// // Status.hpp // Clock Signal // // Created by Thomas Harte on 25/11/2023. // Copyright © 2023 Thomas Harte. All rights reserved. // #pragma once namespace Intel::i8272 { enum class MainStatus: uint8_t { FDD0Seeking = 0x01, FDD1Seeking = 0x02, FDD2Seeking = 0x04, FDD3Seeking = 0x08, CommandInProgress = 0x10, InNonDMAExecution = 0x20, DataIsToProcessor = 0x40, DataReady = 0x80, }; enum class Status0: uint8_t { NormalTermination = 0x00, AbnormalTermination = 0x80, InvalidCommand = 0x40, BecameNotReady = 0xc0, SeekEnded = 0x20, EquipmentFault = 0x10, NotReady = 0x08, HeadAddress = 0x04, UnitSelect = 0x03, }; enum class Status1: uint8_t { EndOfCylinder = 0x80, DataError = 0x20, OverRun = 0x10, NoData = 0x04, NotWriteable = 0x02, MissingAddressMark = 0x01, }; enum class Status2: uint8_t { DeletedControlMark = 0x40, DataCRCError = 0x20, WrongCyinder = 0x10, ScanEqualHit = 0x08, ScanNotSatisfied = 0x04, BadCylinder = 0x02, MissingDataAddressMark = 0x01, }; enum class Status3: uint8_t { Fault = 0x80, WriteProtected = 0x40, Ready = 0x20, Track0 = 0x10, TwoSided = 0x08, HeadAddress = 0x04, UnitSelect = 0x03, }; class Status { public: Status() { reset(); } void reset() { main_status_ = 0; set(MainStatus::DataReady, true); status_[0] = status_[1] = status_[2] = 0; } /// @returns The main status register value. uint8_t main() const { return main_status_; } uint8_t operator [](const int index) const { return status_[index]; } // // Flag setters. // void set(const MainStatus flag, const bool value) { set(uint8_t(flag), value, main_status_); } void start_seek(const int drive) { main_status_ |= 1 << drive; } void set(const Status0 flag) { set(uint8_t(flag), true, status_[0]); } void set(const Status1 flag) { set(uint8_t(flag), true, status_[1]); } void set(const Status2 flag) { set(uint8_t(flag), true, status_[2]); } void set_status0(uint8_t value) { status_[0] = value; } // // Flag getters. // bool get(const MainStatus flag) { return main_status_ & uint8_t(flag); } bool get(const Status2 flag) { return status_[2] & uint8_t(flag); } /// Begin execution of whatever @c CommandDecoder currently describes, setting internal /// state appropriately. void begin(const CommandDecoder &command) { set(MainStatus::DataReady, false); set(MainStatus::CommandInProgress, true); if(command.is_access()) { status_[0] = command.drive_head(); } } private: void set(const uint8_t flag, const bool value, uint8_t &target) { if(value) { target |= flag; } else { target &= ~flag; } } uint8_t main_status_; uint8_t status_[3]; }; }