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1 //===-- tsan_platform.h -----------------------------------------*- C++ -*-===//
2 //
3 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4 // See https://llvm.org/LICENSE.txt for license information.
5 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6 //
7 //===----------------------------------------------------------------------===//
8 //
9 // This file is a part of ThreadSanitizer (TSan), a race detector.
10 //
11 // Platform-specific code.
12 //===----------------------------------------------------------------------===//
13 
14 #ifndef TSAN_PLATFORM_H
15 #define TSAN_PLATFORM_H
16 
17 #if !defined(__LP64__) && !defined(_WIN64)
18 # error "Only 64-bit is supported"
19 #endif
20 
21 #include "tsan_defs.h"
22 #include "tsan_trace.h"
23 
24 namespace __tsan {
25 
26 #if !SANITIZER_GO
27 
28 #if defined(__x86_64__)
29 /*
30 C/C++ on linux/x86_64 and freebsd/x86_64
31 0000 0000 1000 - 0080 0000 0000: main binary and/or MAP_32BIT mappings (512GB)
32 0040 0000 0000 - 0100 0000 0000: -
33 0100 0000 0000 - 2000 0000 0000: shadow
34 2000 0000 0000 - 3000 0000 0000: -
35 3000 0000 0000 - 4000 0000 0000: metainfo (memory blocks and sync objects)
36 4000 0000 0000 - 5500 0000 0000: -
37 5500 0000 0000 - 5680 0000 0000: pie binaries without ASLR or on 4.1+ kernels
38 5680 0000 0000 - 6000 0000 0000: -
39 6000 0000 0000 - 6200 0000 0000: traces
40 6200 0000 0000 - 7d00 0000 0000: -
41 7b00 0000 0000 - 7c00 0000 0000: heap
42 7c00 0000 0000 - 7e80 0000 0000: -
43 7e80 0000 0000 - 8000 0000 0000: modules and main thread stack
44 
45 C/C++ on netbsd/amd64 can reuse the same mapping:
46  * The address space starts from 0x1000 (option with 0x0) and ends with
47    0x7f7ffffff000.
48  * LoAppMem-kHeapMemEnd can be reused as it is.
49  * No VDSO support.
50  * No MidAppMem region.
51  * No additional HeapMem region.
52  * HiAppMem contains the stack, loader, shared libraries and heap.
53  * Stack on NetBSD/amd64 has prereserved 128MB.
54  * Heap grows downwards (top-down).
55  * ASLR must be disabled per-process or globally.
56 
57 */
58 struct Mapping {
59   static const uptr kMetaShadowBeg = 0x300000000000ull;
60   static const uptr kMetaShadowEnd = 0x340000000000ull;
61   static const uptr kTraceMemBeg   = 0x600000000000ull;
62   static const uptr kTraceMemEnd   = 0x620000000000ull;
63   static const uptr kShadowBeg     = 0x010000000000ull;
64   static const uptr kShadowEnd     = 0x200000000000ull;
65   static const uptr kHeapMemBeg    = 0x7b0000000000ull;
66   static const uptr kHeapMemEnd    = 0x7c0000000000ull;
67   static const uptr kLoAppMemBeg   = 0x000000001000ull;
68   static const uptr kLoAppMemEnd   = 0x008000000000ull;
69   static const uptr kMidAppMemBeg  = 0x550000000000ull;
70   static const uptr kMidAppMemEnd  = 0x568000000000ull;
71   static const uptr kHiAppMemBeg   = 0x7e8000000000ull;
72   static const uptr kHiAppMemEnd   = 0x800000000000ull;
73   static const uptr kAppMemMsk     = 0x780000000000ull;
74   static const uptr kAppMemXor     = 0x040000000000ull;
75   static const uptr kVdsoBeg       = 0xf000000000000000ull;
76 };
77 
78 #define TSAN_MID_APP_RANGE 1
79 #elif defined(__mips64)
80 /*
81 C/C++ on linux/mips64 (40-bit VMA)
82 0000 0000 00 - 0100 0000 00: -                                           (4 GB)
83 0100 0000 00 - 0200 0000 00: main binary                                 (4 GB)
84 0200 0000 00 - 2000 0000 00: -                                         (120 GB)
85 2000 0000 00 - 4000 0000 00: shadow                                    (128 GB)
86 4000 0000 00 - 5000 0000 00: metainfo (memory blocks and sync objects)  (64 GB)
87 5000 0000 00 - aa00 0000 00: -                                         (360 GB)
88 aa00 0000 00 - ab00 0000 00: main binary (PIE)                           (4 GB)
89 ab00 0000 00 - b000 0000 00: -                                          (20 GB)
90 b000 0000 00 - b200 0000 00: traces                                      (8 GB)
91 b200 0000 00 - fe00 0000 00: -                                         (304 GB)
92 fe00 0000 00 - ff00 0000 00: heap                                        (4 GB)
93 ff00 0000 00 - ff80 0000 00: -                                           (2 GB)
94 ff80 0000 00 - ffff ffff ff: modules and main thread stack              (<2 GB)
95 */
96 struct Mapping {
97   static const uptr kMetaShadowBeg = 0x4000000000ull;
98   static const uptr kMetaShadowEnd = 0x5000000000ull;
99   static const uptr kTraceMemBeg   = 0xb000000000ull;
100   static const uptr kTraceMemEnd   = 0xb200000000ull;
101   static const uptr kShadowBeg     = 0x2000000000ull;
102   static const uptr kShadowEnd     = 0x4000000000ull;
103   static const uptr kHeapMemBeg    = 0xfe00000000ull;
104   static const uptr kHeapMemEnd    = 0xff00000000ull;
105   static const uptr kLoAppMemBeg   = 0x0100000000ull;
106   static const uptr kLoAppMemEnd   = 0x0200000000ull;
107   static const uptr kMidAppMemBeg  = 0xaa00000000ull;
108   static const uptr kMidAppMemEnd  = 0xab00000000ull;
109   static const uptr kHiAppMemBeg   = 0xff80000000ull;
110   static const uptr kHiAppMemEnd   = 0xffffffffffull;
111   static const uptr kAppMemMsk     = 0xf800000000ull;
112   static const uptr kAppMemXor     = 0x0800000000ull;
113   static const uptr kVdsoBeg       = 0xfffff00000ull;
114 };
115 
116 #define TSAN_MID_APP_RANGE 1
117 #elif defined(__aarch64__) && defined(__APPLE__)
118 /*
119 C/C++ on Darwin/iOS/ARM64 (36-bit VMA, 64 GB VM)
120 0000 0000 00 - 0100 0000 00: -                                    (4 GB)
121 0100 0000 00 - 0200 0000 00: main binary, modules, thread stacks  (4 GB)
122 0200 0000 00 - 0300 0000 00: heap                                 (4 GB)
123 0300 0000 00 - 0400 0000 00: -                                    (4 GB)
124 0400 0000 00 - 0c00 0000 00: shadow memory                       (32 GB)
125 0c00 0000 00 - 0d00 0000 00: -                                    (4 GB)
