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e2810631 | 1 | /* Target-dependent code for the NEC V850 for GDB, the GNU debugger. |
ac954805 | 2 | Copyright 1996, Free Software Foundation, Inc. |
e2810631 SG |
3 | |
4 | This file is part of GDB. | |
5 | ||
6 | This program is free software; you can redistribute it and/or modify | |
7 | it under the terms of the GNU General Public License as published by | |
8 | the Free Software Foundation; either version 2 of the License, or | |
9 | (at your option) any later version. | |
10 | ||
11 | This program is distributed in the hope that it will be useful, | |
12 | but WITHOUT ANY WARRANTY; without even the implied warranty of | |
13 | MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the | |
14 | GNU General Public License for more details. | |
15 | ||
16 | You should have received a copy of the GNU General Public License | |
17 | along with this program; if not, write to the Free Software | |
18 | Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ | |
19 | ||
e2810631 SG |
20 | #include "defs.h" |
21 | #include "frame.h" | |
22 | #include "inferior.h" | |
23 | #include "obstack.h" | |
24 | #include "target.h" | |
25 | #include "value.h" | |
26 | #include "bfd.h" | |
27 | #include "gdb_string.h" | |
e2810631 | 28 | #include "gdbcore.h" |
23da411a SG |
29 | #include "symfile.h" |
30 | ||
60288633 MA |
31 | |
32 | static char *v850_generic_reg_names[] = REGISTER_NAMES; | |
33 | ||
34 | static char *v850e_reg_names[] = | |
35 | { | |
36 | "r0", "r1", "r2", "r3", "r4", "r5", "r6", "r7", | |
37 | "r8", "r9", "r10", "r11", "r12", "r13", "r14", "r15", | |
38 | "r16", "r17", "r18", "r19", "r20", "r21", "r22", "r23", | |
39 | "r24", "r25", "r26", "r27", "r28", "r29", "r30", "r31", | |
40 | "eipc", "eipsw", "fepc", "fepsw", "ecr", "psw", "sr6", "sr7", | |
41 | "sr8", "sr9", "sr10", "sr11", "sr12", "sr13", "sr14", "sr15", | |
42 | "ctpc", "ctpsw", "dbpc", "dbpsw", "ctbp", "sr21", "sr22", "sr23", | |
43 | "sr24", "sr25", "sr26", "sr27", "sr28", "sr29", "sr30", "sr31", | |
44 | "pc", "fp" | |
45 | }; | |
46 | ||
47 | char **v850_register_names = v850_generic_reg_names; | |
48 | ||
49 | struct | |
50 | { | |
51 | char **regnames; | |
52 | int mach; | |
53 | } v850_processor_type_table[] = | |
54 | { | |
55 | { v850_generic_reg_names, bfd_mach_v850 }, | |
56 | { v850e_reg_names, bfd_mach_v850e }, | |
57 | { v850e_reg_names, bfd_mach_v850ea }, | |
58 | { NULL, 0 } | |
59 | }; | |
60 | ||
23da411a SG |
61 | /* Info gleaned from scanning a function's prologue. */ |
62 | ||
a638512f SG |
63 | struct pifsr /* Info about one saved reg */ |
64 | { | |
65 | int framereg; /* Frame reg (SP or FP) */ | |
66 | int offset; /* Offset from framereg */ | |
a490f8c1 | 67 | int cur_frameoffset; /* Current frameoffset */ |
a638512f SG |
68 | int reg; /* Saved register number */ |
69 | }; | |
70 | ||
23da411a | 71 | struct prologue_info |
e5a2ac8b | 72 | { |
e5a2ac8b | 73 | int framereg; |
23da411a SG |
74 | int frameoffset; |
75 | int start_function; | |
a638512f | 76 | struct pifsr *pifsrs; |
23da411a | 77 | }; |
e5a2ac8b | 78 | |
dc1b349d MS |
79 | static CORE_ADDR v850_scan_prologue PARAMS ((CORE_ADDR pc, |
80 | struct prologue_info *fs)); | |
98760eab AC |
81 | |
82 | ||
83 | /* Should call_function allocate stack space for a struct return? */ | |
84 | int | |
85 | v850_use_struct_convention (gcc_p, type) | |
86 | int gcc_p; | |
87 | struct type *type; | |
88 | { | |
89 | return (TYPE_NFIELDS (type) > 1 || TYPE_LENGTH (type) > 4); | |
90 | } | |
91 | ||
60288633 MA |
92 | \f |
93 | ||
94 | /* Structure for mapping bits in register lists to register numbers. */ | |
95 | struct reg_list | |
96 | { | |
97 | long mask; | |
98 | int regno; | |
99 | }; | |
100 | ||
101 | /* Helper function for v850_scan_prologue to handle prepare instruction. */ | |
102 | ||
103 | static void | |
104 | handle_prepare (int insn, int insn2, CORE_ADDR *current_pc_ptr, | |
105 | struct prologue_info *pi, struct pifsr **pifsr_ptr) | |
106 | ||
107 | { | |
108 | CORE_ADDR current_pc = *current_pc_ptr; | |
109 | struct pifsr *pifsr = *pifsr_ptr; | |
110 | long next = insn2 & 0xffff; | |
111 | long list12 = ((insn & 1) << 16) + (next & 0xffe0); | |
112 | long offset = (insn & 0x3e) << 1; | |
