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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 #ifndef ART_RUNTIME_PROFILER_H_
18 #define ART_RUNTIME_PROFILER_H_
19 
20 #include <memory>
21 #include <ostream>
22 #include <set>
23 #include <string>
24 #include <vector>
25 
26 #include "barrier.h"
27 #include "base/macros.h"
28 #include "base/mutex.h"
29 #include "globals.h"
30 #include "instrumentation.h"
31 #include "profiler_options.h"
32 #include "os.h"
33 #include "safe_map.h"
34 #include "method_reference.h"
35 
36 namespace art {
37 
38 namespace mirror {
39   class Class;
40 }  // namespace mirror
41 class ArtMethod;
42 class Thread;
43 
44 typedef std::pair<ArtMethod*, uint32_t> InstructionLocation;
45 
46 // This class stores the sampled bounded stacks in a trie structure. A path of the trie represents
47 // a particular context with the method on top of the stack being a leaf or an internal node of the
48 // trie rather than the root.
49 class StackTrieNode {
50  public:
StackTrieNode(MethodReference method,uint32_t dex_pc,uint32_t method_size,StackTrieNode * parent)51   StackTrieNode(MethodReference method, uint32_t dex_pc, uint32_t method_size,
52       StackTrieNode* parent) :
53       parent_(parent), method_(method), dex_pc_(dex_pc),
54       count_(0), method_size_(method_size) {
55   }
StackTrieNode()56   StackTrieNode() : parent_(nullptr), method_(nullptr, 0),
57       dex_pc_(0), count_(0), method_size_(0) {
58   }
GetParent()59   StackTrieNode* GetParent() { return parent_; }
GetMethod()60   MethodReference GetMethod() { return method_; }
GetCount()61   uint32_t GetCount() { return count_; }
GetDexPC()62   uint32_t GetDexPC() { return dex_pc_; }
GetMethodSize()63   uint32_t GetMethodSize() { return method_size_; }
AppendChild(StackTrieNode * child)64   void AppendChild(StackTrieNode* child) { children_.insert(child); }
65   StackTrieNode* FindChild(MethodReference method, uint32_t dex_pc);
66   void DeleteChildren();
IncreaseCount()67   void IncreaseCount() { ++count_; }
68 
69  private:
70   // Comparator for stack trie node.
71   struct StackTrieNodeComparator {
operatorStackTrieNodeComparator72     bool operator()(StackTrieNode* node1, StackTrieNode* node2) const {
73       MethodReference mr1 = node1->GetMethod();
74       MethodReference mr2 = node2->GetMethod();
75       if (mr1.dex_file == mr2.dex_file) {
76         if (mr1.dex_method_index == mr2.dex_method_index) {
77           return node1->GetDexPC() < node2->GetDexPC();
78         } else {
79           return mr1.dex_method_index < mr2.dex_method_index;
80         }
81       } else {
82         return mr1.dex_file < mr2.dex_file;
83       }
84     }
85   };
86 
87   std::set<StackTrieNode*, StackTrieNodeComparator> children_;
88   StackTrieNode* parent_;
89   MethodReference method_;
90   uint32_t dex_pc_;
91   uint32_t count_;
92   uint32_t method_size_;
93 };
94 
95 //
96 // This class holds all the results for all runs of the profiler.  It also
97 // counts the number of null methods (where we can't determine the method) and
98 // the number of methods in the boot path (where we have already compiled the method).
99 //
100 // This object is an internal profiler object and uses the same locking as the profiler
101 // itself.
102 class ProfileSampleResults {
103  public:
104   explicit ProfileSampleResults(Mutex& lock);
105   ~ProfileSampleResults();
106 
107   void Put(ArtMethod* method);
108   void PutStack(const std::vector<InstructionLocation>& stack_dump);
109   uint32_t Write(std::ostream &os, ProfileDataType type);
110   void ReadPrevious(int fd, ProfileDataType type);
111   void Clear();
GetNumSamples()112   uint32_t GetNumSamples() { return num_samples_; }
NullMethod()113   void NullMethod() { ++num_null_methods_; }
BootMethod()114   void BootMethod() { ++num_boot_methods_; }
115 
116  private:
117   uint32_t Hash(ArtMethod* method);
118   static constexpr int kHashSize = 17;
119   Mutex& lock_;                  // Reference to the main profiler lock - we don't need two of them.
120   uint32_t num_samples_;         // Total number of samples taken.
