arm/usr/include/lldb/Target/Trace.h - manifest_repos/toolchain - Git at Google

 //===-- Trace.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_TARGET_TRACE_H
 #define LLDB_TARGET_TRACE_H

 #include <unordered_map>

 #include "llvm/Support/JSON.h"

 #include "lldb/Core/PluginInterface.h"
 #include "lldb/Target/Thread.h"
 #include "lldb/Target/TraceCursor.h"
 #include "lldb/Utility/ArchSpec.h"
 #include "lldb/Utility/TraceGDBRemotePackets.h"
 #include "lldb/Utility/UnimplementedError.h"
 #include "lldb/lldb-private.h"
 #include "lldb/lldb-types.h"

 namespace lldb_private {

 /// \class Trace Trace.h "lldb/Target/Trace.h"
 /// A plug-in interface definition class for trace information.
 ///
 /// Trace plug-ins allow processor trace information to be loaded into LLDB so
 /// that the data can be dumped, used for reverse and forward stepping to allow
 /// introspection into the reason your process crashed or found its way to its
 /// current state.
 ///
 /// Trace information can be loaded into a target without a process to allow
 /// introspection of the trace information during post mortem analysis, such as
 /// when loading core files.
 ///
 /// Processor trace information can also be fetched through the process
 /// interfaces during a live debug session if your process supports gathering
 /// this information.
 ///
 /// In order to support live tracing, the name of the plug-in should match the
 /// name of the tracing type returned by the gdb-remote packet
 /// \a jLLDBTraceSupported.
 class Trace : public PluginInterface,
               public std::enable_shared_from_this<Trace> {
 public:
   /// Dump the trace data that this plug-in has access to.
   ///
   /// This function will dump all of the trace data for all threads in a user
   /// readable format. Options for dumping can be added as this API is iterated
   /// on.
   ///
   /// \param[in] s
   ///     A stream object to dump the information to.
   virtual void Dump(Stream *s) const = 0;

   /// Save the trace of a live process to the specified directory, which
   /// will be created if needed.
   /// This will also create a a file \a <directory>/trace.json with the main
   /// properties of the trace session, along with others files which contain
   /// the actual trace data. The trace.json file can be used later as input
   /// for the "trace load" command to load the trace in LLDB.
   /// The process being trace is not a live process, return an error.
   ///
   /// \param[in] directory
   ///   The directory where the trace files will be saved.
   ///
   /// \return
   ///   \a llvm::success if the operation was successful, or an \a llvm::Error
   ///   otherwise.
   virtual llvm::Error SaveLiveTraceToDisk(FileSpec directory) = 0;

   /// Find a trace plug-in using JSON data.
   ///
   /// When loading trace data from disk, the information for the trace data
   /// can be contained in multiple files and require plug-in specific
   /// information about the CPU. Using data like JSON provides an
   /// easy way to specify all of the settings and information that we will need
   /// to load trace data into LLDB. This structured data can include:
   ///   - The plug-in name (this allows a specific plug-in to be selected)
   ///   - Architecture or target triple
   ///   - one or more paths to the trace data file on disk
   ///     - cpu trace data
   ///     - thread events or related information
   ///   - shared library load information to use for this trace data that
   ///     allows a target to be created so the trace information can be
   ///     symbolicated so that the trace information can be displayed to the
   ///     user
   ///     - shared library path
   ///     - load address
   ///     - information on how to fetch the shared library
   ///       - path to locally cached file on disk
   ///       - URL to download the file
   ///   - Any information needed to load the trace file
   ///     - CPU information
   ///     - Custom plug-in information needed to decode the trace information
   ///       correctly.
   ///
   /// \param[in] debugger
   ///     The debugger instance where new Targets will be created as part of the
   ///     JSON data parsing.
   ///
   /// \param[in] trace_session_file
   ///     The contents of the trace session file describing the trace session.
   ///     See \a TraceSessionFileParser::BuildSchema for more information about
   ///     the schema of this JSON file.
   ///
   /// \param[in] session_file_dir
   ///     The path to the directory that contains the session file. It's used to
   ///     resolved relative paths in the session file.
   static llvm::Expected<lldb::TraceSP>
   FindPluginForPostMortemProcess(Debugger &debugger,
                                  const llvm::json::Value &trace_session_file,
                                  llvm::StringRef session_file_dir);

   /// Find a trace plug-in to trace a live process.
   ///
   /// \param[in] plugin_name
   ///     Plug-in name to search.
   ///
   /// \param[in] process
   ///     Live process to trace.
   ///
   /// \return
   ///     A \a TraceSP instance, or an \a llvm::Error if the plug-in name
   ///     doesn't match any registered plug-ins or tracing couldn't be
   ///     started.
   static llvm::Expected<lldb::TraceSP>
   FindPluginForLiveProcess(llvm::StringRef plugin_name, Process &process);

   /// Get the schema of a Trace plug-in given its name.
   ///
   /// \param[in] plugin_name
   ///     Name of the trace plugin.
   static llvm::Expected<llvm::StringRef>
   FindPluginSchema(llvm::StringRef plugin_name);

   /// Get the command handle for the "process trace start" command.
   virtual lldb::CommandObjectSP
   GetProcessTraceStartCommand(CommandInterpreter &interpreter) = 0;

