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1 /*
2  * Copyright (C) 2005 The Android Open Source Project
3  *
4  * Licensed under the Apache License, Version 2.0 (the "License");
5  * you may not use this file except in compliance with the License.
6  * You may obtain a copy of the License at
7  *
8  *      http://www.apache.org/licenses/LICENSE-2.0
9  *
10  * Unless required by applicable law or agreed to in writing, software
11  * distributed under the License is distributed on an "AS IS" BASIS,
12  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13  * See the License for the specific language governing permissions and
14  * limitations under the License.
15  */
16 
17 #define LOG_TAG "RefBase"
18 // #define LOG_NDEBUG 0
19 
20 #include <fcntl.h>
21 #include <stdio.h>
22 #include <stdlib.h>
23 #include <sys/stat.h>
24 #include <sys/types.h>
25 #include <typeinfo>
26 #include <unistd.h>
27 
28 #include <utils/RefBase.h>
29 
30 #include <utils/CallStack.h>
31 #include <utils/Log.h>
32 #include <utils/threads.h>
33 
34 #ifndef __unused
35 #define __unused __attribute__((__unused__))
36 #endif
37 
38 // compile with refcounting debugging enabled
39 #define DEBUG_REFS                      0
40 
41 // whether ref-tracking is enabled by default, if not, trackMe(true, false)
42 // needs to be called explicitly
43 #define DEBUG_REFS_ENABLED_BY_DEFAULT   0
44 
45 // whether callstack are collected (significantly slows things down)
46 #define DEBUG_REFS_CALLSTACK_ENABLED    1
47 
48 // folder where stack traces are saved when DEBUG_REFS is enabled
49 // this folder needs to exist and be writable
50 #define DEBUG_REFS_CALLSTACK_PATH       "/data/debug"
51 
52 // log all reference counting operations
53 #define PRINT_REFS                      0
54 
55 // ---------------------------------------------------------------------------
56 
57 namespace android {
58 
59 // Usage, invariants, etc:
60 
61 // It is normally OK just to keep weak pointers to an object.  The object will
62 // be deallocated by decWeak when the last weak reference disappears.
63 // Once a a strong reference has been created, the object will disappear once
64 // the last strong reference does (decStrong).
65 // AttemptIncStrong will succeed if the object has a strong reference, or if it
66 // has a weak reference and has never had a strong reference.
67 // AttemptIncWeak really does succeed only if there is already a WEAK
68 // reference, and thus may fail when attemptIncStrong would succeed.
69 // OBJECT_LIFETIME_WEAK changes this behavior to retain the object
70 // unconditionally until the last reference of either kind disappears.  The
71 // client ensures that the extendObjectLifetime call happens before the dec
72 // call that would otherwise have deallocated the object, or before an
73 // attemptIncStrong call that might rely on it.  We do not worry about
74 // concurrent changes to the object lifetime.
75 // mStrong is the strong reference count.  mWeak is the weak reference count.
76 // Between calls, and ignoring memory ordering effects, mWeak includes strong
77 // references, and is thus >= mStrong.
78 //
79 // A weakref_impl is allocated as the value of mRefs in a RefBase object on
80 // construction.
81 // In the OBJECT_LIFETIME_STRONG case, it is deallocated in the RefBase
82 // destructor iff the strong reference count was never incremented. The
83 // destructor can be invoked either from decStrong, or from decWeak if there
84 // was never a strong reference. If the reference count had been incremented,
85 // it is deallocated directly in decWeak, and hence still lives as long as
86 // the last weak reference.
87 // In the OBJECT_LIFETIME_WEAK case, it is always deallocated from the RefBase
88 // destructor, which is always invoked by decWeak. DecStrong explicitly avoids
89 // the deletion in this case.
90 //
91 // Memory ordering:
92 // The client must ensure that every inc() call, together with all other
93 // accesses to the object, happens before the corresponding dec() call.
94 //
95 // We try to keep memory ordering constraints on atomics as weak as possible,
96 // since memory fences or ordered memory accesses are likely to be a major
97 // performance cost for this code. All accesses to mStrong, mWeak, and mFlags
98 // explicitly relax memory ordering in some way.
