1 //===----------------------- private_typeinfo.cpp -------------------------===//
2 //
3 // The LLVM Compiler Infrastructure
4 //
5 // This file is dual licensed under the MIT and the University of Illinois Open
6 // Source Licenses. See LICENSE.TXT for details.
7 //
8 //===----------------------------------------------------------------------===//
9
10 #include "private_typeinfo.h"
11
12 // The flag _LIBCXX_DYNAMIC_FALLBACK is used to make dynamic_cast more
13 // forgiving when type_info's mistakenly have hidden visibility and thus
14 // multiple type_infos can exist for a single type.
15 //
16 // When _LIBCXX_DYNAMIC_FALLBACK is defined, and only in the case where
17 // there is a detected inconsistency in the type_info hierarchy during a
18 // dynamic_cast, then the equality operation will fall back to using strcmp
19 // on type_info names to determine type_info equality.
20 //
21 // This change happens *only* under dynamic_cast, and only when
22 // dynamic_cast is faced with the choice: abort, or possibly give back the
23 // wrong answer. If when the dynamic_cast is done with this fallback
24 // algorithm and an inconsistency is still detected, dynamic_cast will call
25 // abort with an appropriate message.
26 //
27 // The current implementation of _LIBCXX_DYNAMIC_FALLBACK requires a
28 // printf-like function called syslog:
29 //
30 // void syslog(int facility_priority, const char* format, ...);
31 //
32 // If you want this functionality but your platform doesn't have syslog,
33 // just implement it in terms of fprintf(stderr, ...).
34 //
35 // _LIBCXX_DYNAMIC_FALLBACK is currently off by default.
36
37
38 #include <string.h>
39
40
41 #ifdef _LIBCXX_DYNAMIC_FALLBACK
42 #include "abort_message.h"
43 #include <sys/syslog.h>
44 #endif
45
46 // On Windows, typeids are different between DLLs and EXEs, so comparing
47 // type_info* will work for typeids from the same compiled file but fail
48 // for typeids from a DLL and an executable. Among other things, exceptions
49 // are not caught by handlers since can_catch() returns false.
50 //
51 // Defining _LIBCXX_DYNAMIC_FALLBACK does not help since can_catch() calls
52 // is_equal() with use_strcmp=false so the string names are not compared.
53
54 #ifdef _WIN32
55 #include <string.h>
56 #endif
57
58 static inline
59 bool
is_equal(const std::type_info * x,const std::type_info * y,bool use_strcmp)60 is_equal(const std::type_info* x, const std::type_info* y, bool use_strcmp)
61 {
62 #ifndef _WIN32
63 if (!use_strcmp)
64 return x == y;
65 return strcmp(x->name(), y->name()) == 0;
66 #else
67 (void) use_strcmp;
68 return (x == y) || (strcmp(x->name(), y->name()) == 0);
69 #endif
70 }
71
72 namespace __cxxabiv1
73 {
74
75 // __shim_type_info
76
~__shim_type_info()77 __shim_type_info::~__shim_type_info()
78 {
79 }
80
noop1() const81 void __shim_type_info::noop1() const {}
noop2() const82 void __shim_type_info::noop2() const {}
83
84 // __fundamental_type_info
85
86 // This miraculously (compiler magic) emits the type_info's for:
87 // 1. all of the fundamental types
88 // 2. pointers to all of the fundamental types
89 // 3. pointers to all of the const fundamental types
~__fundamental_type_info()90 __fundamental_type_info::~__fundamental_type_info()
91 {
92 }
93
94 // __array_type_info
95
~__array_type_info()96 __array_type_info::~__array_type_info()
97 {
98 }
99
100 // __function_type_info
101
~__function_type_info()102 __function_type_info::~__function_type_info()
103 {
104 }
105
106 // __enum_type_info
107
~__enum_type_info()108 __enum_type_info::~__enum_type_info()
109 {
110 }
111
112 // __class_type_info
113
~__class_type_info()114 __class_type_info::~__class_type_info()
115 {
116 }
117
118 // __si_class_type_info
119
~__si_class_type_info()120 __si_class_type_info::~__si_class_type_info()
121 {
122 }
123
124 // __vmi_class_type_info
125
~__vmi_class_type_info()126 __vmi_class_type_info::~__vmi_class_type_info()
127 {
128 }
129
130 // __pbase_type_info
131
~__pbase_type_info()132 __pbase_type_info::~__pbase_type_info()
133 {
134 }
135
136 // __pointer_type_info
137
~__pointer_type_info()138 __pointer_type_info::~__pointer_type_info()
139 {
140 }
141
142 // __pointer_to_member_type_info
143
~__pointer_to_member_type_info()144 __pointer_to_member_type_info::~__pointer_to_member_type_info()
145 {
146 }
147
148 // can_catch
149
150 // A handler is a match for an exception object of type E if
151 // 1. The handler is of type cv T or cv T& and E and T are the same type
152 // (ignoring the top-level cv-qualifiers), or
153 // 2. the handler is of type cv T or cv T& and T is an unambiguous public
154 // base class of E, or
155 // 3. the handler is of type cv1 T* cv2 and E is a pointer type that can be
156 // converted to the type of the handler by either or both of
157 // A. a standard pointer conversion (4.10) not involving conversions to
158 // pointers to private or protected or ambiguous classes
159 // B. a qualification conversion
160 // 4. the handler is a pointer or pointer to member type and E is
161 // std::nullptr_t.
162
163 // adjustedPtr:
164 //
165 // catch (A& a) : adjustedPtr == &a
166 // catch (A* a) : adjustedPtr == a
167 // catch (A** a) : adjustedPtr == a
168 //
169 // catch (D2& d2) : adjustedPtr == &d2 (d2 is base class of thrown object)
170 // catch (D2* d2) : adjustedPtr == d2
171 // catch (D2*& d2) : adjustedPtr == d2
172 //
173 // catch (...) : adjustedPtr == & of the exception
174 //
175 // If the thrown type is nullptr_t and the caught type is a pointer to
176 // member type, adjustedPtr points to a statically-allocated null pointer
177 // representation of that type.
178
179 // Handles bullet 1
180 bool
can_catch(const __shim_type_info * thrown_type,void * &) const181 __fundamental_type_info::can_catch(const __shim_type_info* thrown_type,
182 void*&) const
183 {
184 return is_equal(this, thrown_type, false);
185 }
186
187 bool
can_catch(const __shim_type_info *,void * &) const188 __array_type_info::can_catch(const __shim_type_info*, void*&) const
189 {
190 // We can get here if someone tries to catch an array by reference.
191 // However if someone tries to throw an array, it immediately gets
192 // converted to a pointer, which will not convert back to an array
193 // at the catch clause. So this can never catch anything.
194 return false;
195 }
196
197 bool
can_catch(const __shim_type_info *,void * &) const198 __function_type_info::can_catch(const __shim_type_info*, void*&) const
199 {
200 // We can get here if someone tries to catch a function by reference.
