1 /*
2 * Copyright (C) 2020 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 #pragma once
18
19 #include <math.h>
20 #include <sys/types.h>
21
22 #include <algorithm>
23 #include <optional>
24 #include <string>
25 #include <unordered_map>
26 #include <vector>
27
28 #include <android-base/stringprintf.h>
29
30 #include "SampleComparator.h"
31 #include "command.h"
32 #include "event_selection_set.h"
33
34 namespace simpleperf {
35
36 struct CounterSum {
37 uint64_t value = 0;
38 uint64_t time_enabled = 0;
39 uint64_t time_running = 0;
40
FromCounterCounterSum41 void FromCounter(const PerfCounter& counter) {
42 value = counter.value;
43 time_enabled = counter.time_enabled;
44 time_running = counter.time_running;
45 }
46
ToCounterCounterSum47 void ToCounter(PerfCounter& counter) const {
48 counter.value = value;
49 counter.time_enabled = time_enabled;
50 counter.time_running = time_running;
51 }
52
53 CounterSum operator+(const CounterSum& other) const {
54 CounterSum res;
55 res.value = value + other.value;
56 res.time_enabled = time_enabled + other.time_enabled;
57 res.time_running = time_running + other.time_running;
58 return res;
59 }
60
61 CounterSum operator-(const CounterSum& other) const {
62 CounterSum res;
63 res.value = value - other.value;
64 res.time_enabled = time_enabled - other.time_enabled;
65 res.time_running = time_running - other.time_running;
66 return res;
67 }
68 };
69
70 struct ThreadInfo {
71 pid_t tid;
72 pid_t pid;
73 std::string name;
74 };
75
76 struct CounterSummary {
77 std::string type_name;
78 std::string modifier;
79 uint32_t group_id;
80 const ThreadInfo* thread;
81 int cpu; // -1 represents all cpus
82 uint64_t count;
83 uint64_t runtime_in_ns;
84 double scale;
85 std::string readable_count;
86 std::string comment;
87 bool auto_generated;
88
89 // used to sort summaries by count_per_thread
90 uint64_t count_per_thread = 0;
91
CounterSummaryCounterSummary92 CounterSummary(const std::string& type_name, const std::string& modifier, uint32_t group_id,
93 const ThreadInfo* thread, int cpu, uint64_t count, uint64_t runtime_in_ns,
94 double scale, bool auto_generated, bool csv)
95 : type_name(type_name),
96 modifier(modifier),
97 group_id(group_id),
98 thread(thread),
99 cpu(cpu),
100 count(count),
101 runtime_in_ns(runtime_in_ns),
102 scale(scale),
103 auto_generated(auto_generated) {
104 readable_count = ReadableCountValue(csv);
105 }
106
IsMonitoredAtTheSameTimeCounterSummary107 bool IsMonitoredAtTheSameTime(const CounterSummary& other) const {
108 // Two summaries are monitored at the same time if they are in the same
109 // group or are monitored all the time.
110 if (group_id == other.group_id) {
111 return true;
112 }
113 return IsMonitoredAllTheTime() && other.IsMonitoredAllTheTime();
114 }
115
NameCounterSummary116 std::string Name() const {
117 if (modifier.empty()) {
118 return type_name;
119 }
120 return type_name + ":" + modifier;
121 }
122
IsMonitoredAllTheTimeCounterSummary123 bool IsMonitoredAllTheTime() const {
124 // If an event runs all the time it is enabled (by not sharing hardware
125 // counters with other events), the scale of its summary is usually within
126 // [1, 1 + 1e-5]. By setting SCALE_ERROR_LIMIT to 1e-5, We can identify
127 // events monitored all the time in most cases while keeping the report
128 // error rate <= 1e-5.
