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CLK/Storage/MassStorage/SCSI/DirectAccessDevice.cpp
2024-01-19 14:24:40 -05:00

98 lines
3.2 KiB
C++

//
// DirectAccessDevice.cpp
// Clock Signal
//
// Created by Thomas Harte on 22/08/2019.
// Copyright © 2019 Thomas Harte. All rights reserved.
//
#include "DirectAccessDevice.hpp"
#include "../../../Outputs/Log.hpp"
using namespace SCSI;
namespace {
Log::Logger<Log::Source::DirectAccessDevice> logger;
}
void DirectAccessDevice::set_storage(const std::shared_ptr<Storage::MassStorage::MassStorageDevice> &device) {
device_ = device;
}
bool DirectAccessDevice::read(const Target::CommandState &state, Target::Responder &responder) {
if(!device_) return false;
const auto specs = state.read_write_specs();
logger.info().append("Read: %d from %d", specs.number_of_blocks, specs.address);
std::vector<uint8_t> output = device_->get_block(specs.address);
for(uint32_t offset = 1; offset < specs.number_of_blocks; ++offset) {
const auto next_block = device_->get_block(specs.address + offset);
std::copy(next_block.begin(), next_block.end(), std::back_inserter(output));
}
responder.send_data(std::move(output), [] (const Target::CommandState &, Target::Responder &responder) {
responder.terminate_command(Target::Responder::Status::Good);
});
return true;
}
bool DirectAccessDevice::write(const Target::CommandState &state, Target::Responder &responder) {
if(!device_) return false;
const auto specs = state.read_write_specs();
logger.info().append("Write: %d to %d", specs.number_of_blocks, specs.address);
responder.receive_data(device_->get_block_size() * specs.number_of_blocks, [this, specs] (const Target::CommandState &state, Target::Responder &responder) {
const auto received_data = state.received_data();
const auto block_size = ssize_t(device_->get_block_size());
for(uint32_t offset = 0; offset < specs.number_of_blocks; ++offset) {
// TODO: clean up this gross inefficiency when std::span is standard.
std::vector<uint8_t> sub_vector(received_data.begin() + ssize_t(offset)*block_size, received_data.begin() + ssize_t(offset+1)*block_size);
this->device_->set_block(specs.address + offset, sub_vector);
}
responder.terminate_command(Target::Responder::Status::Good);
});
return true;
}
bool DirectAccessDevice::read_capacity(const Target::CommandState &, Target::Responder &responder) {
if(!device_) return false;
const auto final_block = device_->get_number_of_blocks() - 1;
const auto block_size = device_->get_block_size();
std::vector<uint8_t> data = {
uint8_t(final_block >> 24),
uint8_t(final_block >> 16),
uint8_t(final_block >> 8),
uint8_t(final_block >> 0),
uint8_t(block_size >> 24),
uint8_t(block_size >> 16),
uint8_t(block_size >> 8),
uint8_t(block_size >> 0),
};
responder.send_data(std::move(data), [] (const Target::CommandState &, Target::Responder &responder) {
responder.terminate_command(Target::Responder::Status::Good);
});
return true;
}
Target::Executor::Inquiry DirectAccessDevice::inquiry_values() {
return Inquiry("Apple", "ProFile", "1"); // All just guesses.
}
bool DirectAccessDevice::format_unit(const Target::CommandState &, Target::Responder &responder) {
if(!device_) return false;
// Formatting: immediate.
responder.terminate_command(Target::Responder::Status::Good);
return true;
}