113 | static struct reg_list reg_table [] = | |
114 | { | |
115 | { 0x00800, 20 }, /* r20 */ | |
116 | { 0x00400, 21 }, /* r21 */ | |
117 | { 0x00200, 22 }, /* r22 */ | |
118 | { 0x00100, 23 }, /* r23 */ | |
119 | { 0x08000, 24 }, /* r24 */ | |
120 | { 0x04000, 25 }, /* r25 */ | |
121 | { 0x02000, 26 }, /* r26 */ | |
122 | { 0x01000, 27 }, /* r27 */ | |
123 | { 0x00080, 28 }, /* r28 */ | |
124 | { 0x00040, 29 }, /* r29 */ | |
125 | { 0x10000, 30 }, /* ep */ | |
126 | { 0x00020, 31 }, /* lp */ | |
127 | { 0, 0 } /* end of table */ | |
128 | }; | |
129 | int i; | |
130 | ||
131 | if ((next & 0x1f) == 0x0b) /* skip imm16 argument */ | |
132 | current_pc += 2; | |
133 | else if ((next & 0x1f) == 0x13) /* skip imm16 argument */ | |
134 | current_pc += 2; | |
135 | else if ((next & 0x1f) == 0x1b) /* skip imm32 argument */ | |
136 | current_pc += 4; | |
137 | ||
138 | /* Calculate the total size of the saved registers, and add it | |
139 | it to the immediate value used to adjust SP. */ | |
140 | for (i = 0; reg_table[i].mask != 0; i++) | |
141 | if (list12 & reg_table[i].mask) | |
142 | offset += REGISTER_RAW_SIZE (regtable[i].regno); | |
143 | pi->frameoffset -= offset; | |
144 | ||
145 | /* Calculate the offsets of the registers relative to the value | |
146 | the SP will have after the registers have been pushed and the | |
147 | imm5 value has been subtracted from it. */ | |
148 | if (pifsr) | |
149 | { | |
150 | for (i = 0; reg_table[i].mask != 0; i++) | |
151 | { | |
152 | if (list12 & reg_table[i].mask) | |
153 | { | |
154 | int reg = reg_table[i].regno; | |
155 | offset -= REGISTER_RAW_SIZE (reg); | |
156 | pifsr->reg = reg; | |
157 | pifsr->offset = offset; | |
158 | pifsr->cur_frameoffset = pi->frameoffset; | |
159 | #ifdef DEBUG | |
160 | printf_filtered ("\tSaved register r%d, offset %d", reg, pifsr->offset); | |
161 | #endif | |
162 | pifsr++; | |
163 | } | |
164 | } | |
165 | } | |
166 | #ifdef DEBUG | |
167 | printf_filtered ("\tfound ctret after regsave func"); | |
168 | #endif | |
169 | ||
170 | /* Set result parameters. */ | |
171 | *current_pc_ptr = current_pc; | |
172 | *pifsr_ptr = pifsr; | |
173 | } | |
174 | ||
175 | ||
176 | /* Helper function for v850_scan_prologue to handle pushm/pushl instructions. | |
177 | FIXME: the SR bit of the register list is not supported; must check | |
178 | that the compiler does not ever generate this bit. */ | |
179 | ||
180 | static void | |
181 | handle_pushm (int insn, int insn2, struct prologue_info *pi, | |
182 | struct pifsr **pifsr_ptr) | |
183 | ||
184 | { | |
185 | struct pifsr *pifsr = *pifsr_ptr; | |
186 | long list12 = ((insn & 0x0f) << 16) + (insn2 & 0xfff0); | |
187 | long offset = 0; | |
188 | static struct reg_list pushml_reg_table [] = | |
189 | { | |
190 | { 0x80000, PS_REGNUM }, /* PSW */ | |
191 | { 0x40000, 1 }, /* r1 */ | |
192 | { 0x20000, 2 }, /* r2 */ | |
193 | { 0x10000, 3 }, /* r3 */ | |
194 | { 0x00800, 4 }, /* r4 */ | |
195 | { 0x00400, 5 }, /* r5 */ | |
196 | { 0x00200, 6 }, /* r6 */ | |
197 | { 0x00100, 7 }, /* r7 */ | |
198 | { 0x08000, 8 }, /* r8 */ | |
199 | { 0x04000, 9 }, /* r9 */ | |
200 | { 0x02000, 10 }, /* r10 */ | |
201 | { 0x01000, 11 }, /* r11 */ | |
202 | { 0x00080, 12 }, /* r12 */ | |
203 | { 0x00040, 13 }, /* r13 */ | |
204 | { 0x00020, 14 }, /* r14 */ | |
205 | { 0x00010, 15 }, /* r15 */ | |
206 | { 0, 0 } /* end of table */ | |
207 | }; | |
208 | static struct reg_list pushmh_reg_table [] = | |
209 | { | |
210 | { 0x80000, 16 }, /* r16 */ | |
211 | { 0x40000, 17 }, /* r17 */ | |
212 | { 0x20000, 18 }, /* r18 */ | |
213 | { 0x10000, 19 }, /* r19 */ | |
214 | { 0x00800, 20 }, /* r20 */ | |
215 | { 0x00400, 21 }, /* r21 */ | |
216 | { 0x00200, 22 }, /* r22 */ | |
217 | { 0x00100, 23 }, /* r23 */ | |
218 | { 0x08000, 24 }, /* r24 */ | |
219 | { 0x04000, 25 }, /* r25 */ | |
220 | { 0x02000, 26 }, /* r26 */ | |
221 | { 0x01000, 27 }, /* r27 */ | |
222 | { 0x00080, 28 }, /* r28 */ | |
223 | { 0x00040, 29 }, /* r29 */ | |
224 | { 0x00010, 30 }, /* r30 */ | |
225 | { 0x00020, 31 }, /* r31 */ | |
226 | { 0, 0 } /* end of table */ | |
227 | }; | |
228 | struct reg_list *reg_table; | |
229 | int i; | |
230 | ||
231 | /* Is this a pushml or a pushmh? */ | |
232 | if ((insn2 & 7) == 1) | |
233 | reg_table = pushml_reg_table; | |
