use core::{ ffi::{c_uint, c_void}, mem::MaybeUninit, sync::atomic::AtomicBool, }; use alloc::{ string::{String, ToString}, sync::{Arc, Weak}, vec::Vec, }; use system_error::SystemError; use unified_init::macros::unified_init; use crate::{ arch::MMArch, driver::{ base::{ class::Class, device::{ bus::Bus, device_manager, driver::Driver, Device, DeviceState, DeviceType, IdTable, }, kobject::{KObjType, KObject, KObjectState, LockedKObjectState}, kset::KSet, platform::{ platform_device::{platform_device_manager, PlatformDevice}, platform_driver::{platform_driver_manager, PlatformDriver}, CompatibleTable, }, }, tty::serial::serial8250::send_to_default_serial8250_port, video::fbdev::base::{fbmem::frame_buffer_manager, FbVisual}, }, filesystem::{ kernfs::KernFSInode, sysfs::{file::sysfs_emit_str, Attribute, AttributeGroup, SysFSOpsSupport}, vfs::syscall::ModeType, }, include::bindings::bindings::{ multiboot2_get_Framebuffer_info, multiboot2_iter, multiboot_tag_framebuffer_info_t, FRAME_BUFFER_MAPPING_OFFSET, }, init::{boot_params, initcall::INITCALL_DEVICE}, libs::{ align::page_align_up, once::Once, rwlock::{RwLock, RwLockReadGuard, RwLockWriteGuard}, spinlock::SpinLock, }, mm::{ allocator::page_frame::PageFrameCount, no_init::pseudo_map_phys, MemoryManagementArch, PhysAddr, VirtAddr, }, }; use super::base::{ fbmem::FbDevice, BlankMode, BootTimeVideoType, FbAccel, FbActivateFlags, FbId, FbState, FbType, FbVModeFlags, FbVarScreenInfo, FbVideoMode, FixedScreenInfo, FrameBuffer, FrameBufferInfo, FrameBufferOps, }; /// 当前机器上面是否有vesa帧缓冲区 static HAS_VESA_FB: AtomicBool = AtomicBool::new(false); lazy_static! { static ref VESAFB_FIX_INFO: RwLock = RwLock::new(FixedScreenInfo { id: FixedScreenInfo::name2id("VESA VGA"), fb_type: FbType::PackedPixels, accel: FbAccel::None, ..Default::default() }); static ref VESAFB_DEFINED: RwLock = RwLock::new(FbVarScreenInfo { activate: FbActivateFlags::FB_ACTIVATE_NOW, height: None, width: None, right_margin: 32, upper_margin: 16, lower_margin: 4, vsync_len: 4, vmode: FbVModeFlags::FB_VMODE_NONINTERLACED, ..Default::default() }); } #[derive(Debug)] #[cast_to([sync] Device)] #[cast_to([sync] PlatformDevice)] pub struct VesaFb { inner: SpinLock, kobj_state: LockedKObjectState, } impl VesaFb { pub const NAME: &'static str = "vesa_vga"; pub fn new() -> Self { return Self { inner: SpinLock::new(InnerVesaFb { bus: None, class: None, driver: None, kern_inode: None, parent: None, kset: None, kobj_type: None, device_state: DeviceState::NotInitialized, pdev_id: 0, pdev_id_auto: false, fb_id: FbId::INIT, fb_device: None, fb_state: FbState::Suspended, }), kobj_state: LockedKObjectState::new(None), }; } } #[derive(Debug)] struct InnerVesaFb { bus: Option>, class: Option>, driver: Option>, kern_inode: Option>, parent: Option>, kset: Option>, kobj_type: Option<&'static dyn KObjType>, device_state: DeviceState, pdev_id: i32, pdev_id_auto: bool, fb_id: FbId, fb_device: Option>, fb_state: FbState, } impl FrameBuffer for VesaFb { fn fb_id(&self) -> FbId { self.inner.lock().fb_id } fn set_fb_id(&self, id: FbId) { self.inner.lock().fb_id = id; } } impl PlatformDevice for VesaFb { fn pdev_name(&self) -> &str { Self::NAME } fn set_pdev_id(&self, id: i32) { self.inner.lock().pdev_id = id; } fn set_pdev_id_auto(&self, id_auto: bool) { self.inner.lock().pdev_id_auto = id_auto; } fn compatible_table(&self) -> CompatibleTable { todo!