1 /* cpustate.h -- Prototypes for AArch64 simulator functions.
3 Copyright (C) 2015-2019 Free Software Foundation, Inc.
5 Contributed by Red Hat.
7 This file is part of GDB.
9 This program is free software; you can redistribute it and/or modify
10 it under the terms of the GNU General Public License as published by
11 the Free Software Foundation; either version 3 of the License, or
12 (at your option) any later version.
14 This program is distributed in the hope that it will be useful,
15 but WITHOUT ANY WARRANTY; without even the implied warranty of
16 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
17 GNU General Public License for more details.
19 You should have received a copy of the GNU General Public License
20 along with this program. If not, see <http://www.gnu.org/licenses/>. */
27 #include "simulator.h"
29 /* Some operands are allowed to access the stack pointer (reg 31).
30 For others a read from r31 always returns 0, and a write to r31 is ignored. */
31 #define reg_num(reg) (((reg) == R31 && !r31_is_sp) ? 32 : (reg))
34 aarch64_set_reg_u64 (sim_cpu
*cpu
, GReg reg
, int r31_is_sp
, uint64_t val
)
36 if (reg
== R31
&& ! r31_is_sp
)
38 TRACE_REGISTER (cpu
, "GR[31] NOT CHANGED!");
42 if (val
!= cpu
->gr
[reg
].u64
)
44 "GR[%2d] changes from %16" PRIx64
" to %16" PRIx64
,
45 reg
, cpu
->gr
[reg
].u64
, val
);
47 cpu
->gr
[reg
].u64
= val
;
51 aarch64_set_reg_s64 (sim_cpu
*cpu
, GReg reg
, int r31_is_sp
, int64_t val
)
53 if (reg
== R31
&& ! r31_is_sp
)
55 TRACE_REGISTER (cpu
, "GR[31] NOT CHANGED!");
59 if (val
!= cpu
->gr
[reg
].s64
)
61 "GR[%2d] changes from %16" PRIx64
" to %16" PRIx64
,
62 reg
, cpu
->gr
[reg
].s64
, val
);
64 cpu
->gr
[reg
].s64
= val
;
68 aarch64_get_reg_u64 (sim_cpu
*cpu
, GReg reg
, int r31_is_sp
)
70 return cpu
->gr
[reg_num(reg
)].u64
;
74 aarch64_get_reg_s64 (sim_cpu
*cpu
, GReg reg
, int r31_is_sp
)
76 return cpu
->gr
[reg_num(reg
)].s64
;
80 aarch64_get_reg_u32 (sim_cpu
*cpu
, GReg reg
, int r31_is_sp
)
82 return cpu
->gr
[reg_num(reg
)].u32
;
86 aarch64_get_reg_s32 (sim_cpu
*cpu
, GReg reg
, int r31_is_sp
)
88 return cpu
->gr
[reg_num(reg
)].s32
;
92 aarch64_set_reg_s32 (sim_cpu
*cpu
, GReg reg
, int r31_is_sp
, int32_t val
)
94 if (reg
== R31
&& ! r31_is_sp
)
96 TRACE_REGISTER (cpu
, "GR[31] NOT CHANGED!");
100 if (val
!= cpu
->gr
[reg
].s32
)
101 TRACE_REGISTER (cpu
, "GR[%2d] changes from %8x to %8x",
102 reg
, cpu
->gr
[reg
].s32
, val
);
104 /* The ARM ARM states that (C1.2.4):
105 When the data size is 32 bits, the lower 32 bits of the
106 register are used and the upper 32 bits are ignored on
107 a read and cleared to zero on a write.