234 | else | |
235 | reg_table = pushmh_reg_table; | |
236 | ||
237 | /* Calculate the total size of the saved registers, and add it | |
238 | it to the immediate value used to adjust SP. */ | |
239 | for (i = 0; reg_table[i].mask != 0; i++) | |
240 | if (list12 & reg_table[i].mask) | |
241 | offset += REGISTER_RAW_SIZE (regtable[i].regno); | |
242 | pi->frameoffset -= offset; | |
243 | ||
244 | /* Calculate the offsets of the registers relative to the value | |
245 | the SP will have after the registers have been pushed and the | |
246 | imm5 value is subtracted from it. */ | |
247 | if (pifsr) | |
248 | { | |
249 | for (i = 0; reg_table[i].mask != 0; i++) | |
250 | { | |
251 | if (list12 & reg_table[i].mask) | |
252 | { | |
253 | int reg = reg_table[i].regno; | |
254 | offset -= REGISTER_RAW_SIZE (reg); | |
255 | pifsr->reg = reg; | |
256 | pifsr->offset = offset; | |
257 | pifsr->cur_frameoffset = pi->frameoffset; | |
258 | #ifdef DEBUG | |
259 | printf_filtered ("\tSaved register r%d, offset %d", reg, pifsr->offset); | |
260 | #endif | |
261 | pifsr++; | |
262 | } | |
263 | } | |
264 | } | |
265 | #ifdef DEBUG | |
266 | printf_filtered ("\tfound ctret after regsave func"); | |
267 | #endif | |
268 | ||
269 | /* Set result parameters. */ | |
270 | *pifsr_ptr = pifsr; | |
271 | } | |
272 | ||
273 | ||
274 | ||
23da411a | 275 | \f |
dc1b349d MS |
276 | /* Function: scan_prologue |
277 | Scan the prologue of the function that contains PC, and record what | |
278 | we find in PI. PI->fsr must be zeroed by the called. Returns the | |
279 | pc after the prologue. Note that the addresses saved in pi->fsr | |
280 | are actually just frame relative (negative offsets from the frame | |
281 | pointer). This is because we don't know the actual value of the | |
282 | frame pointer yet. In some circumstances, the frame pointer can't | |
283 | be determined till after we have scanned the prologue. */ | |
23da411a SG |
284 | |
285 | static CORE_ADDR | |
dc1b349d | 286 | v850_scan_prologue (pc, pi) |
23da411a SG |
287 | CORE_ADDR pc; |
288 | struct prologue_info *pi; | |
289 | { | |
290 | CORE_ADDR func_addr, prologue_end, current_pc; | |
a490f8c1 | 291 | struct pifsr *pifsr, *pifsr_tmp; |
23da411a | 292 | int fp_used; |
b71f8719 | 293 | int ep_used; |
a490f8c1 MM |
294 | int reg; |
295 | CORE_ADDR save_pc, save_end; | |
296 | int regsave_func_p; | |
0b019fa1 | 297 | int r12_tmp; |
e5a2ac8b SG |
298 | |
299 | /* First, figure out the bounds of the prologue so that we can limit the | |
300 | search to something reasonable. */ | |
301 | ||
23da411a | 302 | if (find_pc_partial_function (pc, NULL, &func_addr, NULL)) |
e5a2ac8b | 303 | { |
23da411a SG |
304 | struct symtab_and_line sal; |
305 | ||
e5a2ac8b SG |
306 | sal = find_pc_line (func_addr, 0); |
307 | ||
23da411a SG |
308 | if (func_addr == entry_point_address ()) |
309 | pi->start_function = 1; | |
310 | else | |
311 | pi->start_function = 0; | |
312 | ||
a638512f | 313 | #if 0 |
ac954805 | 314 | if (sal.line == 0) |
23da411a | 315 | prologue_end = pc; |
ac954805 SG |
316 | else |
317 | prologue_end = sal.end; | |
a638512f SG |
318 | #else |
319 | prologue_end = pc; | |
320 | #endif | |
e5a2ac8b SG |
321 | } |
322 | else | |
23da411a SG |
323 | { /* We're in the boondocks */ |
324 | func_addr = pc - 100; | |
325 | prologue_end = pc; | |
326 | } | |
e5a2ac8b | 327 | |
23da411a | 328 | prologue_end = min (prologue_end, pc); |
e5a2ac8b SG |
329 | |
330 | /* Now, search the prologue looking for instructions that setup fp, save | |
23da411a SG |
331 | rp, adjust sp and such. We also record the frame offset of any saved |
332 | registers. */ | |
e5a2ac8b | 333 | |
23da411a SG |
334 | pi->frameoffset = 0; |
335 | pi->framereg = SP_REGNUM; | |
336 | fp_used = 0; | |
b71f8719 | 337 | ep_used = 0; |
a638512f | 338 | pifsr = pi->pifsrs; |
a490f8c1 MM |
339 | regsave_func_p = 0; |
340 | save_pc = 0; | |
341 | save_end = 0; | |
0b019fa1 | 342 | r12_tmp = 0; |
a490f8c1 MM |
343 | |
344 | #ifdef DEBUG | |
345 | printf_filtered ("Current_pc = 0x%.8lx, prologue_end = 0x%.8lx\n", | |
346 | (long)func_addr, (long)prologue_end); | |
347 | #endif | |
e5a2ac8b | 348 | |
60288633 | 349 | for (current_pc = func_addr; current_pc < prologue_end; ) |
e5a2ac8b | 350 | { |
