xref: /DragonOS/kernel/src/libs/lib_ui/screen_manager.rs (revision 1ea2daad8121b77ed704e6d7c3a09f478147441d)
1 use core::{
2     fmt::Debug,
3     intrinsics::unlikely,
4     sync::atomic::{AtomicBool, AtomicU32, Ordering},
5 };
6 
7 use alloc::{boxed::Box, collections::LinkedList, string::String, sync::Arc};
8 use system_error::SystemError;
9 
10 use crate::{
11     driver::{serial::serial8250::send_to_default_serial8250_port, video::video_refresh_manager},
12     libs::{lib_ui::textui::textui_is_enable_put_to_window, rwlock::RwLock, spinlock::SpinLock},
13     mm::VirtAddr,
14 };
15 
16 use super::{
17     textui::{textui_disable_put_to_window, textui_enable_put_to_window},
18     textui_no_alloc::textui_init_no_alloc,
19 };
20 
21 /// 全局的UI框架列表
22 pub static SCM_FRAMEWORK_LIST: SpinLock<LinkedList<Arc<dyn ScmUiFramework>>> =
23     SpinLock::new(LinkedList::new());
24 
25 /// 当前在使用的UI框架
26 pub static CURRENT_FRAMEWORK: RwLock<Option<Arc<dyn ScmUiFramework>>> = RwLock::new(None);
27 
28 /// 是否启用双缓冲
29 pub static SCM_DOUBLE_BUFFER_ENABLED: AtomicBool = AtomicBool::new(false);
30 
31 bitflags! {
32   pub struct ScmBufferFlag:u8 {
33     // 帧缓冲区标志位
34        const SCM_BF_FB = 1 << 0; // 当前buffer是设备显存中的帧缓冲区
35        const SCM_BF_DB = 1 << 1; // 当前buffer是双缓冲
36        const SCM_BF_TEXT = 1 << 2; // 使用文本模式
37        const SCM_BF_PIXEL = 1 << 3; // 使用图像模式
38    }
39 }
40 #[derive(Clone, Debug)]
41 #[allow(dead_code)]
42 pub enum ScmFramworkType {
43     Text,
44     Gui,
45     Unused,
46 }
47 #[derive(Debug, Clone)]
48 pub enum ScmBuffer {
49     DeviceBuffer(VirtAddr),
50     DoubleBuffer(Arc<SpinLock<Box<[u8]>>>),
51 }
52 
53 #[derive(Debug, Clone)]
54 pub struct ScmBufferInfo {
55     width: u32,     // 帧缓冲区宽度(pixel或columns)
56     height: u32,    // 帧缓冲区高度(pixel或lines)
57     size: u32,      // 帧缓冲区大小(bytes)
58     bit_depth: u32, // 像素点位深度
59     pub buf: ScmBuffer,
60     flags: ScmBufferFlag, // 帧缓冲区标志位
61 }
62 
63 #[allow(dead_code)]
64 impl ScmBufferInfo {
65     /// 创建新的帧缓冲区信息
66     ///
67     /// ## 参数
68     ///
69     /// - `buf_type` 帧缓冲区类型
70     ///
71     /// ## 返回值
72     ///
73     /// - `Result<Self, SystemError>` 创建成功返回新的帧缓冲区结构体,创建失败返回错误码
74     pub fn new(mut buf_type: ScmBufferFlag) -> Result<Self, SystemError> {
75         if unlikely(!SCM_DOUBLE_BUFFER_ENABLED.load(Ordering::SeqCst)) {
76             let mut device_buffer = video_refresh_manager().device_buffer().clone();
77             buf_type.remove(ScmBufferFlag::SCM_BF_DB);
78             buf_type.insert(ScmBufferFlag::SCM_BF_FB);
79             device_buffer.flags = buf_type;
80             return Ok(device_buffer);
81         } else {
82             let device_buffer_guard = video_refresh_manager().device_buffer();
83 
84             let buf_space: Arc<SpinLock<Box<[u8]>>> = Arc::new(SpinLock::new(
85                 vec![0u8; (device_buffer_guard.size / 4) as usize].into_boxed_slice(),
86             ));
87 
88             assert!(buf_type.contains(ScmBufferFlag::SCM_BF_DB));
89 
90             assert_eq!(
91                 device_buffer_guard.size as usize,
92                 buf_space.lock().len() * core::mem::size_of::<u8>()
93             );
94 
95             // 创建双缓冲区
96             let buffer = Self {
97                 width: device_buffer_guard.width,
98                 height: device_buffer_guard.height,
99                 size: device_buffer_guard.size,
100                 bit_depth: device_buffer_guard.bit_depth,
101                 flags: buf_type,
102                 buf: ScmBuffer::DoubleBuffer(buf_space),
103             };
104             drop(device_buffer_guard);
105 
106             return Ok(buffer);
107         }
108     }
109 
