//===-- SBTraceCursor.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_API_SBTRACECURSOR_H #define LLDB_API_SBTRACECURSOR_H #include "lldb/API/SBDefines.h" #include "lldb/API/SBError.h" #include "lldb/API/SBExecutionContext.h" namespace lldb { class LLDB_API SBTraceCursor { public: /// Default constructor for an invalid \a SBTraceCursor object. SBTraceCursor(); /// Set the direction to use in the \a SBTraceCursor::Next() method. /// /// \param[in] forwards /// If \b true, then the traversal will be forwards, otherwise backwards. void SetForwards(bool forwards); /// Check if the direction to use in the \a SBTraceCursor::Next() method is /// forwards. /// /// \return /// \b true if the current direction is forwards, \b false if backwards. bool IsForwards() const; /// Move the cursor to the next item (instruction or error). /// /// Direction: /// The traversal is done following the current direction of the trace. If /// it is forwards, the instructions are visited forwards /// chronologically. Otherwise, the traversal is done in /// the opposite direction. By default, a cursor moves backwards unless /// changed with \a SBTraceCursor::SetForwards(). void Next(); /// \return /// \b true if the cursor is pointing to a valid item. \b false if the /// cursor has reached the end of the trace. bool HasValue() const; /// Instruction identifiers: /// /// When building complex higher level tools, fast random accesses in the /// trace might be needed, for which each instruction requires a unique /// identifier within its thread trace. For example, a tool might want to /// repeatedly inspect random consecutive portions of a trace. This means that /// it will need to first move quickly to the beginning of each section and /// then start its iteration. Given that the number of instructions can be in /// the order of hundreds of millions, fast random access is necessary. /// /// An example of such a tool could be an inspector of the call graph of a /// trace, where each call is represented with its start and end instructions. /// Inspecting all the instructions of a call requires moving to its first /// instruction and then iterating until the last instruction, which following /// the pattern explained above. /// /// Instead of using 0-based indices as identifiers, each Trace plug-in can /// decide the nature of these identifiers and thus no assumptions can be made /// regarding their ordering and sequentiality. The reason is that an /// instruction might be encoded by the plug-in in a way that hides its actual /// 0-based index in the trace, but it's still possible to efficiently find /// it. /// /// Requirements: /// - For a given thread, no two instructions have the same id. /// - In terms of efficiency, moving the cursor to a given id should be as /// fast as possible, but not necessarily O(1). That's why the recommended /// way to traverse sequential instructions is to use the \a /// SBTraceCursor::Next() method and only use \a SBTraceCursor::GoToId(id) /// sparingly. /// Make the cursor point to the item whose identifier is \p id. /// /// \return /// \b true if the given identifier exists and the cursor effectively /// moved to it. Otherwise, \b false is returned and the cursor now points /// to an invalid item, i.e. calling \a HasValue() will return \b false. bool GoToId(lldb::user_id_t id); /// \return /// \b true if and only if there's an instruction item with the given \p /// id. bool HasId(lldb::user_id_t id) const; /// \return /// A unique identifier for the instruction or error this cursor is /// pointing to. lldb::user_id_t GetId() const; /// \} /// Make the cursor point to an item in the trace based on an origin point and /// an offset. /// /// The resulting position of the trace is /// origin + offset /// /// If this resulting position would be out of bounds, the trace then points /// to an invalid item, i.e. calling \a HasValue() returns \b false. /// /// \param[in] offset /// How many items to move forwards (if positive) or backwards (if /// negative) from the given origin point. For example, if origin is \b /// End, then a negative offset would move backward in the trace, but a /// positive offset would move past the trace to an invalid item. /// /// \param[in] origin /// The reference point to use when moving the cursor. /// /// \return /// \b true if and only if the cursor ends up pointing to a valid item. bool Seek(int64_t offset, lldb::TraceCursorSeekType origin); /// Trace item information (instructions, errors and events) /// \{ /// \return /// The kind of item the cursor is pointing at. lldb::TraceItemKind GetItemKind() const; /// \return /// Whether the cursor points to an error or not. bool IsError() const; /// \return /// The error message the cursor is pointing at. const char *GetError() const; /// \return /// Whether the cursor points to an event or not. bool IsEvent() const; /// \return /// The specific kind of event the cursor is pointing at. lldb::TraceEvent GetEventType() const; /// \return /// A human-readable description of the event this cursor is pointing at. const char *GetEventTypeAsString() const; /// \return /// Whether the cursor points to an instruction. bool IsInstruction() const; /// \return /// The load address of the instruction the cursor is pointing at. lldb::addr_t GetLoadAddress() const; /// \return /// The requested CPU id, or LLDB_INVALID_CPU_ID if this information is /// not available for the current item. lldb::cpu_id_t GetCPU() const; bool IsValid() const; explicit operator bool() const; protected: friend class SBTrace; /// Create a cursor that initially points to the end of the trace, i.e. the /// most recent item. SBTraceCursor(lldb::TraceCursorSP trace_cursor_sp); lldb::TraceCursorSP m_opaque_sp; }; } // namespace lldb #endif // LLDB_API_SBTRACECURSOR_H