60288633 | 351 | int insn, insn2; |
e5a2ac8b | 352 | |
a490f8c1 MM |
353 | #ifdef DEBUG |
354 | printf_filtered ("0x%.8lx ", (long)current_pc); | |
355 | (*tm_print_insn) (current_pc, &tm_print_insn_info); | |
356 | #endif | |
357 | ||
6420594b | 358 | insn = read_memory_unsigned_integer (current_pc, 2); |
60288633 MA |
359 | current_pc += 2; |
360 | if ((insn & 0x0780) >= 0x0600) /* Four byte instruction? */ | |
361 | { | |
362 | insn2 = read_memory_unsigned_integer (current_pc, 2); | |
363 | current_pc += 2; | |
364 | } | |
e5a2ac8b | 365 | |
a490f8c1 MM |
366 | if ((insn & 0xffc0) == ((10 << 11) | 0x0780) && !regsave_func_p) |
367 | { /* jarl <func>,10 */ | |
60288633 | 368 | long low_disp = insn2 & ~ (long) 1; |
a490f8c1 MM |
369 | long disp = (((((insn & 0x3f) << 16) + low_disp) |
370 | & ~ (long) 1) ^ 0x00200000) - 0x00200000; | |
371 | ||
372 | save_pc = current_pc; | |
373 | save_end = prologue_end; | |
374 | regsave_func_p = 1; | |
60288633 | 375 | current_pc += disp - 4; |
a490f8c1 MM |
376 | prologue_end = (current_pc |
377 | + (2 * 3) /* moves to/from ep */ | |
378 | + 4 /* addi <const>,sp,sp */ | |
379 | + 2 /* jmp [r10] */ | |
380 | + (2 * 12) /* sst.w to save r2, r20-r29, r31 */ | |
381 | + 20); /* slop area */ | |
382 | ||
383 | #ifdef DEBUG | |
384 | printf_filtered ("\tfound jarl <func>,r10, disp = %ld, low_disp = %ld, new pc = 0x%.8lx\n", | |
385 | disp, low_disp, (long)current_pc + 2); | |
386 | #endif | |
387 | continue; | |
388 | } | |
60288633 MA |
389 | else if ((insn & 0xffc0) == 0x0200 && !regsave_func_p) |
390 | { /* callt <imm6> */ | |
391 | long ctbp = read_register (CTBP_REGNUM); | |
392 | long adr = ctbp + ((insn & 0x3f) << 1); | |
393 | ||
394 | save_pc = current_pc; | |
395 | save_end = prologue_end; | |
396 | regsave_func_p = 1; | |
397 | current_pc = ctbp + (read_memory_unsigned_integer (adr, 2) & 0xffff); | |
398 | prologue_end = (current_pc | |
399 | + (2 * 3) /* prepare list2,imm5,sp/imm */ | |
400 | + 4 /* ctret */ | |
401 | + 20); /* slop area */ | |
402 | ||
403 | #ifdef DEBUG | |
404 | printf_filtered ("\tfound callt, ctbp = 0x%.8lx, adr = %.8lx, new pc = 0x%.8lx\n", | |
405 | ctbp, adr, (long)current_pc); | |
406 | #endif | |
407 | continue; | |
408 | } | |
409 | else if ((insn & 0xffc0) == 0x0780) /* prepare list2,imm5 */ | |
410 | { | |
411 | handle_prepare (insn, insn2, ¤t_pc, pi, &pifsr); | |
412 | continue; | |
413 | } | |
414 | else if (insn == 0x07e0 && regsave_func_p && insn2 == 0x0144) | |
415 | { /* ctret after processing register save function */ | |
416 | current_pc = save_pc; | |
417 | prologue_end = save_end; | |
418 | regsave_func_p = 0; | |
419 | #ifdef DEBUG | |
420 | printf_filtered ("\tfound ctret after regsave func"); | |
421 | #endif | |
422 | continue; | |
423 | } | |
424 | else if ((insn & 0xfff0) == 0x07e0 && (insn2 & 5) == 1) | |
425 | { /* pushml, pushmh */ | |
426 | handle_pushm (insn, insn2, pi, &pifsr); | |
427 | continue; | |
428 | } | |
a490f8c1 MM |
429 | else if ((insn & 0xffe0) == 0x0060 && regsave_func_p) |
430 | { /* jmp after processing register save function */ | |
60288633 | 431 | current_pc = save_pc; |
a490f8c1 MM |
432 | prologue_end = save_end; |
433 | regsave_func_p = 0; | |
434 | #ifdef DEBUG | |
435 | printf_filtered ("\tfound jmp after regsave func"); | |
436 | #endif | |
60288633 | 437 | continue; |
a490f8c1 MM |
438 | } |
439 | else if ((insn & 0x07c0) == 0x0780 /* jarl or jr */ | |
440 | || (insn & 0xffe0) == 0x0060 /* jmp */ | |
441 | || (insn & 0x0780) == 0x0580) /* branch */ | |
442 | { | |
443 | #ifdef DEBUG | |
444 | printf_filtered ("\n"); | |
445 | #endif | |
446 | break; /* Ran into end of prologue */ | |
447 | } | |
448 | ||
449 | else if ((insn & 0xffe0) == ((SP_REGNUM << 11) | 0x0240)) /* add <imm>,sp */ | |
450 | pi->frameoffset += ((insn & 0x1f) ^ 0x10) - 0x10; | |
451 | else if (insn == ((SP_REGNUM << 11) | 0x0600 | SP_REGNUM)) /* addi <imm>,sp,sp */ | |
60288633 | 452 | pi->frameoffset += insn2; |
ea45efcf | 453 | else if (insn == ((FP_RAW_REGNUM << 11) | 0x0000 | SP_REGNUM)) /* mov sp,fp */ |
e5a2ac8b | 454 | { |
23da411a | 455 | fp_used = 1; |
ea45efcf | 456 | pi->framereg = FP_RAW_REGNUM; |
23da411a | 457 | } |
a490f8c1 | 458 | |