   /// Get the command handle for the "thread trace start" command.
   virtual lldb::CommandObjectSP
   GetThreadTraceStartCommand(CommandInterpreter &interpreter) = 0;

   /// \return
   ///     The JSON schema of this Trace plug-in.
   virtual llvm::StringRef GetSchema() = 0;

   /// Get a \a TraceCursor for the given thread's trace.
   ///
   /// \return
   ///     A \a TraceCursorUP. If the thread is not traced or its trace
   ///     information failed to load, the corresponding error is embedded in the
   ///     trace.
   virtual lldb::TraceCursorUP GetCursor(Thread &thread) = 0;

   /// Dump general info about a given thread's trace. Each Trace plug-in
   /// decides which data to show.
   ///
   /// \param[in] thread
   ///     The thread that owns the trace in question.
   ///
   /// \param[in] s
   ///     The stream object where the info will be printed printed.
   ///
   /// \param[in] verbose
   ///     If \b true, print detailed info
   ///     If \b false, print compact info
   virtual void DumpTraceInfo(Thread &thread, Stream &s, bool verbose) = 0;

   /// Check if a thread is currently traced by this object.
   ///
   /// \param[in] tid
   ///     The id of the thread in question.
   ///
   /// \return
   ///     \b true if the thread is traced by this instance, \b false otherwise.
   virtual bool IsTraced(lldb::tid_t tid) = 0;

   /// \return
   ///     A description of the parameters to use for the \a Trace::Start method.
   virtual const char *GetStartConfigurationHelp() = 0;

   /// Start tracing a live process.
   ///
   /// \param[in] configuration
   ///     See \a SBTrace::Start(const lldb::SBStructuredData &) for more
   ///     information.
   ///
   /// \return
   ///     \a llvm::Error::success if the operation was successful, or
   ///     \a llvm::Error otherwise.
   virtual llvm::Error Start(
       StructuredData::ObjectSP configuration = StructuredData::ObjectSP()) = 0;

   /// Start tracing live threads.
   ///
   /// \param[in] tids
   ///     Threads to trace. This method tries to trace as many threads as
   ///     possible.
   ///
   /// \param[in] configuration
   ///     See \a SBTrace::Start(const lldb::SBThread &, const
   ///     lldb::SBStructuredData &) for more information.
   ///
   /// \return
   ///     \a llvm::Error::success if the operation was successful, or
   ///     \a llvm::Error otherwise.
   virtual llvm::Error Start(
       llvm::ArrayRef<lldb::tid_t> tids,
       StructuredData::ObjectSP configuration = StructuredData::ObjectSP()) = 0;

   /// Stop tracing live threads.
   ///
   /// \param[in] tids
   ///     The threads to stop tracing on.
   ///
   /// \return
   ///     \a llvm::Error::success if the operation was successful, or
   ///     \a llvm::Error otherwise.
   llvm::Error Stop(llvm::ArrayRef<lldb::tid_t> tids);

   /// Stop tracing all current and future threads of a live process.
   ///
   /// \param[in] request
   ///     The information determining which threads or process to stop tracing.
   ///
   /// \return
   ///     \a llvm::Error::success if the operation was successful, or
   ///     \a llvm::Error otherwise.
   llvm::Error Stop();

   /// \return
   ///     The stop ID of the live process being traced, or an invalid stop ID
   ///     if the trace is in an error or invalid state.
   uint32_t GetStopID();

   using OnBinaryDataReadCallback =
       std::function<llvm::Error(llvm::ArrayRef<uint8_t> data)>;
   using OnCpusBinaryDataReadCallback = std::function<llvm::Error(
       const llvm::DenseMap<lldb::cpu_id_t, llvm::ArrayRef<uint8_t>>
           &cpu_to_data)>;

   /// Fetch binary data associated with a thread, either live or postmortem, and
   /// pass it to the given callback. The reason of having a callback is to free
   /// the caller from having to manage the life cycle of the data and to hide
   /// the different data fetching procedures that exist for live and post mortem
   /// threads.
   ///
   /// The fetched data is not persisted after the callback is invoked.
   ///
   /// \param[in] tid
   ///     The tid who owns the data.
   ///
   /// \param[in] kind
   ///     The kind of data to read.
   ///
   /// \param[in] callback
   ///     The callback to be invoked once the data was successfully read. Its
   ///     return value, which is an \a llvm::Error, is returned by this
   ///     function.
   ///
   /// \return
   ///     An \a llvm::Error if the data couldn't be fetched, or the return value
   ///     of the callback, otherwise.
   llvm::Error OnThreadBinaryDataRead(lldb::tid_t tid, llvm::StringRef kind,
                                      OnBinaryDataReadCallback callback);

   /// Fetch binary data associated with a cpu, either live or postmortem, and
   /// pass it to the given callback. The reason of having a callback is to free
   /// the caller from having to manage the life cycle of the data and to hide
   /// the different data fetching procedures that exist for live and post mortem
   /// cpus.
   ///
   /// The fetched data is not persisted after the callback is invoked.
   ///
   /// \param[in] cpu_id
   ///     The cpu who owns the data.
   ///
   /// \param[in] kind
   ///     The kind of data to read.
   ///
   /// \param[in] callback
   ///     The callback to be invoked once the data was successfully read. Its
   ///     return value, which is an \a llvm::Error, is returned by this
   ///     function.
   ///
   /// \return
   ///     An \a llvm::Error if the data couldn't be fetched, or the return value
   ///     of the callback, otherwise.
   llvm::Error OnCpuBinaryDataRead(lldb::cpu_id_t cpu_id, llvm::StringRef kind,
                                   OnBinaryDataReadCallback callback);