201 // However if someone tries to throw a function, it immediately gets
202 // converted to a pointer, which will not convert back to a function
203 // at the catch clause. So this can never catch anything.
204 return false;
205 }
206
207 // Handles bullet 1
208 bool
can_catch(const __shim_type_info * thrown_type,void * &) const209 __enum_type_info::can_catch(const __shim_type_info* thrown_type,
210 void*&) const
211 {
212 return is_equal(this, thrown_type, false);
213 }
214
215 #ifdef __clang__
216 #pragma clang diagnostic push
217 #pragma clang diagnostic ignored "-Wmissing-field-initializers"
218 #endif
219
220 // Handles bullets 1 and 2
221 bool
can_catch(const __shim_type_info * thrown_type,void * & adjustedPtr) const222 __class_type_info::can_catch(const __shim_type_info* thrown_type,
223 void*& adjustedPtr) const
224 {
225 // bullet 1
226 if (is_equal(this, thrown_type, false))
227 return true;
228 const __class_type_info* thrown_class_type =
229 dynamic_cast<const __class_type_info*>(thrown_type);
230 if (thrown_class_type == 0)
231 return false;
232 // bullet 2
233 __dynamic_cast_info info = {thrown_class_type, 0, this, -1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,};
234 info.number_of_dst_type = 1;
235 thrown_class_type->has_unambiguous_public_base(&info, adjustedPtr, public_path);
236 if (info.path_dst_ptr_to_static_ptr == public_path)
237 {
238 adjustedPtr = const_cast<void*>(info.dst_ptr_leading_to_static_ptr);
239 return true;
240 }
241 return false;
242 }
243
244 #ifdef __clang__
245 #pragma clang diagnostic pop
246 #endif
247
248 void
process_found_base_class(__dynamic_cast_info * info,void * adjustedPtr,int path_below) const249 __class_type_info::process_found_base_class(__dynamic_cast_info* info,
250 void* adjustedPtr,
251 int path_below) const
252 {
253 if (info->dst_ptr_leading_to_static_ptr == 0)
254 {
255 // First time here
256 info->dst_ptr_leading_to_static_ptr = adjustedPtr;
257 info->path_dst_ptr_to_static_ptr = path_below;
258 info->number_to_static_ptr = 1;
259 }
260 else if (info->dst_ptr_leading_to_static_ptr == adjustedPtr)
261 {
262 // We've been here before. Update path to "most public"
263 if (info->path_dst_ptr_to_static_ptr == not_public_path)
264 info->path_dst_ptr_to_static_ptr = path_below;
265 }
266 else
267 {
268 // We've detected an ambiguous cast from (thrown_class_type, adjustedPtr)
269 // to a static_type
270 info->number_to_static_ptr += 1;
271 info->path_dst_ptr_to_static_ptr = not_public_path;
272 info->search_done = true;
273 }
274 }
275
276 void
has_unambiguous_public_base(__dynamic_cast_info * info,void * adjustedPtr,int path_below) const277 __class_type_info::has_unambiguous_public_base(__dynamic_cast_info* info,
278 void* adjustedPtr,
279 int path_below) const
280 {
281 if (is_equal(this, info->static_type, false))
282 process_found_base_class(info, adjustedPtr, path_below);
283 }
284
285 void
has_unambiguous_public_base(__dynamic_cast_info * info,void * adjustedPtr,int path_below) const286 __si_class_type_info::has_unambiguous_public_base(__dynamic_cast_info* info,
287 void* adjustedPtr,
288 int path_below) const
289 {
290 if (is_equal(this, info->static_type, false))
291 process_found_base_class(info, adjustedPtr, path_below);
292 else
293 __base_type->has_unambiguous_public_base(info, adjustedPtr, path_below);
294 }
295
296 void
has_unambiguous_public_base(__dynamic_cast_info * info,void * adjustedPtr,int path_below) const297 __base_class_type_info::has_unambiguous_public_base(__dynamic_cast_info* info,
298 void* adjustedPtr,
299 int path_below) const
300 {
301 ptrdiff_t offset_to_base = 0;
302 if (adjustedPtr != nullptr)
303 {
304 offset_to_base = __offset_flags >> __offset_shift;
305 if (__offset_flags & __virtual_mask)
306 {
307 const char* vtable = *static_cast<const char*const*>(adjustedPtr);
308 offset_to_base = *reinterpret_cast<const ptrdiff_t*>(vtable + offset_to_base);
309 }
310 }
311 __base_type->has_unambiguous_public_base(
312 info,
313 static_cast<char*>(adjustedPtr) + offset_to_base,
314 (__offset_flags & __public_mask) ? path_below : not_public_path);
315 }
316
317 void
has_unambiguous_public_base(__dynamic_cast_info * info,void * adjustedPtr,int path_below) const318 __vmi_class_type_info::has_unambiguous_public_base(__dynamic_cast_info* info,
319 void* adjustedPtr,
320 int path_below) const
321 {
322 if (is_equal(this, info->static_type, false))
323 process_found_base_class(info, adjustedPtr, path_below);
324 else
325 {
326 typedef const __base_class_type_info* Iter;
327 const Iter e = __base_info + __base_count;
328 Iter p = __base_info;
329 p->has_unambiguous_public_base(info, adjustedPtr, path_below);
330 if (++p < e)
331 {
332 do
333 {
334 p->has_unambiguous_public_base(info, adjustedPtr, path_below);
335 if (info->search_done)
336 break;
337 } while (++p < e);
338 }
339 }
340 }
341
342 // Handles bullet 1 for both pointers and member pointers
343 bool
can_catch(const __shim_type_info * thrown_type,void * &) const344 __pbase_type_info::can_catch(const __shim_type_info* thrown_type,
345 void*&) const
346 {
347 bool use_strcmp = this->__flags & (__incomplete_class_mask |
348 __incomplete_mask);
349 if (!use_strcmp) {
350 const __pbase_type_info* thrown_pbase = dynamic_cast<const __pbase_type_info*>(
351 thrown_type);
352 if (!thrown_pbase) return false;
353 use_strcmp = thrown_pbase->__flags & (__incomplete_class_mask |
354 __incomplete_mask);
355 }
356 return is_equal(this, thrown_type, use_strcmp);
357 }
358
359 #ifdef __clang__
360 #pragma clang diagnostic push
361 #pragma clang diagnostic ignored "-Wmissing-field-initializers"
362 #endif
363
364 // Handles bullets 1, 3 and 4
365 // NOTE: It might not be safe to adjust the pointer if it is not not a pointer
366 // type. Only adjust the pointer after we know it is safe to do so.
