1a1ba9ba4Schristos /* Support code for various pieces of CGEN simulators.
2*184b2d41Schristos Copyright (C) 1996-2020 Free Software Foundation, Inc.
3a1ba9ba4Schristos Contributed by Cygnus Support.
4a1ba9ba4Schristos
5a1ba9ba4Schristos This file is part of GDB, the GNU debugger.
6a1ba9ba4Schristos
7a1ba9ba4Schristos This program is free software; you can redistribute it and/or modify
8a1ba9ba4Schristos it under the terms of the GNU General Public License as published by
9a1ba9ba4Schristos the Free Software Foundation; either version 3 of the License, or
10a1ba9ba4Schristos (at your option) any later version.
11a1ba9ba4Schristos
12a1ba9ba4Schristos This program is distributed in the hope that it will be useful,
13a1ba9ba4Schristos but WITHOUT ANY WARRANTY; without even the implied warranty of
14a1ba9ba4Schristos MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
15a1ba9ba4Schristos GNU General Public License for more details.
16a1ba9ba4Schristos
17a1ba9ba4Schristos You should have received a copy of the GNU General Public License
18a1ba9ba4Schristos along with this program. If not, see <http://www.gnu.org/licenses/>. */
19a1ba9ba4Schristos
20a1ba9ba4Schristos #include "config.h"
21a1ba9ba4Schristos #include "bfd.h"
22a1ba9ba4Schristos #include "sim-main.h"
23a1ba9ba4Schristos #include "dis-asm.h"
24a1ba9ba4Schristos
25a1ba9ba4Schristos #define MEMOPS_DEFINE_INLINE
26a1ba9ba4Schristos #include "cgen-mem.h"
27a1ba9ba4Schristos
28a1ba9ba4Schristos #define SEMOPS_DEFINE_INLINE
29a1ba9ba4Schristos #include "cgen-ops.h"
30a1ba9ba4Schristos
3115d8e94aSchristos const char * const mode_names[] = {
32a1ba9ba4Schristos "VOID",
33a1ba9ba4Schristos "BI",
34a1ba9ba4Schristos "QI",
35a1ba9ba4Schristos "HI",
36a1ba9ba4Schristos "SI",
37a1ba9ba4Schristos "DI",
38a1ba9ba4Schristos "UQI",
39a1ba9ba4Schristos "UHI",
40a1ba9ba4Schristos "USI",
41a1ba9ba4Schristos "UDI",
42a1ba9ba4Schristos "SF",
43a1ba9ba4Schristos "DF",
44a1ba9ba4Schristos "XF",
45a1ba9ba4Schristos "TF",
46a1ba9ba4Schristos 0, /* MODE_TARGET_MAX */
47a1ba9ba4Schristos "INT",
48a1ba9ba4Schristos "UINT",
49a1ba9ba4Schristos "PTR"
50a1ba9ba4Schristos };
51a1ba9ba4Schristos
52a1ba9ba4Schristos /* Opcode table for virtual insns used by the simulator. */
53a1ba9ba4Schristos
54a1ba9ba4Schristos #define V CGEN_ATTR_MASK (CGEN_INSN_VIRTUAL)
55a1ba9ba4Schristos
56a1ba9ba4Schristos static const CGEN_IBASE virtual_insn_entries[] =
57a1ba9ba4Schristos {
58a1ba9ba4Schristos {
59a1ba9ba4Schristos VIRTUAL_INSN_X_INVALID, "--invalid--", NULL, 0, { V, { 0 } }
60a1ba9ba4Schristos },
61a1ba9ba4Schristos {
62a1ba9ba4Schristos VIRTUAL_INSN_X_BEFORE, "--before--", NULL, 0, { V, { 0 } }
63a1ba9ba4Schristos },
64a1ba9ba4Schristos {
65a1ba9ba4Schristos VIRTUAL_INSN_X_AFTER, "--after--", NULL, 0, { V, { 0 } }
66a1ba9ba4Schristos },
67a1ba9ba4Schristos {
68a1ba9ba4Schristos VIRTUAL_INSN_X_BEGIN, "--begin--", NULL, 0, { V, { 0 } }
69a1ba9ba4Schristos },
70a1ba9ba4Schristos {
71a1ba9ba4Schristos VIRTUAL_INSN_X_CHAIN, "--chain--", NULL, 0, { V, { 0 } }
72a1ba9ba4Schristos },
73a1ba9ba4Schristos {
74a1ba9ba4Schristos VIRTUAL_INSN_X_CTI_CHAIN, "--cti-chain--", NULL, 0, { V, { 0 } }
75a1ba9ba4Schristos }
76a1ba9ba4Schristos };
77a1ba9ba4Schristos
78a1ba9ba4Schristos #undef V
79a1ba9ba4Schristos
80a1ba9ba4Schristos const CGEN_INSN cgen_virtual_insn_table[] =
81a1ba9ba4Schristos {
82a1ba9ba4Schristos { & virtual_insn_entries[0] },
83a1ba9ba4Schristos { & virtual_insn_entries[1] },
84a1ba9ba4Schristos { & virtual_insn_entries[2] },
85a1ba9ba4Schristos { & virtual_insn_entries[3] },
86a1ba9ba4Schristos { & virtual_insn_entries[4] },
87a1ba9ba4Schristos { & virtual_insn_entries[5] }
88a1ba9ba4Schristos };
89a1ba9ba4Schristos
90a1ba9ba4Schristos /* Initialize cgen things.
