139 lines
6.0 KiB
C++
139 lines
6.0 KiB
C++
#pragma once
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#include <cstdint>
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#include <set>
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#include <vector>
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#include <optional>
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#include "src/Targets/Microchip/Avr8/TargetSignature.hpp"
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#include "src/Targets/Microchip/Avr8/Family.hpp"
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#include "src/Targets/Microchip/Avr8/ProgramMemorySection.hpp"
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#include "src/Targets/TargetDescriptor.hpp"
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#include "src/Targets/TargetAddressSpaceDescriptor.hpp"
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#include "src/Targets/TargetMemorySegmentDescriptor.hpp"
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#include "src/Targets/TargetState.hpp"
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#include "src/Targets/TargetRegisterDescriptor.hpp"
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#include "src/Targets/TargetMemory.hpp"
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#include "src/Targets/TargetMemoryAddressRange.hpp"
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#include "src/Targets/TargetBreakpoint.hpp"
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namespace DebugToolDrivers::TargetInterfaces::Microchip::Avr8
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{
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/**
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* Interfacing with an AVR8 target for debugging operations can vary significantly, depending on the debug tool
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* being used. Some debug tools employ different protocols.
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*
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* This class describes the interface required for interfacing with AVR8 targets, for debugging operations.
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*
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* Each debug tool that supports interfacing with AVR8 targets must provide an implementation
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* of this interface class. For example, the Atmel-ICE provides the EdbgAvr8Interface implementation for
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* interfacing with AVR8 targets. See DebugToolDrivers::AtmelIce::getAvr8DebugInterface() and
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* DebugTool::getAvr8DebugInterface() for more on this.
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*/
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class Avr8DebugInterface
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{
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public:
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Avr8DebugInterface() = default;
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virtual ~Avr8DebugInterface() = default;
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Avr8DebugInterface(const Avr8DebugInterface& other) = default;
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Avr8DebugInterface(Avr8DebugInterface&& other) = default;
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Avr8DebugInterface& operator = (const Avr8DebugInterface& other) = default;
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Avr8DebugInterface& operator = (Avr8DebugInterface&& other) = default;
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virtual void init() = 0;
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virtual void stop() = 0;
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virtual void run() = 0;
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virtual void runTo(Targets::TargetMemoryAddress address) = 0;
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virtual void step() = 0;
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virtual void reset() = 0;
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/**
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* Should activate the physical interface between the debug tool and the AVR8 target.
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*
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* If the debugWIRE interface has been selected - this function should throw a DebugWirePhysicalInterfaceError
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* exception, in the event of a failure when activating the interface. The reason for this is to allow us the
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* chance to check the DWEN fuse bit, via an ISP interface. See Avr8::activate() for more.
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*/
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virtual void activate() = 0;
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/**
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* Should deactivate the physical interface between the debug tool and the AVR8 target.
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*/
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virtual void deactivate() = 0;
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/**
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* We can specify access restrictions for individual registers in our TDFs, but this is only at a target
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* level - it does not account for any restrictions that the debug interface may be subject to.
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*
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* For example, EDBG debug tools cannot access fuse registers on JTAG targets, during a debug session. Those
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* registers can only be accessed during a programming session. This restriction is specific to the EDBG debug
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* interface.
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*
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* This function should apply any additional access restrictions for the given register.
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*
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* @param registerDescriptor
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* The descriptor of the register.
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*
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* @param addressSpaceDescriptor
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* The descriptor of the address space in which the register resides.
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*
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* @return
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*/
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virtual void applyAccessRestrictions(
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Targets::TargetRegisterDescriptor& registerDescriptor,
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const Targets::TargetAddressSpaceDescriptor& addressSpaceDescriptor
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) = 0;
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/**
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* Should retrieve the AVR8 target signature of the AVR8 target.
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*
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* This method may invoke stop(), as the target may be required to be in a halted state before the signature
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* can be read.
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*
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* @return
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*/
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virtual Targets::Microchip::Avr8::TargetSignature getDeviceId() = 0;
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virtual void setProgramBreakpoint(const Targets::TargetProgramBreakpoint& breakpoint) = 0;
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virtual void removeProgramBreakpoint(const Targets::TargetProgramBreakpoint& breakpoint) = 0;
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virtual Targets::TargetMemoryAddress getProgramCounter() = 0;
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virtual void setProgramCounter(Targets::TargetMemoryAddress programCounter) = 0;
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virtual Targets::TargetRegisterDescriptorAndValuePairs readRegisters(
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const Targets::TargetRegisterDescriptors& descriptors
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) = 0;
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virtual void writeRegisters(const Targets::TargetRegisterDescriptorAndValuePairs& registers) = 0;
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virtual Targets::TargetMemoryBuffer readMemory(
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const Targets::TargetAddressSpaceDescriptor& addressSpaceDescriptor,
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const Targets::TargetMemorySegmentDescriptor& memorySegmentDescriptor,
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Targets::TargetMemoryAddress startAddress,
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Targets::TargetMemorySize bytes,
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const std::set<Targets::TargetMemoryAddressRange>& excludedAddressRanges = {}
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) = 0;
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virtual void writeMemory(
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const Targets::TargetAddressSpaceDescriptor& addressSpaceDescriptor,
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const Targets::TargetMemorySegmentDescriptor& memorySegmentDescriptor,
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Targets::TargetMemoryAddress startAddress,
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Targets::TargetMemoryBufferSpan buffer
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) = 0;
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/**
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* Should erase the target's entire program memory, or a specific section where applicable.
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*
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* @param section
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* The section to erase, or std::nullopt to erase the entire program memory.
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*/
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virtual void eraseProgramMemory(
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std::optional<Targets::Microchip::Avr8::ProgramMemorySection> section = std::nullopt
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) = 0;
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virtual void eraseChip() = 0;
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virtual Targets::TargetExecutionState getExecutionState() = 0;
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virtual void enableProgrammingMode() = 0;
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virtual void disableProgrammingMode() = 0;
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};
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}
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