108 We simulate this by first clearing the whole 64-bits and
109 then writing to the 32-bit value in the GRegister union. */
110 cpu
->gr
[reg
].s64
= 0;
111 cpu
->gr
[reg
].s32
= val
;
115 aarch64_set_reg_u32 (sim_cpu
*cpu
, GReg reg
, int r31_is_sp
, uint32_t val
)
117 if (reg
== R31
&& ! r31_is_sp
)
119 TRACE_REGISTER (cpu
, "GR[31] NOT CHANGED!");
123 if (val
!= cpu
->gr
[reg
].u32
)
124 TRACE_REGISTER (cpu
, "GR[%2d] changes from %8x to %8x",
125 reg
, cpu
->gr
[reg
].u32
, val
);
127 cpu
->gr
[reg
].u64
= 0;
128 cpu
->gr
[reg
].u32
= val
;
132 aarch64_get_reg_u16 (sim_cpu
*cpu
, GReg reg
, int r31_is_sp
)
134 return cpu
->gr
[reg_num(reg
)].u16
;
138 aarch64_get_reg_s16 (sim_cpu
*cpu
, GReg reg
, int r31_is_sp
)
140 return cpu
->gr
[reg_num(reg
)].s16
;
144 aarch64_get_reg_u8 (sim_cpu
*cpu
, GReg reg
, int r31_is_sp
)
146 return cpu
->gr
[reg_num(reg
)].u8
;
150 aarch64_get_reg_s8 (sim_cpu
*cpu
, GReg reg
, int r31_is_sp
)
152 return cpu
->gr
[reg_num(reg
)].s8
;
156 aarch64_get_PC (sim_cpu
*cpu
)
162 aarch64_get_next_PC (sim_cpu
*cpu
)
168 aarch64_set_next_PC (sim_cpu
*cpu
, uint64_t next
)
170 if (next
!= cpu
->nextpc
+ 4)
172 "NextPC changes from %16" PRIx64
" to %16" PRIx64
,
179 aarch64_set_next_PC_by_offset (sim_cpu
*cpu
, int64_t offset
)
181 if (cpu
->pc
+ offset
!= cpu
->nextpc
+ 4)
183 "NextPC changes from %16" PRIx64
" to %16" PRIx64
,
184 cpu
->nextpc
, cpu
->pc
+ offset
);
186 cpu
->nextpc
= cpu
->pc
+ offset
;
189 /* Install nextpc as current pc. */
191 aarch64_update_PC (sim_cpu
*cpu
)
193 cpu
->pc
= cpu
->nextpc
;
194 /* Rezero the register we hand out when asked for ZR just in case it
195 was used as the destination for a write by the previous
197 cpu
->gr
[32].u64
= 0UL;
200 /* This instruction can be used to save the next PC to LR
201 just before installing a branch PC. */
203 aarch64_save_LR (sim_cpu
*cpu
)
205 if (cpu
->gr
[LR
].u64
!= cpu
->nextpc
)
207 "LR changes from %16" PRIx64
" to %16" PRIx64
,
208 cpu
->gr
[LR
].u64
, cpu
->nextpc
);
210 cpu
->gr
[LR
].u64
= cpu
->nextpc
;
214 decode_cpsr (FlagMask flags
)
216 switch (flags
& CPSR_ALL_FLAGS
)
219 case 0: return "----";
220 case 1: return "---V";
221 case 2: return "--C-";
222 case 3: return "--CV";
223 case 4: return "-Z--";
224 case 5: return "-Z-V";
225 case 6: return "-ZC-";
226 case 7: return "-ZCV";
227 case 8: return "N---";
228 case 9: return "N--V";
229 case 10: return "N-C-";
230 case 11: return "N-CV";
231 case 12: return "NZ--";
232 case 13: return "NZ-V";
233 case 14: return "NZC-";
