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1 /*
2  * Copyright (C) 2011 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 #include "profiler.h"
18 
19 #include <sys/file.h>
20 #include <sys/stat.h>
21 #include <sys/uio.h>
22 
23 #include <fstream>
24 
25 #include "art_method-inl.h"
26 #include "base/stl_util.h"
27 #include "base/time_utils.h"
28 #include "base/unix_file/fd_file.h"
29 #include "class_linker.h"
30 #include "common_throws.h"
31 #include "debugger.h"
32 #include "dex_file-inl.h"
33 #include "instrumentation.h"
34 #include "mirror/class-inl.h"
35 #include "mirror/dex_cache.h"
36 #include "mirror/object_array-inl.h"
37 #include "mirror/object-inl.h"
38 #include "os.h"
39 #include "scoped_thread_state_change.h"
40 #include "ScopedLocalRef.h"
41 #include "thread.h"
42 #include "thread_list.h"
43 #include "utils.h"
44 
45 #include "entrypoints/quick/quick_entrypoints.h"
46 
47 namespace art {
48 
49 BackgroundMethodSamplingProfiler* BackgroundMethodSamplingProfiler::profiler_ = nullptr;
50 pthread_t BackgroundMethodSamplingProfiler::profiler_pthread_ = 0U;
51 volatile bool BackgroundMethodSamplingProfiler::shutting_down_ = false;
52 
53 // TODO: this profiler runs regardless of the state of the machine.  Maybe we should use the
54 // wakelock or something to modify the run characteristics.  This can be done when we
55 // have some performance data after it's been used for a while.
56 
57 // Walk through the method within depth of max_depth_ on the Java stack
58 class BoundedStackVisitor : public StackVisitor {
59  public:
BoundedStackVisitor(std::vector<std::pair<ArtMethod *,uint32_t>> * stack,Thread * thread,uint32_t max_depth)60   BoundedStackVisitor(std::vector<std::pair<ArtMethod*, uint32_t>>* stack,
61       Thread* thread, uint32_t max_depth)
62       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_)
63       : StackVisitor(thread, nullptr, StackVisitor::StackWalkKind::kIncludeInlinedFrames),
64         stack_(stack),
65         max_depth_(max_depth),
66         depth_(0) {}
67 
VisitFrame()68   bool VisitFrame() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_) {
69     ArtMethod* m = GetMethod();
70     if (m->IsRuntimeMethod()) {
71       return true;
72     }
73     uint32_t dex_pc_ = GetDexPc();
74     stack_->push_back(std::make_pair(m, dex_pc_));
75     ++depth_;
76     if (depth_ < max_depth_) {
77       return true;
78     } else {
79       return false;
80     }
81   }
82 
83  private:
84   std::vector<std::pair<ArtMethod*, uint32_t>>* stack_;
85   const uint32_t max_depth_;
86   uint32_t depth_;
87 };
88 
89 // This is called from either a thread list traversal or from a checkpoint.  Regardless
90 // of which caller, the mutator lock must be held.
GetSample(Thread * thread,void * arg)91 static void GetSample(Thread* thread, void* arg) SHARED_LOCKS_REQUIRED(Locks::mutator_lock_) {
92   BackgroundMethodSamplingProfiler* profiler =
93       reinterpret_cast<BackgroundMethodSamplingProfiler*>(arg);
94   const ProfilerOptions profile_options = profiler->GetProfilerOptions();
95   switch (profile_options.GetProfileType()) {
96     case kProfilerMethod: {
97       ArtMethod* method = thread->GetCurrentMethod(nullptr);
98       if ((false) && method == nullptr) {
99         LOG(INFO) << "No current method available";
100         std::ostringstream os;
101         thread->Dump(os);
102         std::string data(os.str());
103         LOG(INFO) << data;
104       }
105       profiler->RecordMethod(method);
106       break;
107     }
108     case kProfilerBoundedStack: {
109       std::vector<InstructionLocation> stack;
110       uint32_t max_depth = profile_options.GetMaxStackDepth();
111       BoundedStackVisitor bounded_stack_visitor(&stack, thread, max_depth);
112       bounded_stack_visitor.WalkStack();
113       profiler->RecordStack(stack);
114       break;
115     }
116     default:
117       LOG(INFO) << "This profile type is not implemented.";
118   }
119 }
120 
121 // A closure that is called by the thread checkpoint code.
