/* * Copyright (c) 2022, Liav A. * * SPDX-License-Identifier: BSD-2-Clause */ #include #include #include #include #include #include #include namespace Kernel { NonnullRefPtr BochsDisplayConnector::must_create(PhysicalAddress framebuffer_address, size_t framebuffer_resource_size, bool virtual_box_hardware) { auto device_or_error = DeviceManagement::try_create_device(framebuffer_address, framebuffer_resource_size); VERIFY(!device_or_error.is_error()); auto connector = device_or_error.release_value(); MUST(connector->create_attached_framebuffer_console()); if (virtual_box_hardware) MUST(connector->initialize_edid_for_generic_monitor(Array { 'V', 'B', 'X' })); else MUST(connector->initialize_edid_for_generic_monitor({})); return connector; } BochsDisplayConnector::BochsDisplayConnector(PhysicalAddress framebuffer_address, size_t framebuffer_resource_size) : DisplayConnector(framebuffer_address, framebuffer_resource_size, false) { } ErrorOr BochsDisplayConnector::create_attached_framebuffer_console() { // We assume safe resolution is 1024x768x32 m_framebuffer_console = Graphics::ContiguousFramebufferConsole::initialize(m_framebuffer_address.value(), 1024, 768, 1024 * sizeof(u32)); GraphicsManagement::the().set_console(*m_framebuffer_console); return {}; } static void set_register_with_io(u16 index, u16 data) { IO::out16(VBE_DISPI_IOPORT_INDEX, index); IO::out16(VBE_DISPI_IOPORT_DATA, data); } static u16 get_register_with_io(u16 index) { IO::out16(VBE_DISPI_IOPORT_INDEX, index); return IO::in16(VBE_DISPI_IOPORT_DATA); } BochsDisplayConnector::IndexID BochsDisplayConnector::index_id() const { return get_register_with_io(0); } void BochsDisplayConnector::enable_console() { VERIFY(m_control_lock.is_locked()); VERIFY(m_framebuffer_console); m_framebuffer_console->enable(); } void BochsDisplayConnector::disable_console() { VERIFY(m_control_lock.is_locked()); VERIFY(m_framebuffer_console); m_framebuffer_console->disable(); } ErrorOr BochsDisplayConnector::flush_first_surface() { return Error::from_errno(ENOTSUP); } ErrorOr BochsDisplayConnector::set_safe_mode_setting() { DisplayConnector::ModeSetting safe_mode_set { .horizontal_stride = 1024 * sizeof(u32), .pixel_clock_in_khz = 0, // Note: There's no pixel clock in paravirtualized hardware .horizontal_active = 1024, .horizontal_front_porch_pixels = 0, // Note: There's no horizontal_front_porch_pixels in paravirtualized hardware .horizontal_sync_time_pixels = 0, // Note: There's no horizontal_sync_time_pixels in paravirtualized hardware .horizontal_blank_pixels = 0, // Note: There's no horizontal_blank_pixels in paravirtualized hardware .vertical_active = 768, .vertical_front_porch_lines = 0, // Note: There's no vertical_front_porch_lines in paravirtualized hardware .vertical_sync_time_lines = 0, // Note: There's no vertical_sync_time_lines in paravirtualized hardware .vertical_blank_lines = 0, // Note: There's no vertical_blank_lines in paravirtualized hardware .horizontal_offset = 0, .vertical_offset = 0, }; return set_mode_setting(safe_mode_set); } ErrorOr BochsDisplayConnector::set_mode_setting(ModeSetting const& mode_setting) { SpinlockLocker locker(m_modeset_lock); size_t width = mode_setting.horizontal_active; size_t height = mode_setting.vertical_active; dbgln_if(BXVGA_DEBUG, "BochsDisplayConnector resolution registers set to - {}x{}", width, height); set_register_with_io(to_underlying(BochsDISPIRegisters::ENABLE), 0); set_register_with_io(to_underlying(BochsDISPIRegisters::XRES), (u16)width); set_register_with_io(to_underlying(BochsDISPIRegisters::YRES), (u16)height); set_register_with_io(to_underlying(BochsDISPIRegisters::VIRT_WIDTH), (u16)width); set_register_with_io(to_underlying(BochsDISPIRegisters::VIRT_HEIGHT), (u16)height * 2); set_register_with_io(to_underlying(BochsDISPIRegisters::BPP), 32); set_register_with_io(to_underlying(BochsDISPIRegisters::ENABLE), to_underlying(BochsFramebufferSettings::Enabled) | to_underlying(BochsFramebufferSettings::LinearFramebuffer)); set_register_with_io(to_underlying(BochsDISPIRegisters::BANK), 0); if ((u16)width != get_register_with_io(to_underlying(BochsDISPIRegisters::XRES)) || (u16)height != get_register_with_io(to_underlying(BochsDISPIRegisters::YRES))) { return Error::from_errno(ENOTIMPL); } auto current_horizontal_active = get_register_with_io(to_underlying(BochsDISPIRegisters::XRES)); auto current_vertical_active = get_register_with_io(to_underlying(BochsDISPIRegisters::YRES)); DisplayConnector::ModeSetting mode_set { .horizontal_stride = current_horizontal_active * sizeof(u32), .pixel_clock_in_khz = 0, // Note: There's no pixel clock in paravirtualized hardware .horizontal_active = current_horizontal_active, .horizontal_front_porch_pixels = 0, // Note: There's no horizontal_front_porch_pixels in paravirtualized hardware .horizontal_sync_time_pixels = 0, // Note: There's no horizontal_sync_time_pixels in paravirtualized hardware .horizontal_blank_pixels = 0, // Note: There's no horizontal_blank_pixels in paravirtualized hardware .vertical_active = current_vertical_active, .vertical_front_porch_lines = 0, // Note: There's no vertical_front_porch_lines in paravirtualized hardware .vertical_sync_time_lines = 0, // Note: There's no vertical_sync_time_lines in paravirtualized hardware .vertical_blank_lines = 0, // Note: There's no vertical_blank_lines in paravirtualized hardware .horizontal_offset = 0, .vertical_offset = 0, }; m_current_mode_setting = mode_set; return {}; } ErrorOr BochsDisplayConnector::set_y_offset(size_t) { // Note: Although when using this device on QEMU we can actually set the horizontal and vertical offsets // with IO ports, this class is meant to be used for plain old Bochs graphics which might not support // this feature at all. return Error::from_errno(ENOTIMPL); } ErrorOr BochsDisplayConnector::unblank() { return Error::from_errno(ENOTIMPL); } }