simpleperf/event_selection_set.h - platform/system/extras - Git at Google

 /*
  * Copyright (C) 2015 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 #ifndef SIMPLE_PERF_EVENT_SELECTION_SET_H_
 #define SIMPLE_PERF_EVENT_SELECTION_SET_H_

 #include <functional>
 #include <map>
 #include <set>
 #include <unordered_map>
 #include <vector>

 #include <android-base/macros.h>

 #include "event_attr.h"
 #include "event_fd.h"
 #include "event_type.h"
 #include "InplaceSamplerClient.h"
 #include "IOEventLoop.h"
 #include "perf_event.h"
 #include "record.h"

 namespace simpleperf {
   class RecordReadThread;
 }

 constexpr double DEFAULT_PERIOD_TO_DETECT_CPU_HOTPLUG_EVENTS_IN_SEC = 0.5;
 constexpr double DEFAULT_PERIOD_TO_CHECK_MONITORED_TARGETS_IN_SEC = 1;
 constexpr uint64_t DEFAULT_SAMPLE_FREQ_FOR_NONTRACEPOINT_EVENT = 4000;
 constexpr uint64_t DEFAULT_SAMPLE_PERIOD_FOR_TRACEPOINT_EVENT = 1;

 struct CounterInfo {
   pid_t tid;
   int cpu;
   PerfCounter counter;
 };

 struct CountersInfo {
   uint32_t group_id;
   std::string event_name;
   std::string event_modifier;
   std::vector<CounterInfo> counters;
 };

 struct SampleSpeed {
   // There are two ways to set sample speed:
   // 1. sample_freq: take [sample_freq] samples every second.
   // 2. sample_period: take one sample every [sample_period] events happen.
   uint64_t sample_freq;
   uint64_t sample_period;
   SampleSpeed(uint64_t freq = 0, uint64_t period = 0) : sample_freq(freq), sample_period(period) {}
   bool UseFreq() const {
     // Only use one way to set sample speed.
     CHECK_NE(sample_freq != 0u, sample_period != 0u);
     return sample_freq != 0u;
   }
 };

 // EventSelectionSet helps to monitor events. It is used in following steps:
 // 1. Create an EventSelectionSet, and add event types to monitor by calling
 //    AddEventType() or AddEventGroup().
 // 2. Define how to monitor events by calling SetEnableOnExec(), SampleIdAll(),
 //    SetSampleFreq(), etc.
 // 3. Start monitoring by calling OpenEventFilesForCpus() or
 //    OpenEventFilesForThreadsOnCpus(). If SetEnableOnExec() has been called
 //    in step 2, monitor will be delayed until the monitored thread calls
 //    exec().
 // 4. Read counters by calling ReadCounters(), or read mapped event records
 //    by calling MmapEventFiles(), PrepareToReadMmapEventData() and
 //    FinishReadMmapEventData().
 // 5. Stop monitoring automatically in the destructor of EventSelectionSet by
 //    closing perf event files.

 class EventSelectionSet {
  public:
   EventSelectionSet(bool for_stat_cmd);
   ~EventSelectionSet();

   bool empty() const { return groups_.empty(); }

   bool AddEventType(const std::string& event_name, size_t* group_id = nullptr);
   bool AddEventGroup(const std::vector<std::string>& event_names, size_t* group_id = nullptr);
   std::vector<const EventType*> GetEvents() const;
   std::vector<const EventType*> GetTracepointEvents() const;
   bool ExcludeKernel() const;
   bool HasInplaceSampler() const;
   std::vector<EventAttrWithId> GetEventAttrWithId() const;

   void SetEnableOnExec(bool enable);
   bool GetEnableOnExec();
   void SampleIdAll();
   void SetSampleSpeed(size_t group_id, const SampleSpeed& speed);
   bool SetBranchSampling(uint64_t branch_sample_type);
   void EnableFpCallChainSampling();
   bool EnableDwarfCallChainSampling(uint32_t dump_stack_size);
   void SetInherit(bool enable);
   void SetClockId(int clock_id);
   bool NeedKernelSymbol() const;
   void SetRecordNotExecutableMaps(bool record);
   bool RecordNotExecutableMaps() const;