99 //
100 // The only operations that are not memory_order_relaxed are reference count
101 // decrements. All reference count decrements are release operations.  In
102 // addition, the final decrement leading the deallocation is followed by an
103 // acquire fence, which we can view informally as also turning it into an
104 // acquire operation.  (See 29.8p4 [atomics.fences] for details. We could
105 // alternatively use acq_rel operations for all decrements. This is probably
106 // slower on most current (2016) hardware, especially on ARMv7, but that may
107 // not be true indefinitely.)
108 //
109 // This convention ensures that the second-to-last decrement synchronizes with
110 // (in the language of 1.10 in the C++ standard) the final decrement of a
111 // reference count. Since reference counts are only updated using atomic
112 // read-modify-write operations, this also extends to any earlier decrements.
113 // (See "release sequence" in 1.10.)
114 //
115 // Since all operations on an object happen before the corresponding reference
116 // count decrement, and all reference count decrements happen before the final
117 // one, we are guaranteed that all other object accesses happen before the
118 // object is destroyed.
119 
120 
121 #define INITIAL_STRONG_VALUE (1<<28)
122 
123 // ---------------------------------------------------------------------------
124 
125 class RefBase::weakref_impl : public RefBase::weakref_type
126 {
127 public:
128     std::atomic<int32_t>    mStrong;
129     std::atomic<int32_t>    mWeak;
130     RefBase* const          mBase;
131     std::atomic<int32_t>    mFlags;
132 
133 #if !DEBUG_REFS
134 
weakref_impl(RefBase * base)135     weakref_impl(RefBase* base)
136         : mStrong(INITIAL_STRONG_VALUE)
137         , mWeak(0)
138         , mBase(base)
139         , mFlags(0)
140     {
141     }
142 
addStrongRef(const void *)143     void addStrongRef(const void* /*id*/) { }
removeStrongRef(const void *)144     void removeStrongRef(const void* /*id*/) { }
renameStrongRefId(const void *,const void *)145     void renameStrongRefId(const void* /*old_id*/, const void* /*new_id*/) { }
addWeakRef(const void *)146     void addWeakRef(const void* /*id*/) { }
removeWeakRef(const void *)147     void removeWeakRef(const void* /*id*/) { }
renameWeakRefId(const void *,const void *)148     void renameWeakRefId(const void* /*old_id*/, const void* /*new_id*/) { }
printRefs() const149     void printRefs() const { }
trackMe(bool,bool)150     void trackMe(bool, bool) { }
151 
152 #else
153 
weakref_impl(RefBase * base)154     weakref_impl(RefBase* base)
155         : mStrong(INITIAL_STRONG_VALUE)
156         , mWeak(0)
157         , mBase(base)
158         , mFlags(0)
159         , mStrongRefs(NULL)
160         , mWeakRefs(NULL)
161         , mTrackEnabled(!!DEBUG_REFS_ENABLED_BY_DEFAULT)
162         , mRetain(false)
163     {
164     }
165 
~weakref_impl()166     ~weakref_impl()
167     {
168         bool dumpStack = false;
169         if (!mRetain && mStrongRefs != NULL) {
170             dumpStack = true;
171             ALOGE("Strong references remain:");
172             ref_entry* refs = mStrongRefs;
173             while (refs) {
174                 char inc = refs->ref >= 0 ? '+' : '-';
175                 ALOGD("\t%c ID %p (ref %d):", inc, refs->id, refs->ref);
176 #if DEBUG_REFS_CALLSTACK_ENABLED
177                 refs->stack.log(LOG_TAG);
178 #endif
179                 refs = refs->next;
180             }
181         }
182 
183         if (!mRetain && mWeakRefs != NULL) {
184             dumpStack = true;
185             ALOGE("Weak references remain!");
186             ref_entry* refs = mWeakRefs;
187             while (refs) {
188                 char inc = refs->ref >= 0 ? '+' : '-';
189                 ALOGD("\t%c ID %p (ref %d):", inc, refs->id, refs->ref);
190 #if DEBUG_REFS_CALLSTACK_ENABLED
