use core::sync::atomic::{AtomicBool, Ordering}; use alloc::{ sync::{Arc, Weak}, vec::Vec, }; use bitmap::{traits::BitMapOps, StaticBitmap}; use log::warn; use crate::{ driver::{ serial::serial8250::send_to_default_serial8250_port, tty::{console::ConsoleSwitch, ConsoleFont, KDMode}, }, libs::{font::FontDesc, rwlock::RwLock}, process::Pid, }; use super::{ console_map::{TranslationMap, TranslationMapType}, vc_manager, Color, DrawRegion, VtMode, VtModeData, COLOR_TABLE, DEFAULT_BLUE, DEFAULT_GREEN, DEFAULT_RED, }; pub(super) const NPAR: usize = 16; lazy_static! { /// 是否已经添加了软光标 pub(super) static ref SOFTCURSOR_ORIGINAL: RwLock> = RwLock::new(None); } pub static CONSOLE_BLANKED: AtomicBool = AtomicBool::new(false); /// ## 虚拟控制台的信息 #[derive(Debug, Clone)] pub struct VirtualConsoleData { pub vc_index: usize, pub state: VirtualConsoleInfo, pub saved_state: VirtualConsoleInfo, /// 最大列数 pub cols: usize, /// 最大行数 pub rows: usize, // /// 每行的字节数 // pub bytes_per_row: usize, /// 扫描行数 pub scan_lines: usize, /// 字符单元高度 pub cell_height: u32, // /// 实际屏幕地址的开始 // pub screen_base: VirtAddr, // /// 实际屏幕的结束 // pub scr_end: u64, /// 可见窗口的开始 pub visible_origin: usize, /// 滚动窗口的顶部 pub top: usize, /// 滚动窗口的底部 pub bottom: usize, /// 当前读取位置 pub pos: usize, /// 颜色集合 pub palette: [Color; 16], /// 默认颜色 pub def_color: u8, /// 下划线颜色 pub underline_color: u32, /// 斜体颜色 pub italic_color: u32, /// 半强度颜色 pub half_color: u32, pub mode: KDMode, pub vt_mode: VtModeData, /// 是否启用颜色 pub color_mode: bool, // 字符 pub hi_font_mask: u16, pub font: ConsoleFont, pub erase_char: u16, pub complement_mask: u16, pub s_complement_mask: u16, pub cursor_blink_ms: u16, pub pid: Option, pub index: usize, pub vc_state: VirtualConsoleState, // 一些标志 /// 指示是否显示 ASCII 字符小于 32 的控制字符(vc_disp_ctrl) pub display_ctrl: bool, /// 指示是否切换高位(meta)位。Meta 键是一个特殊的按键,用于扩展字符集。 pub toggle_meta: bool, /// 表示屏幕模式(vc_decscnm) pub screen_mode: bool, /// 指定光标移动的起始位置,是相对于屏幕的左上角还是相对于当前页的左上角(vc_decom) pub origin_mode: bool, /// 控制光标到达行末时是否自动换行(vc_decawm) pub autowrap: bool, /// 控制光标的可见性(vc_deccm) pub cursor_visible: bool, /// 光标相关 pub cursor_type: VcCursor, /// 控制插入或替换模式(vc_decim) pub insert_mode: bool, /// 表示一些私有模式或状态,通常由特定终端实现定义(vc_priv) pub private: Vt102_OP, /// 是否需要进行自动换行 pub need_wrap: bool, /// 控制鼠标事件的报告方式 pub report_mouse: u8, /// 指示终端是否使用 UTF-8 编码 pub utf: bool, /// UTF-8 编码的字符计数,表示还需要多少个字节才能够构建完成 pub utf_count: u8, /// UTF-8 编码的字符,表示正在构建的utf字符 pub utf_char: u32, /// 构建utf时需要的参数,表示目前接收了多少个字节的数据来构建utf字符 pub npar: u32, pub par: [u32; NPAR], /// 字符转换表 用于将输入字符映射到特定的字符 pub translate: TranslationMap, pub tab_stop: StaticBitmap<256>, pub attr: u8, /// vc缓冲区 pub screen_buf: Vec, /// 对应的Console Driver funcs driver_funcs: Option>, } impl VirtualConsoleData { #[inline(never)] pub fn new(num: usize) -> Self { Self { state: VirtualConsoleInfo::new(0, 0), saved_state: Default::default(), cols: Default::default(), rows: Default::default(), // bytes_per_row: Default::default(), scan_lines: Default::default(), cell_height: Default::default(), // origin: Default::default(), // scr_end: Default::default(), visible_origin: Default::default(), top: Default::default(), bottom: Default::default(), palette: [Default::default(); 16], def_color: Default::default(), underline_color: Default::default(), italic_color: Default::default(), half_color: Default::default(), mode: Default::default(), color_mode: Default::default(), hi_font_mask: Default::default(), erase_char: Default::default(), complement_mask: Default::default(), s_complement_mask: Default::default(), cursor_blink_ms: 200, pos: Default::default(), vt_mode: VtModeData { mode: VtMode::Auto, relsig: 0, acqsig: 0, }, pid: None, index: 0, font: Default::default(), vc_state: VirtualConsoleState::ESnormal, display_ctrl: Default::default(), toggle_meta: Default::default(), screen_mode: Default::default(), origin_mode: Default::default(), autowrap: Default::default(), cursor_visible: Default::default(), insert_mode: Default::default(), private: Vt102_OP::Pecma, need_wrap: Default::default(), report_mouse: Default::default(), utf: Default::default(), utf_count: Default::default(), utf_char: Default::default(), translate: TranslationMap::new(TranslationMapType::Lat1), npar: Default::default(), tab_stop: StaticBitmap::new(), par: [0; 16], attr: Default::default(), screen_buf: Default::default(), driver_funcs: None, cursor_type: VcCursor::empty(), vc_index: num, } } pub(super) fn init(&mut self, rows: Option, cols: Option, clear: bool) { if let Some(rows) = rows { self.rows = rows; } if let