91a1ba9ba4Schristos This is called after sim_post_argv_init. */
92a1ba9ba4Schristos
93a1ba9ba4Schristos void
cgen_init(SIM_DESC sd)94a1ba9ba4Schristos cgen_init (SIM_DESC sd)
95a1ba9ba4Schristos {
96a1ba9ba4Schristos int i, c;
97a1ba9ba4Schristos
98a1ba9ba4Schristos /* If no profiling or tracing has been enabled, run in fast mode. */
99a1ba9ba4Schristos {
100a1ba9ba4Schristos int run_fast_p = 1;
101a1ba9ba4Schristos
102a1ba9ba4Schristos for (c = 0; c < MAX_NR_PROCESSORS; ++c)
103a1ba9ba4Schristos {
104a1ba9ba4Schristos SIM_CPU *cpu = STATE_CPU (sd, c);
105a1ba9ba4Schristos
106a1ba9ba4Schristos for (i = 0; i < MAX_PROFILE_VALUES; ++i)
107a1ba9ba4Schristos if (CPU_PROFILE_FLAGS (cpu) [i])
108a1ba9ba4Schristos {
109a1ba9ba4Schristos run_fast_p = 0;
110a1ba9ba4Schristos break;
111a1ba9ba4Schristos }
112a1ba9ba4Schristos for (i = 0; i < MAX_TRACE_VALUES; ++i)
113a1ba9ba4Schristos if (CPU_TRACE_FLAGS (cpu) [i])
114a1ba9ba4Schristos {
115a1ba9ba4Schristos run_fast_p = 0;
116a1ba9ba4Schristos break;
117a1ba9ba4Schristos }
118a1ba9ba4Schristos if (! run_fast_p)
119a1ba9ba4Schristos break;
120a1ba9ba4Schristos }
121a1ba9ba4Schristos STATE_RUN_FAST_P (sd) = run_fast_p;
122a1ba9ba4Schristos }
123a1ba9ba4Schristos }
124a1ba9ba4Schristos
125a1ba9ba4Schristos /* Return the name of insn number I. */
126a1ba9ba4Schristos
127a1ba9ba4Schristos const char *
cgen_insn_name(SIM_CPU * cpu,int i)128a1ba9ba4Schristos cgen_insn_name (SIM_CPU *cpu, int i)
129a1ba9ba4Schristos {
130a1ba9ba4Schristos return CGEN_INSN_NAME ((* CPU_GET_IDATA (cpu)) ((cpu), (i)));
131a1ba9ba4Schristos }
132a1ba9ba4Schristos
133a1ba9ba4Schristos /* Return the maximum number of extra bytes required for a SIM_CPU struct. */
134a1ba9ba4Schristos
135a1ba9ba4Schristos int
cgen_cpu_max_extra_bytes(void)136a1ba9ba4Schristos cgen_cpu_max_extra_bytes (void)
137a1ba9ba4Schristos {
138a1ba9ba4Schristos int i;
139a1ba9ba4Schristos int extra = 0;
140a1ba9ba4Schristos
141a1ba9ba4Schristos for (i = 0; sim_machs[i] != 0; ++i)
142a1ba9ba4Schristos {
143a1ba9ba4Schristos int size = IMP_PROPS_SIM_CPU_SIZE (MACH_IMP_PROPS (sim_machs[i]));
144a1ba9ba4Schristos if (size > extra)
145a1ba9ba4Schristos extra = size;
146a1ba9ba4Schristos }
147a1ba9ba4Schristos return extra;
148a1ba9ba4Schristos }
149a1ba9ba4Schristos
150a1ba9ba4Schristos #ifdef DI_FN_SUPPORT
151a1ba9ba4Schristos
152a1ba9ba4Schristos DI
make_struct_di(hi,lo)153a1ba9ba4Schristos make_struct_di (hi, lo)
154a1ba9ba4Schristos SI hi, lo;
155a1ba9ba4Schristos {
156a1ba9ba4Schristos DI result;
157a1ba9ba4Schristos
158a1ba9ba4Schristos result.hi = hi;
159a1ba9ba4Schristos result.lo = lo;
