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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 "hw-IPCThreadState"
18 
19 #include <hwbinder/IPCThreadState.h>
20 
21 #include <hwbinder/Binder.h>
22 #include <hwbinder/BpHwBinder.h>
23 
24 #include <android-base/macros.h>
25 #include <utils/CallStack.h>
26 #include <utils/Log.h>
27 #include <utils/SystemClock.h>
28 #include <utils/threads.h>
29 
30 #include "binder_kernel.h"
31 #include <hwbinder/Static.h>
32 #include "TextOutput.h"
33 
34 #include <atomic>
35 #include <errno.h>
36 #include <inttypes.h>
37 #include <linux/sched.h>
38 #include <pthread.h>
39 #include <signal.h>
40 #include <stdio.h>
41 #include <sys/ioctl.h>
42 #include <sys/resource.h>
43 #include <unistd.h>
44 
45 #if LOG_NDEBUG
46 
47 #define IF_LOG_TRANSACTIONS() if (false)
48 #define IF_LOG_COMMANDS() if (false)
49 #define LOG_REMOTEREFS(...)
50 #define IF_LOG_REMOTEREFS() if (false)
51 #define LOG_THREADPOOL(...)
52 #define LOG_ONEWAY(...)
53 
54 #else
55 
56 #define IF_LOG_TRANSACTIONS() IF_ALOG(LOG_VERBOSE, "transact")
57 #define IF_LOG_COMMANDS() IF_ALOG(LOG_VERBOSE, "ipc")
58 #define LOG_REMOTEREFS(...) ALOG(LOG_DEBUG, "remoterefs", __VA_ARGS__)
59 #define IF_LOG_REMOTEREFS() IF_ALOG(LOG_DEBUG, "remoterefs")
60 #define LOG_THREADPOOL(...) ALOG(LOG_DEBUG, "threadpool", __VA_ARGS__)
61 #define LOG_ONEWAY(...) ALOG(LOG_DEBUG, "ipc", __VA_ARGS__)
62 
63 #endif
64 
65 // ---------------------------------------------------------------------------
66 
67 namespace android {
68 namespace hardware {
69 
70 // Static const and functions will be optimized out if not used,
71 // when LOG_NDEBUG and references in IF_LOG_COMMANDS() are optimized out.
72 static const char *kReturnStrings[] = {
73     "BR_ERROR",
74     "BR_OK",
75     "BR_TRANSACTION",
76     "BR_REPLY",
77     "BR_ACQUIRE_RESULT",
78     "BR_DEAD_REPLY",
79     "BR_TRANSACTION_COMPLETE",
80     "BR_INCREFS",
81     "BR_ACQUIRE",
82     "BR_RELEASE",
83     "BR_DECREFS",
84     "BR_ATTEMPT_ACQUIRE",
85     "BR_NOOP",
86     "BR_SPAWN_LOOPER",
87     "BR_FINISHED",
88     "BR_DEAD_BINDER",
89     "BR_CLEAR_DEATH_NOTIFICATION_DONE",
90     "BR_FAILED_REPLY",
91     "BR_FROZEN_REPLY",
92     "BR_ONEWAY_SPAM_SUSPECT",
93     "BR_TRANSACTION_SEC_CTX",
94 };
95 
96 static const char *kCommandStrings[] = {
97     "BC_TRANSACTION",
98     "BC_REPLY",
99     "BC_ACQUIRE_RESULT",
100     "BC_FREE_BUFFER",
101     "BC_INCREFS",
102     "BC_ACQUIRE",
103     "BC_RELEASE",
104     "BC_DECREFS",
105     "BC_INCREFS_DONE",
106     "BC_ACQUIRE_DONE",
107     "BC_ATTEMPT_ACQUIRE",
108     "BC_REGISTER_LOOPER",
109     "BC_ENTER_LOOPER",
110     "BC_EXIT_LOOPER",
111     "BC_REQUEST_DEATH_NOTIFICATION",
112     "BC_CLEAR_DEATH_NOTIFICATION",
113     "BC_DEAD_BINDER_DONE"
114 };
115 
getReturnString(uint32_t cmd)116 static const char* getReturnString(uint32_t cmd)
117 {
118     size_t idx = cmd & _IOC_NRMASK;
119     if (idx < sizeof(kReturnStrings) / sizeof(kReturnStrings[0]))
120         return kReturnStrings[idx];
121     else
122         return "unknown";
123 }
124 
printBinderTransactionData(TextOutput & out,const void * data)125 static const void* printBinderTransactionData(TextOutput& out, const void* data)
126 {
127     const binder_transaction_data* btd =
128         (const binder_transaction_data*)data;
129     if (btd->target.handle < 1024) {
130         /* want to print descriptors in decimal; guess based on value */
131         out << "target.desc=" << btd->target.handle;
132     } else {
133         out << "target.ptr=" << btd->target.ptr;
134     }
135     out << " (cookie " << btd->cookie << ")" << endl
136         << "code=" << TypeCode(btd->code) << ", flags=" << (void*)(long)btd->flags << endl
137         << "data=" << btd->data.ptr.buffer << " (" << (void*)btd->data_size
138         << " bytes)" << endl
139         << "offsets=" << btd->data.ptr.offsets << " (" << (void*)btd->offsets_size
140         << " bytes)";
141     return btd+1;
142 }
143 
printReturnCommand(TextOutput & out,const void * _cmd)144 static const void* printReturnCommand(TextOutput& out, const void* _cmd)
145 {
146     static const size_t N = sizeof(kReturnStrings)/sizeof(kReturnStrings[0]);
147     const int32_t* cmd = (const int32_t*)_cmd;
148     uint32_t code = (uint32_t)*cmd++;
149     size_t cmdIndex = code & 0xff;
150     if (code == BR_ERROR) {
151         out << "BR_ERROR: " << (void*)(long)(*cmd++) << endl;
152         return cmd;
153     } else if (cmdIndex >= N) {
154         out << "Unknown reply: " << code << endl;
155         return cmd;
156     }
157     out << kReturnStrings[cmdIndex];
158 
159     switch (code) {
160         case BR_TRANSACTION:
161         case BR_REPLY: {
162             out << ": " << indent;
163             cmd = (const int32_t *)printBinderTransactionData(out, cmd);
164             out << dedent;
165         } break;
166 
167         case BR_ACQUIRE_RESULT: {
168             const int32_t res = *cmd++;
169             out << ": " << res << (res ? " (SUCCESS)" : " (FAILURE)");
170         } break;
171 
172         case BR_INCREFS:
173         case BR_ACQUIRE:
174         case BR_RELEASE:
175         case BR_DECREFS: {
176             const int32_t b = *cmd++;
177             const int32_t c = *cmd++;