234 case 15: return "NZCV";
238 /* Retrieve the CPSR register as an int. */
240 aarch64_get_CPSR (sim_cpu
*cpu
)
245 /* Set the CPSR register as an int. */
247 aarch64_set_CPSR (sim_cpu
*cpu
, uint32_t new_flags
)
249 if (TRACE_REGISTER_P (cpu
))
251 if (cpu
->CPSR
!= new_flags
)
253 "CPSR changes from %s to %s",
254 decode_cpsr (cpu
->CPSR
), decode_cpsr (new_flags
));
257 "CPSR stays at %s", decode_cpsr (cpu
->CPSR
));
260 cpu
->CPSR
= new_flags
& CPSR_ALL_FLAGS
;
263 /* Read a specific subset of the CPSR as a bit pattern. */
265 aarch64_get_CPSR_bits (sim_cpu
*cpu
, FlagMask mask
)
267 return cpu
->CPSR
& mask
;
270 /* Assign a specific subset of the CPSR as a bit pattern. */
272 aarch64_set_CPSR_bits (sim_cpu
*cpu
, uint32_t mask
, uint32_t value
)
274 uint32_t old_flags
= cpu
->CPSR
;
276 mask
&= CPSR_ALL_FLAGS
;
278 cpu
->CPSR
|= (value
& mask
);
280 if (old_flags
!= cpu
->CPSR
)
282 "CPSR changes from %s to %s",
283 decode_cpsr (old_flags
), decode_cpsr (cpu
->CPSR
));
286 /* Test the value of a single CPSR returned as non-zero or zero. */
288 aarch64_test_CPSR_bit (sim_cpu
*cpu
, FlagMask bit
)
290 return cpu
->CPSR
& bit
;
293 /* Set a single flag in the CPSR. */
295 aarch64_set_CPSR_bit (sim_cpu
*cpu
, FlagMask bit
)
297 uint32_t old_flags
= cpu
->CPSR
;
299 cpu
->CPSR
|= (bit
& CPSR_ALL_FLAGS
);
301 if (old_flags
!= cpu
->CPSR
)
303 "CPSR changes from %s to %s",
304 decode_cpsr (old_flags
), decode_cpsr (cpu
->CPSR
));
307 /* Clear a single flag in the CPSR. */
309 aarch64_clear_CPSR_bit (sim_cpu
*cpu
, FlagMask bit
)
311 uint32_t old_flags
= cpu
->CPSR
;
313 cpu
->CPSR
&= ~(bit
& CPSR_ALL_FLAGS
);
315 if (old_flags
!= cpu
->CPSR
)
317 "CPSR changes from %s to %s",
318 decode_cpsr (old_flags
), decode_cpsr (cpu
->CPSR
));
322 aarch64_get_FP_half (sim_cpu
*cpu
, VReg reg
)
331 u
.h
[1] = cpu
->fr
[reg
].h
[0];
337 aarch64_get_FP_float (sim_cpu
*cpu
, VReg reg
)
339 return cpu
->fr
[reg
].s
;
343 aarch64_get_FP_double (sim_cpu
*cpu
, VReg reg
)
345 return cpu
->fr
[reg
].d
;
349 aarch64_get_FP_long_double (sim_cpu
*cpu
, VReg reg
, FRegister
*a
)
351 a
->v
[0] = cpu
->fr
[reg
].v
[0];
352 a
->v
[1] = cpu
->fr
[reg
].v
[1];
356 aarch64_set_FP_half (sim_cpu
*cpu
, VReg reg
, float val
)
365 cpu
->fr
[reg
].h
[0] = u
.h
[1];
366 cpu
->fr
[reg
].h
[1] = 0;
371 aarch64_set_FP_float (sim_cpu
*cpu
, VReg reg
, float val
)
373 if (val
!= cpu
->fr
[reg
].s
374 /* Handle +/- zero. */
375 || signbit (val
) != signbit (cpu
->fr
[reg
].s
))
381 "FR[%d].s changes from %f to %f [hex: %0lx]",
382 reg
, cpu