126 0d00 0000 00 - 0e00 0000 00: metainfo                             (4 GB)
127 0e00 0000 00 - 0f00 0000 00: -                                    (4 GB)
128 0f00 0000 00 - 0fc0 0000 00: traces                               (3 GB)
129 0fc0 0000 00 - 1000 0000 00: -
130 */
131 struct Mapping {
132   static const uptr kLoAppMemBeg   = 0x0100000000ull;
133   static const uptr kLoAppMemEnd   = 0x0200000000ull;
134   static const uptr kHeapMemBeg    = 0x0200000000ull;
135   static const uptr kHeapMemEnd    = 0x0300000000ull;
136   static const uptr kShadowBeg     = 0x0400000000ull;
137   static const uptr kShadowEnd     = 0x0c00000000ull;
138   static const uptr kMetaShadowBeg = 0x0d00000000ull;
139   static const uptr kMetaShadowEnd = 0x0e00000000ull;
140   static const uptr kTraceMemBeg   = 0x0f00000000ull;
141   static const uptr kTraceMemEnd   = 0x0fc0000000ull;
142   static const uptr kHiAppMemBeg   = 0x0fc0000000ull;
143   static const uptr kHiAppMemEnd   = 0x0fc0000000ull;
144   static const uptr kAppMemMsk     =          0x0ull;
145   static const uptr kAppMemXor     =          0x0ull;
146   static const uptr kVdsoBeg       = 0x7000000000000000ull;
147 };
148 
149 #elif defined(__aarch64__)
150 // AArch64 supports multiple VMA which leads to multiple address transformation
151 // functions.  To support these multiple VMAS transformations and mappings TSAN
152 // runtime for AArch64 uses an external memory read (vmaSize) to select which
153 // mapping to use.  Although slower, it make a same instrumented binary run on
154 // multiple kernels.
155 
156 /*
157 C/C++ on linux/aarch64 (39-bit VMA)
158 0000 0010 00 - 0100 0000 00: main binary
159 0100 0000 00 - 0800 0000 00: -
160 0800 0000 00 - 2000 0000 00: shadow memory
161 2000 0000 00 - 3100 0000 00: -
162 3100 0000 00 - 3400 0000 00: metainfo
163 3400 0000 00 - 5500 0000 00: -
164 5500 0000 00 - 5600 0000 00: main binary (PIE)
165 5600 0000 00 - 6000 0000 00: -
166 6000 0000 00 - 6200 0000 00: traces
167 6200 0000 00 - 7d00 0000 00: -
168 7c00 0000 00 - 7d00 0000 00: heap
169 7d00 0000 00 - 7fff ffff ff: modules and main thread stack
170 */
171 struct Mapping39 {
172   static const uptr kLoAppMemBeg   = 0x0000001000ull;
173   static const uptr kLoAppMemEnd   = 0x0100000000ull;
174   static const uptr kShadowBeg     = 0x0800000000ull;
175   static const uptr kShadowEnd     = 0x2000000000ull;
176   static const uptr kMetaShadowBeg = 0x3100000000ull;
177   static const uptr kMetaShadowEnd = 0x3400000000ull;
178   static const uptr kMidAppMemBeg  = 0x5500000000ull;
179   static const uptr kMidAppMemEnd  = 0x5600000000ull;
180   static const uptr kTraceMemBeg   = 0x6000000000ull;
181   static const uptr kTraceMemEnd   = 0x6200000000ull;
182   static const uptr kHeapMemBeg    = 0x7c00000000ull;
183   static const uptr kHeapMemEnd    = 0x7d00000000ull;
184   static const uptr kHiAppMemBeg   = 0x7e00000000ull;
185   static const uptr kHiAppMemEnd   = 0x7fffffffffull;
186   static const uptr kAppMemMsk     = 0x7800000000ull;
187   static const uptr kAppMemXor     = 0x0200000000ull;
188   static const uptr kVdsoBeg       = 0x7f00000000ull;
189 };
190 
191 /*
192 C/C++ on linux/aarch64 (42-bit VMA)
193 00000 0010 00 - 01000 0000 00: main binary
194 01000 0000 00 - 10000 0000 00: -
195 10000 0000 00 - 20000 0000 00: shadow memory
196 20000 0000 00 - 26000 0000 00: -
197 26000 0000 00 - 28000 0000 00: metainfo
198 28000 0000 00 - 2aa00 0000 00: -
199 2aa00 0000 00 - 2ab00 0000 00: main binary (PIE)
200 2ab00 0000 00 - 36200 0000 00: -
201 36200 0000 00 - 36240 0000 00: traces
202 36240 0000 00 - 3e000 0000 00: -
203 3e000 0000 00 - 3f000 0000 00: heap
204 3f000 0000 00 - 3ffff ffff ff: modules and main thread stack
205 */
206 struct Mapping42 {
207   static const uptr kLoAppMemBeg   = 0x00000001000ull;
208   static const uptr kLoAppMemEnd   = 0x01000000000ull;
209   static const uptr kShadowBeg     = 0x10000000000ull;
210   static const uptr kShadowEnd     = 0x20000000000ull;
211   static const uptr kMetaShadowBeg = 0x26000000000ull;
212   static const uptr kMetaShadowEnd = 0x28000000000ull;
213   static const uptr kMidAppMemBeg  = 0x2aa00000000ull;
214   static const uptr kMidAppMemEnd  = 0x2ab00000000ull;
215   static const uptr kTraceMemBeg   = 0x36200000000ull;
216   static const uptr kTraceMemEnd   = 0x36400000000ull;
217   static const uptr kHeapMemBeg    = 0x3e000000000ull;
218   static const uptr kHeapMemEnd    = 0x3f000000000ull;
219   static const uptr kHiAppMemBeg   = 0x3f000000000ull;
220   static const uptr kHiAppMemEnd   = 0x3ffffffffffull;
221   static const uptr kAppMemMsk     = 0x3c000000000ull;
222   static const uptr kAppMemXor     = 0x04000000000ull;
223   static const uptr kVdsoBeg       = 0x37f00000000ull;
224 };
225 
226 struct Mapping48 {
227   static const uptr kLoAppMemBeg   = 0x0000000001000ull;
228   static const uptr kLoAppMemEnd   = 0x0000200000000ull;
229   static const uptr kShadowBeg     = 0x0002000000000ull;
230   static const uptr kShadowEnd     = 0x0004000000000ull;
231   static const uptr kMetaShadowBeg = 0x0005000000000ull;
232   static const uptr kMetaShadowEnd = 0x0006000000000ull;
233   static const uptr kMidAppMemBeg  = 0x0aaaa00000000ull;
234   static const uptr kMidAppMemEnd  = 0x0aaaf00000000ull;
235   static const uptr kTraceMemBeg   = 0x0f06000000000ull;
236   static const uptr kTraceMemEnd   = 0x0f06200000000ull;
237   static const uptr kHeapMemBeg    = 0x0ffff00000000ull;
238   static const uptr kHeapMemEnd    = 0x0ffff00000000ull;
239   static const uptr kHiAppMemBeg   = 0x0ffff00000000ull;
240   static const uptr kHiAppMemEnd   = 0x1000000000000ull;
241   static const uptr kAppMemMsk     = 0x0fff800000000ull;
242   static const uptr kAppMemXor     = 0x0000800000000ull;
243   static const uptr kVdsoBeg       = 0xffff000000000ull;
244 };
245 
246 // Indicates the runtime will define the memory regions at runtime.
