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CLK/Components/8272/i8272.hpp
Thomas Harte 294e09f275 All these 'override's can be 'final's.
At least for the purpose of being communicative. I doubt there's much to gain in terms of compiler output — the DiskImageHolder can avoid some virtual lookups but nothing else leaps out.
2020-01-23 22:57:51 -05:00

136 lines
3.3 KiB
C++

//
// i8272.hpp
// Clock Signal
//
// Created by Thomas Harte on 05/08/2017.
// Copyright 2017 Thomas Harte. All rights reserved.
//
#ifndef i8272_hpp
#define i8272_hpp
#include "../../Storage/Disk/Controller/MFMDiskController.hpp"
#include <cstdint>
#include <memory>
#include <vector>
namespace Intel {
namespace i8272 {
class BusHandler {
public:
virtual void set_dma_data_request(bool drq) {}
virtual void set_interrupt(bool irq) {}
};
class i8272 : public Storage::Disk::MFMController {
public:
i8272(BusHandler &bus_handler, Cycles clock_rate);
void run_for(Cycles);
void set_data_input(uint8_t value);
uint8_t get_data_output();
void write(int address, uint8_t value);
uint8_t read(int address);
void set_dma_acknowledge(bool dack);
void set_terminal_count(bool tc);
ClockingHint::Preference preferred_clocking() final;
protected:
virtual void select_drive(int number) = 0;
private:
// The bus handler, for interrupt and DMA-driven usage.
BusHandler &bus_handler_;
std::unique_ptr<BusHandler> allocated_bus_handler_;
// Status registers.
uint8_t main_status_ = 0;
uint8_t status_[3] = {0, 0, 0};
// A buffer for accumulating the incoming command, and one for accumulating the result.
std::vector<uint8_t> command_;
std::vector<uint8_t> result_stack_;
uint8_t input_ = 0;
bool has_input_ = false;
bool expects_input_ = false;
// Event stream: the 8272-specific events, plus the current event state.
enum class Event8272: int {
CommandByte = (1 << 3),
Timer = (1 << 4),
ResultEmpty = (1 << 5),
NoLongerReady = (1 << 6)
};
void posit_event(int type) final;
int interesting_event_mask_ = static_cast<int>(Event8272::CommandByte);
int resume_point_ = 0;
bool is_access_command_ = false;
// The counter used for ::Timer events.
Cycles::IntType delay_time_ = 0;
// The connected drives.
struct Drive {
uint8_t head_position = 0;
// Seeking: persistent state.
enum Phase {
NotSeeking,
Seeking,
CompletedSeeking
} phase = NotSeeking;
bool did_seek = false;
bool seek_failed = false;
// Seeking: transient state.
Cycles::IntType step_rate_counter = 0;
int steps_taken = 0;
int target_head_position = 0; // either an actual number, or -1 to indicate to step until track zero
// Head state.
Cycles::IntType head_unload_delay[2] = {0, 0};
bool head_is_loaded[2] = {false, false};
} drives_[4];
int drives_seeking_ = 0;
/// @returns @c true if the selected drive, which is number @c drive, can stop seeking.
bool seek_is_satisfied(int drive);
// User-supplied parameters; as per the specify command.
int step_rate_time_ = 1;
int head_unload_time_ = 1;
int head_load_time_ = 1;
bool dma_mode_ = false;
bool is_executing_ = false;
// A count of head unload timers currently running.
int head_timers_running_ = 0;
// Transient storage and counters used while reading the disk.
uint8_t header_[6] = {0, 0, 0, 0, 0, 0};
int distance_into_section_ = 0;
int index_hole_count_ = 0, index_hole_limit_ = 0;
// Keeps track of the drive and head in use during commands.
int active_drive_ = 0;
int active_head_ = 0;
// Internal registers.
uint8_t cylinder_ = 0, head_ = 0, sector_ = 0, size_ = 0;
// Master switch on not performing any work.
bool is_sleeping_ = false;
};
}
}
#endif /* i8272_hpp */