->fr
[reg
].s
, val
, v
.v
[0]);
385 cpu
->fr
[reg
].s
= val
;
389 aarch64_set_FP_double (sim_cpu
*cpu
, VReg reg
, double val
)
391 if (val
!= cpu
->fr
[reg
].d
392 /* Handle +/- zero. */
393 || signbit (val
) != signbit (cpu
->fr
[reg
].d
))
399 "FR[%d].d changes from %f to %f [hex: %0lx]",
400 reg
, cpu
->fr
[reg
].d
, val
, v
.v
[0]);
402 cpu
->fr
[reg
].d
= val
;
406 aarch64_set_FP_long_double (sim_cpu
*cpu
, VReg reg
, FRegister a
)
408 if (cpu
->fr
[reg
].v
[0] != a
.v
[0]
409 || cpu
->fr
[reg
].v
[1] != a
.v
[1])
411 "FR[%d].q changes from [%0lx %0lx] to [%0lx %0lx] ",
413 cpu
->fr
[reg
].v
[0], cpu
->fr
[reg
].v
[1],
416 cpu
->fr
[reg
].v
[0] = a
.v
[0];
417 cpu
->fr
[reg
].v
[1] = a
.v
[1];
420 #define GET_VEC_ELEMENT(REG, ELEMENT, FIELD) \
423 if (ELEMENT >= ARRAY_SIZE (cpu->fr[0].FIELD)) \
425 TRACE_REGISTER (cpu, \
426 "Internal SIM error: invalid element number: %d ",\
428 sim_engine_halt (CPU_STATE (cpu), cpu, NULL, aarch64_get_PC (cpu), \
429 sim_stopped, SIM_SIGBUS); \
431 return cpu->fr[REG].FIELD [ELEMENT]; \
436 aarch64_get_vec_u64 (sim_cpu
*cpu
, VReg reg
, unsigned element
)
438 GET_VEC_ELEMENT (reg
, element
, v
);
442 aarch64_get_vec_u32 (sim_cpu
*cpu
, VReg reg
, unsigned element
)
444 GET_VEC_ELEMENT (reg
, element
, w
);
448 aarch64_get_vec_u16 (sim_cpu
*cpu
, VReg reg
, unsigned element
)
450 GET_VEC_ELEMENT (reg
, element
, h
);
454 aarch64_get_vec_u8 (sim_cpu
*cpu
, VReg reg
, unsigned element
)
456 GET_VEC_ELEMENT (reg
, element
, b
);
460 aarch64_get_vec_s64 (sim_cpu
*cpu
, VReg reg
, unsigned element
)
462 GET_VEC_ELEMENT (reg
, element
, V
);
466 aarch64_get_vec_s32 (sim_cpu
*cpu
, VReg reg
, unsigned element
)
468 GET_VEC_ELEMENT (reg
, element
, W
);
472 aarch64_get_vec_s16 (sim_cpu
*cpu
, VReg reg
, unsigned element
)
474 GET_VEC_ELEMENT (reg
, element
, H
);
478 aarch64_get_vec_s8 (sim_cpu
*cpu
, VReg reg
, unsigned element
)
480 GET_VEC_ELEMENT (reg
, element
, B
);
484 aarch64_get_vec_float (sim_cpu
*cpu
, VReg reg
, unsigned element
)
486 GET_VEC_ELEMENT (reg
, element
, S
);
490 aarch64_get_vec_double (sim_cpu
*cpu
, VReg reg
, unsigned element
)
492 GET_VEC_ELEMENT (reg
, element
, D
);
496 #define SET_VEC_ELEMENT(REG, ELEMENT, VAL, FIELD, PRINTER) \
499 if (ELEMENT >= ARRAY_SIZE (cpu->fr[0].FIELD)) \
501 TRACE_REGISTER (cpu, \
502 "Internal SIM error: invalid element number: %d ",\
504 sim_engine_halt (CPU_STATE (cpu), cpu, NULL, aarch64_get_PC (cpu), \
505 sim_stopped, SIM_SIGBUS); \
507 if (VAL != cpu->fr[REG].FIELD [ELEMENT]) \
508 TRACE_REGISTER (cpu, \