247 #define TSAN_RUNTIME_VMA 1
248 // Indicates that mapping defines a mid range memory segment.
249 #define TSAN_MID_APP_RANGE 1
250 #elif defined(__powerpc64__)
251 // PPC64 supports multiple VMA which leads to multiple address transformation
252 // functions.  To support these multiple VMAS transformations and mappings TSAN
253 // runtime for PPC64 uses an external memory read (vmaSize) to select which
254 // mapping to use.  Although slower, it make a same instrumented binary run on
255 // multiple kernels.
256 
257 /*
258 C/C++ on linux/powerpc64 (44-bit VMA)
259 0000 0000 0100 - 0001 0000 0000: main binary
260 0001 0000 0000 - 0001 0000 0000: -
261 0001 0000 0000 - 0b00 0000 0000: shadow
262 0b00 0000 0000 - 0b00 0000 0000: -
263 0b00 0000 0000 - 0d00 0000 0000: metainfo (memory blocks and sync objects)
264 0d00 0000 0000 - 0d00 0000 0000: -
265 0d00 0000 0000 - 0f00 0000 0000: traces
266 0f00 0000 0000 - 0f00 0000 0000: -
267 0f00 0000 0000 - 0f50 0000 0000: heap
268 0f50 0000 0000 - 0f60 0000 0000: -
269 0f60 0000 0000 - 1000 0000 0000: modules and main thread stack
270 */
271 struct Mapping44 {
272   static const uptr kMetaShadowBeg = 0x0b0000000000ull;
273   static const uptr kMetaShadowEnd = 0x0d0000000000ull;
274   static const uptr kTraceMemBeg   = 0x0d0000000000ull;
275   static const uptr kTraceMemEnd   = 0x0f0000000000ull;
276   static const uptr kShadowBeg     = 0x000100000000ull;
277   static const uptr kShadowEnd     = 0x0b0000000000ull;
278   static const uptr kLoAppMemBeg   = 0x000000000100ull;
279   static const uptr kLoAppMemEnd   = 0x000100000000ull;
280   static const uptr kHeapMemBeg    = 0x0f0000000000ull;
281   static const uptr kHeapMemEnd    = 0x0f5000000000ull;
282   static const uptr kHiAppMemBeg   = 0x0f6000000000ull;
283   static const uptr kHiAppMemEnd   = 0x100000000000ull; // 44 bits
284   static const uptr kAppMemMsk     = 0x0f0000000000ull;
285   static const uptr kAppMemXor     = 0x002100000000ull;
286   static const uptr kVdsoBeg       = 0x3c0000000000000ull;
287 };
288 
289 /*
290 C/C++ on linux/powerpc64 (46-bit VMA)
291 0000 0000 1000 - 0100 0000 0000: main binary
292 0100 0000 0000 - 0200 0000 0000: -
293 0100 0000 0000 - 1000 0000 0000: shadow
294 1000 0000 0000 - 1000 0000 0000: -
295 1000 0000 0000 - 2000 0000 0000: metainfo (memory blocks and sync objects)
296 2000 0000 0000 - 2000 0000 0000: -
297 2000 0000 0000 - 2200 0000 0000: traces
298 2200 0000 0000 - 3d00 0000 0000: -
299 3d00 0000 0000 - 3e00 0000 0000: heap
300 3e00 0000 0000 - 3e80 0000 0000: -
301 3e80 0000 0000 - 4000 0000 0000: modules and main thread stack
302 */
303 struct Mapping46 {
304   static const uptr kMetaShadowBeg = 0x100000000000ull;
305   static const uptr kMetaShadowEnd = 0x200000000000ull;
306   static const uptr kTraceMemBeg   = 0x200000000000ull;
307   static const uptr kTraceMemEnd   = 0x220000000000ull;
308   static const uptr kShadowBeg     = 0x010000000000ull;
309   static const uptr kShadowEnd     = 0x100000000000ull;
310   static const uptr kHeapMemBeg    = 0x3d0000000000ull;
311   static const uptr kHeapMemEnd    = 0x3e0000000000ull;
312   static const uptr kLoAppMemBeg   = 0x000000001000ull;
313   static const uptr kLoAppMemEnd   = 0x010000000000ull;
314   static const uptr kHiAppMemBeg   = 0x3e8000000000ull;
315   static const uptr kHiAppMemEnd   = 0x400000000000ull; // 46 bits
316   static const uptr kAppMemMsk     = 0x3c0000000000ull;
317   static const uptr kAppMemXor     = 0x020000000000ull;
318   static const uptr kVdsoBeg       = 0x7800000000000000ull;
319 };
320 
321 /*
322 C/C++ on linux/powerpc64 (47-bit VMA)
323 0000 0000 1000 - 0100 0000 0000: main binary
324 0100 0000 0000 - 0200 0000 0000: -
325 0100 0000 0000 - 1000 0000 0000: shadow
326 1000 0000 0000 - 1000 0000 0000: -
327 1000 0000 0000 - 2000 0000 0000: metainfo (memory blocks and sync objects)
328 2000 0000 0000 - 2000 0000 0000: -
329 2000 0000 0000 - 2200 0000 0000: traces
330 2200 0000 0000 - 7d00 0000 0000: -
331 7d00 0000 0000 - 7e00 0000 0000: heap
332 7e00 0000 0000 - 7e80 0000 0000: -
333 7e80 0000 0000 - 8000 0000 0000: modules and main thread stack
334 */
335 struct Mapping47 {
336   static const uptr kMetaShadowBeg = 0x100000000000ull;
337   static const uptr kMetaShadowEnd = 0x200000000000ull;
338   static const uptr kTraceMemBeg   = 0x200000000000ull;
339   static const uptr kTraceMemEnd   = 0x220000000000ull;
340   static const uptr kShadowBeg     = 0x010000000000ull;
341   static const uptr kShadowEnd     = 0x100000000000ull;
342   static const uptr kHeapMemBeg    = 0x7d0000000000ull;
343   static const uptr kHeapMemEnd    = 0x7e0000000000ull;
344   static const uptr kLoAppMemBeg   = 0x000000001000ull;
345   static const uptr kLoAppMemEnd   = 0x010000000000ull;
346   static const uptr kHiAppMemBeg   = 0x7e8000000000ull;
347   static const uptr kHiAppMemEnd   = 0x800000000000ull; // 47 bits
348   static const uptr kAppMemMsk     = 0x7c0000000000ull;
349   static const uptr kAppMemXor     = 0x020000000000ull;
350   static const uptr kVdsoBeg       = 0x7800000000000000ull;
351 };
352 
353 // Indicates the runtime will define the memory regions at runtime.
