/* * Copyright (c) 2021, Liav A. * * SPDX-License-Identifier: BSD-2-Clause */ #include #include #include #include #include namespace Kernel { static Singleton s_the; UNMAP_AFTER_INIT DeviceManagement::DeviceManagement() { } UNMAP_AFTER_INIT void DeviceManagement::initialize() { s_the.ensure_instance(); } UNMAP_AFTER_INIT void DeviceManagement::attach_audio_device(CharacterDevice const& device) { m_audio_devices.append(device); } UNMAP_AFTER_INIT void DeviceManagement::attach_console_device(ConsoleDevice const& device) { m_console_device = device; } UNMAP_AFTER_INIT void DeviceManagement::attach_null_device(NullDevice const& device) { m_null_device = device; } UNMAP_AFTER_INIT void DeviceManagement::attach_device_control_device(DeviceControlDevice const& device) { m_device_control_device = device; } DeviceManagement& DeviceManagement::the() { return *s_the; } Device* DeviceManagement::get_device(MajorNumber major, MinorNumber minor) { return m_devices.with_exclusive([&](auto& map) -> Device* { auto it = map.find(encoded_device(major.value(), minor.value())); if (it == map.end()) return nullptr; return it->value; }); } Optional DeviceManagement::dequeue_top_device_event(Badge) { SpinlockLocker locker(m_event_queue_lock); if (m_event_queue.is_empty()) return {}; return m_event_queue.dequeue(); } void DeviceManagement::before_device_removal(Badge, Device& device) { u64 device_id = encoded_device(device.major(), device.minor()); m_devices.with_exclusive([&](auto& map) -> void { VERIFY(map.contains(device_id)); map.remove(encoded_device(device.major(), device.minor())); }); { DeviceEvent event { DeviceEvent::State::Removed, device.is_block_device(), device.major().value(), device.minor().value() }; SpinlockLocker locker(m_event_queue_lock); m_event_queue.enqueue(event); } if (m_device_control_device) m_device_control_device->evaluate_block_conditions(); } void DeviceManagement::after_inserting_device(Badge, Device& device) { u64 device_id = encoded_device(device.major(), device.minor()); m_devices.with_exclusive([&](auto& map) -> void { if (map.contains(device_id)) { dbgln("Already registered {},{}: {}", device.major(), device.minor(), device.class_name()); VERIFY_NOT_REACHED(); } auto result = map.set(device_id, &device); if (result != AK::HashSetResult::InsertedNewEntry) { dbgln("Failed to register {},{}: {}", device.major(), device.minor(), device.class_name()); VERIFY_NOT_REACHED(); } }); { DeviceEvent event { DeviceEvent::State::Inserted, device.is_block_device(), device.major().value(), device.minor().value() }; SpinlockLocker locker(m_event_queue_lock); m_event_queue.enqueue(event); } if (m_device_control_device) m_device_control_device->evaluate_block_conditions(); } void DeviceManagement::for_each(Function callback) { m_devices.with_exclusive([&](auto& map) -> void { for (auto& entry : map) callback(*entry.value); }); } NullDevice& DeviceManagement::null_device() { return *m_null_device; } NullDevice const& DeviceManagement::null_device() const { return *m_null_device; } ConsoleDevice const& DeviceManagement::console_device() const { return *m_console_device; } ConsoleDevice& DeviceManagement::console_device() { return *m_console_device; } }