Add DRD suppression patterns for races triggered by std::ostream
[valgrind.git] / coregrind / m_gdbserver / valgrind-low-ppc64.c
blob3c6146c59a63795455925807ac8413aa1ff9e197
1 /* Low level interface to valgrind, for the remote server for GDB integrated
2 in valgrind.
3 Copyright (C) 2011
4 Free Software Foundation, Inc.
6 This file is part of VALGRIND.
7 It has been inspired from a file from gdbserver in gdb 6.6.
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 2 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, write to the Free Software
21 Foundation, Inc., 51 Franklin Street, Fifth Floor,
22 Boston, MA 02110-1301, USA. */
24 #include "server.h"
25 #include "target.h"
26 #include "regdef.h"
27 #include "regcache.h"
29 #include "pub_core_machine.h"
30 #include "pub_core_threadstate.h"
31 #include "pub_core_transtab.h"
32 #include "pub_core_gdbserver.h"
34 #include "valgrind_low.h"
36 #include "libvex_guest_ppc64.h"
38 /* The PPC64 register layout with vs register support (Power 7 and beyond)
39 consists of 64 VSR registers of size 128-bits. The 32 floating point
40 registers fp map to the upper 64-bits of vsr[0] to vsr[31]. The 32
41 vr[0] to vr[31] registers of size 128-bits map to vsr[31] to vsr[63]. The
42 lower 64-bits of the vsr[0] to vsr[31] registers are in the pseudo
43 registers vs[0]h to vs[31]h registers. These pseudo registers get printed
44 by GDB but there are no instructions that directly access these registers.
45 When GDB prints the vsr[0] to vsr[31] registers it combines the contents
46 of the floating point registers fp[0] to fp[31] and its corresponding
47 vs[0]h to vs[31]h registers to display the VSR contents. The vsr[32]
48 to vsr[63] contents are the same as the the vr[0] to vr[31] contents.
50 GDB also prints fp[32] to fp[63]. These are simply the upper 64 bits of
51 vsr[32] to vsr[63] however, these are not "real" floating point registers
52 as none of the floating point instructions can access these registers.
54 Register map.
55 MSB IBM bit numbering LSB
56 0 63 64 127
57 vsr[0] | fp[0] | vs[0]h |
58 vsr[1] | fp[1] | vs[1]h |
59 vsr[2] | fp[2] | vs[2]h |
60 ...
61 vsr[31] | fp[31] | vs[31]h |
62 vsr[32] | vr[0] |
63 vsr[33] | vr[1] |
64 ...
65 vsr[63] | vr[31] |
67 Note, not shown above are the fake fp[32] to fp[63] that GDB prints
69 Valgrind has two shadow registers for each real register denoted with
70 the suffix s1 and s2. When printing the contents of the shadow registers,
71 GDB does not explicitly print the shadow registers vsr[0] to vsr[63]. GDB
72 prints the shadow register contents of the 32 floating point registers as
73 fp[0]s1 to fp[31]s1 and fp[0]s2 to fp[31]s2. The shadow register contents
74 of vs[0]hs1 to vs[31]hs1 and vs[0]hs2 to vs[31]hs2 are also printed. The
75 user needs to construct the vsr[i]s1 shadow register contents by looking
76 at fp[i]s1 for the upper 64-bits and vs[i]hs1 for the lower 64-bits. The
77 vsr[i]s2 shadow register contents are constructed similarly.