354 #define TSAN_RUNTIME_VMA 1
355 #endif
356 
357 #elif SANITIZER_GO && !SANITIZER_WINDOWS && defined(__x86_64__)
358 
359 /* Go on linux, darwin and freebsd on x86_64
360 0000 0000 1000 - 0000 1000 0000: executable
361 0000 1000 0000 - 00c0 0000 0000: -
362 00c0 0000 0000 - 00e0 0000 0000: heap
363 00e0 0000 0000 - 2000 0000 0000: -
364 2000 0000 0000 - 2380 0000 0000: shadow
365 2380 0000 0000 - 3000 0000 0000: -
366 3000 0000 0000 - 4000 0000 0000: metainfo (memory blocks and sync objects)
367 4000 0000 0000 - 6000 0000 0000: -
368 6000 0000 0000 - 6200 0000 0000: traces
369 6200 0000 0000 - 8000 0000 0000: -
370 */
371 
372 struct Mapping {
373   static const uptr kMetaShadowBeg = 0x300000000000ull;
374   static const uptr kMetaShadowEnd = 0x400000000000ull;
375   static const uptr kTraceMemBeg   = 0x600000000000ull;
376   static const uptr kTraceMemEnd   = 0x620000000000ull;
377   static const uptr kShadowBeg     = 0x200000000000ull;
378   static const uptr kShadowEnd     = 0x238000000000ull;
379   static const uptr kAppMemBeg     = 0x000000001000ull;
380   static const uptr kAppMemEnd     = 0x00e000000000ull;
381 };
382 
383 #elif SANITIZER_GO && SANITIZER_WINDOWS
384 
385 /* Go on windows
386 0000 0000 1000 - 0000 1000 0000: executable
387 0000 1000 0000 - 00f8 0000 0000: -
388 00c0 0000 0000 - 00e0 0000 0000: heap
389 00e0 0000 0000 - 0100 0000 0000: -
390 0100 0000 0000 - 0500 0000 0000: shadow
391 0500 0000 0000 - 0560 0000 0000: -
392 0560 0000 0000 - 0760 0000 0000: traces
393 0760 0000 0000 - 07d0 0000 0000: metainfo (memory blocks and sync objects)
394 07d0 0000 0000 - 8000 0000 0000: -
395 */
396 
397 struct Mapping {
398   static const uptr kMetaShadowBeg = 0x076000000000ull;
399   static const uptr kMetaShadowEnd = 0x07d000000000ull;
400   static const uptr kTraceMemBeg   = 0x056000000000ull;
401   static const uptr kTraceMemEnd   = 0x076000000000ull;
402   static const uptr kShadowBeg     = 0x010000000000ull;
403   static const uptr kShadowEnd     = 0x050000000000ull;
404   static const uptr kAppMemBeg     = 0x000000001000ull;
405   static const uptr kAppMemEnd     = 0x00e000000000ull;
406 };
407 
408 #elif SANITIZER_GO && defined(__powerpc64__)
409 
410 /* Only Mapping46 and Mapping47 are currently supported for powercp64 on Go. */
411 
412 /* Go on linux/powerpc64 (46-bit VMA)
413 0000 0000 1000 - 0000 1000 0000: executable
414 0000 1000 0000 - 00c0 0000 0000: -
415 00c0 0000 0000 - 00e0 0000 0000: heap
416 00e0 0000 0000 - 2000 0000 0000: -
417 2000 0000 0000 - 2380 0000 0000: shadow
418 2380 0000 0000 - 2400 0000 0000: -
419 2400 0000 0000 - 3400 0000 0000: metainfo (memory blocks and sync objects)
420 3400 0000 0000 - 3600 0000 0000: -
421 3600 0000 0000 - 3800 0000 0000: traces
422 3800 0000 0000 - 4000 0000 0000: -
423 */
424 
425 struct Mapping46 {
426   static const uptr kMetaShadowBeg = 0x240000000000ull;
427   static const uptr kMetaShadowEnd = 0x340000000000ull;
428   static const uptr kTraceMemBeg   = 0x360000000000ull;
429   static const uptr kTraceMemEnd   = 0x380000000000ull;
430   static const uptr kShadowBeg     = 0x200000000000ull;
431   static const uptr kShadowEnd     = 0x238000000000ull;
432   static const uptr kAppMemBeg     = 0x000000001000ull;
433   static const uptr kAppMemEnd     = 0x00e000000000ull;
434 };
435 
436 /* Go on linux/powerpc64 (47-bit VMA)
437 0000 0000 1000 - 0000 1000 0000: executable
438 0000 1000 0000 - 00c0 0000 0000: -
439 00c0 0000 0000 - 00e0 0000 0000: heap
440 00e0 0000 0000 - 2000 0000 0000: -
441 2000 0000 0000 - 3000 0000 0000: shadow
442 3000 0000 0000 - 3000 0000 0000: -
443 3000 0000 0000 - 4000 0000 0000: metainfo (memory blocks and sync objects)
444 4000 0000 0000 - 6000 0000 0000: -
445 6000 0000 0000 - 6200 0000 0000: traces
446 6200 0000 0000 - 8000 0000 0000: -
447 */
448 
449 struct Mapping47 {
450   static const uptr kMetaShadowBeg = 0x300000000000ull;
451   static const uptr kMetaShadowEnd = 0x400000000000ull;
452   static const uptr kTraceMemBeg   = 0x600000000000ull;
453   static const uptr kTraceMemEnd   = 0x620000000000ull;
454   static const uptr kShadowBeg     = 0x200000000000ull;
455   static const uptr kShadowEnd     = 0x300000000000ull;
456   static const uptr kAppMemBeg     = 0x000000001000ull;
457   static const uptr kAppMemEnd     = 0x00e000000000ull;
458 };
459 
460 #define TSAN_RUNTIME_VMA 1
461 
462 #elif SANITIZER_GO && defined(__aarch64__)
463 
464 /* Go on linux/aarch64 (48-bit VMA) and darwin/aarch64 (47-bit VMA)
465 0000 0000 1000 - 0000 1000 0000: executable
466 0000 1000 0000 - 00c0 0000 0000: -
467 00c0 0000 0000 - 00e0 0000 0000: heap
