#include "PS2MouseDevice.h" #include "IO.h" #define IRQ_MOUSE 12 #define I8042_BUFFER 0x60 #define I8042_STATUS 0x64 #define I8042_ACK 0xFA #define I8042_BUFFER_FULL 0x01 #define I8042_WHICH_BUFFER 0x20 #define I8042_MOUSE_BUFFER 0x20 #define I8042_KEYBOARD_BUFFER 0x00 #define PS2MOUSE_SET_RESOLUTION 0xE8 #define PS2MOUSE_STATUS_REQUEST 0xE9 #define PS2MOUSE_REQUEST_SINGLE_PACKET 0xEB #define PS2MOUSE_GET_DEVICE_ID 0xF2 #define PS2MOUSE_SET_SAMPLE_RATE 0xF3 #define PS2MOUSE_ENABLE_PACKET_STREAMING 0xF4 #define PS2MOUSE_DISABLE_PACKET_STREAMING 0xF5 #define PS2MOUSE_SET_DEFAULTS 0xF6 #define PS2MOUSE_RESEND 0xFE #define PS2MOUSE_RESET 0xFF #define PS2MOUSE_INTELLIMOUSE_ID 0x03 //#define PS2MOUSE_DEBUG static PS2MouseDevice* s_the; PS2MouseDevice::PS2MouseDevice() : IRQHandler(IRQ_MOUSE) , CharacterDevice(10, 1) { s_the = this; initialize(); } PS2MouseDevice::~PS2MouseDevice() { } PS2MouseDevice& PS2MouseDevice::the() { return *s_the; } void PS2MouseDevice::handle_irq() { for (;;) { u8 status = IO::in8(I8042_STATUS); if (!(((status & I8042_WHICH_BUFFER) == I8042_MOUSE_BUFFER) && (status & I8042_BUFFER_FULL))) return; u8 data = IO::in8(I8042_BUFFER); m_data[m_data_state] = data; auto commit_packet = [&] { m_data_state = 0; #ifdef PS2MOUSE_DEBUG dbgprintf("PS2Mouse: %d, %d %s %s (buffered: %u)\n", m_data[1], m_data[2], (m_data[0] & 1) ? "Left" : "", (m_data[0] & 2) ? "Right" : "", m_queue.size()); #endif parse_data_packet(); }; switch (m_data_state) { case 0: if (!(data & 0x08)) { dbgprintf("PS2Mouse: Stream out of sync.\n"); break; } ++m_data_state; break; case 1: ++m_data_state; break; case 2: if (m_has_wheel) { ++m_data_state; break; } commit_packet(); break; case 3: ASSERT(m_has_wheel); commit_packet(); break; } } } void PS2MouseDevice::parse_data_packet() { int x = m_data[1]; int y = m_data[2]; int z = 0; if (m_has_wheel) z = (char)m_data[3]; bool x_overflow = m_data[0] & 0x40; bool y_overflow = m_data[0] & 0x80; bool x_sign = m_data[0] & 0x10; bool y_sign = m_data[0] & 0x20; if (x && x_sign) x -= 0x100; if (y && y_sign) y -= 0x100; if (x_overflow || y_overflow) { x = 0; y = 0; } MousePacket packet; packet.dx = x; packet.dy = y; packet.dz = z; packet.buttons = m_data[0] & 0x07; m_queue.enqueue(packet); } void PS2MouseDevice::wait_then_write(u8 port, u8 data) { prepare_for_output(); IO::out8(port, data); } u8 PS2MouseDevice::wait_then_read(u8 port) { prepare_for_input(); return IO::in8(port); } void PS2MouseDevice::initialize() { // Enable PS aux port wait_then_write(I8042_STATUS, 0xa8); check_device_presence(); if (m_device_present) initialize_device(); } void PS2MouseDevice::check_device_presence() { mouse_write(PS2MOUSE_REQUEST_SINGLE_PACKET); u8 maybe_ack = mouse_read(); if (maybe_ack == I8042_ACK) { m_device_present = true; kprintf("PS2MouseDevice: Device detected\n"); // the mouse will send a packet of data, since that's what we asked // for. we don't care about the content. mouse_read(); mouse_read(); mouse_read(); } else { m_device_present = false; kprintf("PS2MouseDevice: Device not detected\n"); } } void PS2MouseDevice::initialize_device() { if (!m_device_present) return; // Enable interrupts wait_then_write(I8042_STATUS, 0x20); // Enable the PS/2 mouse IRQ (12). // NOTE: The keyboard uses IRQ 1 (and is enabled by bit 0 in this register). u8 status = wait_then_read(I8042_BUFFER) | 2; wait_then_write(I8042_STATUS, 0x60); wait_then_write(I8042_BUFFER, status); // Set default settings. mouse_write(PS2MOUSE_SET_DEFAULTS); expect_ack(); // Enable. mouse_write(PS2MOUSE_ENABLE_PACKET_STREAMING); expect_ack(); mouse_write(PS2MOUSE_GET_DEVICE_ID); expect_ack(); u8 device_id = mouse_read(); if (device_id != PS2MOUSE_INTELLIMOUSE_ID) { // Send magical wheel initiation sequence. mouse_write(PS2MOUSE_SET_SAMPLE_RATE); expect_ack(); mouse_write(200); expect_ack(); mouse_write(PS2MOUSE_SET_SAMPLE_RATE); expect_ack(); mouse_write(100); expect_ack(); mouse_write(PS2MOUSE_SET_SAMPLE_RATE); expect_ack(); mouse_write(80); expect_ack(); mouse_write(PS2MOUSE_GET_DEVICE_ID); expect_ack(); device_id = mouse_read(); } if (device_id == PS2MOUSE_INTELLIMOUSE_ID) { m_has_wheel = true; kprintf("PS2MouseDevice: Mouse wheel enabled!\n"); } else { kprintf("PS2MouseDevice: No mouse wheel detected!\n"); } enable_irq(); } void PS2MouseDevice::expect_ack() { u8 data = mouse_read(); ASSERT(data == I8042_ACK); } void PS2MouseDevice::prepare_for_input() { for (;;) { if (IO::in8(I8042_STATUS) & 1) return; } } void PS2MouseDevice::prepare_for_output() { for (;;) { if (!(IO::in8(I8042_STATUS) & 2)) return; } } void PS2MouseDevice::mouse_write(u8 data) { prepare_for_output(); IO::out8(I8042_STATUS, 0xd4); prepare_for_output(); IO::out8(I8042_BUFFER, data); } u8 PS2MouseDevice::mouse_read() { prepare_for_input(); return IO::in8(I8042_BUFFER); } bool PS2MouseDevice::can_read(const FileDescription&) const { return !m_queue.is_empty(); } ssize_t PS2MouseDevice::read(FileDescription&, u8* buffer, ssize_t size) { ssize_t nread = 0; while (nread < size) { if (m_queue.is_empty()) break; // Don't return partial data frames. if ((size - nread) < (ssize_t)sizeof(MousePacket)) break; auto packet = m_queue.dequeue(); memcpy(buffer, &packet, sizeof(MousePacket)); nread += sizeof(MousePacket); } return nread; } ssize_t PS2MouseDevice::write(FileDescription&, const u8*, ssize_t) { return 0; }