE_SSBS, 0), |
9180 | AARCH64_ARCH_NONE}, | |
73b605ec SD |
9181 | {"memtag", AARCH64_FEATURE (AARCH64_FEATURE_MEMTAG, 0), |
9182 | AARCH64_ARCH_NONE}, | |
7ce2460a MM |
9183 | {"sve2", AARCH64_FEATURE (AARCH64_FEATURE_SVE2, 0), |
9184 | AARCH64_FEATURE (AARCH64_FEATURE_SVE, 0)}, | |
9185 | {"sve2-sm4", AARCH64_FEATURE (AARCH64_FEATURE_SVE2_SM4, 0), | |
9186 | AARCH64_FEATURE (AARCH64_FEATURE_SVE2 | |
9187 | | AARCH64_FEATURE_SM4, 0)}, | |
9188 | {"sve2-aes", AARCH64_FEATURE (AARCH64_FEATURE_SVE2_AES, 0), | |
9189 | AARCH64_FEATURE (AARCH64_FEATURE_SVE2 | |
9190 | | AARCH64_FEATURE_AES, 0)}, | |
9191 | {"sve2-sha3", AARCH64_FEATURE (AARCH64_FEATURE_SVE2_SHA3, 0), | |
9192 | AARCH64_FEATURE (AARCH64_FEATURE_SVE2 | |
9193 | | AARCH64_FEATURE_SHA3, 0)}, | |
ccbdd22f | 9194 | {"sve2-bitperm", AARCH64_FEATURE (AARCH64_FEATURE_SVE2_BITPERM, 0), |
7ce2460a | 9195 | AARCH64_FEATURE (AARCH64_FEATURE_SVE2, 0)}, |
df678013 MM |
9196 | {"bf16", AARCH64_FEATURE (AARCH64_FEATURE_BFLOAT16, 0), |
9197 | AARCH64_ARCH_NONE}, | |
8382113f MM |
9198 | {"i8mm", AARCH64_FEATURE (AARCH64_FEATURE_I8MM, 0), |
9199 | AARCH64_ARCH_NONE}, | |
9200 | {"f32mm", AARCH64_FEATURE (AARCH64_FEATURE_F32MM, 0), | |
82e9597c | 9201 | AARCH64_FEATURE (AARCH64_FEATURE_SVE, 0)}, |
8382113f | 9202 | {"f64mm", AARCH64_FEATURE (AARCH64_FEATURE_F64MM, 0), |
82e9597c | 9203 | AARCH64_FEATURE (AARCH64_FEATURE_SVE, 0)}, |
fd65497d PW |
9204 | {"ls64", AARCH64_FEATURE (AARCH64_FEATURE_LS64, 0), |
9205 | AARCH64_ARCH_NONE}, | |
e64441b1 PW |
9206 | {"flagm", AARCH64_FEATURE (AARCH64_FEATURE_FLAGM, 0), |
9207 | AARCH64_ARCH_NONE}, | |
3f4ff088 PW |
9208 | {"pauth", AARCH64_FEATURE (AARCH64_FEATURE_PAC, 0), |
9209 | AARCH64_ARCH_NONE}, | |
93d8990c | 9210 | {NULL, AARCH64_ARCH_NONE, AARCH64_ARCH_NONE}, |
a06ea964 NC |
9211 | }; |
9212 | ||
9213 | struct aarch64_long_option_table | |
9214 | { | |
e0471c16 TS |
9215 | const char *option; /* Substring to match. */ |
9216 | const char *help; /* Help information. */ | |
17b9d67d | 9217 | int (*func) (const char *subopt); /* Function to decode sub-option. */ |
a06ea964 NC |
9218 | char *deprecated; /* If non-null, print this message. */ |
9219 | }; | |
9220 | ||
93d8990c SN |
9221 | /* Transitive closure of features depending on set. */ |
9222 | static aarch64_feature_set | |
9223 | aarch64_feature_disable_set (aarch64_feature_set set) | |
9224 | { | |
9225 | const struct aarch64_option_cpu_value_table *opt; | |
9226 | aarch64_feature_set prev = 0; | |
9227 | ||
9228 | while (prev != set) { | |
9229 | prev = set; | |
9230 | for (opt = aarch64_features; opt->name != NULL; opt++) | |
9231 | if (AARCH64_CPU_HAS_ANY_FEATURES (opt->require, set)) | |
9232 | AARCH64_MERGE_FEATURE_SETS (set, set, opt->value); | |
9233 | } | |
9234 | return set; | |
9235 | } | |
9236 | ||
9237 | /* Transitive closure of dependencies of set. */ | |
9238 | static aarch64_feature_set | |
9239 | aarch64_feature_enable_set (aarch64_feature_set set) | |
9240 | { | |
9241 | const struct aarch64_option_cpu_value_table *opt; | |