79 GDB prints the 128-bit shadow register contents of the 32 vr registers as
80 vr[0]s1 to vr[31]s1 and vr[0]s2 to vr[31]s2. These are also the value of the
81 VSR shadow registers vsr[32]s1 to vsr[63]s1 and vsr[32]s2 to vsr[63]s2. */
83 static struct reg regs[] = {
84 { "r0", 0, 64 },
85 { "r1", 64, 64 },
86 { "r2", 128, 64 },
87 { "r3", 192, 64 },
88 { "r4", 256, 64 },
89 { "r5", 320, 64 },
90 { "r6", 384, 64 },
91 { "r7", 448, 64 },
92 { "r8", 512, 64 },
93 { "r9", 576, 64 },
94 { "r10", 640, 64 },
95 { "r11", 704, 64 },
96 { "r12", 768, 64 },
97 { "r13", 832, 64 },
98 { "r14", 896, 64 },
99 { "r15", 960, 64 },
100 { "r16", 1024, 64 },
101 { "r17", 1088, 64 },
102 { "r18", 1152, 64 },
103 { "r19", 1216, 64 },
104 { "r20", 1280, 64 },
105 { "r21", 1344, 64 },
106 { "r22", 1408, 64 },
107 { "r23", 1472, 64 },
108 { "r24", 1536, 64 },
109 { "r25", 1600, 64 },
110 { "r26", 1664, 64 },
111 { "r27", 1728, 64 },
112 { "r28", 1792, 64 },
113 { "r29", 1856, 64 },
114 { "r30", 1920, 64 },
115 { "r31", 1984, 64 },
116 { "f0", 2048, 64 },
117 { "f1", 2112, 64 },
118 { "f2", 2176, 64 },
119 { "f3", 2240, 64 },
120 { "f4", 2304, 64 },
121 { "f5", 2368, 64 },
122 { "f6", 2432, 64 },
123 { "f7", 2496, 64 },
124 { "f8", 2560, 64 },
125 { "f9", 2624, 64 },
126 { "f10", 2688, 64 },
127 { "f11", 2752, 64 },
128 { "f12", 2816, 64 },
129 { "f13", 2880, 64 },
130 { "f14", 2944, 64 },
131 { "f15", 3008, 64 },
132 { "f16", 3072, 64 },
133 { "f17", 3136, 64 },
134 { "f18", 3200, 64 },
135 { "f19", 3264, 64 },
136 { "f20", 3328, 64 },
137 { "f21", 3392, 64 },
138 { "f22", 3456, 64 },
139 { "f23", 3520, 64 },
140 { "f24", 3584, 64 },
141 { "f25", 3648, 64 },
142 { "f26", 3712, 64 },
143 { "f27", 3776, 64 },
144 { "f28", 3840, 64 },
145 { "f29", 3904, 64 },
146 { "f30", 3968, 64 },
147 { "f31", 4032, 64 },
148 { "pc", 4096, 64 },
149 { "msr", 4160, 64 },
150 { "cr", 4224, 32 },
151 { "lr", 4256, 64 },
152 { "ctr", 4320, 64 },
153 { "xer", 4384, 32 },
154 { "fpscr", 4416, 32 },
155 { "orig_r3", 4448, 64 },
156 { "trap", 4512, 64 },
157 { "vr0", 4576, 128 },
158 { "vr1", 4704, 128 },
159 { "vr2", 4832, 128 },
160 { "vr3", 4960, 128 },
161 { "vr4", 5088, 128 },
162 { "vr5", 5216, 128 },
163 { "vr6", 5344, 128 },
164 { "vr7", 5472, 128 },
165 { "vr8", 5600, 128 },
166 { "vr9", 5728, 128 },
167 { "vr10", 5856, 128 },
168 { "vr11", 5984, 128 },
169 { "vr12", 6112, 128 },
170 { "vr13", 6240, 128 },
171 { "vr14", 6368, 128 },
172 { "vr15", 6496, 128 },
173 { "vr16", 6624, 128 },
174 { "vr17", 6752, 128 },
175 { "vr18", 6880, 128 },
176 { "vr19", 7008, 128 },
177 { "vr20", 7136, 128 },
178 { "vr21", 7264, 128 },
179 { "vr22", 7392, 128 },
180 { "vr23", 7520, 128 },
181 { "vr24", 7648, 128 },
182 { "vr25", 7776, 128 },
183 { "vr26", 7904, 128 },
184 { "vr27", 8032, 128 },
185 { "vr28", 8160, 128 },
186 { "vr29", 8288, 128 },
187 { "vr30", 8416, 128 },
188 { "vr31", 8544, 128 },
189 { "vscr", 8672, 32 },
190 { "vrsave", 8704, 32 },
191 { "vs0h", 8736, 64 },
192 { "vs1h", 8800, 64 },
193 { "vs2h", 8864, 64 },