0b019fa1 | 459 | else if (insn == ((R12_REGNUM << 11) | 0x0640 | R0_REGNUM)) /* movhi hi(const),r0,r12 */ |
60288633 | 460 | r12_tmp = insn2 << 16; |
0b019fa1 | 461 | else if (insn == ((R12_REGNUM << 11) | 0x0620 | R12_REGNUM)) /* movea lo(const),r12,r12 */ |
60288633 | 462 | r12_tmp += insn2; |
0b019fa1 MM |
463 | else if (insn == ((SP_REGNUM << 11) | 0x01c0 | R12_REGNUM) && r12_tmp) /* add r12,sp */ |
464 | pi->frameoffset = r12_tmp; | |
a490f8c1 | 465 | else if (insn == ((EP_REGNUM << 11) | 0x0000 | SP_REGNUM)) /* mov sp,ep */ |
b71f8719 | 466 | ep_used = 1; |
a490f8c1 | 467 | else if (insn == ((EP_REGNUM << 11) | 0x0000 | R1_REGNUM)) /* mov r1,ep */ |
b71f8719 | 468 | ep_used = 0; |
0b019fa1 | 469 | else if (((insn & 0x07ff) == (0x0760 | SP_REGNUM) /* st.w <reg>,<offset>[sp] */ |
b71f8719 | 470 | || (fp_used |
ea45efcf | 471 | && (insn & 0x07ff) == (0x0760 | FP_RAW_REGNUM))) /* st.w <reg>,<offset>[fp] */ |
a490f8c1 MM |
472 | && pifsr |
473 | && (((reg = (insn >> 11) & 0x1f) >= SAVE1_START_REGNUM && reg <= SAVE1_END_REGNUM) | |
474 | || (reg >= SAVE2_START_REGNUM && reg <= SAVE2_END_REGNUM) | |
475 | || (reg >= SAVE3_START_REGNUM && reg <= SAVE3_END_REGNUM))) | |
b71f8719 | 476 | { |
a490f8c1 | 477 | pifsr->reg = reg; |
60288633 | 478 | pifsr->offset = insn2 & ~1; |
a490f8c1 MM |
479 | pifsr->cur_frameoffset = pi->frameoffset; |
480 | #ifdef DEBUG | |
481 | printf_filtered ("\tSaved register r%d, offset %d", reg, pifsr->offset); | |
482 | #endif | |
b71f8719 MM |
483 | pifsr++; |
484 | } | |
485 | ||
a490f8c1 | 486 | else if (ep_used /* sst.w <reg>,<offset>[ep] */ |
b71f8719 | 487 | && ((insn & 0x0781) == 0x0501) |
a490f8c1 MM |
488 | && pifsr |
489 | && (((reg = (insn >> 11) & 0x1f) >= SAVE1_START_REGNUM && reg <= SAVE1_END_REGNUM) | |
490 | || (reg >= SAVE2_START_REGNUM && reg <= SAVE2_END_REGNUM) | |
491 | || (reg >= SAVE3_START_REGNUM && reg <= SAVE3_END_REGNUM))) | |
b71f8719 | 492 | { |
a490f8c1 MM |
493 | pifsr->reg = reg; |
494 | pifsr->offset = (insn & 0x007e) << 1; | |
495 | pifsr->cur_frameoffset = pi->frameoffset; | |
496 | #ifdef DEBUG | |
497 | printf_filtered ("\tSaved register r%d, offset %d", reg, pifsr->offset); | |
498 | #endif | |
b71f8719 MM |
499 | pifsr++; |
500 | } | |
6420594b | 501 | |
a490f8c1 MM |
502 | #ifdef DEBUG |
503 | printf_filtered ("\n"); | |
504 | #endif | |
e5a2ac8b SG |
505 | } |
506 | ||
a638512f SG |
507 | if (pifsr) |
508 | pifsr->framereg = 0; /* Tie off last entry */ | |
509 | ||
a490f8c1 MM |
510 | /* Fix up any offsets to the final offset. If a frame pointer was created, use it |
511 | instead of the stack pointer. */ | |
512 | for (pifsr_tmp = pi->pifsrs; pifsr_tmp && pifsr_tmp != pifsr; pifsr_tmp++) | |
513 | { | |
514 | pifsr_tmp->offset -= pi->frameoffset - pifsr_tmp->cur_frameoffset; | |
515 | pifsr_tmp->framereg = pi->framereg; | |
516 | ||
517 | #ifdef DEBUG | |
518 | printf_filtered ("Saved register r%d, offset = %d, framereg = r%d\n", | |
519 | pifsr_tmp->reg, pifsr_tmp->offset, pifsr_tmp->framereg); | |
520 | #endif | |
521 | } | |
522 | ||
523 | #ifdef DEBUG | |
524 | printf_filtered ("Framereg = r%d, frameoffset = %d\n", pi->framereg, pi->frameoffset); | |
525 | #endif | |
526 | ||
23da411a | 527 | return current_pc; |
e5a2ac8b SG |
528 | } |
529 | ||
dc1b349d MS |
530 | /* Function: init_extra_frame_info |
531 | Setup the frame's frame pointer, pc, and frame addresses for saved | |
532 | registers. Most of the work is done in scan_prologue(). | |
e5a2ac8b | 533 | |
23da411a SG |
534 | Note that when we are called for the last frame (currently active frame), |
535 | that fi->pc and fi->frame will already be setup. However, fi->frame will | |
536 | be valid only if this routine uses FP. For previous frames, fi-frame will | |
537 | always be correct (since that is derived from v850_frame_chain ()). | |
538 | ||
539 | We can be called with the PC in the call dummy under two circumstances. | |
540 | First, during normal backtracing, second, while figuring out the frame | |
dc1b349d | 541 | pointer just prior to calling the target function (see run_stack_dummy). */ |
23da411a SG |
542 | |
543 | void | |
544 | v850_init_extra_frame_info (fi) | |
e5a2ac8b | 545 | struct frame_info *fi; |
e5a2ac8b | 546 | { |
23da411a | 547 | struct prologue_info pi; |
a638512f | 548 | struct pifsr pifsrs[NUM_REGS + 1], *pifsr; |