   /// Similar to \a OnCpuBinaryDataRead but this is able to fetch the same data
   /// from all cpus at once.
   llvm::Error OnAllCpusBinaryDataRead(llvm::StringRef kind,
                                       OnCpusBinaryDataReadCallback callback);

   /// \return
   ///     All the currently traced processes.
   std::vector<Process *> GetAllProcesses();

   /// \return
   ///     The list of cpus being traced. Might be empty depending on the
   ///     plugin.
   llvm::ArrayRef<lldb::cpu_id_t> GetTracedCpus();

   /// Helper method for reading a data file and passing its data to the given
   /// callback.
   static llvm::Error OnDataFileRead(FileSpec file,
                                     OnBinaryDataReadCallback callback);

 protected:
   /// Get the currently traced live process.
   ///
   /// \return
   ///     If it's not a live process, return \a nullptr.
   Process *GetLiveProcess();

   /// Get the currently traced postmortem processes.
   ///
   /// \return
   ///     If it's not a live process session, return an empty list.
   llvm::ArrayRef<Process *> GetPostMortemProcesses();

   /// Dispatcher for live trace data requests with some additional error
   /// checking.
   llvm::Expected<std::vector<uint8_t>>
   GetLiveTraceBinaryData(const TraceGetBinaryDataRequest &request,
                          uint64_t expected_size);

   /// Implementation of \a OnThreadBinaryDataRead() for live threads.
   llvm::Error OnLiveThreadBinaryDataRead(lldb::tid_t tid, llvm::StringRef kind,
                                          OnBinaryDataReadCallback callback);

   /// Implementation of \a OnLiveBinaryDataRead() for live cpus.
   llvm::Error OnLiveCpuBinaryDataRead(lldb::cpu_id_t cpu, llvm::StringRef kind,
                                       OnBinaryDataReadCallback callback);

   /// Implementation of \a OnThreadBinaryDataRead() for post mortem threads.
   llvm::Error
   OnPostMortemThreadBinaryDataRead(lldb::tid_t tid, llvm::StringRef kind,
                                    OnBinaryDataReadCallback callback);

   /// Implementation of \a OnCpuBinaryDataRead() for post mortem cpus.
   llvm::Error OnPostMortemCpuBinaryDataRead(lldb::cpu_id_t cpu_id,
                                             llvm::StringRef kind,
                                             OnBinaryDataReadCallback callback);

   /// Get the file path containing data of a postmortem thread given a data
   /// identifier.
   ///
   /// \param[in] tid
   ///     The thread whose data is requested.
   ///
   /// \param[in] kind
   ///     The kind of data requested.
   ///
   /// \return
   ///     The file spec containing the requested data, or an \a llvm::Error in
   ///     case of failures.
   llvm::Expected<FileSpec> GetPostMortemThreadDataFile(lldb::tid_t tid,
                                                        llvm::StringRef kind);

   /// Get the file path containing data of a postmortem cpu given a data
   /// identifier.
   ///
   /// \param[in] cpu_id
   ///     The cpu whose data is requested.
   ///
   /// \param[in] kind
   ///     The kind of data requested.
   ///
   /// \return
   ///     The file spec containing the requested data, or an \a llvm::Error in
   ///     case of failures.
   llvm::Expected<FileSpec> GetPostMortemCpuDataFile(lldb::cpu_id_t cpu_id,
                                                     llvm::StringRef kind);

   /// Associate a given thread with a data file using a data identifier.
   ///
   /// \param[in] tid
   ///     The thread associated with the data file.
   ///
   /// \param[in] kind
   ///     The kind of data being registered.
   ///
   /// \param[in] file_spec
   ///     The path of the data file.
   void SetPostMortemThreadDataFile(lldb::tid_t tid, llvm::StringRef kind,
                                    FileSpec file_spec);

   /// Associate a given cpu with a data file using a data identifier.
   ///
   /// \param[in] cpu_id
   ///     The cpu associated with the data file.
   ///
   /// \param[in] kind
   ///     The kind of data being registered.
   ///
   /// \param[in] file_spec
   ///     The path of the data file.
   void SetPostMortemCpuDataFile(lldb::cpu_id_t cpu_id, llvm::StringRef kind,
                                 FileSpec file_spec);

   /// Get binary data of a live thread given a data identifier.
   ///
   /// \param[in] tid
   ///     The thread whose data is requested.
   ///
   /// \param[in] kind
   ///     The kind of data requested.
   ///
   /// \return
   ///     A vector of bytes with the requested data, or an \a llvm::Error in
   ///     case of failures.
   llvm::Expected<std::vector<uint8_t>>
   GetLiveThreadBinaryData(lldb::tid_t tid, llvm::StringRef kind);

   /// Get binary data of a live cpu given a data identifier.
   ///
   /// \param[in] cpu_id
   ///     The cpu whose data is requested.
   ///
   /// \param[in] kind
   ///     The kind of data requested.
   ///
   /// \return
   ///     A vector of bytes with the requested data, or an \a llvm::Error in
   ///     case of failures.
   llvm::Expected<std::vector<uint8_t>>
   GetLiveCpuBinaryData(lldb::cpu_id_t cpu_id, llvm::StringRef kind);