194 { "vs3h", 8928, 64 },
195 { "vs4h", 8992, 64 },
196 { "vs5h", 9056, 64 },
197 { "vs6h", 9120, 64 },
198 { "vs7h", 9184, 64 },
199 { "vs8h", 9248, 64 },
200 { "vs9h", 9312, 64 },
201 { "vs10h", 9376, 64 },
202 { "vs11h", 9440, 64 },
203 { "vs12h", 9504, 64 },
204 { "vs13h", 9568, 64 },
205 { "vs14h", 9632, 64 },
206 { "vs15h", 9696, 64 },
207 { "vs16h", 9760, 64 },
208 { "vs17h", 9824, 64 },
209 { "vs18h", 9888, 64 },
210 { "vs19h", 9952, 64 },
211 { "vs20h", 10016, 64 },
212 { "vs21h", 10080, 64 },
213 { "vs22h", 10144, 64 },
214 { "vs23h", 10208, 64 },
215 { "vs24h", 10272, 64 },
216 { "vs25h", 10336, 64 },
217 { "vs26h", 10400, 64 },
218 { "vs27h", 10464, 64 },
219 { "vs28h", 10528, 64 },
220 { "vs29h", 10592, 64 },
221 { "vs30h", 10656, 64 },
222 { "vs31h", 10720, 64 },
225 static const char *expedite_regs[] = { "r1", "pc", 0 };
226 #define num_regs (sizeof (regs) / sizeof (regs[0]))
228 static
229 CORE_ADDR get_pc (void)
231 unsigned long pc;
233 collect_register_by_name ("pc", &pc);
235 dlog(1, "stop pc is %p\n", (void *) pc);
236 return pc;
239 static
240 void set_pc (CORE_ADDR newpc)
242 Bool mod;
243 supply_register_by_name ("pc", &newpc, &mod);
244 if (mod)
245 dlog(1, "set pc to %p\n", C2v (newpc));
246 else
247 dlog(1, "set pc not changed %p\n", C2v (newpc));
250 /* store registers in the guest state (gdbserver_to_valgrind)
251 or fetch register from the guest state (valgrind_to_gdbserver). */
252 static
253 void transfer_register (ThreadId tid, int abs_regno, void * buf,
254 transfer_direction dir, int size, Bool *mod)
256 ThreadState* tst = VG_(get_ThreadState)(tid);
257 int set = abs_regno / num_regs;
258 int regno = abs_regno % num_regs;
259 int low_offset, high_offset;
261 *mod = False;
263 VexGuestPPC64State* ppc64 = (VexGuestPPC64State*) get_arch (set, tst);
266 #if defined (VG_LITTLEENDIAN)
267 /* Fetch the 64-bits for the VR registers (VSR[32] to VSR[63] stored as
268 * Little Endian. The 128-bit value is stored as an array of four 32-bit
269 * values. The lower 32-bits are in element 0 in Little Endian format.
271 low_offset = 0;
273 /* Fetch the upper 64-bits for the floating point register stored as
274 * Little Endian. The 128-bit value is stored as an array of four 32-bit
275 * values. The upper 32-bits are in element 3 in Little Endian format.
277 high_offset = 2;
278 #elif defined (VG_BIGENDIAN)
279 /* Fetch the 64-bits for the VR registers (VSR[32] to VSR[63] stored as
280 * Little Endian. The 128-bit value is stored as an array of four 32-bit
281 * values. The lower 32-bits are in element 3 in Big Endian format.
283 low_offset = 2;
285 /* Fetch the upper 64-bits for the floating point register stored as
286 * Little Endian. The 128-bit value is stored as an array of four 32-bit
287 * values. The upper 32-bits are in element 0 in Big Endian format.
289 high_offset = 0;
290 #else
291 # error "Unknown endianness"
292 #endif
294 switch (regno) {
295 // numbers here have to match the order of regs above
296 // Attention: gdb order does not match valgrind order.