191                 refs->stack.log(LOG_TAG);
192 #endif
193                 refs = refs->next;
194             }
195         }
196         if (dumpStack) {
197             ALOGE("above errors at:");
198             CallStack stack(LOG_TAG);
199         }
200     }
201 
addStrongRef(const void * id)202     void addStrongRef(const void* id) {
203         //ALOGD_IF(mTrackEnabled,
204         //        "addStrongRef: RefBase=%p, id=%p", mBase, id);
205         addRef(&mStrongRefs, id, mStrong.load(std::memory_order_relaxed));
206     }
207 
removeStrongRef(const void * id)208     void removeStrongRef(const void* id) {
209         //ALOGD_IF(mTrackEnabled,
210         //        "removeStrongRef: RefBase=%p, id=%p", mBase, id);
211         if (!mRetain) {
212             removeRef(&mStrongRefs, id);
213         } else {
214             addRef(&mStrongRefs, id, -mStrong.load(std::memory_order_relaxed));
215         }
216     }
217 
renameStrongRefId(const void * old_id,const void * new_id)218     void renameStrongRefId(const void* old_id, const void* new_id) {
219         //ALOGD_IF(mTrackEnabled,
220         //        "renameStrongRefId: RefBase=%p, oid=%p, nid=%p",
221         //        mBase, old_id, new_id);
222         renameRefsId(mStrongRefs, old_id, new_id);
223     }
224 
addWeakRef(const void * id)225     void addWeakRef(const void* id) {
226         addRef(&mWeakRefs, id, mWeak.load(std::memory_order_relaxed));
227     }
228 
removeWeakRef(const void * id)229     void removeWeakRef(const void* id) {
230         if (!mRetain) {
231             removeRef(&mWeakRefs, id);
232         } else {
233             addRef(&mWeakRefs, id, -mWeak.load(std::memory_order_relaxed));
234         }
235     }
236 
renameWeakRefId(const void * old_id,const void * new_id)237     void renameWeakRefId(const void* old_id, const void* new_id) {
238         renameRefsId(mWeakRefs, old_id, new_id);
239     }
240 
trackMe(bool track,bool retain)241     void trackMe(bool track, bool retain)
242     {
243         mTrackEnabled = track;
244         mRetain = retain;
245     }
246 
printRefs() const247     void printRefs() const
248     {
249         String8 text;
250 
251         {
252             Mutex::Autolock _l(mMutex);
253             char buf[128];
254             sprintf(buf, "Strong references on RefBase %p (weakref_type %p):\n", mBase, this);
255             text.append(buf);
256             printRefsLocked(&text, mStrongRefs);
257             sprintf(buf, "Weak references on RefBase %p (weakref_type %p):\n", mBase, this);
258             text.append(buf);
259             printRefsLocked(&text, mWeakRefs);
260         }
261 
262         {
263             char name[100];
264             snprintf(name, 100, DEBUG_REFS_CALLSTACK_PATH "/%p.stack", this);
265             int rc = open(name, O_RDWR | O_CREAT | O_APPEND, 644);
266             if (rc >= 0) {
267                 write(rc, text.string(), text.length());
268                 close(rc);
269                 ALOGD("STACK TRACE for %p saved in %s", this, name);
270             }
271             else ALOGE("FAILED TO PRINT STACK TRACE for %p in %s: %s", this,
272                       name, strerror(errno));
273         }
274     }
275 
276 private:
277     struct ref_entry
278     {
279         ref_entry* next;
280         const void* id;
281 #if DEBUG_REFS_CALLSTACK_ENABLED
282         CallStack stack;
283 #endif
284         int32_t ref;
285     };
286 
addRef(ref_entry ** refs,const void * id,int32_t mRef)287     void addRef(ref_entry** refs, const void* id, int32_t mRef)
288     {
289         if (mTrackEnabled) {
290             AutoMutex _l(mMutex);
291 
292             ref_entry* ref = new ref_entry;
293             // Reference count at the time of the snapshot, but before the
294             // update.  Positive value means we increment, negative--we
295             // decrement the reference count.