122 class SampleCheckpoint FINAL : public Closure {
123  public:
SampleCheckpoint(BackgroundMethodSamplingProfiler * const profiler)124   explicit SampleCheckpoint(BackgroundMethodSamplingProfiler* const profiler) :
125     profiler_(profiler) {}
126 
Run(Thread * thread)127   void Run(Thread* thread) OVERRIDE {
128     Thread* self = Thread::Current();
129     if (thread == nullptr) {
130       LOG(ERROR) << "Checkpoint with nullptr thread";
131       return;
132     }
133 
134     // Grab the mutator lock (shared access).
135     ScopedObjectAccess soa(self);
136 
137     // Grab a sample.
138     GetSample(thread, this->profiler_);
139 
140     // And finally tell the barrier that we're done.
141     this->profiler_->GetBarrier().Pass(self);
142   }
143 
144  private:
145   BackgroundMethodSamplingProfiler* const profiler_;
146 };
147 
ShuttingDown(Thread * self)148 bool BackgroundMethodSamplingProfiler::ShuttingDown(Thread* self) {
149   MutexLock mu(self, *Locks::profiler_lock_);
150   return shutting_down_;
151 }
152 
RunProfilerThread(void * arg)153 void* BackgroundMethodSamplingProfiler::RunProfilerThread(void* arg) {
154   Runtime* runtime = Runtime::Current();
155   BackgroundMethodSamplingProfiler* profiler =
156       reinterpret_cast<BackgroundMethodSamplingProfiler*>(arg);
157 
158   // Add a random delay for the first time run so that we don't hammer the CPU
159   // with all profiles running at the same time.
160   const int kRandomDelayMaxSecs = 30;
161   const double kMaxBackoffSecs = 24*60*60;   // Max backoff time.
162 
163   srand(MicroTime() * getpid());
164   int startup_delay = rand() % kRandomDelayMaxSecs;   // random delay for startup.
165 
166 
167   CHECK(runtime->AttachCurrentThread("Profiler", true, runtime->GetSystemThreadGroup(),
168                                       !runtime->IsAotCompiler()));
169 
170   Thread* self = Thread::Current();
171 
172   double backoff = 1.0;
173   while (true) {
174     if (ShuttingDown(self)) {
175       break;
176     }
177 
178     {
179       // wait until we need to run another profile
180       uint64_t delay_secs = profiler->options_.GetPeriodS() * backoff;
181 
182       // Add a startup delay to prevent all the profiles running at once.
183       delay_secs += startup_delay;
184 
185       // Immediate startup for benchmarking?
186       if (profiler->options_.GetStartImmediately() && startup_delay > 0) {
187         delay_secs = 0;
188       }
189 
190       startup_delay = 0;
191 
192       VLOG(profiler) << "Delaying profile start for " << delay_secs << " secs";
193       MutexLock mu(self, profiler->wait_lock_);
194       profiler->period_condition_.TimedWait(self, delay_secs * 1000, 0);
195       // We were either signaled by Stop or timedout, in either case ignore the timed out result.
196 
197       // Expand the backoff by its coefficient, but don't go beyond the max.
198       backoff = std::min(backoff * profiler->options_.GetBackoffCoefficient(), kMaxBackoffSecs);
199     }
200 
201     if (ShuttingDown(self)) {
202       break;
203     }
204 
205 
206     uint64_t start_us = MicroTime();
207     uint64_t end_us = start_us + profiler->options_.GetDurationS() * UINT64_C(1000000);
208     uint64_t now_us = start_us;
209 
210     VLOG(profiler) << "Starting profiling run now for "
211                    << PrettyDuration((end_us - start_us) * 1000);
212 
213     SampleCheckpoint check_point(profiler);
214 
215     size_t valid_samples = 0;
216     while (now_us < end_us) {
217       if (ShuttingDown(self)) {
218         break;
219       }
220 
221       usleep(profiler->options_.GetIntervalUs());    // Non-interruptible sleep.
222 
223       ThreadList* thread_list = runtime->GetThreadList();
224 
225       profiler->profiler_barrier_->Init(self, 0);
226       size_t barrier_count = thread_list->RunCheckpointOnRunnableThreads(&check_point);
227 
228       // All threads are suspended, nothing to do.
229       if (barrier_count == 0) {
230         now_us = MicroTime();
231         continue;
232       }
233 
234       valid_samples += barrier_count;
235 
236       ScopedThreadStateChange tsc(self, kWaitingForCheckPointsToRun);
237 
238       // Wait for the barrier to be crossed by all runnable threads.  This wait
239       // is done with a timeout so that we can detect problems with the checkpoint
240       // running code.  We should never see this.