() } fn is_initialized(&self) -> bool { self.inner.lock().device_state == DeviceState::Initialized } fn set_state(&self, set_state: DeviceState) { self.inner.lock().device_state = set_state; } } impl Device for VesaFb { fn dev_type(&self) -> DeviceType { DeviceType::Char } fn id_table(&self) -> IdTable { IdTable::new(self.name(), None) } fn bus(&self) -> Option> { self.inner.lock().bus.clone() } fn set_bus(&self, bus: Option>) { self.inner.lock().bus = bus; } fn set_class(&self, class: Option>) { self.inner.lock().class = class; } fn driver(&self) -> Option> { self.inner.lock().driver.clone()?.upgrade() } fn set_driver(&self, driver: Option>) { self.inner.lock().driver = driver; } fn is_dead(&self) -> bool { false } fn can_match(&self) -> bool { true } fn set_can_match(&self, _can_match: bool) {} fn state_synced(&self) -> bool { true } } impl KObject for VesaFb { fn as_any_ref(&self) -> &dyn core::any::Any { self } fn set_inode(&self, inode: Option>) { self.inner.lock().kern_inode = inode; } fn inode(&self) -> Option> { self.inner.lock().kern_inode.clone() } fn parent(&self) -> Option> { self.inner.lock().parent.clone() } fn set_parent(&self, parent: Option>) { self.inner.lock().parent = parent; } fn kset(&self) -> Option> { self.inner.lock().kset.clone() } fn set_kset(&self, kset: Option>) { self.inner.lock().kset = kset; } fn kobj_type(&self) -> Option<&'static dyn KObjType> { self.inner.lock().kobj_type } fn set_kobj_type(&self, ktype: Option<&'static dyn KObjType>) { self.inner.lock().kobj_type = ktype; } fn name(&self) -> String { Self::NAME.to_string() } fn set_name(&self, _name: String) { // do nothing } fn kobj_state(&self) -> RwLockReadGuard { self.kobj_state.read() } fn kobj_state_mut(&self) -> RwLockWriteGuard { self.kobj_state.write() } fn set_kobj_state(&self, state: KObjectState) { *self.kobj_state.write() = state; } } impl FrameBufferOps for VesaFb { fn fb_open(&self, _user: bool) { todo!() } fn fb_release(&self, _user: bool) { todo!() } fn fb_set_color_register( &self, _regno: u16, _red: u16, _green: u16, _blue: u16, ) -> Result<(), SystemError> { todo!() } fn fb_blank(&self, _blank_mode: BlankMode) -> Result<(), SystemError> { todo!() } fn fb_destroy(&self) { todo!() } fn fb_read(&self, buf: &mut [u8], pos: usize) -> Result { let bp = boot_params().read(); let vaddr = bp.screen_info.lfb_virt_base.ok_or(SystemError::ENODEV)?; let size = self.current_fb_fix().smem_len; drop(bp); if pos >= size { return Ok(0); } let pos = pos as i64; let size = size as i64; let len = core::cmp::min(size - pos, buf.len() as i64) as usize; let slice = unsafe { core::slice::from_raw_parts(vaddr.as_ptr::(), size as usize) }; buf[..len].copy_from_slice(&slice[pos as usize..(pos as usize + len)]); return Ok(len); } fn fb_write(&self, buf: &[u8], pos: usize) -> Result { let bp = boot_params().read(); let vaddr = bp.screen_info.lfb_virt_base.ok_or(SystemError::ENODEV)?; let size = self.current_fb_fix().smem_len; if pos >= size { return Ok(0); } let pos = pos as i64; let size = size as i64; let len = core::cmp::min(size - pos, buf.len() as i64) as usize; let slice = unsafe { core::slice::from_raw_parts_mut(vaddr.as_ptr::(), size as usize) }; slice[pos as usize..(pos as usize + len)].copy_from_slice(&buf[..len]); return Ok(len); } } impl FrameBufferInfo for VesaFb { fn fb_device(&self) -> Option> { self.inner.lock().fb_device.clone() } fn set_fb_device(&self, device: Option>) { self.inner.lock().fb_device = device; } fn screen_size(&self) -> usize { todo!() } fn current_fb_var(&self) -> FbVarScreenInfo { VESAFB_DEFINED.read().clone() } fn current_fb_fix(&self) -> FixedScreenInfo { VESAFB_FIX_INFO.read().clone() } fn video_mode(&self) -> Option<&FbVideoMode> { todo!