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37d6f666 | 1 | /* AddressSanitizer, a fast memory error detector. |
85ec4feb | 2 | Copyright (C) 2012-2018 Free Software Foundation, Inc. |
37d6f666 WM |
3 | Contributed by Kostya Serebryany <kcc@google.com> |
4 | ||
5 | This file is part of GCC. | |
6 | ||
7 | GCC is free software; you can redistribute it and/or modify it under | |
8 | the terms of the GNU General Public License as published by the Free | |
9 | Software Foundation; either version 3, or (at your option) any later | |
10 | version. | |
11 | ||
12 | GCC is distributed in the hope that it will be useful, but WITHOUT ANY | |
13 | WARRANTY; without even the implied warranty of MERCHANTABILITY or | |
14 | FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License | |
15 | for more details. | |
16 | ||
17 | You should have received a copy of the GNU General Public License | |
18 | along with GCC; see the file COPYING3. If not see | |
19 | <http://www.gnu.org/licenses/>. */ | |
20 | ||
21 | ||
22 | #include "config.h" | |
23 | #include "system.h" | |
24 | #include "coretypes.h" | |
c7131fb2 | 25 | #include "backend.h" |
957060b5 AM |
26 | #include "target.h" |
27 | #include "rtl.h" | |
4d648807 | 28 | #include "tree.h" |
c7131fb2 | 29 | #include "gimple.h" |
957060b5 AM |
30 | #include "cfghooks.h" |
31 | #include "alloc-pool.h" | |
32 | #include "tree-pass.h" | |
4d0cdd0c | 33 | #include "memmodel.h" |
957060b5 | 34 | #include "tm_p.h" |
c7775327 | 35 | #include "ssa.h" |
957060b5 AM |
36 | #include "stringpool.h" |
37 | #include "tree-ssanames.h" | |
957060b5 AM |
38 | #include "optabs.h" |
39 | #include "emit-rtl.h" | |
40 | #include "cgraph.h" | |
41 | #include "gimple-pretty-print.h" | |
42 | #include "alias.h" | |
40e23961 | 43 | #include "fold-const.h" |
60393bbc | 44 | #include "cfganal.h" |
45b0be94 | 45 | #include "gimplify.h" |
5be5c238 | 46 | #include "gimple-iterator.h" |
d8a2d370 DN |
47 | #include "varasm.h" |
48 | #include "stor-layout.h" | |
37d6f666 | 49 | #include "tree-iterator.h" |
314e6352 ML |
50 | #include "stringpool.h" |
51 | #include "attribs.h" | |
37d6f666 | 52 | #include "asan.h" |
36566b39 PK |
53 | #include "dojump.h" |
54 | #include "explow.h" | |
f3ddd692 | 55 | #include "expr.h" |
8240018b | 56 | #include "output.h" |
0e668eaf | 57 | #include "langhooks.h" |
a9e0d843 | 58 | #include "cfgloop.h" |
ff2a63a7 | 59 | #include "gimple-builder.h" |
e3174bdf | 60 | #include "gimple-fold.h" |
b9a55b13 | 61 | #include "ubsan.h" |
b5ebc991 | 62 | #include "params.h" |
9b2b7279 | 63 | #include "builtins.h" |
860503d8 | 64 | #include "fnmatch.h" |
c7775327 | 65 | #include "tree-inline.h" |
37d6f666 | 66 | |
497a1c66 JJ |
67 | /* AddressSanitizer finds out-of-bounds and use-after-free bugs |
68 | with <2x slowdown on average. | |
69 | ||
70 | The tool consists of two parts: | |
71 | instrumentation module (this file) and a run-time library. | |
72 | The instrumentation module adds a run-time check before every memory insn. | |
73 | For a 8- or 16- byte load accessing address X: | |
74 | ShadowAddr = (X >> 3) + Offset | |
75 | ShadowValue = *(char*)ShadowAddr; // *(short*) for 16-byte access. | |
76 | if (ShadowValue) | |
77 | __asan_report_load8(X); | |
78 | For a load of N bytes (N=1, 2 or 4) from address X: | |
79 | ShadowAddr = (X >> 3) + Offset | |
80 | ShadowValue = *(char*)ShadowAddr; | |
81 | if (ShadowValue) | |
82 | if ((X & 7) + N - 1 > ShadowValue) | |
83 | __asan_report_loadN(X); | |
84 | Stores are instrumented similarly, but using __asan_report_storeN functions. | |
ef1b3fda KS |
85 | A call too __asan_init_vN() is inserted to the list of module CTORs. |
86 | N is the version number of the AddressSanitizer API. The changes between the | |
87 | API versions are listed in libsanitizer/asan/asan_interface_internal.h. | |
497a1c66 JJ |
88 | |
89 | The run-time library redefines malloc (so that redzone are inserted around | |
90 | the allocated memory) and free (so that reuse of free-ed memory is delayed), | |
ef1b3fda | 91 | provides __asan_report* and __asan_init_vN functions. |
497a1c66 JJ |
92 | |
93 | Read more: | |
94 | http://code.google.com/p/address-sanitizer/wiki/AddressSanitizerAlgorithm | |
95 | ||
96 | The current implementation supports detection of out-of-bounds and | |
97 | use-after-free in the heap, on the stack and for global variables. | |
98 | ||
99 | [Protection of stack variables] | |
100 | ||
101 | To understand how detection of out-of-bounds and use-after-free works | |
102 | for stack variables, lets look at this example on x86_64 where the | |
103 | stack grows downward: | |
f3ddd692 JJ |
104 | |
105 | int | |
106 | foo () | |
107 | { | |
108 | char a[23] = {0}; | |
109 | int b[2] = {0}; | |
110 | ||
111 | a[5] = 1; | |
112 | b[1] = 2; | |
113 | ||
114 | return a[5] + b[1]; | |
115 | } | |
116 | ||
497a1c66 JJ |
117 | For this function, the stack protected by asan will be organized as |
118 | follows, from the top of the stack to the bottom: | |
f3ddd692 | 119 | |
497a1c66 | 120 | Slot 1/ [red zone of 32 bytes called 'RIGHT RedZone'] |
f3ddd692 | 121 | |
497a1c66 JJ |
122 | Slot 2/ [8 bytes of red zone, that adds up to the space of 'a' to make |
123 | the next slot be 32 bytes aligned; this one is called Partial | |
124 | Redzone; this 32 bytes alignment is an asan constraint] | |
f3ddd692 | 125 | |
497a1c66 | 126 | Slot 3/ [24 bytes for variable 'a'] |
f3ddd692 | 127 | |
497a1c66 | 128 | Slot 4/ [red zone of 32 bytes called 'Middle RedZone'] |
f3ddd692 | 129 | |
497a1c66 | 130 | Slot 5/ [24 bytes of Partial Red Zone (similar to slot 2] |
f3ddd692 | 131 | |
497a1c66 | 132 | Slot 6/ [8 bytes for variable 'b'] |
f3ddd692 | 133 | |
497a1c66 JJ |
134 | Slot 7/ [32 bytes of Red Zone at the bottom of the stack, called |
135 | 'LEFT RedZone'] | |
f3ddd692 | 136 | |
497a1c66 JJ |
137 | The 32 bytes of LEFT red zone at the bottom of the stack can be |
138 | decomposed as such: | |
f3ddd692 JJ |
139 | |
140 | 1/ The first 8 bytes contain a magical asan number that is always | |
141 | 0x41B58AB3. | |
142 | ||
143 | 2/ The following 8 bytes contains a pointer to a string (to be | |
144 | parsed at runtime by the runtime asan library), which format is | |
145 | the following: | |
146 | ||
147 | "<function-name> <space> <num-of-variables-on-the-stack> | |
148 | (<32-bytes-aligned-offset-in-bytes-of-variable> <space> | |
149 | <length-of-var-in-bytes> ){n} " | |
150 | ||
151 | where '(...){n}' means the content inside the parenthesis occurs 'n' | |
152 | times, with 'n' being the number of variables on the stack. | |
c1f5ce48 | 153 | |
ef1b3fda KS |
154 | 3/ The following 8 bytes contain the PC of the current function which |
155 | will be used by the run-time library to print an error message. | |
f3ddd692 | 156 | |
ef1b3fda | 157 | 4/ The following 8 bytes are reserved for internal use by the run-time. |
f3ddd692 | 158 | |
497a1c66 | 159 | The shadow memory for that stack layout is going to look like this: |
f3ddd692 JJ |
160 | |
161 | - content of shadow memory 8 bytes for slot 7: 0xF1F1F1F1. | |
162 | The F1 byte pattern is a magic number called | |
163 | ASAN_STACK_MAGIC_LEFT and is a way for the runtime to know that | |
164 | the memory for that shadow byte is part of a the LEFT red zone | |
165 | intended to seat at the bottom of the variables on the stack. | |
166 | ||
167 | - content of shadow memory 8 bytes for slots 6 and 5: | |
168 | 0xF4F4F400. The F4 byte pattern is a magic number | |
169 | called ASAN_STACK_MAGIC_PARTIAL. It flags the fact that the | |
170 | memory region for this shadow byte is a PARTIAL red zone | |
171 | intended to pad a variable A, so that the slot following | |
172 | {A,padding} is 32 bytes aligned. | |
173 | ||
174 | Note that the fact that the least significant byte of this | |
175 | shadow memory content is 00 means that 8 bytes of its | |
176 | corresponding memory (which corresponds to the memory of | |
177 | variable 'b') is addressable. | |
178 | ||
179 | - content of shadow memory 8 bytes for slot 4: 0xF2F2F2F2. | |
180 | The F2 byte pattern is a magic number called | |
181 | ASAN_STACK_MAGIC_MIDDLE. It flags the fact that the memory | |
182 | region for this shadow byte is a MIDDLE red zone intended to | |
183 | seat between two 32 aligned slots of {variable,padding}. | |
184 | ||
185 | - content of shadow memory 8 bytes for slot 3 and 2: | |
497a1c66 | 186 | 0xF4000000. This represents is the concatenation of |
f3ddd692 JJ |
187 | variable 'a' and the partial red zone following it, like what we |
188 | had for variable 'b'. The least significant 3 bytes being 00 | |
189 | means that the 3 bytes of variable 'a' are addressable. | |
190 | ||
497a1c66 | 191 | - content of shadow memory 8 bytes for slot 1: 0xF3F3F3F3. |
f3ddd692 JJ |
192 | The F3 byte pattern is a magic number called |
193 | ASAN_STACK_MAGIC_RIGHT. It flags the fact that the memory | |
194 | region for this shadow byte is a RIGHT red zone intended to seat | |
195 | at the top of the variables of the stack. | |
196 | ||
497a1c66 JJ |
197 | Note that the real variable layout is done in expand_used_vars in |
198 | cfgexpand.c. As far as Address Sanitizer is concerned, it lays out | |
199 | stack variables as well as the different red zones, emits some | |
200 | prologue code to populate the shadow memory as to poison (mark as | |
201 | non-accessible) the regions of the red zones and mark the regions of | |
202 | stack variables as accessible, and emit some epilogue code to | |
203 | un-poison (mark as accessible) the regions of red zones right before | |
204 | the function exits. | |
8240018b | 205 | |
497a1c66 | 206 | [Protection of global variables] |
8240018b | 207 | |
497a1c66 JJ |
208 | The basic idea is to insert a red zone between two global variables |
209 | and install a constructor function that calls the asan runtime to do | |
210 | the populating of the relevant shadow memory regions at load time. | |
8240018b | 211 | |
497a1c66 JJ |
212 | So the global variables are laid out as to insert a red zone between |
213 | them. The size of the red zones is so that each variable starts on a | |
214 | 32 bytes boundary. | |
8240018b | 215 | |
497a1c66 JJ |
216 | Then a constructor function is installed so that, for each global |
217 | variable, it calls the runtime asan library function | |
218 | __asan_register_globals_with an instance of this type: | |
8240018b JJ |
219 | |
220 | struct __asan_global | |
221 | { | |
222 | // Address of the beginning of the global variable. | |
223 | const void *__beg; | |
224 | ||
225 | // Initial size of the global variable. | |
226 | uptr __size; | |
227 | ||
228 | // Size of the global variable + size of the red zone. This | |
229 | // size is 32 bytes aligned. | |
230 | uptr __size_with_redzone; | |
231 | ||
232 | // Name of the global variable. | |
233 | const void *__name; | |
234 | ||
ef1b3fda KS |
235 | // Name of the module where the global variable is declared. |
236 | const void *__module_name; | |
237 | ||
59b36ecf | 238 | // 1 if it has dynamic initialization, 0 otherwise. |
8240018b | 239 | uptr __has_dynamic_init; |
866e32ad KS |
240 | |
241 | // A pointer to struct that contains source location, could be NULL. | |
242 | __asan_global_source_location *__location; | |
8240018b JJ |
243 | } |
244 | ||
497a1c66 JJ |
245 | A destructor function that calls the runtime asan library function |
246 | _asan_unregister_globals is also installed. */ | |
f3ddd692 | 247 | |
fd960af2 YG |
248 | static unsigned HOST_WIDE_INT asan_shadow_offset_value; |
249 | static bool asan_shadow_offset_computed; | |
860503d8 | 250 | static vec<char *> sanitized_sections; |
e3174bdf | 251 | static tree last_alloca_addr; |
fd960af2 | 252 | |
6dc4a604 ML |
253 | /* Set of variable declarations that are going to be guarded by |
254 | use-after-scope sanitizer. */ | |
255 | ||
bf9f9292 | 256 | hash_set<tree> *asan_handled_variables = NULL; |
6dc4a604 ML |
257 | |
258 | hash_set <tree> *asan_used_labels = NULL; | |
259 | ||
fd960af2 YG |
260 | /* Sets shadow offset to value in string VAL. */ |
261 | ||
262 | bool | |
263 | set_asan_shadow_offset (const char *val) | |
264 | { | |
265 | char *endp; | |
c1f5ce48 | 266 | |
fd960af2 YG |
267 | errno = 0; |
268 | #ifdef HAVE_LONG_LONG | |
269 | asan_shadow_offset_value = strtoull (val, &endp, 0); | |
270 | #else | |
271 | asan_shadow_offset_value = strtoul (val, &endp, 0); | |
272 | #endif | |
273 | if (!(*val != '\0' && *endp == '\0' && errno == 0)) | |
274 | return false; | |
275 | ||
276 | asan_shadow_offset_computed = true; | |
277 | ||
278 | return true; | |
279 | } | |
280 | ||
18af8d16 YG |
281 | /* Set list of user-defined sections that need to be sanitized. */ |
282 | ||
283 | void | |
860503d8 | 284 | set_sanitized_sections (const char *sections) |
18af8d16 | 285 | { |
860503d8 YG |
286 | char *pat; |
287 | unsigned i; | |
288 | FOR_EACH_VEC_ELT (sanitized_sections, i, pat) | |
289 | free (pat); | |
290 | sanitized_sections.truncate (0); | |
291 | ||
292 | for (const char *s = sections; *s; ) | |
293 | { | |
294 | const char *end; | |
295 | for (end = s; *end && *end != ','; ++end); | |
296 | size_t len = end - s; | |
297 | sanitized_sections.safe_push (xstrndup (s, len)); | |
298 | s = *end ? end + 1 : end; | |
299 | } | |
18af8d16 YG |
300 | } |
301 | ||
56b7aede ML |
302 | bool |
303 | asan_mark_p (gimple *stmt, enum asan_mark_flags flag) | |
304 | { | |
305 | return (gimple_call_internal_p (stmt, IFN_ASAN_MARK) | |
306 | && tree_to_uhwi (gimple_call_arg (stmt, 0)) == flag); | |
307 | } | |
308 | ||
6dc4a604 ML |
309 | bool |
310 | asan_sanitize_stack_p (void) | |
311 | { | |
45b2222a | 312 | return (sanitize_flags_p (SANITIZE_ADDRESS) && ASAN_STACK); |
6dc4a604 ML |
313 | } |
314 | ||
5094f7d5 MO |
315 | bool |
316 | asan_sanitize_allocas_p (void) | |
317 | { | |
318 | return (asan_sanitize_stack_p () && ASAN_PROTECT_ALLOCAS); | |
319 | } | |
320 | ||
18af8d16 YG |
321 | /* Checks whether section SEC should be sanitized. */ |
322 | ||
323 | static bool | |
324 | section_sanitized_p (const char *sec) | |
325 | { | |
860503d8 YG |
326 | char *pat; |
327 | unsigned i; | |
328 | FOR_EACH_VEC_ELT (sanitized_sections, i, pat) | |
329 | if (fnmatch (pat, sec, FNM_PERIOD) == 0) | |
330 | return true; | |
18af8d16 YG |
331 | return false; |
332 | } | |
333 | ||
fd960af2 YG |
334 | /* Returns Asan shadow offset. */ |
335 | ||
336 | static unsigned HOST_WIDE_INT | |
337 | asan_shadow_offset () | |
338 | { | |
339 | if (!asan_shadow_offset_computed) | |
340 | { | |
341 | asan_shadow_offset_computed = true; | |
342 | asan_shadow_offset_value = targetm.asan_shadow_offset (); | |
343 | } | |
344 | return asan_shadow_offset_value; | |
345 | } | |
346 | ||
f3ddd692 | 347 | alias_set_type asan_shadow_set = -1; |
37d6f666 | 348 | |
6dc4a604 | 349 | /* Pointer types to 1, 2 or 4 byte integers in shadow memory. A separate |
f6d98484 | 350 | alias set is used for all shadow memory accesses. */ |
6dc4a604 | 351 | static GTY(()) tree shadow_ptr_types[3]; |
f6d98484 | 352 | |
e361382f JJ |
353 | /* Decl for __asan_option_detect_stack_use_after_return. */ |
354 | static GTY(()) tree asan_detect_stack_use_after_return; | |
355 | ||
bdcbe80c DS |
356 | /* Hashtable support for memory references used by gimple |
357 | statements. */ | |
358 | ||
359 | /* This type represents a reference to a memory region. */ | |
360 | struct asan_mem_ref | |
361 | { | |
688010ba | 362 | /* The expression of the beginning of the memory region. */ |
bdcbe80c DS |
363 | tree start; |
364 | ||
40f9f6bb JJ |
365 | /* The size of the access. */ |
366 | HOST_WIDE_INT access_size; | |
c1f5ce48 ML |
367 | }; |
368 | ||
fcb87c50 | 369 | object_allocator <asan_mem_ref> asan_mem_ref_pool ("asan_mem_ref"); |
bdcbe80c DS |
370 | |
371 | /* Initializes an instance of asan_mem_ref. */ | |
372 | ||
373 | static void | |
40f9f6bb | 374 | asan_mem_ref_init (asan_mem_ref *ref, tree start, HOST_WIDE_INT access_size) |
bdcbe80c DS |
375 | { |
376 | ref->start = start; | |
377 | ref->access_size = access_size; | |
378 | } | |
379 | ||
380 | /* Allocates memory for an instance of asan_mem_ref into the memory | |
381 | pool returned by asan_mem_ref_get_alloc_pool and initialize it. | |
382 | START is the address of (or the expression pointing to) the | |
383 | beginning of memory reference. ACCESS_SIZE is the size of the | |
384 | access to the referenced memory. */ | |
385 | ||
386 | static asan_mem_ref* | |
40f9f6bb | 387 | asan_mem_ref_new (tree start, HOST_WIDE_INT access_size) |
bdcbe80c | 388 | { |
fb0b2914 | 389 | asan_mem_ref *ref = asan_mem_ref_pool.allocate (); |
bdcbe80c DS |
390 | |
391 | asan_mem_ref_init (ref, start, access_size); | |
392 | return ref; | |
393 | } | |
394 | ||
395 | /* This builds and returns a pointer to the end of the memory region | |
396 | that starts at START and of length LEN. */ | |
397 | ||
398 | tree | |
399 | asan_mem_ref_get_end (tree start, tree len) | |
400 | { | |
401 | if (len == NULL_TREE || integer_zerop (len)) | |
402 | return start; | |
403 | ||
a2f581e1 YG |
404 | if (!ptrofftype_p (len)) |
405 | len = convert_to_ptrofftype (len); | |
406 | ||
bdcbe80c DS |
407 | return fold_build2 (POINTER_PLUS_EXPR, TREE_TYPE (start), start, len); |
408 | } | |
409 | ||
410 | /* Return a tree expression that represents the end of the referenced | |
411 | memory region. Beware that this function can actually build a new | |
412 | tree expression. */ | |
413 | ||
414 | tree | |
415 | asan_mem_ref_get_end (const asan_mem_ref *ref, tree len) | |
416 | { | |
417 | return asan_mem_ref_get_end (ref->start, len); | |
418 | } | |
419 | ||
8d67ee55 | 420 | struct asan_mem_ref_hasher : nofree_ptr_hash <asan_mem_ref> |
bdcbe80c | 421 | { |
67f58944 TS |
422 | static inline hashval_t hash (const asan_mem_ref *); |
423 | static inline bool equal (const asan_mem_ref *, const asan_mem_ref *); | |
bdcbe80c DS |
424 | }; |
425 | ||
426 | /* Hash a memory reference. */ | |
427 | ||
428 | inline hashval_t | |
429 | asan_mem_ref_hasher::hash (const asan_mem_ref *mem_ref) | |
430 | { | |
bdea98ca | 431 | return iterative_hash_expr (mem_ref->start, 0); |
bdcbe80c DS |
432 | } |
433 | ||
434 | /* Compare two memory references. We accept the length of either | |
435 | memory references to be NULL_TREE. */ | |
436 | ||
437 | inline bool | |
438 | asan_mem_ref_hasher::equal (const asan_mem_ref *m1, | |
439 | const asan_mem_ref *m2) | |
440 | { | |
bdea98ca | 441 | return operand_equal_p (m1->start, m2->start, 0); |
bdcbe80c DS |
442 | } |
443 | ||
c203e8a7 | 444 | static hash_table<asan_mem_ref_hasher> *asan_mem_ref_ht; |
bdcbe80c DS |
445 | |
446 | /* Returns a reference to the hash table containing memory references. | |
447 | This function ensures that the hash table is created. Note that | |
448 | this hash table is updated by the function | |
449 | update_mem_ref_hash_table. */ | |
450 | ||
c203e8a7 | 451 | static hash_table<asan_mem_ref_hasher> * |
bdcbe80c DS |
452 | get_mem_ref_hash_table () |
453 | { | |
c203e8a7 TS |
454 | if (!asan_mem_ref_ht) |
455 | asan_mem_ref_ht = new hash_table<asan_mem_ref_hasher> (10); | |
bdcbe80c DS |
456 | |
457 | return asan_mem_ref_ht; | |
458 | } | |
459 | ||
