//===-- RegisterContextLLDB.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_RegisterContextLLDB_h_ #define lldb_RegisterContextLLDB_h_ #include #include "UnwindLLDB.h" #include "lldb/Symbol/SymbolContext.h" #include "lldb/Symbol/UnwindPlan.h" #include "lldb/Target/RegisterContext.h" #include "lldb/Target/RegisterNumber.h" #include "lldb/lldb-private.h" namespace lldb_private { class UnwindLLDB; class RegisterContextLLDB : public lldb_private::RegisterContext { public: typedef std::shared_ptr SharedPtr; RegisterContextLLDB(lldb_private::Thread &thread, const SharedPtr &next_frame, lldb_private::SymbolContext &sym_ctx, uint32_t frame_number, lldb_private::UnwindLLDB &unwind_lldb); ~RegisterContextLLDB() override = default; void InvalidateAllRegisters() override; size_t GetRegisterCount() override; const lldb_private::RegisterInfo *GetRegisterInfoAtIndex(size_t reg) override; size_t GetRegisterSetCount() override; const lldb_private::RegisterSet *GetRegisterSet(size_t reg_set) override; bool ReadRegister(const lldb_private::RegisterInfo *reg_info, lldb_private::RegisterValue &value) override; bool WriteRegister(const lldb_private::RegisterInfo *reg_info, const lldb_private::RegisterValue &value) override; bool ReadAllRegisterValues(lldb::DataBufferSP &data_sp) override; bool WriteAllRegisterValues(const lldb::DataBufferSP &data_sp) override; uint32_t ConvertRegisterKindToRegisterNumber(lldb::RegisterKind kind, uint32_t num) override; bool IsValid() const; bool IsTrapHandlerFrame() const; bool GetCFA(lldb::addr_t &cfa); bool GetStartPC(lldb::addr_t &start_pc); bool ReadPC(lldb::addr_t &start_pc); private: enum FrameType { eNormalFrame, eTrapHandlerFrame, eDebuggerFrame, // a debugger inferior function call frame; we get caller's // registers from debugger eSkipFrame, // The unwind resulted in a bogus frame but may get back on // track so we don't want to give up yet eNotAValidFrame // this frame is invalid for some reason - most likely it is // past the top (end) of the stack }; // UnwindLLDB needs to pass around references to RegisterLocations friend class UnwindLLDB; // Returns true if we have an unwind loop -- the same stack frame unwinding // multiple times. bool CheckIfLoopingStack(); // Indicates whether this frame is frame zero -- the currently // executing frame -- or not. bool IsFrameZero() const; void InitializeZerothFrame(); void InitializeNonZerothFrame(); SharedPtr GetNextFrame() const; SharedPtr GetPrevFrame() const; // A SkipFrame occurs when the unwind out of frame 0 didn't go right -- we've // got one bogus frame at frame #1. // There is a good chance we'll get back on track if we follow the frame // pointer chain (or whatever is appropriate // on this ABI) so we allow one invalid frame to be in the stack. Ideally // we'll mark this frame specially at some // point and indicate to the user that the unwinder had a hiccup. Often when // this happens we will miss a frame of // the program's actual stack in the unwind and we want to flag that for the // user somehow. bool IsSkipFrame() const; //------------------------------------------------------------------ /// Determines if a SymbolContext is a trap handler or not /// /// Given a SymbolContext, determines if this is a trap handler function /// aka asynchronous signal handler. /// /// @return /// Returns true if the SymbolContext is a trap handler. //------------------------------------------------------------------ bool IsTrapHandlerSymbol(lldb_private::Process *process, const lldb_private::SymbolContext &m_sym_ctx) const; // Provide a location for where THIS function saved the CALLER's register // value // Or a frame "below" this one saved it, i.e. a function called by this one, // preserved a register that this // function didn't modify/use. // // The RegisterLocation type may be set to eRegisterNotAvailable -- this will // happen for a volatile register // being queried mid-stack. Instead of floating frame 0's contents of that // register up the stack (which may // or may not be the value of that reg when the function was executing), we // won't return any value. // // If a non-volatile register (a "preserved" register) is requested mid-stack // and no frames "below" the requested // stack have saved the register anywhere, it is safe to assume that frame 0's // register values are still the same // as the requesting