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Adjusted semantics to allow for more complicated mappings, e.g. whereby supplied data repeats itself within a range.
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@ -16,18 +16,18 @@ struct PartialDisassembly {
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std::vector<uint16_t> remaining_entry_points;
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};
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static void AddToDisassembly(PartialDisassembly &disassembly, const std::vector<uint8_t> &memory, uint16_t start_address, uint16_t entry_point, uint16_t address_mask)
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static void AddToDisassembly(PartialDisassembly &disassembly, const std::vector<uint8_t> &memory, const std::function<size_t(uint16_t)> &address_mapper, uint16_t entry_point)
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{
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disassembly.disassembly.internal_calls.insert(start_address);
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uint16_t address = entry_point & address_mask;
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disassembly.disassembly.internal_calls.insert(entry_point);
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uint16_t address = entry_point;
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while(1)
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{
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uint16_t local_address = address - start_address;
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size_t local_address = address_mapper(address);
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if(local_address >= memory.size()) return;
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struct Instruction instruction;
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instruction.address = address;
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address = (address + 1) & address_mask;
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address++;
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// get operation
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uint8_t operation = memory[local_address];
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@ -235,7 +235,7 @@ static void AddToDisassembly(PartialDisassembly &disassembly, const std::vector<
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case Instruction::IndexedIndirectX: case Instruction::IndirectIndexedY:
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case Instruction::Relative:
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{
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uint16_t operand_address = address - start_address;
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size_t operand_address = address_mapper(address);
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if(operand_address >= memory.size()) return;
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address++;
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@ -247,11 +247,12 @@ static void AddToDisassembly(PartialDisassembly &disassembly, const std::vector<
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case Instruction::Absolute: case Instruction::AbsoluteX: case Instruction::AbsoluteY:
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case Instruction::Indirect:
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{
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uint16_t operand_address = address - start_address;
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if(operand_address >= memory.size()-1) return;
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size_t low_operand_address = address_mapper(address);
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size_t high_operand_address = address_mapper(address + 1);
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if(low_operand_address >= memory.size() || high_operand_address >= memory.size()) return;
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address += 2;
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instruction.operand = memory[operand_address] | (uint16_t)(memory[operand_address + 1] << 8);
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instruction.operand = memory[low_operand_address] | (uint16_t)(memory[high_operand_address] << 8);
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}
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break;
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}
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@ -262,7 +263,8 @@ static void AddToDisassembly(PartialDisassembly &disassembly, const std::vector<
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// TODO: something wider-ranging than this
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if(instruction.addressing_mode == Instruction::Absolute || instruction.addressing_mode == Instruction::ZeroPage)
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{
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bool is_external = (instruction.operand&address_mask) < start_address || (instruction.operand&address_mask) >= start_address + memory.size();
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size_t mapped_address = address_mapper(instruction.operand);
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bool is_external = mapped_address >= memory.size();
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switch(instruction.operation)
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{
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@ -297,23 +299,23 @@ static void AddToDisassembly(PartialDisassembly &disassembly, const std::vector<
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if(instruction.operation == Instruction::BRK) return; // TODO: check whether IRQ vector is within memory range
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if(instruction.operation == Instruction::JSR)
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{
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disassembly.remaining_entry_points.push_back(instruction.operand & address_mask);
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disassembly.remaining_entry_points.push_back(instruction.operand);
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}
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if(instruction.operation == Instruction::JMP)
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{
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if(instruction.addressing_mode == Instruction::Absolute)
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disassembly.remaining_entry_points.push_back(instruction.operand & address_mask);
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disassembly.remaining_entry_points.push_back(instruction.operand);
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return;
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}
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if(instruction.addressing_mode == Instruction::Relative)
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{
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uint16_t destination = (uint16_t)(address + (int8_t)instruction.operand);
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disassembly.remaining_entry_points.push_back(destination & address_mask);
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disassembly.remaining_entry_points.push_back(destination);
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}
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}
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}
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Disassembly StaticAnalyser::MOS6502::Disassemble(const std::vector<uint8_t> &memory, uint16_t start_address, std::vector<uint16_t> entry_points, uint16_t address_mask)
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Disassembly StaticAnalyser::MOS6502::Disassemble(const std::vector<uint8_t> &memory, const std::function<size_t(uint16_t)> &address_mapper, std::vector<uint16_t> entry_points)
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{
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PartialDisassembly partialDisassembly;
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partialDisassembly.remaining_entry_points = entry_points;
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@ -321,18 +323,26 @@ Disassembly StaticAnalyser::MOS6502::Disassemble(const std::vector<uint8_t> &mem
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while(!partialDisassembly.remaining_entry_points.empty())
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{
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// pull the next entry point from the back of the vector
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uint16_t next_entry_point = partialDisassembly.remaining_entry_points.back() & address_mask;
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uint16_t next_entry_point = partialDisassembly.remaining_entry_points.back();
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partialDisassembly.remaining_entry_points.pop_back();
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// if that address has already bene visited, forget about it
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if(partialDisassembly.disassembly.instructions_by_address.find(next_entry_point) != partialDisassembly.disassembly.instructions_by_address.end()) continue;
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// if it's outgoing, log it as such and forget about it; otherwise disassemble
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if(next_entry_point < start_address || next_entry_point >= start_address + memory.size())
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size_t mapped_entry_point = address_mapper(next_entry_point);
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if(mapped_entry_point >= memory.size())
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partialDisassembly.disassembly.outward_calls.insert(next_entry_point);
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else
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AddToDisassembly(partialDisassembly, memory, start_address, next_entry_point, address_mask);
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AddToDisassembly(partialDisassembly, memory, address_mapper, next_entry_point);
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}
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return std::move(partialDisassembly.disassembly);
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}
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std::function<size_t(uint16_t)> StaticAnalyser::MOS6502::OffsetMapper(uint16_t start_address)
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{
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return [start_address](uint16_t argument) {
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return (size_t)(argument - start_address);
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};
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}
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@ -10,10 +10,11 @@
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#define Disassembler6502_hpp
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#include <cstdint>
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#include <functional>
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#include <map>
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#include <memory>
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#include <set>
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#include <vector>
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#include <map>
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namespace StaticAnalyser {
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namespace MOS6502 {
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@ -69,7 +70,8 @@ struct Disassembly {
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std::set<uint16_t> internal_stores, internal_loads, internal_modifies;
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};
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Disassembly Disassemble(const std::vector<uint8_t> &memory, uint16_t start_address, std::vector<uint16_t> entry_points, uint16_t address_mask = 0xffff);
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Disassembly Disassemble(const std::vector<uint8_t> &memory, const std::function<size_t(uint16_t)> &address_mapper, std::vector<uint16_t> entry_points);
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std::function<size_t(uint16_t)> OffsetMapper(uint16_t start_address);
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}
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}
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