367 bool
can_catch(const __shim_type_info * thrown_type,void * & adjustedPtr) const368 __pointer_type_info::can_catch(const __shim_type_info* thrown_type,
369 void*& adjustedPtr) const
370 {
371 // bullet 4
372 if (is_equal(thrown_type, &typeid(std::nullptr_t), false)) {
373 adjustedPtr = nullptr;
374 return true;
375 }
376
377 // bullet 1
378 if (__pbase_type_info::can_catch(thrown_type, adjustedPtr)) {
379 if (adjustedPtr != NULL)
380 adjustedPtr = *static_cast<void**>(adjustedPtr);
381 return true;
382 }
383 // bullet 3
384 const __pointer_type_info* thrown_pointer_type =
385 dynamic_cast<const __pointer_type_info*>(thrown_type);
386 if (thrown_pointer_type == 0)
387 return false;
388 // Do the dereference adjustment
389 if (adjustedPtr != NULL)
390 adjustedPtr = *static_cast<void**>(adjustedPtr);
391 // bullet 3B and 3C
392 if (thrown_pointer_type->__flags & ~__flags & __no_remove_flags_mask)
393 return false;
394 if (__flags & ~thrown_pointer_type->__flags & __no_add_flags_mask)
395 return false;
396 if (is_equal(__pointee, thrown_pointer_type->__pointee, false))
397 return true;
398 // bullet 3A
399 if (is_equal(__pointee, &typeid(void), false)) {
400 // pointers to functions cannot be converted to void*.
401 // pointers to member functions are not handled here.
402 const __function_type_info* thrown_function =
403 dynamic_cast<const __function_type_info*>(thrown_pointer_type->__pointee);
404 return (thrown_function == nullptr);
405 }
406 // Handle pointer to pointer
407 const __pointer_type_info* nested_pointer_type =
408 dynamic_cast<const __pointer_type_info*>(__pointee);
409 if (nested_pointer_type) {
410 if (~__flags & __const_mask) return false;
411 return nested_pointer_type->can_catch_nested(thrown_pointer_type->__pointee);
412 }
413
414 // Handle pointer to pointer to member
415 const __pointer_to_member_type_info* member_ptr_type =
416 dynamic_cast<const __pointer_to_member_type_info*>(__pointee);
417 if (member_ptr_type) {
418 if (~__flags & __const_mask) return false;
419 return member_ptr_type->can_catch_nested(thrown_pointer_type->__pointee);
420 }
421
422 // Handle pointer to class type
423 const __class_type_info* catch_class_type =
424 dynamic_cast<const __class_type_info*>(__pointee);
425 if (catch_class_type == 0)
426 return false;
427 const __class_type_info* thrown_class_type =
428 dynamic_cast<const __class_type_info*>(thrown_pointer_type->__pointee);
429 if (thrown_class_type == 0)
430 return false;
431 __dynamic_cast_info info = {thrown_class_type, 0, catch_class_type, -1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,};
432 info.number_of_dst_type = 1;
433 thrown_class_type->has_unambiguous_public_base(&info, adjustedPtr, public_path);
434 if (info.path_dst_ptr_to_static_ptr == public_path)
435 {
436 if (adjustedPtr != NULL)
437 adjustedPtr = const_cast<void*>(info.dst_ptr_leading_to_static_ptr);
438 return true;
439 }
440 return false;
441 }
442
can_catch_nested(const __shim_type_info * thrown_type) const443 bool __pointer_type_info::can_catch_nested(
444 const __shim_type_info* thrown_type) const
445 {
446 const __pointer_type_info* thrown_pointer_type =
447 dynamic_cast<const __pointer_type_info*>(thrown_type);
448 if (thrown_pointer_type == 0)
449 return false;
450 // bullet 3B
451 if (thrown_pointer_type->__flags & ~__flags)
452 return false;
453 if (is_equal(__pointee, thrown_pointer_type->__pointee, false))
454 return true;
455 // If the pointed to types differ then the catch type must be const
456 // qualified.
457 if (~__flags & __const_mask)
458 return false;
459
460 // Handle pointer to pointer
461 const __pointer_type_info* nested_pointer_type =
462 dynamic_cast<const __pointer_type_info*>(__pointee);
463 if (nested_pointer_type) {
464 return nested_pointer_type->can_catch_nested(
465 thrown_pointer_type->__pointee);
466 }
467
468 // Handle pointer to pointer to member
469 const __pointer_to_member_type_info* member_ptr_type =
470 dynamic_cast<const __pointer_to_member_type_info*>(__pointee);
471 if (member_ptr_type) {
472 return member_ptr_type->can_catch_nested(thrown_pointer_type->__pointee);
473 }
474
475 return false;
476 }
477
can_catch(const __shim_type_info * thrown_type,void * & adjustedPtr) const478 bool __pointer_to_member_type_info::can_catch(
479 const __shim_type_info* thrown_type, void*& adjustedPtr) const {
480 // bullet 4
481 if (is_equal(thrown_type, &typeid(std::nullptr_t), false)) {
482 // We assume that the pointer to member representation is the same for
483 // all pointers to data members and for all pointers to member functions.
484 struct X {};
485 if (dynamic_cast<const __function_type_info*>(__pointee)) {
486 static int (X::*const null_ptr_rep)() = nullptr;
487 adjustedPtr = const_cast<int (X::**)()>(&null_ptr_rep);
488 } else {
489 static int X::*const null_ptr_rep = nullptr;
490 adjustedPtr = const_cast<int X::**>(&null_ptr_rep);
491 }
492 return true;
493 }
494
495 // bullet 1
496 if (__pbase_type_info::can_catch(thrown_type, adjustedPtr))
497 return true;
498
499 const __pointer_to_member_type_info* thrown_pointer_type =
500 dynamic_cast<const __pointer_to_member_type_info*>(thrown_type);
501 if (thrown_pointer_type == 0)
502 return false;
503 if (thrown_pointer_type->__flags & ~__flags & __no_remove_flags_mask)
504 return false;
505 if (__flags & ~thrown_pointer_type->__flags & __no_add_flags_mask)
506 return false;
507 if (!is_equal(__pointee, thrown_pointer_type->__pointee, false))
508 return false;
509 if (is_equal(__context, thrown_pointer_type->__context, false))
510 return true;
511
512 // [except.handle] does not allow the pointer-to-member conversions mentioned
513 // in [mem.conv] to take place. For this reason we don't check Derived->Base
514 // for Derived->Base conversions.
515
516 return false;
517 }
518
can_catch_nested(const __shim_type_info * thrown_type) const519 bool __pointer_to_member_type_info::can_catch_nested(
520 const __shim_type_info* thrown_type) const
521 {
522 const __pointer_to_member_type_info* thrown_member_ptr_type =
523 dynamic_cast<const __pointer_to_member_type_info*>(thrown_type);
524 if (thrown_member_ptr_type == 0)
525 return false;
526 if (~__flags & thrown_member_ptr_type->__flags)
527 return false;
528 if (!is_equal(__pointee, thrown_member_ptr_type->__pointee, false))
529 return false;
530 if (!is_equal(__context, thrown_member_ptr_type->__context, false))
531 return false;
532 return true;
533 }
534
535 #ifdef __clang__
536 #pragma clang diagnostic pop
537 #endif
538
539 #ifdef __clang__
540 #pragma clang diagnostic push
541 #pragma clang diagnostic ignored "-Wmissing-field-initializers"
542 #endif
543
544 // __dynamic_cast
545
546 // static_ptr: pointer to an object of type static_type; nonnull, and since the
547 // object is polymorphic, *(void**)static_ptr is a virtual table pointer.