460 | /* Clear all entries from the memory references hash table. */ | |
461 | ||
462 | static void | |
463 | empty_mem_ref_hash_table () | |
464 | { | |
c203e8a7 TS |
465 | if (asan_mem_ref_ht) |
466 | asan_mem_ref_ht->empty (); | |
bdcbe80c DS |
467 | } |
468 | ||
469 | /* Free the memory references hash table. */ | |
470 | ||
471 | static void | |
472 | free_mem_ref_resources () | |
473 | { | |
c203e8a7 TS |
474 | delete asan_mem_ref_ht; |
475 | asan_mem_ref_ht = NULL; | |
bdcbe80c | 476 | |
fb0b2914 | 477 | asan_mem_ref_pool.release (); |
bdcbe80c DS |
478 | } |
479 | ||
480 | /* Return true iff the memory reference REF has been instrumented. */ | |
481 | ||
482 | static bool | |
40f9f6bb | 483 | has_mem_ref_been_instrumented (tree ref, HOST_WIDE_INT access_size) |
bdcbe80c DS |
484 | { |
485 | asan_mem_ref r; | |
486 | asan_mem_ref_init (&r, ref, access_size); | |
487 | ||
bdea98ca MO |
488 | asan_mem_ref *saved_ref = get_mem_ref_hash_table ()->find (&r); |
489 | return saved_ref && saved_ref->access_size >= access_size; | |
bdcbe80c DS |
490 | } |
491 | ||
492 | /* Return true iff the memory reference REF has been instrumented. */ | |
493 | ||
494 | static bool | |
495 | has_mem_ref_been_instrumented (const asan_mem_ref *ref) | |
496 | { | |
497 | return has_mem_ref_been_instrumented (ref->start, ref->access_size); | |
498 | } | |
499 | ||
500 | /* Return true iff access to memory region starting at REF and of | |
501 | length LEN has been instrumented. */ | |
502 | ||
503 | static bool | |
504 | has_mem_ref_been_instrumented (const asan_mem_ref *ref, tree len) | |
505 | { | |
bdea98ca MO |
506 | HOST_WIDE_INT size_in_bytes |
507 | = tree_fits_shwi_p (len) ? tree_to_shwi (len) : -1; | |
bdcbe80c | 508 | |
bdea98ca MO |
509 | return size_in_bytes != -1 |
510 | && has_mem_ref_been_instrumented (ref->start, size_in_bytes); | |
bdcbe80c DS |
511 | } |
512 | ||
513 | /* Set REF to the memory reference present in a gimple assignment | |
514 | ASSIGNMENT. Return true upon successful completion, false | |
515 | otherwise. */ | |
516 | ||
517 | static bool | |
538dd0b7 | 518 | get_mem_ref_of_assignment (const gassign *assignment, |
bdcbe80c DS |
519 | asan_mem_ref *ref, |
520 | bool *ref_is_store) | |
521 | { | |
522 | gcc_assert (gimple_assign_single_p (assignment)); | |
523 | ||
5d751b0c JJ |
524 | if (gimple_store_p (assignment) |
525 | && !gimple_clobber_p (assignment)) | |
bdcbe80c DS |
526 | { |
527 | ref->start = gimple_assign_lhs (assignment); | |
528 | *ref_is_store = true; | |
529 | } | |
530 | else if (gimple_assign_load_p (assignment)) | |
531 | { | |
532 | ref->start = gimple_assign_rhs1 (assignment); | |
533 | *ref_is_store = false; | |
534 | } | |
535 | else | |
536 | return false; | |
537 | ||
538 | ref->access_size = int_size_in_bytes (TREE_TYPE (ref->start)); | |
539 | return true; | |
540 | } | |
541 | ||
e3174bdf MO |
542 | /* Return address of last allocated dynamic alloca. */ |
543 | ||
544 | static tree | |
545 | get_last_alloca_addr () | |
546 | { | |
547 | if (last_alloca_addr) | |
548 | return last_alloca_addr; | |
549 | ||
550 | last_alloca_addr = create_tmp_reg (ptr_type_node, "last_alloca_addr"); | |
551 | gassign *g = gimple_build_assign (last_alloca_addr, null_pointer_node); | |
552 | edge e = single_succ_edge (ENTRY_BLOCK_PTR_FOR_FN (cfun)); | |
553 | gsi_insert_on_edge_immediate (e, g); | |
554 | return last_alloca_addr; | |
555 | } | |
556 | ||
7504c3bf | 557 | /* Insert __asan_allocas_unpoison (top, bottom) call before |
e3174bdf MO |
558 | __builtin_stack_restore (new_sp) call. |
559 | The pseudocode of this routine should look like this: | |
e3174bdf MO |
560 | top = last_alloca_addr; |
561 | bot = new_sp; | |
562 | __asan_allocas_unpoison (top, bot); | |
563 | last_alloca_addr = new_sp; | |
7504c3bf | 564 | __builtin_stack_restore (new_sp); |
e3174bdf MO |
565 | In general, we can't use new_sp as bot parameter because on some |
566 | architectures SP has non zero offset from dynamic stack area. Moreover, on | |
567 | some architectures this offset (STACK_DYNAMIC_OFFSET) becomes known for each | |
568 | particular function only after all callees were expanded to rtl. | |
569 | The most noticeable example is PowerPC{,64}, see | |
570 | http://refspecs.linuxfoundation.org/ELF/ppc64/PPC-elf64abi.html#DYNAM-STACK. | |
571 | To overcome the issue we use following trick: pass new_sp as a second | |
572 | parameter to __asan_allocas_unpoison and rewrite it during expansion with | |
7504c3bf JJ |
573 | new_sp + (virtual_dynamic_stack_rtx - sp) later in |
574 | expand_asan_emit_allocas_unpoison function. */ | |
e3174bdf MO |
575 | |
576 | static void | |
577 | handle_builtin_stack_restore (gcall *call, gimple_stmt_iterator *iter) | |
578 | { | |
5094f7d5 | 579 | if (!iter || !asan_sanitize_allocas_p ()) |
e3174bdf MO |
580 | return; |
581 | ||
582 | tree last_alloca = get_last_alloca_addr (); | |
583 | tree restored_stack = gimple_call_arg (call, 0); | |
584 | tree fn = builtin_decl_implicit (BUILT_IN_ASAN_ALLOCAS_UNPOISON); | |
585 | gimple *g = gimple_build_call (fn, 2, last_alloca, restored_stack); | |
7504c3bf | 586 | gsi_insert_before (iter, g, GSI_SAME_STMT); |
e3174bdf | 587 | g = gimple_build_assign (last_alloca, restored_stack); |
7504c3bf | 588 | gsi_insert_before (iter, g, GSI_SAME_STMT); |
e3174bdf MO |
589 | } |
590 | ||
591 | /* Deploy and poison redzones around __builtin_alloca call. To do this, we | |
592 | should replace this call with another one with changed parameters and | |
593 | replace all its uses with new address, so | |
594 | addr = __builtin_alloca (old_size, align); | |
595 | is replaced by | |
596 | left_redzone_size = max (align, ASAN_RED_ZONE_SIZE); | |
597 | Following two statements are optimized out if we know that | |
598 | old_size & (ASAN_RED_ZONE_SIZE - 1) == 0, i.e. alloca doesn't need partial | |
599 | redzone. | |
600 | misalign = old_size & (ASAN_RED_ZONE_SIZE - 1); | |
601 | partial_redzone_size = ASAN_RED_ZONE_SIZE - misalign; | |
602 | right_redzone_size = ASAN_RED_ZONE_SIZE; | |
603 | additional_size = left_redzone_size + partial_redzone_size + | |
604 | right_redzone_size; | |
605 | new_size = old_size + additional_size; | |
606 | new_alloca = __builtin_alloca (new_size, max (align, 32)) | |
607 | __asan_alloca_poison (new_alloca, old_size) | |
608 | addr = new_alloca + max (align, ASAN_RED_ZONE_SIZE); | |
609 | last_alloca_addr = new_alloca; | |
610 | ADDITIONAL_SIZE is added to make new memory allocation contain not only | |
611 | requested memory, but also left, partial and right redzones as well as some | |
612 | additional space, required by alignment. */ | |
613 | ||
614 | static void | |
615 | handle_builtin_alloca (gcall *call, gimple_stmt_iterator *iter) | |
616 | { | |
5094f7d5 | 617 | if (!iter || !asan_sanitize_allocas_p ()) |
e3174bdf MO |
618 | return; |
619 | ||
620 | gassign *g; | |
621 | gcall *gg; | |
622 | const HOST_WIDE_INT redzone_mask = ASAN_RED_ZONE_SIZE - 1; | |
623 | ||
624 | tree last_alloca = get_last_alloca_addr (); | |
625 | tree callee = gimple_call_fndecl (call); | |
626 | tree old_size = gimple_call_arg (call, 0); | |
627 | tree ptr_type = gimple_call_lhs (call) ? TREE_TYPE (gimple_call_lhs (call)) | |
628 | : ptr_type_node; | |
629 | tree partial_size = NULL_TREE; | |
e3174bdf | 630 | unsigned int align |
9e878cf1 EB |
631 | = DECL_FUNCTION_CODE (callee) == BUILT_IN_ALLOCA |
632 | ? 0 : tree_to_uhwi (gimple_call_arg (call, 1)); | |
e3174bdf MO |
633 | |
634 | /* If ALIGN > ASAN_RED_ZONE_SIZE, we embed left redzone into first ALIGN | |
635 | bytes of allocated space. Otherwise, align alloca to ASAN_RED_ZONE_SIZE | |
636 | manually. */ | |
637 | align = MAX (align, ASAN_RED_ZONE_SIZE * BITS_PER_UNIT); | |
638 | ||
639 | tree alloca_rz_mask = build_int_cst (size_type_node, redzone_mask); | |
640 | tree redzone_size = build_int_cst (size_type_node, ASAN_RED_ZONE_SIZE); | |
641 | ||
642 | /* Extract lower bits from old_size. */ | |
643 | wide_int size_nonzero_bits = get_nonzero_bits (old_size); | |
644 | wide_int rz_mask | |
645 | = wi::uhwi (redzone_mask, wi::get_precision (size_nonzero_bits)); | |
646 | wide_int old_size_lower_bits = wi::bit_and (size_nonzero_bits, rz_mask); | |
647 | ||
648 | /* If alloca size is aligned to ASAN_RED_ZONE_SIZE, we don't need partial | |
649 | redzone. Otherwise, compute its size here. */ | |
650 | if (wi::ne_p (old_size_lower_bits, 0)) | |
651 | { | |
652 | /* misalign = size & (ASAN_RED_ZONE_SIZE - 1) | |
653 | partial_size = ASAN_RED_ZONE_SIZE - misalign. */ | |
654 | g = gimple_build_assign (make_ssa_name (size_type_node, NULL), | |
655 | BIT_AND_EXPR, old_size, alloca_rz_mask); | |
656 | gsi_insert_before (iter, g, GSI_SAME_STMT); | |
657 | tree misalign = gimple_assign_lhs (g); | |
658 | g = gimple_build_assign (make_ssa_name (size_type_node, NULL), MINUS_EXPR, | |
659 | redzone_size, misalign); | |
660 | gsi_insert_before (iter, g, GSI_SAME_STMT); | |
661 | partial_size = gimple_assign_lhs (g); | |
662 | } | |
663 | ||
664 | /* additional_size = align + ASAN_RED_ZONE_SIZE. */ | |
665 | tree additional_size = build_int_cst (size_type_node, align / BITS_PER_UNIT | |
666 | + ASAN_RED_ZONE_SIZE); | |
667 | /* If alloca has partial redzone, include it to additional_size too. */ | |
668 | if (partial_size) | |
669 | { | |
670 | /* additional_size += partial_size. */ | |
671 | g = gimple_build_assign (make_ssa_name (size_type_node), PLUS_EXPR, | |
672 | partial_size, additional_size); | |
673 | gsi_insert_before (iter, g, GSI_SAME_STMT); | |
674 | additional_size = gimple_assign_lhs (g); | |
675 | } | |
676 | ||
677 | /* new_size = old_size + additional_size. */ | |
678 | g = gimple_build_assign (make_ssa_name (size_type_node), PLUS_EXPR, old_size, | |
679 | additional_size); | |
680 | gsi_insert_before (iter, g, GSI_SAME_STMT); | |
681 | tree new_size = gimple_assign_lhs (g); | |
682 | ||
683 | /* Build new __builtin_alloca call: | |
684 | new_alloca_with_rz = __builtin_alloca (new_size, align). */ | |
685 | tree fn = builtin_decl_implicit (BUILT_IN_ALLOCA_WITH_ALIGN); | |
686 | gg = gimple_build_call (fn, 2, new_size, | |
687 | build_int_cst (size_type_node, align)); | |
688 | tree new_alloca_with_rz = make_ssa_name (ptr_type, gg); | |
689 | gimple_call_set_lhs (gg, new_alloca_with_rz); | |
690 | gsi_insert_before (iter, gg, GSI_SAME_STMT); | |
691 | ||
692 | /* new_alloca = new_alloca_with_rz + align. */ | |
693 | g = gimple_build_assign (make_ssa_name (ptr_type), POINTER_PLUS_EXPR, | |
694 | new_alloca_with_rz, | |
695 | build_int_cst (size_type_node, | |
696 | align / BITS_PER_UNIT)); | |
697 | gsi_insert_before (iter, g, GSI_SAME_STMT); | |
698 | tree new_alloca = gimple_assign_lhs (g); | |
699 | ||
700 | /* Poison newly created alloca redzones: | |
701 | __asan_alloca_poison (new_alloca, old_size). */ | |
702 | fn = builtin_decl_implicit (BUILT_IN_ASAN_ALLOCA_POISON); | |
703 | gg = gimple_build_call (fn, 2, new_alloca, old_size); | |
704 | gsi_insert_before (iter, gg, GSI_SAME_STMT); | |
705 | ||
706 | /* Save new_alloca_with_rz value into last_alloca to use it during | |
707 | allocas unpoisoning. */ | |
708 | g = gimple_build_assign (last_alloca, new_alloca_with_rz); | |
709 | gsi_insert_before (iter, g, GSI_SAME_STMT); | |
710 | ||
711 | /* Finally, replace old alloca ptr with NEW_ALLOCA. */ | |
712 | replace_call_with_value (iter, new_alloca); | |
713 | } | |
714 | ||
bdcbe80c DS |
715 | /* Return the memory references contained in a gimple statement |
716 | representing a builtin call that has to do with memory access. */ | |
717 | ||
718 | static bool | |
e3174bdf | 719 | get_mem_refs_of_builtin_call (gcall *call, |
bdcbe80c DS |
720 | asan_mem_ref *src0, |
721 | tree *src0_len, | |
722 | bool *src0_is_store, | |
723 | asan_mem_ref *src1, | |
724 | tree *src1_len, | |
725 | bool *src1_is_store, | |
726 | asan_mem_ref *dst, | |
727 | tree *dst_len, | |
728 | bool *dst_is_store, | |
bdea98ca | 729 | bool *dest_is_deref, |
e3174bdf MO |
730 | bool *intercepted_p, |
731 | gimple_stmt_iterator *iter = NULL) | |
bdcbe80c DS |
732 | { |
733 | gcc_checking_assert (gimple_call_builtin_p (call, BUILT_IN_NORMAL)); | |
734 | ||
735 | tree callee = gimple_call_fndecl (call); | |
736 | tree source0 = NULL_TREE, source1 = NULL_TREE, | |
737 | dest = NULL_TREE, len = NULL_TREE; | |
738 | bool is_store = true, got_reference_p = false; | |
40f9f6bb | 739 | HOST_WIDE_INT access_size = 1; |
bdcbe80c | 740 | |
bdea98ca MO |
741 | *intercepted_p = asan_intercepted_p ((DECL_FUNCTION_CODE (callee))); |
742 | ||
bdcbe80c DS |
743 | switch (DECL_FUNCTION_CODE (callee)) |
744 | { | |
745 | /* (s, s, n) style memops. */ | |
746 | case BUILT_IN_BCMP: | |
747 | case BUILT_IN_MEMCMP: | |
748 | source0 = gimple_call_arg (call, 0); | |
749 | source1 = gimple_call_arg (call, 1); | |
750 | len = gimple_call_arg (call, 2); | |
751 | break; | |
752 | ||
753 | /* (src, dest, n) style memops. */ | |
754 | case BUILT_IN_BCOPY: | |
755 | source0 = gimple_call_arg (call, 0); | |
756 | dest = gimple_call_arg (call, 1); | |
757 | len = gimple_call_arg (call, 2); | |
758 | break; | |
759 | ||
760 | /* (dest, src, n) style memops. */ | |
761 | case BUILT_IN_MEMCPY: | |
762 | case BUILT_IN_MEMCPY_CHK: | |
763 | case BUILT_IN_MEMMOVE: | |
764 | case BUILT_IN_MEMMOVE_CHK: | |
765 | case BUILT_IN_MEMPCPY: | |
766 | case BUILT_IN_MEMPCPY_CHK: | |
767 | dest = gimple_call_arg (call, 0); | |
768 | source0 = gimple_call_arg (call, 1); | |
769 | len = gimple_call_arg (call, 2); | |
770 | break; | |
771 | ||
772 | /* (dest, n) style memops. */ | |
773 | case BUILT_IN_BZERO: | |
774 | dest = gimple_call_arg (call, 0); | |
775 | len = gimple_call_arg (call, 1); | |
776 | break; | |
777 | ||
778 | /* (dest, x, n) style memops*/ | |
779 | case BUILT_IN_MEMSET: | |
780 | case BUILT_IN_MEMSET_CHK: | |
781 | dest = gimple_call_arg (call, 0); | |
782 | len = gimple_call_arg (call, 2); | |
783 | break; | |
784 | ||
785 | case BUILT_IN_STRLEN: | |
786 | source0 = gimple_call_arg (call, 0); | |
787 | len = gimple_call_lhs (call); | |
9e463823 | 788 | break; |
bdcbe80c | 789 | |
e3174bdf MO |
790 | case BUILT_IN_STACK_RESTORE: |
791 | handle_builtin_stack_restore (call, iter); | |
792 | break; | |
793 | ||
9e878cf1 | 794 | CASE_BUILT_IN_ALLOCA: |
e3174bdf MO |
795 | handle_builtin_alloca (call, iter); |
796 | break; | |
bdcbe80c DS |
797 | /* And now the __atomic* and __sync builtins. |
798 | These are handled differently from the classical memory memory | |
799 | access builtins above. */ | |
800 | ||
801 | case BUILT_IN_ATOMIC_LOAD_1: | |
bdcbe80c | 802 | is_store = false; |
9e463823 | 803 | /* FALLTHRU */ |
bdcbe80c | 804 | case BUILT_IN_SYNC_FETCH_AND_ADD_1: |
bdcbe80c | 805 | case BUILT_IN_SYNC_FETCH_AND_SUB_1: |
bdcbe80c | 806 | case BUILT_IN_SYNC_FETCH_AND_OR_1: |
bdcbe80c | 807 | case BUILT_IN_SYNC_FETCH_AND_AND_1: |
bdcbe80c | 808 | case BUILT_IN_SYNC_FETCH_AND_XOR_1: |
bdcbe80c | 809 | case BUILT_IN_SYNC_FETCH_AND_NAND_1: |
bdcbe80c | 810 | case BUILT_IN_SYNC_ADD_AND_FETCH_1: |
bdcbe80c | 811 | case BUILT_IN_SYNC_SUB_AND_FETCH_1: |
bdcbe80c | 812 | case BUILT_IN_SYNC_OR_AND_FETCH_1: |
bdcbe80c | 813 | case BUILT_IN_SYNC_AND_AND_FETCH_1: |
bdcbe80c | 814 | case BUILT_IN_SYNC_XOR_AND_FETCH_1: |
bdcbe80c | 815 | case BUILT_IN_SYNC_NAND_AND_FETCH_1: |
bdcbe80c | 816 | case BUILT_IN_SYNC_BOOL_COMPARE_AND_SWAP_1: |
bdcbe80c | 817 | case BUILT_IN_SYNC_VAL_COMPARE_AND_SWAP_1: |
bdcbe80c | 818 | case BUILT_IN_SYNC_LOCK_TEST_AND_SET_1: |
bdcbe80c | 819 | case BUILT_IN_SYNC_LOCK_RELEASE_1: |
bdcbe80c | 820 | case BUILT_IN_ATOMIC_EXCHANGE_1: |
bdcbe80c | 821 | case BUILT_IN_ATOMIC_COMPARE_EXCHANGE_1: |
bdcbe80c | 822 | case BUILT_IN_ATOMIC_STORE_1: |
bdcbe80c | 823 | case BUILT_IN_ATOMIC_ADD_FETCH_1: |
bdcbe80c | 824 | case BUILT_IN_ATOMIC_SUB_FETCH_1: |
bdcbe80c | 825 | case BUILT_IN_ATOMIC_AND_FETCH_1: |
bdcbe80c | 826 | case BUILT_IN_ATOMIC_NAND_FETCH_1: |
bdcbe80c | 827 | case BUILT_IN_ATOMIC_XOR_FETCH_1: |
bdcbe80c | 828 | case BUILT_IN_ATOMIC_OR_FETCH_1: |
bdcbe80c | 829 | case BUILT_IN_ATOMIC_FETCH_ADD_1: |
bdcbe80c | 830 | case BUILT_IN_ATOMIC_FETCH_SUB_1: |
bdcbe80c | 831 | case BUILT_IN_ATOMIC_FETCH_AND_1: |
bdcbe80c | 832 | case BUILT_IN_ATOMIC_FETCH_NAND_1: |
bdcbe80c | 833 | case BUILT_IN_ATOMIC_FETCH_XOR_1: |
bdcbe80c | 834 | case BUILT_IN_ATOMIC_FETCH_OR_1: |
9e463823 JJ |
835 | access_size = 1; |
836 | goto do_atomic; | |
837 | ||
838 | case BUILT_IN_ATOMIC_LOAD_2: | |
839 | is_store = false; | |
840 | /* FALLTHRU */ | |
841 | case BUILT_IN_SYNC_FETCH_AND_ADD_2: | |
842 | case BUILT_IN_SYNC_FETCH_AND_SUB_2: | |
843 | case BUILT_IN_SYNC_FETCH_AND_OR_2: | |
844 | case BUILT_IN_SYNC_FETCH_AND_AND_2: | |
845 | case BUILT_IN_SYNC_FETCH_AND_XOR_2: | |
846 | case BUILT_IN_SYNC_FETCH_AND_NAND_2: | |
847 | case BUILT_IN_SYNC_ADD_AND_FETCH_2: | |
848 | case BUILT_IN_SYNC_SUB_AND_FETCH_2: | |
849 | case BUILT_IN_SYNC_OR_AND_FETCH_2: | |
850 | case BUILT_IN_SYNC_AND_AND_FETCH_2: | |
851 | case BUILT_IN_SYNC_XOR_AND_FETCH_2: | |
852 | case BUILT_IN_SYNC_NAND_AND_FETCH_2: | |
853 | case BUILT_IN_SYNC_BOOL_COMPARE_AND_SWAP_2: | |
854 | case BUILT_IN_SYNC_VAL_COMPARE_AND_SWAP_2: | |
855 | case BUILT_IN_SYNC_LOCK_TEST_AND_SET_2: | |
856 | case BUILT_IN_SYNC_LOCK_RELEASE_2: | |
857 | case BUILT_IN_ATOMIC_EXCHANGE_2: | |
858 | case BUILT_IN_ATOMIC_COMPARE_EXCHANGE_2: | |
859 | case BUILT_IN_ATOMIC_STORE_2: | |
860 | case BUILT_IN_ATOMIC_ADD_FETCH_2: | |
861 | case BUILT_IN_ATOMIC_SUB_FETCH_2: | |
862 | case BUILT_IN_ATOMIC_AND_FETCH_2: | |
863 | case BUILT_IN_ATOMIC_NAND_FETCH_2: | |
864 | case BUILT_IN_ATOMIC_XOR_FETCH_2: | |
865 | case BUILT_IN_ATOMIC_OR_FETCH_2: | |
866 | case BUILT_IN_ATOMIC_FETCH_ADD_2: | |
867 | case BUILT_IN_ATOMIC_FETCH_SUB_2: | |
868 | case BUILT_IN_ATOMIC_FETCH_AND_2: | |
869 | case BUILT_IN_ATOMIC_FETCH_NAND_2: | |
870 | case BUILT_IN_ATOMIC_FETCH_XOR_2: | |
bdcbe80c | 871 | case BUILT_IN_ATOMIC_FETCH_OR_2: |
9e463823 JJ |
872 | access_size = 2; |
873 | goto do_atomic; | |
874 | ||
875 | case BUILT_IN_ATOMIC_LOAD_4: | |
876 | is_store = false; | |
877 | /* FALLTHRU */ | |
878 | case BUILT_IN_SYNC_FETCH_AND_ADD_4: | |
879 | case BUILT_IN_SYNC_FETCH_AND_SUB_4: | |
880 | case BUILT_IN_SYNC_FETCH_AND_OR_4: | |
881 | case BUILT_IN_SYNC_FETCH_AND_AND_4: | |
882 | case BUILT_IN_SYNC_FETCH_AND_XOR_4: | |
883 | case BUILT_IN_SYNC_FETCH_AND_NAND_4: | |
884 | case BUILT_IN_SYNC_ADD_AND_FETCH_4: | |
885 | case BUILT_IN_SYNC_SUB_AND_FETCH_4: | |
886 | case BUILT_IN_SYNC_OR_AND_FETCH_4: | |
887 | case BUILT_IN_SYNC_AND_AND_FETCH_4: | |
888 | case BUILT_IN_SYNC_XOR_AND_FETCH_4: | |
889 | case BUILT_IN_SYNC_NAND_AND_FETCH_4: | |
890 | case BUILT_IN_SYNC_BOOL_COMPARE_AND_SWAP_4: | |
891 | case BUILT_IN_SYNC_VAL_COMPARE_AND_SWAP_4: | |
892 | case BUILT_IN_SYNC_LOCK_TEST_AND_SET_4: | |
893 | case BUILT_IN_SYNC_LOCK_RELEASE_4: | |
894 | case BUILT_IN_ATOMIC_EXCHANGE_4: | |
895 | case BUILT_IN_ATOMIC_COMPARE_EXCHANGE_4: | |
896 | case BUILT_IN_ATOMIC_STORE_4: | |
897 | case BUILT_IN_ATOMIC_ADD_FETCH_4: | |
898 | case BUILT_IN_ATOMIC_SUB_FETCH_4: | |
899 | case BUILT_IN_ATOMIC_AND_FETCH_4: | |
900 | case BUILT_IN_ATOMIC_NAND_FETCH_4: | |
901 | case BUILT_IN_ATOMIC_XOR_FETCH_4: | |