9242 | aarch64_feature_set prev = 0; | |
9243 | ||
9244 | while (prev != set) { | |
9245 | prev = set; | |
9246 | for (opt = aarch64_features; opt->name != NULL; opt++) | |
9247 | if (AARCH64_CPU_HAS_FEATURE (set, opt->value)) | |
9248 | AARCH64_MERGE_FEATURE_SETS (set, set, opt->require); | |
9249 | } | |
9250 | return set; | |
9251 | } | |
9252 | ||
a06ea964 | 9253 | static int |
82b8a785 | 9254 | aarch64_parse_features (const char *str, const aarch64_feature_set **opt_p, |
ae527cd8 | 9255 | bfd_boolean ext_only) |
a06ea964 NC |
9256 | { |
9257 | /* We insist on extensions being added before being removed. We achieve | |
9258 | this by using the ADDING_VALUE variable to indicate whether we are | |
9259 | adding an extension (1) or removing it (0) and only allowing it to | |
9260 | change in the order -1 -> 1 -> 0. */ | |
9261 | int adding_value = -1; | |
325801bd | 9262 | aarch64_feature_set *ext_set = XNEW (aarch64_feature_set); |
a06ea964 NC |
9263 | |
9264 | /* Copy the feature set, so that we can modify it. */ | |
9265 | *ext_set = **opt_p; | |
9266 | *opt_p = ext_set; | |
9267 | ||
9268 | while (str != NULL && *str != 0) | |
9269 | { | |
9270 | const struct aarch64_option_cpu_value_table *opt; | |
82b8a785 | 9271 | const char *ext = NULL; |
a06ea964 NC |
9272 | int optlen; |
9273 | ||
ae527cd8 | 9274 | if (!ext_only) |
a06ea964 | 9275 | { |
ae527cd8 JB |
9276 | if (*str != '+') |
9277 | { | |
9278 | as_bad (_("invalid architectural extension")); | |
9279 | return 0; | |
9280 | } | |
a06ea964 | 9281 | |
ae527cd8 JB |
9282 | ext = strchr (++str, '+'); |
9283 | } | |
a06ea964 NC |
9284 | |
9285 | if (ext != NULL) | |
9286 | optlen = ext - str; | |
9287 | else | |
9288 | optlen = strlen (str); | |
9289 | ||
9290 | if (optlen >= 2 && strncmp (str, "no", 2) == 0) | |
9291 | { | |
9292 | if (adding_value != 0) | |
9293 | adding_value = 0; | |
9294 | optlen -= 2; | |
9295 | str += 2; | |
9296 | } | |
9297 | else if (optlen > 0) | |
9298 | { | |
9299 | if (adding_value == -1) | |
9300 | adding_value = 1; | |
9301 | else if (adding_value != 1) | |
9302 | { | |
9303 | as_bad (_("must specify extensions to add before specifying " | |
9304 | "those to remove")); | |
9305 | return FALSE; | |
9306 | } | |
9307 | } | |
9308 | ||
9309 | if (optlen == 0) | |
9310 | { | |
9311 | as_bad (_("missing architectural extension")); | |
9312 | return 0; | |
9313 | } | |
9314 | ||
9315 | gas_assert (adding_value != -1); | |
9316 | ||
9317 | for (opt = aarch64_features; opt->name != NULL; opt++) | |
9318 | if (strncmp (opt->name, str, optlen) == 0) | |
9319 | { | |
93d8990c SN |
9320 | aarch64_feature_set set; |
9321 | ||
a06ea964 NC |
9322 | /* Add or remove the extension. */ |
9323 | if (adding_value) | |
93d8990c SN |
9324 | { |
9325 | set = aarch64_feature_enable_set (opt->value); | |
9326 | AARCH64_MERGE_FEATURE_SETS (*ext_set, *ext_set, set); | |
9327 | } | |
a06ea964 | 9328 | else |
93d8990c SN |
9329 | { |
9330 | set = aarch64_feature_disable_set (opt->value); | |
9331 | AARCH64_CLEAR_FEATURE (*ext_set, *ext_set, set); | |