296             ref->ref = mRef;
297             ref->id = id;
298 #if DEBUG_REFS_CALLSTACK_ENABLED
299             ref->stack.update(2);
300 #endif
301             ref->next = *refs;
302             *refs = ref;
303         }
304     }
305 
removeRef(ref_entry ** refs,const void * id)306     void removeRef(ref_entry** refs, const void* id)
307     {
308         if (mTrackEnabled) {
309             AutoMutex _l(mMutex);
310 
311             ref_entry* const head = *refs;
312             ref_entry* ref = head;
313             while (ref != NULL) {
314                 if (ref->id == id) {
315                     *refs = ref->next;
316                     delete ref;
317                     return;
318                 }
319                 refs = &ref->next;
320                 ref = *refs;
321             }
322 
323             ALOGE("RefBase: removing id %p on RefBase %p"
324                     "(weakref_type %p) that doesn't exist!",
325                     id, mBase, this);
326 
327             ref = head;
328             while (ref) {
329                 char inc = ref->ref >= 0 ? '+' : '-';
330                 ALOGD("\t%c ID %p (ref %d):", inc, ref->id, ref->ref);
331                 ref = ref->next;
332             }
333 
334             CallStack stack(LOG_TAG);
335         }
336     }
337 
renameRefsId(ref_entry * r,const void * old_id,const void * new_id)338     void renameRefsId(ref_entry* r, const void* old_id, const void* new_id)
339     {
340         if (mTrackEnabled) {
341             AutoMutex _l(mMutex);
342             ref_entry* ref = r;
343             while (ref != NULL) {
344                 if (ref->id == old_id) {
345                     ref->id = new_id;
346                 }
347                 ref = ref->next;
348             }
349         }
350     }
351 
printRefsLocked(String8 * out,const ref_entry * refs) const352     void printRefsLocked(String8* out, const ref_entry* refs) const
353     {
354         char buf[128];
355         while (refs) {
356             char inc = refs->ref >= 0 ? '+' : '-';
357             sprintf(buf, "\t%c ID %p (ref %d):\n",
358                     inc, refs->id, refs->ref);
359             out->append(buf);
360 #if DEBUG_REFS_CALLSTACK_ENABLED
361             out->append(refs->stack.toString("\t\t"));
362 #else
363             out->append("\t\t(call stacks disabled)");
364 #endif
365             refs = refs->next;
366         }
367     }
368 
369     mutable Mutex mMutex;
370     ref_entry* mStrongRefs;
371     ref_entry* mWeakRefs;
372 
373     bool mTrackEnabled;
374     // Collect stack traces on addref and removeref, instead of deleting the stack references
375     // on removeref that match the address ones.
376     bool mRetain;
377 
378 #endif
379 };
380 
381 // ---------------------------------------------------------------------------
382 
incStrong(const void * id) const383 void RefBase::incStrong(const void* id) const
384 {
385     weakref_impl* const refs = mRefs;
386     refs->incWeak(id);
387 
388     refs->addStrongRef(id);
389     const int32_t c = refs->mStrong.fetch_add(1, std::memory_order_relaxed);
390     ALOG_ASSERT(c > 0, "incStrong() called on %p after last strong ref", refs);
391 #if PRINT_REFS
392     ALOGD("incStrong of %p from %p: cnt=%d\n", this, id, c);
393 #endif
394     if (c != INITIAL_STRONG_VALUE)  {
395         return;
396     }
397 
398     int32_t old = refs->mStrong.fetch_sub(INITIAL_STRONG_VALUE,
399             std::memory_order_relaxed);
400     // A decStrong() must still happen after us.
401     ALOG_ASSERT(old > INITIAL_STRONG_VALUE, "0x%x too small", old);
402     refs->mBase->onFirstRef();
403 }
404 
decStrong(const void * id) const405 void RefBase::decStrong(const void* id) const
406 {
407     weakref_impl* const refs = mRefs;
408     refs->removeStrongRef(id);
409     const int32_t c = refs->mStrong.fetch_sub(1, std::memory_order_release);
410 #if PRINT_REFS
411     ALOGD("decStrong of %p from %p: cnt=%d\n", this, id, c);
412 #endif
413     ALOG_ASSERT(c >= 1, "decStrong() called on %p too many times", refs);
414     if (c == 1) {
415         std::atomic_thread_fence(std::memory_order_acquire);
416         refs->mBase->onLastStrongRef(id);
417         int32_t flags = refs->mFlags.load(std::memory_order_relaxed);
418         if ((flags&OBJECT_LIFETIME_MASK) == OBJECT_LIFETIME_STRONG) {
419             delete this;
420             // Since mStrong had been incremented, the destructor did not
421             // delete refs.
422         }
423     }
424     // Note that even with only strong reference operations, the thread
425     // deallocating this may not be the same as the thread deallocating refs.
426     // That's OK: all accesses to this happen before its deletion here,
427     // and all accesses to refs happen before its deletion in the final decWeak.