23da411a SG |
549 | |
550 | if (fi->next) | |
551 | fi->pc = FRAME_SAVED_PC (fi->next); | |
552 | ||
553 | memset (fi->fsr.regs, '\000', sizeof fi->fsr.regs); | |
554 | ||
555 | /* The call dummy doesn't save any registers on the stack, so we can return | |
556 | now. */ | |
dc1b349d | 557 | if (PC_IN_CALL_DUMMY (fi->pc, fi->frame, fi->frame)) |
23da411a | 558 | return; |
ac954805 | 559 | |
a638512f | 560 | pi.pifsrs = pifsrs; |
e5a2ac8b | 561 | |
dc1b349d | 562 | v850_scan_prologue (fi->pc, &pi); |
23da411a | 563 | |
a638512f SG |
564 | if (!fi->next && pi.framereg == SP_REGNUM) |
565 | fi->frame = read_register (pi.framereg) - pi.frameoffset; | |
23da411a | 566 | |
a638512f SG |
567 | for (pifsr = pifsrs; pifsr->framereg; pifsr++) |
568 | { | |
569 | fi->fsr.regs[pifsr->reg] = pifsr->offset + fi->frame; | |
570 | ||
571 | if (pifsr->framereg == SP_REGNUM) | |
572 | fi->fsr.regs[pifsr->reg] += pi.frameoffset; | |
573 | } | |
e5a2ac8b SG |
574 | } |
575 | ||
dc1b349d MS |
576 | /* Function: frame_chain |
577 | Figure out the frame prior to FI. Unfortunately, this involves | |
578 | scanning the prologue of the caller, which will also be done | |
579 | shortly by v850_init_extra_frame_info. For the dummy frame, we | |
580 | just return the stack pointer that was in use at the time the | |
581 | function call was made. */ | |
23da411a | 582 | |
e5a2ac8b SG |
583 | CORE_ADDR |
584 | v850_frame_chain (fi) | |
585 | struct frame_info *fi; | |
586 | { | |
23da411a | 587 | struct prologue_info pi; |
dc1b349d | 588 | CORE_ADDR callers_pc, fp; |
e5a2ac8b SG |
589 | |
590 | /* First, find out who called us */ | |
ac954805 | 591 | callers_pc = FRAME_SAVED_PC (fi); |
dc1b349d | 592 | /* If caller is a call-dummy, then our FP bears no relation to his FP! */ |
ea45efcf | 593 | fp = v850_find_callers_reg (fi, FP_RAW_REGNUM); |
dc1b349d MS |
594 | if (PC_IN_CALL_DUMMY(callers_pc, fp, fp)) |
595 | return fp; /* caller is call-dummy: return oldest value of FP */ | |
ac954805 | 596 | |
dc1b349d MS |
597 | /* Caller is NOT a call-dummy, so everything else should just work. |
598 | Even if THIS frame is a call-dummy! */ | |
a638512f | 599 | pi.pifsrs = NULL; |
e5a2ac8b | 600 | |
dc1b349d | 601 | v850_scan_prologue (callers_pc, &pi); |
e5a2ac8b | 602 | |
23da411a SG |
603 | if (pi.start_function) |
604 | return 0; /* Don't chain beyond the start function */ | |
ac954805 | 605 | |
ea45efcf | 606 | if (pi.framereg == FP_RAW_REGNUM) |
23da411a | 607 | return v850_find_callers_reg (fi, pi.framereg); |
e5a2ac8b | 608 | |
23da411a SG |
609 | return fi->frame - pi.frameoffset; |
610 | } | |
e5a2ac8b | 611 | |
dc1b349d MS |
612 | /* Function: find_callers_reg |
613 | Find REGNUM on the stack. Otherwise, it's in an active register. | |
614 | One thing we might want to do here is to check REGNUM against the | |
615 | clobber mask, and somehow flag it as invalid if it isn't saved on | |
616 | the stack somewhere. This would provide a graceful failure mode | |
617 | when trying to get the value of caller-saves registers for an inner | |
618 | frame. */ | |
e5a2ac8b | 619 | |
23da411a SG |
620 | CORE_ADDR |
621 | v850_find_callers_reg (fi, regnum) | |
622 | struct frame_info *fi; | |
623 | int regnum; | |
624 | { | |
23da411a | 625 | for (; fi; fi = fi->next) |
dc1b349d MS |
626 | if (PC_IN_CALL_DUMMY (fi->pc, fi->frame, fi->frame)) |
627 | return generic_read_register_dummy (fi->pc, fi->frame, regnum); | |
23da411a | 628 | else if (fi->fsr.regs[regnum] != 0) |
dc1b349d MS |
629 | return read_memory_unsigned_integer (fi->fsr.regs[regnum], |
630 | REGISTER_RAW_SIZE(regnum)); | |
e5a2ac8b | 631 | |
23da411a | 632 | return read_register (regnum); |
e5a2ac8b SG |
633 | } |
634 | ||
dc1b349d MS |
635 | /* Function: skip_prologue |
636 | Return the address of the first code past the prologue of the function. */ | |
637 | ||
e5a2ac8b SG |
638 | CORE_ADDR |
639 | v850_skip_prologue (pc) | |
640 | CORE_ADDR pc; | |
641 | { | |
642 | CORE_ADDR func_addr, func_end; | |
643 | ||
644 | /* See what the symbol table says */ | |
645 | ||
646 | if (find_pc_partial_function (pc, NULL, &func_addr, &func_end)) | |
647 | { | |
648 | struct symtab_and_line sal; | |
649 | ||
650 | sal = find_pc_line (func_addr, 0); | |