241       const uint32_t kWaitTimeoutMs = 10000;
242 
243       // Wait for all threads to pass the barrier.
244       bool timed_out =  profiler->profiler_barrier_->Increment(self, barrier_count, kWaitTimeoutMs);
245 
246       // We should never get a timeout.  If we do, it suggests a problem with the checkpoint
247       // code.  Crash the process in this case.
248       CHECK(!timed_out);
249 
250       // Update the current time.
251       now_us = MicroTime();
252     }
253 
254     if (valid_samples > 0) {
255       // After the profile has been taken, write it out.
256       ScopedObjectAccess soa(self);   // Acquire the mutator lock.
257       uint32_t size = profiler->WriteProfile();
258       VLOG(profiler) << "Profile size: " << size;
259     }
260   }
261 
262   LOG(INFO) << "Profiler shutdown";
263   runtime->DetachCurrentThread();
264   return nullptr;
265 }
266 
267 // Write out the profile file if we are generating a profile.
WriteProfile()268 uint32_t BackgroundMethodSamplingProfiler::WriteProfile() {
269   std::string full_name = output_filename_;
270   VLOG(profiler) << "Saving profile to " << full_name;
271 
272   int fd = open(full_name.c_str(), O_RDWR);
273   if (fd < 0) {
274     // Open failed.
275     LOG(ERROR) << "Failed to open profile file " << full_name;
276     return 0;
277   }
278 
279   // Lock the file for exclusive access.  This will block if another process is using
280   // the file.
281   int err = flock(fd, LOCK_EX);
282   if (err < 0) {
283     LOG(ERROR) << "Failed to lock profile file " << full_name;
284     return 0;
285   }
286 
287   // Read the previous profile.
288   profile_table_.ReadPrevious(fd, options_.GetProfileType());
289 
290   // Move back to the start of the file.
291   lseek(fd, 0, SEEK_SET);
292 
293   // Format the profile output and write to the file.
294   std::ostringstream os;
295   uint32_t num_methods = DumpProfile(os);
296   std::string data(os.str());
297   const char *p = data.c_str();
298   size_t length = data.length();
299   size_t full_length = length;
300   do {
301     int n = ::write(fd, p, length);
302     p += n;
303     length -= n;
304   } while (length > 0);
305 
306   // Truncate the file to the new length.
307   ftruncate(fd, full_length);
308 
309   // Now unlock the file, allowing another process in.
310   err = flock(fd, LOCK_UN);
311   if (err < 0) {
312     LOG(ERROR) << "Failed to unlock profile file " << full_name;
313   }
314 
315   // Done, close the file.
316   ::close(fd);
317 
318   // Clean the profile for the next time.
319   CleanProfile();
320 
321   return num_methods;
322 }
323 
Start(const std::string & output_filename,const ProfilerOptions & options)324 bool BackgroundMethodSamplingProfiler::Start(
325     const std::string& output_filename, const ProfilerOptions& options) {
326   if (!options.IsEnabled()) {
327     return false;
328   }
329 
330   CHECK(!output_filename.empty());
331 
332   Thread* self = Thread::Current();
333   {
334     MutexLock mu(self, *Locks::profiler_lock_);
335     // Don't start two profiler threads.
336     if (profiler_ != nullptr) {
337       return true;
338     }
339   }
340 
341   LOG(INFO) << "Starting profiler using output file: " << output_filename
342             << " and options: " << options;
343   {
344     MutexLock mu(self, *Locks::profiler_lock_);
345     profiler_ = new BackgroundMethodSamplingProfiler(output_filename, options);
346 
347     CHECK_PTHREAD_CALL(pthread_create, (&profiler_pthread_, nullptr, &RunProfilerThread,
348         reinterpret_cast<void*>(profiler_)),
349                        "Profiler thread");
350   }
351   return true;
352 }
353 
354 
355 
Stop()356 void BackgroundMethodSamplingProfiler::Stop() {
357   BackgroundMethodSamplingProfiler* profiler = nullptr;
358   pthread_t profiler_pthread = 0U;
359   {
360     MutexLock trace_mu(Thread::Current(), *Locks::profiler_lock_);
361     CHECK(!shutting_down_);
362     profiler = profiler_;
363     shutting_down_ = true;
364     profiler_pthread = profiler_pthread_;
365   }
366 
367   // Now wake up the sampler thread if it sleeping.
368   {
369     MutexLock profile_mu(Thread::Current(), profiler->wait_lock_);
370     profiler->period_condition_.Signal(Thread::Current());
371   }
372   // Wait for the sample thread to stop.