Some(cols) = cols { self.cols = cols; } self.pos = self.cols * self.state.y + self.state.x; // self.bytes_per_row = self.cols << 1; self.def_color = 15; // white self.italic_color = 2; // green self.underline_color = 3; // cyan self.half_color = 0x08; // grey self.screen_buf.resize(self.cols * self.rows, 0); self.reset(clear); } pub fn should_update(&self) -> bool { self.is_visible() && !CONSOLE_BLANKED.load(Ordering::SeqCst) } pub fn is_visible(&self) -> bool { if let Some(cur_vc) = vc_manager().current_vc_index() { cur_vc == self.vc_index } else { false } } fn driver_funcs(&self) -> Arc { self.driver_funcs.as_ref().unwrap().upgrade().unwrap() } pub(super) fn set_driver_funcs(&mut self, func: Weak) { self.driver_funcs = Some(func); } pub(super) fn reset(&mut self, do_clear: bool) { self.mode = KDMode::KdText; // unicode? self.vt_mode.mode = VtMode::Auto; self.vt_mode.acqsig = 0; self.vt_mode.relsig = 0; self.display_ctrl = false; self.toggle_meta = false; self.screen_mode = false; self.origin_mode = false; self.autowrap = true; self.cursor_visible = true; self.insert_mode = false; self.need_wrap = false; self.report_mouse = 0; self.utf_count = 0; self.translate = TranslationMap::new(TranslationMapType::Lat1); self.utf = true; self.pid = None; self.vc_state = VirtualConsoleState::ESnormal; self.reset_palette(); // self.cursor_type = VcCursor::CUR_UNDERLINE; self.cursor_type = VcCursor::CUR_BLOCK; self.default_attr(); self.update_attr(); self.tab_stop.set_all(false); for i in (0..256).step_by(8) { self.tab_stop.set(i, true); } self.state.x = 0; self.state.y = 0; self.pos = 0; if do_clear { self.csi_J(2); } } fn reset_palette(&mut self) { for (idx, color) in self.palette.iter_mut().enumerate() { color.red = DEFAULT_RED[idx]; color.green = DEFAULT_GREEN[idx]; color.blue = DEFAULT_BLUE[idx]; } self.set_palette(); } fn set_palette(&self) { if self.mode != KDMode::KdGraphics { // todo: 通知driver层的Console let _ = self.driver_funcs().con_set_palette(self, COLOR_TABLE); } } /// ## 翻译字符,将字符转换为终端控制符 /// ### 参数 /// /// ### c: 需要转换的字符 /// /// ### 返回值 /// ### (转换后的字符:i32,是否需要更多的数据才能进行转换:bool) pub(super) fn translate(&mut self, c: &mut u32) -> (Option, bool) { if self.vc_state != VirtualConsoleState::ESnormal { // 在控制字符状态下不需要翻译 return (Some(*c), false); } if self.utf && !self.display_ctrl { // utf模式并且不显示控制字符 let (ret, rescan) = self.translate_unicode(*c); if let Some(ret) = ret { *c = ret; } return (ret, rescan); } return (Some(self.translate_ascii(*c)), false); } /// 该数组包含每个字节序列长度变化的阈值 /// 即如果由两个字节组成的unicode字符,则长度应该在UTF8_LENGTH_CHANGES[0] ~ UTF8_LENGTH_CHANGES[1]之间 const UTF8_LENGTH_CHANGES: &'static [u32] = &[ 0x0000007f, 0x000007ff, 0x0000ffff, 0x001fffff, 0x03ffffff, 0x7fffffff, ]; /// ## 翻译字符,将UTF-8 编码的字符转换为 Unicode 编码 /// ### 参数 /// /// ### c: 需要转换的字符 /// /// ### 返回值 /// ### (转换后的字符:i32,是否需要重新传入该字符:bool) /// /// !!! 注意,该函数返回true时,元组的第一个数据是无效数据(未转换完成) fn translate_unicode(&mut self, c: u32) -> (Option, bool) { // 收到的字符不是首个 if (c & 0xc0) == 0x80 { // 已经不需要继续的字符了,说明这个字符是非法的 if self.utf_count == 0 { return (Some(0xfffd), false); } self.utf_char = (self.utf_char << 6) | (c & 0x3f); self.npar += 1; self.utf_count -= 1; if self.utf_count > 0 { // 表示需要更多字节 return (None, false); } let c = self.utf_char; // 先检查一遍是否合格 if c <= Self::UTF8_LENGTH_CHANGES[self.npar as usize - 1] || c > Self::UTF8_LENGTH_CHANGES[self.npar as usize] { return (Some(0xfffd), false); } return (Some(Self::sanitize_unicode(c)), false); } // 接收到单个ASCII字符或者一个序列的首字符,且上次的未处理完,则上一个字符视为无效,则需要重新传入该字符处理 if self.utf_count > 0 { self.utf_count = 0; return (Some(0xfffd), true); } // ascii if c <= 0x7f { return (Some(c), false); } // 第一个字节 self.npar = 0; if (c & 0xe0) == 0xc0 { self.utf_count = 1; self.utf_char = c & 0x1f; } else if (c & 0xf0) == 0xe0 { self.utf_count = 2; self.utf_char = c & 0x0f; } else if (c & 0xf8) == 0xf0 { self.utf_count = 3; self.utf_char = c & 0x07; } else if (c & 0xfc) == 0xf8 { self.utf_count = 4; self.utf_char = c & 0x03; } else if (c & 0xfe) == 0xfc { self.utf_count = 5; self.utf_char = c & 0x01; } else { /* 254 and 255 are invalid */ return (Some(0xfffd), false); } (None, false) } /// ## 翻译字符,将字符转换为Ascii fn translate_ascii(&self, c: u32) -> u32 { let mut c = c; if self.toggle_meta { c |= 0x80; } return self.translate.translate(c) as u32; } /// ## 用于替换无效的 Unicode 代码点(code points)。 /// Unicode 代码点的范围是从 U+0000 到 U+10FFFF, /// 但是有一些特殊的代码点是无效的或者保留给特定用途的。 /// 这个函数的主要目的是将无效的 Unicode 代码点替换为 U+FFFD,即 Unicode 替代字符。 fn sanitize_unicode(c: u32) -> u32 { if (0xd800..