160a1ba9ba4Schristos return result;
161a1ba9ba4Schristos }
162a1ba9ba4Schristos
163a1ba9ba4Schristos DI
ANDDI(a,b)164a1ba9ba4Schristos ANDDI (a, b)
165a1ba9ba4Schristos DI a, b;
166a1ba9ba4Schristos {
167a1ba9ba4Schristos SI ahi = GETHIDI (a);
168a1ba9ba4Schristos SI alo = GETLODI (a);
169a1ba9ba4Schristos SI bhi = GETHIDI (b);
170a1ba9ba4Schristos SI blo = GETLODI (b);
171a1ba9ba4Schristos return MAKEDI (ahi & bhi, alo & blo);
172a1ba9ba4Schristos }
173a1ba9ba4Schristos
174a1ba9ba4Schristos DI
ORDI(a,b)175a1ba9ba4Schristos ORDI (a, b)
176a1ba9ba4Schristos DI a, b;
177a1ba9ba4Schristos {
178a1ba9ba4Schristos SI ahi = GETHIDI (a);
179a1ba9ba4Schristos SI alo = GETLODI (a);
180a1ba9ba4Schristos SI bhi = GETHIDI (b);
181a1ba9ba4Schristos SI blo = GETLODI (b);
182a1ba9ba4Schristos return MAKEDI (ahi | bhi, alo | blo);
183a1ba9ba4Schristos }
184a1ba9ba4Schristos
185a1ba9ba4Schristos DI
ADDDI(a,b)186a1ba9ba4Schristos ADDDI (a, b)
187a1ba9ba4Schristos DI a, b;
188a1ba9ba4Schristos {
189a1ba9ba4Schristos USI ahi = GETHIDI (a);
190a1ba9ba4Schristos USI alo = GETLODI (a);
191a1ba9ba4Schristos USI bhi = GETHIDI (b);
192a1ba9ba4Schristos USI blo = GETLODI (b);
193a1ba9ba4Schristos USI x = alo + blo;
194a1ba9ba4Schristos return MAKEDI (ahi + bhi + (x < alo), x);
195a1ba9ba4Schristos }
196a1ba9ba4Schristos
197a1ba9ba4Schristos DI
MULDI(a,b)198a1ba9ba4Schristos MULDI (a, b)
199a1ba9ba4Schristos DI a, b;
200a1ba9ba4Schristos {
201a1ba9ba4Schristos USI ahi = GETHIDI (a);
202a1ba9ba4Schristos USI alo = GETLODI (a);
203a1ba9ba4Schristos USI bhi = GETHIDI (b);
204a1ba9ba4Schristos USI blo = GETLODI (b);
205a1ba9ba4Schristos USI rhi,rlo;
206a1ba9ba4Schristos USI x0, x1, x2, x3;
207a1ba9ba4Schristos
208a1ba9ba4Schristos x0 = alo * blo;
209a1ba9ba4Schristos x1 = alo * bhi;
210a1ba9ba4Schristos x2 = ahi * blo;
211a1ba9ba4Schristos x3 = ahi * bhi;
212a1ba9ba4Schristos
213a1ba9ba4Schristos #define SI_TYPE_SIZE 32
214a1ba9ba4Schristos #define BITS4 (SI_TYPE_SIZE / 4)
215a1ba9ba4Schristos #define ll_B (1L << (SI_TYPE_SIZE / 2))
216a1ba9ba4Schristos #define ll_lowpart(t) ((USI) (t) % ll_B)
217a1ba9ba4Schristos #define ll_highpart(t) ((USI) (t) / ll_B)
218a1ba9ba4Schristos x1 += ll_highpart (x0); /* this can't give carry */
219a1ba9ba4Schristos x1 += x2; /* but this indeed can */
220a1ba9ba4Schristos if (x1 < x2) /* did we get it? */
221a1ba9ba4Schristos x3 += ll_B; /* yes, add it in the proper pos. */
222a1ba9ba4Schristos
223a1ba9ba4Schristos rhi = x3 + ll_highpart (x1);
224a1ba9ba4Schristos rlo = ll_lowpart (x1) * ll_B + ll_lowpart (x0);