9332 | } | |
a06ea964 NC |
9333 | break; |
9334 | } | |
9335 | ||
9336 | if (opt->name == NULL) | |
9337 | { | |
9338 | as_bad (_("unknown architectural extension `%s'"), str); | |
9339 | return 0; | |
9340 | } | |
9341 | ||
9342 | str = ext; | |
9343 | }; | |
9344 | ||
9345 | return 1; | |
9346 | } | |
9347 | ||
9348 | static int | |
17b9d67d | 9349 | aarch64_parse_cpu (const char *str) |
a06ea964 NC |
9350 | { |
9351 | const struct aarch64_cpu_option_table *opt; | |
82b8a785 | 9352 | const char *ext = strchr (str, '+'); |
a06ea964 NC |
9353 | size_t optlen; |
9354 | ||
9355 | if (ext != NULL) | |
9356 | optlen = ext - str; | |
9357 | else | |
9358 | optlen = strlen (str); | |
9359 | ||
9360 | if (optlen == 0) | |
9361 | { | |
9362 | as_bad (_("missing cpu name `%s'"), str); | |
9363 | return 0; | |
9364 | } | |
9365 | ||
9366 | for (opt = aarch64_cpus; opt->name != NULL; opt++) | |
9367 | if (strlen (opt->name) == optlen && strncmp (str, opt->name, optlen) == 0) | |
9368 | { | |
9369 | mcpu_cpu_opt = &opt->value; | |
9370 | if (ext != NULL) | |
ae527cd8 | 9371 | return aarch64_parse_features (ext, &mcpu_cpu_opt, FALSE); |
a06ea964 NC |
9372 | |
9373 | return 1; | |
9374 | } | |
9375 | ||
9376 | as_bad (_("unknown cpu `%s'"), str); | |
9377 | return 0; | |
9378 | } | |
9379 | ||
9380 | static int | |
17b9d67d | 9381 | aarch64_parse_arch (const char *str) |
a06ea964 NC |
9382 | { |
9383 | const struct aarch64_arch_option_table *opt; | |
82b8a785 | 9384 | const char *ext = strchr (str, '+'); |
a06ea964 NC |
9385 | size_t optlen; |
9386 | ||
9387 | if (ext != NULL) | |
9388 | optlen = ext - str; | |
9389 | else | |
9390 | optlen = strlen (str); | |
9391 | ||
9392 | if (optlen == 0) | |
9393 | { | |
9394 | as_bad (_("missing architecture name `%s'"), str); | |
9395 | return 0; | |
9396 | } | |
9397 | ||
9398 | for (opt = aarch64_archs; opt->name != NULL; opt++) | |
9399 | if (strlen (opt->name) == optlen && strncmp (str, opt->name, optlen) == 0) | |
9400 | { | |
9401 | march_cpu_opt = &opt->value; | |
9402 | if (ext != NULL) | |
ae527cd8 | 9403 | return aarch64_parse_features (ext, &march_cpu_opt, FALSE); |
a06ea964 NC |
9404 | |
9405 | return 1; | |
9406 | } | |
9407 | ||
9408 | as_bad (_("unknown architecture `%s'\n"), str); | |
9409 | return 0; | |
9410 | } | |
9411 | ||
69091a2c YZ |
9412 | /* ABIs. */ |
9413 | struct aarch64_option_abi_value_table | |
9414 | { | |
e0471c16 | 9415 | const char *name; |
69091a2c YZ |
9416 | enum aarch64_abi_type value; |
9417 | }; | |
9418 | ||
9419 | static const struct aarch64_option_abi_value_table aarch64_abis[] = { | |
9420 | {"ilp32", AARCH64_ABI_ILP32}, | |
9421 | {"lp64", AARCH64_ABI_LP64}, | |
69091a2c YZ |
9422 | }; |
9423 | ||
9424 | static int | |
17b9d67d | 9425 | aarch64_parse_abi (const char *str) |
69091a2c | 9426 | { |
5703197e | 9427 | unsigned int i; |
69091a2c | 9428 | |
5703197e | 9429 | if (str[0] == '\0') |
69091a2c YZ |
9430 | { |
9431 | as_bad (_("missing abi name `%s'"), str); | |
9432 | return 0; | |