297 case 0: VG_(transfer) (&ppc64->guest_GPR0, buf, dir, size, mod); break;
298 case 1: VG_(transfer) (&ppc64->guest_GPR1, buf, dir, size, mod); break;
299 case 2: VG_(transfer) (&ppc64->guest_GPR2, buf, dir, size, mod); break;
300 case 3: VG_(transfer) (&ppc64->guest_GPR3, buf, dir, size, mod); break;
301 case 4: VG_(transfer) (&ppc64->guest_GPR4, buf, dir, size, mod); break;
302 case 5: VG_(transfer) (&ppc64->guest_GPR5, buf, dir, size, mod); break;
303 case 6: VG_(transfer) (&ppc64->guest_GPR6, buf, dir, size, mod); break;
304 case 7: VG_(transfer) (&ppc64->guest_GPR7, buf, dir, size, mod); break;
305 case 8: VG_(transfer) (&ppc64->guest_GPR8, buf, dir, size, mod); break;
306 case 9: VG_(transfer) (&ppc64->guest_GPR9, buf, dir, size, mod); break;
307 case 10: VG_(transfer) (&ppc64->guest_GPR10, buf, dir, size, mod); break;
308 case 11: VG_(transfer) (&ppc64->guest_GPR11, buf, dir, size, mod); break;
309 case 12: VG_(transfer) (&ppc64->guest_GPR12, buf, dir, size, mod); break;
310 case 13: VG_(transfer) (&ppc64->guest_GPR13, buf, dir, size, mod); break;
311 case 14: VG_(transfer) (&ppc64->guest_GPR14, buf, dir, size, mod); break;
312 case 15: VG_(transfer) (&ppc64->guest_GPR15, buf, dir, size, mod); break;
313 case 16: VG_(transfer) (&ppc64->guest_GPR16, buf, dir, size, mod); break;
314 case 17: VG_(transfer) (&ppc64->guest_GPR17, buf, dir, size, mod); break;
315 case 18: VG_(transfer) (&ppc64->guest_GPR18, buf, dir, size, mod); break;
316 case 19: VG_(transfer) (&ppc64->guest_GPR19, buf, dir, size, mod); break;
317 case 20: VG_(transfer) (&ppc64->guest_GPR20, buf, dir, size, mod); break;
318 case 21: VG_(transfer) (&ppc64->guest_GPR21, buf, dir, size, mod); break;
319 case 22: VG_(transfer) (&ppc64->guest_GPR22, buf, dir, size, mod); break;
320 case 23: VG_(transfer) (&ppc64->guest_GPR23, buf, dir, size, mod); break;
321 case 24: VG_(transfer) (&ppc64->guest_GPR24, buf, dir, size, mod); break;
322 case 25: VG_(transfer) (&ppc64->guest_GPR25, buf, dir, size, mod); break;
323 case 26: VG_(transfer) (&ppc64->guest_GPR26, buf, dir, size, mod); break;
324 case 27: VG_(transfer) (&ppc64->guest_GPR27, buf, dir, size, mod); break;
325 case 28: VG_(transfer) (&ppc64->guest_GPR28, buf, dir, size, mod); break;
326 case 29: VG_(transfer) (&ppc64->guest_GPR29, buf, dir, size, mod); break;
327 case 30: VG_(transfer) (&ppc64->guest_GPR30, buf, dir, size, mod); break;
328 case 31: VG_(transfer) (&ppc64->guest_GPR31, buf, dir, size, mod); break;
330 case 32: VG_(transfer) (&ppc64->guest_VSR0[high_offset], buf, dir, size, mod); break;
331 case 33: VG_(transfer) (&ppc64->guest_VSR1[high_offset], buf, dir, size, mod); break;
332 case 34: VG_(transfer) (&ppc64->guest_VSR2[high_offset], buf, dir, size, mod); break;
333 case 35: VG_(transfer) (&ppc64->guest_VSR3[high_offset], buf, dir, size, mod); break;
334 case 36: VG_(transfer) (&ppc64->guest_VSR4[high_offset], buf, dir, size, mod); break;
335 case 37: VG_(transfer) (&ppc64->guest_VSR5[high_offset], buf, dir, size, mod); break;
336 case 38: VG_(transfer) (&ppc64->guest_VSR6[high_offset], buf, dir, size, mod); break;