129 constexpr double SCALE_ERROR_LIMIT = 1e-5;
130 return (fabs(scale - 1.0) < SCALE_ERROR_LIMIT);
131 }
132
133 private:
ReadableCountValueCounterSummary134 std::string ReadableCountValue(bool csv) {
135 if (type_name == "cpu-clock" || type_name == "task-clock") {
136 // Convert nanoseconds to milliseconds.
137 double value = count / 1e6;
138 return android::base::StringPrintf("%lf(ms)", value);
139 } else {
140 // Convert big numbers to human friendly mode. For example,
141 // 1000000 will be converted to 1,000,000.
142 std::string s = android::base::StringPrintf("%" PRIu64, count);
143 if (csv) {
144 return s;
145 } else {
146 for (size_t i = s.size() - 1, j = 1; i > 0; --i, ++j) {
147 if (j == 3) {
148 s.insert(s.begin() + i, ',');
149 j = 0;
150 }
151 }
152 return s;
153 }
154 }
155 }
156 };
157
158 BUILD_COMPARE_VALUE_FUNCTION_REVERSE(CompareSummaryCount, count);
159 BUILD_COMPARE_VALUE_FUNCTION_REVERSE(CompareSummaryCountPerThread, count_per_thread);
160 BUILD_COMPARE_VALUE_FUNCTION(CompareSummaryCpu, cpu);
161 BUILD_COMPARE_VALUE_FUNCTION(CompareSummaryPid, thread->pid);
162 BUILD_COMPARE_VALUE_FUNCTION(CompareSummaryTid, thread->tid);
163 BUILD_COMPARE_VALUE_FUNCTION(CompareSummaryComm, thread->name);
164
165 using SummaryComparator = SampleComparator<CounterSummary>;
166
BuildSummaryComparator(const std::vector<std::string> & keys,bool report_per_thread,bool report_per_core)167 inline std::optional<SummaryComparator> BuildSummaryComparator(const std::vector<std::string>& keys,
168 bool report_per_thread,
169 bool report_per_core) {
170 SummaryComparator comparator;
171 for (auto& key : keys) {
172 if (key == "count") {
173 comparator.AddCompareFunction(CompareSummaryCount);
174 } else if (key == "count_per_thread") {
175 if (report_per_thread) {
176 comparator.AddCompareFunction(CompareSummaryCountPerThread);
177 }
178 } else if (key == "cpu") {
179 if (report_per_core) {
180 comparator.AddCompareFunction(CompareSummaryCpu);
181 }
182 } else if (key == "pid") {
183 if (report_per_thread) {
184 comparator.AddCompareFunction(CompareSummaryPid);
185 }
186 } else if (key == "tid") {
187 if (report_per_thread) {
188 comparator.AddCompareFunction(CompareSummaryTid);
189 }
190 } else if (key == "comm") {
191 if (report_per_thread) {
192 comparator.AddCompareFunction(CompareSummaryComm);
193 }
194 } else {
195 LOG(ERROR) << "Unknown sort key: " << key;
196 return {};
197 }
198 }
199 return comparator;
200 }
201
202 // Build a vector of CounterSummary.