=0xdfff).contains(&c) || c == 0xfffe || c == 0xffff { return 0xfffd; } return c; } /// 用于表示小于 32 的字符中,哪些字符对应的位被设置为 1, /// 表示这些字符会触发一些特殊的动作,比如光标移动等。 /// 这些字符在 disp_ctrl 模式未开启时不应该被显示为图形符号 const CTRL_ACTION: u32 = 0x0d00ff81; /// 用于表示哪些控制字符是始终显示的,即便 disp_ctrl 模式未开启。 /// 这些字符对于终端来说是必要的,显示它们是为了保证终端正常工作。 /// 这些字符在 disp_ctrl 模式开启或关闭时都应该显示为控制字符。 const CTRL_ALWAYS: u32 = 0x0800f501; /// ## 用于判断tc(终端字符)在当前VC下是不是需要显示的控制字符 pub(super) fn is_control(&self, tc: u32, c: u32) -> bool { // 当前vc状态机不在正常状态,即在接收特殊字符的状态,则是控制字符 if self.vc_state != VirtualConsoleState::ESnormal { return true; } if tc == 0 { return true; } if c < 32 { if self.display_ctrl { // 查看在位图中是否有该字符 return Self::CTRL_ALWAYS & (1 << c) != 0; } else { return self.utf || (Self::CTRL_ACTION & (1 << c) != 0); } } if c == 127 && !self.display_ctrl { return true; } if c == 128 + 27 { return true; } false } pub(super) fn set_cursor(&mut self) { if self.mode == KDMode::KdGraphics { return; } if self.cursor_visible { // TODO: 处理选择 self.add_softcursor(); if self.cursor_type.cursor_size() != VcCursor::CUR_NONE { self.driver_funcs().con_cursor(self, CursorOperation::Draw); } } else { self.hide_cursor(); } } /// ## 添加软光标 fn add_softcursor(&mut self) { let mut i = self.screen_buf[self.pos] as u32; let cursor_type = self.cursor_type; if !cursor_type.contains(VcCursor::CUR_SW) { return; } if SOFTCURSOR_ORIGINAL.read_irqsave().is_some() { // 已经设置了软光标 return; } let mut soft_cursor_guard = SOFTCURSOR_ORIGINAL.write_irqsave(); *soft_cursor_guard = Some(unsafe { VcCursor::from_bits_unchecked(i) }); let soft_cursor = soft_cursor_guard.unwrap(); i |= cursor_type.cursor_set(); i ^= cursor_type.cursor_change(); if cursor_type.contains(VcCursor::CUR_ALWAYS_BG) && ((soft_cursor.bits & VcCursor::CUR_BG.bits) == (i & VcCursor::CUR_BG.bits)) { i ^= VcCursor::CUR_BG.bits; } if cursor_type.contains(VcCursor::CUR_INVERT_FG_BG) && ((i & VcCursor::CUR_FG.bits) == ((i & VcCursor::CUR_BG.bits) >> 4)) { i ^= VcCursor::CUR_FG.bits; } self.screen_buf[self.pos] = i as u16; let _ = self.driver_funcs() .con_putc(self, i as u16, self.state.y as u32, self.state.x as u32); } pub fn hide_cursor(&mut self) { // TODO: 处理选择 self.driver_funcs().con_cursor(self, CursorOperation::Erase); self.hide_softcursor(); } fn hide_softcursor(&mut self) { let softcursor = SOFTCURSOR_ORIGINAL.upgradeable_read_irqsave(); if softcursor.is_some() { self.screen_buf[self.pos] = softcursor.unwrap().bits as u16; let _ = self.driver_funcs().con_putc( self, softcursor.unwrap().bits as u16, self.state.y as u32, self.state.x as u32, ); *softcursor.upgrade() = None; } } fn gotoxay(&mut self, x: i32, y: i32) { if self.origin_mode { self.gotoxy(x, self.top as i32 + y); } else { self.gotoxy(x, y) } } // ## 将当前vc的光标移动到目标位置 fn gotoxy(&mut self, x: i32, y: i32) { if x < 0 { self.state.x = 0; } else if x as usize >= self.cols { self.state.x = self.cols - 1; } else { self.state.x = x as usize; } let max_y; let min_y; if self.origin_mode { min_y = self.top; max_y = self.bottom - 1; } else { min_y = 0; max_y = self.rows - 1; } if y < min_y as i32 { self.state.y = min_y; } else if y >= max_y as i32 { self.state.y = max_y; } else { self.state.y = y as usize; } self.pos = self.state.y * self.cols + self.state.x; self.need_wrap = false; } fn scroll(&mut self, dir: ScrollDir, mut nr: usize) { // todo: uniscr_srceen if self.top + nr >= self.bottom { // 滚动超过一页,则按一页计算 nr = self.bottom - self.top - 1; } if nr < 1 { return; } if self.is_visible() && self .driver_funcs() .con_scroll(self, self.top, self.bottom, dir, nr) { // 如果成功 return; } // 调整screen_buf let count = nr * self.cols; if dir == ScrollDir::Up { for i in self.screen_buf[0..count].iter_mut() { *i = self.erase_char; } self.screen_buf.rotate_left(count); } else if dir == ScrollDir::Down { todo!(); } } /// ## 退格 fn backspace(&mut self) { if self.state.x > 0 { self.pos -= 1; self.state.x -= 1; self.need_wrap = false; // TODO: notify } } /// ## 换行 fn line_feed(&mut self) { if self.state.y + 1 == self.bottom { self.scroll(ScrollDir::Up, 1); } else if self.state.y < self.rows - 1 { self.state.y += 1; self.pos += self.cols; } self.need_wrap = false; // TODO: Notify write } /// ## 回车 fn carriage_return(&mut self) { // 写入位置回退到该行最前 self.pos -= self.state.x; self.need_wrap = false; self.state.x = 0; } /// ## Del fn delete(&mut self) { // ignore } /// ## 向上滚动虚拟终端的内容,或者将光标上移一行 fn reverse_index(&mut self) { if self.state.y == self.top { self.scroll(ScrollDir::Down, 1); } else if self.state.y > 0 { self.state.y -= 1; self.pos -= self.cols; } self.need_wrap = false; } /// https://code.dragonos.org.cn/xref/linux-6.1.9/drivers/tty/vt/vt.c#restore_cur fn restore_cursor(&mut self) { self.saved_state = self.state.clone(); self.gotoxy(self.state.x as i32, self.state.y as i32); // TODO Gx_charset self.update_attr(); self.need_wrap = false; todo!