178             out << ": target=" << (void*)(long)b << " (cookie " << (void*)(long)c << ")";
179         } break;
180 
181         case BR_ATTEMPT_ACQUIRE: {
182             const int32_t p = *cmd++;
183             const int32_t b = *cmd++;
184             const int32_t c = *cmd++;
185             out << ": target=" << (void*)(long)b << " (cookie " << (void*)(long)c
186                 << "), pri=" << p;
187         } break;
188 
189         case BR_DEAD_BINDER:
190         case BR_CLEAR_DEATH_NOTIFICATION_DONE: {
191             const int32_t c = *cmd++;
192             out << ": death cookie " << (void*)(long)c;
193         } break;
194 
195         default:
196             // no details to show for: BR_OK, BR_DEAD_REPLY,
197             // BR_TRANSACTION_COMPLETE, BR_FINISHED
198             break;
199     }
200 
201     out << endl;
202     return cmd;
203 }
204 
printCommand(TextOutput & out,const void * _cmd)205 static const void* printCommand(TextOutput& out, const void* _cmd)
206 {
207     static const size_t N = sizeof(kCommandStrings)/sizeof(kCommandStrings[0]);
208     const int32_t* cmd = (const int32_t*)_cmd;
209     uint32_t code = (uint32_t)*cmd++;
210     size_t cmdIndex = code & 0xff;
211 
212     if (cmdIndex >= N) {
213         out << "Unknown command: " << code << endl;
214         return cmd;
215     }
216     out << kCommandStrings[cmdIndex];
217 
218     switch (code) {
219         case BC_TRANSACTION:
220         case BC_REPLY: {
221             out << ": " << indent;
222             cmd = (const int32_t *)printBinderTransactionData(out, cmd);
223             out << dedent;
224         } break;
225 
226         case BC_ACQUIRE_RESULT: {
227             const int32_t res = *cmd++;
228             out << ": " << res << (res ? " (SUCCESS)" : " (FAILURE)");
229         } break;
230 
231         case BC_FREE_BUFFER: {
232             const int32_t buf = *cmd++;
233             out << ": buffer=" << (void*)(long)buf;
234         } break;
235 
236         case BC_INCREFS:
237         case BC_ACQUIRE:
238         case BC_RELEASE:
239         case BC_DECREFS: {
240             const int32_t d = *cmd++;
241             out << ": desc=" << d;
242         } break;
243 
244         case BC_INCREFS_DONE:
245         case BC_ACQUIRE_DONE: {
246             const int32_t b = *cmd++;
247             const int32_t c = *cmd++;
248             out << ": target=" << (void*)(long)b << " (cookie " << (void*)(long)c << ")";
249         } break;
250 
251         case BC_ATTEMPT_ACQUIRE: {
252             const int32_t p = *cmd++;
253             const int32_t d = *cmd++;
254             out << ": desc=" << d << ", pri=" << p;
255         } break;
256 
257         case BC_REQUEST_DEATH_NOTIFICATION:
258         case BC_CLEAR_DEATH_NOTIFICATION: {
259             const int32_t h = *cmd++;
260             const int32_t c = *cmd++;
261             out << ": handle=" << h << " (death cookie " << (void*)(long)c << ")";
262         } break;
263 
264         case BC_DEAD_BINDER_DONE: {
265             const int32_t c = *cmd++;
266             out << ": death cookie " << (void*)(long)c;
267         } break;
268 
269         default:
270             // no details to show for: BC_REGISTER_LOOPER, BC_ENTER_LOOPER,
271             // BC_EXIT_LOOPER
272             break;
273     }
274 
275     out << endl;
276     return cmd;
277 }
278 
279 static pthread_mutex_t gTLSMutex = PTHREAD_MUTEX_INITIALIZER;
280 static std::atomic<bool> gHaveTLS = false;
281 static pthread_key_t gTLS = 0;
282 static std::atomic<bool> gShutdown = false;
283 
self()284 IPCThreadState* IPCThreadState::self()
285 {
286     if (gHaveTLS.load(std::memory_order_acquire)) {
287 restart:
288         const pthread_key_t k = gTLS;
289         IPCThreadState* st = (IPCThreadState*)pthread_getspecific(k);
290         if (st) return st;
291         return new IPCThreadState;
292     }
293 
294     // Racey, heuristic test for simultaneous shutdown.
295     if (gShutdown.load(std::memory_order_relaxed)) {
296         ALOGW("Calling IPCThreadState::self() during shutdown is dangerous, expect a crash.\n");
297         return nullptr;
298     }
299 
300     pthread_mutex_lock(&gTLSMutex);
301     if (!gHaveTLS.load(std::memory_order_relaxed)) {
302         int key_create_value = pthread_key_create(&gTLS, threadDestructor);
303         if (key_create_value != 0) {
304             pthread_mutex_unlock(&gTLSMutex);
305             ALOGW("IPCThreadState::self() unable to create TLS key, expect a crash: %s\n",
306                     strerror(key_create_value));
307             return nullptr;
308         }
309         gHaveTLS.store(true, std::memory_order_release);
310     }
311     pthread_mutex_unlock(&gTLSMutex);
312     goto restart;
313 }
314 
selfOrNull()315 IPCThreadState* IPCThreadState::selfOrNull()
316 {
317     if (gHaveTLS.load(std::memory_order_acquire)) {
318         const pthread_key_t k = gTLS;
319         IPCThreadState* st = (IPCThreadState*)pthread_getspecific(k);
320         return st;
321     }
322     return nullptr;
323 }
324 
shutdown()325 void IPCThreadState::shutdown()
326 {
327     gShutdown.store(true, std::memory_order_relaxed);
328 
329     if (gHaveTLS.load(std::memory_order_acquire)) {
330         // XXX Need to wait for all thread pool threads to exit!