902 | case BUILT_IN_ATOMIC_OR_FETCH_4: | |
903 | case BUILT_IN_ATOMIC_FETCH_ADD_4: | |
904 | case BUILT_IN_ATOMIC_FETCH_SUB_4: | |
905 | case BUILT_IN_ATOMIC_FETCH_AND_4: | |
906 | case BUILT_IN_ATOMIC_FETCH_NAND_4: | |
907 | case BUILT_IN_ATOMIC_FETCH_XOR_4: | |
bdcbe80c | 908 | case BUILT_IN_ATOMIC_FETCH_OR_4: |
9e463823 JJ |
909 | access_size = 4; |
910 | goto do_atomic; | |
911 | ||
912 | case BUILT_IN_ATOMIC_LOAD_8: | |
913 | is_store = false; | |
914 | /* FALLTHRU */ | |
915 | case BUILT_IN_SYNC_FETCH_AND_ADD_8: | |
916 | case BUILT_IN_SYNC_FETCH_AND_SUB_8: | |
917 | case BUILT_IN_SYNC_FETCH_AND_OR_8: | |
918 | case BUILT_IN_SYNC_FETCH_AND_AND_8: | |
919 | case BUILT_IN_SYNC_FETCH_AND_XOR_8: | |
920 | case BUILT_IN_SYNC_FETCH_AND_NAND_8: | |
921 | case BUILT_IN_SYNC_ADD_AND_FETCH_8: | |
922 | case BUILT_IN_SYNC_SUB_AND_FETCH_8: | |
923 | case BUILT_IN_SYNC_OR_AND_FETCH_8: | |
924 | case BUILT_IN_SYNC_AND_AND_FETCH_8: | |
925 | case BUILT_IN_SYNC_XOR_AND_FETCH_8: | |
926 | case BUILT_IN_SYNC_NAND_AND_FETCH_8: | |
927 | case BUILT_IN_SYNC_BOOL_COMPARE_AND_SWAP_8: | |
928 | case BUILT_IN_SYNC_VAL_COMPARE_AND_SWAP_8: | |
929 | case BUILT_IN_SYNC_LOCK_TEST_AND_SET_8: | |
930 | case BUILT_IN_SYNC_LOCK_RELEASE_8: | |
931 | case BUILT_IN_ATOMIC_EXCHANGE_8: | |
932 | case BUILT_IN_ATOMIC_COMPARE_EXCHANGE_8: | |
933 | case BUILT_IN_ATOMIC_STORE_8: | |
934 | case BUILT_IN_ATOMIC_ADD_FETCH_8: | |
935 | case BUILT_IN_ATOMIC_SUB_FETCH_8: | |
936 | case BUILT_IN_ATOMIC_AND_FETCH_8: | |
937 | case BUILT_IN_ATOMIC_NAND_FETCH_8: | |
938 | case BUILT_IN_ATOMIC_XOR_FETCH_8: | |
939 | case BUILT_IN_ATOMIC_OR_FETCH_8: | |
940 | case BUILT_IN_ATOMIC_FETCH_ADD_8: | |
941 | case BUILT_IN_ATOMIC_FETCH_SUB_8: | |
942 | case BUILT_IN_ATOMIC_FETCH_AND_8: | |
943 | case BUILT_IN_ATOMIC_FETCH_NAND_8: | |
944 | case BUILT_IN_ATOMIC_FETCH_XOR_8: | |
bdcbe80c | 945 | case BUILT_IN_ATOMIC_FETCH_OR_8: |
9e463823 JJ |
946 | access_size = 8; |
947 | goto do_atomic; | |
948 | ||
949 | case BUILT_IN_ATOMIC_LOAD_16: | |
950 | is_store = false; | |
951 | /* FALLTHRU */ | |
952 | case BUILT_IN_SYNC_FETCH_AND_ADD_16: | |
953 | case BUILT_IN_SYNC_FETCH_AND_SUB_16: | |
954 | case BUILT_IN_SYNC_FETCH_AND_OR_16: | |
955 | case BUILT_IN_SYNC_FETCH_AND_AND_16: | |
956 | case BUILT_IN_SYNC_FETCH_AND_XOR_16: | |
957 | case BUILT_IN_SYNC_FETCH_AND_NAND_16: | |
958 | case BUILT_IN_SYNC_ADD_AND_FETCH_16: | |
959 | case BUILT_IN_SYNC_SUB_AND_FETCH_16: | |
960 | case BUILT_IN_SYNC_OR_AND_FETCH_16: | |
961 | case BUILT_IN_SYNC_AND_AND_FETCH_16: | |
962 | case BUILT_IN_SYNC_XOR_AND_FETCH_16: | |
963 | case BUILT_IN_SYNC_NAND_AND_FETCH_16: | |
964 | case BUILT_IN_SYNC_BOOL_COMPARE_AND_SWAP_16: | |
965 | case BUILT_IN_SYNC_VAL_COMPARE_AND_SWAP_16: | |
966 | case BUILT_IN_SYNC_LOCK_TEST_AND_SET_16: | |
967 | case BUILT_IN_SYNC_LOCK_RELEASE_16: | |
968 | case BUILT_IN_ATOMIC_EXCHANGE_16: | |
969 | case BUILT_IN_ATOMIC_COMPARE_EXCHANGE_16: | |
970 | case BUILT_IN_ATOMIC_STORE_16: | |
971 | case BUILT_IN_ATOMIC_ADD_FETCH_16: | |
972 | case BUILT_IN_ATOMIC_SUB_FETCH_16: | |
973 | case BUILT_IN_ATOMIC_AND_FETCH_16: | |
974 | case BUILT_IN_ATOMIC_NAND_FETCH_16: | |
975 | case BUILT_IN_ATOMIC_XOR_FETCH_16: | |
976 | case BUILT_IN_ATOMIC_OR_FETCH_16: | |
977 | case BUILT_IN_ATOMIC_FETCH_ADD_16: | |
978 | case BUILT_IN_ATOMIC_FETCH_SUB_16: | |
979 | case BUILT_IN_ATOMIC_FETCH_AND_16: | |
980 | case BUILT_IN_ATOMIC_FETCH_NAND_16: | |
981 | case BUILT_IN_ATOMIC_FETCH_XOR_16: | |
bdcbe80c | 982 | case BUILT_IN_ATOMIC_FETCH_OR_16: |
9e463823 JJ |
983 | access_size = 16; |
984 | /* FALLTHRU */ | |
985 | do_atomic: | |
bdcbe80c DS |
986 | { |
987 | dest = gimple_call_arg (call, 0); | |
988 | /* DEST represents the address of a memory location. | |
989 | instrument_derefs wants the memory location, so lets | |
990 | dereference the address DEST before handing it to | |
991 | instrument_derefs. */ | |
9e463823 JJ |
992 | tree type = build_nonstandard_integer_type (access_size |
993 | * BITS_PER_UNIT, 1); | |
994 | dest = build2 (MEM_REF, type, dest, | |
995 | build_int_cst (build_pointer_type (char_type_node), 0)); | |
996 | break; | |
bdcbe80c DS |
997 | } |
998 | ||
999 | default: | |
1000 | /* The other builtins memory access are not instrumented in this | |
1001 | function because they either don't have any length parameter, | |
1002 | or their length parameter is just a limit. */ | |
1003 | break; | |
1004 | } | |
1005 | ||
1006 | if (len != NULL_TREE) | |
1007 | { | |
1008 | if (source0 != NULL_TREE) | |
1009 | { | |
1010 | src0->start = source0; | |
1011 | src0->access_size = access_size; | |
1012 | *src0_len = len; | |
1013 | *src0_is_store = false; | |
1014 | } | |
1015 | ||
1016 | if (source1 != NULL_TREE) | |
1017 | { | |
1018 | src1->start = source1; | |
1019 | src1->access_size = access_size; | |
1020 | *src1_len = len; | |
1021 | *src1_is_store = false; | |
1022 | } | |
1023 | ||
1024 | if (dest != NULL_TREE) | |
1025 | { | |
1026 | dst->start = dest; | |
1027 | dst->access_size = access_size; | |
1028 | *dst_len = len; | |
1029 | *dst_is_store = true; | |
1030 | } | |
1031 | ||
1032 | got_reference_p = true; | |
1033 | } | |
b41288b3 JJ |
1034 | else if (dest) |
1035 | { | |
1036 | dst->start = dest; | |
1037 | dst->access_size = access_size; | |
1038 | *dst_len = NULL_TREE; | |
1039 | *dst_is_store = is_store; | |
1040 | *dest_is_deref = true; | |
1041 | got_reference_p = true; | |
1042 | } | |
bdcbe80c | 1043 | |
b41288b3 | 1044 | return got_reference_p; |
bdcbe80c DS |
1045 | } |
1046 | ||
1047 | /* Return true iff a given gimple statement has been instrumented. | |
1048 | Note that the statement is "defined" by the memory references it | |
1049 | contains. */ | |
1050 | ||
1051 | static bool | |
355fe088 | 1052 | has_stmt_been_instrumented_p (gimple *stmt) |
bdcbe80c DS |
1053 | { |
1054 | if (gimple_assign_single_p (stmt)) | |
1055 | { | |
1056 | bool r_is_store; | |
1057 | asan_mem_ref r; | |
1058 | asan_mem_ref_init (&r, NULL, 1); | |
1059 | ||
538dd0b7 DM |
1060 | if (get_mem_ref_of_assignment (as_a <gassign *> (stmt), &r, |
1061 | &r_is_store)) | |
bdcbe80c DS |
1062 | return has_mem_ref_been_instrumented (&r); |
1063 | } | |
1064 | else if (gimple_call_builtin_p (stmt, BUILT_IN_NORMAL)) | |
1065 | { | |
1066 | asan_mem_ref src0, src1, dest; | |
1067 | asan_mem_ref_init (&src0, NULL, 1); | |
1068 | asan_mem_ref_init (&src1, NULL, 1); | |
1069 | asan_mem_ref_init (&dest, NULL, 1); | |
1070 | ||
1071 | tree src0_len = NULL_TREE, src1_len = NULL_TREE, dest_len = NULL_TREE; | |
1072 | bool src0_is_store = false, src1_is_store = false, | |
bdea98ca | 1073 | dest_is_store = false, dest_is_deref = false, intercepted_p = true; |
538dd0b7 | 1074 | if (get_mem_refs_of_builtin_call (as_a <gcall *> (stmt), |
bdcbe80c DS |
1075 | &src0, &src0_len, &src0_is_store, |
1076 | &src1, &src1_len, &src1_is_store, | |
1077 | &dest, &dest_len, &dest_is_store, | |
bdea98ca | 1078 | &dest_is_deref, &intercepted_p)) |
bdcbe80c DS |
1079 | { |
1080 | if (src0.start != NULL_TREE | |
1081 | && !has_mem_ref_been_instrumented (&src0, src0_len)) | |
1082 | return false; | |
1083 | ||
1084 | if (src1.start != NULL_TREE | |
1085 | && !has_mem_ref_been_instrumented (&src1, src1_len)) | |
1086 | return false; | |
1087 | ||
1088 | if (dest.start != NULL_TREE | |
1089 | && !has_mem_ref_been_instrumented (&dest, dest_len)) | |
1090 | return false; | |
1091 | ||
1092 | return true; | |
1093 | } | |
1094 | } | |
7db337c2 ML |
1095 | else if (is_gimple_call (stmt) && gimple_store_p (stmt)) |
1096 | { | |
1097 | asan_mem_ref r; | |
1098 | asan_mem_ref_init (&r, NULL, 1); | |
1099 | ||
1100 | r.start = gimple_call_lhs (stmt); | |
1101 | r.access_size = int_size_in_bytes (TREE_TYPE (r.start)); | |
1102 | return has_mem_ref_been_instrumented (&r); | |
1103 | } | |
1104 | ||
bdcbe80c DS |
1105 | return false; |
1106 | } | |
1107 | ||
1108 | /* Insert a memory reference into the hash table. */ | |
1109 | ||
1110 | static void | |
40f9f6bb | 1111 | update_mem_ref_hash_table (tree ref, HOST_WIDE_INT access_size) |
bdcbe80c | 1112 | { |
c203e8a7 | 1113 | hash_table<asan_mem_ref_hasher> *ht = get_mem_ref_hash_table (); |
bdcbe80c DS |
1114 | |
1115 | asan_mem_ref r; | |
1116 | asan_mem_ref_init (&r, ref, access_size); | |
1117 | ||
c203e8a7 | 1118 | asan_mem_ref **slot = ht->find_slot (&r, INSERT); |
bdea98ca | 1119 | if (*slot == NULL || (*slot)->access_size < access_size) |
bdcbe80c DS |
1120 | *slot = asan_mem_ref_new (ref, access_size); |
1121 | } | |
1122 | ||
94fce891 JJ |
1123 | /* Initialize shadow_ptr_types array. */ |
1124 | ||
1125 | static void | |
1126 | asan_init_shadow_ptr_types (void) | |
1127 | { | |
1128 | asan_shadow_set = new_alias_set (); | |
6dc4a604 ML |
1129 | tree types[3] = { signed_char_type_node, short_integer_type_node, |
1130 | integer_type_node }; | |
1131 | ||
1132 | for (unsigned i = 0; i < 3; i++) | |
1133 | { | |
1134 | shadow_ptr_types[i] = build_distinct_type_copy (types[i]); | |
1135 | TYPE_ALIAS_SET (shadow_ptr_types[i]) = asan_shadow_set; | |
1136 | shadow_ptr_types[i] = build_pointer_type (shadow_ptr_types[i]); | |
1137 | } | |
1138 | ||
94fce891 JJ |
1139 | initialize_sanitizer_builtins (); |
1140 | } | |
1141 | ||
11a877b3 | 1142 | /* Create ADDR_EXPR of STRING_CST with the PP pretty printer text. */ |
8240018b JJ |
1143 | |
1144 | static tree | |
11a877b3 | 1145 | asan_pp_string (pretty_printer *pp) |
8240018b | 1146 | { |
11a877b3 | 1147 | const char *buf = pp_formatted_text (pp); |
8240018b JJ |
1148 | size_t len = strlen (buf); |
1149 | tree ret = build_string (len + 1, buf); | |
1150 | TREE_TYPE (ret) | |
94fce891 JJ |
1151 | = build_array_type (TREE_TYPE (shadow_ptr_types[0]), |
1152 | build_index_type (size_int (len))); | |
8240018b JJ |
1153 | TREE_READONLY (ret) = 1; |
1154 | TREE_STATIC (ret) = 1; | |
94fce891 | 1155 | return build1 (ADDR_EXPR, shadow_ptr_types[0], ret); |
8240018b JJ |
1156 | } |
1157 | ||
f3ddd692 JJ |
1158 | /* Return a CONST_INT representing 4 subsequent shadow memory bytes. */ |
1159 | ||
1160 | static rtx | |
1161 | asan_shadow_cst (unsigned char shadow_bytes[4]) | |
1162 | { | |
1163 | int i; | |
1164 | unsigned HOST_WIDE_INT val = 0; | |
1165 | gcc_assert (WORDS_BIG_ENDIAN == BYTES_BIG_ENDIAN); | |
1166 | for (i = 0; i < 4; i++) | |
1167 | val |= (unsigned HOST_WIDE_INT) shadow_bytes[BYTES_BIG_ENDIAN ? 3 - i : i] | |
1168 | << (BITS_PER_UNIT * i); | |
dcad1dd3 | 1169 | return gen_int_mode (val, SImode); |
f3ddd692 JJ |
1170 | } |
1171 | ||
aeb7e7c1 JJ |
1172 | /* Clear shadow memory at SHADOW_MEM, LEN bytes. Can't call a library call here |
1173 | though. */ | |
1174 | ||
1175 | static void | |
1176 | asan_clear_shadow (rtx shadow_mem, HOST_WIDE_INT len) | |
1177 | { | |
3a965f61 DM |
1178 | rtx_insn *insn, *insns, *jump; |
1179 | rtx_code_label *top_label; | |
1180 | rtx end, addr, tmp; | |
aeb7e7c1 JJ |
1181 | |
1182 | start_sequence (); | |
1183 | clear_storage (shadow_mem, GEN_INT (len), BLOCK_OP_NORMAL); | |
1184 | insns = get_insns (); | |
1185 | end_sequence (); | |
1186 | for (insn = insns; insn; insn = NEXT_INSN (insn)) | |
1187 | if (CALL_P (insn)) | |
1188 | break; | |
1189 | if (insn == NULL_RTX) | |
1190 | { | |
1191 | emit_insn (insns); | |
1192 | return; | |
1193 | } | |
1194 | ||
1195 | gcc_assert ((len & 3) == 0); | |
1196 | top_label = gen_label_rtx (); | |
57d4d653 | 1197 | addr = copy_to_mode_reg (Pmode, XEXP (shadow_mem, 0)); |
aeb7e7c1 JJ |
1198 | shadow_mem = adjust_automodify_address (shadow_mem, SImode, addr, 0); |
1199 | end = force_reg (Pmode, plus_constant (Pmode, addr, len)); | |
1200 | emit_label (top_label); | |
1201 | ||
1202 | emit_move_insn (shadow_mem, const0_rtx); | |
2f1cd2eb | 1203 | tmp = expand_simple_binop (Pmode, PLUS, addr, gen_int_mode (4, Pmode), addr, |
c62ccb9a | 1204 | true, OPTAB_LIB_WIDEN); |
aeb7e7c1 JJ |
1205 | if (tmp != addr) |
1206 | emit_move_insn (addr, tmp); | |
1207 | emit_cmp_and_jump_insns (addr, end, LT, NULL_RTX, Pmode, true, top_label); | |
1208 | jump = get_last_insn (); | |
1209 | gcc_assert (JUMP_P (jump)); | |
5fa396ad JH |
1210 | add_reg_br_prob_note (jump, |
1211 | profile_probability::guessed_always () | |
1212 | .apply_scale (80, 100)); | |
aeb7e7c1 JJ |
1213 | } |
1214 | ||
ef1b3fda KS |
1215 | void |
1216 | asan_function_start (void) | |
1217 | { | |
1218 | section *fnsec = function_section (current_function_decl); | |
1219 | switch_to_section (fnsec); | |
1220 | ASM_OUTPUT_DEBUG_LABEL (asm_out_file, "LASANPC", | |
c62ccb9a | 1221 | current_function_funcdef_no); |
ef1b3fda KS |
1222 | } |
1223 | ||
6dc4a604 ML |
1224 | /* Return number of shadow bytes that are occupied by a local variable |
1225 | of SIZE bytes. */ | |
1226 | ||
1227 | static unsigned HOST_WIDE_INT | |
1228 | shadow_mem_size (unsigned HOST_WIDE_INT size) | |
1229 | { | |
aa5bfa8d ML |
1230 | /* It must be possible to align stack variables to granularity |
1231 | of shadow memory. */ | |
1232 | gcc_assert (BITS_PER_UNIT | |
1233 | * ASAN_SHADOW_GRANULARITY <= MAX_SUPPORTED_STACK_ALIGNMENT); | |
1234 | ||
6dc4a604 ML |
1235 | return ROUND_UP (size, ASAN_SHADOW_GRANULARITY) / ASAN_SHADOW_GRANULARITY; |
1236 | } | |
1237 | ||
f3ddd692 JJ |
1238 | /* Insert code to protect stack vars. The prologue sequence should be emitted |
1239 | directly, epilogue sequence returned. BASE is the register holding the | |
1240 | stack base, against which OFFSETS array offsets are relative to, OFFSETS | |
1241 | array contains pairs of offsets in reverse order, always the end offset | |
1242 | of some gap that needs protection followed by starting offset, | |
1243 | and DECLS is an array of representative decls for each var partition. | |
1244 | LENGTH is the length of the OFFSETS array, DECLS array is LENGTH / 2 - 1 | |
1245 | elements long (OFFSETS include gap before the first variable as well | |
e361382f JJ |
1246 | as gaps after each stack variable). PBASE is, if non-NULL, some pseudo |
1247 | register which stack vars DECL_RTLs are based on. Either BASE should be | |
1248 | assigned to PBASE, when not doing use after return protection, or | |
1249 | corresponding address based on __asan_stack_malloc* return value. */ | |
f3ddd692 | 1250 | |
3a4abd2f | 1251 | rtx_insn * |
e361382f JJ |
1252 | asan_emit_stack_protection (rtx base, rtx pbase, unsigned int alignb, |
1253 | HOST_WIDE_INT *offsets, tree *decls, int length) | |
f3ddd692 | 1254 | { |
19f8b229 TS |
1255 | rtx shadow_base, shadow_mem, ret, mem, orig_base; |
1256 | rtx_code_label *lab; | |
3a4abd2f | 1257 | rtx_insn *insns; |
47d5beb4 | 1258 | char buf[32]; |
f3ddd692 | 1259 | unsigned char shadow_bytes[4]; |
e361382f JJ |
1260 | HOST_WIDE_INT base_offset = offsets[length - 1]; |
1261 | HOST_WIDE_INT base_align_bias = 0, offset, prev_offset; | |
1262 | HOST_WIDE_INT asan_frame_size = offsets[0] - base_offset; | |
7b972538 | 1263 | HOST_WIDE_INT last_offset, last_size; |
f3ddd692 JJ |
1264 | int l; |
1265 | unsigned char cur_shadow_byte = ASAN_STACK_MAGIC_LEFT; | |
ef1b3fda | 1266 | tree str_cst, decl, id; |
e361382f | 1267 | int use_after_return_class = -1; |
f3ddd692 | 1268 | |
94fce891 JJ |
1269 | if (shadow_ptr_types[0] == NULL_TREE) |
1270 | asan_init_shadow_ptr_types (); | |
1271 | ||
2c73950d ML |
1272 | expanded_location cfun_xloc |
1273 | = expand_location (DECL_SOURCE_LOCATION (current_function_decl)); | |
1274 | ||
f3ddd692 | 1275 | /* First of all, prepare the description string. */ |
11a877b3 | 1276 | pretty_printer asan_pp; |
da6ca2b5 | 1277 | |
8240018b JJ |
1278 | pp_decimal_int (&asan_pp, length / 2 - 1); |
1279 | pp_space (&asan_pp); | |
f3ddd692 JJ |
1280 | for (l = length - 2; l; l -= 2) |
1281 | { | |
1282 | tree decl = decls[l / 2 - 1]; | |
8240018b JJ |
1283 | pp_wide_integer (&asan_pp, offsets[l] - base_offset); |
1284 | pp_space (&asan_pp); | |
1285 | pp_wide_integer (&asan_pp, offsets[l - 1] - offsets[l]); | |
1286 | pp_space (&asan_pp); | |
2c73950d ML |
1287 | |
1288 | expanded_location xloc | |
1289 | = expand_location (DECL_SOURCE_LOCATION (decl)); | |
1290 | char location[32]; | |
1291 | ||
1292 | if (xloc.file == cfun_xloc.file) | |
1293 | sprintf (location, ":%d", xloc.line); | |
1294 | else | |
1295 | location[0] = '\0'; | |
1296 | ||
f3ddd692 JJ |
1297 | if (DECL_P (decl) && DECL_NAME (decl)) |
1298 | { | |
2c73950d ML |
1299 | unsigned idlen |
1300 | = IDENTIFIER_LENGTH (DECL_NAME (decl)) + strlen (location); | |
1301 | pp_decimal_int (&asan_pp, idlen); | |
8240018b | 1302 | pp_space (&asan_pp); |
b066401f | 1303 | pp_tree_identifier (&asan_pp, DECL_NAME (decl)); |
2c73950d | 1304 | pp_string (&asan_pp, location); |
f3ddd692 JJ |
1305 | } |
1306 | else | |
8240018b | 1307 | pp_string (&asan_pp, "9 <unknown>"); |
2c73950d ML |
1308 | |
1309 | if (l > 2) | |
1310 | pp_space (&asan_pp); | |
f3ddd692 | 1311 | } |
11a877b3 | 1312 | str_cst = asan_pp_string (&asan_pp); |
f3ddd692 JJ |
1313 | |
1314 | /* Emit the prologue sequence. */ | |
b5ebc991 MO |
1315 | if (asan_frame_size > 32 && asan_frame_size <= 65536 && pbase |
1316 | && ASAN_USE_AFTER_RETURN) | |
e361382f JJ |
1317 | { |
1318 | use_after_return_class = floor_log2 (asan_frame_size - 1) - 5; | |
1319 | /* __asan_stack_malloc_N guarantees alignment | |
c62ccb9a | 1320 | N < 6 ? (64 << N) : 4096 bytes. */ |
e361382f JJ |
1321 | if (alignb > (use_after_return_class < 6 |
1322 | ? (64U << use_after_return_class) : 4096U)) | |
1323 | use_after_return_class = -1; | |
1324 | else if (alignb > ASAN_RED_ZONE_SIZE && (asan_frame_size & (alignb - 1))) | |
1325 | base_align_bias = ((asan_frame_size + alignb - 1) | |
1326 | & ~(alignb - HOST_WIDE_INT_1)) - asan_frame_size; | |
1327 | } | |
e5dcd695 LZ |
1328 | /* Align base if target is STRICT_ALIGNMENT. */ |
1329 | if (STRICT_ALIGNMENT) | |
1330 | base = expand_binop (Pmode, and_optab, base, | |
1331 | gen_int_mode (-((GET_MODE_ALIGNMENT (SImode) | |
1332 | << ASAN_SHADOW_SHIFT) | |
1333 | / BITS_PER_UNIT), Pmode), NULL_RTX, | |
1334 | 1, OPTAB_DIRECT); | |
1335 | ||
e361382f JJ |
1336 | if (use_after_return_class == -1 && pbase) |
1337 | emit_move_insn (pbase, base); | |
e5dcd695 | 1338 | |
2f1cd2eb | 1339 | base = expand_binop (Pmode, add_optab, base, |
e361382f | 1340 | gen_int_mode (base_offset - base_align_bias, Pmode), |
f3ddd692 | 1341 | NULL_RTX, 1, OPTAB_DIRECT); |
e361382f JJ |
1342 | orig_base = NULL_RTX; |
1343 | if (use_after_return_class != -1) | |
1344 | { | |
1345 | if (asan_detect_stack_use_after_return == NULL_TREE) | |
1346 | { | |
1347 | id = get_identifier ("__asan_option_detect_stack_use_after_return"); | |
1348 | decl = build_decl (BUILTINS_LOCATION, VAR_DECL, id, | |
1349 | integer_type_node); | |
1350 | SET_DECL_ASSEMBLER_NAME (decl, id); | |
1351 | TREE_ADDRESSABLE (decl) = 1; | |
1352 | DECL_ARTIFICIAL (decl) = 1; | |
1353 | DECL_IGNORED_P (decl) = 1; | |
1354 | DECL_EXTERNAL (decl) = 1; | |
1355 | TREE_STATIC (decl) = 1; | |
1356 | TREE_PUBLIC (decl) = 1; | |
1357 | TREE_USED (decl) = 1; | |
1358 | asan_detect_stack_use_after_return = decl; | |
1359 | } | |
1360 | orig_base = gen_reg_rtx (Pmode); | |
1361 | emit_move_insn (orig_base, base); | |
1362 | ret = expand_normal (asan_detect_stack_use_after_return); | |
1363 | lab = gen_label_rtx (); | |