   /// Get binary data of the current process given a data identifier.
   ///
   /// \param[in] kind
   ///     The kind of data requested.
   ///
   /// \return
   ///     A vector of bytes with the requested data, or an \a llvm::Error in
   ///     case of failures.
   llvm::Expected<std::vector<uint8_t>>
   GetLiveProcessBinaryData(llvm::StringRef kind);

   /// Get the size of the data returned by \a GetLiveThreadBinaryData
   llvm::Optional<uint64_t> GetLiveThreadBinaryDataSize(lldb::tid_t tid,
                                                        llvm::StringRef kind);

   /// Get the size of the data returned by \a GetLiveCpuBinaryData
   llvm::Optional<uint64_t> GetLiveCpuBinaryDataSize(lldb::cpu_id_t cpu_id,
                                                     llvm::StringRef kind);

   /// Get the size of the data returned by \a GetLiveProcessBinaryData
   llvm::Optional<uint64_t> GetLiveProcessBinaryDataSize(llvm::StringRef kind);

   /// Constructor for post mortem processes
   Trace(llvm::ArrayRef<lldb::ProcessSP> postmortem_processes,
         llvm::Optional<std::vector<lldb::cpu_id_t>> postmortem_cpus);

   /// Constructor for a live process
   Trace(Process &live_process) : m_live_process(&live_process) {}

   /// Start tracing a live process or its threads.
   ///
   /// \param[in] request
   ///     JSON object with the information necessary to start tracing. In the
   ///     case of gdb-remote processes, this JSON object should conform to the
   ///     jLLDBTraceStart packet.
   ///
   /// \return
   ///     \a llvm::Error::success if the operation was successful, or
   ///     \a llvm::Error otherwise.
   llvm::Error Start(const llvm::json::Value &request);

   /// Get the current tracing state of a live process and its threads.
   ///
   /// \return
   ///     A JSON object string with custom data depending on the trace
   ///     technology, or an \a llvm::Error in case of errors.
   llvm::Expected<std::string> GetLiveProcessState();

   /// Method to be overriden by the plug-in to refresh its own state.
   ///
   /// This is invoked by RefreshLiveProcessState when a new state is found.
   ///
   /// \param[in] state
   ///     The jLLDBTraceGetState response.
   ///
   /// \param[in] json_response
   ///     The original JSON response as a string. It might be useful to redecode
   ///     it if it contains custom data for a specific trace plug-in.
   ///
   /// \return
   ///     \b Error::success() if this operation succeedes, or an actual error
   ///     otherwise.
   virtual llvm::Error
   DoRefreshLiveProcessState(TraceGetStateResponse state,
                             llvm::StringRef json_response) = 0;

   /// Return the list of processes traced by this instance. None of the returned
   /// pointers are invalid.
   std::vector<Process *> GetTracedProcesses();

   /// Method to be invoked by the plug-in to refresh the live process state. It
   /// will invoked DoRefreshLiveProcessState at some point, which should be
   /// implemented by the plug-in for custom state handling.
   ///
   /// The result is cached through the same process stop. Even in the case of
   /// errors, it caches the error.
   ///
   /// \return
   ///   An error message if this operation failed, or \b nullptr otherwise.
   const char *RefreshLiveProcessState();

 private:
   uint32_t m_stop_id = LLDB_INVALID_STOP_ID;

   /// Process traced by this object if doing live tracing. Otherwise it's null.
   Process *m_live_process = nullptr;

   /// We package all the data that can change upon process stops to make sure
   /// this contract is very visible.
   /// This variable should only be accessed directly by constructores or live
   /// process data refreshers.
   struct Storage {
     /// Portmortem processes traced by this object if doing non-live tracing.
     /// Otherwise it's empty.
     std::vector<Process *> postmortem_processes;

     /// These data kinds are returned by lldb-server when fetching the state of
     /// the tracing session. The size in bytes can be used later for fetching
     /// the data in batches.
     /// \{

     /// tid -> data kind -> size
     llvm::DenseMap<lldb::tid_t, llvm::DenseMap<ConstString, uint64_t>>
         live_thread_data;

     /// cpu id -> data kind -> size
     llvm::DenseMap<lldb::cpu_id_t, llvm::DenseMap<ConstString, uint64_t>>
         live_cpu_data_sizes;
     /// cpu id -> data kind -> bytes
     llvm::DenseMap<lldb::cpu_id_t,
                    llvm::DenseMap<ConstString, std::vector<uint8_t>>>
         live_cpu_data;

     /// data kind -> size
     llvm::DenseMap<ConstString, uint64_t> live_process_data;
     /// \}

     /// The list of cpus being traced. Might be \b None depending on the
     /// plug-in.
     llvm::Optional<std::vector<lldb::cpu_id_t>> cpus;

     /// Postmortem traces can specific additional data files, which are
     /// represented in this variable using a data kind identifier for each file.
     /// \{

     /// tid -> data kind -> file
     llvm::DenseMap<lldb::tid_t, llvm::DenseMap<ConstString, FileSpec>>
         postmortem_thread_data;

     /// cpu id -> data kind -> file
     llvm::DenseMap<lldb::cpu_id_t, llvm::DenseMap<ConstString, FileSpec>>
         postmortem_cpu_data;

