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160 lines
3.8 KiB
C++
160 lines
3.8 KiB
C++
//
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// DiskController.cpp
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// Clock Signal
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//
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// Created by Thomas Harte on 14/07/2016.
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// Copyright © 2016 Thomas Harte. All rights reserved.
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//
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#include "DiskController.hpp"
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using namespace Storage::Disk;
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Controller::Controller(unsigned int clock_rate, unsigned int clock_rate_multiplier, unsigned int revolutions_per_minute) :
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clock_rate_(clock_rate * clock_rate_multiplier),
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clock_rate_multiplier_(clock_rate_multiplier),
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TimedEventLoop(clock_rate * clock_rate_multiplier)
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{
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rotational_multiplier_.length = 60;
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rotational_multiplier_.clock_rate = revolutions_per_minute;
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rotational_multiplier_.simplify();
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// seed this class with a PLL, any PLL, so that it's safe to assume non-nullptr later
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Time one;
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set_expected_bit_length(one);
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}
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void Controller::setup_track()
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{
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track_ = drive_->get_track();
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Time offset;
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if(track_ && time_into_track_.length > 0)
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{
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Time time_found = track_->seek_to(time_into_track_).simplify();
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offset = (time_into_track_ - time_found).simplify();
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time_into_track_ = time_found;
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}
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else
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{
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offset = time_into_track_;
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time_into_track_.set_zero();
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}
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reset_timer_to_offset(offset * rotational_multiplier_);
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get_next_event();
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}
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void Controller::run_for_cycles(int number_of_cycles)
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{
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if(drive_ && drive_->has_disk() && motor_is_on_)
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{
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if(!track_) setup_track();
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number_of_cycles *= clock_rate_multiplier_;
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while(number_of_cycles)
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{
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int cycles_until_next_event = (int)get_cycles_until_next_event();
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int cycles_to_run_for = std::min(cycles_until_next_event, number_of_cycles);
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cycles_since_index_hole_ += (unsigned int)cycles_to_run_for;
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number_of_cycles -= cycles_to_run_for;
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pll_->run_for_cycles(cycles_to_run_for);
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TimedEventLoop::run_for_cycles(cycles_to_run_for);
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}
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}
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}
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#pragma mark - Track timed event loop
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void Controller::get_next_event()
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{
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if(track_)
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current_event_ = track_->get_next_event();
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else
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{
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current_event_.length.length = 1;
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current_event_.length.clock_rate = 1;
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current_event_.type = Track::Event::IndexHole;
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}
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// divide interval, which is in terms of a rotation of the disk, by rotation speed, and
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// convert it into revolutions per second
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set_next_event_time_interval(current_event_.length * rotational_multiplier_);
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}
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void Controller::process_next_event()
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{
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switch(current_event_.type)
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{
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case Track::Event::FluxTransition:
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pll_->add_pulse();
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time_into_track_ += current_event_.length;
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break;
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case Track::Event::IndexHole:
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cycles_since_index_hole_ = 0;
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time_into_track_.set_zero();
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process_index_hole();
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break;
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}
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get_next_event();
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}
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#pragma mark - PLL control and delegate
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void Controller::set_expected_bit_length(Time bit_length)
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{
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bit_length_ = bit_length;
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// this conversion doesn't need to be exact because there's a lot of variation to be taken
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// account of in rotation speed, air turbulence, etc, so a direct conversion will do
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int clocks_per_bit = (int)((bit_length.length * clock_rate_) / bit_length.clock_rate);
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pll_.reset(new DigitalPhaseLockedLoop(clocks_per_bit, clocks_per_bit / 5, 3));
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pll_->set_delegate(this);
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}
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void Controller::digital_phase_locked_loop_output_bit(int value)
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{
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process_input_bit(value, cycles_since_index_hole_);
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}
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#pragma mark - Drive actions
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bool Controller::get_is_track_zero()
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{
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if(!drive_) return false;
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return drive_->get_is_track_zero();
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}
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bool Controller::get_drive_is_ready()
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{
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if(!drive_) return false;
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return drive_->has_disk();
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}
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void Controller::step(int direction)
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{
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if(drive_) drive_->step(direction);
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invalidate_track();
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}
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void Controller::set_motor_on(bool motor_on)
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{
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motor_is_on_ = motor_on;
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}
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bool Controller::get_motor_on()
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{
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return motor_is_on_;
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}
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void Controller::set_drive(std::shared_ptr<Drive> drive)
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{
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drive_ = drive;
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invalidate_track();
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}
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void Controller::invalidate_track()
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{
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track_ = nullptr;
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}
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