// // AppleIIgs.cpp // Clock Signal // // Created by Thomas Harte on 20/10/2020. // Copyright 2020 Thomas Harte. All rights reserved. // #include "AppleIIgs.hpp" #include "../../MachineTypes.hpp" #include "../../../Processors/65816/65816.hpp" #include "../../../Analyser/Static/AppleIIgs/Target.hpp" #include "MemoryMap.hpp" #include "../../../Components/8530/z8530.hpp" #include "../../../Components/DiskII/IWM.hpp" #include #include namespace Apple { namespace IIgs { class ConcreteMachine: public Apple::IIgs::Machine, public MachineTypes::TimedMachine, public MachineTypes::ScanProducer, public CPU::MOS6502Esque::BusHandler { public: ConcreteMachine(const Analyser::Static::AppleIIgs::Target &target, const ROMMachine::ROMFetcher &rom_fetcher) : m65816_(*this) { set_clock_rate(14318180.0); using Target = Analyser::Static::AppleIIgs::Target; std::vector rom_descriptions; const std::string machine_name = "AppleIIgs"; switch(target.model) { case Target::Model::ROM00: /* TODO */ case Target::Model::ROM01: rom_descriptions.emplace_back(machine_name, "the Apple IIgs ROM01", "apple2gs.rom", 128*1024, 0x42f124b0); break; case Target::Model::ROM03: rom_descriptions.emplace_back(machine_name, "the Apple IIgs ROM03", "apple2gs.rom2", 256*1024, 0xde7ddf29); break; } const auto roms = rom_fetcher(rom_descriptions); if(!roms[0]) { throw ROMMachine::Error::MissingROMs; } rom_ = *roms[0]; size_t ram_size = 0; switch(target.memory_model) { case Target::MemoryModel::TwoHundredAndFiftySixKB: ram_size = 256; break; case Target::MemoryModel::OneMB: ram_size = 128 + 1024; break; case Target::MemoryModel::EightMB: ram_size = 128 + 8 * 1024; break; } ram_.resize(ram_size * 1024); memory_.set_storage(ram_, rom_); // Sync up initial values. memory_.set_speed_register(speed_register_); } void run_for(const Cycles cycles) override { m65816_.run_for(cycles); } void set_scan_target(Outputs::Display::ScanTarget *) override { } Outputs::Display::ScanStatus get_scaled_scan_status() const override { return Outputs::Display::ScanStatus(); } forceinline Cycles perform_bus_operation(const CPU::WDC65816::BusOperation operation, const uint32_t address, uint8_t *const value) { const auto ®ion = MemoryMapRegion(memory_, address); if(region.flags & MemoryMap::Region::IsIO) { // Ensure classic auxiliary and language card accesses have effect. memory_.access(uint16_t(address), isReadOperation(operation)); switch(address & 0xffff) { // New video register. case 0xc029: if(isReadOperation(operation)) { *value = 0; } else { printf("New video: %02x\n", *value); // TODO: this bit should affect memory bank selection, somehow? // Cf. Page 90. } break; // Shadow register. case 0xc035: if(isReadOperation(operation)) { *value = memory_.get_shadow_register(); } else { memory_.set_shadow_register(*value); } break; // Speed register. case 0xc036: if(isReadOperation(operation)) { *value = speed_register_; } else { memory_.set_speed_register(*value); speed_register_ = *value; printf("[Unimplemented] most of speed register: %02x\n", *value); } break; // [Memory] State register. case 0xc068: if(isReadOperation(operation)) { *value = memory_.get_state_register(); } else { memory_.set_state_register(*value); } break; // Various independent memory switch reads [TODO: does the IIe-style keyboard the low seven?]. #define SwitchRead(s) *value = memory_.s ? 0x80 : 0x00 #define LanguageRead(s) SwitchRead(language_card_switches().state().s) #define AuxiliaryRead(s) SwitchRead(auxiliary_switches().switches().s) case 0xc011: LanguageRead(bank1); break; case 0xc012: LanguageRead(read); break; case 0xc013: AuxiliaryRead(read_auxiliary_memory); break; case 0xc014: AuxiliaryRead(write_auxiliary_memory); break; case 0xc015: AuxiliaryRead(internal_CX_rom); break; case 0xc016: AuxiliaryRead(alternative_zero_page); break; case 0xc017: AuxiliaryRead(slot_C3_rom); break; #undef AuxiliaryRead #undef LanguageRead #undef SwitchRead // The SCC. case 0xc038: case 0xc039: case 0xc03a: case 0xc03b: if(isReadOperation(operation)) { *value = scc_.read(int(address)); } else { scc_.write(int(address), *value); } break; // These were all dealt with by the call to memory_.access. // TODO: subject to read data? Does vapour lock apply? case 0xc000: case 0xc001: case 0xc002: case 0xc003: case 0xc004: case 0xc005: case 0xc006: case 0xc007: case 0xc008: case 0xc009: case 0xc00a: case 0xc00b: case 0xc054: case 0xc055: case 0xc056: case 0xc057: break; default: if(address < 0xc100) { // TODO: all other IO accesses. printf("Unhandled IO: %04x\n", address); assert(false); } else { // Card IO. Not implemented! if(isReadOperation(operation)) { *value = 0xff; } } } } else { if(isReadOperation(operation)) { MemoryMapRead(region, address, value); } else { MemoryMapWrite(memory_, region, address, value); } } printf("%06x [%02x] %c\n", address, *value, operation == CPU::WDC65816::BusOperation::ReadOpcode ? '*' : ' '); Cycles duration = Cycles(5); // TODO: determine the cost of this access. // if((mapping.flags & BankMapping::Is1Mhz) || ((mapping.flags & BankMapping::IsShadowed) && !isReadOperation(operation))) { // // TODO: (i) get into phase; (ii) allow for the 1Mhz bus length being sporadically 16 rather than 14. // duration = Cycles(14); // } else { // // TODO: (i) get into phase; (ii) allow for collisions with the refresh cycle. // duration = Cycles(5); // } fast_access_phase_ = (fast_access_phase_ + duration.as()) % 5; // TODO: modulo something else, to allow for refresh. slow_access_phase_ = (slow_access_phase_ + duration.as()) % 14; // TODO: modulo something else, to allow for stretched cycles. return duration; } private: CPU::WDC65816::Processor m65816_; MemoryMap memory_; int fast_access_phase_ = 0; int slow_access_phase_ = 0; uint8_t speed_register_ = 0x00; // MARK: - Memory storage. std::vector ram_; std::vector rom_; // MARK: - Other components. Zilog::SCC::z8530 scc_; }; } } using namespace Apple::IIgs; Machine *Machine::AppleIIgs(const Analyser::Static::Target *target, const ROMMachine::ROMFetcher &rom_fetcher) { return new ConcreteMachine(*dynamic_cast(target), rom_fetcher); } Machine::~Machine() {}