331         IPCThreadState* st = (IPCThreadState*)pthread_getspecific(gTLS);
332         if (st) {
333             delete st;
334             pthread_setspecific(gTLS, nullptr);
335         }
336         pthread_key_delete(gTLS);
337         gHaveTLS.store(false, std::memory_order_release);
338     }
339 }
340 
process()341 sp<ProcessState> IPCThreadState::process()
342 {
343     return mProcess;
344 }
345 
clearLastError()346 status_t IPCThreadState::clearLastError()
347 {
348     const status_t err = mLastError;
349     mLastError = NO_ERROR;
350     return err;
351 }
352 
getCallingPid() const353 pid_t IPCThreadState::getCallingPid() const
354 {
355     return mCallingPid;
356 }
357 
getCallingSid() const358 const char* IPCThreadState::getCallingSid() const
359 {
360     return mCallingSid;
361 }
362 
getCallingUid() const363 uid_t IPCThreadState::getCallingUid() const
364 {
365     return mCallingUid;
366 }
367 
clearCallingIdentity()368 int64_t IPCThreadState::clearCallingIdentity()
369 {
370     // ignore mCallingSid for legacy reasons
371     int64_t token = ((int64_t)mCallingUid<<32) | mCallingPid;
372     clearCaller();
373     return token;
374 }
375 
setStrictModePolicy(int32_t policy)376 void IPCThreadState::setStrictModePolicy(int32_t policy)
377 {
378     mStrictModePolicy = policy;
379 }
380 
getStrictModePolicy() const381 int32_t IPCThreadState::getStrictModePolicy() const
382 {
383     return mStrictModePolicy;
384 }
385 
setLastTransactionBinderFlags(int32_t flags)386 void IPCThreadState::setLastTransactionBinderFlags(int32_t flags)
387 {
388     mLastTransactionBinderFlags = flags;
389 }
390 
getLastTransactionBinderFlags() const391 int32_t IPCThreadState::getLastTransactionBinderFlags() const
392 {
393     return mLastTransactionBinderFlags;
394 }
395 
restoreCallingIdentity(int64_t token)396 void IPCThreadState::restoreCallingIdentity(int64_t token)
397 {
398     mCallingUid = (int)(token>>32);
399     mCallingSid = nullptr;  // not enough data to restore
400     mCallingPid = (int)token;
401 }
402 
clearCaller()403 void IPCThreadState::clearCaller()
404 {
405     mCallingPid = getpid();
406     mCallingSid = nullptr;  // expensive to lookup
407     mCallingUid = getuid();
408 }
409 
flushCommands()410 void IPCThreadState::flushCommands()
411 {
412     if (mProcess->mDriverFD < 0)
413         return;
414     talkWithDriver(false);
415     // The flush could have caused post-write refcount decrements to have
416     // been executed, which in turn could result in BC_RELEASE/BC_DECREFS
417     // being queued in mOut. So flush again, if we need to.
418     if (mOut.dataSize() > 0) {
419         talkWithDriver(false);
420     }
421     if (mOut.dataSize() > 0) {
422         ALOGW("mOut.dataSize() > 0 after flushCommands()");
423     }
424 }
425 
getAndExecuteCommand()426 status_t IPCThreadState::getAndExecuteCommand()
427 {
428     status_t result;
429     int32_t cmd;
430 
431     result = talkWithDriver();
432     if (result >= NO_ERROR) {
433         size_t IN = mIn.dataAvail();
434         if (IN < sizeof(int32_t)) return result;
435         cmd = mIn.readInt32();
436         IF_LOG_COMMANDS() {
437             alog << "Processing top-level Command: "
438                  << getReturnString(cmd) << endl;
439         }
440 
441         pthread_mutex_lock(&mProcess->mThreadCountLock);
442         mProcess->mExecutingThreadsCount++;
443         if (mProcess->mExecutingThreadsCount >= mProcess->mMaxThreads &&
444             mProcess->mMaxThreads > 1 && mProcess->mStarvationStartTimeMs == 0) {
445             mProcess->mStarvationStartTimeMs = uptimeMillis();
446         }
447         pthread_mutex_unlock(&mProcess->mThreadCountLock);
448 
449         result = executeCommand(cmd);
450 
451         pthread_mutex_lock(&mProcess->mThreadCountLock);
452         mProcess->mExecutingThreadsCount--;
453         if (mProcess->mExecutingThreadsCount < mProcess->mMaxThreads &&
454             mProcess->mStarvationStartTimeMs != 0) {
455             int64_t starvationTimeMs = uptimeMillis() - mProcess->mStarvationStartTimeMs;
456             if (starvationTimeMs > 100) {
457                 // If there is only a single-threaded client, nobody would be blocked
458                 // on this, and it's not really starvation. (see b/37647467)
459                 ALOGW("All binder threads in pool (%zu threads) busy for %" PRId64 " ms%s",
460                       mProcess->mMaxThreads, starvationTimeMs,
461                       mProcess->mMaxThreads > 1 ? "" : " (may be a false alarm)");
462             }
463             mProcess->mStarvationStartTimeMs = 0;
464         }
465         pthread_mutex_unlock(&mProcess->mThreadCountLock);
466     }
467 
468     if (UNLIKELY(!mPostCommandTasks.empty())) {
469         // make a copy in case the post transaction task makes a binder
470         // call and that other process calls back into us
471         std::vector<std::function<void(void)>> tasks = mPostCommandTasks;
472         mPostCommandTasks.clear();
473         for (const auto& func : tasks) {
474             func();
475         }
476     }
477 
478     return result;
479 }
480 
481 // When we've cleared the incoming command queue, process any pending derefs
processPendingDerefs()482 void IPCThreadState::processPendingDerefs()
483 {
484     if (mIn.dataPosition() >= mIn.dataSize()) {
485         /*
486          * The decWeak()/decStrong() calls may cause a destructor to run,
487          * which in turn could have initiated an outgoing transaction,
488          * which in turn could cause us to add to the pending refs
489          * vectors; so instead of simply iterating, loop until they're empty.
490          *
491          * We do this in an outer loop, because calling decStrong()
492          * may result in something being added to mPendingWeakDerefs,
493          * which could be delayed until the next incoming command
494          * from the driver if we don't process it now.
495          */
496         while (mPendingWeakDerefs.size() > 0 || mPendingStrongDerefs.size() > 0) {
497             while (mPendingWeakDerefs.size() > 0) {
498                 RefBase::weakref_type* refs = mPendingWeakDerefs[0];
499                 mPendingWeakDerefs.removeAt(0);
500                 refs->decWeak(mProcess.get());
501             }
502 
503             if (mPendingStrongDerefs.size() > 0) {
504                 // We don't use while() here because we don't want to re-order
505                 // strong and weak decs at all; if this decStrong() causes both a
506                 // decWeak() and a decStrong() to be queued, we want to process
507                 // the decWeak() first.
508                 BHwBinder* obj = mPendingStrongDerefs[0];
509                 mPendingStrongDerefs.removeAt(0);
510                 obj->decStrong(mProcess.get());
511             }
512         }
513     }
514 }
515 
processPostWriteDerefs()516 void IPCThreadState::processPostWriteDerefs()
517 {
518     /*
519      * libhwbinder has a flushCommands() in the BpHwBinder destructor,
520      * which makes this function (potentially) reentrant.
521      * New entries shouldn't be added though, so just iterating until empty
522      * should be safe.