() } /// ## 设置当前vt的各项属性 fn set_mode(&mut self, on_off: bool) { for i in 0..self.npar as usize { if self.private == Vt102_OP::Pdec { match self.par[i] { 1 => { todo!("kbd todo"); } 3 => { todo!("reisze todo"); } 5 => { todo!("invert_screen todo"); } 6 => { self.origin_mode = on_off; if on_off { self.gotoxy(0, self.top as i32); } else { self.gotoxy(0, 0); } } 7 => { self.autowrap = on_off; } 8 => { todo!("kbd todo"); } 9 => { todo!("report mouse todo"); } 25 => { self.cursor_visible = on_off; } 1000 => { todo!("report mouse todo"); } _ => {} } } else { match self.par[i] { 3 => { self.display_ctrl = on_off; } 4 => { self.insert_mode = on_off; } 20 => { todo!("kbd todo"); } _ => {} } } } } #[inline(never)] fn do_getpars(&mut self, c: char) { if c == ';' && self.npar < (NPAR - 1) as u32 { self.npar += 1; return; } if c.is_ascii_digit() { self.par[self.npar as usize] *= 10; self.par[self.npar as usize] += (c as u8 - b'0') as u32; return; } if c as u8 >= 0x20 && c as u8 <= 0x3f { self.vc_state = VirtualConsoleState::EScsiignore; return; } self.vc_state = VirtualConsoleState::ESnormal; match c { 'h' => { if self.private <= Vt102_OP::Pdec { self.set_mode(true); } return; } 'l' => { if self.private <= Vt102_OP::Pdec { self.set_mode(false); } return; } 'c' => { if self.private == Vt102_OP::Pdec { if self.par[0] != 0 { self.cursor_type = VcCursor::make_cursor(self.par[0], self.par[1], self.par[2]) } else { self.cursor_type = VcCursor::CUR_UNDERLINE; } return; } } 'm' => { if self.private == Vt102_OP::Pdec { if self.par[0] != 0 { self.complement_mask = (self.par[0] << 8 | self.par[1]) as u16; } else { self.complement_mask = self.s_complement_mask; } return; } } 'n' => { if self.private == Vt102_OP::Pecma { if self.par[0] == 5 { send_to_default_serial8250_port("tty status report todo".as_bytes()); panic!(); } else if self.par[0] == 6 { send_to_default_serial8250_port("tty cursor report todo".as_bytes()); panic!(); } } return; } _ => {} } if self.private != Vt102_OP::Pecma { self.private = Vt102_OP::Pecma; return; } match c { 'G' | '`' => { if self.par[0] != 0 { self.par[0] -= 1; } self.gotoxy(self.par[0] as i32, self.state.y as i32); return; } 'A' => { if self.par[0] == 0 { self.par[0] += 1; } self.gotoxy( self.state.x as i32, (self.state.y - self.par[0] as usize) as i32, ); return; } 'B' | 'e' => { if self.par[0] == 0 { self.par[0] += 1; } self.gotoxy( self.state.x as i32, (self.state.y + self.par[0] as usize) as i32, ); return; } 'C' | 'a' => { if self.par[0] == 0 { self.par[0] += 1; } self.gotoxy( (self.state.x + self.par[0] as usize) as i32, self.state.y as i32, ); return; } 'D' => { if self.par[0] == 0 { self.par[0] += 1; } self.gotoxy( self.state.x as i32 - self.par[0] as i32, self.state.y as i32, ); return; } 'E' => { if self.par[0] == 0 { self.par[0] += 1; } self.gotoxy(0, (self.state.y + self.par[0] as usize) as i32); return; } 'F' => { if self.par[0] == 0 { self.par[0] += 1; } self.gotoxy(0, self.state.y as i32 - self.par[0] as i32); return; } 'd' => { if self.par[0] != 0 { self.par[0] -= 1; } self.gotoxay(self.state.x as i32, self.par[0] as i32); return; } 'H' | 'f' => { // MOVETO if self.par[0] != 0 { self.par[0] -= 1; } if self.par[1] != 0 { self.par[1] -= 1; } self.gotoxay(self.par[1] as i32, self.par[0] as i32); return; } 'J' => { self.csi_J(self.par[0]); return; } 'K' => { self.csi_K(self.par[0]); return; } 'L' => { todo!("csi_L todo"); } 'M' => { todo!("csi_M todo"); } 'P' => { todo!("csi_P todo"); } // 非ANSI标准,为ANSI拓展 'S' => { self.scroll(ScrollDir::Up, self.par[0] as usize); return; } 'T' => { self.scroll(ScrollDir::Down, self.par[0] as usize); return; } 'c' => { if self.par[0] == 0 { warn!("respone ID todo"); } return; } 'g' => { if self.par[0] == 0 && self.state.x < 256 { self.tab_stop.set(self.state.x, true); } else if self.par[0] == 3 { self.tab_stop.set_all(false); } return; } 'm' => { self.csi_m(); return; } 'q' => { if self.par[0] < 4 { todo!("vt set led state todo"); } return; } 'r' => { if self.par[0] == 0 { self.par[0] += 1; } if self.par[1] == 0 { self.par[1] = self.rows as u32; } if self.par[0] < self.par[1] && self.par[1] <= self.rows as u32 { self.top = self.par[0] as usize - 1; self.bottom = self.par[1] as usize; self.gotoxay(0, 0); } return; } 's' => { self.saved_state = self.state.clone(); return; } 'u' => { self.restore_cursor(); return; } '@' => { todo!