e361382f | 1364 | emit_cmp_and_jump_insns (ret, const0_rtx, EQ, NULL_RTX, |
357067f2 JH |
1365 | VOIDmode, 0, lab, |
1366 | profile_probability::very_likely ()); | |
e361382f JJ |
1367 | snprintf (buf, sizeof buf, "__asan_stack_malloc_%d", |
1368 | use_after_return_class); | |
1369 | ret = init_one_libfunc (buf); | |
db69559b | 1370 | ret = emit_library_call_value (ret, NULL_RTX, LCT_NORMAL, ptr_mode, |
e361382f JJ |
1371 | GEN_INT (asan_frame_size |
1372 | + base_align_bias), | |
89e302b8 MO |
1373 | TYPE_MODE (pointer_sized_int_node)); |
1374 | /* __asan_stack_malloc_[n] returns a pointer to fake stack if succeeded | |
1375 | and NULL otherwise. Check RET value is NULL here and jump over the | |
1376 | BASE reassignment in this case. Otherwise, reassign BASE to RET. */ | |
89e302b8 | 1377 | emit_cmp_and_jump_insns (ret, const0_rtx, EQ, NULL_RTX, |
357067f2 JH |
1378 | VOIDmode, 0, lab, |
1379 | profile_probability:: very_unlikely ()); | |
e361382f JJ |
1380 | ret = convert_memory_address (Pmode, ret); |
1381 | emit_move_insn (base, ret); | |
1382 | emit_label (lab); | |
1383 | emit_move_insn (pbase, expand_binop (Pmode, add_optab, base, | |
1384 | gen_int_mode (base_align_bias | |
1385 | - base_offset, Pmode), | |
1386 | NULL_RTX, 1, OPTAB_DIRECT)); | |
1387 | } | |
f3ddd692 | 1388 | mem = gen_rtx_MEM (ptr_mode, base); |
e361382f | 1389 | mem = adjust_address (mem, VOIDmode, base_align_bias); |
69db2d57 | 1390 | emit_move_insn (mem, gen_int_mode (ASAN_STACK_FRAME_MAGIC, ptr_mode)); |
f3ddd692 JJ |
1391 | mem = adjust_address (mem, VOIDmode, GET_MODE_SIZE (ptr_mode)); |
1392 | emit_move_insn (mem, expand_normal (str_cst)); | |
ef1b3fda KS |
1393 | mem = adjust_address (mem, VOIDmode, GET_MODE_SIZE (ptr_mode)); |
1394 | ASM_GENERATE_INTERNAL_LABEL (buf, "LASANPC", current_function_funcdef_no); | |
1395 | id = get_identifier (buf); | |
1396 | decl = build_decl (DECL_SOURCE_LOCATION (current_function_decl), | |
c62ccb9a | 1397 | VAR_DECL, id, char_type_node); |
ef1b3fda KS |
1398 | SET_DECL_ASSEMBLER_NAME (decl, id); |
1399 | TREE_ADDRESSABLE (decl) = 1; | |
1400 | TREE_READONLY (decl) = 1; | |
1401 | DECL_ARTIFICIAL (decl) = 1; | |
1402 | DECL_IGNORED_P (decl) = 1; | |
1403 | TREE_STATIC (decl) = 1; | |
1404 | TREE_PUBLIC (decl) = 0; | |
1405 | TREE_USED (decl) = 1; | |
8c8b21e4 JJ |
1406 | DECL_INITIAL (decl) = decl; |
1407 | TREE_ASM_WRITTEN (decl) = 1; | |
1408 | TREE_ASM_WRITTEN (id) = 1; | |
ef1b3fda | 1409 | emit_move_insn (mem, expand_normal (build_fold_addr_expr (decl))); |
f3ddd692 | 1410 | shadow_base = expand_binop (Pmode, lshr_optab, base, |
abd3c800 | 1411 | gen_int_shift_amount (Pmode, ASAN_SHADOW_SHIFT), |
f3ddd692 | 1412 | NULL_RTX, 1, OPTAB_DIRECT); |
e361382f JJ |
1413 | shadow_base |
1414 | = plus_constant (Pmode, shadow_base, | |
fd960af2 | 1415 | asan_shadow_offset () |
e361382f | 1416 | + (base_align_bias >> ASAN_SHADOW_SHIFT)); |
f3ddd692 JJ |
1417 | gcc_assert (asan_shadow_set != -1 |
1418 | && (ASAN_RED_ZONE_SIZE >> ASAN_SHADOW_SHIFT) == 4); | |
1419 | shadow_mem = gen_rtx_MEM (SImode, shadow_base); | |
1420 | set_mem_alias_set (shadow_mem, asan_shadow_set); | |
e5dcd695 LZ |
1421 | if (STRICT_ALIGNMENT) |
1422 | set_mem_align (shadow_mem, (GET_MODE_ALIGNMENT (SImode))); | |
f3ddd692 JJ |
1423 | prev_offset = base_offset; |
1424 | for (l = length; l; l -= 2) | |
1425 | { | |
1426 | if (l == 2) | |
1427 | cur_shadow_byte = ASAN_STACK_MAGIC_RIGHT; | |
1428 | offset = offsets[l - 1]; | |
1429 | if ((offset - base_offset) & (ASAN_RED_ZONE_SIZE - 1)) | |
1430 | { | |
1431 | int i; | |
1432 | HOST_WIDE_INT aoff | |
1433 | = base_offset + ((offset - base_offset) | |
1434 | & ~(ASAN_RED_ZONE_SIZE - HOST_WIDE_INT_1)); | |
1435 | shadow_mem = adjust_address (shadow_mem, VOIDmode, | |
1436 | (aoff - prev_offset) | |
1437 | >> ASAN_SHADOW_SHIFT); | |
1438 | prev_offset = aoff; | |
6dc4a604 | 1439 | for (i = 0; i < 4; i++, aoff += ASAN_SHADOW_GRANULARITY) |
f3ddd692 JJ |
1440 | if (aoff < offset) |
1441 | { | |
6dc4a604 | 1442 | if (aoff < offset - (HOST_WIDE_INT)ASAN_SHADOW_GRANULARITY + 1) |
f3ddd692 JJ |
1443 | shadow_bytes[i] = 0; |
1444 | else | |
1445 | shadow_bytes[i] = offset - aoff; | |
1446 | } | |
1447 | else | |
fbdb92eb | 1448 | shadow_bytes[i] = ASAN_STACK_MAGIC_MIDDLE; |
f3ddd692 JJ |
1449 | emit_move_insn (shadow_mem, asan_shadow_cst (shadow_bytes)); |
1450 | offset = aoff; | |
1451 | } | |
1452 | while (offset <= offsets[l - 2] - ASAN_RED_ZONE_SIZE) | |
1453 | { | |
1454 | shadow_mem = adjust_address (shadow_mem, VOIDmode, | |
1455 | (offset - prev_offset) | |
1456 | >> ASAN_SHADOW_SHIFT); | |
1457 | prev_offset = offset; | |
1458 | memset (shadow_bytes, cur_shadow_byte, 4); | |
1459 | emit_move_insn (shadow_mem, asan_shadow_cst (shadow_bytes)); | |
1460 | offset += ASAN_RED_ZONE_SIZE; | |
1461 | } | |
1462 | cur_shadow_byte = ASAN_STACK_MAGIC_MIDDLE; | |
1463 | } | |
1464 | do_pending_stack_adjust (); | |
1465 | ||
1466 | /* Construct epilogue sequence. */ | |
1467 | start_sequence (); | |
1468 | ||
19f8b229 | 1469 | lab = NULL; |
e361382f JJ |
1470 | if (use_after_return_class != -1) |
1471 | { | |
19f8b229 | 1472 | rtx_code_label *lab2 = gen_label_rtx (); |
e361382f | 1473 | char c = (char) ASAN_STACK_MAGIC_USE_AFTER_RET; |
e361382f | 1474 | emit_cmp_and_jump_insns (orig_base, base, EQ, NULL_RTX, |
357067f2 JH |
1475 | VOIDmode, 0, lab2, |
1476 | profile_probability::very_likely ()); | |
e361382f JJ |
1477 | shadow_mem = gen_rtx_MEM (BLKmode, shadow_base); |
1478 | set_mem_alias_set (shadow_mem, asan_shadow_set); | |
1479 | mem = gen_rtx_MEM (ptr_mode, base); | |
1480 | mem = adjust_address (mem, VOIDmode, base_align_bias); | |
1481 | emit_move_insn (mem, gen_int_mode (ASAN_STACK_RETIRED_MAGIC, ptr_mode)); | |
1482 | unsigned HOST_WIDE_INT sz = asan_frame_size >> ASAN_SHADOW_SHIFT; | |
1483 | if (use_after_return_class < 5 | |
1484 | && can_store_by_pieces (sz, builtin_memset_read_str, &c, | |
1485 | BITS_PER_UNIT, true)) | |
1486 | store_by_pieces (shadow_mem, sz, builtin_memset_read_str, &c, | |
1487 | BITS_PER_UNIT, true, 0); | |
1488 | else if (use_after_return_class >= 5 | |
1489 | || !set_storage_via_setmem (shadow_mem, | |
1490 | GEN_INT (sz), | |
1491 | gen_int_mode (c, QImode), | |
1492 | BITS_PER_UNIT, BITS_PER_UNIT, | |
1493 | -1, sz, sz, sz)) | |
1494 | { | |
1495 | snprintf (buf, sizeof buf, "__asan_stack_free_%d", | |
1496 | use_after_return_class); | |
1497 | ret = init_one_libfunc (buf); | |
1498 | rtx addr = convert_memory_address (ptr_mode, base); | |
1499 | rtx orig_addr = convert_memory_address (ptr_mode, orig_base); | |
db69559b | 1500 | emit_library_call (ret, LCT_NORMAL, ptr_mode, addr, ptr_mode, |
e361382f JJ |
1501 | GEN_INT (asan_frame_size + base_align_bias), |
1502 | TYPE_MODE (pointer_sized_int_node), | |
1503 | orig_addr, ptr_mode); | |
1504 | } | |
1505 | lab = gen_label_rtx (); | |
1506 | emit_jump (lab); | |
1507 | emit_label (lab2); | |
1508 | } | |
1509 | ||
f3ddd692 JJ |
1510 | shadow_mem = gen_rtx_MEM (BLKmode, shadow_base); |
1511 | set_mem_alias_set (shadow_mem, asan_shadow_set); | |
e5dcd695 LZ |
1512 | |
1513 | if (STRICT_ALIGNMENT) | |
1514 | set_mem_align (shadow_mem, (GET_MODE_ALIGNMENT (SImode))); | |
1515 | ||
7b972538 | 1516 | prev_offset = base_offset; |
f3ddd692 | 1517 | last_offset = base_offset; |
7b972538 ML |
1518 | last_size = 0; |
1519 | for (l = length; l; l -= 2) | |
f3ddd692 | 1520 | { |
7b972538 ML |
1521 | offset = base_offset + ((offsets[l - 1] - base_offset) |
1522 | & ~(ASAN_RED_ZONE_SIZE - HOST_WIDE_INT_1)); | |
1523 | if (last_offset + last_size != offset) | |
f3ddd692 | 1524 | { |
7b972538 ML |
1525 | shadow_mem = adjust_address (shadow_mem, VOIDmode, |
1526 | (last_offset - prev_offset) | |
1527 | >> ASAN_SHADOW_SHIFT); | |
1528 | prev_offset = last_offset; | |
1529 | asan_clear_shadow (shadow_mem, last_size >> ASAN_SHADOW_SHIFT); | |
1530 | last_offset = offset; | |
1531 | last_size = 0; | |
1532 | } | |
1533 | last_size += base_offset + ((offsets[l - 2] - base_offset) | |
1534 | & ~(ASAN_RED_ZONE_SIZE - HOST_WIDE_INT_1)) | |
1535 | - offset; | |
6dc4a604 | 1536 | |
7b972538 ML |
1537 | /* Unpoison shadow memory that corresponds to a variable that is |
1538 | is subject of use-after-return sanitization. */ | |
1539 | if (l > 2) | |
1540 | { | |
1541 | decl = decls[l / 2 - 2]; | |
6dc4a604 ML |
1542 | if (asan_handled_variables != NULL |
1543 | && asan_handled_variables->contains (decl)) | |
1544 | { | |
7b972538 | 1545 | HOST_WIDE_INT size = offsets[l - 3] - offsets[l - 2]; |
6dc4a604 ML |
1546 | if (dump_file && (dump_flags & TDF_DETAILS)) |
1547 | { | |
1548 | const char *n = (DECL_NAME (decl) | |
1549 | ? IDENTIFIER_POINTER (DECL_NAME (decl)) | |
1550 | : "<unknown>"); | |
1551 | fprintf (dump_file, "Unpoisoning shadow stack for variable: " | |
7b972538 | 1552 | "%s (%" PRId64 " B)\n", n, size); |
6dc4a604 ML |
1553 | } |
1554 | ||
7b972538 | 1555 | last_size += size & ~(ASAN_RED_ZONE_SIZE - HOST_WIDE_INT_1); |
6dc4a604 | 1556 | } |
f3ddd692 | 1557 | } |
7b972538 ML |
1558 | } |
1559 | if (last_size) | |
1560 | { | |
1561 | shadow_mem = adjust_address (shadow_mem, VOIDmode, | |
1562 | (last_offset - prev_offset) | |
1563 | >> ASAN_SHADOW_SHIFT); | |
1564 | asan_clear_shadow (shadow_mem, last_size >> ASAN_SHADOW_SHIFT); | |
f3ddd692 JJ |
1565 | } |
1566 | ||
6dc4a604 ML |
1567 | /* Clean-up set with instrumented stack variables. */ |
1568 | delete asan_handled_variables; | |
1569 | asan_handled_variables = NULL; | |
1570 | delete asan_used_labels; | |
1571 | asan_used_labels = NULL; | |
1572 | ||
f3ddd692 | 1573 | do_pending_stack_adjust (); |
e361382f JJ |
1574 | if (lab) |
1575 | emit_label (lab); | |
f3ddd692 | 1576 | |
3a4abd2f | 1577 | insns = get_insns (); |
f3ddd692 | 1578 | end_sequence (); |
3a4abd2f | 1579 | return insns; |
f3ddd692 JJ |
1580 | } |
1581 | ||
e3174bdf MO |
1582 | /* Emit __asan_allocas_unpoison (top, bot) call. The BASE parameter corresponds |
1583 | to BOT argument, for TOP virtual_stack_dynamic_rtx is used. NEW_SEQUENCE | |
1584 | indicates whether we're emitting new instructions sequence or not. */ | |
1585 | ||
1586 | rtx_insn * | |
1587 | asan_emit_allocas_unpoison (rtx top, rtx bot, rtx_insn *before) | |
1588 | { | |
1589 | if (before) | |
1590 | push_to_sequence (before); | |
1591 | else | |
1592 | start_sequence (); | |
1593 | rtx ret = init_one_libfunc ("__asan_allocas_unpoison"); | |
8f4956ca MO |
1594 | top = convert_memory_address (ptr_mode, top); |
1595 | bot = convert_memory_address (ptr_mode, bot); | |
db69559b RS |
1596 | ret = emit_library_call_value (ret, NULL_RTX, LCT_NORMAL, ptr_mode, |
1597 | top, ptr_mode, bot, ptr_mode); | |
e3174bdf MO |
1598 | |
1599 | do_pending_stack_adjust (); | |
1600 | rtx_insn *insns = get_insns (); | |
1601 | end_sequence (); | |
1602 | return insns; | |
1603 | } | |
1604 | ||
8240018b JJ |
1605 | /* Return true if DECL, a global var, might be overridden and needs |
1606 | therefore a local alias. */ | |
1607 | ||
1608 | static bool | |
1609 | asan_needs_local_alias (tree decl) | |
1610 | { | |
1611 | return DECL_WEAK (decl) || !targetm.binds_local_p (decl); | |
1612 | } | |
1613 | ||
84b0769e MO |
1614 | /* Return true if DECL, a global var, is an artificial ODR indicator symbol |
1615 | therefore doesn't need protection. */ | |
1616 | ||
1617 | static bool | |
1618 | is_odr_indicator (tree decl) | |
1619 | { | |
1620 | return (DECL_ARTIFICIAL (decl) | |
1621 | && lookup_attribute ("asan odr indicator", DECL_ATTRIBUTES (decl))); | |
1622 | } | |
1623 | ||
8240018b JJ |
1624 | /* Return true if DECL is a VAR_DECL that should be protected |
1625 | by Address Sanitizer, by appending a red zone with protected | |
1626 | shadow memory after it and aligning it to at least | |
1627 | ASAN_RED_ZONE_SIZE bytes. */ | |
1628 | ||
1629 | bool | |
1069dc25 | 1630 | asan_protect_global (tree decl, bool ignore_decl_rtl_set_p) |
8240018b | 1631 | { |
b5ebc991 MO |
1632 | if (!ASAN_GLOBALS) |
1633 | return false; | |
1634 | ||
8240018b | 1635 | rtx rtl, symbol; |
8240018b | 1636 | |
94fce891 JJ |
1637 | if (TREE_CODE (decl) == STRING_CST) |
1638 | { | |
1639 | /* Instrument all STRING_CSTs except those created | |
1640 | by asan_pp_string here. */ | |
1641 | if (shadow_ptr_types[0] != NULL_TREE | |
1642 | && TREE_CODE (TREE_TYPE (decl)) == ARRAY_TYPE | |
1643 | && TREE_TYPE (TREE_TYPE (decl)) == TREE_TYPE (shadow_ptr_types[0])) | |
1644 | return false; | |
1645 | return true; | |
1646 | } | |
8813a647 | 1647 | if (!VAR_P (decl) |
8240018b JJ |
1648 | /* TLS vars aren't statically protectable. */ |
1649 | || DECL_THREAD_LOCAL_P (decl) | |
1650 | /* Externs will be protected elsewhere. */ | |
1651 | || DECL_EXTERNAL (decl) | |
1069dc25 MO |
1652 | /* PR sanitizer/81697: For architectures that use section anchors first |
1653 | call to asan_protect_global may occur before DECL_RTL (decl) is set. | |
1654 | We should ignore DECL_RTL_SET_P then, because otherwise the first call | |
1655 | to asan_protect_global will return FALSE and the following calls on the | |
1656 | same decl after setting DECL_RTL (decl) will return TRUE and we'll end | |
1657 | up with inconsistency at runtime. */ | |
1658 | || (!DECL_RTL_SET_P (decl) && !ignore_decl_rtl_set_p) | |
8240018b JJ |
1659 | /* Comdat vars pose an ABI problem, we can't know if |
1660 | the var that is selected by the linker will have | |
1661 | padding or not. */ | |
1662 | || DECL_ONE_ONLY (decl) | |
f1d15bb9 DV |
1663 | /* Similarly for common vars. People can use -fno-common. |
1664 | Note: Linux kernel is built with -fno-common, so we do instrument | |
1665 | globals there even if it is C. */ | |
a8a6fd74 | 1666 | || (DECL_COMMON (decl) && TREE_PUBLIC (decl)) |
8240018b JJ |
1667 | /* Don't protect if using user section, often vars placed |
1668 | into user section from multiple TUs are then assumed | |
1669 | to be an array of such vars, putting padding in there | |
1670 | breaks this assumption. */ | |
f961457f | 1671 | || (DECL_SECTION_NAME (decl) != NULL |
18af8d16 YG |
1672 | && !symtab_node::get (decl)->implicit_section |
1673 | && !section_sanitized_p (DECL_SECTION_NAME (decl))) | |
8240018b JJ |
1674 | || DECL_SIZE (decl) == 0 |
1675 | || ASAN_RED_ZONE_SIZE * BITS_PER_UNIT > MAX_OFILE_ALIGNMENT | |
36fd6408 | 1676 | || TREE_CODE (DECL_SIZE_UNIT (decl)) != INTEGER_CST |
8240018b | 1677 | || !valid_constant_size_p (DECL_SIZE_UNIT (decl)) |
21a82048 | 1678 | || DECL_ALIGN_UNIT (decl) > 2 * ASAN_RED_ZONE_SIZE |
84b0769e MO |
1679 | || TREE_TYPE (decl) == ubsan_get_source_location_type () |
1680 | || is_odr_indicator (decl)) | |
8240018b JJ |
1681 | return false; |
1682 | ||
1069dc25 MO |
1683 | if (!ignore_decl_rtl_set_p || DECL_RTL_SET_P (decl)) |
1684 | { | |
8240018b | 1685 | |
1069dc25 MO |
1686 | rtl = DECL_RTL (decl); |
1687 | if (!MEM_P (rtl) || GET_CODE (XEXP (rtl, 0)) != SYMBOL_REF) | |
1688 | return false; | |
1689 | symbol = XEXP (rtl, 0); | |
1690 | ||
1691 | if (CONSTANT_POOL_ADDRESS_P (symbol) | |
1692 | || TREE_CONSTANT_POOL_ADDRESS_P (symbol)) | |
1693 | return false; | |
1694 | } | |
8240018b | 1695 | |
8240018b JJ |
1696 | if (lookup_attribute ("weakref", DECL_ATTRIBUTES (decl))) |
1697 | return false; | |
1698 | ||
a8b522b4 | 1699 | if (!TARGET_SUPPORTS_ALIASES && asan_needs_local_alias (decl)) |
8240018b | 1700 | return false; |
8240018b | 1701 | |
497a1c66 | 1702 | return true; |
8240018b JJ |
1703 | } |
1704 | ||
40f9f6bb JJ |
1705 | /* Construct a function tree for __asan_report_{load,store}{1,2,4,8,16,_n}. |
1706 | IS_STORE is either 1 (for a store) or 0 (for a load). */ | |
37d6f666 WM |
1707 | |
1708 | static tree | |
fed4de37 YG |
1709 | report_error_func (bool is_store, bool recover_p, HOST_WIDE_INT size_in_bytes, |
1710 | int *nargs) | |
37d6f666 | 1711 | { |
fed4de37 YG |
1712 | static enum built_in_function report[2][2][6] |
1713 | = { { { BUILT_IN_ASAN_REPORT_LOAD1, BUILT_IN_ASAN_REPORT_LOAD2, | |
1714 | BUILT_IN_ASAN_REPORT_LOAD4, BUILT_IN_ASAN_REPORT_LOAD8, | |
1715 | BUILT_IN_ASAN_REPORT_LOAD16, BUILT_IN_ASAN_REPORT_LOAD_N }, | |
1716 | { BUILT_IN_ASAN_REPORT_STORE1, BUILT_IN_ASAN_REPORT_STORE2, | |
1717 | BUILT_IN_ASAN_REPORT_STORE4, BUILT_IN_ASAN_REPORT_STORE8, | |
1718 | BUILT_IN_ASAN_REPORT_STORE16, BUILT_IN_ASAN_REPORT_STORE_N } }, | |
1719 | { { BUILT_IN_ASAN_REPORT_LOAD1_NOABORT, | |
1720 | BUILT_IN_ASAN_REPORT_LOAD2_NOABORT, | |
1721 | BUILT_IN_ASAN_REPORT_LOAD4_NOABORT, | |
1722 | BUILT_IN_ASAN_REPORT_LOAD8_NOABORT, | |
1723 | BUILT_IN_ASAN_REPORT_LOAD16_NOABORT, | |
1724 | BUILT_IN_ASAN_REPORT_LOAD_N_NOABORT }, | |
1725 | { BUILT_IN_ASAN_REPORT_STORE1_NOABORT, | |
1726 | BUILT_IN_ASAN_REPORT_STORE2_NOABORT, | |
1727 | BUILT_IN_ASAN_REPORT_STORE4_NOABORT, | |
1728 | BUILT_IN_ASAN_REPORT_STORE8_NOABORT, | |
1729 | BUILT_IN_ASAN_REPORT_STORE16_NOABORT, | |
1730 | BUILT_IN_ASAN_REPORT_STORE_N_NOABORT } } }; | |
8946c29e YG |
1731 | if (size_in_bytes == -1) |
1732 | { | |
1733 | *nargs = 2; | |
fed4de37 | 1734 | return builtin_decl_implicit (report[recover_p][is_store][5]); |
8946c29e YG |
1735 | } |
1736 | *nargs = 1; | |
fed4de37 YG |
1737 | int size_log2 = exact_log2 (size_in_bytes); |
1738 | return builtin_decl_implicit (report[recover_p][is_store][size_log2]); | |
37d6f666 WM |
1739 | } |
1740 | ||
8946c29e YG |
1741 | /* Construct a function tree for __asan_{load,store}{1,2,4,8,16,_n}. |
1742 | IS_STORE is either 1 (for a store) or 0 (for a load). */ | |
1743 | ||
1744 | static tree | |
fed4de37 YG |
1745 | check_func (bool is_store, bool recover_p, HOST_WIDE_INT size_in_bytes, |
1746 | int *nargs) | |
8946c29e | 1747 | { |
fed4de37 YG |
1748 | static enum built_in_function check[2][2][6] |
1749 | = { { { BUILT_IN_ASAN_LOAD1, BUILT_IN_ASAN_LOAD2, | |
1750 | BUILT_IN_ASAN_LOAD4, BUILT_IN_ASAN_LOAD8, | |
1751 | BUILT_IN_ASAN_LOAD16, BUILT_IN_ASAN_LOADN }, | |
1752 | { BUILT_IN_ASAN_STORE1, BUILT_IN_ASAN_STORE2, | |
1753 | BUILT_IN_ASAN_STORE4, BUILT_IN_ASAN_STORE8, | |
1754 | BUILT_IN_ASAN_STORE16, BUILT_IN_ASAN_STOREN } }, | |
1755 | { { BUILT_IN_ASAN_LOAD1_NOABORT, | |
1756 | BUILT_IN_ASAN_LOAD2_NOABORT, | |
1757 | BUILT_IN_ASAN_LOAD4_NOABORT, | |
1758 | BUILT_IN_ASAN_LOAD8_NOABORT, | |
1759 | BUILT_IN_ASAN_LOAD16_NOABORT, | |
1760 | BUILT_IN_ASAN_LOADN_NOABORT }, | |
1761 | { BUILT_IN_ASAN_STORE1_NOABORT, | |
1762 | BUILT_IN_ASAN_STORE2_NOABORT, | |
1763 | BUILT_IN_ASAN_STORE4_NOABORT, | |
1764 | BUILT_IN_ASAN_STORE8_NOABORT, | |
1765 | BUILT_IN_ASAN_STORE16_NOABORT, | |
1766 | BUILT_IN_ASAN_STOREN_NOABORT } } }; | |
8946c29e YG |
1767 | if (size_in_bytes == -1) |
1768 | { | |
1769 | *nargs = 2; | |
fed4de37 | 1770 | return builtin_decl_implicit (check[recover_p][is_store][5]); |
8946c29e YG |
1771 | } |
1772 | *nargs = 1; | |
fed4de37 YG |
1773 | int size_log2 = exact_log2 (size_in_bytes); |
1774 | return builtin_decl_implicit (check[recover_p][is_store][size_log2]); | |
8946c29e YG |
1775 | } |
1776 | ||
01452015 | 1777 | /* Split the current basic block and create a condition statement |
25ae5027 DS |
1778 | insertion point right before or after the statement pointed to by |
1779 | ITER. Return an iterator to the point at which the caller might | |
1780 | safely insert the condition statement. | |
01452015 DS |
1781 | |