     /// \}

     llvm::Optional<std::string> live_refresh_error;
   } m_storage;

   /// Get the storage after refreshing the data in the case of a live process.
   Storage &GetUpdatedStorage();
 };

 } // namespace lldb_private

 #endif // LLDB_TARGET_TRACE_H
	//===-- Trace.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_TARGET_TRACE_H
	#define LLDB_TARGET_TRACE_H

	#include <unordered_map>

	#include "llvm/Support/JSON.h"

	#include "lldb/Core/PluginInterface.h"
	#include "lldb/Target/Thread.h"
	#include "lldb/Target/TraceCursor.h"
	#include "lldb/Utility/ArchSpec.h"
	#include "lldb/Utility/TraceGDBRemotePackets.h"
	#include "lldb/Utility/UnimplementedError.h"
	#include "lldb/lldb-private.h"
	#include "lldb/lldb-types.h"

	namespace lldb_private {

	/// \class Trace Trace.h "lldb/Target/Trace.h"
	/// A plug-in interface definition class for trace information.
	///
	/// Trace plug-ins allow processor trace information to be loaded into LLDB so
	/// that the data can be dumped, used for reverse and forward stepping to allow
	/// introspection into the reason your process crashed or found its way to its
	/// current state.
	///
	/// Trace information can be loaded into a target without a process to allow
	/// introspection of the trace information during post mortem analysis, such as
	/// when loading core files.
	///
	/// Processor trace information can also be fetched through the process
	/// interfaces during a live debug session if your process supports gathering
	/// this information.
	///
	/// In order to support live tracing, the name of the plug-in should match the
	/// name of the tracing type returned by the gdb-remote packet
	/// \a jLLDBTraceSupported.
	class Trace : public PluginInterface,
	public std::enable_shared_from_this<Trace> {
	public:
	/// Dump the trace data that this plug-in has access to.
	///
	/// This function will dump all of the trace data for all threads in a user
	/// readable format. Options for dumping can be added as this API is iterated
	/// on.
	///
	/// \param[in] s
	/// A stream object to dump the information to.
	virtual void Dump(Stream *s) const = 0;

	/// Save the trace of a live process to the specified directory, which
	/// will be created if needed.
	/// This will also create a a file \a <directory>/trace.json with the main
	/// properties of the trace session, along with others files which contain
	/// the actual trace data. The trace.json file can be used later as input
	/// for the "trace load" command to load the trace in LLDB.
	/// The process being trace is not a live process, return an error.
	///
	/// \param[in] directory
	/// The directory where the trace files will be saved.
	///
	/// \return
	/// \a llvm::success if the operation was successful, or an \a llvm::Error
	/// otherwise.
	virtual llvm::Error SaveLiveTraceToDisk(FileSpec directory) = 0;

	/// Find a trace plug-in using JSON data.
	///
	/// When loading trace data from disk, the information for the trace data
	/// can be contained in multiple files and require plug-in specific
	/// information about the CPU. Using data like JSON provides an
	/// easy way to specify all of the settings and information that we will need
	/// to load trace data into LLDB. This structured data can include:
	/// - The plug-in name (this allows a specific plug-in to be selected)
	/// - Architecture or target triple
	/// - one or more paths to the trace data file on disk
	/// - cpu trace data
	/// - thread events or related information
	/// - shared library load information to use for this trace data that
	/// allows a target to be created so the trace information can be
	/// symbolicated so that the trace information can be displayed to the
	/// user
	/// - shared library path
	/// - load address
	/// - information on how to fetch the shared library
	/// - path to locally cached file on disk
	/// - URL to download the file
	/// - Any information needed to load the trace file
	/// - CPU information
	/// - Custom plug-in information needed to decode the trace information
	/// correctly.
	///
	/// \param[in] debugger
	/// The debugger instance where new Targets will be created as part of the
	/// JSON data parsing.
	///
	/// \param[in] trace_session_file
	/// The contents of the trace session file describing the trace session.
	/// See \a TraceSessionFileParser::BuildSchema for more information about
	/// the schema of this JSON file.
	///
	/// \param[in] session_file_dir
	/// The path to the directory that contains the session file. It's used to
	/// resolved relative paths in the session file.
	static llvm::Expected<lldb::TraceSP>
	FindPluginForPostMortemProcess(Debugger &debugger,
	const llvm::json::Value &trace_session_file,
	llvm::StringRef session_file_dir);

	/// Find a trace plug-in to trace a live process.
	///
	/// \param[in] plugin_name
	/// Plug-in name to search.
	///
	/// \param[in] process
	/// Live process to trace.
	///
	/// \return
	/// A \a TraceSP instance, or an \a llvm::Error if the plug-in name
	/// doesn't match any registered plug-ins or tracing couldn't be
	/// started.
	static llvm::Expected<lldb::TraceSP>
	FindPluginForLiveProcess(llvm::StringRef plugin_name, Process &process);

	/// Get the schema of a Trace plug-in given its name.
	///
	/// \param[in] plugin_name
	/// Name of the trace plugin.
	static llvm::Expected<llvm::StringRef>
	FindPluginSchema(llvm::StringRef plugin_name);

	/// Get the command handle for the "process trace start" command.
	virtual lldb::CommandObjectSP
	GetProcessTraceStartCommand(CommandInterpreter &interpreter) = 0;

