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180 lines
5.4 KiB
C++
180 lines
5.4 KiB
C++
//
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// Memory.hpp
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// Clock Signal
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//
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// Created by Thomas Harte on 01/12/2023.
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// Copyright © 2023 Thomas Harte. All rights reserved.
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//
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#ifndef Memory_hpp
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#define Memory_hpp
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#include "Registers.hpp"
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#include "Segments.hpp"
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#include "../../InstructionSets/x86/AccessType.hpp"
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#include <array>
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namespace PCCompatible {
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// TODO: send writes to the ROM area off to nowhere.
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struct Memory {
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public:
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using AccessType = InstructionSet::x86::AccessType;
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// Constructor.
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Memory(Registers ®isters, const Segments &segments) : registers_(registers), segments_(segments) {}
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//
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// Preauthorisation call-ins. Since only an 8088 is currently modelled, all accesses are implicitly authorised.
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//
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void preauthorise_stack_write([[maybe_unused]] uint32_t length) {}
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void preauthorise_stack_read([[maybe_unused]] uint32_t length) {}
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void preauthorise_read([[maybe_unused]] InstructionSet::x86::Source segment, [[maybe_unused]] uint16_t start, [[maybe_unused]] uint32_t length) {}
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void preauthorise_read([[maybe_unused]] uint32_t start, [[maybe_unused]] uint32_t length) {}
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//
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// Access call-ins.
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//
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// Accesses an address based on segment:offset.
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template <typename IntT, AccessType type>
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typename InstructionSet::x86::Accessor<IntT, type>::type access(InstructionSet::x86::Source segment, uint16_t offset) {
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const uint32_t physical_address = address(segment, offset);
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if constexpr (std::is_same_v<IntT, uint16_t>) {
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// If this is a 16-bit access that runs past the end of the segment, it'll wrap back
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// to the start. So the 16-bit value will need to be a local cache.
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if(offset == 0xffff) {
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return split_word<type>(physical_address, address(segment, 0));
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}
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}
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return access<IntT, type>(physical_address);
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}
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// Accesses an address based on physical location.
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template <typename IntT, AccessType type>
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typename InstructionSet::x86::Accessor<IntT, type>::type access(uint32_t address) {
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// Dispense with the single-byte case trivially.
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if constexpr (std::is_same_v<IntT, uint8_t>) {
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return memory[address];
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} else if(address != 0xf'ffff) {
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return *reinterpret_cast<IntT *>(&memory[address]);
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} else {
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return split_word<type>(address, 0);
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}
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}
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template <typename IntT>
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void write_back() {
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if constexpr (std::is_same_v<IntT, uint16_t>) {
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if(write_back_address_[0] != NoWriteBack) {
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memory[write_back_address_[0]] = write_back_value_ & 0xff;
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memory[write_back_address_[1]] = write_back_value_ >> 8;
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write_back_address_[0] = 0;
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}
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}
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}
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//
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// Direct write.
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//
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template <typename IntT>
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void preauthorised_write(InstructionSet::x86::Source segment, uint16_t offset, IntT value) {
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// Bytes can be written without further ado.
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if constexpr (std::is_same_v<IntT, uint8_t>) {
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memory[address(segment, offset) & 0xf'ffff] = value;
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return;
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}
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// Words that straddle the segment end must be split in two.
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if(offset == 0xffff) {
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memory[address(segment, offset) & 0xf'ffff] = value & 0xff;
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memory[address(segment, 0x0000) & 0xf'ffff] = value >> 8;
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return;
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}
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const uint32_t target = address(segment, offset) & 0xf'ffff;
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// Words that straddle the end of physical RAM must also be split in two.
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if(target == 0xf'ffff) {
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memory[0xf'ffff] = value & 0xff;
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memory[0x0'0000] = value >> 8;
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return;
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}
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// It's safe just to write then.
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*reinterpret_cast<uint16_t *>(&memory[target]) = value;
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}
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//
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// Helper for instruction fetch.
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//
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std::pair<const uint8_t *, size_t> next_code() {
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const uint32_t start = segments_.cs_base_ + registers_.ip();
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return std::make_pair(&memory[start], 0x10'000 - start);
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}
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std::pair<const uint8_t *, size_t> all() {
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return std::make_pair(memory.data(), 0x10'000);
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}
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//
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// External access.
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//
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void install(size_t address, const uint8_t *data, size_t length) {
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std::copy(data, data + length, memory.begin() + std::vector<uint8_t>::difference_type(address));
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}
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uint8_t *at(uint32_t address) {
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return &memory[address];
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}
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private:
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std::array<uint8_t, 1024*1024> memory{0xff};
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Registers ®isters_;
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const Segments &segments_;
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uint32_t segment_base(InstructionSet::x86::Source segment) {
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using Source = InstructionSet::x86::Source;
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switch(segment) {
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default: return segments_.ds_base_;
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case Source::ES: return segments_.es_base_;
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case Source::CS: return segments_.cs_base_;
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case Source::SS: return segments_.ss_base_;
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}
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}
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uint32_t address(InstructionSet::x86::Source segment, uint16_t offset) {
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return (segment_base(segment) + offset) & 0xf'ffff;
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}
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template <AccessType type>
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typename InstructionSet::x86::Accessor<uint16_t, type>::type
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split_word(uint32_t low_address, uint32_t high_address) {
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if constexpr (is_writeable(type)) {
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write_back_address_[0] = low_address;
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write_back_address_[1] = high_address;
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// Prepopulate only if this is a modify.
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if constexpr (type == AccessType::ReadModifyWrite) {
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write_back_value_ = uint16_t(memory[write_back_address_[0]] | (memory[write_back_address_[1]] << 8));
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}
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return write_back_value_;
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} else {
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return uint16_t(memory[low_address] | (memory[high_address] << 8));
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}
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}
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static constexpr uint32_t NoWriteBack = 0; // A low byte address of 0 can't require write-back.
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uint32_t write_back_address_[2] = {NoWriteBack, NoWriteBack};
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uint16_t write_back_value_;
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};
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}
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#endif /* Memory_hpp */
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