1782 | THEN_BLOCK must be set to the address of an uninitialized instance | |
1783 | of basic_block. The function will then set *THEN_BLOCK to the | |
1784 | 'then block' of the condition statement to be inserted by the | |
1785 | caller. | |
1786 | ||
c4bfe8bf JJ |
1787 | If CREATE_THEN_FALLTHRU_EDGE is false, no edge will be created from |
1788 | *THEN_BLOCK to *FALLTHROUGH_BLOCK. | |
1789 | ||
01452015 DS |
1790 | Similarly, the function will set *FALLTRHOUGH_BLOCK to the 'else |
1791 | block' of the condition statement to be inserted by the caller. | |
1792 | ||
1793 | Note that *FALLTHROUGH_BLOCK is a new block that contains the | |
1794 | statements starting from *ITER, and *THEN_BLOCK is a new empty | |
1795 | block. | |
1796 | ||
25ae5027 DS |
1797 | *ITER is adjusted to point to always point to the first statement |
1798 | of the basic block * FALLTHROUGH_BLOCK. That statement is the | |
1799 | same as what ITER was pointing to prior to calling this function, | |
1800 | if BEFORE_P is true; otherwise, it is its following statement. */ | |
01452015 | 1801 | |
ac0ff9f2 | 1802 | gimple_stmt_iterator |
25ae5027 DS |
1803 | create_cond_insert_point (gimple_stmt_iterator *iter, |
1804 | bool before_p, | |
1805 | bool then_more_likely_p, | |
c4bfe8bf | 1806 | bool create_then_fallthru_edge, |
25ae5027 DS |
1807 | basic_block *then_block, |
1808 | basic_block *fallthrough_block) | |
01452015 DS |
1809 | { |
1810 | gimple_stmt_iterator gsi = *iter; | |
1811 | ||
25ae5027 | 1812 | if (!gsi_end_p (gsi) && before_p) |
01452015 DS |
1813 | gsi_prev (&gsi); |
1814 | ||
1815 | basic_block cur_bb = gsi_bb (*iter); | |
1816 | ||
1817 | edge e = split_block (cur_bb, gsi_stmt (gsi)); | |
1818 | ||
1819 | /* Get a hold on the 'condition block', the 'then block' and the | |
1820 | 'else block'. */ | |
1821 | basic_block cond_bb = e->src; | |
1822 | basic_block fallthru_bb = e->dest; | |
1823 | basic_block then_bb = create_empty_bb (cond_bb); | |
a9e0d843 RB |
1824 | if (current_loops) |
1825 | { | |
1826 | add_bb_to_loop (then_bb, cond_bb->loop_father); | |
1827 | loops_state_set (LOOPS_NEED_FIXUP); | |
1828 | } | |
01452015 DS |
1829 | |
1830 | /* Set up the newly created 'then block'. */ | |
1831 | e = make_edge (cond_bb, then_bb, EDGE_TRUE_VALUE); | |
e4e822ab | 1832 | profile_probability fallthrough_probability |
01452015 | 1833 | = then_more_likely_p |
e4e822ab JH |
1834 | ? profile_probability::very_unlikely () |
1835 | : profile_probability::very_likely (); | |
1836 | e->probability = fallthrough_probability.invert (); | |
e7a74006 | 1837 | then_bb->count = e->count (); |
c4bfe8bf JJ |
1838 | if (create_then_fallthru_edge) |
1839 | make_single_succ_edge (then_bb, fallthru_bb, EDGE_FALLTHRU); | |
01452015 DS |
1840 | |
1841 | /* Set up the fallthrough basic block. */ | |
1842 | e = find_edge (cond_bb, fallthru_bb); | |
1843 | e->flags = EDGE_FALSE_VALUE; | |
e4e822ab | 1844 | e->probability = fallthrough_probability; |
01452015 DS |
1845 | |
1846 | /* Update dominance info for the newly created then_bb; note that | |
1847 | fallthru_bb's dominance info has already been updated by | |
1848 | split_bock. */ | |
1849 | if (dom_info_available_p (CDI_DOMINATORS)) | |
1850 | set_immediate_dominator (CDI_DOMINATORS, then_bb, cond_bb); | |
1851 | ||
1852 | *then_block = then_bb; | |
1853 | *fallthrough_block = fallthru_bb; | |
1854 | *iter = gsi_start_bb (fallthru_bb); | |
1855 | ||
1856 | return gsi_last_bb (cond_bb); | |
1857 | } | |
1858 | ||
25ae5027 DS |
1859 | /* Insert an if condition followed by a 'then block' right before the |
1860 | statement pointed to by ITER. The fallthrough block -- which is the | |
1861 | else block of the condition as well as the destination of the | |
1862 | outcoming edge of the 'then block' -- starts with the statement | |
1863 | pointed to by ITER. | |
1864 | ||
497a1c66 | 1865 | COND is the condition of the if. |
25ae5027 DS |
1866 | |
1867 | If THEN_MORE_LIKELY_P is true, the probability of the edge to the | |
1868 | 'then block' is higher than the probability of the edge to the | |
1869 | fallthrough block. | |
1870 | ||
1871 | Upon completion of the function, *THEN_BB is set to the newly | |
1872 | inserted 'then block' and similarly, *FALLTHROUGH_BB is set to the | |
1873 | fallthrough block. | |
1874 | ||
1875 | *ITER is adjusted to still point to the same statement it was | |
1876 | pointing to initially. */ | |
1877 | ||
1878 | static void | |
538dd0b7 | 1879 | insert_if_then_before_iter (gcond *cond, |
25ae5027 DS |
1880 | gimple_stmt_iterator *iter, |
1881 | bool then_more_likely_p, | |
1882 | basic_block *then_bb, | |
1883 | basic_block *fallthrough_bb) | |
1884 | { | |
1885 | gimple_stmt_iterator cond_insert_point = | |
1886 | create_cond_insert_point (iter, | |
1887 | /*before_p=*/true, | |
1888 | then_more_likely_p, | |
c4bfe8bf | 1889 | /*create_then_fallthru_edge=*/true, |
25ae5027 DS |
1890 | then_bb, |
1891 | fallthrough_bb); | |
1892 | gsi_insert_after (&cond_insert_point, cond, GSI_NEW_STMT); | |
1893 | } | |
1894 | ||
6dc4a604 ML |
1895 | /* Build (base_addr >> ASAN_SHADOW_SHIFT) + asan_shadow_offset (). |
1896 | If RETURN_ADDRESS is set to true, return memory location instread | |
1897 | of a value in the shadow memory. */ | |
40f9f6bb JJ |
1898 | |
1899 | static tree | |
1900 | build_shadow_mem_access (gimple_stmt_iterator *gsi, location_t location, | |
6dc4a604 ML |
1901 | tree base_addr, tree shadow_ptr_type, |
1902 | bool return_address = false) | |
40f9f6bb JJ |
1903 | { |
1904 | tree t, uintptr_type = TREE_TYPE (base_addr); | |
1905 | tree shadow_type = TREE_TYPE (shadow_ptr_type); | |
355fe088 | 1906 | gimple *g; |
40f9f6bb JJ |
1907 | |
1908 | t = build_int_cst (uintptr_type, ASAN_SHADOW_SHIFT); | |
0d0e4a03 JJ |
1909 | g = gimple_build_assign (make_ssa_name (uintptr_type), RSHIFT_EXPR, |
1910 | base_addr, t); | |
40f9f6bb JJ |
1911 | gimple_set_location (g, location); |
1912 | gsi_insert_after (gsi, g, GSI_NEW_STMT); | |
1913 | ||
fd960af2 | 1914 | t = build_int_cst (uintptr_type, asan_shadow_offset ()); |
0d0e4a03 JJ |
1915 | g = gimple_build_assign (make_ssa_name (uintptr_type), PLUS_EXPR, |
1916 | gimple_assign_lhs (g), t); | |
40f9f6bb JJ |
1917 | gimple_set_location (g, location); |
1918 | gsi_insert_after (gsi, g, GSI_NEW_STMT); | |
1919 | ||
0d0e4a03 JJ |
1920 | g = gimple_build_assign (make_ssa_name (shadow_ptr_type), NOP_EXPR, |
1921 | gimple_assign_lhs (g)); | |
40f9f6bb JJ |
1922 | gimple_set_location (g, location); |
1923 | gsi_insert_after (gsi, g, GSI_NEW_STMT); | |
1924 | ||
6dc4a604 ML |
1925 | if (!return_address) |
1926 | { | |
1927 | t = build2 (MEM_REF, shadow_type, gimple_assign_lhs (g), | |
1928 | build_int_cst (shadow_ptr_type, 0)); | |
1929 | g = gimple_build_assign (make_ssa_name (shadow_type), MEM_REF, t); | |
1930 | gimple_set_location (g, location); | |
1931 | gsi_insert_after (gsi, g, GSI_NEW_STMT); | |
1932 | } | |
1933 | ||
40f9f6bb JJ |
1934 | return gimple_assign_lhs (g); |
1935 | } | |
1936 | ||
8946c29e YG |
1937 | /* BASE can already be an SSA_NAME; in that case, do not create a |
1938 | new SSA_NAME for it. */ | |
1939 | ||
1940 | static tree | |
1941 | maybe_create_ssa_name (location_t loc, tree base, gimple_stmt_iterator *iter, | |
1942 | bool before_p) | |
1943 | { | |
1944 | if (TREE_CODE (base) == SSA_NAME) | |
1945 | return base; | |
355fe088 | 1946 | gimple *g = gimple_build_assign (make_ssa_name (TREE_TYPE (base)), |
0d0e4a03 | 1947 | TREE_CODE (base), base); |
8946c29e YG |
1948 | gimple_set_location (g, loc); |
1949 | if (before_p) | |
1950 | gsi_insert_before (iter, g, GSI_SAME_STMT); | |
1951 | else | |
1952 | gsi_insert_after (iter, g, GSI_NEW_STMT); | |
1953 | return gimple_assign_lhs (g); | |
1954 | } | |
1955 | ||
a2f581e1 YG |
1956 | /* LEN can already have necessary size and precision; |
1957 | in that case, do not create a new variable. */ | |
1958 | ||
1959 | tree | |
1960 | maybe_cast_to_ptrmode (location_t loc, tree len, gimple_stmt_iterator *iter, | |
1961 | bool before_p) | |
1962 | { | |
1963 | if (ptrofftype_p (len)) | |
1964 | return len; | |
355fe088 | 1965 | gimple *g = gimple_build_assign (make_ssa_name (pointer_sized_int_node), |
0d0e4a03 | 1966 | NOP_EXPR, len); |
a2f581e1 YG |
1967 | gimple_set_location (g, loc); |
1968 | if (before_p) | |
1969 | gsi_insert_before (iter, g, GSI_SAME_STMT); | |
1970 | else | |
1971 | gsi_insert_after (iter, g, GSI_NEW_STMT); | |
1972 | return gimple_assign_lhs (g); | |
1973 | } | |
1974 | ||
dc29bf1e | 1975 | /* Instrument the memory access instruction BASE. Insert new |
25ae5027 | 1976 | statements before or after ITER. |
dc29bf1e DS |
1977 | |
1978 | Note that the memory access represented by BASE can be either an | |
1979 | SSA_NAME, or a non-SSA expression. LOCATION is the source code | |
1980 | location. IS_STORE is TRUE for a store, FALSE for a load. | |
25ae5027 | 1981 | BEFORE_P is TRUE for inserting the instrumentation code before |
8946c29e YG |
1982 | ITER, FALSE for inserting it after ITER. IS_SCALAR_ACCESS is TRUE |
1983 | for a scalar memory access and FALSE for memory region access. | |
1984 | NON_ZERO_P is TRUE if memory region is guaranteed to have non-zero | |
1985 | length. ALIGN tells alignment of accessed memory object. | |
1986 | ||
1987 | START_INSTRUMENTED and END_INSTRUMENTED are TRUE if start/end of | |
1988 | memory region have already been instrumented. | |
25ae5027 DS |
1989 | |
1990 | If BEFORE_P is TRUE, *ITER is arranged to still point to the | |
1991 | statement it was pointing to prior to calling this function, | |
1992 | otherwise, it points to the statement logically following it. */ | |
37d6f666 WM |
1993 | |
1994 | static void | |
c62ccb9a | 1995 | build_check_stmt (location_t loc, tree base, tree len, |
8946c29e | 1996 | HOST_WIDE_INT size_in_bytes, gimple_stmt_iterator *iter, |
c62ccb9a | 1997 | bool is_non_zero_len, bool before_p, bool is_store, |
bdea98ca | 1998 | bool is_scalar_access, unsigned int align = 0) |
37d6f666 | 1999 | { |
8946c29e | 2000 | gimple_stmt_iterator gsi = *iter; |
355fe088 | 2001 | gimple *g; |
8946c29e | 2002 | |
c62ccb9a | 2003 | gcc_assert (!(size_in_bytes > 0 && !is_non_zero_len)); |
8946c29e | 2004 | |
c62ccb9a YG |
2005 | gsi = *iter; |
2006 | ||
2007 | base = unshare_expr (base); | |
2008 | base = maybe_create_ssa_name (loc, base, &gsi, before_p); | |
2009 | ||
8946c29e | 2010 | if (len) |
a2f581e1 YG |
2011 | { |
2012 | len = unshare_expr (len); | |
2013 | len = maybe_cast_to_ptrmode (loc, len, iter, before_p); | |
2014 | } | |
8946c29e YG |
2015 | else |
2016 | { | |
2017 | gcc_assert (size_in_bytes != -1); | |
2018 | len = build_int_cst (pointer_sized_int_node, size_in_bytes); | |
2019 | } | |
2020 | ||
2021 | if (size_in_bytes > 1) | |
b3f1051b | 2022 | { |
8946c29e YG |
2023 | if ((size_in_bytes & (size_in_bytes - 1)) != 0 |
2024 | || size_in_bytes > 16) | |
c62ccb9a | 2025 | is_scalar_access = false; |
8946c29e YG |
2026 | else if (align && align < size_in_bytes * BITS_PER_UNIT) |
2027 | { | |
2028 | /* On non-strict alignment targets, if | |
2029 | 16-byte access is just 8-byte aligned, | |
2030 | this will result in misaligned shadow | |
2031 | memory 2 byte load, but otherwise can | |
2032 | be handled using one read. */ | |
2033 | if (size_in_bytes != 16 | |
2034 | || STRICT_ALIGNMENT | |
2035 | || align < 8 * BITS_PER_UNIT) | |
c62ccb9a | 2036 | is_scalar_access = false; |
40f9f6bb | 2037 | } |
f6d98484 | 2038 | } |
37d6f666 | 2039 | |
c62ccb9a YG |
2040 | HOST_WIDE_INT flags = 0; |
2041 | if (is_store) | |
2042 | flags |= ASAN_CHECK_STORE; | |
2043 | if (is_non_zero_len) | |
2044 | flags |= ASAN_CHECK_NON_ZERO_LEN; | |
2045 | if (is_scalar_access) | |
2046 | flags |= ASAN_CHECK_SCALAR_ACCESS; | |
c62ccb9a | 2047 | |
f434eb69 | 2048 | g = gimple_build_call_internal (IFN_ASAN_CHECK, 4, |
c62ccb9a | 2049 | build_int_cst (integer_type_node, flags), |
f434eb69 MZ |
2050 | base, len, |
2051 | build_int_cst (integer_type_node, | |
2052 | align / BITS_PER_UNIT)); | |
c62ccb9a YG |
2053 | gimple_set_location (g, loc); |
2054 | if (before_p) | |
2055 | gsi_insert_before (&gsi, g, GSI_SAME_STMT); | |
8946c29e YG |
2056 | else |
2057 | { | |
8946c29e | 2058 | gsi_insert_after (&gsi, g, GSI_NEW_STMT); |
c62ccb9a YG |
2059 | gsi_next (&gsi); |
2060 | *iter = gsi; | |
8946c29e | 2061 | } |
37d6f666 WM |
2062 | } |
2063 | ||
2064 | /* If T represents a memory access, add instrumentation code before ITER. | |
2065 | LOCATION is source code location. | |
25ae5027 | 2066 | IS_STORE is either TRUE (for a store) or FALSE (for a load). */ |
37d6f666 WM |
2067 | |
2068 | static void | |
2069 | instrument_derefs (gimple_stmt_iterator *iter, tree t, | |
bdcbe80c | 2070 | location_t location, bool is_store) |
37d6f666 | 2071 | { |
b5ebc991 MO |
2072 | if (is_store && !ASAN_INSTRUMENT_WRITES) |
2073 | return; | |
2074 | if (!is_store && !ASAN_INSTRUMENT_READS) | |
2075 | return; | |
2076 | ||
37d6f666 | 2077 | tree type, base; |
f6d98484 | 2078 | HOST_WIDE_INT size_in_bytes; |
c3da4956 MO |
2079 | if (location == UNKNOWN_LOCATION) |
2080 | location = EXPR_LOCATION (t); | |
37d6f666 WM |
2081 | |
2082 | type = TREE_TYPE (t); | |
37d6f666 WM |
2083 | switch (TREE_CODE (t)) |
2084 | { | |
2085 | case ARRAY_REF: | |
2086 | case COMPONENT_REF: | |
2087 | case INDIRECT_REF: | |
2088 | case MEM_REF: | |
59b36ecf | 2089 | case VAR_DECL: |
913f32a1 | 2090 | case BIT_FIELD_REF: |
37d6f666 | 2091 | break; |
59b36ecf | 2092 | /* FALLTHRU */ |
37d6f666 WM |
2093 | default: |
2094 | return; | |
2095 | } | |
f6d98484 JJ |
2096 | |
2097 | size_in_bytes = int_size_in_bytes (type); | |
40f9f6bb | 2098 | if (size_in_bytes <= 0) |
f6d98484 JJ |
2099 | return; |
2100 | ||
f37fac2b | 2101 | poly_int64 bitsize, bitpos; |
f6d98484 | 2102 | tree offset; |
ef4bddc2 | 2103 | machine_mode mode; |
ee45a32d EB |
2104 | int unsignedp, reversep, volatilep = 0; |
2105 | tree inner = get_inner_reference (t, &bitsize, &bitpos, &offset, &mode, | |
25b75a48 | 2106 | &unsignedp, &reversep, &volatilep); |
87d1d65a YG |
2107 | |
2108 | if (TREE_CODE (t) == COMPONENT_REF | |
2109 | && DECL_BIT_FIELD_REPRESENTATIVE (TREE_OPERAND (t, 1)) != NULL_TREE) | |
1fe04fdc | 2110 | { |
87d1d65a YG |
2111 | tree repr = DECL_BIT_FIELD_REPRESENTATIVE (TREE_OPERAND (t, 1)); |
2112 | instrument_derefs (iter, build3 (COMPONENT_REF, TREE_TYPE (repr), | |
2113 | TREE_OPERAND (t, 0), repr, | |
7cd200f6 JJ |
2114 | TREE_OPERAND (t, 2)), |
2115 | location, is_store); | |
1fe04fdc JJ |
2116 | return; |
2117 | } | |
87d1d65a | 2118 | |
f37fac2b RS |
2119 | if (!multiple_p (bitpos, BITS_PER_UNIT) |
2120 | || maybe_ne (bitsize, size_in_bytes * BITS_PER_UNIT)) | |
40f9f6bb | 2121 | return; |
f6d98484 | 2122 | |
6dc61b45 ML |
2123 | if (VAR_P (inner) && DECL_HARD_REGISTER (inner)) |
2124 | return; | |
2125 | ||
f37fac2b | 2126 | poly_int64 decl_size; |
8813a647 | 2127 | if (VAR_P (inner) |
59b36ecf | 2128 | && offset == NULL_TREE |
59b36ecf | 2129 | && DECL_SIZE (inner) |
f37fac2b RS |
2130 | && poly_int_tree_p (DECL_SIZE (inner), &decl_size) |
2131 | && known_subrange_p (bitpos, bitsize, 0, decl_size)) | |
59b36ecf JJ |
2132 | { |
2133 | if (DECL_THREAD_LOCAL_P (inner)) | |
2134 | return; | |
6b98fab5 MZ |
2135 | if (!ASAN_GLOBALS && is_global_var (inner)) |
2136 | return; | |
59b36ecf JJ |
2137 | if (!TREE_STATIC (inner)) |
2138 | { | |
2139 | /* Automatic vars in the current function will be always | |
2140 | accessible. */ | |
6dc4a604 ML |
2141 | if (decl_function_context (inner) == current_function_decl |
2142 | && (!asan_sanitize_use_after_scope () | |
2143 | || !TREE_ADDRESSABLE (inner))) | |
59b36ecf JJ |
2144 | return; |
2145 | } | |
2146 | /* Always instrument external vars, they might be dynamically | |
2147 | initialized. */ | |
2148 | else if (!DECL_EXTERNAL (inner)) | |
2149 | { | |
2150 | /* For static vars if they are known not to be dynamically | |
2151 | initialized, they will be always accessible. */ | |
9041d2e6 | 2152 | varpool_node *vnode = varpool_node::get (inner); |
59b36ecf JJ |
2153 | if (vnode && !vnode->dynamically_initialized) |
2154 | return; | |
2155 | } | |
2156 | } | |
2157 | ||
f6d98484 | 2158 | base = build_fold_addr_expr (t); |
bdcbe80c DS |
2159 | if (!has_mem_ref_been_instrumented (base, size_in_bytes)) |
2160 | { | |
8946c29e YG |
2161 | unsigned int align = get_object_alignment (t); |
2162 | build_check_stmt (location, base, NULL_TREE, size_in_bytes, iter, | |
c62ccb9a | 2163 | /*is_non_zero_len*/size_in_bytes > 0, /*before_p=*/true, |
8946c29e | 2164 | is_store, /*is_scalar_access*/true, align); |
bdcbe80c DS |
2165 | update_mem_ref_hash_table (base, size_in_bytes); |
2166 | update_mem_ref_hash_table (t, size_in_bytes); | |
2167 | } | |
2168 | ||
25ae5027 DS |
2169 | } |
2170 | ||
bdea98ca MO |
2171 | /* Insert a memory reference into the hash table if access length |
2172 | can be determined in compile time. */ | |
2173 | ||
2174 | static void | |
2175 | maybe_update_mem_ref_hash_table (tree base, tree len) | |
2176 | { | |
2177 | if (!POINTER_TYPE_P (TREE_TYPE (base)) | |
2178 | || !INTEGRAL_TYPE_P (TREE_TYPE (len))) | |
2179 | return; | |
2180 | ||
2181 | HOST_WIDE_INT size_in_bytes = tree_fits_shwi_p (len) ? tree_to_shwi (len) : -1; | |
2182 | ||
2183 | if (size_in_bytes != -1) | |
2184 | update_mem_ref_hash_table (base, size_in_bytes); | |
2185 | } | |
2186 | ||
25ae5027 DS |
2187 | /* Instrument an access to a contiguous memory region that starts at |
2188 | the address pointed to by BASE, over a length of LEN (expressed in | |
2189 | the sizeof (*BASE) bytes). ITER points to the instruction before | |
2190 | which the instrumentation instructions must be inserted. LOCATION | |
2191 | is the source location that the instrumentation instructions must | |
2192 | have. If IS_STORE is true, then the memory access is a store; | |
2193 | otherwise, it's a load. */ | |
2194 | ||
2195 | static void | |
2196 | instrument_mem_region_access (tree base, tree len, | |
2197 | gimple_stmt_iterator *iter, | |
2198 | location_t location, bool is_store) | |
2199 | { | |
c63d3b96 JJ |
2200 | if (!POINTER_TYPE_P (TREE_TYPE (base)) |
2201 | || !INTEGRAL_TYPE_P (TREE_TYPE (len)) | |
2202 | || integer_zerop (len)) | |
25ae5027 DS |
2203 | return; |
2204 | ||
8946c29e | 2205 | HOST_WIDE_INT size_in_bytes = tree_fits_shwi_p (len) ? tree_to_shwi (len) : -1; |
bdcbe80c | 2206 | |
bdea98ca MO |
2207 | if ((size_in_bytes == -1) |
2208 | || !has_mem_ref_been_instrumented (base, size_in_bytes)) | |
2209 | { | |
2210 | build_check_stmt (location, base, len, size_in_bytes, iter, | |
2211 | /*is_non_zero_len*/size_in_bytes > 0, /*before_p*/true, | |
2212 | is_store, /*is_scalar_access*/false, /*align*/0); | |
2213 | } | |
b41288b3 | 2214 | |
bdea98ca | 2215 | maybe_update_mem_ref_hash_table (base, len); |
b41288b3 | 2216 | *iter = gsi_for_stmt (gsi_stmt (*iter)); |
bdcbe80c | 2217 | } |
25ae5027 | 2218 | |
bdcbe80c DS |
2219 | /* Instrument the call to a built-in memory access function that is |
2220 | pointed to by the iterator ITER. | |
25ae5027 | 2221 | |
bdcbe80c DS |
2222 | Upon completion, return TRUE iff *ITER has been advanced to the |
2223 | statement following the one it was originally pointing to. */ | |
25ae5027 | 2224 | |
bdcbe80c DS |