523      */
524     while (mPostWriteWeakDerefs.size() > 0) {
525         RefBase::weakref_type* refs = mPostWriteWeakDerefs[0];
526         mPostWriteWeakDerefs.removeAt(0);
527         refs->decWeak(mProcess.get());
528     }
529 
530     while (mPostWriteStrongDerefs.size() > 0) {
531         RefBase* obj = mPostWriteStrongDerefs[0];
532         mPostWriteStrongDerefs.removeAt(0);
533         obj->decStrong(mProcess.get());
534     }
535 }
536 
joinThreadPool(bool isMain)537 void IPCThreadState::joinThreadPool(bool isMain)
538 {
539     LOG_THREADPOOL("**** THREAD %p (PID %d) IS JOINING THE THREAD POOL\n", (void*)pthread_self(), getpid());
540 
541     mOut.writeInt32(isMain ? BC_ENTER_LOOPER : BC_REGISTER_LOOPER);
542 
543     status_t result;
544     mIsLooper = true;
545     do {
546         processPendingDerefs();
547         // now get the next command to be processed, waiting if necessary
548         result = getAndExecuteCommand();
549 
550         if (result < NO_ERROR && result != TIMED_OUT && result != -ECONNREFUSED && result != -EBADF) {
551             LOG_ALWAYS_FATAL("getAndExecuteCommand(fd=%d) returned unexpected error %d, aborting",
552                   mProcess->mDriverFD, result);
553         }
554 
555         // Let this thread exit the thread pool if it is no longer
556         // needed and it is not the main process thread.
557         if(result == TIMED_OUT && !isMain) {
558             break;
559         }
560     } while (result != -ECONNREFUSED && result != -EBADF);
561 
562     LOG_THREADPOOL("**** THREAD %p (PID %d) IS LEAVING THE THREAD POOL err=%d\n",
563         (void*)pthread_self(), getpid(), result);
564 
565     mOut.writeInt32(BC_EXIT_LOOPER);
566     mIsLooper = false;
567     talkWithDriver(false);
568 }
569 
setupPolling(int * fd)570 int IPCThreadState::setupPolling(int* fd)
571 {
572     if (mProcess->mDriverFD < 0) {
573         return -EBADF;
574     }
575 
576     // Tells the kernel to not spawn any additional binder threads,
577     // as that won't work with polling. Also, the caller is responsible
578     // for subsequently calling handlePolledCommands()
579     mProcess->setThreadPoolConfiguration(1, true /* callerWillJoin */);
580     mIsPollingThread = true;
581 
582     mOut.writeInt32(BC_ENTER_LOOPER);
583     *fd = mProcess->mDriverFD;
584     return 0;
585 }
586 
handlePolledCommands()587 status_t IPCThreadState::handlePolledCommands()
588 {
589     status_t result;
590 
591     do {
592         result = getAndExecuteCommand();
593     } while (mIn.dataPosition() < mIn.dataSize());
594 
595     processPendingDerefs();
596     flushCommands();
597     return result;
598 }
599 
stopProcess(bool)600 void IPCThreadState::stopProcess(bool /*immediate*/)
601 {
602     //ALOGI("**** STOPPING PROCESS");
603     flushCommands();
604     int fd = mProcess->mDriverFD;
605     mProcess->mDriverFD = -1;
606     close(fd);
607     //kill(getpid(), SIGKILL);
608 }
609 
transact(int32_t handle,uint32_t code,const Parcel & data,Parcel * reply,uint32_t flags)610 status_t IPCThreadState::transact(int32_t handle,
611                                   uint32_t code, const Parcel& data,
612                                   Parcel* reply, uint32_t flags)
613 {
614     status_t err;
615 
616     flags |= TF_ACCEPT_FDS;
617 
618     IF_LOG_TRANSACTIONS() {
619         alog << "BC_TRANSACTION thr " << (void*)pthread_self() << " / hand "
620             << handle << " / code " << TypeCode(code) << ": "
621             << indent << data << dedent << endl;
622     }
623 
624     LOG_ONEWAY(">>>> SEND from pid %d uid %d %s", getpid(), getuid(),
625         (flags & TF_ONE_WAY) == 0 ? "READ REPLY" : "ONE WAY");
626     err = writeTransactionData(BC_TRANSACTION_SG, flags, handle, code, data, nullptr);
627 
628     if (err != NO_ERROR) {
629         if (reply) reply->setError(err);
630         return (mLastError = err);
631     }
632 
633     if ((flags & TF_ONE_WAY) == 0) {
634         if (UNLIKELY(mCallRestriction != ProcessState::CallRestriction::NONE)) {
635             if (mCallRestriction == ProcessState::CallRestriction::ERROR_IF_NOT_ONEWAY) {
636                 ALOGE("Process making non-oneway call (code: %u) but is restricted.", code);
637                 CallStack::logStack("non-oneway call", CallStack::getCurrent(10).get(),
638                     ANDROID_LOG_ERROR);
639             } else /* FATAL_IF_NOT_ONEWAY */ {
640                 LOG_ALWAYS_FATAL("Process may not make oneway calls (code: %u).", code);
641             }
642         }
643 
644         #if 0
645         if (code == 4) { // relayout
646             ALOGI(">>>>>> CALLING transaction 4");
647         } else {
648             ALOGI(">>>>>> CALLING transaction %d", code);
649         }
650         #endif
651         if (reply) {
652             err = waitForResponse(reply);
653         } else {
654             Parcel fakeReply;
655             err = waitForResponse(&fakeReply);
656         }
657         #if 0
658         if (code == 4) { // relayout
659             ALOGI("<<<<<< RETURNING transaction 4");
660         } else {
661             ALOGI("<<<<<< RETURNING transaction %d", code);
662         }
663         #endif
664 
665         IF_LOG_TRANSACTIONS() {
666             alog << "BR_REPLY thr " << (void*)pthread_self() << " / hand "
667                 << handle << ": ";
668             if (reply) alog << indent << *reply << dedent << endl;
669             else alog << "(none requested)" << endl;
670         }
671     } else {
672         err = waitForResponse(nullptr, nullptr);
673     }
674 
675     return err;
676 }
677 
incStrongHandle(int32_t handle,BpHwBinder * proxy)678 void IPCThreadState::incStrongHandle(int32_t handle, BpHwBinder *proxy)
679 {
680     LOG_REMOTEREFS("IPCThreadState::incStrongHandle(%d)\n", handle);
681     mOut.writeInt32(BC_ACQUIRE);
682     mOut.writeInt32(handle);
683     // Create a temp reference until the driver has handled this command.
684     proxy->incStrong(mProcess.get());
685     mPostWriteStrongDerefs.push(proxy);
686 }
687 
decStrongHandle(int32_t handle)688 void IPCThreadState::decStrongHandle(int32_t handle)
689 {
690     LOG_REMOTEREFS("IPCThreadState::decStrongHandle(%d)\n", handle);
691     mOut.writeInt32(BC_RELEASE);
692     mOut.writeInt32(handle);
693 }
694 
incWeakHandle(int32_t handle,BpHwBinder * proxy)695 void IPCThreadState::incWeakHandle(int32_t handle, BpHwBinder *proxy)
696 {
697     LOG_REMOTEREFS("IPCThreadState::incWeakHandle(%d)\n", handle);
698     mOut.writeInt32(BC_INCREFS);
699     mOut.writeInt32(handle);
700     // Create a temp reference until the driver has handled this command.