() } fn state(&self) -> FbState { self.inner.lock().fb_state } } #[derive(Debug)] #[cast_to([sync] PlatformDriver)] struct VesaFbDriver { inner: SpinLock, kobj_state: LockedKObjectState, } impl VesaFbDriver { pub fn new() -> Arc { let r = Arc::new(Self { inner: SpinLock::new(InnerVesaFbDriver { ktype: None, kset: None, parent: None, kernfs_inode: None, devices: Vec::new(), bus: None, self_ref: Weak::new(), }), kobj_state: LockedKObjectState::new(None), }); r.inner.lock().self_ref = Arc::downgrade(&r); return r; } } #[derive(Debug)] struct InnerVesaFbDriver { ktype: Option<&'static dyn KObjType>, kset: Option>, parent: Option>, kernfs_inode: Option>, devices: Vec>, bus: Option>, self_ref: Weak, } impl VesaFbDriver { const NAME: &'static str = "vesa-framebuffer"; } impl PlatformDriver for VesaFbDriver { fn probe(&self, device: &Arc) -> Result<(), SystemError> { let device = device .clone() .arc_any() .downcast::() .map_err(|_| SystemError::EINVAL)?; device.set_driver(Some(self.inner.lock_irqsave().self_ref.clone())); return Ok(()); } fn remove(&self, _device: &Arc) -> Result<(), SystemError> { todo!() } fn shutdown(&self, _device: &Arc) -> Result<(), SystemError> { // do nothing return Ok(()); } fn suspend(&self, _device: &Arc) -> Result<(), SystemError> { // do nothing return Ok(()); } fn resume(&self, _device: &Arc) -> Result<(), SystemError> { todo!() } } impl Driver for VesaFbDriver { fn id_table(&self) -> Option { Some(IdTable::new(VesaFb::NAME.to_string(), None)) } fn devices(&self) -> Vec> { self.inner.lock().devices.clone() } fn add_device(&self, device: Arc) { let mut guard = self.inner.lock(); // check if the device is already in the list if guard.devices.iter().any(|dev| Arc::ptr_eq(dev, &device)) { return; } guard.devices.push(device); } fn delete_device(&self, device: &Arc) { let mut guard = self.inner.lock(); guard.devices.retain(|dev| !Arc::ptr_eq(dev, device)); } fn set_bus(&self, bus: Option>) { self.inner.lock().bus = bus; } fn bus(&self) -> Option> { self.inner.lock().bus.clone() } fn dev_groups(&self) -> &'static [&'static dyn AttributeGroup] { return &[&VesaFbAnonAttributeGroup]; } } impl KObject for VesaFbDriver { fn as_any_ref(&self) -> &dyn core::any::Any { self } fn set_inode(&self, inode: Option>) { self.inner.lock().kernfs_inode = inode; } fn inode(&self) -> Option> { self.inner.lock().kernfs_inode.clone() } fn parent(&self) -> Option> { self.inner.lock().parent.clone() } fn set_parent(&self, parent: Option>) { self.inner.lock().parent = parent; } fn kset(&self) -> Option> { self.inner.lock().kset.clone() } fn set_kset(&self, kset: Option>) { self.inner.lock().kset = kset; } fn kobj_type(&self) -> Option<&'static dyn KObjType> { self.inner.lock().ktype } fn set_kobj_type(&self, ktype: Option<&'static dyn KObjType>) { self.inner.lock().ktype = ktype; } fn name(&self) -> String { Self::NAME.to_string() } fn set_name(&self, _name: String) { // do nothing } fn kobj_state(&self) -> RwLockReadGuard { self.kobj_state.read() } fn kobj_state_mut(&self) -> RwLockWriteGuard { self.kobj_state.write() } fn set_kobj_state(&self, state: KObjectState) { *self.kobj_state.write() = state; } } #[derive(Debug)] struct VesaFbAnonAttributeGroup; impl AttributeGroup for VesaFbAnonAttributeGroup { fn name(&self) -> Option<&str> { None } fn attrs(&self) -> &[&'static dyn Attribute] { &[&AnonAttrPhysAddr as &'static dyn Attribute] } fn is_visible( &self, _kobj: Arc, attr: &'static dyn Attribute, ) -> Option { Some(attr.mode()) } } #[derive(Debug)] struct AnonAttrPhysAddr; impl Attribute for AnonAttrPhysAddr { fn name(&self) -> &str { "smem_start" } fn mode(&self) -> ModeType { ModeType::S_IRUGO } fn support(&self) -> SysFSOpsSupport { SysFSOpsSupport::ATTR_SHOW } fn show(&self, _kobj: Arc, buf: &mut [u8]) -> Result { sysfs_emit_str( buf, format!