/* * Copyright (c) 2020, Liav A. * * SPDX-License-Identifier: BSD-2-Clause */ #include #include #include #include #include #include namespace Kernel { StorageDevice::StorageDevice(const StorageController& controller, size_t sector_size, u64 max_addressable_block) : BlockDevice(StorageManagement::major_number(), StorageManagement::minor_number(), sector_size) , m_storage_controller(controller) , m_max_addressable_block(max_addressable_block) { } StorageDevice::StorageDevice(const StorageController& controller, int major, int minor, size_t sector_size, u64 max_addressable_block) : BlockDevice(major, minor, sector_size) , m_storage_controller(controller) , m_max_addressable_block(max_addressable_block) { } const char* StorageDevice::class_name() const { return "StorageDevice"; } NonnullRefPtr StorageDevice::controller() const { return m_storage_controller; } KResultOr StorageDevice::read(FileDescription&, u64 offset, UserOrKernelBuffer& outbuf, size_t len) { unsigned index = offset / block_size(); u16 whole_blocks = len / block_size(); size_t remaining = len % block_size(); unsigned blocks_per_page = PAGE_SIZE / block_size(); // PATAChannel will chuck a wobbly if we try to read more than PAGE_SIZE // at a time, because it uses a single page for its DMA buffer. if (whole_blocks >= blocks_per_page) { whole_blocks = blocks_per_page; remaining = 0; } dbgln_if(STORAGE_DEVICE_DEBUG, "StorageDevice::read() index={}, whole_blocks={}, remaining={}", index, whole_blocks, remaining); if (whole_blocks > 0) { auto read_request = make_request(AsyncBlockDeviceRequest::Read, index, whole_blocks, outbuf, whole_blocks * block_size()); auto result = read_request->wait(); if (result.wait_result().was_interrupted()) return EINTR; switch (result.request_result()) { case AsyncDeviceRequest::Failure: case AsyncDeviceRequest::Cancelled: return EIO; case AsyncDeviceRequest::MemoryFault: return EFAULT; default: break; } } off_t pos = whole_blocks * block_size(); if (remaining > 0) { auto data = ByteBuffer::create_uninitialized(block_size()); auto data_buffer = UserOrKernelBuffer::for_kernel_buffer(data.data()); auto read_request = make_request(AsyncBlockDeviceRequest::Read, index + whole_blocks, 1, data_buffer, block_size()); auto result = read_request->wait(); if (result.wait_result().was_interrupted()) return EINTR; switch (result.request_result()) { case AsyncDeviceRequest::Failure: return pos; case AsyncDeviceRequest::Cancelled: return EIO; case AsyncDeviceRequest::MemoryFault: // This should never happen, we're writing to a kernel buffer! VERIFY_NOT_REACHED(); default: break; } if (!outbuf.write(data.data(), pos, remaining)) return EFAULT; } return pos + remaining; } bool StorageDevice::can_read(const FileDescription&, size_t offset) const { return offset < (max_addressable_block() * block_size()); } KResultOr StorageDevice::write(FileDescription&, u64 offset, const UserOrKernelBuffer& inbuf, size_t len) { unsigned index = offset / block_size(); u16 whole_blocks = len / block_size(); size_t remaining = len % block_size(); unsigned blocks_per_page = PAGE_SIZE / block_size(); // PATAChannel will chuck a wobbly if we try to write more than PAGE_SIZE // at a time, because it uses a single page for its DMA buffer. if (whole_blocks >= blocks_per_page) { whole_blocks = blocks_per_page; remaining = 0; } dbgln_if(STORAGE_DEVICE_DEBUG, "StorageDevice::write() index={}, whole_blocks={}, remaining={}", index, whole_blocks, remaining); if (whole_blocks > 0) { auto write_request = make_request(AsyncBlockDeviceRequest::Write, index, whole_blocks, inbuf, whole_blocks * block_size()); auto result = write_request->wait(); if (result.wait_result().was_interrupted()) return EINTR; switch (result.request_result()) { case AsyncDeviceRequest::Failure: case AsyncDeviceRequest::Cancelled: return EIO; case AsyncDeviceRequest::MemoryFault: return EFAULT; default: break; } } off_t pos = whole_blocks * block_size(); // since we can only write in block_size() increments, if we want to do a // partial write, we have to read the block's content first, modify it, // then write the whole block back to the disk. if (remaining > 0) { auto data = ByteBuffer::create_zeroed(block_size()); auto data_buffer = UserOrKernelBuffer::for_kernel_buffer(data.data()); { auto read_request = make_request(AsyncBlockDeviceRequest::Read, index + whole_blocks, 1, data_buffer, block_size()); auto result = read_request->wait(); if (result.wait_result().was_interrupted()) return EINTR; switch (result.request_result()) { case AsyncDeviceRequest::Failure: return pos; case AsyncDeviceRequest::Cancelled: return EIO; case AsyncDeviceRequest::MemoryFault: // This should never happen, we're writing to a kernel buffer! VERIFY_NOT_REACHED(); default: break; } } if (!inbuf.read(data.data(), pos, remaining)) return EFAULT; { auto write_request = make_request(AsyncBlockDeviceRequest::Write, index + whole_blocks, 1, data_buffer, block_size()); auto result = write_request->wait(); if (result.wait_result().was_interrupted()) return EINTR; switch (result.request_result()) { case AsyncDeviceRequest::Failure: return pos; case AsyncDeviceRequest::Cancelled: return EIO; case AsyncDeviceRequest::MemoryFault: // This should never happen, we're writing to a kernel buffer! VERIFY_NOT_REACHED(); default: break; } } } return pos + remaining; } bool StorageDevice::can_write(const FileDescription&, size_t offset) const { return offset < (max_addressable_block() * block_size()); } }