548 // static_ptr is &v in the expression dynamic_cast<T>(v).
549 // static_type: static type of the object pointed to by static_ptr.
550 // dst_type: destination type of the cast (the "T" in "dynamic_cast<T>(v)").
551 // src2dst_offset: a static hint about the location of the
552 // source subobject with respect to the complete object;
553 // special negative values are:
554 // -1: no hint
555 // -2: static_type is not a public base of dst_type
556 // -3: static_type is a multiple public base type but never a
557 // virtual base type
558 // otherwise, the static_type type is a unique public nonvirtual
559 // base type of dst_type at offset src2dst_offset from the
560 // origin of dst_type.
561 //
562 // (dynamic_ptr, dynamic_type) are the run time type of the complete object
563 // referred to by static_ptr and a pointer to it. These can be found from
564 // static_ptr for polymorphic types.
565 // static_type is guaranteed to be a polymorphic type.
566 //
567 // (dynamic_ptr, dynamic_type) is the root of a DAG that grows upward. Each
568 // node of the tree represents a base class/object of its parent (or parents) below.
569 // Each node is uniquely represented by a pointer to the object, and a pointer
570 // to a type_info - its type. Different nodes may have the same pointer and
571 // different nodes may have the same type. But only one node has a specific
572 // (pointer-value, type) pair. In C++ two objects of the same type can not
573 // share the same address.
574 //
575 // There are two flavors of nodes which have the type dst_type:
576 // 1. Those that are derived from (below) (static_ptr, static_type).
577 // 2. Those that are not derived from (below) (static_ptr, static_type).
578 //
579 // Invariants of the DAG:
580 //
581 // There is at least one path from the root (dynamic_ptr, dynamic_type) to
582 // the node (static_ptr, static_type). This path may or may not be public.
583 // There may be more than one such path (some public some not). Such a path may
584 // or may not go through a node having type dst_type.
585 //
586 // No node of type T appears above a node of the same type. That means that
587 // there is only one node with dynamic_type. And if dynamic_type == dst_type,
588 // then there is only one dst_type in the DAG.
589 //
590 // No node of type dst_type appears above a node of type static_type. Such
591 // DAG's are possible in C++, but the compiler computes those dynamic_casts at
592 // compile time, and only calls __dynamic_cast when dst_type lies below
593 // static_type in the DAG.
594 //
595 // dst_type != static_type: The compiler computes the dynamic_cast in this case too.
596 // dynamic_type != static_type: The compiler computes the dynamic_cast in this case too.
597 //
598 // Returns:
599 //
600 // If there is exactly one dst_type of flavor 1, and
601 // If there is a public path from that dst_type to (static_ptr, static_type), or
602 // If there are 0 dst_types of flavor 2, and there is a public path from
603 // (dynamic_ptr, dynamic_type) to (static_ptr, static_type) and a public
604 // path from (dynamic_ptr, dynamic_type) to the one dst_type, then return
605 // a pointer to that dst_type.
606 // Else if there are 0 dst_types of flavor 1 and exactly 1 dst_type of flavor 2, and
607 // if there is a public path from (dynamic_ptr, dynamic_type) to
608 // (static_ptr, static_type) and a public path from (dynamic_ptr, dynamic_type)
609 // to the one dst_type, then return a pointer to that one dst_type.
610 // Else return nullptr.
611 //
612 // If dynamic_type == dst_type, then the above algorithm collapses to the
613 // following cheaper algorithm:
614 //
615 // If there is a public path from (dynamic_ptr, dynamic_type) to
616 // (static_ptr, static_type), then return dynamic_ptr.
617 // Else return nullptr.
618
619 extern "C" _LIBCXXABI_FUNC_VIS void *
__dynamic_cast(const void * static_ptr,const __class_type_info * static_type,const __class_type_info * dst_type,std::ptrdiff_t src2dst_offset)620 __dynamic_cast(const void *static_ptr, const __class_type_info *static_type,
621 const __class_type_info *dst_type,
622 std::ptrdiff_t src2dst_offset) {
623 // Possible future optimization: Take advantage of src2dst_offset
624 // Currently clang always sets src2dst_offset to -1 (no hint).
625
626 // Get (dynamic_ptr, dynamic_type) from static_ptr
627 void **vtable = *static_cast<void ** const *>(static_ptr);
628 ptrdiff_t offset_to_derived = reinterpret_cast<ptrdiff_t>(vtable[-2]);
629 const void* dynamic_ptr = static_cast<const char*>(static_ptr) + offset_to_derived;
630 const __class_type_info* dynamic_type = static_cast<const __class_type_info*>(vtable[-1]);
631
632 // Initialize answer to nullptr. This will be changed from the search
633 // results if a non-null answer is found. Regardless, this is what will
634 // be returned.
635 const void* dst_ptr = 0;
636 // Initialize info struct for this search.
637 __dynamic_cast_info info = {dst_type, static_ptr, static_type, src2dst_offset, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,};
638
639 // Find out if we can use a giant short cut in the search
640 if (is_equal(dynamic_type, dst_type, false))
641 {
642 // Using giant short cut. Add that information to info.
643 info.number_of_dst_type = 1;
644 // Do the search
645 dynamic_type->search_above_dst(&info, dynamic_ptr, dynamic_ptr, public_path, false);
646 #ifdef _LIBCXX_DYNAMIC_FALLBACK
647 // The following if should always be false because we should definitely
648 // find (static_ptr, static_type), either on a public or private path
649 if (info.path_dst_ptr_to_static_ptr == unknown)
650 {
651 // We get here only if there is some kind of visibility problem
652 // in client code.
653 syslog(LOG_ERR, "dynamic_cast error 1: Both of the following type_info's "
654 "should have public visibility. At least one of them is hidden. %s"
655 ", %s.\n", static_type->name(), dynamic_type->name());
656 // Redo the search comparing type_info's using strcmp
657 info = {dst_type, static_ptr, static_type, src2dst_offset, 0};
658 info.number_of_dst_type = 1;
659 dynamic_type->search_above_dst(&info, dynamic_ptr, dynamic_ptr, public_path, true);
660 }
661 #endif // _LIBCXX_DYNAMIC_FALLBACK
662 // Query the search.