468 00e0 0000 0000 - 2000 0000 0000: -
469 2000 0000 0000 - 3000 0000 0000: shadow
470 3000 0000 0000 - 3000 0000 0000: -
471 3000 0000 0000 - 4000 0000 0000: metainfo (memory blocks and sync objects)
472 4000 0000 0000 - 6000 0000 0000: -
473 6000 0000 0000 - 6200 0000 0000: traces
474 6200 0000 0000 - 8000 0000 0000: -
475 */
476 
477 struct Mapping {
478   static const uptr kMetaShadowBeg = 0x300000000000ull;
479   static const uptr kMetaShadowEnd = 0x400000000000ull;
480   static const uptr kTraceMemBeg   = 0x600000000000ull;
481   static const uptr kTraceMemEnd   = 0x620000000000ull;
482   static const uptr kShadowBeg     = 0x200000000000ull;
483   static const uptr kShadowEnd     = 0x300000000000ull;
484   static const uptr kAppMemBeg     = 0x000000001000ull;
485   static const uptr kAppMemEnd     = 0x00e000000000ull;
486 };
487 
488 // Indicates the runtime will define the memory regions at runtime.
489 #define TSAN_RUNTIME_VMA 1
490 
491 #elif SANITIZER_GO && defined(__mips64)
492 /*
493 Go on linux/mips64 (47-bit VMA)
494 0000 0000 1000 - 0000 1000 0000: executable
495 0000 1000 0000 - 00c0 0000 0000: -
496 00c0 0000 0000 - 00e0 0000 0000: heap
497 00e0 0000 0000 - 2000 0000 0000: -
498 2000 0000 0000 - 3000 0000 0000: shadow
499 3000 0000 0000 - 3000 0000 0000: -
500 3000 0000 0000 - 4000 0000 0000: metainfo (memory blocks and sync objects)
501 4000 0000 0000 - 6000 0000 0000: -
502 6000 0000 0000 - 6200 0000 0000: traces
503 6200 0000 0000 - 8000 0000 0000: -
504 */
505 struct Mapping {
506   static const uptr kMetaShadowBeg = 0x300000000000ull;
507   static const uptr kMetaShadowEnd = 0x400000000000ull;
508   static const uptr kTraceMemBeg = 0x600000000000ull;
509   static const uptr kTraceMemEnd = 0x620000000000ull;
510   static const uptr kShadowBeg = 0x200000000000ull;
511   static const uptr kShadowEnd = 0x300000000000ull;
512   static const uptr kAppMemBeg = 0x000000001000ull;
513   static const uptr kAppMemEnd = 0x00e000000000ull;
514 };
515 #else
516 # error "Unknown platform"
517 #endif
518 
519 
520 #ifdef TSAN_RUNTIME_VMA
521 extern uptr vmaSize;
522 #endif
523 
524 
525 enum MappingType {
526   MAPPING_LO_APP_BEG,
527   MAPPING_LO_APP_END,
528   MAPPING_HI_APP_BEG,
529   MAPPING_HI_APP_END,
530 #ifdef TSAN_MID_APP_RANGE
531   MAPPING_MID_APP_BEG,
532   MAPPING_MID_APP_END,
533 #endif
534   MAPPING_HEAP_BEG,
535   MAPPING_HEAP_END,
536   MAPPING_APP_BEG,
537   MAPPING_APP_END,
538   MAPPING_SHADOW_BEG,
539   MAPPING_SHADOW_END,
540   MAPPING_META_SHADOW_BEG,
541   MAPPING_META_SHADOW_END,
542   MAPPING_TRACE_BEG,
543   MAPPING_TRACE_END,
544   MAPPING_VDSO_BEG,
545 };
546 
547 template<typename Mapping, int Type>
MappingImpl(void)548 uptr MappingImpl(void) {
549   switch (Type) {
550 #if !SANITIZER_GO
551     case MAPPING_LO_APP_BEG: return Mapping::kLoAppMemBeg;
552     case MAPPING_LO_APP_END: return Mapping::kLoAppMemEnd;
553 # ifdef TSAN_MID_APP_RANGE
554     case MAPPING_MID_APP_BEG: return Mapping::kMidAppMemBeg;
555     case MAPPING_MID_APP_END: return Mapping::kMidAppMemEnd;
556 # endif
557     case MAPPING_HI_APP_BEG: return Mapping::kHiAppMemBeg;
558     case MAPPING_HI_APP_END: return Mapping::kHiAppMemEnd;
559     case MAPPING_HEAP_BEG: return Mapping::kHeapMemBeg;
560     case MAPPING_HEAP_END: return Mapping::kHeapMemEnd;
561     case MAPPING_VDSO_BEG: return Mapping::kVdsoBeg;
562 #else
563     case MAPPING_APP_BEG: return Mapping::kAppMemBeg;
564     case MAPPING_APP_END: return Mapping::kAppMemEnd;
565 #endif
566     case MAPPING_SHADOW_BEG: return Mapping::kShadowBeg;
567     case MAPPING_SHADOW_END: return Mapping::kShadowEnd;
568     case MAPPING_META_SHADOW_BEG: return Mapping::kMetaShadowBeg;
569     case MAPPING_META_SHADOW_END: return Mapping::kMetaShadowEnd;
570     case MAPPING_TRACE_BEG: return Mapping::kTraceMemBeg;
571     case MAPPING_TRACE_END: return Mapping::kTraceMemEnd;
572   }
573 }
574 
575 template<int Type>
MappingArchImpl(void)576 uptr MappingArchImpl(void) {
577 #if defined(__aarch64__) && !defined(__APPLE__) && !SANITIZER_GO
578   switch (vmaSize) {
579     case 39: return MappingImpl<Mapping39, Type>();
580     case 42: return MappingImpl<Mapping42, Type>();
581     case 48: return MappingImpl<Mapping48, Type>();
582   }
583   DCHECK(0);
584   return 0;
585 #elif defined(__powerpc64__)
586   switch (vmaSize) {
587 #if !SANITIZER_GO
588     case 44: return MappingImpl<Mapping44, Type>();
589 #endif
590     case 46: return MappingImpl<Mapping46, Type>();
591     case 47: return MappingImpl<Mapping47, Type>();
592   }
593   DCHECK(0);
594   return 0;
595 #else
596   return MappingImpl<Mapping, Type>();