509 "VR[%2d]." #FIELD " [%d] changes from " PRINTER \
510 " to " PRINTER , REG, \
511 ELEMENT, cpu->fr[REG].FIELD [ELEMENT], VAL); \
513 cpu->fr[REG].FIELD [ELEMENT] = VAL; \
518 aarch64_set_vec_u64 (sim_cpu
*cpu
, VReg reg
, unsigned element
, uint64_t val
)
520 SET_VEC_ELEMENT (reg
, element
, val
, v
, "%16lx");
524 aarch64_set_vec_u32 (sim_cpu
*cpu
, VReg reg
, unsigned element
, uint32_t val
)
526 SET_VEC_ELEMENT (reg
, element
, val
, w
, "%8x");
530 aarch64_set_vec_u16 (sim_cpu
*cpu
, VReg reg
, unsigned element
, uint16_t val
)
532 SET_VEC_ELEMENT (reg
, element
, val
, h
, "%4x");
536 aarch64_set_vec_u8 (sim_cpu
*cpu
, VReg reg
, unsigned element
, uint8_t val
)
538 SET_VEC_ELEMENT (reg
, element
, val
, b
, "%x");
542 aarch64_set_vec_s64 (sim_cpu
*cpu
, VReg reg
, unsigned element
, int64_t val
)
544 SET_VEC_ELEMENT (reg
, element
, val
, V
, "%16lx");
548 aarch64_set_vec_s32 (sim_cpu
*cpu
, VReg reg
, unsigned element
, int32_t val
)
550 SET_VEC_ELEMENT (reg
, element
, val
, W
, "%8x");
554 aarch64_set_vec_s16 (sim_cpu
*cpu
, VReg reg
, unsigned element
, int16_t val
)
556 SET_VEC_ELEMENT (reg
, element
, val
, H
, "%4x");
560 aarch64_set_vec_s8 (sim_cpu
*cpu
, VReg reg
, unsigned element
, int8_t val
)
562 SET_VEC_ELEMENT (reg
, element
, val
, B
, "%x");
566 aarch64_set_vec_float (sim_cpu
*cpu
, VReg reg
, unsigned element
, float val
)
568 SET_VEC_ELEMENT (reg
, element
, val
, S
, "%f");
572 aarch64_set_vec_double (sim_cpu
*cpu
, VReg reg
, unsigned element
, double val
)
574 SET_VEC_ELEMENT (reg
, element
, val
, D
, "%f");
578 aarch64_set_FPSR (sim_cpu
*cpu
, uint32_t value
)
580 if (cpu
->FPSR
!= value
)
582 "FPSR changes from %x to %x", cpu
->FPSR
, value
);
584 cpu
->FPSR
= value
& FPSR_ALL_FPSRS
;
588 aarch64_get_FPSR (sim_cpu
*cpu
)
594 aarch64_set_FPSR_bits (sim_cpu
*cpu
, uint32_t mask
, uint32_t value
)
596 uint32_t old_FPSR
= cpu
->FPSR
;
598 mask
&= FPSR_ALL_FPSRS
;
600 cpu
->FPSR
|= (value
& mask
);
602 if (cpu
->FPSR
!= old_FPSR
)
604 "FPSR changes from %x to %x", old_FPSR
, cpu
->FPSR
);
608 aarch64_get_FPSR_bits (sim_cpu
*cpu
, uint32_t mask
)
610 mask
&= FPSR_ALL_FPSRS
;
611 return cpu
->FPSR
& mask
;
615 aarch64_test_FPSR_bit (sim_cpu
*cpu
, FPSRMask flag
)
617 return cpu
->FPSR
& flag
;
621 aarch64_get_thread_id (sim_cpu
*cpu
)
627 aarch64_get_FPCR (sim_cpu
*cpu
)
633 aarch64_set_FPCR (sim_cpu
*cpu
, uint32_t val
)
635 if (cpu
->FPCR
!= val
)
637 "FPCR changes from %x to %x", cpu
->FPCR
, val
);
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