110     pub unsafe fn new_device_buffer(
111         width: u32,
112         height: u32,
113         size: u32,
114         bit_depth: u32,
115         buf_type: ScmBufferFlag,
116         vaddr: VirtAddr,
117     ) -> Result<Self, SystemError> {
118         let buffer = Self {
119             width,
120             height,
121             size,
122             bit_depth,
123             flags: buf_type,
124             buf: ScmBuffer::DeviceBuffer(vaddr),
125         };
126         return Ok(buffer);
127     }
128 
129     pub fn buf_size(&self) -> usize {
130         self.size as usize
131     }
132 
133     pub fn bit_depth(&self) -> u32 {
134         self.bit_depth
135     }
136 
137     pub fn height(&self) -> u32 {
138         self.height
139     }
140 
141     pub fn width(&self) -> u32 {
142         self.width
143     }
144 
145     pub fn is_double_buffer(&self) -> bool {
146         matches!(&self.buf, ScmBuffer::DoubleBuffer(_))
147     }
148     pub fn is_device_buffer(&self) -> bool {
149         matches!(&self.buf, ScmBuffer::DeviceBuffer(_))
150     }
151 
152     pub fn copy_from_nonoverlapping(&mut self, src: &ScmBufferInfo) {
153         assert!(self.buf_size() == src.buf_size());
154         match &self.buf {
155             ScmBuffer::DeviceBuffer(vaddr) => {
156                 let len = self.buf_size() / core::mem::size_of::<u32>();
157                 let self_buf_guard =
158                     unsafe { core::slice::from_raw_parts_mut(vaddr.data() as *mut u8, len) };
159                 match &src.buf {
160                     ScmBuffer::DeviceBuffer(vaddr) => {
161                         let src_buf_guard =
162                             unsafe { core::slice::from_raw_parts(vaddr.data() as *const u8, len) };
163                         self_buf_guard.copy_from_slice(src_buf_guard);
164                     }
165                     ScmBuffer::DoubleBuffer(double_buffer) => {
166                         let src_buf_guard = double_buffer.lock();
167                         self_buf_guard.copy_from_slice(src_buf_guard.as_ref());
168                     }
169                 };
170             }
171 
172             ScmBuffer::DoubleBuffer(double_buffer) => {
173                 let mut double_buffer_guard = double_buffer.lock();
174                 match &src.buf {
175                     ScmBuffer::DeviceBuffer(vaddr) => {
176                         let len = src.buf_size() / core::mem::size_of::<u8>();
177                         double_buffer_guard.as_mut().copy_from_slice(unsafe {
178                             core::slice::from_raw_parts(vaddr.data() as *const u8, len)
179                         });
180                     }
181                     ScmBuffer::DoubleBuffer(double_buffer) => {
182                         let x = double_buffer.lock();
183                         double_buffer_guard.as_mut().copy_from_slice(x.as_ref());
184                     }
185                 };
186             }
187         }
188     }
189 }
190 
191 #[derive(Debug, Copy, Clone, Eq, PartialEq, PartialOrd, Ord, Hash)]
192 pub struct ScmUiFrameworkId(u32);
193 
194 impl ScmUiFrameworkId {
195     /// 分配一个新的框架id
196     pub fn new() -> Self {
197         static MAX_ID: AtomicU32 = AtomicU32::new(0);
198         return ScmUiFrameworkId(MAX_ID.fetch_add(1, Ordering::SeqCst));
199     }
200 }
201 #[allow(dead_code)]
202 #[derive(Debug, Clone)]
203 pub struct ScmUiFrameworkMetadata {
204     id: ScmUiFrameworkId,
205     name: String,
206     framework_type: ScmFramworkType,
207     pub buf_info: ScmBufferInfo,
208 }
209 
210 impl ScmUiFrameworkMetadata {
211     pub fn new(name: String, framework_type: ScmFramworkType) -> Self {