	/// Get the command handle for the "thread trace start" command.
	virtual lldb::CommandObjectSP
	GetThreadTraceStartCommand(CommandInterpreter &interpreter) = 0;

	/// \return
	/// The JSON schema of this Trace plug-in.
	virtual llvm::StringRef GetSchema() = 0;

	/// Get a \a TraceCursor for the given thread's trace.
	///
	/// \return
	/// A \a TraceCursorUP. If the thread is not traced or its trace
	/// information failed to load, the corresponding error is embedded in the
	/// trace.
	virtual lldb::TraceCursorUP GetCursor(Thread &thread) = 0;

	/// Dump general info about a given thread's trace. Each Trace plug-in
	/// decides which data to show.
	///
	/// \param[in] thread
	/// The thread that owns the trace in question.
	///
	/// \param[in] s
	/// The stream object where the info will be printed printed.
	///
	/// \param[in] verbose
	/// If \b true, print detailed info
	/// If \b false, print compact info
	virtual void DumpTraceInfo(Thread &thread, Stream &s, bool verbose) = 0;

	/// Check if a thread is currently traced by this object.
	///
	/// \param[in] tid
	/// The id of the thread in question.
	///
	/// \return
	/// \b true if the thread is traced by this instance, \b false otherwise.
	virtual bool IsTraced(lldb::tid_t tid) = 0;

	/// \return
	/// A description of the parameters to use for the \a Trace::Start method.
	virtual const char *GetStartConfigurationHelp() = 0;

	/// Start tracing a live process.
	///
	/// \param[in] configuration
	/// See \a SBTrace::Start(const lldb::SBStructuredData &) for more
	/// information.
	///
	/// \return
	/// \a llvm::Error::success if the operation was successful, or
	/// \a llvm::Error otherwise.
	virtual llvm::Error Start(
	StructuredData::ObjectSP configuration = StructuredData::ObjectSP()) = 0;

	/// Start tracing live threads.
	///
	/// \param[in] tids
	/// Threads to trace. This method tries to trace as many threads as
	/// possible.
	///
	/// \param[in] configuration
	/// See \a SBTrace::Start(const lldb::SBThread &, const
	/// lldb::SBStructuredData &) for more information.
	///
	/// \return
	/// \a llvm::Error::success if the operation was successful, or
	/// \a llvm::Error otherwise.
	virtual llvm::Error Start(
	llvm::ArrayRef<lldb::tid_t> tids,
	StructuredData::ObjectSP configuration = StructuredData::ObjectSP()) = 0;

	/// Stop tracing live threads.
	///
	/// \param[in] tids
	/// The threads to stop tracing on.
	///
	/// \return
	/// \a llvm::Error::success if the operation was successful, or
	/// \a llvm::Error otherwise.
	llvm::Error Stop(llvm::ArrayRef<lldb::tid_t> tids);

	/// Stop tracing all current and future threads of a live process.
	///
	/// \param[in] request
	/// The information determining which threads or process to stop tracing.
	///
	/// \return
	/// \a llvm::Error::success if the operation was successful, or
	/// \a llvm::Error otherwise.
	llvm::Error Stop();

	/// \return
	/// The stop ID of the live process being traced, or an invalid stop ID
	/// if the trace is in an error or invalid state.
	uint32_t GetStopID();

	using OnBinaryDataReadCallback =
	std::function<llvm::Error(llvm::ArrayRef<uint8_t> data)>;
	using OnCpusBinaryDataReadCallback = std::function<llvm::Error(
	const llvm::DenseMap<lldb::cpu_id_t, llvm::ArrayRef<uint8_t>>
	&cpu_to_data)>;

	/// Fetch binary data associated with a thread, either live or postmortem, and
	/// pass it to the given callback. The reason of having a callback is to free
	/// the caller from having to manage the life cycle of the data and to hide
	/// the different data fetching procedures that exist for live and post mortem
	/// threads.
	///
	/// The fetched data is not persisted after the callback is invoked.
	///
	/// \param[in] tid
	/// The tid who owns the data.
	///
	/// \param[in] kind
	/// The kind of data to read.
	///
	/// \param[in] callback
	/// The callback to be invoked once the data was successfully read. Its
	/// return value, which is an \a llvm::Error, is returned by this
	/// function.
	///
	/// \return
	/// An \a llvm::Error if the data couldn't be fetched, or the return value
	/// of the callback, otherwise.
	llvm::Error OnThreadBinaryDataRead(lldb::tid_t tid, llvm::StringRef kind,
	OnBinaryDataReadCallback callback);

	/// Fetch binary data associated with a cpu, either live or postmortem, and
	/// pass it to the given callback. The reason of having a callback is to free
	/// the caller from having to manage the life cycle of the data and to hide
	/// the different data fetching procedures that exist for live and post mortem
	/// cpus.
	///
	/// The fetched data is not persisted after the callback is invoked.
	///
	/// \param[in] cpu_id
	/// The cpu who owns the data.
	///
	/// \param[in] kind
	/// The kind of data to read.
	///
	/// \param[in] callback
	/// The callback to be invoked once the data was successfully read. Its
	/// return value, which is an \a llvm::Error, is returned by this
	/// function.
	///
	/// \return
	/// An \a llvm::Error if the data couldn't be fetched, or the return value
	/// of the callback, otherwise.
	llvm::Error OnCpuBinaryDataRead(lldb::cpu_id_t cpu_id, llvm::StringRef kind,
	OnBinaryDataReadCallback callback);