( "0x{:x}\n", VESAFB_FIX_INFO .read() .smem_start .unwrap_or(PhysAddr::new(0)) .data() ) .as_str(), ) } } #[unified_init(INITCALL_DEVICE)] pub fn vesa_fb_driver_init() -> Result<(), SystemError> { let driver = VesaFbDriver::new(); platform_driver_manager().register(driver)?; return Ok(()); } /// 在内存管理初始化之前,初始化vesafb pub fn vesafb_early_init() -> Result { let mut _reserved: u32 = 0; let mut fb_info: MaybeUninit = MaybeUninit::uninit(); //从multiboot2中读取帧缓冲区信息至fb_info // todo: 换成rust的,并且检测是否成功获取 unsafe { multiboot2_iter( Some(multiboot2_get_Framebuffer_info), fb_info.as_mut_ptr() as usize as *mut c_void, &mut _reserved as *mut c_uint, ) }; unsafe { fb_info.assume_init() }; let fb_info: multiboot_tag_framebuffer_info_t = unsafe { core::mem::transmute(fb_info) }; // todo: 判断是否有vesa帧缓冲区,这里暂时直接设置true HAS_VESA_FB.store(true, core::sync::atomic::Ordering::SeqCst); let width = fb_info.framebuffer_width; let height = fb_info.framebuffer_height; let mut boot_params_guard = boot_params().write(); let boottime_screen_info = &mut boot_params_guard.screen_info; boottime_screen_info.is_vga = true; boottime_screen_info.lfb_base = PhysAddr::new(fb_info.framebuffer_addr as usize); if fb_info.framebuffer_type == 2 { //当type=2时,width与height用字符数表示,故depth=8 boottime_screen_info.origin_video_cols = width as u8; boottime_screen_info.origin_video_lines = height as u8; boottime_screen_info.video_type = BootTimeVideoType::Mda; boottime_screen_info.lfb_depth = 8; } else { //否则为图像模式,depth应参照帧缓冲区信息里面的每个像素的位数 boottime_screen_info.lfb_width = width; boottime_screen_info.lfb_height = height; boottime_screen_info.video_type = BootTimeVideoType::Vlfb; boottime_screen_info.lfb_depth = fb_info.framebuffer_bpp as u8; } boottime_screen_info.lfb_size = (width * height * ((fb_info.framebuffer_bpp as u32 + 7) / 8)) as usize; // let buf_vaddr = VirtAddr::new(0xffff800003200000); let buf_vaddr = VirtAddr::new( crate::include::bindings::bindings::SPECIAL_MEMOEY_MAPPING_VIRT_ADDR_BASE as usize + FRAME_BUFFER_MAPPING_OFFSET as usize, ); boottime_screen_info.lfb_virt_base = Some(buf_vaddr); let init_text = "Video driver to map.\n\0"; send_to_default_serial8250_port(init_text.as_bytes()); // 地址映射 let paddr = PhysAddr::new(fb_info.framebuffer_addr as usize); let count = PageFrameCount::new(page_align_up(boottime_screen_info.lfb_size) / MMArch::PAGE_SIZE); unsafe { pseudo_map_phys(buf_vaddr, paddr, count) }; return Ok(buf_vaddr); } #[unified_init(INITCALL_DEVICE)] fn vesa_fb_device_init() -> Result<(), SystemError> { // 如果没有vesa帧缓冲区,直接返回 if !HAS_VESA_FB.load(core::sync::atomic::Ordering::SeqCst) { return Ok(()); } static INIT: Once = Once::new(); INIT.call_once(|| { kinfo!("vesa fb device init"); let mut fix_info_guard = VESAFB_FIX_INFO.write_irqsave(); let mut var_info_guard = VESAFB_DEFINED.write_irqsave(); let boot_params_guard = boot_params().read(); let boottime_screen_info = &boot_params_guard.screen_info; fix_info_guard.smem_start = Some(boottime_screen_info.lfb_base); fix_info_guard.smem_len = boottime_screen_info.lfb_size; if boottime_screen_info.video_type == BootTimeVideoType::Mda { fix_info_guard.visual = FbVisual::Mono10; var_info_guard.bits_per_pixel = 8; fix_info_guard.line_length = (boottime_screen_info.origin_video_cols as u32) * (var_info_guard.bits_per_pixel / 8); var_info_guard.xres_virtual = boottime_screen_info.origin_video_cols as u32; var_info_guard.yres_virtual = boottime_screen_info.origin_video_lines as u32; } else { fix_info_guard.visual = FbVisual::TrueColor; var_info_guard.bits_per_pixel = boottime_screen_info.lfb_depth as u32; fix_info_guard.line_length = (boottime_screen_info.lfb_width as u32) * (var_info_guard.bits_per_pixel / 8); var_info_guard.xres_virtual = boottime_screen_info.lfb_width as u32; var_info_guard.yres_virtual = boottime_screen_info.lfb_height as u32; } drop(var_info_guard); drop(fix_info_guard); let device = Arc::new(VesaFb::new()); device_manager().device_default_initialize(&(device.clone() as Arc)); platform_device_manager() .device_add(device.clone() as Arc) .expect("vesa_fb_device_init: platform_device_manager().device_add failed"); frame_buffer_manager() .register_fb(device.clone() as Arc) .expect("vesa_fb_device_init: frame_buffer_manager().register_fb failed"); // 设置vesa fb的状态为运行中 device.inner.lock().fb_state = FbState::Running; }); return Ok(()); }