9433 | } | |
9434 | ||
5703197e TS |
9435 | for (i = 0; i < ARRAY_SIZE (aarch64_abis); i++) |
9436 | if (strcmp (str, aarch64_abis[i].name) == 0) | |
69091a2c | 9437 | { |
5703197e | 9438 | aarch64_abi = aarch64_abis[i].value; |
69091a2c YZ |
9439 | return 1; |
9440 | } | |
9441 | ||
9442 | as_bad (_("unknown abi `%s'\n"), str); | |
9443 | return 0; | |
9444 | } | |
9445 | ||
a06ea964 | 9446 | static struct aarch64_long_option_table aarch64_long_opts[] = { |
69091a2c YZ |
9447 | #ifdef OBJ_ELF |
9448 | {"mabi=", N_("<abi name>\t specify for ABI <abi name>"), | |
9449 | aarch64_parse_abi, NULL}, | |
9450 | #endif /* OBJ_ELF */ | |
a06ea964 NC |
9451 | {"mcpu=", N_("<cpu name>\t assemble for CPU <cpu name>"), |
9452 | aarch64_parse_cpu, NULL}, | |
9453 | {"march=", N_("<arch name>\t assemble for architecture <arch name>"), | |
9454 | aarch64_parse_arch, NULL}, | |
9455 | {NULL, NULL, 0, NULL} | |
9456 | }; | |
9457 | ||
9458 | int | |
17b9d67d | 9459 | md_parse_option (int c, const char *arg) |
a06ea964 NC |
9460 | { |
9461 | struct aarch64_option_table *opt; | |
9462 | struct aarch64_long_option_table *lopt; | |
9463 | ||
9464 | switch (c) | |
9465 | { | |
9466 | #ifdef OPTION_EB | |
9467 | case OPTION_EB: | |
9468 | target_big_endian = 1; | |
9469 | break; | |
9470 | #endif | |
9471 | ||
9472 | #ifdef OPTION_EL | |
9473 | case OPTION_EL: | |
9474 | target_big_endian = 0; | |
9475 | break; | |
9476 | #endif | |
9477 | ||
9478 | case 'a': | |
9479 | /* Listing option. Just ignore these, we don't support additional | |
9480 | ones. */ | |
9481 | return 0; | |
9482 | ||
9483 | default: | |
9484 | for (opt = aarch64_opts; opt->option != NULL; opt++) | |
9485 | { | |
9486 | if (c == opt->option[0] | |
9487 | && ((arg == NULL && opt->option[1] == 0) | |
9488 | || streq (arg, opt->option + 1))) | |
9489 | { | |
9490 | /* If the option is deprecated, tell the user. */ | |
9491 | if (opt->deprecated != NULL) | |
9492 | as_tsktsk (_("option `-%c%s' is deprecated: %s"), c, | |
9493 | arg ? arg : "", _(opt->deprecated)); | |
9494 | ||
9495 | if (opt->var != NULL) | |
9496 | *opt->var = opt->value; | |
9497 | ||
9498 | return 1; | |
9499 | } | |
9500 | } | |
9501 | ||
9502 | for (lopt = aarch64_long_opts; lopt->option != NULL; lopt++) | |
9503 | { | |
9504 | /* These options are expected to have an argument. */ | |
9505 | if (c == lopt->option[0] | |
9506 | && arg != NULL | |
9507 | && strncmp (arg, lopt->option + 1, | |
9508 | strlen (lopt->option + 1)) == 0) | |
9509 | { | |
9510 | /* If the option is deprecated, tell the user. */ | |
9511 | if (lopt->deprecated != NULL) | |
9512 | as_tsktsk (_("option `-%c%s' is deprecated: %s"), c, arg, | |
9513 | _(lopt->deprecated)); | |
9514 | ||
9515 | /* Call the sup-option parser. */ | |
9516 | return lopt->func (arg + strlen (lopt->option) - 1); | |
9517 | } | |
9518 | } | |
9519 | ||
9520 | return 0; | |
9521 | } | |
9522 | ||
9523 | return 1; | |
9524 | } | |
9525 | ||
9526 | void | |
9527 | md_show_usage (FILE * fp) | |
9528 | { | |
