source/Plugins/Trace/intel-pt/TraceIntelPTMultiCpuDecoder.h - llvm-project/lldb - Git at Google

 //===-- TraceIntelPTMultiCpuDecoder.h ---------------------------*- C++ -*-===//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//

 #ifndef LLDB_SOURCE_PLUGINS_TRACE_INTEL_PT_TRACEINTELPTMULTICPUDECODER_H
 #define LLDB_SOURCE_PLUGINS_TRACE_INTEL_PT_TRACEINTELPTMULTICPUDECODER_H

 #include "LibiptDecoder.h"
 #include "PerfContextSwitchDecoder.h"
 #include "ThreadDecoder.h"
 #include "forward-declarations.h"

 namespace lldb_private {
 namespace trace_intel_pt {

 /// Class used to decode a multi-cpu Intel PT trace. It assumes that each
 /// thread could have potentially been executed on different cpu cores. It uses
 /// a context switch trace per CPU with timestamps to identify which thread owns
 /// each Intel PT decoded instruction and in which order. It also assumes that
 /// the Intel PT data and context switches might have gaps in their traces due
 /// to contention or race conditions. Finally, it assumes that a tid is not
 /// repeated twice for two different threads because of the shortness of the
 /// intel pt trace.
 ///
 /// This object should be recreated after every stop in the case of live
 /// processes.
 class TraceIntelPTMultiCpuDecoder {
 public:
   /// \param[in] TraceIntelPT
   ///   The trace object to be decoded
   TraceIntelPTMultiCpuDecoder(TraceIntelPTSP trace_sp);

   /// \return
   ///   A \a DecodedThread for the \p thread by decoding its instructions on all
   ///   CPUs, sorted by TSCs. An \a llvm::Error is returned if the decoder
   ///   couldn't be properly set up.
   llvm::Expected<DecodedThreadSP> Decode(Thread &thread);

   /// \return
   ///   \b true if the given \p tid is managed by this decoder, regardless of
   ///   whether there's tracing data associated to it or not.
   bool TracesThread(lldb::tid_t tid) const;

   /// \return
   ///   The number of continuous executions found for the given \p tid.
   size_t GetNumContinuousExecutionsForThread(lldb::tid_t tid) const;

   /// \return
   ///   The number of PSB blocks for a given thread in all cores.
   size_t GePSBBlocksCountForThread(lldb::tid_t tid) const;

   /// \return
   ///   The total number of continuous executions found across CPUs.
   size_t GetTotalContinuousExecutionsCount() const;

   /// \return
   ///   The number of psb blocks in all cores that couldn't be matched with a
   ///   thread execution coming from context switch traces.
   size_t GetUnattributedPSBBlocksCount() const;

   /// \return
   ///   The total number of PSB blocks in all cores.
   size_t GetTotalPSBBlocksCount() const;

   /// \return
   ///     The lowest TSC value in this trace if available, \a llvm::None if the
   ///     trace is empty or the trace contains no timing information, or an \a
   ///     llvm::Error if it was not possible to set up the decoder.
   llvm::Expected<llvm::Optional<uint64_t>> FindLowestTSC();

 private:
   /// Traverse the context switch traces and the basic intel pt continuous
   /// subtraces and produce a list of continuous executions for each process and
   /// thread.
   ///
   /// See \a DoCorrelateContextSwitchesAndIntelPtTraces.
   ///
   /// Any errors are stored in \a m_setup_error.
   llvm::Error CorrelateContextSwitchesAndIntelPtTraces();

   /// Produce a mapping from thread ids to the list of continuos executions with
   /// their associated intel pt subtraces.
   llvm::Expected<
       llvm::DenseMap<lldb::tid_t, std::vector<IntelPTThreadContinousExecution>>>
   DoCorrelateContextSwitchesAndIntelPtTraces();

   TraceIntelPTSP GetTrace();

   std::weak_ptr<TraceIntelPT> m_trace_wp;
   std::set<lldb::tid_t> m_tids;
   llvm::Optional<
       llvm::DenseMap<lldb::tid_t, std::vector<IntelPTThreadContinousExecution>>>
       m_continuous_executions_per_thread;
   llvm::DenseMap<lldb::tid_t, DecodedThreadSP> m_decoded_threads;
   /// This variable will be non-None if a severe error happened during the setup
   /// of the decoder and we don't want decoding to be reattempted.
   llvm::Optional<std::string> m_setup_error;
   uint64_t m_unattributed_psb_blocks = 0;
   uint64_t m_total_psb_blocks = 0;
 };