225a1ba9ba4Schristos return MAKEDI (rhi + (alo * bhi) + (ahi * blo), rlo);
226a1ba9ba4Schristos }
227a1ba9ba4Schristos
228a1ba9ba4Schristos DI
SHLDI(val,shift)229a1ba9ba4Schristos SHLDI (val, shift)
230a1ba9ba4Schristos DI val;
231a1ba9ba4Schristos SI shift;
232a1ba9ba4Schristos {
233a1ba9ba4Schristos USI hi = GETHIDI (val);
234a1ba9ba4Schristos USI lo = GETLODI (val);
235a1ba9ba4Schristos /* FIXME: Need to worry about shift < 0 || shift >= 32. */
236a1ba9ba4Schristos return MAKEDI ((hi << shift) | (lo >> (32 - shift)), lo << shift);
237a1ba9ba4Schristos }
238a1ba9ba4Schristos
239a1ba9ba4Schristos DI
SLADI(val,shift)240a1ba9ba4Schristos SLADI (val, shift)
241a1ba9ba4Schristos DI val;
242a1ba9ba4Schristos SI shift;
243a1ba9ba4Schristos {
244a1ba9ba4Schristos SI hi = GETHIDI (val);
245a1ba9ba4Schristos USI lo = GETLODI (val);
246a1ba9ba4Schristos /* FIXME: Need to worry about shift < 0 || shift >= 32. */
247a1ba9ba4Schristos return MAKEDI ((hi << shift) | (lo >> (32 - shift)), lo << shift);
248a1ba9ba4Schristos }
249a1ba9ba4Schristos
250a1ba9ba4Schristos DI
SRADI(val,shift)251a1ba9ba4Schristos SRADI (val, shift)
252a1ba9ba4Schristos DI val;
253a1ba9ba4Schristos SI shift;
254a1ba9ba4Schristos {
255a1ba9ba4Schristos SI hi = GETHIDI (val);
256a1ba9ba4Schristos USI lo = GETLODI (val);
257a1ba9ba4Schristos /* We use SRASI because the result is implementation defined if hi < 0. */
258a1ba9ba4Schristos /* FIXME: Need to worry about shift < 0 || shift >= 32. */
259a1ba9ba4Schristos return MAKEDI (SRASI (hi, shift), (hi << (32 - shift)) | (lo >> shift));
260a1ba9ba4Schristos }
261a1ba9ba4Schristos
262a1ba9ba4Schristos int
GEDI(a,b)263a1ba9ba4Schristos GEDI (a, b)
264a1ba9ba4Schristos DI a, b;
265a1ba9ba4Schristos {
266a1ba9ba4Schristos SI ahi = GETHIDI (a);
267a1ba9ba4Schristos USI alo = GETLODI (a);
268a1ba9ba4Schristos SI bhi = GETHIDI (b);
269a1ba9ba4Schristos USI blo = GETLODI (b);
270a1ba9ba4Schristos if (ahi > bhi)
271a1ba9ba4Schristos return 1;
272a1ba9ba4Schristos if (ahi == bhi)
273a1ba9ba4Schristos return alo >= blo;
274a1ba9ba4Schristos return 0;
275a1ba9ba4Schristos }
276a1ba9ba4Schristos
277a1ba9ba4Schristos int
LEDI(a,b)278a1ba9ba4Schristos LEDI (a, b)
279a1ba9ba4Schristos DI a, b;
280a1ba9ba4Schristos {
281a1ba9ba4Schristos SI ahi = GETHIDI (a);
282a1ba9ba4Schristos USI alo = GETLODI (a);
283a1ba9ba4Schristos SI bhi = GETHIDI (b);
284a1ba9ba4Schristos USI blo = GETLODI (b);
285a1ba9ba4Schristos if (ahi < bhi)
286a1ba9ba4Schristos return 1;
287a1ba9ba4Schristos if (ahi == bhi)
288a1ba9ba4Schristos return alo <= blo;
289a1ba9ba4Schristos return 0;
290a1ba9ba4Schristos }