663 if (info.path_dst_ptr_to_static_ptr == public_path)
664 dst_ptr = dynamic_ptr;
665 }
666 else
667 {
668 // Not using giant short cut. Do the search
669 dynamic_type->search_below_dst(&info, dynamic_ptr, public_path, false);
670 #ifdef _LIBCXX_DYNAMIC_FALLBACK
671 // The following if should always be false because we should definitely
672 // find (static_ptr, static_type), either on a public or private path
673 if (info.path_dst_ptr_to_static_ptr == unknown &&
674 info.path_dynamic_ptr_to_static_ptr == unknown)
675 {
676 syslog(LOG_ERR, "dynamic_cast error 2: One or more of the following type_info's "
677 "has hidden visibility or is defined in more than one translation "
678 "unit. They should all have public visibility. "
679 "%s, %s, %s.\n", static_type->name(), dynamic_type->name(),
680 dst_type->name());
681 // Redo the search comparing type_info's using strcmp
682 info = {dst_type, static_ptr, static_type, src2dst_offset, 0};
683 dynamic_type->search_below_dst(&info, dynamic_ptr, public_path, true);
684 }
685 #endif // _LIBCXX_DYNAMIC_FALLBACK
686 // Query the search.
687 switch (info.number_to_static_ptr)
688 {
689 case 0:
690 if (info.number_to_dst_ptr == 1 &&
691 info.path_dynamic_ptr_to_static_ptr == public_path &&
692 info.path_dynamic_ptr_to_dst_ptr == public_path)
693 dst_ptr = info.dst_ptr_not_leading_to_static_ptr;
694 break;
695 case 1:
696 if (info.path_dst_ptr_to_static_ptr == public_path ||
697 (
698 info.number_to_dst_ptr == 0 &&
699 info.path_dynamic_ptr_to_static_ptr == public_path &&
700 info.path_dynamic_ptr_to_dst_ptr == public_path
701 )
702 )
703 dst_ptr = info.dst_ptr_leading_to_static_ptr;
704 break;
705 }
706 }
707 return const_cast<void*>(dst_ptr);
708 }
709
710 #ifdef __clang__
711 #pragma clang diagnostic pop
712 #endif
713
714 // Call this function when you hit a static_type which is a base (above) a dst_type.
715 // Let caller know you hit a static_type. But only start recording details if
716 // this is (static_ptr, static_type) -- the node we are casting from.
717 // If this is (static_ptr, static_type)
718 // Record the path (public or not) from the dst_type to here. There may be
719 // multiple paths from the same dst_type to here, record the "most public" one.
720 // Record the dst_ptr as pointing to (static_ptr, static_type).
721 // If more than one (dst_ptr, dst_type) points to (static_ptr, static_type),
722 // then mark this dyanmic_cast as ambiguous and stop the search.
723 void
process_static_type_above_dst(__dynamic_cast_info * info,const void * dst_ptr,const void * current_ptr,int path_below) const724 __class_type_info::process_static_type_above_dst(__dynamic_cast_info* info,
725 const void* dst_ptr,
726 const void* current_ptr,
727 int path_below) const
728 {
729 // Record that we found a static_type
730 info->found_any_static_type = true;
731 if (current_ptr == info->static_ptr)
732 {
733 // Record that we found (static_ptr, static_type)
734 info->found_our_static_ptr = true;
735 if (info->dst_ptr_leading_to_static_ptr == 0)
736 {
737 // First time here
738 info->dst_ptr_leading_to_static_ptr = dst_ptr;
739 info->path_dst_ptr_to_static_ptr = path_below;
740 info->number_to_static_ptr = 1;
741 // If there is only one dst_type in the entire tree and the path from
742 // there to here is public then we are done!
743 if (info->number_of_dst_type == 1 && info->path_dst_ptr_to_static_ptr == public_path)
744 info->search_done = true;
745 }
746 else if (info->dst_ptr_leading_to_static_ptr == dst_ptr)
747 {
748 // We've been here before. Update path to "most public"
749 if (info->path_dst_ptr_to_static_ptr == not_public_path)
750 info->path_dst_ptr_to_static_ptr = path_below;
751 // If there is only one dst_type in the entire tree and the path from
752 // there to here is public then we are done!
753 if (info->number_of_dst_type == 1 && info->path_dst_ptr_to_static_ptr == public_path)
754 info->search_done = true;
755 }
756 else
757 {
758 // We've detected an ambiguous cast from (static_ptr, static_type)
759 // to a dst_type
760 info->number_to_static_ptr += 1;
761 info->search_done = true;
762 }
763 }
764 }
765
766 // Call this function when you hit a static_type which is not a base (above) a dst_type.
767 // If this is (static_ptr, static_type)
768 // Record the path (public or not) from (dynamic_ptr, dynamic_type) to here. There may be
769 // multiple paths from (dynamic_ptr, dynamic_type) to here, record the "most public" one.
770 void
process_static_type_below_dst(__dynamic_cast_info * info,const void * current_ptr,int path_below) const771 __class_type_info::process_static_type_below_dst(__dynamic_cast_info* info,
772 const void* current_ptr,
773 int path_below) const
774 {
775 if (current_ptr == info->static_ptr)
776 {
777 // Record the most public path from (dynamic_ptr, dynamic_type) to
778 // (static_ptr, static_type)
779 if (info->path_dynamic_ptr_to_static_ptr != public_path)
780 info->path_dynamic_ptr_to_static_ptr = path_below;
781 }
782 }
783
784 // Call this function when searching below a dst_type node. This function searches
785 // for a path to (static_ptr, static_type) and for paths to one or more dst_type nodes.
786 // If it finds a static_type node, there is no need to further search base classes
787 // above.
788 // If it finds a dst_type node it should search base classes using search_above_dst
789 // to find out if this dst_type points to (static_ptr, static_type) or not.
790 // Either way, the dst_type is recorded as one of two "flavors": one that does
791 // or does not point to (static_ptr, static_type).
792 // If this is neither a static_type nor a dst_type node, continue searching
793 // base classes above.
794 // All the hoopla surrounding the search code is doing nothing but looking for
795 // excuses to stop the search prematurely (break out of the for-loop). That is,
796 // the algorithm below is simply an optimization of this:
797 // void
798 // __vmi_class_type_info::search_below_dst(__dynamic_cast_info* info,
799 // const void* current_ptr,
800 // int path_below) const
801 // {
802 // typedef const __base_class_type_info* Iter;
803 // if (this == info->static_type)
804 // process_static_type_below_dst(info, current_ptr, path_below);
805 // else if (this == info->dst_type)
806 // {
807 // // Record the most public access path that got us here
808 // if (info->path_dynamic_ptr_to_dst_ptr != public_path)
809 // info->path_dynamic_ptr_to_dst_ptr = path_below;
810 // bool does_dst_type_point_to_our_static_type = false;
811 // for (Iter p = __base_info, e= __base_info + __base_count; p < e; ++p)
812 // {
813 // p->search_above_dst(info, current_ptr, current_ptr, public_path);
814 // if (info->found_our_static_ptr)
815 // does_dst_type_point_to_our_static_type = true;
816 // // break out early here if you can detect it doesn't matter if you do
817 // }
818 // if (!does_dst_type_point_to_our_static_type)
819 // {
820 // // We found a dst_type that doesn't point to (static_ptr, static_type)
821 // // So record the address of this dst_ptr and increment the
822 // // count of the number of such dst_types found in the tree.