 } // namespace trace_intel_pt
 } // namespace lldb_private

 #endif // LLDB_SOURCE_PLUGINS_TRACE_INTEL_PT_TRACEINTELPTMULTICPUDECODER_H
	//===-- TraceIntelPTMultiCpuDecoder.h ---------------------------- C++ --===//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//

	#ifndef LLDB_SOURCE_PLUGINS_TRACE_INTEL_PT_TRACEINTELPTMULTICPUDECODER_H
	#define LLDB_SOURCE_PLUGINS_TRACE_INTEL_PT_TRACEINTELPTMULTICPUDECODER_H

	#include "LibiptDecoder.h"
	#include "PerfContextSwitchDecoder.h"
	#include "ThreadDecoder.h"
	#include "forward-declarations.h"

	namespace lldb_private {
	namespace trace_intel_pt {

	/// Class used to decode a multi-cpu Intel PT trace. It assumes that each
	/// thread could have potentially been executed on different cpu cores. It uses
	/// a context switch trace per CPU with timestamps to identify which thread owns
	/// each Intel PT decoded instruction and in which order. It also assumes that
	/// the Intel PT data and context switches might have gaps in their traces due
	/// to contention or race conditions. Finally, it assumes that a tid is not
	/// repeated twice for two different threads because of the shortness of the
	/// intel pt trace.
	///
	/// This object should be recreated after every stop in the case of live
	/// processes.
	class TraceIntelPTMultiCpuDecoder {
	public:
	/// \param[in] TraceIntelPT
	/// The trace object to be decoded
	TraceIntelPTMultiCpuDecoder(TraceIntelPTSP trace_sp);

	/// \return
	/// A \a DecodedThread for the \p thread by decoding its instructions on all
	/// CPUs, sorted by TSCs. An \a llvm::Error is returned if the decoder
	/// couldn't be properly set up.
	llvm::Expected<DecodedThreadSP> Decode(Thread &thread);

	/// \return
	/// \b true if the given \p tid is managed by this decoder, regardless of
	/// whether there's tracing data associated to it or not.
	bool TracesThread(lldb::tid_t tid) const;

	/// \return
	/// The number of continuous executions found for the given \p tid.
	size_t GetNumContinuousExecutionsForThread(lldb::tid_t tid) const;

	/// \return
	/// The number of PSB blocks for a given thread in all cores.
	size_t GePSBBlocksCountForThread(lldb::tid_t tid) const;

	/// \return
	/// The total number of continuous executions found across CPUs.
	size_t GetTotalContinuousExecutionsCount() const;

	/// \return
	/// The number of psb blocks in all cores that couldn't be matched with a
	/// thread execution coming from context switch traces.
	size_t GetUnattributedPSBBlocksCount() const;

	/// \return
	/// The total number of PSB blocks in all cores.
	size_t GetTotalPSBBlocksCount() const;

	/// \return
	/// The lowest TSC value in this trace if available, \a llvm::None if the
	/// trace is empty or the trace contains no timing information, or an \a
	/// llvm::Error if it was not possible to set up the decoder.
	llvm::Expected<llvm::Optional<uint64_t>> FindLowestTSC();

	private:
	/// Traverse the context switch traces and the basic intel pt continuous
	/// subtraces and produce a list of continuous executions for each process and
	/// thread.
	///
	/// See \a DoCorrelateContextSwitchesAndIntelPtTraces.
	///
	/// Any errors are stored in \a m_setup_error.
	llvm::Error CorrelateContextSwitchesAndIntelPtTraces();

	/// Produce a mapping from thread ids to the list of continuos executions with
	/// their associated intel pt subtraces.
	llvm::Expected<
	llvm::DenseMap<lldb::tid_t, std::vector<IntelPTThreadContinousExecution>>>
	DoCorrelateContextSwitchesAndIntelPtTraces();

	TraceIntelPTSP GetTrace();

	std::weak_ptr<TraceIntelPT> m_trace_wp;
	std::set<lldb::tid_t> m_tids;
	llvm::Optional<
	llvm::DenseMap<lldb::tid_t, std::vector<IntelPTThreadContinousExecution>>>
	m_continuous_executions_per_thread;
	llvm::DenseMap<lldb::tid_t, DecodedThreadSP> m_decoded_threads;
	/// This variable will be non-None if a severe error happened during the setup
	/// of the decoder and we don't want decoding to be reattempted.
	llvm::Optional<std::string> m_setup_error;
	uint64_t m_unattributed_psb_blocks = 0;
	uint64_t m_total_psb_blocks = 0;
	};

	} // namespace trace_intel_pt
	} // namespace lldb_private

	#endif // LLDB_SOURCE_PLUGINS_TRACE_INTEL_PT_TRACEINTELPTMULTICPUDECODER_H