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dd2ccfb883875be3d05f27db477727c677fd50b0
[reactos.git] / dll / win32 / dbghelp / cpu_arm64.c
1 /*
2 * File cpu_arm64.c
3 *
4 * Copyright (C) 2009 Eric Pouech
5 * Copyright (C) 2010-2013 André Hentschel
6 *
7 * This library is free software; you can redistribute it and/or
8 * modify it under the terms of the GNU Lesser General Public
9 * License as published by the Free Software Foundation; either
10 * version 2.1 of the License, or (at your option) any later version.
11 *
12 * This library is distributed in the hope that it will be useful,
13 * but WITHOUT ANY WARRANTY; without even the implied warranty of
14 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
15 * Lesser General Public License for more details.
16 *
17 * You should have received a copy of the GNU Lesser General Public
18 * License along with this library; if not, write to the Free Software
19 * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA
20 */
21
22 #include <assert.h>
23
24 #define NONAMELESSUNION
25 #define NONAMELESSSTRUCT
26 #include "ntstatus.h"
27 #define WIN32_NO_STATUS
28 #include "dbghelp_private.h"
29 #include "winternl.h"
30 #include "wine/debug.h"
31
32 WINE_DEFAULT_DEBUG_CHANNEL(dbghelp);
33
34 static BOOL arm64_get_addr(HANDLE hThread, const CONTEXT* ctx,
35 enum cpu_addr ca, ADDRESS64* addr)
36 {
37 addr->Mode = AddrModeFlat;
38 addr->Segment = 0; /* don't need segment */
39 switch (ca)
40 {
41 #ifdef __aarch64__
42 case cpu_addr_pc: addr->Offset = ctx->Pc; return TRUE;
43 case cpu_addr_stack: addr->Offset = ctx->Sp; return TRUE;
44 case cpu_addr_frame: addr->Offset = ctx->Fp; return TRUE;
45 #endif
46 default: addr->Mode = -1;
47 return FALSE;
48 }
49 }
50
51 #ifdef __aarch64__
52 enum st_mode {stm_start, stm_arm64, stm_done};
53
54 /* indexes in Reserved array */
55 #define __CurrentModeCount 0
56
57 #define curr_mode (frame->Reserved[__CurrentModeCount] & 0x0F)
58 #define curr_count (frame->Reserved[__CurrentModeCount] >> 4)
59
60 #define set_curr_mode(m) {frame->Reserved[__CurrentModeCount] &= ~0x0F; frame->Reserved[__CurrentModeCount] |= (m & 0x0F);}
61 #define inc_curr_count() (frame->Reserved[__CurrentModeCount] += 0x10)
62
63 /* fetch_next_frame()
64 *
65 * modify (at least) context.Pc using unwind information
66 * either out of debug info (dwarf), or simple Lr trace
67 */
68 static BOOL fetch_next_frame(struct cpu_stack_walk* csw,
69 CONTEXT* context, DWORD_PTR curr_pc)
70 {
71 DWORD_PTR xframe;
72 DWORD_PTR oldReturn = context->Lr;
73
74 if (dwarf2_virtual_unwind(csw, curr_pc, context, &xframe))
75 {
76 context->Sp = xframe;
77 context->Pc = oldReturn;
78 return TRUE;
79 }
80
81 if (context->Pc == context->Lr) return FALSE;
82 context->Pc = oldReturn;
83
84 return TRUE;
85 }
86
87 static BOOL arm64_stack_walk(struct cpu_stack_walk* csw, LPSTACKFRAME64 frame, CONTEXT* context)
88 {
89 unsigned deltapc = curr_count <= 1 ? 0 : 4;
90
91 /* sanity check */
92 if (curr_mode >= stm_done) return FALSE;
93
94 TRACE("Enter: PC=%s Frame=%s Return=%s Stack=%s Mode=%s Count=%s\n",
95 wine_dbgstr_addr(&frame->AddrPC),