337 case 39: VG_(transfer) (&ppc64->guest_VSR7[high_offset], buf, dir, size, mod); break;
338 case 40: VG_(transfer) (&ppc64->guest_VSR8[high_offset], buf, dir, size, mod); break;
339 case 41: VG_(transfer) (&ppc64->guest_VSR9[high_offset], buf, dir, size, mod); break;
340 case 42: VG_(transfer) (&ppc64->guest_VSR10[high_offset], buf, dir, size, mod); break;
341 case 43: VG_(transfer) (&ppc64->guest_VSR11[high_offset], buf, dir, size, mod); break;
342 case 44: VG_(transfer) (&ppc64->guest_VSR12[high_offset], buf, dir, size, mod); break;
343 case 45: VG_(transfer) (&ppc64->guest_VSR13[high_offset], buf, dir, size, mod); break;
344 case 46: VG_(transfer) (&ppc64->guest_VSR14[high_offset], buf, dir, size, mod); break;
345 case 47: VG_(transfer) (&ppc64->guest_VSR15[high_offset], buf, dir, size, mod); break;
346 case 48: VG_(transfer) (&ppc64->guest_VSR16[high_offset], buf, dir, size, mod); break;
347 case 49: VG_(transfer) (&ppc64->guest_VSR17[high_offset], buf, dir, size, mod); break;
348 case 50: VG_(transfer) (&ppc64->guest_VSR18[high_offset], buf, dir, size, mod); break;
349 case 51: VG_(transfer) (&ppc64->guest_VSR19[high_offset], buf, dir, size, mod); break;
350 case 52: VG_(transfer) (&ppc64->guest_VSR20[high_offset], buf, dir, size, mod); break;
351 case 53: VG_(transfer) (&ppc64->guest_VSR21[high_offset], buf, dir, size, mod); break;
352 case 54: VG_(transfer) (&ppc64->guest_VSR22[high_offset], buf, dir, size, mod); break;
353 case 55: VG_(transfer) (&ppc64->guest_VSR23[high_offset], buf, dir, size, mod); break;
354 case 56: VG_(transfer) (&ppc64->guest_VSR24[high_offset], buf, dir, size, mod); break;
355 case 57: VG_(transfer) (&ppc64->guest_VSR25[high_offset], buf, dir, size, mod); break;
356 case 58: VG_(transfer) (&ppc64->guest_VSR26[high_offset], buf, dir, size, mod); break;
357 case 59: VG_(transfer) (&ppc64->guest_VSR27[high_offset], buf, dir, size, mod); break;
358 case 60: VG_(transfer) (&ppc64->guest_VSR28[high_offset], buf, dir, size, mod); break;
359 case 61: VG_(transfer) (&ppc64->guest_VSR29[high_offset], buf, dir, size, mod); break;
360 case 62: VG_(transfer) (&ppc64->guest_VSR30[high_offset], buf, dir, size, mod); break;
361 case 63: VG_(transfer) (&ppc64->guest_VSR31[high_offset], buf, dir, size, mod); break;
363 case 64: VG_(transfer) (&ppc64->guest_CIA, buf, dir, size, mod); break;
364 case 65: *mod = False; break; // VEX does not model Machine State Register
365 case 66: {
366 UInt cr = LibVEX_GuestPPC64_get_CR (ppc64);
367 if (dir == valgrind_to_gdbserver) {
368 VG_(transfer) (&cr, buf, dir, size, mod);
369 } else {
370 UInt newcr;
371 VG_(transfer) (&newcr, buf, dir, size, mod);
372 *mod = newcr != cr;
373 LibVEX_GuestPPC64_put_CR (newcr, ppc64);
375 break;
377 case 67: VG_(transfer) (&ppc64->guest_LR, buf, dir, size, mod); break;
378 case 68: VG_(transfer) (&ppc64->guest_CTR, buf, dir, size, mod); break;
379 case 69: {
380 UInt xer = LibVEX_GuestPPC64_get_XER (ppc64);
381 if (dir == valgrind_to_gdbserver) {
382 VG_(transfer) (&xer, buf, dir, size, mod);
383 } else {
384 UInt newxer;
385 VG_(transfer) (&newxer, buf, dir, size, mod);
386 *mod = newxer != xer;
387 LibVEX_GuestPPC64_put_XER (newxer, ppc64);