121   uint32_t num_null_methods_;    // Number of samples where can don't know the method.
122   uint32_t num_boot_methods_;    // Number of samples in the boot path.
123 
124   typedef std::map<ArtMethod*, uint32_t> Map;  // Map of method vs its count.
125   Map *table[kHashSize];
126 
127   typedef std::set<StackTrieNode*> TrieNodeSet;
128   // Map of method hit by profiler vs the set of stack trie nodes for this method.
129   typedef std::map<MethodReference, TrieNodeSet*, MethodReferenceComparator> MethodContextMap;
130   MethodContextMap *method_context_table;
131   StackTrieNode* stack_trie_root_;  // Root of the trie that stores sampled stack information.
132 
133   // Map from <pc, context> to counts.
134   typedef std::map<std::pair<uint32_t, std::string>, uint32_t> PreviousContextMap;
135   struct PreviousValue {
PreviousValuePreviousValue136     PreviousValue() : count_(0), method_size_(0), context_map_(nullptr) {}
PreviousValuePreviousValue137     PreviousValue(uint32_t count, uint32_t method_size, PreviousContextMap* context_map)
138       : count_(count), method_size_(method_size), context_map_(context_map) {}
139     uint32_t count_;
140     uint32_t method_size_;
141     PreviousContextMap* context_map_;
142   };
143 
144   typedef std::map<std::string, PreviousValue> PreviousProfile;
145   PreviousProfile previous_;
146   uint32_t previous_num_samples_;
147   uint32_t previous_num_null_methods_;     // Number of samples where can don't know the method.
148   uint32_t previous_num_boot_methods_;     // Number of samples in the boot path.
149 };
150 
151 //
152 // The BackgroundMethodSamplingProfiler runs in a thread.  Most of the time it is sleeping but
153 // occasionally wakes up and counts the number of times a method is called.  Each time
154 // it ticks, it looks at the current method and records it in the ProfileSampleResults
155 // table.
156 //
157 // The timing is controlled by a number of variables:
158 // 1.  Period: the time between sampling runs.
159 // 2.  Interval: the time between each sample in a run.
160 // 3.  Duration: the duration of a run.
161 //
162 // So the profiler thread is sleeping for the 'period' time.  It wakes up and runs for the
163 // 'duration'.  The run consists of a series of samples, each of which is 'interval' microseconds
164 // apart.  At the end of a run, it writes the results table to a file and goes back to sleep.
165 
166 class BackgroundMethodSamplingProfiler {
167  public:
168   // Start a profile thread with the user-supplied arguments.
169   // Returns true if the profile was started or if it was already running. Returns false otherwise.
170   static bool Start(const std::string& output_filename, const ProfilerOptions& options)
171   LOCKS_EXCLUDED(Locks::mutator_lock_,
172                  Locks::thread_list_lock_,
173                  Locks::thread_suspend_count_lock_,
174                  Locks::profiler_lock_);
175 
176   static void Stop() LOCKS_EXCLUDED(Locks::profiler_lock_, wait_lock_);
177   static void Shutdown() LOCKS_EXCLUDED(Locks::profiler_lock_);
178 
179   void RecordMethod(ArtMethod *method) SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
180   void RecordStack(const std::vector<InstructionLocation>& stack) SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
181   bool ProcessMethod(ArtMethod* method) SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
GetProfilerOptions()182   const ProfilerOptions& GetProfilerOptions() const { return options_; }
183 
GetBarrier()184   Barrier& GetBarrier() {
185     return *profiler_barrier_;
186   }
187 
188  private:
189   explicit BackgroundMethodSamplingProfiler(
190     const std::string& output_filename, const ProfilerOptions& options);
191 
192   // The sampling interval in microseconds is passed as an argument.