("csi_at todo"); } ']' => { todo!("set termial command todo"); } _ => {} } } /// ## 处理Control Sequence Introducer(控制序列引导符) m字符 #[inline(never)] fn csi_m(&mut self) { let mut i = 0; loop { if i > self.npar as usize { break; } match self.par[i] { 0 => { // 关闭所有属性 self.default_attr(); } 1 => { // 设置粗体 self.state.intensity = VirtualConsoleIntensity::Bold; } 2 => { // 设置半亮度(半明显 self.state.intensity = VirtualConsoleIntensity::HalfBright; } 3 => { // 斜体 self.state.italic = true; } 4 | 21 => { // 下划线 // 21是设置双下划线,但是不支持,就单下划线 self.state.underline = true; } 5 => { // 设置闪烁 self.state.blink = true; } 7 => { // 设置反显(前景色与背景色对调) self.state.reverse = true; } 10 => { // 选择主要字体 todo!() } 11 => { // 选择第一个替代字体 todo!() } 12 => { // 选择第二个替代字体 todo!() } 22 => { // 关闭粗体和半亮度,恢复正常亮度 self.state.intensity = VirtualConsoleIntensity::Normal; } 23 => { // 关闭斜体 self.state.italic = false; } 24 => { // 关闭下划线 self.state.underline = false; } 25 => { // 关闭字符闪烁 self.state.blink = false; } 27 => { // 关闭反显 self.state.reverse = false; } 38 => { // 设置前景色 let (idx, color) = self.t416_color(i); i = idx; if let Some(color) = color { let mut max = color.red.max(color.green); max = max.max(color.blue); let mut hue = 0; if color.red > max / 2 { hue |= 4; } if color.green > max / 2 { hue |= 2; } if color.blue > max / 2 { hue |= 1; } if hue == 7 && max <= 0x55 { hue = 0; self.state.intensity = VirtualConsoleIntensity::Bold; } else if max > 0xaa { self.state.intensity = VirtualConsoleIntensity::Bold; } else { self.state.intensity = VirtualConsoleIntensity::Normal; } self.state.color = (self.state.color & 0xf0) | hue; } } 48 => { // 设置背景色 let (idx, color) = self.t416_color(i); i = idx; if let Some(color) = color { self.state.color = (self.state.color & 0x0f) | ((color.red as u8 & 0x80) >> 1) | ((color.green as u8 & 0x80) >> 2) | ((color.blue as u8 & 0x80) >> 3); } } 39 => { // 恢复默认前景色 self.state.color = (self.def_color & 0x0f) | (self.state.color & 0xf0); } 49 => { // 恢复默认背景色 self.state.color = (self.def_color & 0xf0) | (self.state.color & 0x0f); } _ => { if self.par[i] >= 90 && self.par[i] <= 107 { if self.par[i] < 100 { self.state.intensity = VirtualConsoleIntensity::Bold; } self.par[i] -= 60; } if self.par[i] >= 30 && self.par[i] <= 37 { self.state.color = COLOR_TABLE[self.par[i] as usize - 30] | self.state.color & 0xf0; } else if self.par[i] >= 40 && self.par[i] <= 47 { self.state.color = (COLOR_TABLE[self.par[i] as usize - 40] << 4) | self.state.color & 0xf0; } } } i += 1; } self.update_attr(); } /// ## 处理Control Sequence Introducer(控制序列引导符) J字符 /// 该命令用于擦除终端显示区域的部分或全部内容。根据参数 vpar 的不同值,执行不同的擦除操作: /// - vpar 为 0 时,擦除从光标位置到显示区域末尾的内容; /// - vpar 为 1 时,擦除从显示区域起始位置到光标位置的内容; /// - vpar 为 2 或 3 时,分别表示擦除整个显示区域的内容,其中参数 3 还会清除回滚缓冲区的内容。 #[allow(non_snake_case)] fn csi_J(&mut self, vpar: u32) { let count; let start; match vpar { 0 => { // 擦除从光标位置到显示区域末尾的内容 count = self.screen_buf.len() - self.pos; start = self.pos; } 1 => { // 擦除从显示区域起始位置到光标位置的内容 count = self.pos; start = 0; } 2 => { // 擦除整个显示区域的内容 count = self.screen_buf.len(); start = 0; } 3 => { // 表示擦除整个显示区域的内容,还会清除回滚缓冲区的内容 // TODO:当前未实现回滚缓冲 count = self.screen_buf.len(); start = 0; } _ => { return; } } for i in self.screen_buf[start..(start + count)].iter_mut() { *i = self.erase_char; } if self.should_update() { self.do_update_region(start, count) } self.need_wrap = false; } /// ## 处理Control Sequence Introducer(控制序列引导符) K字符 /// 该命令用于擦除终端当前行的部分或全部内容。根据参数 vpar 的不同值,执行不同的擦除操作: /// - vpar 为 0 时,擦除从光标位置到该行末尾的内容 /// - vpar 为 1 时,擦除从该行起始位置到光标位置的内容 /// - vpar 为 2 时,擦除整个行。 #[allow(non_snake_case)] fn csi_K(&mut self, vpar: u32) { let count; let start; match vpar { 0 => { // 擦除从光标位置到该行末尾的内容 count = self.cols - self.state.x; start = self.pos; } 1 => { // 擦除从该行起始位置到光标位置的内容 count = self.state.x + 1; start = self.pos - self.state.x; } 2 => { // 擦除整个行 count = self.cols; start = self.pos - self.state.x; } _ => { return; } } let max_idx = self.screen_buf.len(); for i in self.screen_buf[start..max_idx.min(start + count)].iter_mut() { *i = self.erase_char; } if self.should_update() { self.do_update_region(start, count.min(max_idx - start)) } self.need_wrap = false; } fn t416_color(&mut self, mut idx: usize) -> (usize, Option) { idx += 1; if idx > self.npar as usize { return (idx, None); } if self.par[idx] == 5 && idx < self.npar as usize { // 256色 idx += 1; return (idx, Some(Color::from_256(self.par[idx]))); } else if self.par[idx] == 2 && idx + 3 <= self.npar as usize { // 24位 let color = Color { red: self.par[idx + 1] as u16, green: self.par[idx + 2] as u16, blue: self.par[idx + 3] as u16, ..Default::default() }; idx += 3; return (idx, Some(color)); } else { return (idx, None); } } /// ## 处理终端控制字符 #[inline(never)] pub(super) fn do_control(&mut self, ch: u32) { // 首先检查是否处于 ANSI 控制字符串状态 if self.vc_state.is_ansi_control_string() && (8..