9529 | struct aarch64_option_table *opt; | |
9530 | struct aarch64_long_option_table *lopt; | |
9531 | ||
9532 | fprintf (fp, _(" AArch64-specific assembler options:\n")); | |
9533 | ||
9534 | for (opt = aarch64_opts; opt->option != NULL; opt++) | |
9535 | if (opt->help != NULL) | |
9536 | fprintf (fp, " -%-23s%s\n", opt->option, _(opt->help)); | |
9537 | ||
9538 | for (lopt = aarch64_long_opts; lopt->option != NULL; lopt++) | |
9539 | if (lopt->help != NULL) | |
9540 | fprintf (fp, " -%s%s\n", lopt->option, _(lopt->help)); | |
9541 | ||
9542 | #ifdef OPTION_EB | |
9543 | fprintf (fp, _("\ | |
9544 | -EB assemble code for a big-endian cpu\n")); | |
9545 | #endif | |
9546 | ||
9547 | #ifdef OPTION_EL | |
9548 | fprintf (fp, _("\ | |
9549 | -EL assemble code for a little-endian cpu\n")); | |
9550 | #endif | |
9551 | } | |
9552 | ||
9553 | /* Parse a .cpu directive. */ | |
9554 | ||
9555 | static void | |
9556 | s_aarch64_cpu (int ignored ATTRIBUTE_UNUSED) | |
9557 | { | |
9558 | const struct aarch64_cpu_option_table *opt; | |
9559 | char saved_char; | |
9560 | char *name; | |
9561 | char *ext; | |
9562 | size_t optlen; | |
9563 | ||
9564 | name = input_line_pointer; | |
9565 | while (*input_line_pointer && !ISSPACE (*input_line_pointer)) | |
9566 | input_line_pointer++; | |
9567 | saved_char = *input_line_pointer; | |
9568 | *input_line_pointer = 0; | |
9569 | ||
9570 | ext = strchr (name, '+'); | |
9571 | ||
9572 | if (ext != NULL) | |
9573 | optlen = ext - name; | |
9574 | else | |
9575 | optlen = strlen (name); | |
9576 | ||
9577 | /* Skip the first "all" entry. */ | |
9578 | for (opt = aarch64_cpus + 1; opt->name != NULL; opt++) | |
9579 | if (strlen (opt->name) == optlen | |
9580 | && strncmp (name, opt->name, optlen) == 0) | |
9581 | { | |
9582 | mcpu_cpu_opt = &opt->value; | |
9583 | if (ext != NULL) | |
ae527cd8 | 9584 | if (!aarch64_parse_features (ext, &mcpu_cpu_opt, FALSE)) |
a06ea964 NC |
9585 | return; |
9586 | ||
9587 | cpu_variant = *mcpu_cpu_opt; | |
9588 | ||
9589 | *input_line_pointer = saved_char; | |
9590 | demand_empty_rest_of_line (); | |
9591 | return; | |
9592 | } | |
9593 | as_bad (_("unknown cpu `%s'"), name); | |
9594 | *input_line_pointer = saved_char; | |
9595 | ignore_rest_of_line (); | |
9596 | } | |
9597 | ||
9598 | ||
9599 | /* Parse a .arch directive. */ | |
9600 | ||
9601 | static void | |
9602 | s_aarch64_arch (int ignored ATTRIBUTE_UNUSED) | |
9603 | { | |
9604 | const struct aarch64_arch_option_table *opt; | |
9605 | char saved_char; | |
9606 | char *name; | |
9607 | char *ext; | |
9608 | size_t optlen; | |
9609 | ||
9610 | name = input_line_pointer; | |
9611 | while (*input_line_pointer && !ISSPACE (*input_line_pointer)) | |
9612 | input_line_pointer++; | |
9613 | saved_char = *input_line_pointer; | |
9614 | *input_line_pointer = 0; | |
9615 | ||
9616 | ext = strchr (name, '+'); | |
9617 | ||
9618 | if (ext != NULL) | |
9619 | optlen = ext - name; | |
9620 | else | |
9621 | optlen = strlen (name); | |
9622 | ||
9623 | /* Skip the first "all" entry. */ | |