291a1ba9ba4Schristos
292a1ba9ba4Schristos DI
CONVHIDI(val)293a1ba9ba4Schristos CONVHIDI (val)
294a1ba9ba4Schristos HI val;
295a1ba9ba4Schristos {
296a1ba9ba4Schristos if (val < 0)
297a1ba9ba4Schristos return MAKEDI (-1, val);
298a1ba9ba4Schristos else
299a1ba9ba4Schristos return MAKEDI (0, val);
300a1ba9ba4Schristos }
301a1ba9ba4Schristos
302a1ba9ba4Schristos DI
CONVSIDI(val)303a1ba9ba4Schristos CONVSIDI (val)
304a1ba9ba4Schristos SI val;
305a1ba9ba4Schristos {
306a1ba9ba4Schristos if (val < 0)
307a1ba9ba4Schristos return MAKEDI (-1, val);
308a1ba9ba4Schristos else
309a1ba9ba4Schristos return MAKEDI (0, val);
310a1ba9ba4Schristos }
311a1ba9ba4Schristos
312a1ba9ba4Schristos SI
CONVDISI(val)313a1ba9ba4Schristos CONVDISI (val)
314a1ba9ba4Schristos DI val;
315a1ba9ba4Schristos {
316a1ba9ba4Schristos return GETLODI (val);
317a1ba9ba4Schristos }
318a1ba9ba4Schristos
319a1ba9ba4Schristos #endif /* DI_FN_SUPPORT */
320a1ba9ba4Schristos
321a1ba9ba4Schristos QI
RORQI(val,shift)322a1ba9ba4Schristos RORQI (val, shift)
323a1ba9ba4Schristos QI val;
324a1ba9ba4Schristos int shift;
325a1ba9ba4Schristos {
326a1ba9ba4Schristos if (shift != 0)
327a1ba9ba4Schristos {
328a1ba9ba4Schristos int remain = 8 - shift;
329a1ba9ba4Schristos int mask = (1 << shift) - 1;
330a1ba9ba4Schristos QI result = (val & mask) << remain;
331a1ba9ba4Schristos mask = (1 << remain) - 1;
332a1ba9ba4Schristos result |= (val >> shift) & mask;
333a1ba9ba4Schristos return result;
334a1ba9ba4Schristos }
335a1ba9ba4Schristos return val;
336a1ba9ba4Schristos }
337a1ba9ba4Schristos
338a1ba9ba4Schristos QI
ROLQI(val,shift)339a1ba9ba4Schristos ROLQI (val, shift)
340a1ba9ba4Schristos QI val;
341a1ba9ba4Schristos int shift;
342a1ba9ba4Schristos {
343a1ba9ba4Schristos if (shift != 0)
344a1ba9ba4Schristos {
345a1ba9ba4Schristos int remain = 8 - shift;
346a1ba9ba4Schristos int mask = (1 << remain) - 1;
347a1ba9ba4Schristos QI result = (val & mask) << shift;
348a1ba9ba4Schristos mask = (1 << shift) - 1;
349a1ba9ba4Schristos result |= (val >> remain) & mask;
350a1ba9ba4Schristos return result;
351a1ba9ba4Schristos }
352a1ba9ba4Schristos return val;
353a1ba9ba4Schristos }
354a1ba9ba4Schristos
355a1ba9ba4Schristos HI
RORHI(val,shift)356a1ba9ba4Schristos RORHI (val, shift)
357a1ba9ba4Schristos HI val;
358a1ba9ba4Schristos int shift;
359a1ba9ba4Schristos {
360a1ba9ba4Schristos if (shift != 0)
361a1ba9ba4Schristos {
362a1ba9ba4Schristos int remain = 16 - shift;
363a1ba9ba4Schristos int mask = (1 << shift) - 1;
364a1ba9ba4Schristos HI result = (val & mask) << remain;
365a1ba9ba4Schristos mask = (1 << remain) - 1;