   void AddMonitoredProcesses(const std::set<pid_t>& processes) {
     processes_.insert(processes.begin(), processes.end());
   }

   void AddMonitoredThreads(const std::set<pid_t>& threads) {
     threads_.insert(threads.begin(), threads.end());
   }

   const std::set<pid_t>& GetMonitoredProcesses() const { return processes_; }

   const std::set<pid_t>& GetMonitoredThreads() const { return threads_; }

   bool HasMonitoredTarget() const {
     return !processes_.empty() || !threads_.empty();
   }

   IOEventLoop* GetIOEventLoop() {
     return loop_.get();
   }

   bool OpenEventFiles(const std::vector<int>& on_cpus);
   bool ReadCounters(std::vector<CountersInfo>* counters);
   bool MmapEventFiles(size_t min_mmap_pages, size_t max_mmap_pages, size_t record_buffer_size);
   bool PrepareToReadMmapEventData(const std::function<bool(Record*)>& callback);
   bool SyncKernelBuffer();
   bool FinishReadMmapEventData();
   void GetLostRecords(size_t* lost_samples, size_t* lost_non_samples, size_t* cut_stack_samples);

   // If monitored_cpus is empty, monitor all cpus.
   bool HandleCpuHotplugEvents(const std::vector<int>& monitored_cpus,
                               double check_interval_in_sec =
                                   DEFAULT_PERIOD_TO_DETECT_CPU_HOTPLUG_EVENTS_IN_SEC);

   // Stop profiling if all monitored processes/threads don't exist.
   bool StopWhenNoMoreTargets(double check_interval_in_sec =
                                  DEFAULT_PERIOD_TO_CHECK_MONITORED_TARGETS_IN_SEC);

  private:
   struct EventSelection {
     EventTypeAndModifier event_type_modifier;
     perf_event_attr event_attr;
     std::vector<std::unique_ptr<EventFd>> event_fds;
     std::vector<std::unique_ptr<InplaceSamplerClient>> inplace_samplers;
     // counters for event files closed for cpu hotplug events
     std::vector<CounterInfo> hotplugged_counters;
   };
   typedef std::vector<EventSelection> EventSelectionGroup;

   bool BuildAndCheckEventSelection(const std::string& event_name, bool first_event,
                                    EventSelection* selection);
   void UnionSampleType();
   bool IsUserSpaceSamplerGroup(EventSelectionGroup& group);
   bool OpenUserSpaceSamplersOnGroup(EventSelectionGroup& group,
                                     const std::map<pid_t, std::set<pid_t>>& process_map);
   bool OpenEventFilesOnGroup(EventSelectionGroup& group, pid_t tid, int cpu,
                              std::string* failed_event_type);
   bool ReadMmapEventData(bool with_time_limit);

   bool DetectCpuHotplugEvents();
   bool HandleCpuOnlineEvent(int cpu);
   bool HandleCpuOfflineEvent(int cpu);
   bool CreateMappedBufferForCpu(int cpu);
   bool CheckMonitoredTargets();
   bool HasSampler();

   const bool for_stat_cmd_;

   std::vector<EventSelectionGroup> groups_;
   std::set<pid_t> processes_;
   std::set<pid_t> threads_;

   std::unique_ptr<IOEventLoop> loop_;
   std::function<bool(Record*)> record_callback_;

   std::set<int> monitored_cpus_;
   std::vector<int> online_cpus_;

   std::unique_ptr<simpleperf::RecordReadThread> record_read_thread_;

   DISALLOW_COPY_AND_ASSIGN(EventSelectionSet);
 };

 bool IsBranchSamplingSupported();
 bool IsDwarfCallChainSamplingSupported();
 bool IsDumpingRegsForTracepointEventsSupported();
 bool IsSettingClockIdSupported();
 bool IsMmap2Supported();