651 | ||
ac954805 | 652 | if (sal.line != 0 && sal.end < func_end) |
e5a2ac8b SG |
653 | return sal.end; |
654 | else | |
ac954805 SG |
655 | /* Either there's no line info, or the line after the prologue is after |
656 | the end of the function. In this case, there probably isn't a | |
657 | prologue. */ | |
e5a2ac8b SG |
658 | return pc; |
659 | } | |
660 | ||
661 | /* We can't find the start of this function, so there's nothing we can do. */ | |
662 | return pc; | |
663 | } | |
664 | ||
dc1b349d MS |
665 | /* Function: pop_frame |
666 | This routine gets called when either the user uses the `return' | |
667 | command, or the call dummy breakpoint gets hit. */ | |
ac954805 SG |
668 | |
669 | void | |
e5a2ac8b SG |
670 | v850_pop_frame (frame) |
671 | struct frame_info *frame; | |
672 | { | |
673 | int regnum; | |
674 | ||
dc1b349d MS |
675 | if (PC_IN_CALL_DUMMY(frame->pc, frame->frame, frame->frame)) |
676 | generic_pop_dummy_frame (); | |
23da411a SG |
677 | else |
678 | { | |
679 | write_register (PC_REGNUM, FRAME_SAVED_PC (frame)); | |
ac954805 | 680 | |
23da411a SG |
681 | for (regnum = 0; regnum < NUM_REGS; regnum++) |
682 | if (frame->fsr.regs[regnum] != 0) | |
683 | write_register (regnum, | |
dc1b349d MS |
684 | read_memory_unsigned_integer (frame->fsr.regs[regnum], |
685 | REGISTER_RAW_SIZE(regnum))); | |
e5a2ac8b | 686 | |
23da411a SG |
687 | write_register (SP_REGNUM, FRAME_FP (frame)); |
688 | } | |
e5a2ac8b | 689 | |
e5a2ac8b | 690 | flush_cached_frames (); |
e5a2ac8b | 691 | } |
ac954805 | 692 | |
dc1b349d MS |
693 | /* Function: push_arguments |
694 | Setup arguments and RP for a call to the target. First four args | |
695 | go in R6->R9, subsequent args go into sp + 16 -> sp + ... Structs | |
696 | are passed by reference. 64 bit quantities (doubles and long | |
697 | longs) may be split between the regs and the stack. When calling a | |
698 | function that returns a struct, a pointer to the struct is passed | |
699 | in as a secret first argument (always in R6). | |
ac954805 | 700 | |
dc1b349d MS |
701 | Stack space for the args has NOT been allocated: that job is up to us. |
702 | */ | |
ac954805 SG |
703 | |
704 | CORE_ADDR | |
705 | v850_push_arguments (nargs, args, sp, struct_return, struct_addr) | |
706 | int nargs; | |
707 | value_ptr *args; | |
708 | CORE_ADDR sp; | |
709 | unsigned char struct_return; | |
710 | CORE_ADDR struct_addr; | |
711 | { | |
712 | int argreg; | |
713 | int argnum; | |
dc1b349d MS |
714 | int len = 0; |
715 | int stack_offset; | |
ac954805 | 716 | |
dc1b349d MS |
717 | /* First, just for safety, make sure stack is aligned */ |
718 | sp &= ~3; | |
719 | ||
720 | /* Now make space on the stack for the args. */ | |
721 | for (argnum = 0; argnum < nargs; argnum++) | |
722 | len += ((TYPE_LENGTH(VALUE_TYPE(args[argnum])) + 3) & ~3); | |
723 | sp -= len; /* possibly over-allocating, but it works... */ | |
724 | /* (you might think we could allocate 16 bytes */ | |
725 | /* less, but the ABI seems to use it all! ) */ | |
687f4e23 | 726 | argreg = ARG0_REGNUM; |
ac954805 | 727 | |
dc1b349d | 728 | /* the struct_return pointer occupies the first parameter-passing reg */ |
ac954805 | 729 | if (struct_return) |
ac954805 | 730 | write_register (argreg++, struct_addr); |
ac954805 | 731 | |
dc1b349d MS |
732 | stack_offset = 16; |
733 | /* The offset onto the stack at which we will start copying parameters | |
734 | (after the registers are used up) begins at 16 rather than at zero. | |
735 | I don't really know why, that's just the way it seems to work. */ | |
736 | ||
737 | /* Now load as many as possible of the first arguments into | |
738 | registers, and push the rest onto the stack. There are 16 bytes | |
739 | in four registers available. Loop thru args from first to last. */ | |
ac954805 SG |
740 | for (argnum = 0; argnum < nargs; argnum++) |
741 | { | |
742 | int len; | |
743 | char *val; | |
dc1b349d | 744 | char valbuf[REGISTER_RAW_SIZE(ARG0_REGNUM)]; |
ac954805 SG |
745 | |
746 | if (TYPE_CODE (VALUE_TYPE (*args)) == TYPE_CODE_STRUCT | |
747 | && TYPE_LENGTH (VALUE_TYPE (*args)) > 8) | |
748 | { | |
749 | store_address (valbuf, 4, VALUE_ADDRESS (*args)); | |
750 | len = 4; | |
751 | val = valbuf; | |
752 | } | |
753 | else | |
754 | { | |