	/// Similar to \a OnCpuBinaryDataRead but this is able to fetch the same data
	/// from all cpus at once.
	llvm::Error OnAllCpusBinaryDataRead(llvm::StringRef kind,
	OnCpusBinaryDataReadCallback callback);

	/// \return
	/// All the currently traced processes.
	std::vector<Process *> GetAllProcesses();

	/// \return
	/// The list of cpus being traced. Might be empty depending on the
	/// plugin.
	llvm::ArrayRef<lldb::cpu_id_t> GetTracedCpus();

	/// Helper method for reading a data file and passing its data to the given
	/// callback.
	static llvm::Error OnDataFileRead(FileSpec file,
	OnBinaryDataReadCallback callback);

	protected:
	/// Get the currently traced live process.
	///
	/// \return
	/// If it's not a live process, return \a nullptr.
	Process *GetLiveProcess();

	/// Get the currently traced postmortem processes.
	///
	/// \return
	/// If it's not a live process session, return an empty list.
	llvm::ArrayRef<Process *> GetPostMortemProcesses();

	/// Dispatcher for live trace data requests with some additional error
	/// checking.
	llvm::Expected<std::vector<uint8_t>>
	GetLiveTraceBinaryData(const TraceGetBinaryDataRequest &request,
	uint64_t expected_size);

	/// Implementation of \a OnThreadBinaryDataRead() for live threads.
	llvm::Error OnLiveThreadBinaryDataRead(lldb::tid_t tid, llvm::StringRef kind,
	OnBinaryDataReadCallback callback);

	/// Implementation of \a OnLiveBinaryDataRead() for live cpus.
	llvm::Error OnLiveCpuBinaryDataRead(lldb::cpu_id_t cpu, llvm::StringRef kind,
	OnBinaryDataReadCallback callback);

	/// Implementation of \a OnThreadBinaryDataRead() for post mortem threads.
	llvm::Error
	OnPostMortemThreadBinaryDataRead(lldb::tid_t tid, llvm::StringRef kind,
	OnBinaryDataReadCallback callback);

	/// Implementation of \a OnCpuBinaryDataRead() for post mortem cpus.
	llvm::Error OnPostMortemCpuBinaryDataRead(lldb::cpu_id_t cpu_id,
	llvm::StringRef kind,
	OnBinaryDataReadCallback callback);

	/// Get the file path containing data of a postmortem thread given a data
	/// identifier.
	///
	/// \param[in] tid
	/// The thread whose data is requested.
	///
	/// \param[in] kind
	/// The kind of data requested.
	///
	/// \return
	/// The file spec containing the requested data, or an \a llvm::Error in
	/// case of failures.
	llvm::Expected<FileSpec> GetPostMortemThreadDataFile(lldb::tid_t tid,
	llvm::StringRef kind);

	/// Get the file path containing data of a postmortem cpu given a data
	/// identifier.
	///
	/// \param[in] cpu_id
	/// The cpu whose data is requested.
	///
	/// \param[in] kind
	/// The kind of data requested.
	///
	/// \return
	/// The file spec containing the requested data, or an \a llvm::Error in
	/// case of failures.
	llvm::Expected<FileSpec> GetPostMortemCpuDataFile(lldb::cpu_id_t cpu_id,
	llvm::StringRef kind);

	/// Associate a given thread with a data file using a data identifier.
	///
	/// \param[in] tid
	/// The thread associated with the data file.
	///
	/// \param[in] kind
	/// The kind of data being registered.
	///
	/// \param[in] file_spec
	/// The path of the data file.
	void SetPostMortemThreadDataFile(lldb::tid_t tid, llvm::StringRef kind,
	FileSpec file_spec);

	/// Associate a given cpu with a data file using a data identifier.
	///
	/// \param[in] cpu_id
	/// The cpu associated with the data file.
	///
	/// \param[in] kind
	/// The kind of data being registered.
	///
	/// \param[in] file_spec
	/// The path of the data file.
	void SetPostMortemCpuDataFile(lldb::cpu_id_t cpu_id, llvm::StringRef kind,
	FileSpec file_spec);

	/// Get binary data of a live thread given a data identifier.
	///
	/// \param[in] tid
	/// The thread whose data is requested.
	///
	/// \param[in] kind
	/// The kind of data requested.
	///
	/// \return
	/// A vector of bytes with the requested data, or an \a llvm::Error in
	/// case of failures.
	llvm::Expected<std::vector<uint8_t>>
	GetLiveThreadBinaryData(lldb::tid_t tid, llvm::StringRef kind);

	/// Get binary data of a live cpu given a data identifier.
	///
	/// \param[in] cpu_id
	/// The cpu whose data is requested.
	///
	/// \param[in] kind
	/// The kind of data requested.
	///
	/// \return
	/// A vector of bytes with the requested data, or an \a llvm::Error in
	/// case of failures.
	llvm::Expected<std::vector<uint8_t>>
	GetLiveCpuBinaryData(lldb::cpu_id_t cpu_id, llvm::StringRef kind);