 #endif  // SIMPLE_PERF_EVENT_SELECTION_SET_H_
	/*
	* Copyright (C) 2015 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#ifndef SIMPLE_PERF_EVENT_SELECTION_SET_H_
	#define SIMPLE_PERF_EVENT_SELECTION_SET_H_

	#include <functional>
	#include <map>
	#include <set>
	#include <unordered_map>
	#include <vector>

	#include <android-base/macros.h>

	#include "event_attr.h"
	#include "event_fd.h"
	#include "event_type.h"
	#include "InplaceSamplerClient.h"
	#include "IOEventLoop.h"
	#include "perf_event.h"
	#include "record.h"

	namespace simpleperf {
	class RecordReadThread;
	}

	constexpr double DEFAULT_PERIOD_TO_DETECT_CPU_HOTPLUG_EVENTS_IN_SEC = 0.5;
	constexpr double DEFAULT_PERIOD_TO_CHECK_MONITORED_TARGETS_IN_SEC = 1;
	constexpr uint64_t DEFAULT_SAMPLE_FREQ_FOR_NONTRACEPOINT_EVENT = 4000;
	constexpr uint64_t DEFAULT_SAMPLE_PERIOD_FOR_TRACEPOINT_EVENT = 1;

	struct CounterInfo {
	pid_t tid;
	int cpu;
	PerfCounter counter;
	};

	struct CountersInfo {
	uint32_t group_id;
	std::string event_name;
	std::string event_modifier;
	std::vector<CounterInfo> counters;
	};

	struct SampleSpeed {
	// There are two ways to set sample speed:
	// 1. sample_freq: take [sample_freq] samples every second.
	// 2. sample_period: take one sample every [sample_period] events happen.
	uint64_t sample_freq;
	uint64_t sample_period;
	SampleSpeed(uint64_t freq = 0, uint64_t period = 0) : sample_freq(freq), sample_period(period) {}
	bool UseFreq() const {
	// Only use one way to set sample speed.
	CHECK_NE(sample_freq != 0u, sample_period != 0u);
	return sample_freq != 0u;
	}
	};

	// EventSelectionSet helps to monitor events. It is used in following steps:
	// 1. Create an EventSelectionSet, and add event types to monitor by calling
	// AddEventType() or AddEventGroup().
	// 2. Define how to monitor events by calling SetEnableOnExec(), SampleIdAll(),
	// SetSampleFreq(), etc.
	// 3. Start monitoring by calling OpenEventFilesForCpus() or
	// OpenEventFilesForThreadsOnCpus(). If SetEnableOnExec() has been called
	// in step 2, monitor will be delayed until the monitored thread calls
	// exec().
	// 4. Read counters by calling ReadCounters(), or read mapped event records
	// by calling MmapEventFiles(), PrepareToReadMmapEventData() and
	// FinishReadMmapEventData().
	// 5. Stop monitoring automatically in the destructor of EventSelectionSet by
	// closing perf event files.

	class EventSelectionSet {
	public:
	EventSelectionSet(bool for_stat_cmd);
	~EventSelectionSet();

	bool empty() const { return groups_.empty(); }

	bool AddEventType(const std::string& event_name, size_t* group_id = nullptr);
	bool AddEventGroup(const std::vector<std::string>& event_names, size_t* group_id = nullptr);
	std::vector<const EventType*> GetEvents() const;
	std::vector<const EventType*> GetTracepointEvents() const;
	bool ExcludeKernel() const;
	bool HasInplaceSampler() const;
	std::vector<EventAttrWithId> GetEventAttrWithId() const;

	void SetEnableOnExec(bool enable);
	bool GetEnableOnExec();
	void SampleIdAll();
	void SetSampleSpeed(size_t group_id, const SampleSpeed& speed);
	bool SetBranchSampling(uint64_t branch_sample_type);
	void EnableFpCallChainSampling();
	bool EnableDwarfCallChainSampling(uint32_t dump_stack_size);
	void SetInherit(bool enable);
	void SetClockId(int clock_id);
	bool NeedKernelSymbol() const;
	void SetRecordNotExecutableMaps(bool record);
	bool RecordNotExecutableMaps() const;