701     proxy->getWeakRefs()->incWeak(mProcess.get());
702     mPostWriteWeakDerefs.push(proxy->getWeakRefs());
703 }
704 
decWeakHandle(int32_t handle)705 void IPCThreadState::decWeakHandle(int32_t handle)
706 {
707     LOG_REMOTEREFS("IPCThreadState::decWeakHandle(%d)\n", handle);
708     mOut.writeInt32(BC_DECREFS);
709     mOut.writeInt32(handle);
710 }
711 
attemptIncStrongHandle(int32_t handle)712 status_t IPCThreadState::attemptIncStrongHandle(int32_t handle)
713 {
714 #if HAS_BC_ATTEMPT_ACQUIRE
715     LOG_REMOTEREFS("IPCThreadState::attemptIncStrongHandle(%d)\n", handle);
716     mOut.writeInt32(BC_ATTEMPT_ACQUIRE);
717     mOut.writeInt32(0); // xxx was thread priority
718     mOut.writeInt32(handle);
719     status_t result = UNKNOWN_ERROR;
720 
721     waitForResponse(nullptr, &result);
722 
723 #if LOG_REFCOUNTS
724     ALOGV("IPCThreadState::attemptIncStrongHandle(%ld) = %s\n",
725         handle, result == NO_ERROR ? "SUCCESS" : "FAILURE");
726 #endif
727 
728     return result;
729 #else
730     (void)handle;
731     ALOGE("%s(%d): Not supported\n", __func__, handle);
732     return INVALID_OPERATION;
733 #endif
734 }
735 
expungeHandle(int32_t handle,IBinder * binder)736 void IPCThreadState::expungeHandle(int32_t handle, IBinder* binder)
737 {
738 #if LOG_REFCOUNTS
739     ALOGV("IPCThreadState::expungeHandle(%ld)\n", handle);
740 #endif
741     self()->mProcess->expungeHandle(handle, binder);  // NOLINT
742 }
743 
requestDeathNotification(int32_t handle,BpHwBinder * proxy)744 status_t IPCThreadState::requestDeathNotification(int32_t handle, BpHwBinder* proxy)
745 {
746     mOut.writeInt32(BC_REQUEST_DEATH_NOTIFICATION);
747     mOut.writeInt32((int32_t)handle);
748     mOut.writePointer((uintptr_t)proxy);
749     return NO_ERROR;
750 }
751 
clearDeathNotification(int32_t handle,BpHwBinder * proxy)752 status_t IPCThreadState::clearDeathNotification(int32_t handle, BpHwBinder* proxy)
753 {
754     mOut.writeInt32(BC_CLEAR_DEATH_NOTIFICATION);
755     mOut.writeInt32((int32_t)handle);
756     mOut.writePointer((uintptr_t)proxy);
757     return NO_ERROR;
758 }
759 
IPCThreadState()760 IPCThreadState::IPCThreadState()
761     : mProcess(ProcessState::self()),
762       mServingStackPointer(nullptr),
763       mStrictModePolicy(0),
764       mLastTransactionBinderFlags(0),
765       mIsLooper(false),
766       mIsPollingThread(false),
767       mCallRestriction(mProcess->mCallRestriction) {
768     pthread_setspecific(gTLS, this);
769     clearCaller();
770     mIn.setDataCapacity(256);
771     mOut.setDataCapacity(256);
772 }
773 
~IPCThreadState()774 IPCThreadState::~IPCThreadState()
775 {
776 }
777 
sendReply(const Parcel & reply,uint32_t flags)778 status_t IPCThreadState::sendReply(const Parcel& reply, uint32_t flags)
779 {
780     status_t err;
781     status_t statusBuffer;
782     err = writeTransactionData(BC_REPLY_SG, flags, -1, 0, reply, &statusBuffer);
783     if (err < NO_ERROR) return err;
784 
785     return waitForResponse(nullptr, nullptr);
786 }
787 
waitForResponse(Parcel * reply,status_t * acquireResult)788 status_t IPCThreadState::waitForResponse(Parcel *reply, status_t *acquireResult)
789 {
790     uint32_t cmd;
791     int32_t err;
792 
793     while (1) {
794         if ((err=talkWithDriver()) < NO_ERROR) break;
795         err = mIn.errorCheck();
796         if (err < NO_ERROR) break;
797         if (mIn.dataAvail() == 0) continue;
798 
799         cmd = (uint32_t)mIn.readInt32();
800 
801         IF_LOG_COMMANDS() {
802             alog << "Processing waitForResponse Command: "
803                 << getReturnString(cmd) << endl;
804         }
805 
806         switch (cmd) {
807         case BR_ONEWAY_SPAM_SUSPECT:
808             ALOGE("Process seems to be sending too many oneway calls.");
809             CallStack::logStack("oneway spamming", CallStack::getCurrent().get(),
810                     ANDROID_LOG_ERROR);
811             [[fallthrough]];
812         case BR_TRANSACTION_COMPLETE:
813             if (!reply && !acquireResult) goto finish;
814             break;
815 
816         case BR_DEAD_REPLY:
817             err = DEAD_OBJECT;
818             goto finish;
819 
820         case BR_FAILED_REPLY:
821             err = FAILED_TRANSACTION;
822             goto finish;
823 
824         case BR_ACQUIRE_RESULT:
825             {
826                 ALOG_ASSERT(acquireResult != nullptr, "Unexpected brACQUIRE_RESULT");
827                 const int32_t result = mIn.readInt32();
828                 if (!acquireResult) continue;
829                 *acquireResult = result ? NO_ERROR : INVALID_OPERATION;
830             }
831             goto finish;
832 
833         case BR_REPLY:
834             {
835                 binder_transaction_data tr;
836                 err = mIn.read(&tr, sizeof(tr));
837                 ALOG_ASSERT(err == NO_ERROR, "Not enough command data for brREPLY");
838                 if (err != NO_ERROR) goto finish;
839 
840                 if (reply) {
841                     if ((tr.flags & TF_STATUS_CODE) == 0) {
842                         reply->ipcSetDataReference(
843                             reinterpret_cast<const uint8_t*>(tr.data.ptr.buffer),
844                             tr.data_size,
845                             reinterpret_cast<const binder_size_t*>(tr.data.ptr.offsets),
846                             tr.offsets_size/sizeof(binder_size_t),
847                             freeBuffer, this);
848                     } else {
849                         err = *reinterpret_cast<const status_t*>(tr.data.ptr.buffer);
850                         freeBuffer(nullptr,
851                             reinterpret_cast<const uint8_t*>(tr.data.ptr.buffer),
852                             tr.data_size,
853                             reinterpret_cast<const binder_size_t*>(tr.data.ptr.offsets),
854                             tr.offsets_size/sizeof(binder_size_t), this);
855                     }
856                 } else {
857                     freeBuffer(nullptr,
858                         reinterpret_cast<const uint8_t*>(tr.data.ptr.buffer),
859                         tr.data_size,
860                         reinterpret_cast<const binder_size_t*>(tr.data.ptr.offsets),
861                         tr.offsets_size/sizeof(binder_size_t), this);
862                     continue;
863                 }
864             }
865             goto finish;
866 
867         default:
868             err = executeCommand(cmd);
869             if (err != NO_ERROR) goto finish;
870             break;
871         }
872     }
873 
874 finish:
875     if (err != NO_ERROR) {
876         if (acquireResult) *acquireResult = err;
877         if (reply) reply->setError(err);
878         mLastError = err;
879     }
880 
881     return err;
882 }
883 
talkWithDriver(bool doReceive)884 status_t IPCThreadState::talkWithDriver(bool doReceive)
885 {
886     if (mProcess->mDriverFD < 0) {
887         return -EBADF;
888     }
889 
890     binder_write_read bwr;
891 
892     // Is the read buffer empty?