389 break;
391 case 70: VG_(transfer) (&ppc64->guest_FPROUND, buf, dir, size, mod); break;
392 case 71: *mod = False; break; // GDBTD???? VEX { "orig_r3", 4448, 64 },
393 case 72: *mod = False; break; // GDBTD???? VEX { "trap", 4512, 64 },
395 case 73: VG_(transfer) (&ppc64->guest_VSR32, buf, dir, size, mod); break;
396 case 74: VG_(transfer) (&ppc64->guest_VSR33, buf, dir, size, mod); break;
397 case 75: VG_(transfer) (&ppc64->guest_VSR34, buf, dir, size, mod); break;
398 case 76: VG_(transfer) (&ppc64->guest_VSR35, buf, dir, size, mod); break;
399 case 77: VG_(transfer) (&ppc64->guest_VSR36, buf, dir, size, mod); break;
400 case 78: VG_(transfer) (&ppc64->guest_VSR37, buf, dir, size, mod); break;
401 case 79: VG_(transfer) (&ppc64->guest_VSR38, buf, dir, size, mod); break;
402 case 80: VG_(transfer) (&ppc64->guest_VSR39, buf, dir, size, mod); break;
403 case 81: VG_(transfer) (&ppc64->guest_VSR40, buf, dir, size, mod); break;
404 case 82: VG_(transfer) (&ppc64->guest_VSR40, buf, dir, size, mod); break;
405 case 83: VG_(transfer) (&ppc64->guest_VSR42, buf, dir, size, mod); break;
406 case 84: VG_(transfer) (&ppc64->guest_VSR43, buf, dir, size, mod); break;
407 case 85: VG_(transfer) (&ppc64->guest_VSR44, buf, dir, size, mod); break;
408 case 86: VG_(transfer) (&ppc64->guest_VSR45, buf, dir, size, mod); break;
409 case 87: VG_(transfer) (&ppc64->guest_VSR46, buf, dir, size, mod); break;
410 case 88: VG_(transfer) (&ppc64->guest_VSR47, buf, dir, size, mod); break;
411 case 89: VG_(transfer) (&ppc64->guest_VSR48, buf, dir, size, mod); break;
412 case 90: VG_(transfer) (&ppc64->guest_VSR49, buf, dir, size, mod); break;
413 case 91: VG_(transfer) (&ppc64->guest_VSR50, buf, dir, size, mod); break;
414 case 92: VG_(transfer) (&ppc64->guest_VSR51, buf, dir, size, mod); break;
415 case 93: VG_(transfer) (&ppc64->guest_VSR52, buf, dir, size, mod); break;
416 case 94: VG_(transfer) (&ppc64->guest_VSR53, buf, dir, size, mod); break;
417 case 95: VG_(transfer) (&ppc64->guest_VSR54, buf, dir, size, mod); break;
418 case 96: VG_(transfer) (&ppc64->guest_VSR55, buf, dir, size, mod); break;
419 case 97: VG_(transfer) (&ppc64->guest_VSR56, buf, dir, size, mod); break;
420 case 98: VG_(transfer) (&ppc64->guest_VSR57, buf, dir, size, mod); break;
421 case 99: VG_(transfer) (&ppc64->guest_VSR58, buf, dir, size, mod); break;
422 case 100: VG_(transfer) (&ppc64->guest_VSR59, buf, dir, size, mod); break;
423 case 101: VG_(transfer) (&ppc64->guest_VSR60, buf, dir, size, mod); break;
424 case 102: VG_(transfer) (&ppc64->guest_VSR61, buf, dir, size, mod); break;
425 case 103: VG_(transfer) (&ppc64->guest_VSR62, buf, dir, size, mod); break;
426 case 104: VG_(transfer) (&ppc64->guest_VSR63, buf, dir, size, mod); break;
427 case 105: VG_(transfer) (&ppc64->guest_VSCR, buf, dir, size, mod); break;
428 case 106: VG_(transfer) (&ppc64->guest_VRSAVE, buf, dir, size, mod); break;
430 /* Fetch the lower 64-bits of the VSR registers. GDB will combine the
431 * lower 64-bits of the VSR with the upper 64-bits it got fetching the
432 * corresponding floating point register to display the full 128-bit
433 * VSR value.
