/* * Copyright (c) 2021, Liav A. * * SPDX-License-Identifier: BSD-2-Clause */ #include #include #include #include namespace Kernel { UNMAP_AFTER_INIT RefPtr VMWareMouseDevice::try_to_initialize(const I8042Controller& ps2_controller) { if (!VMWareBackdoor::the()) return {}; if (!VMWareBackdoor::the()->vmmouse_is_absolute()) return {}; auto mouse_device_or_error = DeviceManagement::try_create_device(ps2_controller); // FIXME: Find a way to propagate errors VERIFY(!mouse_device_or_error.is_error()); if (mouse_device_or_error.value()->initialize()) return mouse_device_or_error.release_value(); return {}; } void VMWareMouseDevice::irq_handle_byte_read(u8) { auto backdoor = VMWareBackdoor::the(); VERIFY(backdoor); VERIFY(backdoor->vmmouse_is_absolute()); // We will receive 4 bytes from the I8042 controller that we are going to // ignore. Instead, we will check with VMWareBackdoor to see how many bytes // of mouse event data are waiting for us. For each multiple of 4, we // produce a mouse packet. constexpr u8 max_iterations = 128; u8 current_iteration = 0; while (++current_iteration < max_iterations) { auto number_of_mouse_event_bytes = backdoor->read_mouse_status_queue_size(); if (number_of_mouse_event_bytes == 0) break; VERIFY(number_of_mouse_event_bytes % 4 == 0); auto mouse_packet = backdoor->receive_mouse_packet(); m_entropy_source.add_random_event(mouse_packet); { SpinlockLocker lock(m_queue_lock); m_queue.enqueue(mouse_packet); } } evaluate_block_conditions(); } VMWareMouseDevice::VMWareMouseDevice(const I8042Controller& ps2_controller) : PS2MouseDevice(ps2_controller) { } VMWareMouseDevice::~VMWareMouseDevice() { } }