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CLK/Storage/Disk/DiskController.hpp

147 lines
4.0 KiB
C++

//
// DiskController.hpp
// Clock Signal
//
// Created by Thomas Harte on 14/07/2016.
// Copyright © 2016 Thomas Harte. All rights reserved.
//
#ifndef Storage_Disk_Controller_hpp
#define Storage_Disk_Controller_hpp
#include "Drive.hpp"
#include "DigitalPhaseLockedLoop.hpp"
#include "PCMSegment.hpp"
#include "PCMPatchedTrack.hpp"
#include "../TimedEventLoop.hpp"
#include "../../ClockReceiver/ClockReceiver.hpp"
namespace Storage {
namespace Disk {
/*!
Provides the shell for emulating a disk controller — something that is connected to a disk drive and uses a
phase locked loop ('PLL') to decode a bit stream from the surface of the disk.
Partly abstract; it is expected that subclasses will provide methods to deal with receiving a newly-recognised
bit from the PLL and with crossing the index hole.
TODO: communication of head size and permissible stepping extents, appropriate simulation of gain.
*/
class Controller: public DigitalPhaseLockedLoop::Delegate, public TimedEventLoop {
protected:
/*!
Constructs a @c DiskDrive that will be run at @c clock_rate and runs its PLL at @c clock_rate*clock_rate_multiplier,
spinning inserted disks at @c revolutions_per_minute.
*/
Controller(Cycles clock_rate, int clock_rate_multiplier, int revolutions_per_minute);
/*!
Communicates to the PLL the expected length of a bit as a fraction of a second.
*/
void set_expected_bit_length(Time bit_length);
/*!
Advances the drive by @c number_of_cycles cycles.
*/
void run_for(const Cycles cycles);
using TimedEventLoop::run_for;
/*!
Sets the current drive.
*/
void set_drive(std::shared_ptr<Drive> drive);
/*!
Announces that the track the drive sees is about to change for a reason unknownt to the controller.
*/
void invalidate_track();
/*!
Enables or disables the disk motor.
*/
void set_motor_on(bool motor_on);
/*!
@returns @c true if the motor is on; @c false otherwise.
*/
bool get_motor_on();
/*!
Begins write mode, initiating a PCM sampled region of data. Bits should be written via
@c write_bit. They will be written with the length set via @c set_expected_bit_length.
It is acceptable to supply a backlog of bits. Flux transition events will not be reported
while writing.
*/
void begin_writing();
/*!
Writes the bit @c value as the next in the PCM stream initiated by @c begin_writing.
*/
void write_bit(bool value);
/*!
Ends write mode, switching back to read mode. The drive will stop overwriting events.
*/
void end_writing();
/*!
Should be implemented by subclasses; communicates each bit that the PLL recognises, also specifying
the amount of time since the index hole was last seen.
*/
virtual void process_input_bit(int value, unsigned int cycles_since_index_hole) = 0;
/*!
Should be implemented by subclasses; communicates that the index hole has been reached.
*/
virtual void process_index_hole() = 0;
/*!
Should be implemented by subclasses if they implement writing; communicates that
all bits supplied to write_bit have now been written.
*/
virtual void process_write_completed();
// for TimedEventLoop
virtual void process_next_event();
// to satisfy DigitalPhaseLockedLoop::Delegate
void digital_phase_locked_loop_output_bit(int value);
bool get_is_track_zero();
void step(int direction);
virtual bool get_drive_is_ready();
bool get_drive_is_read_only();
private:
Time bit_length_;
int clock_rate_;
int clock_rate_multiplier_;
Time rotational_multiplier_;
std::shared_ptr<DigitalPhaseLockedLoop> pll_;
std::shared_ptr<Drive> drive_;
std::shared_ptr<Track> track_;
int cycles_since_index_hole_;
inline void get_next_event(const Time &duration_already_passed);
Track::Event current_event_;
bool motor_is_on_;
bool is_reading_;
std::shared_ptr<PCMPatchedTrack> patched_track_;
PCMSegment write_segment_;
Time write_start_time_;
Time cycles_until_bits_written_;
Time cycles_per_bit_;
void setup_track();
Time get_time_into_track();
};
}
}
#endif /* DiskDrive_hpp */