373   CHECK_PTHREAD_CALL(pthread_join, (profiler_pthread, nullptr), "profiler thread shutdown");
374 
375   {
376     MutexLock mu(Thread::Current(), *Locks::profiler_lock_);
377     profiler_ = nullptr;
378   }
379   delete profiler;
380 }
381 
382 
Shutdown()383 void BackgroundMethodSamplingProfiler::Shutdown() {
384   Stop();
385 }
386 
BackgroundMethodSamplingProfiler(const std::string & output_filename,const ProfilerOptions & options)387 BackgroundMethodSamplingProfiler::BackgroundMethodSamplingProfiler(
388   const std::string& output_filename, const ProfilerOptions& options)
389     : output_filename_(output_filename),
390       options_(options),
391       wait_lock_("Profile wait lock"),
392       period_condition_("Profile condition", wait_lock_),
393       profile_table_(wait_lock_),
394       profiler_barrier_(new Barrier(0)) {
395   // Populate the filtered_methods set.
396   // This is empty right now, but to add a method, do this:
397   //
398   // filtered_methods_.insert("void java.lang.Object.wait(long, int)");
399 }
400 
401 // Filter out methods the profiler doesn't want to record.
402 // We require mutator lock since some statistics will be updated here.
ProcessMethod(ArtMethod * method)403 bool BackgroundMethodSamplingProfiler::ProcessMethod(ArtMethod* method) {
404   if (method == nullptr) {
405     profile_table_.NullMethod();
406     // Don't record a null method.
407     return false;
408   }
409 
410   mirror::Class* cls = method->GetDeclaringClass();
411   if (cls != nullptr) {
412     if (cls->GetClassLoader() == nullptr) {
413       // Don't include things in the boot
414       profile_table_.BootMethod();
415       return false;
416     }
417   }
418 
419   bool is_filtered = false;
420 
421   if (strcmp(method->GetName(), "<clinit>") == 0) {
422     // always filter out class init
423     is_filtered = true;
424   }
425 
426   // Filter out methods by name if there are any.
427   if (!is_filtered && filtered_methods_.size() > 0) {
428     std::string method_full_name = PrettyMethod(method);
429 
430     // Don't include specific filtered methods.
431     is_filtered = filtered_methods_.count(method_full_name) != 0;
432   }
433   return !is_filtered;
434 }
435 
436 // A method has been hit, record its invocation in the method map.
437 // The mutator_lock must be held (shared) when this is called.
RecordMethod(ArtMethod * method)438 void BackgroundMethodSamplingProfiler::RecordMethod(ArtMethod* method) {
439   // Add to the profile table unless it is filtered out.
440   if (ProcessMethod(method)) {
441     profile_table_.Put(method);
442   }
443 }
444 
445 // Record the current bounded stack into sampling results.
RecordStack(const std::vector<InstructionLocation> & stack)446 void BackgroundMethodSamplingProfiler::RecordStack(const std::vector<InstructionLocation>& stack) {
447   if (stack.size() == 0) {
448     return;
449   }
450   // Get the method on top of the stack. We use this method to perform filtering.
451   ArtMethod* method = stack.front().first;
452   if (ProcessMethod(method)) {
453       profile_table_.PutStack(stack);
454   }
455 }
456 
457 // Clean out any recordings for the method traces.
CleanProfile()458 void BackgroundMethodSamplingProfiler::CleanProfile() {
459   profile_table_.Clear();
460 }
461 
DumpProfile(std::ostream & os)462 uint32_t BackgroundMethodSamplingProfiler::DumpProfile(std::ostream& os) {
463   return profile_table_.Write(os, options_.GetProfileType());
464 }
465 
466 // Profile Table.
467 // This holds a mapping of ArtMethod* to a count of how many times a sample
468 // hit it at the top of the stack.
ProfileSampleResults(Mutex & lock)469 ProfileSampleResults::ProfileSampleResults(Mutex& lock) : lock_(lock), num_samples_(0),
470     num_null_methods_(0),
471     num_boot_methods_(0) {
472   for (int i = 0; i < kHashSize; i++) {
473     table[i] = nullptr;
474   }
475   method_context_table = nullptr;
476   stack_trie_root_ = nullptr;
477 }
478 
~ProfileSampleResults()479 ProfileSampleResults::~ProfileSampleResults() {
480   Clear();
481 }
482 
483 // Add a method to the profile table.  If it's the first time the method
484 // has been seen, add it with count=1, otherwise increment the count.