893     const bool needRead = mIn.dataPosition() >= mIn.dataSize();
894 
895     // We don't want to write anything if we are still reading
896     // from data left in the input buffer and the caller
897     // has requested to read the next data.
898     const size_t outAvail = (!doReceive || needRead) ? mOut.dataSize() : 0;
899 
900     bwr.write_size = outAvail;
901     bwr.write_buffer = (uintptr_t)mOut.data();
902 
903     // This is what we'll read.
904     if (doReceive && needRead) {
905         bwr.read_size = mIn.dataCapacity();
906         bwr.read_buffer = (uintptr_t)mIn.data();
907     } else {
908         bwr.read_size = 0;
909         bwr.read_buffer = 0;
910     }
911 
912     IF_LOG_COMMANDS() {
913         if (outAvail != 0) {
914             alog << "Sending commands to driver: " << indent;
915             const void* cmds = (const void*)bwr.write_buffer;
916             const void* end = ((const uint8_t*)cmds)+bwr.write_size;
917             alog << HexDump(cmds, bwr.write_size) << endl;
918             while (cmds < end) cmds = printCommand(alog, cmds);
919             alog << dedent;
920         }
921         alog << "Size of receive buffer: " << bwr.read_size
922             << ", needRead: " << needRead << ", doReceive: " << doReceive << endl;
923     }
924 
925     // Return immediately if there is nothing to do.
926     if ((bwr.write_size == 0) && (bwr.read_size == 0)) return NO_ERROR;
927 
928     bwr.write_consumed = 0;
929     bwr.read_consumed = 0;
930     status_t err;
931     do {
932         IF_LOG_COMMANDS() {
933             alog << "About to read/write, write size = " << mOut.dataSize() << endl;
934         }
935 #if defined(__ANDROID__)
936         if (ioctl(mProcess->mDriverFD, BINDER_WRITE_READ, &bwr) >= 0)
937             err = NO_ERROR;
938         else
939             err = -errno;
940 #else
941         err = INVALID_OPERATION;
942 #endif
943         if (mProcess->mDriverFD < 0) {
944             err = -EBADF;
945         }
946         IF_LOG_COMMANDS() {
947             alog << "Finished read/write, write size = " << mOut.dataSize() << endl;
948         }
949     } while (err == -EINTR);
950 
951     IF_LOG_COMMANDS() {
952         alog << "Our err: " << (void*)(intptr_t)err << ", write consumed: "
953             << bwr.write_consumed << " (of " << mOut.dataSize()
954                         << "), read consumed: " << bwr.read_consumed << endl;
955     }
956 
957     if (err >= NO_ERROR) {
958         if (bwr.write_consumed > 0) {
959             if (bwr.write_consumed < mOut.dataSize())
960                 LOG_ALWAYS_FATAL("Driver did not consume write buffer. "
961                                  "err: %s consumed: %zu of %zu",
962                                  statusToString(err).c_str(),
963                                  (size_t)bwr.write_consumed,
964                                  mOut.dataSize());
965             else {
966                 mOut.setDataSize(0);
967                 processPostWriteDerefs();
968             }
969         }
970         if (bwr.read_consumed > 0) {
971             mIn.setDataSize(bwr.read_consumed);
972             mIn.setDataPosition(0);
973         }
974         IF_LOG_COMMANDS() {
975             alog << "Remaining data size: " << mOut.dataSize() << endl;
976             alog << "Received commands from driver: " << indent;
977             const void* cmds = mIn.data();
978             const void* end = mIn.data() + mIn.dataSize();
979             alog << HexDump(cmds, mIn.dataSize()) << endl;
980             while (cmds < end) cmds = printReturnCommand(alog, cmds);
981             alog << dedent;
982         }
983         return NO_ERROR;
984     }
985 
986     return err;
987 }
988 
writeTransactionData(int32_t cmd,uint32_t binderFlags,int32_t handle,uint32_t code,const Parcel & data,status_t * statusBuffer)989 status_t IPCThreadState::writeTransactionData(int32_t cmd, uint32_t binderFlags,
990     int32_t handle, uint32_t code, const Parcel& data, status_t* statusBuffer)
991 {
992     binder_transaction_data_sg tr_sg;
993     /* Don't pass uninitialized stack data to a remote process */
994     tr_sg.transaction_data.target.ptr = 0;
995     tr_sg.transaction_data.target.handle = handle;
996     tr_sg.transaction_data.code = code;
997     tr_sg.transaction_data.flags = binderFlags;
998     tr_sg.transaction_data.cookie = 0;
999     tr_sg.transaction_data.sender_pid = 0;
1000     tr_sg.transaction_data.sender_euid = 0;
1001 
1002     const status_t err = data.errorCheck();
1003     if (err == NO_ERROR) {
1004         tr_sg.transaction_data.data_size = data.ipcDataSize();
1005         tr_sg.transaction_data.data.ptr.buffer = data.ipcData();
1006         tr_sg.transaction_data.offsets_size = data.ipcObjectsCount()*sizeof(binder_size_t);
1007         tr_sg.transaction_data.data.ptr.offsets = data.ipcObjects();
1008         tr_sg.buffers_size = data.ipcBufferSize();
1009     } else if (statusBuffer) {
1010         tr_sg.transaction_data.flags |= TF_STATUS_CODE;
1011         *statusBuffer = err;
1012         tr_sg.transaction_data.data_size = sizeof(status_t);
1013         tr_sg.transaction_data.data.ptr.buffer = reinterpret_cast<uintptr_t>(statusBuffer);
1014         tr_sg.transaction_data.offsets_size = 0;
1015         tr_sg.transaction_data.data.ptr.offsets = 0;
1016         tr_sg.buffers_size = 0;
1017     } else {
1018         return (mLastError = err);
1019     }
1020 
1021     mOut.writeInt32(cmd);
1022     mOut.write(&tr_sg, sizeof(tr_sg));
1023 
1024     return NO_ERROR;
1025 }
1026 
1027 sp<BHwBinder> the_context_object;
1028 
setTheContextObject(sp<BHwBinder> obj)1029 void IPCThreadState::setTheContextObject(sp<BHwBinder> obj)
1030 {
1031     the_context_object = obj;
1032 }
1033 
isLooperThread()1034 bool IPCThreadState::isLooperThread()
1035 {
1036     return mIsLooper;
1037 }
1038 
isOnlyBinderThread()1039 bool IPCThreadState::isOnlyBinderThread() {
1040     return (mIsLooper && mProcess->mMaxThreads <= 1) || mIsPollingThread;
1041 }
1042 
addPostCommandTask(const std::function<void (void)> & task)1043 void IPCThreadState::addPostCommandTask(const std::function<void(void)>& task) {