frame's. lldb_private::UnwindLLDB::RegisterSearchResult SavedLocationForRegister(uint32_t lldb_regnum, lldb_private::UnwindLLDB::RegisterLocation ®loc); bool ReadRegisterValueFromRegisterLocation( lldb_private::UnwindLLDB::RegisterLocation regloc, const lldb_private::RegisterInfo *reg_info, lldb_private::RegisterValue &value); bool WriteRegisterValueToRegisterLocation( lldb_private::UnwindLLDB::RegisterLocation regloc, const lldb_private::RegisterInfo *reg_info, const lldb_private::RegisterValue &value); //------------------------------------------------------------------ /// If the unwind has to the caller frame has failed, try something else /// /// If lldb is using an assembly language based UnwindPlan for a frame and /// the unwind to the caller frame fails, try falling back to a generic /// UnwindPlan (architecture default unwindplan) to see if that might work /// better. This is mostly helping to work around problems where the /// assembly language inspection fails on hand-written assembly code. /// /// @return /// Returns true if a fallback unwindplan was found & was installed. //------------------------------------------------------------------ bool TryFallbackUnwindPlan(); //------------------------------------------------------------------ /// Switch to the fallback unwind plan unconditionally without any safety /// checks that it is providing better results than the normal unwind plan. /// /// The only time it is valid to call this method is if the full unwindplan is /// found to be fundamentally incorrect/impossible. /// /// Returns true if it was able to install the fallback unwind plan. //------------------------------------------------------------------ bool ForceSwitchToFallbackUnwindPlan(); // Get the contents of a general purpose (address-size) register for this // frame // (usually retrieved from the next frame) bool ReadGPRValue(lldb::RegisterKind register_kind, uint32_t regnum, lldb::addr_t &value); bool ReadGPRValue(const RegisterNumber ®_num, lldb::addr_t &value); // Get the Frame Address register for a given frame. bool ReadFrameAddress(lldb::RegisterKind register_kind, UnwindPlan::Row::FAValue &fa, lldb::addr_t &address); lldb::UnwindPlanSP GetFastUnwindPlanForFrame(); lldb::UnwindPlanSP GetFullUnwindPlanForFrame(); void UnwindLogMsg(const char *fmt, ...) __attribute__((format(printf, 2, 3))); void UnwindLogMsgVerbose(const char *fmt, ...) __attribute__((format(printf, 2, 3))); bool IsUnwindPlanValidForCurrentPC(lldb::UnwindPlanSP unwind_plan_sp, int &valid_pc_offset); lldb_private::Thread &m_thread; /// // The following tell us how to retrieve the CALLER's register values (ie the // "previous" frame, aka the frame above) // i.e. where THIS frame saved them /// lldb::UnwindPlanSP m_fast_unwind_plan_sp; // may be NULL lldb::UnwindPlanSP m_full_unwind_plan_sp; lldb::UnwindPlanSP m_fallback_unwind_plan_sp; // may be NULL bool m_all_registers_available; // Can we retrieve all regs or just // nonvolatile regs? int m_frame_type; // enum FrameType lldb::addr_t m_cfa; lldb::addr_t m_afa; lldb_private::Address m_start_pc; lldb_private::Address m_current_pc; int m_current_offset; // how far into the function we've executed; -1 if // unknown // 0 if no instructions have been executed yet. int m_current_offset_backed_up_one; // how far into the function we've // executed; -1 if unknown // 0 if no instructions have been executed yet. // On architectures where the return address on the stack points // to the instruction after the CALL, this value will have 1 // subtracted from it. Else a function that ends in a CALL will // have an offset pointing into the next function's address range. // m_current_pc has the actual address of the "current" pc. lldb_private::SymbolContext &m_sym_ctx; bool m_sym_ctx_valid; // if ResolveSymbolContextForAddress fails, don't try to // use m_sym_ctx uint32_t m_frame_number; // What stack frame this RegisterContext is std::map m_registers; // where to find reg values for this frame lldb_private::UnwindLLDB &m_parent_unwind; // The UnwindLLDB that is creating // this RegisterContextLLDB //------------------------------------------------------------------ // For RegisterContextLLDB only //------------------------------------------------------------------ DISALLOW_COPY_AND_ASSIGN(RegisterContextLLDB); }; } // namespace lldb_private #endif // lldb_RegisterContextLLDB_h_