Put(ArtMethod * method)485 void ProfileSampleResults::Put(ArtMethod* method) {
486   MutexLock mu(Thread::Current(), lock_);
487   uint32_t index = Hash(method);
488   if (table[index] == nullptr) {
489     table[index] = new Map();
490   }
491   Map::iterator i = table[index]->find(method);
492   if (i == table[index]->end()) {
493     (*table[index])[method] = 1;
494   } else {
495     i->second++;
496   }
497   num_samples_++;
498 }
499 
500 // Add a bounded stack to the profile table. Only the count of the method on
501 // top of the frame will be increased.
PutStack(const std::vector<InstructionLocation> & stack)502 void ProfileSampleResults::PutStack(const std::vector<InstructionLocation>& stack) {
503   MutexLock mu(Thread::Current(), lock_);
504   ScopedObjectAccess soa(Thread::Current());
505   if (stack_trie_root_ == nullptr) {
506     // The root of the stack trie is a dummy node so that we don't have to maintain
507     // a collection of tries.
508     stack_trie_root_ = new StackTrieNode();
509   }
510 
511   StackTrieNode* current = stack_trie_root_;
512   if (stack.size() == 0) {
513     current->IncreaseCount();
514     return;
515   }
516 
517   for (std::vector<InstructionLocation>::const_reverse_iterator iter = stack.rbegin();
518        iter != stack.rend(); ++iter) {
519     InstructionLocation inst_loc = *iter;
520     ArtMethod* method = inst_loc.first;
521     if (method == nullptr) {
522       // skip null method
523       continue;
524     }
525     uint32_t dex_pc = inst_loc.second;
526     uint32_t method_idx = method->GetDexMethodIndex();
527     const DexFile* dex_file = method->GetDeclaringClass()->GetDexCache()->GetDexFile();
528     MethodReference method_ref(dex_file, method_idx);
529     StackTrieNode* child = current->FindChild(method_ref, dex_pc);
530     if (child != nullptr) {
531       current = child;
532     } else {
533       uint32_t method_size = 0;
534       const DexFile::CodeItem* codeitem = method->GetCodeItem();
535       if (codeitem != nullptr) {
536         method_size = codeitem->insns_size_in_code_units_;
537       }
538       StackTrieNode* new_node = new StackTrieNode(method_ref, dex_pc, method_size, current);
539       current->AppendChild(new_node);
540       current = new_node;
541     }
542   }
543 
544   if (current != stack_trie_root_ && current->GetCount() == 0) {
545     // Insert into method_context table;
546     if (method_context_table == nullptr) {
547       method_context_table = new MethodContextMap();
548     }
549     MethodReference method = current->GetMethod();
550     MethodContextMap::iterator i = method_context_table->find(method);
551     if (i == method_context_table->end()) {
552       TrieNodeSet* node_set = new TrieNodeSet();
553       node_set->insert(current);
554       (*method_context_table)[method] = node_set;
555     } else {
556       TrieNodeSet* node_set = i->second;
557       node_set->insert(current);
558     }
559   }
560   current->IncreaseCount();
561   num_samples_++;
562 }
563 
564 // Write the profile table to the output stream.  Also merge with the previous profile.
Write(std::ostream & os,ProfileDataType type)565 uint32_t ProfileSampleResults::Write(std::ostream& os, ProfileDataType type) {
566   ScopedObjectAccess soa(Thread::Current());
567   num_samples_ += previous_num_samples_;
568   num_null_methods_ += previous_num_null_methods_;
569   num_boot_methods_ += previous_num_boot_methods_;
570 
571   VLOG(profiler) << "Profile: "
572                  << num_samples_ << "/" << num_null_methods_ << "/" << num_boot_methods_;
573   os << num_samples_ << "/" << num_null_methods_ << "/" << num_boot_methods_ << "\n";
574   uint32_t num_methods = 0;
575   if (type == kProfilerMethod) {
576     for (int i = 0 ; i < kHashSize; i++) {
577       Map *map = table[i];
578       if (map != nullptr) {
579         for (const auto &meth_iter : *map) {
580           ArtMethod *method = meth_iter.first;
581           std::string method_name = PrettyMethod(method);
582 
583           const DexFile::CodeItem* codeitem = method->GetCodeItem();
584           uint32_t method_size = 0;
585           if (codeitem != nullptr) {
586             method_size = codeitem->insns_size_in_code_units_;
587           }
588           uint32_t count = meth_iter.second;
589 
590           // Merge this profile entry with one from a previous run (if present).  Also
591           // remove the previous entry.