1044     mPostCommandTasks.push_back(task);
1045 }
1046 
executeCommand(int32_t cmd)1047 status_t IPCThreadState::executeCommand(int32_t cmd)
1048 {
1049     BHwBinder* obj;
1050     RefBase::weakref_type* refs;
1051     status_t result = NO_ERROR;
1052     switch ((uint32_t)cmd) {
1053     case BR_ERROR:
1054         result = mIn.readInt32();
1055         break;
1056 
1057     case BR_OK:
1058         break;
1059 
1060     case BR_ACQUIRE:
1061         refs = (RefBase::weakref_type*)mIn.readPointer();
1062         obj = (BHwBinder*)mIn.readPointer();
1063         ALOG_ASSERT(refs->refBase() == obj,
1064                    "BR_ACQUIRE: object %p does not match cookie %p (expected %p)",
1065                    refs, obj, refs->refBase());
1066         obj->incStrong(mProcess.get());
1067         IF_LOG_REMOTEREFS() {
1068             LOG_REMOTEREFS("BR_ACQUIRE from driver on %p", obj);
1069             obj->printRefs();
1070         }
1071         mOut.writeInt32(BC_ACQUIRE_DONE);
1072         mOut.writePointer((uintptr_t)refs);
1073         mOut.writePointer((uintptr_t)obj);
1074         break;
1075 
1076     case BR_RELEASE:
1077         refs = (RefBase::weakref_type*)mIn.readPointer();
1078         obj = (BHwBinder*)mIn.readPointer();
1079         ALOG_ASSERT(refs->refBase() == obj,
1080                    "BR_RELEASE: object %p does not match cookie %p (expected %p)",
1081                    refs, obj, refs->refBase());
1082         IF_LOG_REMOTEREFS() {
1083             LOG_REMOTEREFS("BR_RELEASE from driver on %p", obj);
1084             obj->printRefs();
1085         }
1086         mPendingStrongDerefs.push(obj);
1087         break;
1088 
1089     case BR_INCREFS:
1090         refs = (RefBase::weakref_type*)mIn.readPointer();
1091         obj = (BHwBinder*)mIn.readPointer();
1092         refs->incWeak(mProcess.get());
1093         mOut.writeInt32(BC_INCREFS_DONE);
1094         mOut.writePointer((uintptr_t)refs);
1095         mOut.writePointer((uintptr_t)obj);
1096         break;
1097 
1098     case BR_DECREFS:
1099         refs = (RefBase::weakref_type*)mIn.readPointer();
1100         obj = (BHwBinder*)mIn.readPointer();
1101         // NOTE: This assertion is not valid, because the object may no
1102         // longer exist (thus the (BHwBinder*)cast above resulting in a different
1103         // memory address).
1104         //ALOG_ASSERT(refs->refBase() == obj,
1105         //           "BR_DECREFS: object %p does not match cookie %p (expected %p)",
1106         //           refs, obj, refs->refBase());
1107         mPendingWeakDerefs.push(refs);
1108         break;
1109 
1110     case BR_ATTEMPT_ACQUIRE:
1111         refs = (RefBase::weakref_type*)mIn.readPointer();
1112         obj = (BHwBinder*)mIn.readPointer();
1113 
1114         {
1115             const bool success = refs->attemptIncStrong(mProcess.get());
1116             ALOG_ASSERT(success && refs->refBase() == obj,
1117                        "BR_ATTEMPT_ACQUIRE: object %p does not match cookie %p (expected %p)",
1118                        refs, obj, refs->refBase());
1119 
1120             mOut.writeInt32(BC_ACQUIRE_RESULT);
1121             mOut.writeInt32((int32_t)success);
1122         }
1123         break;
1124 
1125     case BR_TRANSACTION_SEC_CTX:
1126     case BR_TRANSACTION:
1127         {
1128             binder_transaction_data_secctx tr_secctx;
1129             binder_transaction_data& tr = tr_secctx.transaction_data;
1130 
1131             if (cmd == BR_TRANSACTION_SEC_CTX) {
1132                 result = mIn.read(&tr_secctx, sizeof(tr_secctx));
1133             } else {
1134                 result = mIn.read(&tr, sizeof(tr));
1135                 tr_secctx.secctx = 0;
1136             }
1137 
1138             ALOG_ASSERT(result == NO_ERROR,
1139                 "Not enough command data for brTRANSACTION");
1140             if (result != NO_ERROR) break;
1141 
1142             Parcel buffer;
1143             buffer.ipcSetDataReference(
1144                 reinterpret_cast<const uint8_t*>(tr.data.ptr.buffer),
1145                 tr.data_size,
1146                 reinterpret_cast<const binder_size_t*>(tr.data.ptr.offsets),
1147                 tr.offsets_size/sizeof(binder_size_t), freeBuffer, this);
1148 
1149             const void* origServingStackPointer = mServingStackPointer;
1150             mServingStackPointer = &origServingStackPointer; // anything on the stack
1151 
1152             const pid_t origPid = mCallingPid;
1153             const char* origSid = mCallingSid;
1154             const uid_t origUid = mCallingUid;
1155             const int32_t origStrictModePolicy = mStrictModePolicy;
1156             const int32_t origTransactionBinderFlags = mLastTransactionBinderFlags;
1157 
1158             mCallingPid = tr.sender_pid;
1159             mCallingSid = reinterpret_cast<const char*>(tr_secctx.secctx);
1160             mCallingUid = tr.sender_euid;
1161             mLastTransactionBinderFlags = tr.flags;
1162 
1163             // ALOGI(">>>> TRANSACT from pid %d sid %s uid %d\n", mCallingPid,
1164             //    (mCallingSid ? mCallingSid : "<N/A>"), mCallingUid);
1165 
1166             Parcel reply;
1167             status_t error;
1168             bool reply_sent = false;
1169             IF_LOG_TRANSACTIONS() {
1170                 alog << "BR_TRANSACTION thr " << (void*)pthread_self()
1171                     << " / obj " << tr.target.ptr << " / code "
1172                     << TypeCode(tr.code) << ": " << indent << buffer
1173                     << dedent << endl
1174                     << "Data addr = "
1175                     << reinterpret_cast<const uint8_t*>(tr.data.ptr.buffer)
1176                     << ", offsets addr="
1177                     << reinterpret_cast<const size_t*>(tr.data.ptr.offsets) << endl;
1178             }
1179 
1180             constexpr size_t kForwardReplyFlags = TF_CLEAR_BUF;
1181 
1182             auto reply_callback = [&] (auto &replyParcel) {
1183                 if (reply_sent) {
1184                     // Reply was sent earlier, ignore it.