203 class CounterSummaryBuilder {
204 public:
CounterSummaryBuilder(bool report_per_thread,bool report_per_core,bool csv,const std::unordered_map<pid_t,ThreadInfo> & thread_map,const std::optional<SummaryComparator> & comparator)205 CounterSummaryBuilder(bool report_per_thread, bool report_per_core, bool csv,
206 const std::unordered_map<pid_t, ThreadInfo>& thread_map,
207 const std::optional<SummaryComparator>& comparator)
208 : report_per_thread_(report_per_thread),
209 report_per_core_(report_per_core),
210 csv_(csv),
211 thread_map_(thread_map),
212 summary_comparator_(comparator) {}
213
AddCountersForOneEventType(const CountersInfo & info)214 void AddCountersForOneEventType(const CountersInfo& info) {
215 std::unordered_map<uint64_t, CounterSum> sum_map;
216 for (const auto& counter : info.counters) {
217 uint64_t key = 0;
218 if (report_per_thread_) {
219 key |= counter.tid;
220 }
221 if (report_per_core_) {
222 key |= static_cast<uint64_t>(counter.cpu) << 32;
223 }
224 CounterSum& sum = sum_map[key];
225 CounterSum add;
226 add.FromCounter(counter.counter);
227 sum = sum + add;
228 }
229 size_t pre_sum_count = summaries_.size();
230 for (const auto& pair : sum_map) {
231 pid_t tid = report_per_thread_ ? static_cast<pid_t>(pair.first & UINT32_MAX) : 0;
232 int cpu = report_per_core_ ? static_cast<int>(pair.first >> 32) : -1;
233 const CounterSum& sum = pair.second;
234 AddSummary(info, tid, cpu, sum);
235 }
236 if (report_per_thread_ || report_per_core_) {
237 SortSummaries(summaries_.begin() + pre_sum_count, summaries_.end());
238 }
239 }
240
Build()241 std::vector<CounterSummary> Build() {
242 std::vector<CounterSummary> res = std::move(summaries_);
243 summaries_.clear();
244 return res;
245 }
246
247 private:
AddSummary(const CountersInfo & info,pid_t tid,int cpu,const CounterSum & sum)248 void AddSummary(const CountersInfo& info, pid_t tid, int cpu, const CounterSum& sum) {
249 double scale = 1.0;
250 if (sum.time_running < sum.time_enabled && sum.time_running != 0) {
251 scale = static_cast<double>(sum.time_enabled) / sum.time_running;
252 }
253 if ((report_per_thread_ || report_per_core_) && sum.time_running == 0) {
254 // No need to report threads or cpus not running.
255 return;
256 }
257 const ThreadInfo* thread = nullptr;
258 if (report_per_thread_) {
259 auto it = thread_map_.find(tid);
260 CHECK(it != thread_map_.end());
261 thread = &it->second;
262 }
263 summaries_.emplace_back(info.event_name, info.event_modifier, info.group_id, thread, cpu,
264 sum.value, sum.time_running, scale, false, csv_);
265 }
266
SortSummaries(std::vector<CounterSummary>::iterator begin,std::vector<CounterSummary>::iterator end)267 void SortSummaries(std::vector<CounterSummary>::iterator begin,
268 std::vector<CounterSummary>::iterator end) {
269 // Generate count_per_thread value for sorting.
270 if (report_per_thread_) {
271 if (report_per_core_) {
272 std::unordered_map<pid_t, uint64_t> count_per_thread;
273 for (auto it = begin; it != end; ++it) {
274 count_per_thread[it->thread->tid] += it->count;
275 }
276 for (auto it = begin; it != end; ++it) {
277 it->count_per_thread = count_per_thread[it->thread->tid];
278 }
279 } else {
280 for (auto it = begin; it != end; ++it) {
281 it->count_per_thread = it->count;
282 }
283 }
284 }
285
286 std::sort(begin, end, summary_comparator_.value());
287 };
288
289 const bool report_per_thread_;
290 const bool report_per_core_;
291 const bool csv_;
292 const std::unordered_map<pid_t, ThreadInfo>& thread_map_;
293 const std::optional<SummaryComparator>& summary_comparator_;
294 std::vector<CounterSummary> summaries_;
295 };
296
297 class CounterSummaries {
298 public:
CounterSummaries(std::vector<CounterSummary> && summaries,bool csv)299 explicit CounterSummaries(std::vector<CounterSummary>&& summaries, bool csv)
300 : summaries_(std::move(summaries)), csv_(csv) {}
Summaries()301 const std::vector<CounterSummary>& Summaries() { return summaries_; }
302
303 const CounterSummary* FindSummary(const std::string& type_name, const std::string& modifier,
304 const ThreadInfo* thread, int cpu);
305
306 // If we have two summaries monitoring the same event type at the same time,
307 // that one is for user space only, and the other is for kernel space only;
308 // then we can automatically generate a summary combining the two results.
