// // EmuTOSTests.m // Clock SignalTests // // Created by Thomas Harte on 10/03/2019. // Copyright © 2019 Thomas Harte. All rights reserved. // #import #include #include //#define LOG_TRACE #include "68000.hpp" #include "Comparative68000.hpp" #include "CSROMFetcher.hpp" class EmuTOS: public ComparativeBusHandler { public: EmuTOS(const std::vector &emuTOS, const char *trace_name) : ComparativeBusHandler(trace_name), m68000_(*this) { assert(!(emuTOS.size() & 1)); emuTOS_.resize(emuTOS.size() / 2); for(size_t c = 0; c < emuTOS_.size(); ++c) { emuTOS_[c] = (emuTOS[c << 1] << 8) | emuTOS[(c << 1) + 1]; } } void run_for(HalfCycles cycles) { m68000_.run_for(cycles); } CPU::MC68000::State get_state() final { return m68000_.get_state(); } using Microcycle = CPU::MC68000::Microcycle; template HalfCycles perform_bus_operation(const Microcycle &cycle, int) { const uint32_t address = cycle.word_address(); uint32_t word_address = address; // As much about the Atari ST's memory map as is relevant here: the ROM begins // at 0xfc0000, and the first eight bytes are mirrored to the first four memory // addresses in order for /RESET to work properly. RAM otherwise fills the first // 512kb of the address space. Trying to write to ROM raises a bus error. const bool is_rom = (word_address >= (0xfc0000 >> 1) && word_address < (0xff0000 >> 1)) || word_address < 4; const bool is_ram = word_address < ram_.size(); const bool is_peripheral = !is_rom && !is_ram; uint16_t *const base = is_rom ? emuTOS_.data() : ram_.data(); if(is_rom) { word_address %= emuTOS_.size(); } else { word_address %= ram_.size(); } using Microcycle = CPU::MC68000::Microcycle; if(cycle.data_select_active()) { uint16_t peripheral_result = 0xffff; if(is_peripheral) { switch(address & 0x7ff) { // A hard-coded value for TIMER B. case (0xa21 >> 1): peripheral_result = 0x00000001; break; } } const auto operation = (op != Microcycle::DecodeDynamically) ? op : cycle.operation; switch(operation & (Microcycle::SelectWord | Microcycle::SelectByte | Microcycle::Read)) { default: break; case Microcycle::SelectWord | Microcycle::Read: cycle.value->w = is_peripheral ? peripheral_result : base[word_address]; break; case Microcycle::SelectByte | Microcycle::Read: cycle.value->b = (is_peripheral ? peripheral_result : base[word_address]) >> cycle.byte_shift(); break; case Microcycle::SelectWord: base[word_address] = cycle.value->w; break; case Microcycle::SelectByte: base[word_address] = (cycle.value->b << cycle.byte_shift()) | (base[word_address] & (0xffff ^ cycle.byte_mask())); break; } } return HalfCycles(0); } private: CPU::MC68000::Processor m68000_; std::vector emuTOS_; std::array ram_; }; @interface EmuTOSTests : XCTestCase @end @implementation EmuTOSTests { std::unique_ptr _machine; } - (void)testImage:(ROM::Name)name trace:(NSString *)trace length:(int)length { const auto roms = CSROMFetcher()(ROM::Request(name)); NSString *const traceLocation = [[NSBundle bundleForClass:[self class]] pathForResource:trace ofType:@"trace.txt.gz"]; _machine = std::make_unique(roms.find(name)->second, traceLocation.fileSystemRepresentation); _machine->run_for(HalfCycles(length)); } - (void)testTOSStartup { [self testImage:ROM::Name::AtariSTTOS100 trace:@"tos100" length:54011091]; } @end