2225 | static bool |
2226 | instrument_builtin_call (gimple_stmt_iterator *iter) | |
2227 | { | |
b5ebc991 MO |
2228 | if (!ASAN_MEMINTRIN) |
2229 | return false; | |
2230 | ||
bdcbe80c | 2231 | bool iter_advanced_p = false; |
538dd0b7 | 2232 | gcall *call = as_a <gcall *> (gsi_stmt (*iter)); |
25ae5027 | 2233 | |
bdcbe80c | 2234 | gcc_checking_assert (gimple_call_builtin_p (call, BUILT_IN_NORMAL)); |
25ae5027 | 2235 | |
bdcbe80c | 2236 | location_t loc = gimple_location (call); |
25ae5027 | 2237 | |
bdea98ca MO |
2238 | asan_mem_ref src0, src1, dest; |
2239 | asan_mem_ref_init (&src0, NULL, 1); | |
2240 | asan_mem_ref_init (&src1, NULL, 1); | |
2241 | asan_mem_ref_init (&dest, NULL, 1); | |
bdcbe80c | 2242 | |
bdea98ca MO |
2243 | tree src0_len = NULL_TREE, src1_len = NULL_TREE, dest_len = NULL_TREE; |
2244 | bool src0_is_store = false, src1_is_store = false, dest_is_store = false, | |
2245 | dest_is_deref = false, intercepted_p = true; | |
bdcbe80c | 2246 | |
bdea98ca MO |
2247 | if (get_mem_refs_of_builtin_call (call, |
2248 | &src0, &src0_len, &src0_is_store, | |
2249 | &src1, &src1_len, &src1_is_store, | |
2250 | &dest, &dest_len, &dest_is_store, | |
e3174bdf | 2251 | &dest_is_deref, &intercepted_p, iter)) |
bdea98ca MO |
2252 | { |
2253 | if (dest_is_deref) | |
bdcbe80c | 2254 | { |
bdea98ca MO |
2255 | instrument_derefs (iter, dest.start, loc, dest_is_store); |
2256 | gsi_next (iter); | |
2257 | iter_advanced_p = true; | |
2258 | } | |
2259 | else if (!intercepted_p | |
2260 | && (src0_len || src1_len || dest_len)) | |
2261 | { | |
2262 | if (src0.start != NULL_TREE) | |
2263 | instrument_mem_region_access (src0.start, src0_len, | |
2264 | iter, loc, /*is_store=*/false); | |
2265 | if (src1.start != NULL_TREE) | |
2266 | instrument_mem_region_access (src1.start, src1_len, | |
2267 | iter, loc, /*is_store=*/false); | |
2268 | if (dest.start != NULL_TREE) | |
2269 | instrument_mem_region_access (dest.start, dest_len, | |
2270 | iter, loc, /*is_store=*/true); | |
2271 | ||
2272 | *iter = gsi_for_stmt (call); | |
2273 | gsi_next (iter); | |
2274 | iter_advanced_p = true; | |
2275 | } | |
2276 | else | |
2277 | { | |
2278 | if (src0.start != NULL_TREE) | |
2279 | maybe_update_mem_ref_hash_table (src0.start, src0_len); | |
2280 | if (src1.start != NULL_TREE) | |
2281 | maybe_update_mem_ref_hash_table (src1.start, src1_len); | |
2282 | if (dest.start != NULL_TREE) | |
2283 | maybe_update_mem_ref_hash_table (dest.start, dest_len); | |
bdcbe80c | 2284 | } |
25ae5027 | 2285 | } |
bdcbe80c | 2286 | return iter_advanced_p; |
25ae5027 DS |
2287 | } |
2288 | ||
2289 | /* Instrument the assignment statement ITER if it is subject to | |
bdcbe80c DS |
2290 | instrumentation. Return TRUE iff instrumentation actually |
2291 | happened. In that case, the iterator ITER is advanced to the next | |
2292 | logical expression following the one initially pointed to by ITER, | |
2293 | and the relevant memory reference that which access has been | |
2294 | instrumented is added to the memory references hash table. */ | |
25ae5027 | 2295 | |
bdcbe80c DS |
2296 | static bool |
2297 | maybe_instrument_assignment (gimple_stmt_iterator *iter) | |
25ae5027 | 2298 | { |
355fe088 | 2299 | gimple *s = gsi_stmt (*iter); |
25ae5027 DS |
2300 | |
2301 | gcc_assert (gimple_assign_single_p (s)); | |
2302 | ||
bdcbe80c DS |
2303 | tree ref_expr = NULL_TREE; |
2304 | bool is_store, is_instrumented = false; | |
2305 | ||
52f2e7e1 | 2306 | if (gimple_store_p (s)) |
bdcbe80c DS |
2307 | { |
2308 | ref_expr = gimple_assign_lhs (s); | |
2309 | is_store = true; | |
2310 | instrument_derefs (iter, ref_expr, | |
2311 | gimple_location (s), | |
2312 | is_store); | |
2313 | is_instrumented = true; | |
2314 | } | |
c1f5ce48 | 2315 | |
52f2e7e1 | 2316 | if (gimple_assign_load_p (s)) |
bdcbe80c DS |
2317 | { |
2318 | ref_expr = gimple_assign_rhs1 (s); | |
2319 | is_store = false; | |
2320 | instrument_derefs (iter, ref_expr, | |
2321 | gimple_location (s), | |
2322 | is_store); | |
2323 | is_instrumented = true; | |
2324 | } | |
2325 | ||
2326 | if (is_instrumented) | |
2327 | gsi_next (iter); | |
2328 | ||
2329 | return is_instrumented; | |
25ae5027 DS |
2330 | } |
2331 | ||
2332 | /* Instrument the function call pointed to by the iterator ITER, if it | |
2333 | is subject to instrumentation. At the moment, the only function | |
2334 | calls that are instrumented are some built-in functions that access | |
2335 | memory. Look at instrument_builtin_call to learn more. | |
2336 | ||
2337 | Upon completion return TRUE iff *ITER was advanced to the statement | |
2338 | following the one it was originally pointing to. */ | |
2339 | ||
2340 | static bool | |
2341 | maybe_instrument_call (gimple_stmt_iterator *iter) | |
2342 | { | |
355fe088 | 2343 | gimple *stmt = gsi_stmt (*iter); |
bdcbe80c DS |
2344 | bool is_builtin = gimple_call_builtin_p (stmt, BUILT_IN_NORMAL); |
2345 | ||
2346 | if (is_builtin && instrument_builtin_call (iter)) | |
2b2571c9 | 2347 | return true; |
bdcbe80c | 2348 | |
2b2571c9 JJ |
2349 | if (gimple_call_noreturn_p (stmt)) |
2350 | { | |
2351 | if (is_builtin) | |
2352 | { | |
2353 | tree callee = gimple_call_fndecl (stmt); | |
2354 | switch (DECL_FUNCTION_CODE (callee)) | |
2355 | { | |
2356 | case BUILT_IN_UNREACHABLE: | |
2357 | case BUILT_IN_TRAP: | |
2358 | /* Don't instrument these. */ | |
2359 | return false; | |
083e891e MP |
2360 | default: |
2361 | break; | |
2b2571c9 JJ |
2362 | } |
2363 | } | |
2364 | tree decl = builtin_decl_implicit (BUILT_IN_ASAN_HANDLE_NO_RETURN); | |
355fe088 | 2365 | gimple *g = gimple_build_call (decl, 0); |
2b2571c9 JJ |
2366 | gimple_set_location (g, gimple_location (stmt)); |
2367 | gsi_insert_before (iter, g, GSI_SAME_STMT); | |
2368 | } | |
7db337c2 | 2369 | |
c3da4956 | 2370 | bool instrumented = false; |
7db337c2 ML |
2371 | if (gimple_store_p (stmt)) |
2372 | { | |
2373 | tree ref_expr = gimple_call_lhs (stmt); | |
2374 | instrument_derefs (iter, ref_expr, | |
2375 | gimple_location (stmt), | |
2376 | /*is_store=*/true); | |
2377 | ||
c3da4956 | 2378 | instrumented = true; |
7db337c2 ML |
2379 | } |
2380 | ||
c3da4956 MO |
2381 | /* Walk through gimple_call arguments and check them id needed. */ |
2382 | unsigned args_num = gimple_call_num_args (stmt); | |
2383 | for (unsigned i = 0; i < args_num; ++i) | |
2384 | { | |
2385 | tree arg = gimple_call_arg (stmt, i); | |
2386 | /* If ARG is not a non-aggregate register variable, compiler in general | |
2387 | creates temporary for it and pass it as argument to gimple call. | |
2388 | But in some cases, e.g. when we pass by value a small structure that | |
2389 | fits to register, compiler can avoid extra overhead by pulling out | |
2390 | these temporaries. In this case, we should check the argument. */ | |
2391 | if (!is_gimple_reg (arg) && !is_gimple_min_invariant (arg)) | |
2392 | { | |
2393 | instrument_derefs (iter, arg, | |
2394 | gimple_location (stmt), | |
2395 | /*is_store=*/false); | |
2396 | instrumented = true; | |
2397 | } | |
2398 | } | |
2399 | if (instrumented) | |
2400 | gsi_next (iter); | |
2401 | return instrumented; | |
37d6f666 WM |
2402 | } |
2403 | ||
bdcbe80c DS |
2404 | /* Walk each instruction of all basic block and instrument those that |
2405 | represent memory references: loads, stores, or function calls. | |
2406 | In a given basic block, this function avoids instrumenting memory | |
2407 | references that have already been instrumented. */ | |
37d6f666 WM |
2408 | |
2409 | static void | |
2410 | transform_statements (void) | |
2411 | { | |
c4bfe8bf | 2412 | basic_block bb, last_bb = NULL; |
37d6f666 | 2413 | gimple_stmt_iterator i; |
8b1c6fd7 | 2414 | int saved_last_basic_block = last_basic_block_for_fn (cfun); |
37d6f666 | 2415 | |
11cd3bed | 2416 | FOR_EACH_BB_FN (bb, cfun) |
37d6f666 | 2417 | { |
c4bfe8bf | 2418 | basic_block prev_bb = bb; |
bdcbe80c | 2419 | |
37d6f666 | 2420 | if (bb->index >= saved_last_basic_block) continue; |
c4bfe8bf JJ |
2421 | |
2422 | /* Flush the mem ref hash table, if current bb doesn't have | |
2423 | exactly one predecessor, or if that predecessor (skipping | |
2424 | over asan created basic blocks) isn't the last processed | |
2425 | basic block. Thus we effectively flush on extended basic | |
2426 | block boundaries. */ | |
2427 | while (single_pred_p (prev_bb)) | |
2428 | { | |
2429 | prev_bb = single_pred (prev_bb); | |
2430 | if (prev_bb->index < saved_last_basic_block) | |
2431 | break; | |
2432 | } | |
2433 | if (prev_bb != last_bb) | |
2434 | empty_mem_ref_hash_table (); | |
2435 | last_bb = bb; | |
2436 | ||
25ae5027 | 2437 | for (i = gsi_start_bb (bb); !gsi_end_p (i);) |
497a1c66 | 2438 | { |
355fe088 | 2439 | gimple *s = gsi_stmt (i); |
25ae5027 | 2440 | |
bdcbe80c DS |
2441 | if (has_stmt_been_instrumented_p (s)) |
2442 | gsi_next (&i); | |
2443 | else if (gimple_assign_single_p (s) | |
e1e160c1 | 2444 | && !gimple_clobber_p (s) |
bdcbe80c DS |
2445 | && maybe_instrument_assignment (&i)) |
2446 | /* Nothing to do as maybe_instrument_assignment advanced | |
2447 | the iterator I. */; | |
2448 | else if (is_gimple_call (s) && maybe_instrument_call (&i)) | |
2449 | /* Nothing to do as maybe_instrument_call | |
2450 | advanced the iterator I. */; | |
2451 | else | |
25ae5027 | 2452 | { |
bdcbe80c DS |
2453 | /* No instrumentation happened. |
2454 | ||
c4bfe8bf JJ |
2455 | If the current instruction is a function call that |
2456 | might free something, let's forget about the memory | |
2457 | references that got instrumented. Otherwise we might | |
6dc4a604 ML |
2458 | miss some instrumentation opportunities. Do the same |
2459 | for a ASAN_MARK poisoning internal function. */ | |
2460 | if (is_gimple_call (s) | |
56b7aede ML |
2461 | && (!nonfreeing_call_p (s) |
2462 | || asan_mark_p (s, ASAN_MARK_POISON))) | |
bdcbe80c DS |
2463 | empty_mem_ref_hash_table (); |
2464 | ||
2465 | gsi_next (&i); | |
25ae5027 | 2466 | } |
497a1c66 | 2467 | } |
37d6f666 | 2468 | } |
bdcbe80c | 2469 | free_mem_ref_resources (); |
37d6f666 WM |
2470 | } |
2471 | ||
59b36ecf JJ |
2472 | /* Build |
2473 | __asan_before_dynamic_init (module_name) | |
2474 | or | |
2475 | __asan_after_dynamic_init () | |
2476 | call. */ | |
2477 | ||
2478 | tree | |
2479 | asan_dynamic_init_call (bool after_p) | |
2480 | { | |
185faecb JJ |
2481 | if (shadow_ptr_types[0] == NULL_TREE) |
2482 | asan_init_shadow_ptr_types (); | |
2483 | ||
59b36ecf JJ |
2484 | tree fn = builtin_decl_implicit (after_p |
2485 | ? BUILT_IN_ASAN_AFTER_DYNAMIC_INIT | |
2486 | : BUILT_IN_ASAN_BEFORE_DYNAMIC_INIT); | |
2487 | tree module_name_cst = NULL_TREE; | |
2488 | if (!after_p) | |
2489 | { | |
2490 | pretty_printer module_name_pp; | |
2491 | pp_string (&module_name_pp, main_input_filename); | |
2492 | ||
59b36ecf JJ |
2493 | module_name_cst = asan_pp_string (&module_name_pp); |
2494 | module_name_cst = fold_convert (const_ptr_type_node, | |
2495 | module_name_cst); | |
2496 | } | |
2497 | ||
2498 | return build_call_expr (fn, after_p ? 0 : 1, module_name_cst); | |
2499 | } | |
2500 | ||
8240018b JJ |
2501 | /* Build |
2502 | struct __asan_global | |
2503 | { | |
2504 | const void *__beg; | |
2505 | uptr __size; | |
2506 | uptr __size_with_redzone; | |
2507 | const void *__name; | |
ef1b3fda | 2508 | const void *__module_name; |
8240018b | 2509 | uptr __has_dynamic_init; |
866e32ad | 2510 | __asan_global_source_location *__location; |
fbdb92eb | 2511 | char *__odr_indicator; |
8240018b JJ |
2512 | } type. */ |
2513 | ||
2514 | static tree | |
2515 | asan_global_struct (void) | |
2516 | { | |
84b0769e | 2517 | static const char *field_names[] |
8240018b | 2518 | = { "__beg", "__size", "__size_with_redzone", |
84b0769e MO |
2519 | "__name", "__module_name", "__has_dynamic_init", "__location", |
2520 | "__odr_indicator" }; | |
2521 | tree fields[ARRAY_SIZE (field_names)], ret; | |
2522 | unsigned i; | |
8240018b JJ |
2523 | |
2524 | ret = make_node (RECORD_TYPE); | |
84b0769e | 2525 | for (i = 0; i < ARRAY_SIZE (field_names); i++) |
8240018b JJ |
2526 | { |
2527 | fields[i] | |
2528 | = build_decl (UNKNOWN_LOCATION, FIELD_DECL, | |
2529 | get_identifier (field_names[i]), | |
2530 | (i == 0 || i == 3) ? const_ptr_type_node | |
de5a5fa1 | 2531 | : pointer_sized_int_node); |
8240018b JJ |
2532 | DECL_CONTEXT (fields[i]) = ret; |
2533 | if (i) | |
2534 | DECL_CHAIN (fields[i - 1]) = fields[i]; | |
2535 | } | |
bebcdc67 MP |
2536 | tree type_decl = build_decl (input_location, TYPE_DECL, |
2537 | get_identifier ("__asan_global"), ret); | |
2538 | DECL_IGNORED_P (type_decl) = 1; | |
2539 | DECL_ARTIFICIAL (type_decl) = 1; | |
8240018b | 2540 | TYPE_FIELDS (ret) = fields[0]; |
bebcdc67 MP |
2541 | TYPE_NAME (ret) = type_decl; |
2542 | TYPE_STUB_DECL (ret) = type_decl; | |
8240018b JJ |
2543 | layout_type (ret); |
2544 | return ret; | |
2545 | } | |
2546 | ||
84b0769e MO |
2547 | /* Create and return odr indicator symbol for DECL. |
2548 | TYPE is __asan_global struct type as returned by asan_global_struct. */ | |
2549 | ||
2550 | static tree | |
2551 | create_odr_indicator (tree decl, tree type) | |
2552 | { | |
2553 | char *name; | |
2554 | tree uptr = TREE_TYPE (DECL_CHAIN (TYPE_FIELDS (type))); | |
2555 | tree decl_name | |
2556 | = (HAS_DECL_ASSEMBLER_NAME_P (decl) ? DECL_ASSEMBLER_NAME (decl) | |
2557 | : DECL_NAME (decl)); | |
2558 | /* DECL_NAME theoretically might be NULL. Bail out with 0 in this case. */ | |
2559 | if (decl_name == NULL_TREE) | |
2560 | return build_int_cst (uptr, 0); | |
349884d1 JJ |
2561 | const char *dname = IDENTIFIER_POINTER (decl_name); |
2562 | if (HAS_DECL_ASSEMBLER_NAME_P (decl)) | |
2563 | dname = targetm.strip_name_encoding (dname); | |
2564 | size_t len = strlen (dname) + sizeof ("__odr_asan_"); | |
84b0769e | 2565 | name = XALLOCAVEC (char, len); |
349884d1 | 2566 | snprintf (name, len, "__odr_asan_%s", dname); |
84b0769e MO |
2567 | #ifndef NO_DOT_IN_LABEL |
2568 | name[sizeof ("__odr_asan") - 1] = '.'; | |
2569 | #elif !defined(NO_DOLLAR_IN_LABEL) | |
2570 | name[sizeof ("__odr_asan") - 1] = '$'; | |
2571 | #endif | |
2572 | tree var = build_decl (UNKNOWN_LOCATION, VAR_DECL, get_identifier (name), | |
2573 | char_type_node); | |
2574 | TREE_ADDRESSABLE (var) = 1; | |
2575 | TREE_READONLY (var) = 0; | |
2576 | TREE_THIS_VOLATILE (var) = 1; | |
2577 | DECL_GIMPLE_REG_P (var) = 0; | |
2578 | DECL_ARTIFICIAL (var) = 1; | |
2579 | DECL_IGNORED_P (var) = 1; | |
2580 | TREE_STATIC (var) = 1; | |
2581 | TREE_PUBLIC (var) = 1; | |
2582 | DECL_VISIBILITY (var) = DECL_VISIBILITY (decl); | |
2583 | DECL_VISIBILITY_SPECIFIED (var) = DECL_VISIBILITY_SPECIFIED (decl); | |
2584 | ||
2585 | TREE_USED (var) = 1; | |
2586 | tree ctor = build_constructor_va (TREE_TYPE (var), 1, NULL_TREE, | |
2587 | build_int_cst (unsigned_type_node, 0)); | |
2588 | TREE_CONSTANT (ctor) = 1; | |
2589 | TREE_STATIC (ctor) = 1; | |
2590 | DECL_INITIAL (var) = ctor; | |
2591 | DECL_ATTRIBUTES (var) = tree_cons (get_identifier ("asan odr indicator"), | |
2592 | NULL, DECL_ATTRIBUTES (var)); | |
2593 | make_decl_rtl (var); | |
2594 | varpool_node::finalize_decl (var); | |
2595 | return fold_convert (uptr, build_fold_addr_expr (var)); | |
2596 | } | |
2597 | ||
2598 | /* Return true if DECL, a global var, might be overridden and needs | |
2599 | an additional odr indicator symbol. */ | |
2600 | ||
2601 | static bool | |
2602 | asan_needs_odr_indicator_p (tree decl) | |
2603 | { | |
0acd830b MO |
2604 | /* Don't emit ODR indicators for kernel because: |
2605 | a) Kernel is written in C thus doesn't need ODR indicators. | |
2606 | b) Some kernel code may have assumptions about symbols containing specific | |
2607 | patterns in their names. Since ODR indicators contain original names | |
2608 | of symbols they are emitted for, these assumptions would be broken for | |
2609 | ODR indicator symbols. */ | |
2610 | return (!(flag_sanitize & SANITIZE_KERNEL_ADDRESS) | |
2611 | && !DECL_ARTIFICIAL (decl) | |
2612 | && !DECL_WEAK (decl) | |
2613 | && TREE_PUBLIC (decl)); | |
84b0769e MO |
2614 | } |
2615 | ||
8240018b JJ |
2616 | /* Append description of a single global DECL into vector V. |
2617 | TYPE is __asan_global struct type as returned by asan_global_struct. */ | |
2618 | ||
2619 | static void | |
9771b263 | 2620 | asan_add_global (tree decl, tree type, vec<constructor_elt, va_gc> *v) |
8240018b JJ |
2621 | { |
2622 | tree init, uptr = TREE_TYPE (DECL_CHAIN (TYPE_FIELDS (type))); | |
2623 | unsigned HOST_WIDE_INT size; | |
ef1b3fda | 2624 | tree str_cst, module_name_cst, refdecl = decl; |
9771b263 | 2625 | vec<constructor_elt, va_gc> *vinner = NULL; |
8240018b | 2626 | |
ef1b3fda | 2627 | pretty_printer asan_pp, module_name_pp; |
8240018b | 2628 | |
8240018b | 2629 | if (DECL_NAME (decl)) |
b066401f | 2630 | pp_tree_identifier (&asan_pp, DECL_NAME (decl)); |
8240018b JJ |
2631 | else |
2632 | pp_string (&asan_pp, "<unknown>"); | |
11a877b3 | 2633 | str_cst = asan_pp_string (&asan_pp); |
8240018b | 2634 | |
f1860ba9 | 2635 | pp_string (&module_name_pp, main_input_filename); |
ef1b3fda KS |
2636 | module_name_cst = asan_pp_string (&module_name_pp); |
2637 | ||
8240018b JJ |
2638 | if (asan_needs_local_alias (decl)) |
2639 | { | |
2640 | char buf[20]; | |
9771b263 | 2641 | ASM_GENERATE_INTERNAL_LABEL (buf, "LASAN", vec_safe_length (v) + 1); |
8240018b JJ |
2642 | refdecl = build_decl (DECL_SOURCE_LOCATION (decl), |
2643 | VAR_DECL, get_identifier (buf), TREE_TYPE (decl)); | |
2644 | TREE_ADDRESSABLE (refdecl) = TREE_ADDRESSABLE (decl); | |
2645 | TREE_READONLY (refdecl) = TREE_READONLY (decl); | |
2646 | TREE_THIS_VOLATILE (refdecl) = TREE_THIS_VOLATILE (decl); | |
2647 | DECL_GIMPLE_REG_P (refdecl) = DECL_GIMPLE_REG_P (decl); | |
2648 | DECL_ARTIFICIAL (refdecl) = DECL_ARTIFICIAL (decl); | |
2649 | DECL_IGNORED_P (refdecl) = DECL_IGNORED_P (decl); | |
2650 | TREE_STATIC (refdecl) = 1; | |
2651 | TREE_PUBLIC (refdecl) = 0; | |
2652 | TREE_USED (refdecl) = 1; | |
2653 | assemble_alias (refdecl, DECL_ASSEMBLER_NAME (decl)); | |
2654 | } | |
2655 | ||
84b0769e MO |
2656 | tree odr_indicator_ptr |
2657 | = (asan_needs_odr_indicator_p (decl) ? create_odr_indicator (decl, type) | |
2658 | : build_int_cst (uptr, 0)); | |
8240018b JJ |
2659 | CONSTRUCTOR_APPEND_ELT (vinner, NULL_TREE, |
2660 | fold_convert (const_ptr_type_node, | |
2661 | build_fold_addr_expr (refdecl))); | |
ae7e9ddd | 2662 | size = tree_to_uhwi (DECL_SIZE_UNIT (decl)); |
8240018b JJ |
2663 | CONSTRUCTOR_APPEND_ELT (vinner, NULL_TREE, build_int_cst (uptr, size)); |
2664 | size += asan_red_zone_size (size); | |
2665 | CONSTRUCTOR_APPEND_ELT (vinner, NULL_TREE, build_int_cst (uptr, size)); | |
2666 | CONSTRUCTOR_APPEND_ELT (vinner, NULL_TREE, | |
2667 | fold_convert (const_ptr_type_node, str_cst)); | |
ef1b3fda KS |
2668 | CONSTRUCTOR_APPEND_ELT (vinner, NULL_TREE, |
2669 | fold_convert (const_ptr_type_node, module_name_cst)); | |
9041d2e6 | 2670 | varpool_node *vnode = varpool_node::get (decl); |
f1860ba9 MO |
2671 | int has_dynamic_init = 0; |
2672 | /* FIXME: Enable initialization order fiasco detection in LTO mode once | |
2673 | proper fix for PR 79061 will be applied. */ | |
2674 | if (!in_lto_p) | |
2675 | has_dynamic_init = vnode ? vnode->dynamically_initialized : 0; | |