428     // The destructor can safely access mRefs because either it's deleting
429     // mRefs itself, or it's running entirely before the final mWeak decrement.
430     refs->decWeak(id);
431 }
432 
forceIncStrong(const void * id) const433 void RefBase::forceIncStrong(const void* id) const
434 {
435     // Allows initial mStrong of 0 in addition to INITIAL_STRONG_VALUE.
436     // TODO: Better document assumptions.
437     weakref_impl* const refs = mRefs;
438     refs->incWeak(id);
439 
440     refs->addStrongRef(id);
441     const int32_t c = refs->mStrong.fetch_add(1, std::memory_order_relaxed);
442     ALOG_ASSERT(c >= 0, "forceIncStrong called on %p after ref count underflow",
443                refs);
444 #if PRINT_REFS
445     ALOGD("forceIncStrong of %p from %p: cnt=%d\n", this, id, c);
446 #endif
447 
448     switch (c) {
449     case INITIAL_STRONG_VALUE:
450         refs->mStrong.fetch_sub(INITIAL_STRONG_VALUE,
451                 std::memory_order_relaxed);
452         // fall through...
453     case 0:
454         refs->mBase->onFirstRef();
455     }
456 }
457 
getStrongCount() const458 int32_t RefBase::getStrongCount() const
459 {
460     // Debugging only; No memory ordering guarantees.
461     return mRefs->mStrong.load(std::memory_order_relaxed);
462 }
463 
refBase() const464 RefBase* RefBase::weakref_type::refBase() const
465 {
466     return static_cast<const weakref_impl*>(this)->mBase;
467 }
468 
incWeak(const void * id)469 void RefBase::weakref_type::incWeak(const void* id)
470 {
471     weakref_impl* const impl = static_cast<weakref_impl*>(this);
472     impl->addWeakRef(id);
473     const int32_t c __unused = impl->mWeak.fetch_add(1,
474             std::memory_order_relaxed);
475     ALOG_ASSERT(c >= 0, "incWeak called on %p after last weak ref", this);
476 }
477 
478 
decWeak(const void * id)479 void RefBase::weakref_type::decWeak(const void* id)
480 {
481     weakref_impl* const impl = static_cast<weakref_impl*>(this);
482     impl->removeWeakRef(id);
483     const int32_t c = impl->mWeak.fetch_sub(1, std::memory_order_release);
484     ALOG_ASSERT(c >= 1, "decWeak called on %p too many times", this);
485     if (c != 1) return;
486     atomic_thread_fence(std::memory_order_acquire);
487 
488     int32_t flags = impl->mFlags.load(std::memory_order_relaxed);
489     if ((flags&OBJECT_LIFETIME_MASK) == OBJECT_LIFETIME_STRONG) {
490         // This is the regular lifetime case. The object is destroyed
491         // when the last strong reference goes away. Since weakref_impl
492         // outlive the object, it is not destroyed in the dtor, and
493         // we'll have to do it here.
494         if (impl->mStrong.load(std::memory_order_relaxed)
495                 == INITIAL_STRONG_VALUE) {
496             // Special case: we never had a strong reference, so we need to
497             // destroy the object now.
498             delete impl->mBase;
499         } else {
500             // ALOGV("Freeing refs %p of old RefBase %p\n", this, impl->mBase);
501             delete impl;
502         }
503     } else {
504         // This is the OBJECT_LIFETIME_WEAK case. The last weak-reference
505         // is gone, we can destroy the object.
506         impl->mBase->onLastWeakRef(id);
507         delete impl->mBase;
508     }
509 }
510 
attemptIncStrong(const void * id)511 bool RefBase::weakref_type::attemptIncStrong(const void* id)
512 {
513     incWeak(id);
514 
515     weakref_impl* const impl = static_cast<weakref_impl*>(this);
516     int32_t curCount = impl->mStrong.load(std::memory_order_relaxed);
517 
518     ALOG_ASSERT(curCount >= 0,
519             "attemptIncStrong called on %p after underflow", this);
520 
521     while (curCount > 0 && curCount != INITIAL_STRONG_VALUE) {
522         // we're in the easy/common case of promoting a weak-reference
523         // from an existing strong reference.
