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181 lines
4.7 KiB
C++
181 lines
4.7 KiB
C++
//
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// ReactiveDevice.cpp
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// Clock Signal
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//
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// Created by Thomas Harte on 12/02/2021.
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// Copyright © 2021 Thomas Harte. All rights reserved.
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//
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#include "ReactiveDevice.hpp"
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#define LOG_PREFIX "[ADB device] "
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#include "../../../Outputs/Log.hpp"
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using namespace Apple::ADB;
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ReactiveDevice::ReactiveDevice(Apple::ADB::Bus &bus, uint8_t adb_device_id) :
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bus_(bus),
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device_id_(bus.add_device(this)),
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default_adb_device_id_(adb_device_id) {
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reset();
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}
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void ReactiveDevice::post_response(const std::vector<uint8_t> &&response) {
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response_ = std::move(response);
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microseconds_at_bit_ = 0.0;
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bit_offset_ = -2;
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}
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void ReactiveDevice::advance_state(double microseconds, bool current_level) {
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// First test: is a service request desired?
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if(phase_ == Phase::ServiceRequestPending) {
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microseconds_at_bit_ += microseconds;
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if(microseconds_at_bit_ < 240.0) {
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bus_.set_device_output(device_id_, false);
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} else {
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bus_.set_device_output(device_id_, true);
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phase_ = Phase::AwaitingAttention;
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}
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return;
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}
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// Do nothing if not in the process of posting a response.
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if(response_.empty()) return;
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/*
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Total process below:
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(1) assume that the data was enqueued before the stop bit had
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concluded; wait for the end of that;
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(2) wait for the stop-to-start time period;
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(3) output a start bit of '1';
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(4) output all enqueued bytes, MSB to LSB;
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(5) output a stop bit of '0'; and
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(6) return this device's output level to high and top.
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*/
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// Wait for the bus to be clear if transmission has not yet begun.
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if(!current_level && bit_offset_ == -2) return;
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// Advance time.
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microseconds_at_bit_ += microseconds;
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// If this is the start of the packet, wait an appropriate stop-to-start time.
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if(bit_offset_ == -2) {
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if(microseconds_at_bit_ < 150.0) {
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return;
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}
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microseconds_at_bit_ -= 150.0;
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++bit_offset_;
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}
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// Advance the implied number of bits.
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const int step = int(microseconds_at_bit_ / 100.0);
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bit_offset_ += step;
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microseconds_at_bit_ -= double(step * 100.0);
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// Check for end-of-transmission.
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const int response_bit_length = int(response_.size() * 8);
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if(bit_offset_ >= 1 + response_bit_length) {
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bus_.set_device_output(device_id_, true);
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response_.clear();
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return;
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}
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// Otherwise pick the bit to output: it'll either be the start bit of 1,
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// from the provided data, or a stop bit of 0.
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int bit = 0;
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if(bit_offset_ < 0) {
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bit = 1;
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} else if(bit_offset_ < response_bit_length) {
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const int byte = bit_offset_ >> 3;
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const int packet = int(response_[size_t(byte)]);
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bit = (packet >> (7 - (bit_offset_ & 7))) & 1;
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}
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// Convert that into a level.
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constexpr double low_periods[] = {66, 33};
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bus_.set_device_output(device_id_, microseconds_at_bit_ > low_periods[bit]);
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}
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void ReactiveDevice::adb_bus_did_observe_event(Bus::Event event, uint8_t value) {
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if(phase_ == Phase::AwaitingAttention) {
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if(event != Bus::Event::Attention) return;
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phase_ = Phase::AwaitingCommand;
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return;
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}
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if(event != Bus::Event::Byte) return;
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if(phase_ == Phase::AwaitingContent) {
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content_.push_back(value);
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if(content_.size() == expected_content_size_) {
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phase_ = Phase::AwaitingAttention;
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if(command_.reg == 3) {
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register3_ = uint16_t((content_[0] << 8) | content_[1]);
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} else {
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did_receive_data(command_, content_);
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}
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content_.clear();
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}
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}
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if(phase_ == Phase::AwaitingCommand) {
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phase_ = Phase::AwaitingAttention;
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command_ = decode_command(value);
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// LOG(command_);
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// If this command doesn't apply here, but a service request is requested,
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// post a service request.
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if(command_.device != Command::AllDevices && command_.device != ((register3_ >> 8) & 0xf)) {
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if(service_desired_) {
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service_desired_ = false;
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stop_has_begin_ = false;
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phase_ = Phase::ServiceRequestPending;
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microseconds_at_bit_ = 0.0;
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}
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return;
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}
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// Handle reset and register 3 here automatically; pass everything else along.
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switch(command_.type) {
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case Command::Type::Reset:
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reset();
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[[fallthrough]];
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default:
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perform_command(command_);
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break;
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case Command::Type::Listen:
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case Command::Type::Talk:
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if(command_.reg == 3) {
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if(command_.type == Command::Type::Talk) {
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post_response({uint8_t(register3_ >> 8), uint8_t(register3_ & 0xff)});
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} else {
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receive_bytes(2);
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}
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} else {
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service_desired_ = false;
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perform_command(command_);
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}
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break;
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}
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}
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}
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void ReactiveDevice::receive_bytes(size_t count) {
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content_.clear();
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expected_content_size_ = count;
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phase_ = Phase::AwaitingContent;
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}
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void ReactiveDevice::reset() {
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register3_ = uint16_t(0x6001 | (default_adb_device_id_ << 8));
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}
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void ReactiveDevice::post_service_request() {
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service_desired_ = true;
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}
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