823 // info->dst_ptr_not_leading_to_static_ptr = current_ptr;
824 // info->number_to_dst_ptr += 1;
825 // }
826 // }
827 // else
828 // {
829 // // This is not a static_type and not a dst_type.
830 // for (Iter p = __base_info, e = __base_info + __base_count; p < e; ++p)
831 // {
832 // p->search_below_dst(info, current_ptr, public_path);
833 // // break out early here if you can detect it doesn't matter if you do
834 // }
835 // }
836 // }
837 void
search_below_dst(__dynamic_cast_info * info,const void * current_ptr,int path_below,bool use_strcmp) const838 __vmi_class_type_info::search_below_dst(__dynamic_cast_info* info,
839 const void* current_ptr,
840 int path_below,
841 bool use_strcmp) const
842 {
843 typedef const __base_class_type_info* Iter;
844 if (is_equal(this, info->static_type, use_strcmp))
845 process_static_type_below_dst(info, current_ptr, path_below);
846 else if (is_equal(this, info->dst_type, use_strcmp))
847 {
848 // We've been here before if we've recorded current_ptr in one of these
849 // two places:
850 if (current_ptr == info->dst_ptr_leading_to_static_ptr ||
851 current_ptr == info->dst_ptr_not_leading_to_static_ptr)
852 {
853 // We've seen this node before, and therefore have already searched
854 // its base classes above.
855 // Update path to here that is "most public".
856 if (path_below == public_path)
857 info->path_dynamic_ptr_to_dst_ptr = public_path;
858 }
859 else // We have haven't been here before
860 {
861 // Record the access path that got us here
862 // If there is more than one dst_type this path doesn't matter.
863 info->path_dynamic_ptr_to_dst_ptr = path_below;
864 bool does_dst_type_point_to_our_static_type = false;
865 // Only search above here if dst_type derives from static_type, or
866 // if it is unknown if dst_type derives from static_type.
867 if (info->is_dst_type_derived_from_static_type != no)
868 {
869 // Set up flags to record results from all base classes
870 bool is_dst_type_derived_from_static_type = false;
871
872 // We've found a dst_type with a potentially public path to here.
873 // We have to assume the path is public because it may become
874 // public later (if we get back to here with a public path).
875 // We can stop looking above if:
876 // 1. We've found a public path to (static_ptr, static_type).
877 // 2. We've found an ambiguous cast from (static_ptr, static_type) to a dst_type.
878 // This is detected at the (static_ptr, static_type).
879 // 3. We can prove that there is no public path to (static_ptr, static_type)
880 // above here.
881 const Iter e = __base_info + __base_count;
882 for (Iter p = __base_info; p < e; ++p)
883 {
884 // Zero out found flags
885 info->found_our_static_ptr = false;
886 info->found_any_static_type = false;
887 p->search_above_dst(info, current_ptr, current_ptr, public_path, use_strcmp);
888 if (info->search_done)
889 break;
890 if (info->found_any_static_type)
891 {
892 is_dst_type_derived_from_static_type = true;
893 if (info->found_our_static_ptr)
894 {
895 does_dst_type_point_to_our_static_type = true;
896 // If we found what we're looking for, stop looking above.
897 if (info->path_dst_ptr_to_static_ptr == public_path)
898 break;
899 // We found a private path to (static_ptr, static_type)
900 // If there is no diamond then there is only one path
901 // to (static_ptr, static_type) and we just found it.
902 if (!(__flags & __diamond_shaped_mask))
903 break;
904 }
905 else
906 {
907 // If we found a static_type that isn't the one we're looking
908 // for, and if there are no repeated types above here,
909 // then stop looking.
910 if (!(__flags & __non_diamond_repeat_mask))
911 break;
912 }
913 }
914 }
915 // If we found no static_type,s then dst_type doesn't derive
916 // from static_type, else it does. Record this result so that
917 // next time we hit a dst_type we will know not to search above
918 // it if it doesn't derive from static_type.
919 if (is_dst_type_derived_from_static_type)
920 info->is_dst_type_derived_from_static_type = yes;
921 else
922 info->is_dst_type_derived_from_static_type = no;
923 }
924 if (!does_dst_type_point_to_our_static_type)
925 {
926 // We found a dst_type that doesn't point to (static_ptr, static_type)
927 // So record the address of this dst_ptr and increment the
928 // count of the number of such dst_types found in the tree.
929 info->dst_ptr_not_leading_to_static_ptr = current_ptr;
930 info->number_to_dst_ptr += 1;
931 // If there exists another dst with a private path to
932 // (static_ptr, static_type), then the cast from
933 // (dynamic_ptr, dynamic_type) to dst_type is now ambiguous,
934 // so stop search.
935 if (info->number_to_static_ptr == 1 &&
936 info->path_dst_ptr_to_static_ptr == not_public_path)
937 info->search_done = true;
938 }
939 }
940 }
941 else
942 {
943 // This is not a static_type and not a dst_type.
944 const Iter e = __base_info + __base_count;
945 Iter p = __base_info;
946 p->search_below_dst(info, current_ptr, path_below, use_strcmp);
947 if (++p < e)
948 {
949 if ((__flags & __diamond_shaped_mask) || info->number_to_static_ptr == 1)
950 {
951 // If there are multiple paths to a base above from here, or if
952 // a dst_type pointing to (static_ptr, static_type) has been found,
953 // then there is no way to break out of this loop early unless
954 // something below detects the search is done.
955 do
956 {
957 if (info->search_done)
958 break;
959 p->search_below_dst(info, current_ptr, path_below, use_strcmp);
960 } while (++p < e);
961 }
962 else if (__flags & __non_diamond_repeat_mask)
963 {
964 // There are not multiple paths to any base class from here and a
965 // dst_type pointing to (static_ptr, static_type) has not yet been
966 // found.
967 do
968 {
969 if (info->search_done)
970 break;
971 // If we just found a dst_type with a public path to (static_ptr, static_type),
972 // then the only reason to continue the search is to make sure
973 // no other dst_type points to (static_ptr, static_type).
974 // If !diamond, then we don't need to search here.
975 if (info->number_to_static_ptr == 1 &&
976 info->path_dst_ptr_to_static_ptr == public_path)
977 break;
978 p->search_below_dst(info, current_ptr, path_below, use_strcmp);
979 } while (++p < e);
980 }
981 else
982 {
983 // There are no repeated types above this node.
984 // There are no nodes with multiple parents above this node.
985 // no dst_type has been found to (static_ptr, static_type)
986 do
987 {
988 if (info->search_done)
989 break;
990 // If we just found a dst_type with a public path to (static_ptr, static_type),
991 // then the only reason to continue the search is to make sure sure
992 // no other dst_type points to (static_ptr, static_type).
993 // If !diamond, then we don't need to search here.
994 // if we just found a dst_type with a private path to (static_ptr, static_type),
995 // then we're only looking for a public path to (static_ptr, static_type)
996 // and to check for other dst_types.