597 #endif
598 }
599 
600 #if !SANITIZER_GO
601 ALWAYS_INLINE
LoAppMemBeg(void)602 uptr LoAppMemBeg(void) {
603   return MappingArchImpl<MAPPING_LO_APP_BEG>();
604 }
605 ALWAYS_INLINE
LoAppMemEnd(void)606 uptr LoAppMemEnd(void) {
607   return MappingArchImpl<MAPPING_LO_APP_END>();
608 }
609 
610 #ifdef TSAN_MID_APP_RANGE
611 ALWAYS_INLINE
MidAppMemBeg(void)612 uptr MidAppMemBeg(void) {
613   return MappingArchImpl<MAPPING_MID_APP_BEG>();
614 }
615 ALWAYS_INLINE
MidAppMemEnd(void)616 uptr MidAppMemEnd(void) {
617   return MappingArchImpl<MAPPING_MID_APP_END>();
618 }
619 #endif
620 
621 ALWAYS_INLINE
HeapMemBeg(void)622 uptr HeapMemBeg(void) {
623   return MappingArchImpl<MAPPING_HEAP_BEG>();
624 }
625 ALWAYS_INLINE
HeapMemEnd(void)626 uptr HeapMemEnd(void) {
627   return MappingArchImpl<MAPPING_HEAP_END>();
628 }
629 
630 ALWAYS_INLINE
HiAppMemBeg(void)631 uptr HiAppMemBeg(void) {
632   return MappingArchImpl<MAPPING_HI_APP_BEG>();
633 }
634 ALWAYS_INLINE
HiAppMemEnd(void)635 uptr HiAppMemEnd(void) {
636   return MappingArchImpl<MAPPING_HI_APP_END>();
637 }
638 
639 ALWAYS_INLINE
VdsoBeg(void)640 uptr VdsoBeg(void) {
641   return MappingArchImpl<MAPPING_VDSO_BEG>();
642 }
643 
644 #else
645 
646 ALWAYS_INLINE
AppMemBeg(void)647 uptr AppMemBeg(void) {
648   return MappingArchImpl<MAPPING_APP_BEG>();
649 }
650 ALWAYS_INLINE
AppMemEnd(void)651 uptr AppMemEnd(void) {
652   return MappingArchImpl<MAPPING_APP_END>();
653 }
654 
655 #endif
656 
657 static inline
GetUserRegion(int i,uptr * start,uptr * end)658 bool GetUserRegion(int i, uptr *start, uptr *end) {
659   switch (i) {
660   default:
661     return false;
662 #if !SANITIZER_GO
663   case 0:
664     *start = LoAppMemBeg();
665     *end = LoAppMemEnd();
666     return true;
667   case 1:
668     *start = HiAppMemBeg();
669     *end = HiAppMemEnd();
670     return true;
671   case 2:
672     *start = HeapMemBeg();
673     *end = HeapMemEnd();
674     return true;
675 # ifdef TSAN_MID_APP_RANGE
676   case 3:
677     *start = MidAppMemBeg();
678     *end = MidAppMemEnd();
679     return true;
680 # endif
681 #else
682   case 0:
683     *start = AppMemBeg();
684     *end = AppMemEnd();
685     return true;
686 #endif
687   }
688 }
689 
690 ALWAYS_INLINE
ShadowBeg(void)691 uptr ShadowBeg(void) {
692   return MappingArchImpl<MAPPING_SHADOW_BEG>();
693 }
694 ALWAYS_INLINE
ShadowEnd(void)695 uptr ShadowEnd(void) {
696   return MappingArchImpl<MAPPING_SHADOW_END>();
697 }
698 
699 ALWAYS_INLINE
MetaShadowBeg(void)700 uptr MetaShadowBeg(void) {
701   return MappingArchImpl<MAPPING_META_SHADOW_BEG>();
702 }
703 ALWAYS_INLINE
MetaShadowEnd(void)704 uptr MetaShadowEnd(void) {
705   return MappingArchImpl<MAPPING_META_SHADOW_END>();
706 }
707 
708 ALWAYS_INLINE
TraceMemBeg(void)709 uptr TraceMemBeg(void) {
710   return MappingArchImpl<MAPPING_TRACE_BEG>();
711 }
712 ALWAYS_INLINE
TraceMemEnd(void)713 uptr TraceMemEnd(void) {
714   return MappingArchImpl<MAPPING_TRACE_END>();
715 }
716 
717 
718 template<typename Mapping>
IsAppMemImpl(uptr mem)719 bool IsAppMemImpl(uptr mem) {
720 #if !SANITIZER_GO
721   return (mem >= Mapping::kHeapMemBeg && mem < Mapping::kHeapMemEnd) ||
722 # ifdef TSAN_MID_APP_RANGE
723          (mem >= Mapping::kMidAppMemBeg && mem < Mapping::kMidAppMemEnd) ||
724 # endif
725          (mem >= Mapping::kLoAppMemBeg && mem < Mapping::kLoAppMemEnd) ||
726          (mem >= Mapping::kHiAppMemBeg && mem < Mapping::kHiAppMemEnd);
727 #else
728   return mem >= Mapping::kAppMemBeg && mem < Mapping::kAppMemEnd;
729 #endif
730 }
731 
732 ALWAYS_INLINE
IsAppMem(uptr mem)733 bool IsAppMem(uptr mem) {
734 #if defined(__aarch64__) && !defined(__APPLE__) && !SANITIZER_GO
735   switch (vmaSize) {
736     case 39: return IsAppMemImpl<Mapping39>(mem);
737     case 42: return IsAppMemImpl<Mapping42>(mem);
738     case 48: return IsAppMemImpl<Mapping48>(mem);
739   }
740   DCHECK(0);
741   return false;
742 #elif defined(__powerpc64__)
743   switch (vmaSize) {
744 #if !SANITIZER_GO
745     case 44: return IsAppMemImpl<Mapping44>(mem);
746 #endif
747     case 46: return IsAppMemImpl<Mapping46>(mem);
748     case 47: return IsAppMemImpl<Mapping47>(mem);
749   }
750   DCHECK(0);
751   return false;
752 #else
753   return IsAppMemImpl<Mapping>(mem);
754 #endif
755 }
756 
757 
758 template<typename Mapping>
IsShadowMemImpl(uptr mem)759 bool IsShadowMemImpl(uptr mem) {
760   return mem >= Mapping::kShadowBeg && mem <= Mapping::kShadowEnd;
761 }
762 
763 ALWAYS_INLINE
IsShadowMem(uptr mem)764 bool IsShadowMem(uptr mem) {
765 #if defined(__aarch64__) && !defined(__APPLE__) && !SANITIZER_GO
