/* * Copyright (c) 2018-2020, Andreas Kling * * SPDX-License-Identifier: BSD-2-Clause */ #include #include namespace Kernel { AsyncBlockDeviceRequest::AsyncBlockDeviceRequest(Device& block_device, RequestType request_type, u64 block_index, u32 block_count, UserOrKernelBuffer const& buffer, size_t buffer_size) : AsyncDeviceRequest(block_device) , m_block_device(static_cast(block_device)) , m_request_type(request_type) , m_block_index(block_index) , m_block_count(block_count) , m_buffer(buffer) , m_buffer_size(buffer_size) { } void AsyncBlockDeviceRequest::start() { m_block_device.start_request(*this); } BlockDevice::~BlockDevice() = default; void BlockDevice::after_inserting_add_symlink_to_device_identifier_directory() { VERIFY(m_symlink_sysfs_component); SysFSBlockDevicesDirectory::the().devices_list({}).with([&](auto& list) -> void { list.append(*m_symlink_sysfs_component); }); } void BlockDevice::before_will_be_destroyed_remove_symlink_from_device_identifier_directory() { VERIFY(m_symlink_sysfs_component); SysFSBlockDevicesDirectory::the().devices_list({}).with([&](auto& list) -> void { list.remove(*m_symlink_sysfs_component); }); } // FIXME: This method will be eventually removed after all nodes in /sys/dev/block/ are symlinks void BlockDevice::after_inserting_add_to_device_identifier_directory() { VERIFY(m_sysfs_component); SysFSBlockDevicesDirectory::the().devices_list({}).with([&](auto& list) -> void { list.append(*m_sysfs_component); }); } // FIXME: This method will be eventually removed after all nodes in /sys/dev/block/ are symlinks void BlockDevice::before_will_be_destroyed_remove_from_device_identifier_directory() { VERIFY(m_sysfs_component); SysFSBlockDevicesDirectory::the().devices_list({}).with([&](auto& list) -> void { list.remove(*m_sysfs_component); }); } bool BlockDevice::read_block(u64 index, UserOrKernelBuffer& buffer) { auto read_request_or_error = try_make_request(AsyncBlockDeviceRequest::Read, index, 1, buffer, m_block_size); if (read_request_or_error.is_error()) { dbgln("BlockDevice::read_block({}): try_make_request failed", index); return false; } auto read_request = read_request_or_error.release_value(); switch (read_request->wait().request_result()) { case AsyncDeviceRequest::Success: return true; case AsyncDeviceRequest::Failure: dbgln("BlockDevice::read_block({}) IO error", index); break; case AsyncDeviceRequest::MemoryFault: dbgln("BlockDevice::read_block({}) EFAULT", index); break; case AsyncDeviceRequest::Cancelled: dbgln("BlockDevice::read_block({}) cancelled", index); break; default: VERIFY_NOT_REACHED(); } return false; } bool BlockDevice::write_block(u64 index, UserOrKernelBuffer const& buffer) { auto write_request_or_error = try_make_request(AsyncBlockDeviceRequest::Write, index, 1, buffer, m_block_size); if (write_request_or_error.is_error()) { dbgln("BlockDevice::write_block({}): try_make_request failed", index); return false; } auto write_request = write_request_or_error.release_value(); switch (write_request->wait().request_result()) { case AsyncDeviceRequest::Success: return true; case AsyncDeviceRequest::Failure: dbgln("BlockDevice::write_block({}) IO error", index); break; case AsyncDeviceRequest::MemoryFault: dbgln("BlockDevice::write_block({}) EFAULT", index); break; case AsyncDeviceRequest::Cancelled: dbgln("BlockDevice::write_block({}) cancelled", index); break; default: VERIFY_NOT_REACHED(); } return false; } }