309 // For example, a summary of branch-misses:u and a summary for branch-misses:k
310 // can generate a summary of branch-misses.
311 void AutoGenerateSummaries();
312 void GenerateComments(double duration_in_sec);
313 void Show(FILE* fp);
314
315 private:
316 std::string GetCommentForSummary(const CounterSummary& s, double duration_in_sec);
317 std::string GetRateComment(const CounterSummary& s, char sep);
318 bool FindRunningTimeForSummary(const CounterSummary& summary, double* running_time_in_sec);
319 void ShowCSV(FILE* fp, bool show_thread, bool show_core);
320 void ShowText(FILE* fp, bool show_thread, bool show_core);
321
322 private:
323 std::vector<CounterSummary> summaries_;
324 bool csv_;
325 };
326
GetStatCmdOptionFormats()327 inline const OptionFormatMap& GetStatCmdOptionFormats() {
328 static const OptionFormatMap option_formats = {
329 {"-a", {OptionValueType::NONE, OptionType::SINGLE, AppRunnerType::NOT_ALLOWED}},
330 {"--app", {OptionValueType::STRING, OptionType::SINGLE, AppRunnerType::NOT_ALLOWED}},
331 {"--cpu", {OptionValueType::STRING, OptionType::SINGLE, AppRunnerType::ALLOWED}},
332 {"--csv", {OptionValueType::NONE, OptionType::SINGLE, AppRunnerType::ALLOWED}},
333 {"--duration", {OptionValueType::DOUBLE, OptionType::SINGLE, AppRunnerType::ALLOWED}},
334 {"--interval", {OptionValueType::DOUBLE, OptionType::SINGLE, AppRunnerType::ALLOWED}},
335 {"--interval-only-values",
336 {OptionValueType::NONE, OptionType::SINGLE, AppRunnerType::ALLOWED}},
337 {"-e", {OptionValueType::STRING, OptionType::MULTIPLE, AppRunnerType::ALLOWED}},
338 {"--group", {OptionValueType::STRING, OptionType::MULTIPLE, AppRunnerType::ALLOWED}},
339 {"--in-app", {OptionValueType::NONE, OptionType::SINGLE, AppRunnerType::ALLOWED}},
340 {"--no-inherit", {OptionValueType::NONE, OptionType::SINGLE, AppRunnerType::ALLOWED}},
341 {"-o", {OptionValueType::STRING, OptionType::SINGLE, AppRunnerType::NOT_ALLOWED}},
342 {"--out-fd", {OptionValueType::UINT, OptionType::SINGLE, AppRunnerType::CHECK_FD}},
343 {"-p", {OptionValueType::STRING, OptionType::MULTIPLE, AppRunnerType::ALLOWED}},
344 {"--per-core", {OptionValueType::NONE, OptionType::SINGLE, AppRunnerType::ALLOWED}},
345 {"--per-thread", {OptionValueType::NONE, OptionType::SINGLE, AppRunnerType::ALLOWED}},
346 {"--sort", {OptionValueType::STRING, OptionType::SINGLE, AppRunnerType::ALLOWED}},
347 {"--stop-signal-fd", {OptionValueType::UINT, OptionType::SINGLE, AppRunnerType::CHECK_FD}},
348 {"-t", {OptionValueType::STRING, OptionType::MULTIPLE, AppRunnerType::ALLOWED}},
349 {"--tracepoint-events",
350 {OptionValueType::STRING, OptionType::SINGLE, AppRunnerType::CHECK_PATH}},
351 {"--use-devfreq-counters",
352 {OptionValueType::NONE, OptionType::SINGLE, AppRunnerType::NOT_ALLOWED}},
353 {"--verbose", {OptionValueType::NONE, OptionType::SINGLE, AppRunnerType::ALLOWED}},
354 };
355 return option_formats;
356 }
357
358 } // namespace simpleperf