524         if (impl->mStrong.compare_exchange_weak(curCount, curCount+1,
525                 std::memory_order_relaxed)) {
526             break;
527         }
528         // the strong count has changed on us, we need to re-assert our
529         // situation. curCount was updated by compare_exchange_weak.
530     }
531 
532     if (curCount <= 0 || curCount == INITIAL_STRONG_VALUE) {
533         // we're now in the harder case of either:
534         // - there never was a strong reference on us
535         // - or, all strong references have been released
536         int32_t flags = impl->mFlags.load(std::memory_order_relaxed);
537         if ((flags&OBJECT_LIFETIME_MASK) == OBJECT_LIFETIME_STRONG) {
538             // this object has a "normal" life-time, i.e.: it gets destroyed
539             // when the last strong reference goes away
540             if (curCount <= 0) {
541                 // the last strong-reference got released, the object cannot
542                 // be revived.
543                 decWeak(id);
544                 return false;
545             }
546 
547             // here, curCount == INITIAL_STRONG_VALUE, which means
548             // there never was a strong-reference, so we can try to
549             // promote this object; we need to do that atomically.
550             while (curCount > 0) {
551                 if (impl->mStrong.compare_exchange_weak(curCount, curCount+1,
552                         std::memory_order_relaxed)) {
553                     break;
554                 }
555                 // the strong count has changed on us, we need to re-assert our
556                 // situation (e.g.: another thread has inc/decStrong'ed us)
557                 // curCount has been updated.
558             }
559 
560             if (curCount <= 0) {
561                 // promote() failed, some other thread destroyed us in the
562                 // meantime (i.e.: strong count reached zero).
563                 decWeak(id);
564                 return false;
565             }
566         } else {
567             // this object has an "extended" life-time, i.e.: it can be
568             // revived from a weak-reference only.
569             // Ask the object's implementation if it agrees to be revived
570             if (!impl->mBase->onIncStrongAttempted(FIRST_INC_STRONG, id)) {
571                 // it didn't so give-up.
572                 decWeak(id);
573                 return false;
574             }
575             // grab a strong-reference, which is always safe due to the
576             // extended life-time.
577             curCount = impl->mStrong.fetch_add(1, std::memory_order_relaxed);
578         }
579 
580         // If the strong reference count has already been incremented by
581         // someone else, the implementor of onIncStrongAttempted() is holding
582         // an unneeded reference.  So call onLastStrongRef() here to remove it.
583         // (No, this is not pretty.)  Note that we MUST NOT do this if we
584         // are in fact acquiring the first reference.
585         if (curCount > 0 && curCount < INITIAL_STRONG_VALUE) {
586             impl->mBase->onLastStrongRef(id);
587         }
588     }
589 
590     impl->addStrongRef(id);
591 
592 #if PRINT_REFS
593     ALOGD("attemptIncStrong of %p from %p: cnt=%d\n", this, id, curCount);
594 #endif
595 
596     // curCount is the value of mStrong before we increment ed it.
597     // Now we need to fix-up the count if it was INITIAL_STRONG_VALUE.
598     // This must be done safely, i.e.: handle the case where several threads
599     // were here in attemptIncStrong().
600     // curCount > INITIAL_STRONG_VALUE is OK, and can happen if we're doing
601     // this in the middle of another incStrong.  The subtraction is handled
602     // by the thread that started with INITIAL_STRONG_VALUE.
603     if (curCount == INITIAL_STRONG_VALUE) {
604         impl->mStrong.fetch_sub(INITIAL_STRONG_VALUE,
605                 std::memory_order_relaxed);
606     }
607 
608     return true;
609 }
610 
attemptIncWeak(const void * id)611 bool RefBase::weakref_type::attemptIncWeak(const void* id)
612 {
613     weakref_impl* const impl = static_cast<weakref_impl*>(this);
614 
615     int32_t curCount = impl->mWeak.load(std::memory_order_relaxed);
616     ALOG_ASSERT(curCount >= 0, "attemptIncWeak called on %p after underflow",
617                this);
618     while (curCount > 0) {
619         if (impl->mWeak.compare_exchange_weak(curCount, curCount+1,
620                 std::memory_order_relaxed)) {
621             break;
622         }
623         // curCount has been updated.