766   switch (vmaSize) {
767     case 39: return IsShadowMemImpl<Mapping39>(mem);
768     case 42: return IsShadowMemImpl<Mapping42>(mem);
769     case 48: return IsShadowMemImpl<Mapping48>(mem);
770   }
771   DCHECK(0);
772   return false;
773 #elif defined(__powerpc64__)
774   switch (vmaSize) {
775 #if !SANITIZER_GO
776     case 44: return IsShadowMemImpl<Mapping44>(mem);
777 #endif
778     case 46: return IsShadowMemImpl<Mapping46>(mem);
779     case 47: return IsShadowMemImpl<Mapping47>(mem);
780   }
781   DCHECK(0);
782   return false;
783 #else
784   return IsShadowMemImpl<Mapping>(mem);
785 #endif
786 }
787 
788 
789 template<typename Mapping>
IsMetaMemImpl(uptr mem)790 bool IsMetaMemImpl(uptr mem) {
791   return mem >= Mapping::kMetaShadowBeg && mem <= Mapping::kMetaShadowEnd;
792 }
793 
794 ALWAYS_INLINE
IsMetaMem(uptr mem)795 bool IsMetaMem(uptr mem) {
796 #if defined(__aarch64__) && !defined(__APPLE__) && !SANITIZER_GO
797   switch (vmaSize) {
798     case 39: return IsMetaMemImpl<Mapping39>(mem);
799     case 42: return IsMetaMemImpl<Mapping42>(mem);
800     case 48: return IsMetaMemImpl<Mapping48>(mem);
801   }
802   DCHECK(0);
803   return false;
804 #elif defined(__powerpc64__)
805   switch (vmaSize) {
806 #if !SANITIZER_GO
807     case 44: return IsMetaMemImpl<Mapping44>(mem);
808 #endif
809     case 46: return IsMetaMemImpl<Mapping46>(mem);
810     case 47: return IsMetaMemImpl<Mapping47>(mem);
811   }
812   DCHECK(0);
813   return false;
814 #else
815   return IsMetaMemImpl<Mapping>(mem);
816 #endif
817 }
818 
819 
820 template<typename Mapping>
MemToShadowImpl(uptr x)821 uptr MemToShadowImpl(uptr x) {
822   DCHECK(IsAppMem(x));
823 #if !SANITIZER_GO
824   return (((x) & ~(Mapping::kAppMemMsk | (kShadowCell - 1)))
825       ^ Mapping::kAppMemXor) * kShadowCnt;
826 #else
827 # ifndef SANITIZER_WINDOWS
828   return ((x & ~(kShadowCell - 1)) * kShadowCnt) | Mapping::kShadowBeg;
829 # else
830   return ((x & ~(kShadowCell - 1)) * kShadowCnt) + Mapping::kShadowBeg;
831 # endif
832 #endif
833 }
834 
835 ALWAYS_INLINE
MemToShadow(uptr x)836 uptr MemToShadow(uptr x) {
837 #if defined(__aarch64__) && !defined(__APPLE__) && !SANITIZER_GO
838   switch (vmaSize) {
839     case 39: return MemToShadowImpl<Mapping39>(x);
840     case 42: return MemToShadowImpl<Mapping42>(x);
841     case 48: return MemToShadowImpl<Mapping48>(x);
842   }
843   DCHECK(0);
844   return 0;
845 #elif defined(__powerpc64__)
846   switch (vmaSize) {
847 #if !SANITIZER_GO
848     case 44: return MemToShadowImpl<Mapping44>(x);
849 #endif
850     case 46: return MemToShadowImpl<Mapping46>(x);
851     case 47: return MemToShadowImpl<Mapping47>(x);
852   }
853   DCHECK(0);
854   return 0;
855 #else
856   return MemToShadowImpl<Mapping>(x);
857 #endif
858 }
859 
860 
861 template<typename Mapping>
MemToMetaImpl(uptr x)862 u32 *MemToMetaImpl(uptr x) {
863   DCHECK(IsAppMem(x));
864 #if !SANITIZER_GO
865   return (u32*)(((((x) & ~(Mapping::kAppMemMsk | (kMetaShadowCell - 1)))) /
866       kMetaShadowCell * kMetaShadowSize) | Mapping::kMetaShadowBeg);
867 #else
868 # ifndef SANITIZER_WINDOWS
869   return (u32*)(((x & ~(kMetaShadowCell - 1)) / \
870       kMetaShadowCell * kMetaShadowSize) | Mapping::kMetaShadowBeg);
871 # else
872   return (u32*)(((x & ~(kMetaShadowCell - 1)) / \
873       kMetaShadowCell * kMetaShadowSize) + Mapping::kMetaShadowBeg);
874 # endif
875 #endif
876 }
877 
878 ALWAYS_INLINE
MemToMeta(uptr x)879 u32 *MemToMeta(uptr x) {
880 #if defined(__aarch64__) && !defined(__APPLE__) && !SANITIZER_GO
881   switch (vmaSize) {
882     case 39: return MemToMetaImpl<Mapping39>(x);
883     case 42: return MemToMetaImpl<Mapping42>(x);
884     case 48: return MemToMetaImpl<Mapping48>(x);
885   }
886   DCHECK(0);
887   return 0;
888 #elif defined(__powerpc64__)
889   switch (vmaSize) {
890 #if !SANITIZER_GO
891     case 44: return MemToMetaImpl<Mapping44>(x);
892 #endif
893     case 46: return MemToMetaImpl<Mapping46>(x);
894     case 47: return MemToMetaImpl<Mapping47>(x);
895   }
896   DCHECK(0);
897   return 0;
898 #else
899   return MemToMetaImpl<Mapping>(x);
900 #endif
901 }
902 
903 
904 template<typename Mapping>
ShadowToMemImpl(uptr s)905 uptr ShadowToMemImpl(uptr s) {
906   DCHECK(IsShadowMem(s));
907 #if !SANITIZER_GO
908   // The shadow mapping is non-linear and we've lost some bits, so we don't have
909   // an easy way to restore the original app address. But the mapping is a
910   // bijection, so we try to restore the address as belonging to low/mid/high
911   // range consecutively and see if shadow->app->shadow mapping gives us the
912   // same address.