997 // If !diamond & !repeat, then there is not a pointer to (static_ptr, static_type)
998 // and not a dst_type under here.
999 if (info->number_to_static_ptr == 1)
1000 break;
1001 p->search_below_dst(info, current_ptr, path_below, use_strcmp);
1002 } while (++p < e);
1003 }
1004 }
1005 }
1006 }
1007
1008 // This is the same algorithm as __vmi_class_type_info::search_below_dst but
1009 // simplified to the case that there is only a single base class.
1010 void
search_below_dst(__dynamic_cast_info * info,const void * current_ptr,int path_below,bool use_strcmp) const1011 __si_class_type_info::search_below_dst(__dynamic_cast_info* info,
1012 const void* current_ptr,
1013 int path_below,
1014 bool use_strcmp) const
1015 {
1016 if (is_equal(this, info->static_type, use_strcmp))
1017 process_static_type_below_dst(info, current_ptr, path_below);
1018 else if (is_equal(this, info->dst_type, use_strcmp))
1019 {
1020 // We've been here before if we've recorded current_ptr in one of these
1021 // two places:
1022 if (current_ptr == info->dst_ptr_leading_to_static_ptr ||
1023 current_ptr == info->dst_ptr_not_leading_to_static_ptr)
1024 {
1025 // We've seen this node before, and therefore have already searched
1026 // its base classes above.
1027 // Update path to here that is "most public".
1028 if (path_below == public_path)
1029 info->path_dynamic_ptr_to_dst_ptr = public_path;
1030 }
1031 else // We have haven't been here before
1032 {
1033 // Record the access path that got us here
1034 // If there is more than one dst_type this path doesn't matter.
1035 info->path_dynamic_ptr_to_dst_ptr = path_below;
1036 bool does_dst_type_point_to_our_static_type = false;
1037 // Only search above here if dst_type derives from static_type, or
1038 // if it is unknown if dst_type derives from static_type.
1039 if (info->is_dst_type_derived_from_static_type != no)
1040 {
1041 // Set up flags to record results from all base classes
1042 bool is_dst_type_derived_from_static_type = false;
1043 // Zero out found flags
1044 info->found_our_static_ptr = false;
1045 info->found_any_static_type = false;
1046 __base_type->search_above_dst(info, current_ptr, current_ptr, public_path, use_strcmp);
1047 if (info->found_any_static_type)
1048 {
1049 is_dst_type_derived_from_static_type = true;
1050 if (info->found_our_static_ptr)
1051 does_dst_type_point_to_our_static_type = true;
1052 }
1053 // If we found no static_type,s then dst_type doesn't derive
1054 // from static_type, else it does. Record this result so that
1055 // next time we hit a dst_type we will know not to search above
1056 // it if it doesn't derive from static_type.
1057 if (is_dst_type_derived_from_static_type)
1058 info->is_dst_type_derived_from_static_type = yes;
1059 else
1060 info->is_dst_type_derived_from_static_type = no;
1061 }
1062 if (!does_dst_type_point_to_our_static_type)
1063 {
1064 // We found a dst_type that doesn't point to (static_ptr, static_type)
1065 // So record the address of this dst_ptr and increment the
1066 // count of the number of such dst_types found in the tree.
1067 info->dst_ptr_not_leading_to_static_ptr = current_ptr;
1068 info->number_to_dst_ptr += 1;
1069 // If there exists another dst with a private path to
1070 // (static_ptr, static_type), then the cast from
1071 // (dynamic_ptr, dynamic_type) to dst_type is now ambiguous.
1072 if (info->number_to_static_ptr == 1 &&
1073 info->path_dst_ptr_to_static_ptr == not_public_path)
1074 info->search_done = true;
1075 }
1076 }
1077 }
1078 else
1079 {
1080 // This is not a static_type and not a dst_type
1081 __base_type->search_below_dst(info, current_ptr, path_below, use_strcmp);
1082 }
1083 }
1084
1085 // This is the same algorithm as __vmi_class_type_info::search_below_dst but
1086 // simplified to the case that there is no base class.
1087 void
search_below_dst(__dynamic_cast_info * info,const void * current_ptr,int path_below,bool use_strcmp) const1088 __class_type_info::search_below_dst(__dynamic_cast_info* info,
1089 const void* current_ptr,
1090 int path_below,
1091 bool use_strcmp) const
1092 {
1093 if (is_equal(this, info->static_type, use_strcmp))
1094 process_static_type_below_dst(info, current_ptr, path_below);
1095 else if (is_equal(this, info->dst_type, use_strcmp))
1096 {
1097 // We've been here before if we've recorded current_ptr in one of these
1098 // two places:
1099 if (current_ptr == info->dst_ptr_leading_to_static_ptr ||
1100 current_ptr == info->dst_ptr_not_leading_to_static_ptr)
1101 {
1102 // We've seen this node before, and therefore have already searched
1103 // its base classes above.
1104 // Update path to here that is "most public".
1105 if (path_below == public_path)
1106 info->path_dynamic_ptr_to_dst_ptr = public_path;
1107 }
1108 else // We have haven't been here before
1109 {
1110 // Record the access path that got us here
1111 // If there is more than one dst_type this path doesn't matter.
1112 info->path_dynamic_ptr_to_dst_ptr = path_below;
1113 // We found a dst_type that doesn't point to (static_ptr, static_type)
1114 // So record the address of this dst_ptr and increment the
1115 // count of the number of such dst_types found in the tree.
1116 info->dst_ptr_not_leading_to_static_ptr = current_ptr;
1117 info->number_to_dst_ptr += 1;
1118 // If there exists another dst with a private path to
1119 // (static_ptr, static_type), then the cast from
1120 // (dynamic_ptr, dynamic_type) to dst_type is now ambiguous.
1121 if (info->number_to_static_ptr == 1 &&
1122 info->path_dst_ptr_to_static_ptr == not_public_path)
1123 info->search_done = true;
1124 // We found that dst_type does not derive from static_type
1125 info->is_dst_type_derived_from_static_type = no;
1126 }
1127 }
1128 }
1129
1130 // Call this function when searching above a dst_type node. This function searches
1131 // for a public path to (static_ptr, static_type).
1132 // This function is guaranteed not to find a node of type dst_type.