212         match framework_type {
213             ScmFramworkType::Text => {
214                 let result = ScmUiFrameworkMetadata {
215                     id: ScmUiFrameworkId::new(),
216                     name,
217                     framework_type: ScmFramworkType::Text,
218                     buf_info: ScmBufferInfo::new(
219                         ScmBufferFlag::SCM_BF_TEXT | ScmBufferFlag::SCM_BF_DB,
220                     )
221                     .unwrap(),
222                 };
223 
224                 return result;
225             }
226             ScmFramworkType::Gui => todo!(),
227             ScmFramworkType::Unused => todo!(),
228         }
229     }
230     pub fn buf_info(&self) -> ScmBufferInfo {
231         return self.buf_info.clone();
232     }
233     pub fn set_buf_info(&mut self, buf_info: ScmBufferInfo) {
234         self.buf_info = buf_info;
235     }
236 }
237 pub trait ScmUiFramework: Sync + Send + Debug {
238     // 安装ui框架的回调函数
239     fn install(&self) -> Result<i32, SystemError> {
240         return Err(SystemError::ENOSYS);
241     }
242     // 卸载ui框架的回调函数
243     fn uninstall(&self) -> Result<i32, SystemError> {
244         return Err(SystemError::ENOSYS);
245     }
246     // 启用ui框架的回调函数
247     fn enable(&self) -> Result<i32, SystemError> {
248         return Err(SystemError::ENOSYS);
249     }
250     // 禁用ui框架的回调函数
251     fn disable(&self) -> Result<i32, SystemError> {
252         return Err(SystemError::ENOSYS);
253     }
254     // 改变ui框架的帧缓冲区的回调函数
255     fn change(&self, _buf: ScmBufferInfo) -> Result<i32, SystemError> {
256         return Err(SystemError::ENOSYS);
257     }
258     /// @brief 获取ScmUiFramework的元数据
259     /// @return 成功:Ok(ScmUiFramework的元数据)
260     ///         失败:Err(错误码)
261     fn metadata(&self) -> Result<ScmUiFrameworkMetadata, SystemError> {
262         // 若文件系统没有实现此方法,则返回“不支持”
263         return Err(SystemError::ENOSYS);
264     }
265 }
266 
267 /// 初始化屏幕控制模块
268 ///
269 /// ## 调用时机
270 ///
271 /// 该函数在内核启动的早期进行调用。调用时,内存管理模块尚未初始化。
272 pub fn scm_init(enable_put_to_window: bool) {
273     SCM_DOUBLE_BUFFER_ENABLED.store(false, Ordering::SeqCst); // 禁用双缓冲
274     if enable_put_to_window {
275         textui_enable_put_to_window();
276     } else {
277         textui_disable_put_to_window();
278     }
279     textui_init_no_alloc(enable_put_to_window);
280 
281     send_to_default_serial8250_port("\nfinish_scm_init\n\0".as_bytes());
282 }
283 
284 /// 启用某个ui框架,将它的帧缓冲区渲染到屏幕上
285 /// ## 参数
286 ///
287 /// - framework 要启动的ui框架
288 
289 pub fn scm_framework_enable(framework: Arc<dyn ScmUiFramework>) -> Result<i32, SystemError> {
290     // 获取信息
291     let metadata = framework.metadata()?;
292 
293     // if metadata.buf_info.buf.is_null() {
294     //     return Err(SystemError::EINVAL);
295     // }
296     let mut current_framework = CURRENT_FRAMEWORK.write();
297 
298     if SCM_DOUBLE_BUFFER_ENABLED.load(Ordering::SeqCst) {
299         video_refresh_manager().set_refresh_target(&metadata.buf_info)?;
300     }
301 
302     framework.enable()?;
303     current_framework.replace(framework);
304 
305     return Ok(0);
306 }
307 /// 向屏幕管理器注册UI框架
308 ///
309 /// ## 参数
310 /// - framework 框架结构体
311 
312 pub fn scm_register(framework: Arc<dyn ScmUiFramework>) -> Result<i32, SystemError> {
313     // 把ui框架加入链表
314 
315     SCM_FRAMEWORK_LIST.lock().push_back(framework.clone());
316     // 调用ui框架的回调函数以安装ui框架,并将其激活
317     framework.install()?;
318 
319     // 如果当前还没有框架获得了屏幕的控制权,就让其拿去
320     if CURRENT_FRAMEWORK.read().is_none() {
321         return scm_framework_enable(framework);
322     }
323     return Ok(0);
324 }
325 
326 /// 屏幕管理器启用双缓冲区
327 #[allow(dead_code)]