	void AddMonitoredProcesses(const std::set<pid_t>& processes) {
	processes_.insert(processes.begin(), processes.end());
	}

	void AddMonitoredThreads(const std::set<pid_t>& threads) {
	threads_.insert(threads.begin(), threads.end());
	}

	const std::set<pid_t>& GetMonitoredProcesses() const { return processes_; }

	const std::set<pid_t>& GetMonitoredThreads() const { return threads_; }

	bool HasMonitoredTarget() const {
	return !processes_.empty() \|\| !threads_.empty();
	}

	IOEventLoop* GetIOEventLoop() {
	return loop_.get();
	}

	bool OpenEventFiles(const std::vector<int>& on_cpus);
	bool ReadCounters(std::vector<CountersInfo>* counters);
	bool MmapEventFiles(size_t min_mmap_pages, size_t max_mmap_pages, size_t record_buffer_size);
	bool PrepareToReadMmapEventData(const std::function<bool(Record*)>& callback);
	bool SyncKernelBuffer();
	bool FinishReadMmapEventData();
	void GetLostRecords(size_t* lost_samples, size_t* lost_non_samples, size_t* cut_stack_samples);

	// If monitored_cpus is empty, monitor all cpus.
	bool HandleCpuHotplugEvents(const std::vector<int>& monitored_cpus,
	double check_interval_in_sec =
	DEFAULT_PERIOD_TO_DETECT_CPU_HOTPLUG_EVENTS_IN_SEC);

	// Stop profiling if all monitored processes/threads don't exist.
	bool StopWhenNoMoreTargets(double check_interval_in_sec =
	DEFAULT_PERIOD_TO_CHECK_MONITORED_TARGETS_IN_SEC);

	private:
	struct EventSelection {
	EventTypeAndModifier event_type_modifier;
	perf_event_attr event_attr;
	std::vector<std::unique_ptr<EventFd>> event_fds;
	std::vector<std::unique_ptr<InplaceSamplerClient>> inplace_samplers;
	// counters for event files closed for cpu hotplug events
	std::vector<CounterInfo> hotplugged_counters;
	};
	typedef std::vector<EventSelection> EventSelectionGroup;

	bool BuildAndCheckEventSelection(const std::string& event_name, bool first_event,
	EventSelection* selection);
	void UnionSampleType();
	bool IsUserSpaceSamplerGroup(EventSelectionGroup& group);
	bool OpenUserSpaceSamplersOnGroup(EventSelectionGroup& group,
	const std::map<pid_t, std::set<pid_t>>& process_map);
	bool OpenEventFilesOnGroup(EventSelectionGroup& group, pid_t tid, int cpu,
	std::string* failed_event_type);
	bool ReadMmapEventData(bool with_time_limit);

	bool DetectCpuHotplugEvents();
	bool HandleCpuOnlineEvent(int cpu);
	bool HandleCpuOfflineEvent(int cpu);
	bool CreateMappedBufferForCpu(int cpu);
	bool CheckMonitoredTargets();
	bool HasSampler();

	const bool for_stat_cmd_;

	std::vector<EventSelectionGroup> groups_;
	std::set<pid_t> processes_;
	std::set<pid_t> threads_;

	std::unique_ptr<IOEventLoop> loop_;
	std::function<bool(Record*)> record_callback_;

	std::set<int> monitored_cpus_;
	std::vector<int> online_cpus_;

	std::unique_ptr<simpleperf::RecordReadThread> record_read_thread_;

	DISALLOW_COPY_AND_ASSIGN(EventSelectionSet);
	};

	bool IsBranchSamplingSupported();
	bool IsDwarfCallChainSamplingSupported();
	bool IsDumpingRegsForTracepointEventsSupported();
	bool IsSettingClockIdSupported();
	bool IsMmap2Supported();

	#endif // SIMPLE_PERF_EVENT_SELECTION_SET_H_