1
0
mirror of https://github.com/TomHarte/CLK.git synced 2024-11-11 14:05:21 +00:00
CLK/Machines/Apple/ADB/Bus.cpp

114 lines
3.3 KiB
C++
Raw Blame History

This file contains ambiguous Unicode characters

This file contains Unicode characters that might be confused with other characters. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

//
// Bus.cpp
// Clock Signal
//
// Created by Thomas Harte on 10/02/2021.
// Copyright © 2021 Thomas Harte. All rights reserved.
//
#include "Bus.hpp"
using namespace Apple::ADB;
Bus::Bus(HalfCycles clock_speed) : half_cycles_to_microseconds_(1'000'000.0 / clock_speed.as<double>()) {}
void Bus::run_for(HalfCycles duration) {
time_in_state_ += duration;
time_since_get_state_ += duration;
}
void Bus::set_device_output(size_t device_id, bool output) {
// Modify the all-devices bus state.
bus_state_[device_id] = output;
// React to signal edges only; don't use get_state here to avoid
// endless recursion should any reactive devices set new output
// during the various calls made below.
const bool data_level = bus_state_.all();
if(data_level_ != data_level) {
data_level_ = data_level;
if(data_level) {
// This was a transition to high; classify what just happened according to
// the duration of the low period.
const double low_microseconds = time_in_state_.as<double>() * half_cycles_to_microseconds_;
// Low periods:
// (partly as adapted from the AN591 data sheet; otherwise from the IIgs reference manual)
//
// > 1040 µs reset
// 5601040 µs attention
// < 50 µs 1
// 5072 µs 0
// 300 µs service request
if(low_microseconds > 1040.0) {
for(auto device: devices_) {
device->adb_bus_did_observe_event(Event::Reset);
}
} else if(low_microseconds >= 560.0) {
for(auto device: devices_) {
device->adb_bus_did_observe_event(Event::Attention);
}
shift_register_ = 1;
start_target_ = 9; // Consume the stop bit before posting the next byte.
phase_ = Phase::AttentionCapture;
} else if(low_microseconds < 50.0) {
shift(1);
} else if(low_microseconds < 72.0) {
shift(0);
} else if(low_microseconds >= 291.0 && low_microseconds <= 309.0) {
for(auto device: devices_) {
device->adb_bus_did_observe_event(Event::ServiceRequest);
}
} else {
for(auto device: devices_) {
device->adb_bus_did_observe_event(Event::Unrecognised);
}
}
}
time_in_state_ = HalfCycles(0);
}
}
void Bus::shift(unsigned int value) {
shift_register_ = (shift_register_ << 1) | value;
// Trigger a byte whenever either:
// * a 'start bit' hits bit 8; or
// * if this was a command byte, wait for the stop bit (i.e. the start bit hits 9).
if(shift_register_ & (1 << start_target_)) {
for(auto device: devices_) {
device->adb_bus_did_observe_event(Event::Byte, uint8_t(shift_register_ >> (start_target_ - 8)));
}
// Expect a real start bit only if moving from attention capture to packet
// capture. Otherwise adopt an implied start bit.
shift_register_ = phase_ == Phase::PacketCapture;
start_target_ = 8;
phase_ = Phase::PacketCapture;
}
}
bool Bus::get_state() const {
const auto microseconds = time_since_get_state_.as<double>() * half_cycles_to_microseconds_;
time_since_get_state_ = HalfCycles(0);
const bool current_level = bus_state_.all();
for(auto device: devices_) {
device->advance_state(microseconds, current_level);
}
return bus_state_.all();
}
size_t Bus::add_device() {
const size_t id = next_device_id_;
++next_device_id_;
return id;
}
size_t Bus::add_device(Device *device) {
devices_.push_back(device);
return add_device();
}