913   uptr p = (s / kShadowCnt) ^ Mapping::kAppMemXor;
914   if (p >= Mapping::kLoAppMemBeg && p < Mapping::kLoAppMemEnd &&
915       MemToShadow(p) == s)
916     return p;
917 # ifdef TSAN_MID_APP_RANGE
918   p = ((s / kShadowCnt) ^ Mapping::kAppMemXor) +
919       (Mapping::kMidAppMemBeg & Mapping::kAppMemMsk);
920   if (p >= Mapping::kMidAppMemBeg && p < Mapping::kMidAppMemEnd &&
921       MemToShadow(p) == s)
922     return p;
923 # endif
924   return ((s / kShadowCnt) ^ Mapping::kAppMemXor) | Mapping::kAppMemMsk;
925 #else  // #if !SANITIZER_GO
926 # ifndef SANITIZER_WINDOWS
927   return (s & ~Mapping::kShadowBeg) / kShadowCnt;
928 # else
929   return (s - Mapping::kShadowBeg) / kShadowCnt;
930 # endif // SANITIZER_WINDOWS
931 #endif
932 }
933 
934 ALWAYS_INLINE
ShadowToMem(uptr s)935 uptr ShadowToMem(uptr s) {
936 #if defined(__aarch64__) && !defined(__APPLE__) && !SANITIZER_GO
937   switch (vmaSize) {
938     case 39: return ShadowToMemImpl<Mapping39>(s);
939     case 42: return ShadowToMemImpl<Mapping42>(s);
940     case 48: return ShadowToMemImpl<Mapping48>(s);
941   }
942   DCHECK(0);
943   return 0;
944 #elif defined(__powerpc64__)
945   switch (vmaSize) {
946 #if !SANITIZER_GO
947     case 44: return ShadowToMemImpl<Mapping44>(s);
948 #endif
949     case 46: return ShadowToMemImpl<Mapping46>(s);
950     case 47: return ShadowToMemImpl<Mapping47>(s);
951   }
952   DCHECK(0);
953   return 0;
954 #else
955   return ShadowToMemImpl<Mapping>(s);
956 #endif
957 }
958 
959 
960 
961 // The additional page is to catch shadow stack overflow as paging fault.
962 // Windows wants 64K alignment for mmaps.
963 const uptr kTotalTraceSize = (kTraceSize * sizeof(Event) + sizeof(Trace)
964     + (64 << 10) + (64 << 10) - 1) & ~((64 << 10) - 1);
965 
966 template<typename Mapping>
GetThreadTraceImpl(int tid)967 uptr GetThreadTraceImpl(int tid) {
968   uptr p = Mapping::kTraceMemBeg + (uptr)tid * kTotalTraceSize;
969   DCHECK_LT(p, Mapping::kTraceMemEnd);
970   return p;
971 }
972 
973 ALWAYS_INLINE
GetThreadTrace(int tid)974 uptr GetThreadTrace(int tid) {
975 #if defined(__aarch64__) && !defined(__APPLE__) && !SANITIZER_GO
976   switch (vmaSize) {
977     case 39: return GetThreadTraceImpl<Mapping39>(tid);
978     case 42: return GetThreadTraceImpl<Mapping42>(tid);
979     case 48: return GetThreadTraceImpl<Mapping48>(tid);
980   }
981   DCHECK(0);
982   return 0;
983 #elif defined(__powerpc64__)
984   switch (vmaSize) {
985 #if !SANITIZER_GO
986     case 44: return GetThreadTraceImpl<Mapping44>(tid);
987 #endif
988     case 46: return GetThreadTraceImpl<Mapping46>(tid);
989     case 47: return GetThreadTraceImpl<Mapping47>(tid);
990   }
991   DCHECK(0);
992   return 0;
993 #else
994   return GetThreadTraceImpl<Mapping>(tid);
995 #endif
996 }
997 
998 
999 template<typename Mapping>
GetThreadTraceHeaderImpl(int tid)1000 uptr GetThreadTraceHeaderImpl(int tid) {
1001   uptr p = Mapping::kTraceMemBeg + (uptr)tid * kTotalTraceSize
1002       + kTraceSize * sizeof(Event);
1003   DCHECK_LT(p, Mapping::kTraceMemEnd);
1004   return p;
1005 }
1006 
1007 ALWAYS_INLINE
GetThreadTraceHeader(int tid)1008 uptr GetThreadTraceHeader(int tid) {
1009 #if defined(__aarch64__) && !defined(__APPLE__) && !SANITIZER_GO
1010   switch (vmaSize) {
1011     case 39: return GetThreadTraceHeaderImpl<Mapping39>(tid);
1012     case 42: return GetThreadTraceHeaderImpl<Mapping42>(tid);
1013     case 48: return GetThreadTraceHeaderImpl<Mapping48>(tid);
1014   }
1015   DCHECK(0);
1016   return 0;
1017 #elif defined(__powerpc64__)
1018   switch (vmaSize) {
1019 #if !SANITIZER_GO
1020     case 44: return GetThreadTraceHeaderImpl<Mapping44>(tid);
1021 #endif
1022     case 46: return GetThreadTraceHeaderImpl<Mapping46>(tid);
1023     case 47: return GetThreadTraceHeaderImpl<Mapping47>(tid);
1024   }
1025   DCHECK(0);
1026   return 0;
1027 #else
1028   return GetThreadTraceHeaderImpl<Mapping>(tid);
1029 #endif
1030 }
1031 
1032 void InitializePlatform();
1033 void InitializePlatformEarly();
1034 void CheckAndProtect();
1035 void InitializeShadowMemoryPlatform();
1036 void FlushShadowMemory();
1037 void WriteMemoryProfile(char *buf, uptr buf_size, uptr nthread, uptr nlive);
1038 int ExtractResolvFDs(void *state, int *fds, int nfd);
1039 int ExtractRecvmsgFDs(void *msg, int *fds, int nfd);
1040 uptr ExtractLongJmpSp(uptr *env);
1041 void ImitateTlsWrite(ThreadState *thr, uptr tls_addr, uptr tls_size);
1042 
1043 int call_pthread_cancel_with_cleanup(int (*fn)(void *arg),
1044                                      void (*cleanup)(void *arg), void *arg);
1045 
1046 void DestroyThreadState();
1047 void PlatformCleanUpThreadState(ThreadState *thr);
1048 
1049 }  // namespace __tsan
1050 
1051 #endif  // TSAN_PLATFORM_H
1052