=13).contains(&ch) { return; } match ch { 0 => { return; } 7 => { // BEL if self.vc_state.is_ansi_control_string() { self.vc_state = VirtualConsoleState::ESnormal; } // TODO: 发出声音? return; } 8 => { // BS backspace self.backspace(); return; } 9 => { // 水平制表符(Horizontal Tab) self.pos -= self.state.x; let ret = self.tab_stop.next_index(self.state.x + 1); if let Some(x) = ret { self.state.x = x; } else { self.state.x = self.cols - 1; } self.pos += self.state.x; // TODO: notify return; } 10..=12 => { // LD line feed self.line_feed(); // TODO: 检查键盘模式 self.carriage_return(); return; } 13 => { // CR 回车符 self.carriage_return(); return; } 14 => { todo!("Gx_charset todo!"); } 15 => { todo!("Gx_charset todo!"); } 24 | 26 => { self.vc_state = VirtualConsoleState::ESnormal; return; } 27 => { // esc self.vc_state = VirtualConsoleState::ESesc; return; } 127 => { // delete self.delete(); return; } 155 => { // '[' self.vc_state = VirtualConsoleState::ESsquare; return; } _ => {} } match self.vc_state { VirtualConsoleState::ESesc => { self.vc_state = VirtualConsoleState::ESnormal; match ch as u8 as char { '[' => { self.vc_state = VirtualConsoleState::ESsquare; } ']' => { self.vc_state = VirtualConsoleState::ESnonstd; } '_' => { self.vc_state = VirtualConsoleState::ESapc; } '^' => { self.vc_state = VirtualConsoleState::ESpm; } '%' => { self.vc_state = VirtualConsoleState::ESpercent; } 'E' => { self.carriage_return(); self.line_feed(); } 'M' => { self.reverse_index(); } 'D' => { self.line_feed(); } 'H' => { if self.state.x < 256 { self.tab_stop.set(self.state.x, true); } } 'P' => { self.vc_state = VirtualConsoleState::ESdcs; } 'Z' => { todo!("Respond ID todo!"); } '7' => self.saved_state = self.state.clone(), '8' => self.restore_cursor(), '(' => { self.vc_state = VirtualConsoleState::ESsetG0; } ')' => { self.vc_state = VirtualConsoleState::ESsetG1; } '#' => { self.vc_state = VirtualConsoleState::EShash; } 'c' => { self.reset(true); } '>' => { todo!("clr_kbd todo"); } '=' => { todo!("set_kbd todo"); } _ => {} } } VirtualConsoleState::ESsquare => { for i in self.par.iter_mut() { *i = 0; } self.vc_state = VirtualConsoleState::ESgetpars; self.npar = 0; let c = ch as u8 as char; if c == '[' { self.vc_state = VirtualConsoleState::ESfunckey; return; } match c { '?' => { self.private = Vt102_OP::Pdec; return; } '>' => { self.private = Vt102_OP::Pgt; return; } '=' => { self.private = Vt102_OP::Peq; return; } '<' => { self.private = Vt102_OP::Plt; return; } _ => {} } self.private = Vt102_OP::Pecma; self.do_getpars(c); } VirtualConsoleState::ESgetpars => { let c = ch as u8 as char; self.do_getpars(c); } VirtualConsoleState::ESfunckey => { self.vc_state = VirtualConsoleState::ESnormal; return; } VirtualConsoleState::EShash => { self.vc_state = VirtualConsoleState::ESnormal; if ch as u8 as char == '8' { self.erase_char = (self.erase_char & 0xff00) | 'E' as u16; self.csi_J(2); self.erase_char = (self.erase_char & 0xff00) | ' ' as u16; self.do_update_region(0, self.screen_buf.len()); } return; } VirtualConsoleState::ESsetG0 => { todo!("SetGx todo"); } VirtualConsoleState::ESsetG1 => { todo!("SetGx todo"); } VirtualConsoleState::ESpercent => { self.vc_state = VirtualConsoleState::ESnormal; let c = ch as u8 as char; match c { '@' => { self.utf = false; return; } 'G' | '8' => { self.utf = true; return; } _ => {} } return; } VirtualConsoleState::EScsiignore => { if (20..=0x3f).contains(&ch) { return; } self.vc_state = VirtualConsoleState::ESnormal; return; } VirtualConsoleState::ESnonstd => { let c = ch as u8 as char; if c == 'P' { for i in self.par.iter_mut() { *i = 0; } self.npar = 0; self.vc_state = VirtualConsoleState::ESpalette; return; } else if c == 'R' { self.reset_palette(); self.vc_state = VirtualConsoleState::ESnormal; } else if c.is_ascii_digit() { self.vc_state = VirtualConsoleState::ESosc; } else { self.vc_state = VirtualConsoleState::ESnormal; } } VirtualConsoleState::ESpalette => { let c = ch as u8 as char; if c.is_ascii_hexdigit() { self.npar += 1; self.par[self.npar as usize] = c.to_digit(16).unwrap(); if self.npar == 7 { let mut i = self.par[0] as usize; let