96 wine_dbgstr_addr(&frame->AddrFrame),
97 wine_dbgstr_addr(&frame->AddrReturn),
98 wine_dbgstr_addr(&frame->AddrStack),
99 curr_mode == stm_start ? "start" : "ARM64",
100 wine_dbgstr_longlong(curr_count));
101
102 if (curr_mode == stm_start)
103 {
104 /* Init done */
105 set_curr_mode(stm_arm64);
106 frame->AddrReturn.Mode = frame->AddrStack.Mode = AddrModeFlat;
107 /* don't set up AddrStack on first call. Either the caller has set it up, or
108 * we will get it in the next frame
109 */
110 memset(&frame->AddrBStore, 0, sizeof(frame->AddrBStore));
111 }
112 else
113 {
114 if (context->Sp != frame->AddrStack.Offset) FIXME("inconsistent Stack Pointer\n");
115 if (context->Pc != frame->AddrPC.Offset) FIXME("inconsistent Program Counter\n");
116
117 if (frame->AddrReturn.Offset == 0) goto done_err;
118 if (!fetch_next_frame(csw, context, frame->AddrPC.Offset - deltapc))
119 goto done_err;
120 }
121
122 memset(&frame->Params, 0, sizeof(frame->Params));
123
124 /* set frame information */
125 frame->AddrStack.Offset = context->Sp;
126 frame->AddrReturn.Offset = context->Lr;
127 frame->AddrFrame.Offset = context->Fp;
128 frame->AddrPC.Offset = context->Pc;
129
130 frame->Far = TRUE;
131 frame->Virtual = TRUE;
132 inc_curr_count();
133
134 TRACE("Leave: PC=%s Frame=%s Return=%s Stack=%s Mode=%s Count=%s FuncTable=%p\n",
135 wine_dbgstr_addr(&frame->AddrPC),
136 wine_dbgstr_addr(&frame->AddrFrame),
137 wine_dbgstr_addr(&frame->AddrReturn),
138 wine_dbgstr_addr(&frame->AddrStack),
139 curr_mode == stm_start ? "start" : "ARM64",
140 wine_dbgstr_longlong(curr_count),
141 frame->FuncTableEntry);
142
143 return TRUE;
144 done_err:
145 set_curr_mode(stm_done);
146 return FALSE;
147 }
148 #else
149 static BOOL arm64_stack_walk(struct cpu_stack_walk* csw, LPSTACKFRAME64 frame, CONTEXT* context)
150 {
151 return FALSE;
152 }
153 #endif
154
155 static unsigned arm64_map_dwarf_register(unsigned regno, BOOL eh_frame)
156 {
157 if (regno <= 28) return CV_ARM64_X0 + regno;
158 if (regno == 29) return CV_ARM64_FP;
159 if (regno == 30) return CV_ARM64_LR;
160 if (regno == 31) return CV_ARM64_SP;
161
162 FIXME("Don't know how to map register %d\n", regno);
163 return CV_ARM64_NOREG;
164 }
165
166 static void* arm64_fetch_context_reg(CONTEXT* ctx, unsigned regno, unsigned* size)
167 {
168 #ifdef __aarch64__
169 switch (regno)
170 {
171 case CV_ARM64_X0 + 0:
172 case CV_ARM64_X0 + 1:
173 case CV_ARM64_X0 + 2:
174 case CV_ARM64_X0 + 3:
175 case CV_ARM64_X0 + 4:
176 case CV_ARM64_X0 + 5:
177 case CV_ARM64_X0 + 6:
178 case CV_ARM64_X0 + 7:
179 case CV_ARM64_X0 + 8:
180 case CV_ARM64_X0 + 9:
181 case CV_ARM64_X0 + 10:
182 case CV_ARM64_X0 + 11:
183 case CV_ARM64_X0 + 12:
184 case CV_ARM64_X0 + 13:
185 case CV_ARM64_X0 + 14:
186 case CV_ARM64_X0 + 15:
187 case CV_ARM64_X0 + 16:
188 case CV_ARM64_X0 + 17:
189 case CV_ARM64_X0 + 18:
190 case CV_ARM64_X0 + 19:
191 case CV_ARM64_X0 + 20:
192 case CV_ARM64_X0 + 21:
193 case CV_ARM64_X0 + 22:
194 case CV_ARM64_X0 + 23:
195 case CV_ARM64_X0 + 24:
196 case CV_ARM64_X0 + 25:
197 case CV_ARM64_X0 + 26:
198 case CV_ARM64_X0 + 27:
199 case CV_ARM64_X0 + 28: *size = sizeof(ctx->u.X[0]); return &ctx->u.X[regno - CV_ARM64_X0];
200 case CV_ARM64_PSTATE: *size = sizeof(ctx->Cpsr); return &ctx->Cpsr;
201 case CV_ARM64_FP: *size = sizeof(ctx->Fp); return &ctx->Fp;
202 case CV_ARM64_LR: *size = sizeof(ctx->Lr); return &ctx->Lr;
203 case CV_ARM64_SP: *size = sizeof(ctx->Sp); return &ctx->Sp;
204 case CV_ARM64_PC: *size = sizeof(ctx->Pc); return &ctx->Pc;
205 }
206 #endif
207 FIXME("Unknown register %x\n", regno);
208 return NULL;
209 }
210
211 static const char* arm64_fetch_regname(unsigned regno)
212 {
213 switch (regno)
214 {
215 case CV_ARM64_PSTATE: return "cpsr";
216 case CV_ARM64_X0 + 0: return "x0";
217 case CV_ARM64_X0 + 1: return "x1";
218 case CV_ARM64_X0 + 2: return "x2";
219 case CV_ARM64_X0 + 3: return "x3";
220 case CV_ARM64_X0 + 4: return "x4";
221 case CV_ARM64_X0 + 5: return "x5";
222 case CV_ARM64_X0 + 6: return "x6";
223 case CV_ARM64_X0 + 7: return "x7";
224 case CV_ARM64_X0 + 8: return "x8";
225 case CV_ARM64_X0 + 9: return "x9";
226 case CV_ARM64_X0 + 10: return "x10";
227 case CV_ARM64_X0 + 11: return "x11";
228 case CV_ARM64_X0 + 12: return "x12";
229 case CV_ARM64_X0 + 13: return "x13";
230 case CV_ARM64_X0 + 14: return "x14";
231 case CV_ARM64_X0 + 15: return "x15";
232 case CV_ARM64_X0 + 16: return "x16";
233 case CV_ARM64_X0 + 17: return "x17";
234 case CV_ARM64_X0 + 18: return "x18";
235 case CV_ARM64_X0 + 19: return "x19";
236 case CV_ARM64_X0 + 20: return "x20";
237 case CV_ARM64_X0 + 21: return "x21";
238 case CV_ARM64_X0 + 22: return "x22";
239 case CV_ARM64_X0 + 23: return "x23";
240 case CV_ARM64_X0 + 24: return "x24";
241 case CV_ARM64_X0 + 25: return "x25";
242 case CV_ARM64_X0 + 26: return "x26";
243 case CV_ARM64_X0 + 27: return "x27";
244 case CV_ARM64_X0 + 28: return "x28";
245
246 case CV_ARM64_FP: return "fp";
247 case CV_ARM64_LR: return "lr";
248 case CV_ARM64_SP: return "sp";
249 case CV_ARM64_PC: return "pc";
250 }
251 FIXME("Unknown register %x\n", regno);
252 return NULL;
253 }
254
255 static BOOL arm64_fetch_minidump_thread(struct dump_context* dc, unsigned index, unsigned flags, const CONTEXT* ctx)
256 {
257 if (ctx->ContextFlags && (flags & ThreadWriteInstructionWindow))
258 {
259 /* FIXME: crop values across module boundaries, */
260 #ifdef __aarch64__
261 ULONG base = ctx->Pc <= 0x80 ? 0 : ctx->Pc - 0x80;
262 minidump_add_memory_block(dc, base, ctx->Pc + 0x80 - base, 0);
263 #endif
264 }
265
266 return TRUE;
267 }
268
269 static BOOL arm64_fetch_minidump_module(struct dump_context* dc, unsigned index, unsigned flags)
270 {
271 /* FIXME: actually, we should probably take care of FPO data, unless it's stored in
272 * function table minidump stream
273 */
274 return FALSE;
275 }
276
277 DECLSPEC_HIDDEN struct cpu cpu_arm64 = {
278 IMAGE_FILE_MACHINE_ARM64,
279 8,
280 CV_ARM64_FP,
281 arm64_get_addr,
282 arm64_stack_walk,
283 NULL,
284 arm64_map_dwarf_register,
285 arm64_fetch_context_reg,
286 arm64_fetch_regname,
287 arm64_fetch_minidump_thread,
288 arm64_fetch_minidump_module,
289 };
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