193   static void* RunProfilerThread(void* arg) LOCKS_EXCLUDED(Locks::profiler_lock_);
194 
195   uint32_t WriteProfile() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
196 
197   void CleanProfile();
198   uint32_t DumpProfile(std::ostream& os) SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
199   static bool ShuttingDown(Thread* self) LOCKS_EXCLUDED(Locks::profiler_lock_);
200 
201   static BackgroundMethodSamplingProfiler* profiler_ GUARDED_BY(Locks::profiler_lock_);
202 
203   // We need to shut the sample thread down at exit.  Setting this to true will do that.
204   static volatile bool shutting_down_ GUARDED_BY(Locks::profiler_lock_);
205 
206   // Sampling thread, non-zero when sampling.
207   static pthread_t profiler_pthread_;
208 
209   // Some measure of the number of samples that are significant.
210   static constexpr uint32_t kSignificantSamples = 10;
211 
212   // The name of the file where profile data will be written.
213   std::string output_filename_;
214   // The options used to start the profiler.
215   const ProfilerOptions& options_;
216 
217 
218   // Profile condition support.
219   Mutex wait_lock_ DEFAULT_MUTEX_ACQUIRED_AFTER;
220   ConditionVariable period_condition_ GUARDED_BY(wait_lock_);
221 
222   ProfileSampleResults profile_table_;
223 
224   std::unique_ptr<Barrier> profiler_barrier_;
225 
226   // Set of methods to be filtered out.  This will probably be rare because
227   // most of the methods we want to be filtered reside in the boot path and
228   // are automatically filtered.
229   typedef std::set<std::string> FilteredMethods;
230   FilteredMethods filtered_methods_;
231 
232   DISALLOW_COPY_AND_ASSIGN(BackgroundMethodSamplingProfiler);
233 };
234 
235 //
236 // Contains profile data generated from previous runs of the program and stored
237 // in a file.  It is used to determine whether to compile a particular method or not.
238 class ProfileFile {
239  public:
240   class ProfileData {
241    public:
ProfileData()242     ProfileData() : count_(0), method_size_(0), used_percent_(0) {}
ProfileData(const std::string & method_name,uint32_t count,uint32_t method_size,double used_percent,double top_k_used_percentage)243     ProfileData(const std::string& method_name, uint32_t count, uint32_t method_size,
244       double used_percent, double top_k_used_percentage) :
245       method_name_(method_name), count_(count), method_size_(method_size),
246       used_percent_(used_percent), top_k_used_percentage_(top_k_used_percentage) {
247       // TODO: currently method_size_ is unused
248       UNUSED(method_size_);
249     }
250 
GetUsedPercent()251     double GetUsedPercent() const { return used_percent_; }
GetCount()252     uint32_t GetCount() const { return count_; }
GetTopKUsedPercentage()253     double GetTopKUsedPercentage() const { return top_k_used_percentage_; }
254 
255    private:
256     std::string method_name_;       // Method name.
257     uint32_t count_;                // Number of times it has been called.
258     uint32_t method_size_;          // Size of the method on dex instructions.
259     double used_percent_;           // Percentage of how many times this method was called.
260     double top_k_used_percentage_;  // The percentage of the group that comprise K% of the total
261                                     // used methods this methods belongs to.
262   };
263 
264  public:
265   // Loads profile data from the given file. The new data are merged with any existing data.
266   // Returns true if the file was loaded successfully and false otherwise.
267   bool LoadFile(const std::string& filename);
268 
269   // Computes the group that comprise top_k_percentage of the total used methods.
270   bool GetTopKSamples(std::set<std::string>& top_k_methods, double top_k_percentage);
271 
272   // If the given method has an entry in the profile table it updates the data
273   // and returns true. Otherwise returns false and leaves the data unchanged.
274   bool GetProfileData(ProfileData* data, const std::string& method_name);
275 
276  private:
277   // Profile data is stored in a map, indexed by the full method name.
278   typedef std::map<std::string, ProfileData> ProfileMap;
279   ProfileMap profile_map_;
280 };
281 
282 }  // namespace art
283 
284 #endif  // ART_RUNTIME_PROFILER_H_
285