9624 | for (opt = aarch64_archs + 1; opt->name != NULL; opt++) | |
9625 | if (strlen (opt->name) == optlen | |
9626 | && strncmp (name, opt->name, optlen) == 0) | |
9627 | { | |
9628 | mcpu_cpu_opt = &opt->value; | |
9629 | if (ext != NULL) | |
ae527cd8 | 9630 | if (!aarch64_parse_features (ext, &mcpu_cpu_opt, FALSE)) |
a06ea964 NC |
9631 | return; |
9632 | ||
9633 | cpu_variant = *mcpu_cpu_opt; | |
9634 | ||
9635 | *input_line_pointer = saved_char; | |
9636 | demand_empty_rest_of_line (); | |
9637 | return; | |
9638 | } | |
9639 | ||
9640 | as_bad (_("unknown architecture `%s'\n"), name); | |
9641 | *input_line_pointer = saved_char; | |
9642 | ignore_rest_of_line (); | |
9643 | } | |
9644 | ||
ae527cd8 JB |
9645 | /* Parse a .arch_extension directive. */ |
9646 | ||
9647 | static void | |
9648 | s_aarch64_arch_extension (int ignored ATTRIBUTE_UNUSED) | |
9649 | { | |
9650 | char saved_char; | |
9651 | char *ext = input_line_pointer;; | |
9652 | ||
9653 | while (*input_line_pointer && !ISSPACE (*input_line_pointer)) | |
9654 | input_line_pointer++; | |
9655 | saved_char = *input_line_pointer; | |
9656 | *input_line_pointer = 0; | |
9657 | ||
9658 | if (!aarch64_parse_features (ext, &mcpu_cpu_opt, TRUE)) | |
9659 | return; | |
9660 | ||
9661 | cpu_variant = *mcpu_cpu_opt; | |
9662 | ||
9663 | *input_line_pointer = saved_char; | |
9664 | demand_empty_rest_of_line (); | |
9665 | } | |
9666 | ||
a06ea964 NC |
9667 | /* Copy symbol information. */ |
9668 | ||
9669 | void | |
9670 | aarch64_copy_symbol_attributes (symbolS * dest, symbolS * src) | |
9671 | { | |
9672 | AARCH64_GET_FLAG (dest) = AARCH64_GET_FLAG (src); | |
9673 | } | |
0b4eac57 SN |
9674 | |
9675 | #ifdef OBJ_ELF | |
9676 | /* Same as elf_copy_symbol_attributes, but without copying st_other. | |
9677 | This is needed so AArch64 specific st_other values can be independently | |
9678 | specified for an IFUNC resolver (that is called by the dynamic linker) | |
9679 | and the symbol it resolves (aliased to the resolver). In particular, | |
9680 | if a function symbol has special st_other value set via directives, | |
9681 | then attaching an IFUNC resolver to that symbol should not override | |
9682 | the st_other setting. Requiring the directive on the IFUNC resolver | |
9683 | symbol would be unexpected and problematic in C code, where the two | |
9684 | symbols appear as two independent function declarations. */ | |
9685 | ||
9686 | void | |
9687 | aarch64_elf_copy_symbol_attributes (symbolS *dest, symbolS *src) | |
9688 | { | |
9689 | struct elf_obj_sy *srcelf = symbol_get_obj (src); | |
9690 | struct elf_obj_sy *destelf = symbol_get_obj (dest); | |
9691 | if (srcelf->size) | |
9692 | { | |
9693 | if (destelf->size == NULL) | |
9694 | destelf->size = XNEW (expressionS); | |
9695 | *destelf->size = *srcelf->size; | |
9696 | } | |
9697 | else | |
9698 | { | |
9fbb53c7 | 9699 | free (destelf->size); |
0b4eac57 SN |
9700 | destelf->size = NULL; |
9701 | } | |
9702 | S_SET_SIZE (dest, S_GET_SIZE (src)); | |
9703 | } | |
9704 | #endif |