59b36ecf JJ |
2676 | CONSTRUCTOR_APPEND_ELT (vinner, NULL_TREE, |
2677 | build_int_cst (uptr, has_dynamic_init)); | |
21a82048 JJ |
2678 | tree locptr = NULL_TREE; |
2679 | location_t loc = DECL_SOURCE_LOCATION (decl); | |
2680 | expanded_location xloc = expand_location (loc); | |
2681 | if (xloc.file != NULL) | |
2682 | { | |
2683 | static int lasanloccnt = 0; | |
2684 | char buf[25]; | |
2685 | ASM_GENERATE_INTERNAL_LABEL (buf, "LASANLOC", ++lasanloccnt); | |
2686 | tree var = build_decl (UNKNOWN_LOCATION, VAR_DECL, get_identifier (buf), | |
2687 | ubsan_get_source_location_type ()); | |
2688 | TREE_STATIC (var) = 1; | |
2689 | TREE_PUBLIC (var) = 0; | |
2690 | DECL_ARTIFICIAL (var) = 1; | |
2691 | DECL_IGNORED_P (var) = 1; | |
2692 | pretty_printer filename_pp; | |
2693 | pp_string (&filename_pp, xloc.file); | |
2694 | tree str = asan_pp_string (&filename_pp); | |
2695 | tree ctor = build_constructor_va (TREE_TYPE (var), 3, | |
2696 | NULL_TREE, str, NULL_TREE, | |
2697 | build_int_cst (unsigned_type_node, | |
2698 | xloc.line), NULL_TREE, | |
2699 | build_int_cst (unsigned_type_node, | |
2700 | xloc.column)); | |
2701 | TREE_CONSTANT (ctor) = 1; | |
2702 | TREE_STATIC (ctor) = 1; | |
2703 | DECL_INITIAL (var) = ctor; | |
2704 | varpool_node::finalize_decl (var); | |
2705 | locptr = fold_convert (uptr, build_fold_addr_expr (var)); | |
2706 | } | |
2707 | else | |
2708 | locptr = build_int_cst (uptr, 0); | |
2709 | CONSTRUCTOR_APPEND_ELT (vinner, NULL_TREE, locptr); | |
84b0769e | 2710 | CONSTRUCTOR_APPEND_ELT (vinner, NULL_TREE, odr_indicator_ptr); |
8240018b JJ |
2711 | init = build_constructor (type, vinner); |
2712 | CONSTRUCTOR_APPEND_ELT (v, NULL_TREE, init); | |
2713 | } | |
2714 | ||
0e668eaf JJ |
2715 | /* Initialize sanitizer.def builtins if the FE hasn't initialized them. */ |
2716 | void | |
2717 | initialize_sanitizer_builtins (void) | |
2718 | { | |
2719 | tree decl; | |
2720 | ||
2721 | if (builtin_decl_implicit_p (BUILT_IN_ASAN_INIT)) | |
2722 | return; | |
2723 | ||
2724 | tree BT_FN_VOID = build_function_type_list (void_type_node, NULL_TREE); | |
2725 | tree BT_FN_VOID_PTR | |
2726 | = build_function_type_list (void_type_node, ptr_type_node, NULL_TREE); | |
59b36ecf JJ |
2727 | tree BT_FN_VOID_CONST_PTR |
2728 | = build_function_type_list (void_type_node, const_ptr_type_node, NULL_TREE); | |
b906f4ca MP |
2729 | tree BT_FN_VOID_PTR_PTR |
2730 | = build_function_type_list (void_type_node, ptr_type_node, | |
2731 | ptr_type_node, NULL_TREE); | |
de5a5fa1 MP |
2732 | tree BT_FN_VOID_PTR_PTR_PTR |
2733 | = build_function_type_list (void_type_node, ptr_type_node, | |
2734 | ptr_type_node, ptr_type_node, NULL_TREE); | |
0e668eaf JJ |
2735 | tree BT_FN_VOID_PTR_PTRMODE |
2736 | = build_function_type_list (void_type_node, ptr_type_node, | |
de5a5fa1 | 2737 | pointer_sized_int_node, NULL_TREE); |
c954bddd JJ |
2738 | tree BT_FN_VOID_INT |
2739 | = build_function_type_list (void_type_node, integer_type_node, NULL_TREE); | |
0bae64d5 MP |
2740 | tree BT_FN_SIZE_CONST_PTR_INT |
2741 | = build_function_type_list (size_type_node, const_ptr_type_node, | |
2742 | integer_type_node, NULL_TREE); | |
f6e50a7d WW |
2743 | |
2744 | tree BT_FN_VOID_UINT8_UINT8 | |
2745 | = build_function_type_list (void_type_node, unsigned_char_type_node, | |
2746 | unsigned_char_type_node, NULL_TREE); | |
2747 | tree BT_FN_VOID_UINT16_UINT16 | |
2748 | = build_function_type_list (void_type_node, uint16_type_node, | |
2749 | uint16_type_node, NULL_TREE); | |
2750 | tree BT_FN_VOID_UINT32_UINT32 | |
2751 | = build_function_type_list (void_type_node, uint32_type_node, | |
2752 | uint32_type_node, NULL_TREE); | |
2753 | tree BT_FN_VOID_UINT64_UINT64 | |
2754 | = build_function_type_list (void_type_node, uint64_type_node, | |
2755 | uint64_type_node, NULL_TREE); | |
2756 | tree BT_FN_VOID_FLOAT_FLOAT | |
2757 | = build_function_type_list (void_type_node, float_type_node, | |
2758 | float_type_node, NULL_TREE); | |
2759 | tree BT_FN_VOID_DOUBLE_DOUBLE | |
2760 | = build_function_type_list (void_type_node, double_type_node, | |
2761 | double_type_node, NULL_TREE); | |
2762 | tree BT_FN_VOID_UINT64_PTR | |
2763 | = build_function_type_list (void_type_node, uint64_type_node, | |
2764 | ptr_type_node, NULL_TREE); | |
2765 | ||
c954bddd JJ |
2766 | tree BT_FN_BOOL_VPTR_PTR_IX_INT_INT[5]; |
2767 | tree BT_FN_IX_CONST_VPTR_INT[5]; | |
2768 | tree BT_FN_IX_VPTR_IX_INT[5]; | |
2769 | tree BT_FN_VOID_VPTR_IX_INT[5]; | |
2770 | tree vptr | |
2771 | = build_pointer_type (build_qualified_type (void_type_node, | |
2772 | TYPE_QUAL_VOLATILE)); | |
2773 | tree cvptr | |
2774 | = build_pointer_type (build_qualified_type (void_type_node, | |
2775 | TYPE_QUAL_VOLATILE | |
2776 | |TYPE_QUAL_CONST)); | |
2777 | tree boolt | |
2778 | = lang_hooks.types.type_for_size (BOOL_TYPE_SIZE, 1); | |
2779 | int i; | |
2780 | for (i = 0; i < 5; i++) | |
2781 | { | |
2782 | tree ix = build_nonstandard_integer_type (BITS_PER_UNIT * (1 << i), 1); | |
2783 | BT_FN_BOOL_VPTR_PTR_IX_INT_INT[i] | |
2784 | = build_function_type_list (boolt, vptr, ptr_type_node, ix, | |
2785 | integer_type_node, integer_type_node, | |
2786 | NULL_TREE); | |
2787 | BT_FN_IX_CONST_VPTR_INT[i] | |
2788 | = build_function_type_list (ix, cvptr, integer_type_node, NULL_TREE); | |
2789 | BT_FN_IX_VPTR_IX_INT[i] | |
2790 | = build_function_type_list (ix, vptr, ix, integer_type_node, | |
2791 | NULL_TREE); | |
2792 | BT_FN_VOID_VPTR_IX_INT[i] | |
2793 | = build_function_type_list (void_type_node, vptr, ix, | |
2794 | integer_type_node, NULL_TREE); | |
2795 | } | |
2796 | #define BT_FN_BOOL_VPTR_PTR_I1_INT_INT BT_FN_BOOL_VPTR_PTR_IX_INT_INT[0] | |
2797 | #define BT_FN_I1_CONST_VPTR_INT BT_FN_IX_CONST_VPTR_INT[0] | |
2798 | #define BT_FN_I1_VPTR_I1_INT BT_FN_IX_VPTR_IX_INT[0] | |
2799 | #define BT_FN_VOID_VPTR_I1_INT BT_FN_VOID_VPTR_IX_INT[0] | |
2800 | #define BT_FN_BOOL_VPTR_PTR_I2_INT_INT BT_FN_BOOL_VPTR_PTR_IX_INT_INT[1] | |
2801 | #define BT_FN_I2_CONST_VPTR_INT BT_FN_IX_CONST_VPTR_INT[1] | |
2802 | #define BT_FN_I2_VPTR_I2_INT BT_FN_IX_VPTR_IX_INT[1] | |
2803 | #define BT_FN_VOID_VPTR_I2_INT BT_FN_VOID_VPTR_IX_INT[1] | |
2804 | #define BT_FN_BOOL_VPTR_PTR_I4_INT_INT BT_FN_BOOL_VPTR_PTR_IX_INT_INT[2] | |
2805 | #define BT_FN_I4_CONST_VPTR_INT BT_FN_IX_CONST_VPTR_INT[2] | |
2806 | #define BT_FN_I4_VPTR_I4_INT BT_FN_IX_VPTR_IX_INT[2] | |
2807 | #define BT_FN_VOID_VPTR_I4_INT BT_FN_VOID_VPTR_IX_INT[2] | |
2808 | #define BT_FN_BOOL_VPTR_PTR_I8_INT_INT BT_FN_BOOL_VPTR_PTR_IX_INT_INT[3] | |
2809 | #define BT_FN_I8_CONST_VPTR_INT BT_FN_IX_CONST_VPTR_INT[3] | |
2810 | #define BT_FN_I8_VPTR_I8_INT BT_FN_IX_VPTR_IX_INT[3] | |
2811 | #define BT_FN_VOID_VPTR_I8_INT BT_FN_VOID_VPTR_IX_INT[3] | |
2812 | #define BT_FN_BOOL_VPTR_PTR_I16_INT_INT BT_FN_BOOL_VPTR_PTR_IX_INT_INT[4] | |
2813 | #define BT_FN_I16_CONST_VPTR_INT BT_FN_IX_CONST_VPTR_INT[4] | |
2814 | #define BT_FN_I16_VPTR_I16_INT BT_FN_IX_VPTR_IX_INT[4] | |
2815 | #define BT_FN_VOID_VPTR_I16_INT BT_FN_VOID_VPTR_IX_INT[4] | |
0e668eaf JJ |
2816 | #undef ATTR_NOTHROW_LEAF_LIST |
2817 | #define ATTR_NOTHROW_LEAF_LIST ECF_NOTHROW | ECF_LEAF | |
bc77608b JJ |
2818 | #undef ATTR_TMPURE_NOTHROW_LEAF_LIST |
2819 | #define ATTR_TMPURE_NOTHROW_LEAF_LIST ECF_TM_PURE | ATTR_NOTHROW_LEAF_LIST | |
0e668eaf JJ |
2820 | #undef ATTR_NORETURN_NOTHROW_LEAF_LIST |
2821 | #define ATTR_NORETURN_NOTHROW_LEAF_LIST ECF_NORETURN | ATTR_NOTHROW_LEAF_LIST | |
4088b790 MP |
2822 | #undef ATTR_CONST_NORETURN_NOTHROW_LEAF_LIST |
2823 | #define ATTR_CONST_NORETURN_NOTHROW_LEAF_LIST \ | |
2824 | ECF_CONST | ATTR_NORETURN_NOTHROW_LEAF_LIST | |
bc77608b JJ |
2825 | #undef ATTR_TMPURE_NORETURN_NOTHROW_LEAF_LIST |
2826 | #define ATTR_TMPURE_NORETURN_NOTHROW_LEAF_LIST \ | |
2827 | ECF_TM_PURE | ATTR_NORETURN_NOTHROW_LEAF_LIST | |
de5a5fa1 MP |
2828 | #undef ATTR_COLD_NOTHROW_LEAF_LIST |
2829 | #define ATTR_COLD_NOTHROW_LEAF_LIST \ | |
2830 | /* ECF_COLD missing */ ATTR_NOTHROW_LEAF_LIST | |
2831 | #undef ATTR_COLD_NORETURN_NOTHROW_LEAF_LIST | |
2832 | #define ATTR_COLD_NORETURN_NOTHROW_LEAF_LIST \ | |
2833 | /* ECF_COLD missing */ ATTR_NORETURN_NOTHROW_LEAF_LIST | |
4088b790 MP |
2834 | #undef ATTR_COLD_CONST_NORETURN_NOTHROW_LEAF_LIST |
2835 | #define ATTR_COLD_CONST_NORETURN_NOTHROW_LEAF_LIST \ | |
2836 | /* ECF_COLD missing */ ATTR_CONST_NORETURN_NOTHROW_LEAF_LIST | |
0bae64d5 MP |
2837 | #undef ATTR_PURE_NOTHROW_LEAF_LIST |
2838 | #define ATTR_PURE_NOTHROW_LEAF_LIST ECF_PURE | ATTR_NOTHROW_LEAF_LIST | |
8f91e6e0 JJ |
2839 | #undef DEF_BUILTIN_STUB |
2840 | #define DEF_BUILTIN_STUB(ENUM, NAME) | |
67c6769b TV |
2841 | #undef DEF_SANITIZER_BUILTIN_1 |
2842 | #define DEF_SANITIZER_BUILTIN_1(ENUM, NAME, TYPE, ATTRS) \ | |
a74560eb MP |
2843 | do { \ |
2844 | decl = add_builtin_function ("__builtin_" NAME, TYPE, ENUM, \ | |
2845 | BUILT_IN_NORMAL, NAME, NULL_TREE); \ | |
2846 | set_call_expr_flags (decl, ATTRS); \ | |
2847 | set_builtin_decl (ENUM, decl, true); \ | |
67c6769b TV |
2848 | } while (0) |
2849 | #undef DEF_SANITIZER_BUILTIN | |
2850 | #define DEF_SANITIZER_BUILTIN(ENUM, NAME, TYPE, ATTRS) \ | |
2851 | DEF_SANITIZER_BUILTIN_1 (ENUM, NAME, TYPE, ATTRS); | |
0e668eaf JJ |
2852 | |
2853 | #include "sanitizer.def" | |
2854 | ||
0bae64d5 MP |
2855 | /* -fsanitize=object-size uses __builtin_object_size, but that might |
2856 | not be available for e.g. Fortran at this point. We use | |
2857 | DEF_SANITIZER_BUILTIN here only as a convenience macro. */ | |
2858 | if ((flag_sanitize & SANITIZE_OBJECT_SIZE) | |
2859 | && !builtin_decl_implicit_p (BUILT_IN_OBJECT_SIZE)) | |
67c6769b TV |
2860 | DEF_SANITIZER_BUILTIN_1 (BUILT_IN_OBJECT_SIZE, "object_size", |
2861 | BT_FN_SIZE_CONST_PTR_INT, | |
2862 | ATTR_PURE_NOTHROW_LEAF_LIST); | |
0bae64d5 | 2863 | |
67c6769b | 2864 | #undef DEF_SANITIZER_BUILTIN_1 |
0e668eaf | 2865 | #undef DEF_SANITIZER_BUILTIN |
8f91e6e0 | 2866 | #undef DEF_BUILTIN_STUB |
0e668eaf JJ |
2867 | } |
2868 | ||
94fce891 JJ |
2869 | /* Called via htab_traverse. Count number of emitted |
2870 | STRING_CSTs in the constant hash table. */ | |
2871 | ||
2a22f99c TS |
2872 | int |
2873 | count_string_csts (constant_descriptor_tree **slot, | |
2874 | unsigned HOST_WIDE_INT *data) | |
94fce891 | 2875 | { |
2a22f99c | 2876 | struct constant_descriptor_tree *desc = *slot; |
94fce891 JJ |
2877 | if (TREE_CODE (desc->value) == STRING_CST |
2878 | && TREE_ASM_WRITTEN (desc->value) | |
2879 | && asan_protect_global (desc->value)) | |
2a22f99c | 2880 | ++*data; |
94fce891 JJ |
2881 | return 1; |
2882 | } | |
2883 | ||
2884 | /* Helper structure to pass two parameters to | |
2885 | add_string_csts. */ | |
2886 | ||
2887 | struct asan_add_string_csts_data | |
2888 | { | |
2889 | tree type; | |
2890 | vec<constructor_elt, va_gc> *v; | |
2891 | }; | |
2892 | ||
2a22f99c | 2893 | /* Called via hash_table::traverse. Call asan_add_global |
94fce891 JJ |
2894 | on emitted STRING_CSTs from the constant hash table. */ |
2895 | ||
2a22f99c TS |
2896 | int |
2897 | add_string_csts (constant_descriptor_tree **slot, | |
2898 | asan_add_string_csts_data *aascd) | |
94fce891 | 2899 | { |
2a22f99c | 2900 | struct constant_descriptor_tree *desc = *slot; |
94fce891 JJ |
2901 | if (TREE_CODE (desc->value) == STRING_CST |
2902 | && TREE_ASM_WRITTEN (desc->value) | |
2903 | && asan_protect_global (desc->value)) | |
2904 | { | |
94fce891 JJ |
2905 | asan_add_global (SYMBOL_REF_DECL (XEXP (desc->rtl, 0)), |
2906 | aascd->type, aascd->v); | |
2907 | } | |
2908 | return 1; | |
2909 | } | |
2910 | ||
8240018b JJ |
2911 | /* Needs to be GTY(()), because cgraph_build_static_cdtor may |
2912 | invoke ggc_collect. */ | |
2913 | static GTY(()) tree asan_ctor_statements; | |
2914 | ||
37d6f666 | 2915 | /* Module-level instrumentation. |
ef1b3fda | 2916 | - Insert __asan_init_vN() into the list of CTORs. |
37d6f666 WM |
2917 | - TODO: insert redzones around globals. |
2918 | */ | |
2919 | ||
2920 | void | |
2921 | asan_finish_file (void) | |
2922 | { | |
2c8326a5 | 2923 | varpool_node *vnode; |
8240018b JJ |
2924 | unsigned HOST_WIDE_INT gcount = 0; |
2925 | ||
94fce891 JJ |
2926 | if (shadow_ptr_types[0] == NULL_TREE) |
2927 | asan_init_shadow_ptr_types (); | |
2928 | /* Avoid instrumenting code in the asan ctors/dtors. | |
2929 | We don't need to insert padding after the description strings, | |
2930 | nor after .LASAN* array. */ | |
de5a5fa1 | 2931 | flag_sanitize &= ~SANITIZE_ADDRESS; |
0e668eaf | 2932 | |
f1d15bb9 DV |
2933 | /* For user-space we want asan constructors to run first. |
2934 | Linux kernel does not support priorities other than default, and the only | |
2935 | other user of constructors is coverage. So we run with the default | |
2936 | priority. */ | |
2937 | int priority = flag_sanitize & SANITIZE_USER_ADDRESS | |
2938 | ? MAX_RESERVED_INIT_PRIORITY - 1 : DEFAULT_INIT_PRIORITY; | |
2939 | ||
c6d129b0 YG |
2940 | if (flag_sanitize & SANITIZE_USER_ADDRESS) |
2941 | { | |
2942 | tree fn = builtin_decl_implicit (BUILT_IN_ASAN_INIT); | |
2943 | append_to_statement_list (build_call_expr (fn, 0), &asan_ctor_statements); | |
89e302b8 MO |
2944 | fn = builtin_decl_implicit (BUILT_IN_ASAN_VERSION_MISMATCH_CHECK); |
2945 | append_to_statement_list (build_call_expr (fn, 0), &asan_ctor_statements); | |
c6d129b0 | 2946 | } |
8240018b | 2947 | FOR_EACH_DEFINED_VARIABLE (vnode) |
67348ccc DM |
2948 | if (TREE_ASM_WRITTEN (vnode->decl) |
2949 | && asan_protect_global (vnode->decl)) | |
8240018b | 2950 | ++gcount; |
2a22f99c TS |
2951 | hash_table<tree_descriptor_hasher> *const_desc_htab = constant_pool_htab (); |
2952 | const_desc_htab->traverse<unsigned HOST_WIDE_INT *, count_string_csts> | |
2953 | (&gcount); | |
8240018b JJ |
2954 | if (gcount) |
2955 | { | |
0e668eaf | 2956 | tree type = asan_global_struct (), var, ctor; |
8240018b | 2957 | tree dtor_statements = NULL_TREE; |
9771b263 | 2958 | vec<constructor_elt, va_gc> *v; |
8240018b JJ |
2959 | char buf[20]; |
2960 | ||
2961 | type = build_array_type_nelts (type, gcount); | |
2962 | ASM_GENERATE_INTERNAL_LABEL (buf, "LASAN", 0); | |
2963 | var = build_decl (UNKNOWN_LOCATION, VAR_DECL, get_identifier (buf), | |
2964 | type); | |
2965 | TREE_STATIC (var) = 1; | |
2966 | TREE_PUBLIC (var) = 0; | |
2967 | DECL_ARTIFICIAL (var) = 1; | |
2968 | DECL_IGNORED_P (var) = 1; | |
9771b263 | 2969 | vec_alloc (v, gcount); |
8240018b | 2970 | FOR_EACH_DEFINED_VARIABLE (vnode) |
67348ccc DM |
2971 | if (TREE_ASM_WRITTEN (vnode->decl) |
2972 | && asan_protect_global (vnode->decl)) | |
2973 | asan_add_global (vnode->decl, TREE_TYPE (type), v); | |
94fce891 JJ |
2974 | struct asan_add_string_csts_data aascd; |
2975 | aascd.type = TREE_TYPE (type); | |
2976 | aascd.v = v; | |
2a22f99c TS |
2977 | const_desc_htab->traverse<asan_add_string_csts_data *, add_string_csts> |
2978 | (&aascd); | |
8240018b JJ |
2979 | ctor = build_constructor (type, v); |
2980 | TREE_CONSTANT (ctor) = 1; | |
2981 | TREE_STATIC (ctor) = 1; | |
2982 | DECL_INITIAL (var) = ctor; | |
aa650b64 MO |
2983 | SET_DECL_ALIGN (var, MAX (DECL_ALIGN (var), |
2984 | ASAN_SHADOW_GRANULARITY * BITS_PER_UNIT)); | |
2985 | ||
9041d2e6 | 2986 | varpool_node::finalize_decl (var); |
8240018b | 2987 | |
c6d129b0 | 2988 | tree fn = builtin_decl_implicit (BUILT_IN_ASAN_REGISTER_GLOBALS); |
de5a5fa1 | 2989 | tree gcount_tree = build_int_cst (pointer_sized_int_node, gcount); |
0e668eaf | 2990 | append_to_statement_list (build_call_expr (fn, 2, |
8240018b | 2991 | build_fold_addr_expr (var), |
de5a5fa1 | 2992 | gcount_tree), |
8240018b JJ |
2993 | &asan_ctor_statements); |
2994 | ||
0e668eaf JJ |
2995 | fn = builtin_decl_implicit (BUILT_IN_ASAN_UNREGISTER_GLOBALS); |
2996 | append_to_statement_list (build_call_expr (fn, 2, | |
8240018b | 2997 | build_fold_addr_expr (var), |
de5a5fa1 | 2998 | gcount_tree), |
8240018b | 2999 | &dtor_statements); |
f1d15bb9 | 3000 | cgraph_build_static_cdtor ('D', dtor_statements, priority); |
8240018b | 3001 | } |
c6d129b0 | 3002 | if (asan_ctor_statements) |
f1d15bb9 | 3003 | cgraph_build_static_cdtor ('I', asan_ctor_statements, priority); |
de5a5fa1 | 3004 | flag_sanitize |= SANITIZE_ADDRESS; |
f6d98484 JJ |
3005 | } |
3006 | ||
6dc4a604 ML |
3007 | /* Poison or unpoison (depending on IS_CLOBBER variable) shadow memory based |
3008 | on SHADOW address. Newly added statements will be added to ITER with | |
3009 | given location LOC. We mark SIZE bytes in shadow memory, where | |
3010 | LAST_CHUNK_SIZE is greater than zero in situation where we are at the | |
3011 | end of a variable. */ | |
3012 | ||
3013 | static void | |
3014 | asan_store_shadow_bytes (gimple_stmt_iterator *iter, location_t loc, | |
3015 | tree shadow, | |
3016 | unsigned HOST_WIDE_INT base_addr_offset, | |
3017 | bool is_clobber, unsigned size, | |
3018 | unsigned last_chunk_size) | |
3019 | { | |
3020 | tree shadow_ptr_type; | |
3021 | ||
3022 | switch (size) | |
3023 | { | |
3024 | case 1: | |
3025 | shadow_ptr_type = shadow_ptr_types[0]; | |
3026 | break; | |
3027 | case 2: | |
3028 | shadow_ptr_type = shadow_ptr_types[1]; | |
3029 | break; | |
3030 | case 4: | |
3031 | shadow_ptr_type = shadow_ptr_types[2]; | |
3032 | break; | |
3033 | default: | |
3034 | gcc_unreachable (); | |
3035 | } | |
3036 | ||
3037 | unsigned char c = (char) is_clobber ? ASAN_STACK_MAGIC_USE_AFTER_SCOPE : 0; | |
3038 | unsigned HOST_WIDE_INT val = 0; | |
47a11342 JJ |
3039 | unsigned last_pos = size; |
3040 | if (last_chunk_size && !is_clobber) | |
3041 | last_pos = BYTES_BIG_ENDIAN ? 0 : size - 1; | |
6dc4a604 ML |
3042 | for (unsigned i = 0; i < size; ++i) |
3043 | { | |
3044 | unsigned char shadow_c = c; | |
47a11342 | 3045 | if (i == last_pos) |
6dc4a604 ML |
3046 | shadow_c = last_chunk_size; |
3047 | val |= (unsigned HOST_WIDE_INT) shadow_c << (BITS_PER_UNIT * i); | |
3048 | } | |
3049 | ||
3050 | /* Handle last chunk in unpoisoning. */ | |
3051 | tree magic = build_int_cst (TREE_TYPE (shadow_ptr_type), val); | |
3052 | ||
3053 | tree dest = build2 (MEM_REF, TREE_TYPE (shadow_ptr_type), shadow, | |
3054 | build_int_cst (shadow_ptr_type, base_addr_offset)); | |
3055 | ||
3056 | gimple *g = gimple_build_assign (dest, magic); | |
3057 | gimple_set_location (g, loc); | |
3058 | gsi_insert_after (iter, g, GSI_NEW_STMT); | |
3059 | } | |
3060 | ||
3061 | /* Expand the ASAN_MARK builtins. */ | |
3062 | ||
3063 | bool | |
3064 | asan_expand_mark_ifn (gimple_stmt_iterator *iter) | |
3065 | { | |
3066 | gimple *g = gsi_stmt (*iter); | |
3067 | location_t loc = gimple_location (g); | |
56b7aede ML |
3068 | HOST_WIDE_INT flag = tree_to_shwi (gimple_call_arg (g, 0)); |
3069 | bool is_poison = ((asan_mark_flags)flag) == ASAN_MARK_POISON; | |
6dc4a604 ML |
3070 | |
3071 | tree base = gimple_call_arg (g, 1); | |
3072 | gcc_checking_assert (TREE_CODE (base) == ADDR_EXPR); | |
3073 | tree decl = TREE_OPERAND (base, 0); | |
fb61d96c ML |
3074 | |
3075 | /* For a nested function, we can have: ASAN_MARK (2, &FRAME.2.fp_input, 4) */ | |
3076 | if (TREE_CODE (decl) == COMPONENT_REF | |
3077 | && DECL_NONLOCAL_FRAME (TREE_OPERAND (decl, 0))) | |
3078 | decl = TREE_OPERAND (decl, 0); | |
3079 | ||
6dc4a604 | 3080 | gcc_checking_assert (TREE_CODE (decl) == VAR_DECL); |
7b972538 ML |
3081 | |
3082 | if (is_poison) | |
3083 | { | |