mut j = 0; self.palette[i].red = self.par[j] as u16; j += 1; self.palette[i].green = self.par[j] as u16; j += 1; self.palette[i].blue = self.par[j] as u16; j += 1; i += 1; self.palette[i].red = self.par[j] as u16; j += 1; self.palette[i].green = self.par[j] as u16; j += 1; self.palette[i].blue = self.par[j] as u16; self.set_palette(); self.vc_state = VirtualConsoleState::ESnormal; } } } VirtualConsoleState::ESosc => {} VirtualConsoleState::ESapc => {} VirtualConsoleState::ESpm => {} VirtualConsoleState::ESdcs => {} VirtualConsoleState::ESnormal => {} } } #[inline(never)] pub(super) fn console_write_normal( &mut self, mut tc: u32, c: u32, draw: &mut DrawRegion, ) -> bool { let mut attr = self.attr; let himask = self.hi_font_mask; let charmask = if himask == 0 { 0xff } else { 0x1ff }; let mut width = 1; // 表示需不需要反转 let mut invert = false; if self.utf && !self.display_ctrl && FontDesc::is_double_width(c) { width = 2; } let tmp = self.unicode_to_index(tc); if tmp & (!charmask as i32) != 0 { if tmp == -1 || tmp == -2 { return false; } // 未找到 if (!self.utf || self.display_ctrl || c < 128) && c & !charmask == 0 { tc = c; } else { let tmp = self.unicode_to_index(0xfffd); if tmp < 0 { invert = true; let tmp = self.unicode_to_index('?' as u32); if tmp < 0 { tc = '?' as u32; } else { tc = tmp as u32; } attr = self.invert_attr(); self.flush(draw); } } } loop { if self.need_wrap || self.insert_mode { self.flush(draw); } if self.need_wrap { self.carriage_return(); self.line_feed(); } if self.insert_mode { self.insert_char(1); } // TODO: 处理unicode screen buf if himask != 0 { tc = (if tc & 0x100 != 0 { himask as u32 } else { 0 }) | (tc & 0xff); } tc |= ((attr as u32) << 8) & (!himask as u32); // warn!( // "ch {} pos {} x {} y {} cols {}", // c as u8 as char, // self.pos, // self.state.x, // self.state.y, // self.cols, // ); self.screen_buf[self.pos] = tc as u16; if draw.x.is_none() { // 设置draw参数 draw.x = Some(self.state.x as u32); draw.offset = self.pos; } if self.state.x == self.cols - 1 { // 需要换行? self.need_wrap = self.autowrap; draw.size += 1; } else { self.state.x += 1; self.pos += 1; draw.size += 1; } width -= 1; if width == 0 { break; } let tmp = self.unicode_to_index(' ' as u32); tc = if tmp < 0 { ' ' as u32 } else { tmp as u32 }; } if invert { self.flush(draw); } true } /// ## 当前vc插入nr个字符 fn insert_char(&mut self, nr: usize) { // TODO: 管理unicode屏幕信息 let pos = self.pos; // 把当前位置以后得字符向后移动nr*2位 self.screen_buf[pos..].rotate_right(nr * 2); // 把空出来的位置用erase_char填充 for c in &mut self.screen_buf[pos..(pos + nr * 2)] { *c = self.erase_char } self.need_wrap = false; // 更新本行后面部分 self.do_update_region(self.pos, self.cols - self.state.x); } /// ## 更新虚拟控制台指定区域的显示 fn do_update_region(&self, mut start: usize, mut count: usize) { let ret = self.driver_funcs().con_getxy(self, start); let (mut x, mut y) = if let Ok((_, tmp_x, tmp_y)) = ret { // start = tmp_start; (tmp_x, tmp_y) } else { (start % self.cols, start / self.cols) }; loop { // 记录当前字符的属性 let mut attr = self.screen_buf[start] & 0xff00; let mut startx = x; let mut size = 0; while count != 0 && x < self.cols { // 检查属性是否变化,如果属性变了,则将前一个字符先输出 if attr != (self.screen_buf[start] & 0xff00) && size > 0 { let _ = self.driver_funcs().con_putcs( self, &self.screen_buf[start..], size, y as u32, startx as u32, ); startx = x; start += size; size = 0; attr = self.screen_buf[start] & 0xff00; } size += 1; x += 1; count -= 1; } if size > 0 { let _ = self.driver_funcs().con_putcs( self, &self.screen_buf[start..], size, y as u32, startx as u32, ); } if count == 0 { break; } // 一行 x = 0; y += 1; let ret = self.driver_funcs().con_getxy(self, start); if let Ok(ret) = ret { start = ret.0; } else { return; } } } const UNI_DIRECT_MAKS: u32 = 0x01ff; const UNI_DIRECT_BASE: u32 = 0xf000; /// ## unicode字符转对应的坐标,暂时这样写,还没有适配unicode /// 这里是糊代码的,后面重写 fn unicode_to_index(&self, ch: u32) -> i32 { if ch > 0xfff { // 未找到 return -4; } else if ch < 0x20 { // 不可打印 return -1; } else if ch == 0xfeff || (0x200b..