328 pub fn scm_enable_double_buffer() -> Result<i32, SystemError> {
329     if SCM_DOUBLE_BUFFER_ENABLED.load(Ordering::SeqCst) {
330         // 已经开启了双缓冲区了, 直接退出
331         return Ok(0);
332     }
333     let scm_list = SCM_FRAMEWORK_LIST.lock();
334     if scm_list.is_empty() {
335         // scm 框架链表为空
336         return Ok(0);
337     }
338     drop(scm_list);
339     SCM_DOUBLE_BUFFER_ENABLED.store(true, Ordering::SeqCst);
340     // 创建双缓冲区
341     let buf_info = ScmBufferInfo::new(ScmBufferFlag::SCM_BF_DB | ScmBufferFlag::SCM_BF_PIXEL)?;
342 
343     // 设置定时刷新的对象
344     video_refresh_manager()
345         .set_refresh_target(&buf_info)
346         .expect("set refresh target failed");
347 
348     // 设置当前框架的帧缓冲区
349     CURRENT_FRAMEWORK
350         .write()
351         .as_ref()
352         .unwrap()
353         .change(buf_info)?;
354     // 遍历当前所有使用帧缓冲区的框架,更新为双缓冲区
355     for framework in SCM_FRAMEWORK_LIST.lock().iter_mut() {
356         if !(*framework).metadata()?.buf_info.is_double_buffer() {
357             let new_buf_info =
358                 ScmBufferInfo::new(ScmBufferFlag::SCM_BF_DB | ScmBufferFlag::SCM_BF_PIXEL)?;
359             (*framework).change(new_buf_info)?;
360         }
361     }
362     // 通知显示驱动,启动双缓冲
363     video_refresh_manager().video_reinitialize(true)?;
364 
365     return Ok(0);
366 }
367 
368 /// 允许往窗口打印信息
369 pub fn scm_enable_put_to_window() {
370     // mm之前要继续往窗口打印信息时,因为没有动态内存分配(textui并没有往scm注册),且使用的是textui,要直接修改textui里面的值
371     if CURRENT_FRAMEWORK.read().is_none() {
372         textui_enable_put_to_window();
373     } else {
374         let r = CURRENT_FRAMEWORK
375             .write()
376             .as_ref()
377             .unwrap()
378             .enable()
379             .unwrap_or_else(|e| e.to_posix_errno());
380         if r.is_negative() {
381             send_to_default_serial8250_port("scm_enable_put_to_window() failed.\n\0".as_bytes());
382         }
383     }
384 }
385 /// 禁止往窗口打印信息
386 pub fn scm_disable_put_to_window() {
387     // mm之前要停止往窗口打印信息时,因为没有动态内存分配(rwlock与otion依然能用,但是textui并没有往scm注册),且使用的是textui,要直接修改textui里面的值
388     if CURRENT_FRAMEWORK.read().is_none() {
389         textui_disable_put_to_window();
390         assert!(!textui_is_enable_put_to_window());
391     } else {
392         let r = CURRENT_FRAMEWORK
393             .write()
394             .as_ref()
395             .unwrap()
396             .disable()
397             .unwrap_or_else(|e| e.to_posix_errno());
398         if r.is_negative() {
399             send_to_default_serial8250_port("scm_disable_put_to_window() failed.\n\0".as_bytes());
400         }
401     }
402 }
403 /// 当内存管理单元被初始化之后,重新处理帧缓冲区问题
404 #[inline(never)]
405 pub fn scm_reinit() -> Result<(), SystemError> {
406     #[cfg(target_arch = "x86_64")]
407     {
408         let r = true_scm_reinit();
409         if r.is_err() {
410             send_to_default_serial8250_port("scm reinit failed.\n\0".as_bytes());
411         }
412         return r;
413     }
414 
415     #[cfg(not(target_arch = "x86_64"))]
416     {
417         return Ok(());
418     }
419 }
420 
421 #[allow(dead_code)]
422 fn true_scm_reinit() -> Result<(), SystemError> {
423     video_refresh_manager()
424         .video_reinitialize(false)
425         .expect("video reinitialize failed");
426 
427     // 遍历当前所有使用帧缓冲区的框架,更新地址
428     let device_buffer = video_refresh_manager().device_buffer().clone();
429     for framework in SCM_FRAMEWORK_LIST.lock().iter_mut() {
430         if framework.metadata()?.buf_info().is_device_buffer() {
431             framework.change(device_buffer.clone())?;
432         }
433     }
434 
435     scm_enable_put_to_window();
436 
437     return Ok(());
438 }
439