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CLK/Components/8530/z8530.hpp
2024-01-16 23:34:46 -05:00

111 lines
2.5 KiB
C++

//
// z8530.hpp
// Clock Signal
//
// Created by Thomas Harte on 07/06/2019.
// Copyright © 2019 Thomas Harte. All rights reserved.
//
#pragma once
#include <cstdint>
namespace Zilog::SCC {
/*!
Models the Zilog 8530 SCC, a serial adaptor.
*/
class z8530 {
public:
/*
**Interface for emulated machine.**
Notes on addressing below:
There's no inherent ordering of the two 'address' lines,
A/B and C/D, but the methods below assume:
A/B = A0
C/D = A1
*/
/// Performs a read from the SCC; see above for conventions as to 'address'.
std::uint8_t read(int address);
/// Performs a write to the SCC; see above for conventions as to 'address'.
void write(int address, std::uint8_t value);
/// Resets the SCC.
void reset();
/// @returns The current value of the status output: @c true for active; @c false for inactive.
bool get_interrupt_line() const;
struct Delegate {
/*!
Communicates that @c scc now has the interrupt line status @c new_status.
*/
virtual void did_change_interrupt_status(z8530 *scc, bool new_status) = 0;
};
/*!
Sets the delegate for this SCC. If this is a new delegate it is sent
an immediate did_change_interrupt_status message, to get it
up to speed.
*/
void set_delegate(Delegate *delegate) {
if(delegate_ == delegate) return;
delegate_ = delegate;
delegate_->did_change_interrupt_status(this, get_interrupt_line());
}
/*
**Interface for serial port input.**
*/
void set_dcd(int port, bool level);
private:
class Channel {
public:
uint8_t read(bool data, uint8_t pointer);
void write(bool data, uint8_t pointer, uint8_t value);
void set_dcd(bool level);
bool get_interrupt_line() const;
private:
uint8_t data_ = 0xff;
enum class Parity {
Even, Odd, Off
} parity_ = Parity::Off;
enum class StopBits {
Synchronous, OneBit, OneAndAHalfBits, TwoBits
} stop_bits_ = StopBits::Synchronous;
enum class Sync {
Monosync, Bisync, SDLC, External
} sync_mode_ = Sync::Monosync;
int clock_rate_multiplier_ = 1;
uint8_t interrupt_mask_ = 0; // i.e. Write Register 0x1.
uint8_t external_interrupt_mask_ = 0; // i.e. Write Register 0xf.
bool external_status_interrupt_ = false;
uint8_t external_interrupt_status_ = 0;
bool dcd_ = false;
} channels_[2];
uint8_t pointer_ = 0;
uint8_t interrupt_vector_ = 0;
uint8_t master_interrupt_control_ = 0;
bool previous_interrupt_line_ = false;
void update_delegate();
Delegate *delegate_ = nullptr;
};
}