=0x200f).contains(&ch) { // 零长空格 return -2; } else if (ch & !Self::UNI_DIRECT_MAKS) == Self::UNI_DIRECT_BASE { return (ch & Self::UNI_DIRECT_MAKS) as i32; } // TODO: 暂时这样写,表示不支持 return -3; } fn invert_attr(&self) -> u8 { if !self.color_mode { return self.attr ^ 0x08; } if self.hi_font_mask == 0x100 { return (self.attr & 0x11) | ((self.attr & 0xe0) >> 4) | ((self.attr & 0x0e) << 4); } return (self.attr & 0x88) | ((self.attr & 0x70) >> 4) | ((self.attr & 0x07) << 4); } pub(super) fn flush(&self, draw: &mut DrawRegion) { if draw.x.is_none() { return; } let _ = self.driver_funcs().con_putcs( self, &self.screen_buf[draw.offset..draw.offset + draw.size], draw.size, self.state.y as u32, draw.x.unwrap(), ); draw.x = None; draw.size = 0; } #[allow(clippy::manual_rotate)] fn build_attr( &self, color: u8, intensity: VirtualConsoleIntensity, blink: bool, underline: bool, reverse: bool, italic: bool, ) -> u8 { let ret = self .driver_funcs() .con_build_attr(self, color, intensity, blink, underline, reverse, italic); if let Ok(ret) = ret { return ret; } let mut ret = color; if !self.color_mode { return intensity as u8 | (italic as u8) << 1 | (underline as u8) << 2 | (reverse as u8) << 3 | (blink as u8) << 7; } if italic { ret = (ret & 0xf0) | self.italic_color as u8; } else if underline { ret = (ret & 0xf0) | self.underline_color as u8; } else if intensity == VirtualConsoleIntensity::HalfBright { ret = (ret & 0xf0) | self.half_color as u8; } if reverse { ret = (ret & 0x88) | (((ret >> 4) | (ret << 4)) & 0x77); } if blink { ret ^= 0x80; } if intensity == VirtualConsoleIntensity::Bold { ret ^= 0x08; } if self.hi_font_mask == 0x100 { ret <<= 1; } ret } pub(super) fn update_attr(&mut self) { self.attr = self.build_attr( self.state.color, self.state.intensity, self.state.blink, self.state.underline, self.state.reverse ^ self.screen_mode, self.state.italic, ); self.erase_char = ' ' as u16 | ((self.build_attr( self.state.color, VirtualConsoleIntensity::Normal, self.state.blink, false, self.screen_mode, false, ) as u16) << 8); } fn default_attr(&mut self) { self.state.intensity = VirtualConsoleIntensity::Normal; self.state.italic = false; self.state.underline = false; self.state.reverse = false; self.state.blink = false; self.state.color = self.def_color; } } /// ## 虚拟控制台的状态信息 #[derive(Debug, Default, Clone)] pub struct VirtualConsoleInfo { // x,y表示光标坐标 pub x: usize, pub y: usize, pub color: u8, /// 表示字符的强度 intensity: VirtualConsoleIntensity, /// 斜体 italic: bool, /// 下划线 underline: bool, /// 字符闪烁 blink: bool, /// 前景与背景色反转 reverse: bool, } impl VirtualConsoleInfo { pub fn new(x: usize, y: usize) -> Self { Self { x, y, color: Default::default(), intensity: Default::default(), italic: Default::default(), underline: Default::default(), blink: Default::default(), reverse: Default::default(), } } } /// 字符强度 #[derive(Debug, Clone, PartialEq, Copy)] pub enum VirtualConsoleIntensity { /// 暗淡 HalfBright = 0, /// 正常 Normal = 1, /// 粗体 Bold = 2, } impl Default for VirtualConsoleIntensity { fn default() -> Self { Self::Normal } } /// ## 虚拟控制台的状态 /// /// 可以把VC的接收字符理解为一个状态机 #[derive(Debug, PartialEq, Clone)] pub enum VirtualConsoleState { /// 正常状态 ESnormal, /// 收到了转义字符 \e,即"Escape"字符 ESesc, /// 收到了 "[" 字符,通常是 ANSI 控制序列的开始 ESsquare, /// 解析参数状态 ESgetpars, /// 功能键状态 ESfunckey, /// 收到了 "#" 字符 EShash, /// 设置 G0 字符集状态 ESsetG0, /// 设置 G1 字符集状态 ESsetG1, /// 收到了 "%" 字符 ESpercent, /// 忽略 ANSI 控制序列状态 EScsiignore, /// 非标准字符状态 ESnonstd, /// 调色板状态 ESpalette, /// Operating System Command (OSC) 状态 ESosc, /// Application Program Command (APC) 状态 ESapc, /// Privacy Message (PM) 状态 ESpm, /// Device Control String (DCS) 状态 ESdcs, } impl VirtualConsoleState { pub fn is_ansi_control_string(&self) -> bool { if *self == Self::ESosc || *self == Self::ESapc || *self == Self::ESpm || *self == Self::ESdcs { return true; } false } } #[derive(Debug, Clone, PartialEq, PartialOrd)] #[allow(non_camel_case_types)] pub enum Vt102_OP { Pecma, Pdec, Peq, Pgt, Plt, } bitflags! { #[derive(Default)] pub struct VcCursor: u32 { /// 默认 const CUR_DEF = 0; /// 无光标 const CUR_NONE = 1; /// 下划线形式 const CUR_UNDERLINE = 2; /// 光标占据底部的三分之一 const CUR_LOWER_THIRD = 3; /// 光标占据底部的一半 const CUR_LOWER_HALF = 4; /// 光标占据底部的三分之二 const CUR_TWO_THIRDS = 5; /// 光标为块状(方块)形式 const CUR_BLOCK = 6; /// 光标属性,用于指示软件光标 const CUR_SW = 0x000010; /// 光标属性,用于指示光标是否始终在背景上显示 const CUR_ALWAYS_BG = 0x000020; /// 光标属性,用于指示前景和背景是否反转 const CUR_INVERT_FG_BG = 0x000040; /// 光标前景色属性,用于指定光标的前景色 const CUR_FG = 0x000700; /// 光标背景色属性,用于指定光标的背景色 const CUR_BG = 0x007000; } } impl VcCursor { pub fn make_cursor(size: u32, change: u32, set: u32) -> Self { unsafe { Self::from_bits_unchecked(size | (change << 8) | (set << 16)) } } pub fn cursor_size(&self) -> Self { Self::from_bits_truncate(self.bits & 0x00000f) } pub fn cursor_set(&self) -> u32 { (self.bits & 0xff0000) >> 8 } pub fn cursor_change(&self) -> u32 { self.bits & 0x00ff00 } } #[derive(Debug, PartialEq)] #[allow(dead_code)] pub enum CursorOperation { Draw, Erase, Move, } #[derive(Debug, PartialEq, Clone, Copy)] pub enum ScrollDir { Up, Down, }