366a1ba9ba4Schristos result |= (val >> shift) & mask;
367a1ba9ba4Schristos return result;
368a1ba9ba4Schristos }
369a1ba9ba4Schristos return val;
370a1ba9ba4Schristos }
371a1ba9ba4Schristos
372a1ba9ba4Schristos HI
ROLHI(val,shift)373a1ba9ba4Schristos ROLHI (val, shift)
374a1ba9ba4Schristos HI val;
375a1ba9ba4Schristos int shift;
376a1ba9ba4Schristos {
377a1ba9ba4Schristos if (shift != 0)
378a1ba9ba4Schristos {
379a1ba9ba4Schristos int remain = 16 - shift;
380a1ba9ba4Schristos int mask = (1 << remain) - 1;
381a1ba9ba4Schristos HI result = (val & mask) << shift;
382a1ba9ba4Schristos mask = (1 << shift) - 1;
383a1ba9ba4Schristos result |= (val >> remain) & mask;
384a1ba9ba4Schristos return result;
385a1ba9ba4Schristos }
386a1ba9ba4Schristos return val;
387a1ba9ba4Schristos }
388a1ba9ba4Schristos
389a1ba9ba4Schristos SI
RORSI(val,shift)390a1ba9ba4Schristos RORSI (val, shift)
391a1ba9ba4Schristos SI val;
392a1ba9ba4Schristos int shift;
393a1ba9ba4Schristos {
394a1ba9ba4Schristos if (shift != 0)
395a1ba9ba4Schristos {
396a1ba9ba4Schristos int remain = 32 - shift;
397a1ba9ba4Schristos int mask = (1 << shift) - 1;
398a1ba9ba4Schristos SI result = (val & mask) << remain;
399a1ba9ba4Schristos mask = (1 << remain) - 1;
400a1ba9ba4Schristos result |= (val >> shift) & mask;
401a1ba9ba4Schristos return result;
402a1ba9ba4Schristos }
403a1ba9ba4Schristos return val;
404a1ba9ba4Schristos }
405a1ba9ba4Schristos
406a1ba9ba4Schristos SI
ROLSI(val,shift)407a1ba9ba4Schristos ROLSI (val, shift)
408a1ba9ba4Schristos SI val;
409a1ba9ba4Schristos int shift;
410a1ba9ba4Schristos {
411a1ba9ba4Schristos if (shift != 0)
412a1ba9ba4Schristos {
413a1ba9ba4Schristos int remain = 32 - shift;
414a1ba9ba4Schristos int mask = (1 << remain) - 1;
415a1ba9ba4Schristos SI result = (val & mask) << shift;
416a1ba9ba4Schristos mask = (1 << shift) - 1;
417a1ba9ba4Schristos result |= (val >> remain) & mask;
418a1ba9ba4Schristos return result;
419a1ba9ba4Schristos }
420a1ba9ba4Schristos
421a1ba9ba4Schristos return val;
422a1ba9ba4Schristos }
423a1ba9ba4Schristos
424a1ba9ba4Schristos /* Emit an error message from CGEN RTL. */
425a1ba9ba4Schristos
426a1ba9ba4Schristos void
cgen_rtx_error(SIM_CPU * cpu,const char * msg)427a1ba9ba4Schristos cgen_rtx_error (SIM_CPU *cpu, const char * msg)
428a1ba9ba4Schristos {
429a1ba9ba4Schristos SIM_DESC sd = CPU_STATE (cpu);
430a1ba9ba4Schristos
431a1ba9ba4Schristos sim_io_printf (sd, msg);
432a1ba9ba4Schristos sim_io_printf (sd, "\n");
433a1ba9ba4Schristos
434a1ba9ba4Schristos sim_engine_halt (sd, cpu, NULL, CPU_PC_GET (cpu), sim_stopped, SIM_SIGTRAP);
435a1ba9ba4Schristos }
436