1133 // Theoretically this is a very simple function which just stops if it finds a
1134 // static_type node: All the hoopla surrounding the search code is doing
1135 // nothing but looking for excuses to stop the search prematurely (break out of
1136 // the for-loop). That is, the algorithm below is simply an optimization of this:
1137 // void
1138 // __vmi_class_type_info::search_above_dst(__dynamic_cast_info* info,
1139 // const void* dst_ptr,
1140 // const void* current_ptr,
1141 // int path_below) const
1142 // {
1143 // if (this == info->static_type)
1144 // process_static_type_above_dst(info, dst_ptr, current_ptr, path_below);
1145 // else
1146 // {
1147 // typedef const __base_class_type_info* Iter;
1148 // // This is not a static_type and not a dst_type
1149 // for (Iter p = __base_info, e = __base_info + __base_count; p < e; ++p)
1150 // {
1151 // p->search_above_dst(info, dst_ptr, current_ptr, public_path);
1152 // // break out early here if you can detect it doesn't matter if you do
1153 // }
1154 // }
1155 // }
1156 void
search_above_dst(__dynamic_cast_info * info,const void * dst_ptr,const void * current_ptr,int path_below,bool use_strcmp) const1157 __vmi_class_type_info::search_above_dst(__dynamic_cast_info* info,
1158 const void* dst_ptr,
1159 const void* current_ptr,
1160 int path_below,
1161 bool use_strcmp) const
1162 {
1163 if (is_equal(this, info->static_type, use_strcmp))
1164 process_static_type_above_dst(info, dst_ptr, current_ptr, path_below);
1165 else
1166 {
1167 typedef const __base_class_type_info* Iter;
1168 // This is not a static_type and not a dst_type
1169 // Save flags so they can be restored when returning to nodes below.
1170 bool found_our_static_ptr = info->found_our_static_ptr;
1171 bool found_any_static_type = info->found_any_static_type;
1172 // We've found a dst_type below with a path to here. If the path
1173 // to here is not public, there may be another path to here that
1174 // is public. So we have to assume that the path to here is public.
1175 // We can stop looking above if:
1176 // 1. We've found a public path to (static_ptr, static_type).
1177 // 2. We've found an ambiguous cast from (static_ptr, static_type) to a dst_type.
1178 // This is detected at the (static_ptr, static_type).
1179 // 3. We can prove that there is no public path to (static_ptr, static_type)
1180 // above here.
1181 const Iter e = __base_info + __base_count;
1182 Iter p = __base_info;
1183 // Zero out found flags
1184 info->found_our_static_ptr = false;
1185 info->found_any_static_type = false;
1186 p->search_above_dst(info, dst_ptr, current_ptr, path_below, use_strcmp);
1187 found_our_static_ptr |= info->found_our_static_ptr;
1188 found_any_static_type |= info->found_any_static_type;
1189 if (++p < e)
1190 {
1191 do
1192 {
1193 if (info->search_done)
1194 break;
1195 if (info->found_our_static_ptr)
1196 {
1197 // If we found what we're looking for, stop looking above.
1198 if (info->path_dst_ptr_to_static_ptr == public_path)
1199 break;
1200 // We found a private path to (static_ptr, static_type)
1201 // If there is no diamond then there is only one path
1202 // to (static_ptr, static_type) from here and we just found it.
1203 if (!(__flags & __diamond_shaped_mask))
1204 break;
1205 }
1206 else if (info->found_any_static_type)
1207 {
1208 // If we found a static_type that isn't the one we're looking
1209 // for, and if there are no repeated types above here,
1210 // then stop looking.
1211 if (!(__flags & __non_diamond_repeat_mask))
1212 break;
1213 }
1214 // Zero out found flags
1215 info->found_our_static_ptr = false;
1216 info->found_any_static_type = false;
1217 p->search_above_dst(info, dst_ptr, current_ptr, path_below, use_strcmp);
1218 found_our_static_ptr |= info->found_our_static_ptr;
1219 found_any_static_type |= info->found_any_static_type;
1220 } while (++p < e);
1221 }
1222 // Restore flags
1223 info->found_our_static_ptr = found_our_static_ptr;
1224 info->found_any_static_type = found_any_static_type;
1225 }
1226 }
1227
1228 // This is the same algorithm as __vmi_class_type_info::search_above_dst but
1229 // simplified to the case that there is only a single base class.
1230 void
search_above_dst(__dynamic_cast_info * info,const void * dst_ptr,const void * current_ptr,int path_below,bool use_strcmp) const1231 __si_class_type_info::search_above_dst(__dynamic_cast_info* info,
1232 const void* dst_ptr,
1233 const void* current_ptr,
1234 int path_below,
1235 bool use_strcmp) const
1236 {
1237 if (is_equal(this, info->static_type, use_strcmp))
1238 process_static_type_above_dst(info, dst_ptr, current_ptr, path_below);
1239 else
1240 __base_type->search_above_dst(info, dst_ptr, current_ptr, path_below, use_strcmp);
1241 }
1242
1243 // This is the same algorithm as __vmi_class_type_info::search_above_dst but
1244 // simplified to the case that there is no base class.
1245 void
search_above_dst(__dynamic_cast_info * info,const void * dst_ptr,const void * current_ptr,int path_below,bool use_strcmp) const1246 __class_type_info::search_above_dst(__dynamic_cast_info* info,
1247 const void* dst_ptr,
1248 const void* current_ptr,
1249 int path_below,
1250 bool use_strcmp) const
1251 {
1252 if (is_equal(this, info->static_type, use_strcmp))
1253 process_static_type_above_dst(info, dst_ptr, current_ptr, path_below);
1254 }
1255
1256 // The search functions for __base_class_type_info are simply convenience
1257 // functions for adjusting the current_ptr and path_below as the search is
1258 // passed up to the base class node.
1259
1260 void
search_above_dst(__dynamic_cast_info * info,const void * dst_ptr,const void * current_ptr,int path_below,bool use_strcmp) const1261 __base_class_type_info::search_above_dst(__dynamic_cast_info* info,
1262 const void* dst_ptr,
1263 const void* current_ptr,
1264 int path_below,
1265 bool use_strcmp) const
1266 {
1267 ptrdiff_t offset_to_base = __offset_flags >> __offset_shift;
1268 if (__offset_flags & __virtual_mask)
1269 {
1270 const char* vtable = *static_cast<const char*const*>(current_ptr);
1271 offset_to_base = *reinterpret_cast<const ptrdiff_t*>(vtable + offset_to_base);
1272 }
1273 __base_type->search_above_dst(info, dst_ptr,
1274 static_cast<const char*>(current_ptr) + offset_to_base,
1275 (__offset_flags & __public_mask) ?
1276 path_below :
1277 not_public_path,
1278 use_strcmp);
1279 }
1280
1281 void
search_below_dst(__dynamic_cast_info * info,const void * current_ptr,int path_below,bool use_strcmp) const1282 __base_class_type_info::search_below_dst(__dynamic_cast_info* info,
1283 const void* current_ptr,
1284 int path_below,
1285 bool use_strcmp) const
1286 {
1287 ptrdiff_t offset_to_base = __offset_flags >> __offset_shift;
1288 if (__offset_flags & __virtual_mask)
1289 {
1290 const char* vtable = *static_cast<const char*const*>(current_ptr);
1291 offset_to_base = *reinterpret_cast<const ptrdiff_t*>(vtable + offset_to_base);
1292 }
1293 __base_type->search_below_dst(info,
1294 static_cast<const char*>(current_ptr) + offset_to_base,
1295 (__offset_flags & __public_mask) ?
1296 path_below :
1297 not_public_path,
1298 use_strcmp);
1299 }
1300
1301 } // __cxxabiv1
1302