592           PreviousProfile::iterator pi = previous_.find(method_name);
593           if (pi != previous_.end()) {
594             count += pi->second.count_;
595             previous_.erase(pi);
596           }
597           os << StringPrintf("%s/%u/%u\n",  method_name.c_str(), count, method_size);
598           ++num_methods;
599         }
600       }
601     }
602   } else if (type == kProfilerBoundedStack) {
603     if (method_context_table != nullptr) {
604       for (const auto &method_iter : *method_context_table) {
605         MethodReference method = method_iter.first;
606         TrieNodeSet* node_set = method_iter.second;
607         std::string method_name = PrettyMethod(method.dex_method_index, *(method.dex_file));
608         uint32_t method_size = 0;
609         uint32_t total_count = 0;
610         PreviousContextMap new_context_map;
611         for (const auto &trie_node_i : *node_set) {
612           StackTrieNode* node = trie_node_i;
613           method_size = node->GetMethodSize();
614           uint32_t count = node->GetCount();
615           uint32_t dexpc = node->GetDexPC();
616           total_count += count;
617 
618           StackTrieNode* current = node->GetParent();
619           // We go backward on the trie to retrieve context and dex_pc until the dummy root.
620           // The format of the context is "method_1@pc_1@method_2@pc_2@..."
621           std::vector<std::string> context_vector;
622           while (current != nullptr && current->GetParent() != nullptr) {
623             context_vector.push_back(StringPrintf("%s@%u",
624                 PrettyMethod(current->GetMethod().dex_method_index, *(current->GetMethod().dex_file)).c_str(),
625                 current->GetDexPC()));
626             current = current->GetParent();
627           }
628           std::string context_sig = Join(context_vector, '@');
629           new_context_map[std::make_pair(dexpc, context_sig)] = count;
630         }
631 
632         PreviousProfile::iterator pi = previous_.find(method_name);
633         if (pi != previous_.end()) {
634           total_count += pi->second.count_;
635           PreviousContextMap* previous_context_map = pi->second.context_map_;
636           if (previous_context_map != nullptr) {
637             for (const auto &context_i : *previous_context_map) {
638               uint32_t count = context_i.second;
639               PreviousContextMap::iterator ci = new_context_map.find(context_i.first);
640               if (ci == new_context_map.end()) {
641                 new_context_map[context_i.first] = count;
642               } else {
643                 ci->second += count;
644               }
645             }
646           }
647           delete previous_context_map;
648           previous_.erase(pi);
649         }
650         // We write out profile data with dex pc and context information in the following format:
651         // "method/total_count/size/[pc_1:count_1:context_1#pc_2:count_2:context_2#...]".
652         std::vector<std::string> context_count_vector;
653         for (const auto &context_i : new_context_map) {
654           context_count_vector.push_back(StringPrintf("%u:%u:%s", context_i.first.first,
655               context_i.second, context_i.first.second.c_str()));
656         }
657         os << StringPrintf("%s/%u/%u/[%s]\n", method_name.c_str(), total_count,
658             method_size, Join(context_count_vector, '#').c_str());
659         ++num_methods;
660       }
661     }
662   }
663 
664   // Now we write out the remaining previous methods.
665   for (const auto &pi : previous_) {
666     if (type == kProfilerMethod) {
667       os << StringPrintf("%s/%u/%u\n",  pi.first.c_str(), pi.second.count_, pi.second.method_size_);
668     } else if (type == kProfilerBoundedStack) {
669       os << StringPrintf("%s/%u/%u/[",  pi.first.c_str(), pi.second.count_, pi.second.method_size_);
670       PreviousContextMap* previous_context_map = pi.second.context_map_;
671       if (previous_context_map != nullptr) {
672         std::vector<std::string> context_count_vector;
673         for (const auto &context_i : *previous_context_map) {
674           context_count_vector.push_back(StringPrintf("%u:%u:%s", context_i.first.first,
675               context_i.second, context_i.first.second.c_str()));
676         }
677         os << Join(context_count_vector, '#');
678       }
679       os << "]\n";
680     }
681     ++num_methods;
682   }
683   return num_methods;
684 }
685 
Clear()686 void ProfileSampleResults::Clear() {
687   num_samples_ = 0;
688   num_null_methods_ = 0;
689   num_boot_methods_ = 0;
690   for (int i = 0; i < kHashSize; i++) {
691     delete table[i];
692     table[i] = nullptr;
693   }
694   if (stack_trie_root_ != nullptr) {
695     stack_trie_root_->DeleteChildren();
696     delete stack_trie_root_;
697     stack_trie_root_ = nullptr;
698     if (method_context_table != nullptr) {
699       delete method_context_table;
700       method_context_table = nullptr;
701     }
702   }
703   for (auto &pi : previous_) {
704     if (pi.second.context_map_ != nullptr) {
705       delete pi.second.context_map_;
706       pi.second.context_map_ = nullptr;
707     }
708   }
709   previous_.clear();
710 }
711 
Hash(ArtMethod * method)712 uint32_t ProfileSampleResults::Hash(ArtMethod* method) {
713   return (PointerToLowMemUInt32(method) >> 3) % kHashSize;
714 }
715 
716 // Read a single line into the given string.  Returns true if everything OK, false
717 // on EOF or error.