435 case 107: VG_(transfer) (&ppc64->guest_VSR0[low_offset], buf, dir, size, mod); break;
436 case 108: VG_(transfer) (&ppc64->guest_VSR1[low_offset], buf, dir, size, mod); break;
437 case 109: VG_(transfer) (&ppc64->guest_VSR2[low_offset], buf, dir, size, mod); break;
438 case 110: VG_(transfer) (&ppc64->guest_VSR3[low_offset], buf, dir, size, mod); break;
439 case 111: VG_(transfer) (&ppc64->guest_VSR4[low_offset], buf, dir, size, mod); break;
440 case 112: VG_(transfer) (&ppc64->guest_VSR5[low_offset], buf, dir, size, mod); break;
441 case 113: VG_(transfer) (&ppc64->guest_VSR6[low_offset], buf, dir, size, mod); break;
442 case 114: VG_(transfer) (&ppc64->guest_VSR7[low_offset], buf, dir, size, mod); break;
443 case 115: VG_(transfer) (&ppc64->guest_VSR8[low_offset], buf, dir, size, mod); break;
444 case 116: VG_(transfer) (&ppc64->guest_VSR9[low_offset], buf, dir, size, mod); break;
445 case 117: VG_(transfer) (&ppc64->guest_VSR10[low_offset], buf, dir, size, mod); break;
446 case 118: VG_(transfer) (&ppc64->guest_VSR11[low_offset], buf, dir, size, mod); break;
447 case 119: VG_(transfer) (&ppc64->guest_VSR12[low_offset], buf, dir, size, mod); break;
448 case 120: VG_(transfer) (&ppc64->guest_VSR13[low_offset], buf, dir, size, mod); break;
449 case 121: VG_(transfer) (&ppc64->guest_VSR14[low_offset], buf, dir, size, mod); break;
450 case 122: VG_(transfer) (&ppc64->guest_VSR15[low_offset], buf, dir, size, mod); break;
451 case 123: VG_(transfer) (&ppc64->guest_VSR16[low_offset], buf, dir, size, mod); break;
452 case 124: VG_(transfer) (&ppc64->guest_VSR17[low_offset], buf, dir, size, mod); break;
453 case 125: VG_(transfer) (&ppc64->guest_VSR18[low_offset], buf, dir, size, mod); break;
454 case 126: VG_(transfer) (&ppc64->guest_VSR19[low_offset], buf, dir, size, mod); break;
455 case 127: VG_(transfer) (&ppc64->guest_VSR20[low_offset], buf, dir, size, mod); break;
456 case 128: VG_(transfer) (&ppc64->guest_VSR21[low_offset], buf, dir, size, mod); break;
457 case 129: VG_(transfer) (&ppc64->guest_VSR22[low_offset], buf, dir, size, mod); break;
458 case 130: VG_(transfer) (&ppc64->guest_VSR23[low_offset], buf, dir, size, mod); break;
459 case 131: VG_(transfer) (&ppc64->guest_VSR24[low_offset], buf, dir, size, mod); break;
460 case 132: VG_(transfer) (&ppc64->guest_VSR25[low_offset], buf, dir, size, mod); break;
461 case 133: VG_(transfer) (&ppc64->guest_VSR26[low_offset], buf, dir, size, mod); break;
462 case 134: VG_(transfer) (&ppc64->guest_VSR27[low_offset], buf, dir, size, mod); break;
463 case 135: VG_(transfer) (&ppc64->guest_VSR28[low_offset], buf, dir, size, mod); break;
464 case 136: VG_(transfer) (&ppc64->guest_VSR29[low_offset], buf, dir, size, mod); break;
465 case 137: VG_(transfer) (&ppc64->guest_VSR30[low_offset], buf, dir, size, mod); break;
466 case 138: VG_(transfer) (&ppc64->guest_VSR31[low_offset], buf, dir, size, mod); break;
467 default: vg_assert(0);
471 static
472 const char* target_xml (Bool shadow_mode)
474 /* NOTE, the current powerpc-altivec64l*.xml files includes the vsx
475 * registers. Power 6 and earlier power processors do not support the
476 * vsx registers. GDB has a bug in that it is only checking for ptrace
477 * support rather then checking the actual HW feature. Hence GDB on
478 * power 6 prints vsx registers that do not exist. Valgrind GDB support
479 * also has to include the vsx register definitions to be consistent with
480 * GDB.
482 if (shadow_mode) {
483 return "powerpc-altivec64l-valgrind.xml";
484 } else {
485 return "powerpc-altivec64l.xml";
489 static CORE_ADDR** target_get_dtv (ThreadState *tst)
491 VexGuestPPC64State* ppc64 = (VexGuestPPC64State*)&tst->arch.vex;
492 // ppc64 dtv is located just before the tcb, which is 0x7000 before
493 // the thread id (r13)
494 return (CORE_ADDR**)((CORE_ADDR)ppc64->guest_GPR13
495 - 0x7000 - sizeof(CORE_ADDR));
498 static struct valgrind_target_ops low_target = {
499 num_regs,
500 regs,
501 1, //r1
502 transfer_register,
503 get_pc,
504 set_pc,
505 "ppc64",
506 target_xml,
507 target_get_dtv
510 void ppc64_init_architecture (struct valgrind_target_ops *target)
512 *target = low_target;
513 set_register_cache (regs, num_regs);
514 gdbserver_expedite_regs = expedite_regs;