755 | len = TYPE_LENGTH (VALUE_TYPE (*args)); | |
756 | val = (char *)VALUE_CONTENTS (*args); | |
757 | } | |
758 | ||
759 | while (len > 0) | |
687f4e23 | 760 | if (argreg <= ARGLAST_REGNUM) |
ac954805 SG |
761 | { |
762 | CORE_ADDR regval; | |
763 | ||
764 | regval = extract_address (val, REGISTER_RAW_SIZE (argreg)); | |
765 | write_register (argreg, regval); | |
766 | ||
767 | len -= REGISTER_RAW_SIZE (argreg); | |
768 | val += REGISTER_RAW_SIZE (argreg); | |
769 | argreg++; | |
770 | } | |
771 | else | |
772 | { | |
dc1b349d | 773 | write_memory (sp + stack_offset, val, 4); |
ac954805 SG |
774 | |
775 | len -= 4; | |
776 | val += 4; | |
dc1b349d | 777 | stack_offset += 4; |
ac954805 SG |
778 | } |
779 | args++; | |
780 | } | |
dc1b349d MS |
781 | return sp; |
782 | } | |
ac954805 | 783 | |
dc1b349d MS |
784 | /* Function: push_return_address (pc) |
785 | Set up the return address for the inferior function call. | |
786 | Needed for targets where we don't actually execute a JSR/BSR instruction */ | |
787 | ||
dc1b349d MS |
788 | CORE_ADDR |
789 | v850_push_return_address (pc, sp) | |
790 | CORE_ADDR pc; | |
791 | CORE_ADDR sp; | |
792 | { | |
409f64ae | 793 | write_register (RP_REGNUM, CALL_DUMMY_ADDRESS ()); |
ac954805 SG |
794 | return sp; |
795 | } | |
dc1b349d MS |
796 | |
797 | /* Function: frame_saved_pc | |
798 | Find the caller of this frame. We do this by seeing if RP_REGNUM | |
799 | is saved in the stack anywhere, otherwise we get it from the | |
800 | registers. If the inner frame is a dummy frame, return its PC | |
801 | instead of RP, because that's where "caller" of the dummy-frame | |
802 | will be found. */ | |
803 | ||
804 | CORE_ADDR | |
805 | v850_frame_saved_pc (fi) | |
806 | struct frame_info *fi; | |
807 | { | |
808 | if (PC_IN_CALL_DUMMY(fi->pc, fi->frame, fi->frame)) | |
809 | return generic_read_register_dummy(fi->pc, fi->frame, PC_REGNUM); | |
810 | else | |
811 | return v850_find_callers_reg (fi, RP_REGNUM); | |
812 | } | |
813 | ||
814 | void | |
815 | get_saved_register (raw_buffer, optimized, addrp, frame, regnum, lval) | |
816 | char *raw_buffer; | |
817 | int *optimized; | |
818 | CORE_ADDR *addrp; | |
819 | struct frame_info *frame; | |
820 | int regnum; | |
821 | enum lval_type *lval; | |
822 | { | |
823 | generic_get_saved_register (raw_buffer, optimized, addrp, | |
824 | frame, regnum, lval); | |
825 | } | |
826 | ||
827 | ||
828 | /* Function: fix_call_dummy | |
829 | Pokes the callee function's address into the CALL_DUMMY assembly stub. | |
830 | Assumes that the CALL_DUMMY looks like this: | |
831 | jarl <offset24>, r31 | |
832 | trap | |
833 | */ | |
834 | ||
835 | int | |
836 | v850_fix_call_dummy (dummy, sp, fun, nargs, args, type, gcc_p) | |
837 | char *dummy; | |
838 | CORE_ADDR sp; | |
839 | CORE_ADDR fun; | |
840 | int nargs; | |
841 | value_ptr *args; | |
842 | struct type *type; | |
843 | int gcc_p; | |
844 | { | |
845 | long offset24; | |
dc1b349d | 846 | |
409f64ae | 847 | offset24 = (long) fun - (long) entry_point_address (); |
dc1b349d MS |
848 | offset24 &= 0x3fffff; |
849 | offset24 |= 0xff800000; /* jarl <offset24>, r31 */ | |
850 | ||
851 | store_unsigned_integer ((unsigned int *)&dummy[2], 2, offset24 & 0xffff); | |
852 | store_unsigned_integer ((unsigned int *)&dummy[0], 2, offset24 >> 16); | |
853 | return 0; | |
854 | } | |
855 | ||
60288633 MA |
856 | /* Change the register names based on the current machine type. */ |
857 | ||
858 | static int | |
859 | v850_target_architecture_hook (ap) | |
860 | const bfd_arch_info_type *ap; | |
861 | { | |
862 | int i, j; | |
863 | ||
864 | if (ap->arch != bfd_arch_v850) | |
865 | return 0; | |
866 | ||
867 | for (i = 0; v850_processor_type_table[i].regnames != NULL; i++) | |
868 | { | |
869 | if (v850_processor_type_table[i].mach == ap->mach) | |
870 | { | |
871 | v850_register_names = v850_processor_type_table[i].regnames; | |
872 | return 1; | |
873 | } | |
874 | } | |
875 | ||
876 | fatal ("Architecture `%s' unreconized", ap->printable_name); | |
877 | } | |
878 | ||
e2810631 | 879 | void |
dc1b349d | 880 | _initialize_v850_tdep () |
e2810631 SG |
881 | { |
882 | tm_print_insn = print_insn_v850; | |
60288633 | 883 | target_architecture_hook = v850_target_architecture_hook; |
e2810631 | 884 | } |