ReadProfileLine(int fd,std::string & line)718 static bool ReadProfileLine(int fd, std::string& line) {
719   char buf[4];
720   line.clear();
721   while (true) {
722     int n = read(fd, buf, 1);     // TODO: could speed this up but is it worth it?
723     if (n != 1) {
724       return false;
725     }
726     if (buf[0] == '\n') {
727       break;
728     }
729     line += buf[0];
730   }
731   return true;
732 }
733 
ReadPrevious(int fd,ProfileDataType type)734 void ProfileSampleResults::ReadPrevious(int fd, ProfileDataType type) {
735   // Reset counters.
736   previous_num_samples_ = previous_num_null_methods_ = previous_num_boot_methods_ = 0;
737 
738   std::string line;
739 
740   // The first line contains summary information.
741   if (!ReadProfileLine(fd, line)) {
742     return;
743   }
744   std::vector<std::string> summary_info;
745   Split(line, '/', &summary_info);
746   if (summary_info.size() != 3) {
747     // Bad summary info.  It should be count/nullcount/bootcount
748     return;
749   }
750   previous_num_samples_ = strtoul(summary_info[0].c_str(), nullptr, 10);
751   previous_num_null_methods_ = strtoul(summary_info[1].c_str(), nullptr, 10);
752   previous_num_boot_methods_ = strtoul(summary_info[2].c_str(), nullptr, 10);
753 
754   // Now read each line until the end of file.  Each line consists of 3 or 4 fields separated by /
755   while (true) {
756     if (!ReadProfileLine(fd, line)) {
757       break;
758     }
759     std::vector<std::string> info;
760     Split(line, '/', &info);
761     if (info.size() != 3 && info.size() != 4) {
762       // Malformed.
763       break;
764     }
765     std::string methodname = info[0];
766     uint32_t total_count = strtoul(info[1].c_str(), nullptr, 10);
767     uint32_t size = strtoul(info[2].c_str(), nullptr, 10);
768     PreviousContextMap* context_map = nullptr;
769     if (type == kProfilerBoundedStack && info.size() == 4) {
770       context_map = new PreviousContextMap();
771       std::string context_counts_str = info[3].substr(1, info[3].size() - 2);
772       std::vector<std::string> context_count_pairs;
773       Split(context_counts_str, '#', &context_count_pairs);
774       for (uint32_t i = 0; i < context_count_pairs.size(); ++i) {
775         std::vector<std::string> context_count;
776         Split(context_count_pairs[i], ':', &context_count);
777         if (context_count.size() == 2) {
778           // Handles the situtation when the profile file doesn't contain context information.
779           uint32_t dexpc = strtoul(context_count[0].c_str(), nullptr, 10);
780           uint32_t count = strtoul(context_count[1].c_str(), nullptr, 10);
781           (*context_map)[std::make_pair(dexpc, "")] = count;
782         } else {
783           // Handles the situtation when the profile file contains context information.
784           uint32_t dexpc = strtoul(context_count[0].c_str(), nullptr, 10);
785           uint32_t count = strtoul(context_count[1].c_str(), nullptr, 10);
786           std::string context = context_count[2];
787           (*context_map)[std::make_pair(dexpc, context)] = count;
788         }
789       }
790     }
791     previous_[methodname] = PreviousValue(total_count, size, context_map);
792   }
793 }
794 
LoadFile(const std::string & fileName)795 bool ProfileFile::LoadFile(const std::string& fileName) {
796   LOG(VERBOSE) << "reading profile file " << fileName;
797   struct stat st;
798   int err = stat(fileName.c_str(), &st);
799   if (err == -1) {
800     LOG(VERBOSE) << "not found";
801     return false;
802   }
803   if (st.st_size == 0) {
804     return false;  // Empty profiles are invalid.