1185                     ALOGE("Dropping binder reply, it was sent already.");
1186                     return;
1187                 }
1188                 reply_sent = true;
1189                 if ((tr.flags & TF_ONE_WAY) == 0) {
1190                     replyParcel.setError(NO_ERROR);
1191                     sendReply(replyParcel, (tr.flags & kForwardReplyFlags));
1192                 } else {
1193                     ALOGE("Not sending reply in one-way transaction");
1194                 }
1195             };
1196 
1197             if (tr.target.ptr) {
1198                 // We only have a weak reference on the target object, so we must first try to
1199                 // safely acquire a strong reference before doing anything else with it.
1200                 if (reinterpret_cast<RefBase::weakref_type*>(
1201                         tr.target.ptr)->attemptIncStrong(this)) {
1202                     error = reinterpret_cast<BHwBinder*>(tr.cookie)->transact(tr.code, buffer,
1203                             &reply, tr.flags, reply_callback);
1204                     reinterpret_cast<BHwBinder*>(tr.cookie)->decStrong(this);
1205                 } else {
1206                     error = UNKNOWN_TRANSACTION;
1207                 }
1208 
1209             } else {
1210                 error = the_context_object->transact(tr.code, buffer, &reply, tr.flags, reply_callback);
1211             }
1212 
1213             if ((tr.flags & TF_ONE_WAY) == 0) {
1214                 if (!reply_sent) {
1215                     // Should have been a reply but there wasn't, so there
1216                     // must have been an error instead.
1217                     reply.setError(error);
1218                     sendReply(reply, (tr.flags & kForwardReplyFlags));
1219                 } else {
1220                     if (error != NO_ERROR) {
1221                         ALOGE("transact() returned error after sending reply.");
1222                     } else {
1223                         // Ok, reply sent and transact didn't return an error.
1224                     }
1225                 }
1226             } else {
1227                 // One-way transaction, don't care about return value or reply.
1228             }
1229 
1230             //ALOGI("<<<< TRANSACT from pid %d restore pid %d sid %s uid %d\n",
1231             //     mCallingPid, origPid, (origSid ? origSid : "<N/A>"), origUid);
1232 
1233             mServingStackPointer = origServingStackPointer;
1234             mCallingPid = origPid;
1235             mCallingSid = origSid;
1236             mCallingUid = origUid;
1237             mStrictModePolicy = origStrictModePolicy;
1238             mLastTransactionBinderFlags = origTransactionBinderFlags;
1239 
1240             IF_LOG_TRANSACTIONS() {
1241                 alog << "BC_REPLY thr " << (void*)pthread_self() << " / obj "
1242                     << tr.target.ptr << ": " << indent << reply << dedent << endl;
1243             }
1244 
1245         }
1246         break;
1247 
1248     case BR_DEAD_BINDER:
1249         {
1250             BpHwBinder *proxy = (BpHwBinder*)mIn.readPointer();
1251             proxy->sendObituary();
1252             mOut.writeInt32(BC_DEAD_BINDER_DONE);
1253             mOut.writePointer((uintptr_t)proxy);
1254         } break;
1255 
1256     case BR_CLEAR_DEATH_NOTIFICATION_DONE:
1257         {
1258             BpHwBinder *proxy = (BpHwBinder*)mIn.readPointer();
1259             proxy->getWeakRefs()->decWeak(proxy);
1260         } break;
1261 
1262     case BR_FINISHED:
1263         result = TIMED_OUT;
1264         break;
1265 
1266     case BR_NOOP:
1267         break;
1268 
1269     case BR_SPAWN_LOOPER:
1270         mProcess->spawnPooledThread(false);
1271         break;
1272 
1273     default:
1274         ALOGE("*** BAD COMMAND %d received from Binder driver\n", cmd);
1275         result = UNKNOWN_ERROR;
1276         break;
1277     }
1278 
1279     if (result != NO_ERROR) {
1280         mLastError = result;
1281     }
1282 
1283     return result;
1284 }
1285 
getServingStackPointer() const1286 const void* IPCThreadState::getServingStackPointer() const {
1287     return mServingStackPointer;
1288 }
1289 
threadDestructor(void * st)1290 void IPCThreadState::threadDestructor(void *st)
1291 {
1292         IPCThreadState* const self = static_cast<IPCThreadState*>(st);
1293         if (self) {
1294                 self->flushCommands();
1295 #if defined(__ANDROID__)
1296         if (self->mProcess->mDriverFD >= 0) {
1297             ioctl(self->mProcess->mDriverFD, BINDER_THREAD_EXIT, 0);
1298         }
1299 #endif
1300                 delete self;
1301         }
1302 }
1303 
1304 
freeBuffer(Parcel * parcel,const uint8_t * data,size_t,const binder_size_t *,size_t,void *)1305 void IPCThreadState::freeBuffer(Parcel* parcel, const uint8_t* data,
1306                                 size_t /*dataSize*/,
1307                                 const binder_size_t* /*objects*/,
1308                                 size_t /*objectsSize*/, void* /*cookie*/)
1309 {
1310     //ALOGI("Freeing parcel %p", &parcel);
1311     IF_LOG_COMMANDS() {
1312         alog << "Writing BC_FREE_BUFFER for " << data << endl;
1313     }
1314     ALOG_ASSERT(data != nullptr, "Called with NULL data");
1315     if (parcel != nullptr) parcel->closeFileDescriptors();
1316     IPCThreadState* state = self();
1317     state->mOut.writeInt32(BC_FREE_BUFFER);
1318     state->mOut.writePointer((uintptr_t)data);
1319 }
1320 
1321 } // namespace hardware
1322 } // namespace android
1323