624     }
625 
626     if (curCount > 0) {
627         impl->addWeakRef(id);
628     }
629 
630     return curCount > 0;
631 }
632 
getWeakCount() const633 int32_t RefBase::weakref_type::getWeakCount() const
634 {
635     // Debug only!
636     return static_cast<const weakref_impl*>(this)->mWeak
637             .load(std::memory_order_relaxed);
638 }
639 
printRefs() const640 void RefBase::weakref_type::printRefs() const
641 {
642     static_cast<const weakref_impl*>(this)->printRefs();
643 }
644 
trackMe(bool enable,bool retain)645 void RefBase::weakref_type::trackMe(bool enable, bool retain)
646 {
647     static_cast<weakref_impl*>(this)->trackMe(enable, retain);
648 }
649 
createWeak(const void * id) const650 RefBase::weakref_type* RefBase::createWeak(const void* id) const
651 {
652     mRefs->incWeak(id);
653     return mRefs;
654 }
655 
getWeakRefs() const656 RefBase::weakref_type* RefBase::getWeakRefs() const
657 {
658     return mRefs;
659 }
660 
RefBase()661 RefBase::RefBase()
662     : mRefs(new weakref_impl(this))
663 {
664 }
665 
~RefBase()666 RefBase::~RefBase()
667 {
668     if (mRefs->mStrong.load(std::memory_order_relaxed)
669             == INITIAL_STRONG_VALUE) {
670         // we never acquired a strong (and/or weak) reference on this object.
671         delete mRefs;
672     } else {
673         // life-time of this object is extended to WEAK, in
674         // which case weakref_impl doesn't out-live the object and we
675         // can free it now.
676         int32_t flags = mRefs->mFlags.load(std::memory_order_relaxed);
677         if ((flags & OBJECT_LIFETIME_MASK) != OBJECT_LIFETIME_STRONG) {
678             // It's possible that the weak count is not 0 if the object
679             // re-acquired a weak reference in its destructor
680             if (mRefs->mWeak.load(std::memory_order_relaxed) == 0) {
681                 delete mRefs;
682             }
683         }
684     }
685     // for debugging purposes, clear this.
686     const_cast<weakref_impl*&>(mRefs) = NULL;
687 }
688 
extendObjectLifetime(int32_t mode)689 void RefBase::extendObjectLifetime(int32_t mode)
690 {
691     // Must be happens-before ordered with respect to construction or any
692     // operation that could destroy the object.
693     mRefs->mFlags.fetch_or(mode, std::memory_order_relaxed);
694 }
695 
onFirstRef()696 void RefBase::onFirstRef()
697 {
698 }
699 
onLastStrongRef(const void *)700 void RefBase::onLastStrongRef(const void* /*id*/)
701 {
702 }
703 
onIncStrongAttempted(uint32_t flags,const void *)704 bool RefBase::onIncStrongAttempted(uint32_t flags, const void* /*id*/)
705 {
706     return (flags&FIRST_INC_STRONG) ? true : false;
707 }
708 
onLastWeakRef(const void *)709 void RefBase::onLastWeakRef(const void* /*id*/)
710 {
711 }
712 
713 // ---------------------------------------------------------------------------
714 
715 #if DEBUG_REFS
renameRefs(size_t n,const ReferenceRenamer & renamer)716 void RefBase::renameRefs(size_t n, const ReferenceRenamer& renamer) {
717     for (size_t i=0 ; i<n ; i++) {
718         renamer(i);
719     }
720 }
721 #else
renameRefs(size_t,const ReferenceRenamer &)722 void RefBase::renameRefs(size_t /*n*/, const ReferenceRenamer& /*renamer*/) { }
723 #endif
724 
renameRefId(weakref_type * ref,const void * old_id,const void * new_id)725 void RefBase::renameRefId(weakref_type* ref,
726         const void* old_id, const void* new_id) {
727     weakref_impl* const impl = static_cast<weakref_impl*>(ref);
728     impl->renameStrongRefId(old_id, new_id);
729     impl->renameWeakRefId(old_id, new_id);
730 }
731 
renameRefId(RefBase * ref,const void * old_id,const void * new_id)732 void RefBase::renameRefId(RefBase* ref,
733         const void* old_id, const void* new_id) {
734     ref->mRefs->renameStrongRefId(old_id, new_id);
735     ref->mRefs->renameWeakRefId(old_id, new_id);
736 }
737 
738 }; // namespace android
739