805   }
806   std::ifstream in(fileName.c_str());
807   if (!in) {
808     LOG(VERBOSE) << "profile file " << fileName << " exists but can't be opened";
809     LOG(VERBOSE) << "file owner: " << st.st_uid << ":" << st.st_gid;
810     LOG(VERBOSE) << "me: " << getuid() << ":" << getgid();
811     LOG(VERBOSE) << "file permissions: " << std::oct << st.st_mode;
812     LOG(VERBOSE) << "errno: " << errno;
813     return false;
814   }
815   // The first line contains summary information.
816   std::string line;
817   std::getline(in, line);
818   if (in.eof()) {
819     return false;
820   }
821   std::vector<std::string> summary_info;
822   Split(line, '/', &summary_info);
823   if (summary_info.size() != 3) {
824     // Bad summary info.  It should be total/null/boot.
825     return false;
826   }
827   // This is the number of hits in all profiled methods (without null or boot methods)
828   uint32_t total_count = strtoul(summary_info[0].c_str(), nullptr, 10);
829 
830   // Now read each line until the end of file.  Each line consists of 3 fields separated by '/'.
831   // Store the info in descending order given by the most used methods.
832   typedef std::set<std::pair<int, std::vector<std::string>>> ProfileSet;
833   ProfileSet countSet;
834   while (!in.eof()) {
835     std::getline(in, line);
836     if (in.eof()) {
837       break;
838     }
839     std::vector<std::string> info;
840     Split(line, '/', &info);
841     if (info.size() != 3 && info.size() != 4) {
842       // Malformed.
843       return false;
844     }
845     int count = atoi(info[1].c_str());
846     countSet.insert(std::make_pair(-count, info));
847   }
848 
849   uint32_t curTotalCount = 0;
850   ProfileSet::iterator end = countSet.end();
851   const ProfileData* prevData = nullptr;
852   for (ProfileSet::iterator it = countSet.begin(); it != end ; it++) {
853     const std::string& methodname = it->second[0];
854     uint32_t count = -it->first;
855     uint32_t size = strtoul(it->second[2].c_str(), nullptr, 10);
856     double usedPercent = (count * 100.0) / total_count;
857 
858     curTotalCount += count;
859     // Methods with the same count should be part of the same top K percentage bucket.
860     double topKPercentage = (prevData != nullptr) && (prevData->GetCount() == count)
861       ? prevData->GetTopKUsedPercentage()
862       : 100 * static_cast<double>(curTotalCount) / static_cast<double>(total_count);
863 
864     // Add it to the profile map.
865     ProfileData curData = ProfileData(methodname, count, size, usedPercent, topKPercentage);
866     profile_map_[methodname] = curData;
867     prevData = &curData;
868   }
869   return true;
870 }
871 
GetProfileData(ProfileFile::ProfileData * data,const std::string & method_name)872 bool ProfileFile::GetProfileData(ProfileFile::ProfileData* data, const std::string& method_name) {
873   ProfileMap::iterator i = profile_map_.find(method_name);
874   if (i == profile_map_.end()) {
875     return false;
876   }
877   *data = i->second;
878   return true;
879 }
880 
GetTopKSamples(std::set<std::string> & topKSamples,double topKPercentage)881 bool ProfileFile::GetTopKSamples(std::set<std::string>& topKSamples, double topKPercentage) {
882   ProfileMap::iterator end = profile_map_.end();
883   for (ProfileMap::iterator it = profile_map_.begin(); it != end; it++) {
884     if (it->second.GetTopKUsedPercentage() < topKPercentage) {
885       topKSamples.insert(it->first);
886     }
887   }
888   return true;
889 }
890 
FindChild(MethodReference method,uint32_t dex_pc)891 StackTrieNode* StackTrieNode::FindChild(MethodReference method, uint32_t dex_pc) {
892   if (children_.size() == 0) {
893     return nullptr;
894   }
895   // Create a dummy node for searching.
896   StackTrieNode* node = new StackTrieNode(method, dex_pc, 0, nullptr);
897   std::set<StackTrieNode*, StackTrieNodeComparator>::iterator i = children_.find(node);
898   delete node;
899   return (i == children_.end()) ? nullptr : *i;
900 }
901 
DeleteChildren()902 void StackTrieNode::DeleteChildren() {
903   for (auto &child : children_) {
904     if (child != nullptr) {
905       child->DeleteChildren();
906       delete child;
907     }
908   }
909 }
910 
911 }  // namespace art
912