	/// Get binary data of the current process given a data identifier.
	///
	/// \param[in] kind
	/// The kind of data requested.
	///
	/// \return
	/// A vector of bytes with the requested data, or an \a llvm::Error in
	/// case of failures.
	llvm::Expected<std::vector<uint8_t>>
	GetLiveProcessBinaryData(llvm::StringRef kind);

	/// Get the size of the data returned by \a GetLiveThreadBinaryData
	llvm::Optional<uint64_t> GetLiveThreadBinaryDataSize(lldb::tid_t tid,
	llvm::StringRef kind);

	/// Get the size of the data returned by \a GetLiveCpuBinaryData
	llvm::Optional<uint64_t> GetLiveCpuBinaryDataSize(lldb::cpu_id_t cpu_id,
	llvm::StringRef kind);

	/// Get the size of the data returned by \a GetLiveProcessBinaryData
	llvm::Optional<uint64_t> GetLiveProcessBinaryDataSize(llvm::StringRef kind);

	/// Constructor for post mortem processes
	Trace(llvm::ArrayRef<lldb::ProcessSP> postmortem_processes,
	llvm::Optional<std::vector<lldb::cpu_id_t>> postmortem_cpus);

	/// Constructor for a live process
	Trace(Process &live_process) : m_live_process(&live_process) {}

	/// Start tracing a live process or its threads.
	///
	/// \param[in] request
	/// JSON object with the information necessary to start tracing. In the
	/// case of gdb-remote processes, this JSON object should conform to the
	/// jLLDBTraceStart packet.
	///
	/// \return
	/// \a llvm::Error::success if the operation was successful, or
	/// \a llvm::Error otherwise.
	llvm::Error Start(const llvm::json::Value &request);

	/// Get the current tracing state of a live process and its threads.
	///
	/// \return
	/// A JSON object string with custom data depending on the trace
	/// technology, or an \a llvm::Error in case of errors.
	llvm::Expected<std::string> GetLiveProcessState();

	/// Method to be overriden by the plug-in to refresh its own state.
	///
	/// This is invoked by RefreshLiveProcessState when a new state is found.
	///
	/// \param[in] state
	/// The jLLDBTraceGetState response.
	///
	/// \param[in] json_response
	/// The original JSON response as a string. It might be useful to redecode
	/// it if it contains custom data for a specific trace plug-in.
	///
	/// \return
	/// \b Error::success() if this operation succeedes, or an actual error
	/// otherwise.
	virtual llvm::Error
	DoRefreshLiveProcessState(TraceGetStateResponse state,
	llvm::StringRef json_response) = 0;

	/// Return the list of processes traced by this instance. None of the returned
	/// pointers are invalid.
	std::vector<Process *> GetTracedProcesses();

	/// Method to be invoked by the plug-in to refresh the live process state. It
	/// will invoked DoRefreshLiveProcessState at some point, which should be
	/// implemented by the plug-in for custom state handling.
	///
	/// The result is cached through the same process stop. Even in the case of
	/// errors, it caches the error.
	///
	/// \return
	/// An error message if this operation failed, or \b nullptr otherwise.
	const char *RefreshLiveProcessState();

	private:
	uint32_t m_stop_id = LLDB_INVALID_STOP_ID;

	/// Process traced by this object if doing live tracing. Otherwise it's null.
	Process *m_live_process = nullptr;

	/// We package all the data that can change upon process stops to make sure
	/// this contract is very visible.
	/// This variable should only be accessed directly by constructores or live
	/// process data refreshers.
	struct Storage {
	/// Portmortem processes traced by this object if doing non-live tracing.
	/// Otherwise it's empty.
	std::vector<Process *> postmortem_processes;

	/// These data kinds are returned by lldb-server when fetching the state of
	/// the tracing session. The size in bytes can be used later for fetching
	/// the data in batches.
	/// \{

	/// tid -> data kind -> size
	llvm::DenseMap<lldb::tid_t, llvm::DenseMap<ConstString, uint64_t>>
	live_thread_data;

	/// cpu id -> data kind -> size
	llvm::DenseMap<lldb::cpu_id_t, llvm::DenseMap<ConstString, uint64_t>>
	live_cpu_data_sizes;
	/// cpu id -> data kind -> bytes
	llvm::DenseMap<lldb::cpu_id_t,
	llvm::DenseMap<ConstString, std::vector<uint8_t>>>
	live_cpu_data;

	/// data kind -> size
	llvm::DenseMap<ConstString, uint64_t> live_process_data;
	/// \}

	/// The list of cpus being traced. Might be \b None depending on the
	/// plug-in.
	llvm::Optional<std::vector<lldb::cpu_id_t>> cpus;

	/// Postmortem traces can specific additional data files, which are
	/// represented in this variable using a data kind identifier for each file.
	/// \{

	/// tid -> data kind -> file
	llvm::DenseMap<lldb::tid_t, llvm::DenseMap<ConstString, FileSpec>>
	postmortem_thread_data;

	/// cpu id -> data kind -> file
	llvm::DenseMap<lldb::cpu_id_t, llvm::DenseMap<ConstString, FileSpec>>
	postmortem_cpu_data;

	/// \}

	llvm::Optional<std::string> live_refresh_error;
	} m_storage;

	/// Get the storage after refreshing the data in the case of a live process.
	Storage &GetUpdatedStorage();
	};

	} // namespace lldb_private

	#endif // LLDB_TARGET_TRACE_H