3084 | if (asan_handled_variables == NULL) | |
3085 | asan_handled_variables = new hash_set<tree> (16); | |
3086 | asan_handled_variables->add (decl); | |
3087 | } | |
6dc4a604 ML |
3088 | tree len = gimple_call_arg (g, 2); |
3089 | ||
3090 | gcc_assert (tree_fits_shwi_p (len)); | |
3091 | unsigned HOST_WIDE_INT size_in_bytes = tree_to_shwi (len); | |
3092 | gcc_assert (size_in_bytes); | |
3093 | ||
3094 | g = gimple_build_assign (make_ssa_name (pointer_sized_int_node), | |
3095 | NOP_EXPR, base); | |
3096 | gimple_set_location (g, loc); | |
3097 | gsi_replace (iter, g, false); | |
3098 | tree base_addr = gimple_assign_lhs (g); | |
3099 | ||
3100 | /* Generate direct emission if size_in_bytes is small. */ | |
3101 | if (size_in_bytes <= ASAN_PARAM_USE_AFTER_SCOPE_DIRECT_EMISSION_THRESHOLD) | |
3102 | { | |
3103 | unsigned HOST_WIDE_INT shadow_size = shadow_mem_size (size_in_bytes); | |
3104 | ||
3105 | tree shadow = build_shadow_mem_access (iter, loc, base_addr, | |
3106 | shadow_ptr_types[0], true); | |
3107 | ||
3108 | for (unsigned HOST_WIDE_INT offset = 0; offset < shadow_size;) | |
3109 | { | |
3110 | unsigned size = 1; | |
3111 | if (shadow_size - offset >= 4) | |
3112 | size = 4; | |
3113 | else if (shadow_size - offset >= 2) | |
3114 | size = 2; | |
3115 | ||
3116 | unsigned HOST_WIDE_INT last_chunk_size = 0; | |
3117 | unsigned HOST_WIDE_INT s = (offset + size) * ASAN_SHADOW_GRANULARITY; | |
3118 | if (s > size_in_bytes) | |
3119 | last_chunk_size = ASAN_SHADOW_GRANULARITY - (s - size_in_bytes); | |
3120 | ||
56b7aede | 3121 | asan_store_shadow_bytes (iter, loc, shadow, offset, is_poison, |
6dc4a604 ML |
3122 | size, last_chunk_size); |
3123 | offset += size; | |
3124 | } | |
3125 | } | |
3126 | else | |
3127 | { | |
3128 | g = gimple_build_assign (make_ssa_name (pointer_sized_int_node), | |
3129 | NOP_EXPR, len); | |
3130 | gimple_set_location (g, loc); | |
3131 | gsi_insert_before (iter, g, GSI_SAME_STMT); | |
3132 | tree sz_arg = gimple_assign_lhs (g); | |
3133 | ||
5594a028 ML |
3134 | tree fun |
3135 | = builtin_decl_implicit (is_poison ? BUILT_IN_ASAN_POISON_STACK_MEMORY | |
3136 | : BUILT_IN_ASAN_UNPOISON_STACK_MEMORY); | |
6dc4a604 ML |
3137 | g = gimple_build_call (fun, 2, base_addr, sz_arg); |
3138 | gimple_set_location (g, loc); | |
3139 | gsi_insert_after (iter, g, GSI_NEW_STMT); | |
3140 | } | |
3141 | ||
3142 | return false; | |
3143 | } | |
3144 | ||
c62ccb9a YG |
3145 | /* Expand the ASAN_{LOAD,STORE} builtins. */ |
3146 | ||
06cefae9 | 3147 | bool |
c62ccb9a YG |
3148 | asan_expand_check_ifn (gimple_stmt_iterator *iter, bool use_calls) |
3149 | { | |
355fe088 | 3150 | gimple *g = gsi_stmt (*iter); |
c62ccb9a | 3151 | location_t loc = gimple_location (g); |
b59e2a49 MO |
3152 | bool recover_p; |
3153 | if (flag_sanitize & SANITIZE_USER_ADDRESS) | |
3154 | recover_p = (flag_sanitize_recover & SANITIZE_USER_ADDRESS) != 0; | |
3155 | else | |
3156 | recover_p = (flag_sanitize_recover & SANITIZE_KERNEL_ADDRESS) != 0; | |
fed4de37 | 3157 | |
c62ccb9a YG |
3158 | HOST_WIDE_INT flags = tree_to_shwi (gimple_call_arg (g, 0)); |
3159 | gcc_assert (flags < ASAN_CHECK_LAST); | |
3160 | bool is_scalar_access = (flags & ASAN_CHECK_SCALAR_ACCESS) != 0; | |
3161 | bool is_store = (flags & ASAN_CHECK_STORE) != 0; | |
3162 | bool is_non_zero_len = (flags & ASAN_CHECK_NON_ZERO_LEN) != 0; | |
c62ccb9a YG |
3163 | |
3164 | tree base = gimple_call_arg (g, 1); | |
3165 | tree len = gimple_call_arg (g, 2); | |
f434eb69 | 3166 | HOST_WIDE_INT align = tree_to_shwi (gimple_call_arg (g, 3)); |
c62ccb9a YG |
3167 | |
3168 | HOST_WIDE_INT size_in_bytes | |
3169 | = is_scalar_access && tree_fits_shwi_p (len) ? tree_to_shwi (len) : -1; | |
3170 | ||
3171 | if (use_calls) | |
3172 | { | |
3173 | /* Instrument using callbacks. */ | |
355fe088 | 3174 | gimple *g = gimple_build_assign (make_ssa_name (pointer_sized_int_node), |
0d0e4a03 | 3175 | NOP_EXPR, base); |
c62ccb9a YG |
3176 | gimple_set_location (g, loc); |
3177 | gsi_insert_before (iter, g, GSI_SAME_STMT); | |
3178 | tree base_addr = gimple_assign_lhs (g); | |
3179 | ||
3180 | int nargs; | |
fed4de37 | 3181 | tree fun = check_func (is_store, recover_p, size_in_bytes, &nargs); |
c62ccb9a YG |
3182 | if (nargs == 1) |
3183 | g = gimple_build_call (fun, 1, base_addr); | |
3184 | else | |
3185 | { | |
3186 | gcc_assert (nargs == 2); | |
0d0e4a03 JJ |
3187 | g = gimple_build_assign (make_ssa_name (pointer_sized_int_node), |
3188 | NOP_EXPR, len); | |
c62ccb9a YG |
3189 | gimple_set_location (g, loc); |
3190 | gsi_insert_before (iter, g, GSI_SAME_STMT); | |
3191 | tree sz_arg = gimple_assign_lhs (g); | |
3192 | g = gimple_build_call (fun, nargs, base_addr, sz_arg); | |
3193 | } | |
3194 | gimple_set_location (g, loc); | |
3195 | gsi_replace (iter, g, false); | |
3196 | return false; | |
3197 | } | |
3198 | ||
3199 | HOST_WIDE_INT real_size_in_bytes = size_in_bytes == -1 ? 1 : size_in_bytes; | |
3200 | ||
c62ccb9a YG |
3201 | tree shadow_ptr_type = shadow_ptr_types[real_size_in_bytes == 16 ? 1 : 0]; |
3202 | tree shadow_type = TREE_TYPE (shadow_ptr_type); | |
3203 | ||
3204 | gimple_stmt_iterator gsi = *iter; | |
3205 | ||
3206 | if (!is_non_zero_len) | |
3207 | { | |
3208 | /* So, the length of the memory area to asan-protect is | |
3209 | non-constant. Let's guard the generated instrumentation code | |
3210 | like: | |
3211 | ||
3212 | if (len != 0) | |
3213 | { | |
3214 | //asan instrumentation code goes here. | |
3215 | } | |
3216 | // falltrough instructions, starting with *ITER. */ | |
3217 | ||
3218 | g = gimple_build_cond (NE_EXPR, | |
3219 | len, | |
3220 | build_int_cst (TREE_TYPE (len), 0), | |
3221 | NULL_TREE, NULL_TREE); | |
3222 | gimple_set_location (g, loc); | |
3223 | ||
3224 | basic_block then_bb, fallthrough_bb; | |
538dd0b7 DM |
3225 | insert_if_then_before_iter (as_a <gcond *> (g), iter, |
3226 | /*then_more_likely_p=*/true, | |
3227 | &then_bb, &fallthrough_bb); | |
c62ccb9a YG |
3228 | /* Note that fallthrough_bb starts with the statement that was |
3229 | pointed to by ITER. */ | |
3230 | ||
3231 | /* The 'then block' of the 'if (len != 0) condition is where | |
3232 | we'll generate the asan instrumentation code now. */ | |
3233 | gsi = gsi_last_bb (then_bb); | |
3234 | } | |
3235 | ||
3236 | /* Get an iterator on the point where we can add the condition | |
3237 | statement for the instrumentation. */ | |
3238 | basic_block then_bb, else_bb; | |
3239 | gsi = create_cond_insert_point (&gsi, /*before_p*/false, | |
3240 | /*then_more_likely_p=*/false, | |
fed4de37 | 3241 | /*create_then_fallthru_edge*/recover_p, |
c62ccb9a YG |
3242 | &then_bb, |
3243 | &else_bb); | |
3244 | ||
0d0e4a03 JJ |
3245 | g = gimple_build_assign (make_ssa_name (pointer_sized_int_node), |
3246 | NOP_EXPR, base); | |
c62ccb9a YG |
3247 | gimple_set_location (g, loc); |
3248 | gsi_insert_before (&gsi, g, GSI_NEW_STMT); | |
3249 | tree base_addr = gimple_assign_lhs (g); | |
3250 | ||
3251 | tree t = NULL_TREE; | |
3252 | if (real_size_in_bytes >= 8) | |
3253 | { | |
3254 | tree shadow = build_shadow_mem_access (&gsi, loc, base_addr, | |
3255 | shadow_ptr_type); | |
3256 | t = shadow; | |
3257 | } | |
3258 | else | |
3259 | { | |
3260 | /* Slow path for 1, 2 and 4 byte accesses. */ | |
bdea98ca MO |
3261 | /* Test (shadow != 0) |
3262 | & ((base_addr & 7) + (real_size_in_bytes - 1)) >= shadow). */ | |
3263 | tree shadow = build_shadow_mem_access (&gsi, loc, base_addr, | |
3264 | shadow_ptr_type); | |
355fe088 | 3265 | gimple *shadow_test = build_assign (NE_EXPR, shadow, 0); |
bdea98ca MO |
3266 | gimple_seq seq = NULL; |
3267 | gimple_seq_add_stmt (&seq, shadow_test); | |
3268 | /* Aligned (>= 8 bytes) can test just | |
3269 | (real_size_in_bytes - 1 >= shadow), as base_addr & 7 is known | |
3270 | to be 0. */ | |
3271 | if (align < 8) | |
c62ccb9a | 3272 | { |
bdea98ca MO |
3273 | gimple_seq_add_stmt (&seq, build_assign (BIT_AND_EXPR, |
3274 | base_addr, 7)); | |
3275 | gimple_seq_add_stmt (&seq, | |
3276 | build_type_cast (shadow_type, | |
3277 | gimple_seq_last (seq))); | |
3278 | if (real_size_in_bytes > 1) | |
3279 | gimple_seq_add_stmt (&seq, | |
3280 | build_assign (PLUS_EXPR, | |
3281 | gimple_seq_last (seq), | |
3282 | real_size_in_bytes - 1)); | |
3283 | t = gimple_assign_lhs (gimple_seq_last_stmt (seq)); | |
c62ccb9a | 3284 | } |
bdea98ca MO |
3285 | else |
3286 | t = build_int_cst (shadow_type, real_size_in_bytes - 1); | |
3287 | gimple_seq_add_stmt (&seq, build_assign (GE_EXPR, t, shadow)); | |
3288 | gimple_seq_add_stmt (&seq, build_assign (BIT_AND_EXPR, shadow_test, | |
3289 | gimple_seq_last (seq))); | |
3290 | t = gimple_assign_lhs (gimple_seq_last (seq)); | |
3291 | gimple_seq_set_location (seq, loc); | |
3292 | gsi_insert_seq_after (&gsi, seq, GSI_CONTINUE_LINKING); | |
c62ccb9a YG |
3293 | |
3294 | /* For non-constant, misaligned or otherwise weird access sizes, | |
bdea98ca MO |
3295 | check first and last byte. */ |
3296 | if (size_in_bytes == -1) | |
c62ccb9a | 3297 | { |
0d0e4a03 JJ |
3298 | g = gimple_build_assign (make_ssa_name (pointer_sized_int_node), |
3299 | MINUS_EXPR, len, | |
3300 | build_int_cst (pointer_sized_int_node, 1)); | |
c62ccb9a YG |
3301 | gimple_set_location (g, loc); |
3302 | gsi_insert_after (&gsi, g, GSI_NEW_STMT); | |
3303 | tree last = gimple_assign_lhs (g); | |
0d0e4a03 JJ |
3304 | g = gimple_build_assign (make_ssa_name (pointer_sized_int_node), |
3305 | PLUS_EXPR, base_addr, last); | |
c62ccb9a YG |
3306 | gimple_set_location (g, loc); |
3307 | gsi_insert_after (&gsi, g, GSI_NEW_STMT); | |
3308 | tree base_end_addr = gimple_assign_lhs (g); | |
3309 | ||
3310 | tree shadow = build_shadow_mem_access (&gsi, loc, base_end_addr, | |
3311 | shadow_ptr_type); | |
355fe088 | 3312 | gimple *shadow_test = build_assign (NE_EXPR, shadow, 0); |
c62ccb9a YG |
3313 | gimple_seq seq = NULL; |
3314 | gimple_seq_add_stmt (&seq, shadow_test); | |
3315 | gimple_seq_add_stmt (&seq, build_assign (BIT_AND_EXPR, | |
3316 | base_end_addr, 7)); | |
3317 | gimple_seq_add_stmt (&seq, build_type_cast (shadow_type, | |
3318 | gimple_seq_last (seq))); | |
3319 | gimple_seq_add_stmt (&seq, build_assign (GE_EXPR, | |
3320 | gimple_seq_last (seq), | |
3321 | shadow)); | |
3322 | gimple_seq_add_stmt (&seq, build_assign (BIT_AND_EXPR, shadow_test, | |
3323 | gimple_seq_last (seq))); | |
bdea98ca MO |
3324 | gimple_seq_add_stmt (&seq, build_assign (BIT_IOR_EXPR, t, |
3325 | gimple_seq_last (seq))); | |
c62ccb9a YG |
3326 | t = gimple_assign_lhs (gimple_seq_last (seq)); |
3327 | gimple_seq_set_location (seq, loc); | |
3328 | gsi_insert_seq_after (&gsi, seq, GSI_CONTINUE_LINKING); | |
3329 | } | |
3330 | } | |
3331 | ||
3332 | g = gimple_build_cond (NE_EXPR, t, build_int_cst (TREE_TYPE (t), 0), | |
3333 | NULL_TREE, NULL_TREE); | |
3334 | gimple_set_location (g, loc); | |
3335 | gsi_insert_after (&gsi, g, GSI_NEW_STMT); | |
3336 | ||
3337 | /* Generate call to the run-time library (e.g. __asan_report_load8). */ | |
3338 | gsi = gsi_start_bb (then_bb); | |
3339 | int nargs; | |
fed4de37 | 3340 | tree fun = report_error_func (is_store, recover_p, size_in_bytes, &nargs); |
c62ccb9a YG |
3341 | g = gimple_build_call (fun, nargs, base_addr, len); |
3342 | gimple_set_location (g, loc); | |
3343 | gsi_insert_after (&gsi, g, GSI_NEW_STMT); | |
3344 | ||
3345 | gsi_remove (iter, true); | |
3346 | *iter = gsi_start_bb (else_bb); | |
3347 | ||
3348 | return true; | |
3349 | } | |
3350 | ||
c7775327 ML |
3351 | /* Create ASAN shadow variable for a VAR_DECL which has been rewritten |
3352 | into SSA. Already seen VAR_DECLs are stored in SHADOW_VARS_MAPPING. */ | |
3353 | ||
3354 | static tree | |
3355 | create_asan_shadow_var (tree var_decl, | |
3356 | hash_map<tree, tree> &shadow_vars_mapping) | |
3357 | { | |
3358 | tree *slot = shadow_vars_mapping.get (var_decl); | |
3359 | if (slot == NULL) | |
3360 | { | |
3361 | tree shadow_var = copy_node (var_decl); | |
3362 | ||
3363 | copy_body_data id; | |
3364 | memset (&id, 0, sizeof (copy_body_data)); | |
3365 | id.src_fn = id.dst_fn = current_function_decl; | |
3366 | copy_decl_for_dup_finish (&id, var_decl, shadow_var); | |
3367 | ||
3368 | DECL_ARTIFICIAL (shadow_var) = 1; | |
3369 | DECL_IGNORED_P (shadow_var) = 1; | |
3370 | DECL_SEEN_IN_BIND_EXPR_P (shadow_var) = 0; | |
3371 | gimple_add_tmp_var (shadow_var); | |
3372 | ||
3373 | shadow_vars_mapping.put (var_decl, shadow_var); | |
3374 | return shadow_var; | |
3375 | } | |
3376 | else | |
3377 | return *slot; | |
3378 | } | |
3379 | ||
f6b9f2ff ML |
3380 | /* Expand ASAN_POISON ifn. */ |
3381 | ||
c7775327 ML |
3382 | bool |
3383 | asan_expand_poison_ifn (gimple_stmt_iterator *iter, | |
3384 | bool *need_commit_edge_insert, | |
3385 | hash_map<tree, tree> &shadow_vars_mapping) | |
3386 | { | |
3387 | gimple *g = gsi_stmt (*iter); | |
3388 | tree poisoned_var = gimple_call_lhs (g); | |
a50a32aa | 3389 | if (!poisoned_var || has_zero_uses (poisoned_var)) |
c7775327 ML |
3390 | { |
3391 | gsi_remove (iter, true); | |
3392 | return true; | |
3393 | } | |
3394 | ||
a50a32aa ML |
3395 | if (SSA_NAME_VAR (poisoned_var) == NULL_TREE) |
3396 | SET_SSA_NAME_VAR_OR_IDENTIFIER (poisoned_var, | |
3397 | create_tmp_var (TREE_TYPE (poisoned_var))); | |
3398 | ||
f6b9f2ff ML |
3399 | tree shadow_var = create_asan_shadow_var (SSA_NAME_VAR (poisoned_var), |
3400 | shadow_vars_mapping); | |
c7775327 ML |
3401 | |
3402 | bool recover_p; | |
3403 | if (flag_sanitize & SANITIZE_USER_ADDRESS) | |
3404 | recover_p = (flag_sanitize_recover & SANITIZE_USER_ADDRESS) != 0; | |
3405 | else | |
3406 | recover_p = (flag_sanitize_recover & SANITIZE_KERNEL_ADDRESS) != 0; | |
3407 | tree size = DECL_SIZE_UNIT (shadow_var); | |
3408 | gimple *poison_call | |
3409 | = gimple_build_call_internal (IFN_ASAN_MARK, 3, | |
3410 | build_int_cst (integer_type_node, | |
3411 | ASAN_MARK_POISON), | |
3412 | build_fold_addr_expr (shadow_var), size); | |
3413 | ||
f6b9f2ff | 3414 | gimple *use; |
c7775327 | 3415 | imm_use_iterator imm_iter; |
f6b9f2ff | 3416 | FOR_EACH_IMM_USE_STMT (use, imm_iter, poisoned_var) |
c7775327 | 3417 | { |
c7775327 ML |
3418 | if (is_gimple_debug (use)) |
3419 | continue; | |
3420 | ||
3421 | int nargs; | |
f6b9f2ff ML |
3422 | bool store_p = gimple_call_internal_p (use, IFN_ASAN_POISON_USE); |
3423 | tree fun = report_error_func (store_p, recover_p, tree_to_uhwi (size), | |
c7775327 ML |
3424 | &nargs); |
3425 | ||
3426 | gcall *call = gimple_build_call (fun, 1, | |
3427 | build_fold_addr_expr (shadow_var)); | |
3428 | gimple_set_location (call, gimple_location (use)); | |
3429 | gimple *call_to_insert = call; | |
3430 | ||
3431 | /* The USE can be a gimple PHI node. If so, insert the call on | |
3432 | all edges leading to the PHI node. */ | |
3433 | if (is_a <gphi *> (use)) | |
3434 | { | |
3435 | gphi *phi = dyn_cast<gphi *> (use); | |
3436 | for (unsigned i = 0; i < gimple_phi_num_args (phi); ++i) | |
3437 | if (gimple_phi_arg_def (phi, i) == poisoned_var) | |
3438 | { | |
3439 | edge e = gimple_phi_arg_edge (phi, i); | |
3440 | ||
236ac442 ML |
3441 | /* Do not insert on an edge we can't split. */ |
3442 | if (e->flags & EDGE_ABNORMAL) | |
3443 | continue; | |
3444 | ||
c7775327 ML |
3445 | if (call_to_insert == NULL) |
3446 | call_to_insert = gimple_copy (call); | |
3447 | ||
3448 | gsi_insert_seq_on_edge (e, call_to_insert); | |
3449 | *need_commit_edge_insert = true; | |
3450 | call_to_insert = NULL; | |
3451 | } | |
3452 | } | |
3453 | else | |
3454 | { | |
3455 | gimple_stmt_iterator gsi = gsi_for_stmt (use); | |
f6b9f2ff ML |
3456 | if (store_p) |
3457 | gsi_replace (&gsi, call, true); | |
3458 | else | |
3459 | gsi_insert_before (&gsi, call, GSI_NEW_STMT); | |
c7775327 ML |
3460 | } |
3461 | } | |
3462 | ||
3463 | SSA_NAME_IS_DEFAULT_DEF (poisoned_var) = true; | |
3464 | SSA_NAME_DEF_STMT (poisoned_var) = gimple_build_nop (); | |
3465 | gsi_replace (iter, poison_call, false); | |
3466 | ||
3467 | return true; | |
3468 | } | |
3469 | ||
37d6f666 WM |
3470 | /* Instrument the current function. */ |
3471 | ||
3472 | static unsigned int | |
3473 | asan_instrument (void) | |
3474 | { | |
f6d98484 | 3475 | if (shadow_ptr_types[0] == NULL_TREE) |
94fce891 | 3476 | asan_init_shadow_ptr_types (); |
37d6f666 | 3477 | transform_statements (); |
e3174bdf | 3478 | last_alloca_addr = NULL_TREE; |
37d6f666 WM |
3479 | return 0; |
3480 | } | |
3481 | ||
3482 | static bool | |
3483 | gate_asan (void) | |
3484 | { | |
45b2222a | 3485 | return sanitize_flags_p (SANITIZE_ADDRESS); |
37d6f666 WM |
3486 | } |
3487 | ||
27a4cd48 DM |
3488 | namespace { |
3489 | ||
3490 | const pass_data pass_data_asan = | |
37d6f666 | 3491 | { |
27a4cd48 DM |
3492 | GIMPLE_PASS, /* type */ |
3493 | "asan", /* name */ | |
3494 | OPTGROUP_NONE, /* optinfo_flags */ | |
27a4cd48 DM |
3495 | TV_NONE, /* tv_id */ |
3496 | ( PROP_ssa | PROP_cfg | PROP_gimple_leh ), /* properties_required */ | |
3497 | 0, /* properties_provided */ | |
3498 | 0, /* properties_destroyed */ | |
3499 | 0, /* todo_flags_start */ | |
3bea341f | 3500 | TODO_update_ssa, /* todo_flags_finish */ |
37d6f666 | 3501 | }; |
f6d98484 | 3502 | |
27a4cd48 DM |
3503 | class pass_asan : public gimple_opt_pass |
3504 | { | |
3505 | public: | |
c3284718 RS |
3506 | pass_asan (gcc::context *ctxt) |
3507 | : gimple_opt_pass (pass_data_asan, ctxt) | |
27a4cd48 DM |
3508 | {} |
3509 | ||
3510 | /* opt_pass methods: */ | |
65d3284b | 3511 | opt_pass * clone () { return new pass_asan (m_ctxt); } |
1a3d085c | 3512 | virtual bool gate (function *) { return gate_asan (); } |
be55bfe6 | 3513 | virtual unsigned int execute (function *) { return asan_instrument (); } |
27a4cd48 DM |
3514 | |
3515 | }; // class pass_asan | |
3516 | ||
3517 | } // anon namespace | |
3518 | ||
3519 | gimple_opt_pass * | |
3520 | make_pass_asan (gcc::context *ctxt) | |
3521 | { | |
3522 | return new pass_asan (ctxt); | |
3523 | } | |
3524 | ||
27a4cd48 DM |
3525 | namespace { |
3526 | ||
3527 | const pass_data pass_data_asan_O0 = | |
dfb9e332 | 3528 | { |
27a4cd48 DM |
3529 | GIMPLE_PASS, /* type */ |
3530 | "asan0", /* name */ | |
3531 | OPTGROUP_NONE, /* optinfo_flags */ | |
27a4cd48 DM |
3532 | TV_NONE, /* tv_id */ |
3533 | ( PROP_ssa | PROP_cfg | PROP_gimple_leh ), /* properties_required */ | |
3534 | 0, /* properties_provided */ | |
3535 | 0, /* properties_destroyed */ | |
3536 | 0, /* todo_flags_start */ | |
3bea341f | 3537 | TODO_update_ssa, /* todo_flags_finish */ |
dfb9e332 JJ |
3538 | }; |
3539 | ||
27a4cd48 DM |
3540 | class pass_asan_O0 : public gimple_opt_pass |
3541 | { | |
3542 | public: | |
c3284718 RS |
3543 | pass_asan_O0 (gcc::context *ctxt) |
3544 | : gimple_opt_pass (pass_data_asan_O0, ctxt) | |
27a4cd48 DM |
3545 | {} |
3546 | ||
3547 | /* opt_pass methods: */ | |
1a3d085c | 3548 | virtual bool gate (function *) { return !optimize && gate_asan (); } |
be55bfe6 | 3549 | virtual unsigned int execute (function *) { return asan_instrument (); } |
27a4cd48 DM |
3550 | |
3551 | }; // class pass_asan_O0 | |
3552 | ||
3553 | } // anon namespace | |
3554 | ||
3555 | gimple_opt_pass * | |
3556 | make_pass_asan_O0 (gcc::context *ctxt) | |
3557 | { | |
3558 | return new pass_asan_O0 (ctxt); | |
3559 | } | |
3560 | ||
f6d98484 | 3561 | #include "gt-asan.h" |