#include "VirtualConsole.h" #include "kmalloc.h" #include "i386.h" #include "IO.h" #include "StdLib.h" #include "Keyboard.h" #include static byte* s_vga_buffer; static VirtualConsole* s_consoles[6]; static int s_active_console; void VirtualConsole::get_vga_cursor(byte& row, byte& column) { word value; IO::out8(0x3d4, 0x0e); value = IO::in8(0x3d5) << 8; IO::out8(0x3d4, 0x0f); value |= IO::in8(0x3d5); row = value / columns(); column = value % columns(); } void VirtualConsole::flush_vga_cursor() { word value = m_current_vga_start_address + (m_cursor_row * columns() + m_cursor_column); IO::out8(0x3d4, 0x0e); IO::out8(0x3d5, MSB(value)); IO::out8(0x3d4, 0x0f); IO::out8(0x3d5, LSB(value)); } void VirtualConsole::initialize() { s_vga_buffer = (byte*)0xb8000; memset(s_consoles, 0, sizeof(s_consoles)); s_active_console = -1; } VirtualConsole::VirtualConsole(unsigned index, InitialContents initial_contents) : TTY(4, index) , m_index(index) { set_size(80, 25); m_horizontal_tabs = static_cast(kmalloc(columns())); for (unsigned i = 0; i < columns(); ++i) m_horizontal_tabs[i] = (i % 8) == 0; // Rightmost column is always last tab on line. m_horizontal_tabs[columns() - 1] = 1; s_consoles[index] = this; m_buffer = (byte*)kmalloc_eternal(rows() * columns() * 2); if (initial_contents == AdoptCurrentVGABuffer) { memcpy(m_buffer, s_vga_buffer, rows() * columns() * 2); get_vga_cursor(m_cursor_row, m_cursor_column); } else { word* line_mem = reinterpret_cast(m_buffer); for (word i = 0; i < rows() * columns(); ++i) line_mem[i] = 0x0720; } } VirtualConsole::~VirtualConsole() { kfree(m_horizontal_tabs); m_horizontal_tabs = nullptr; } void VirtualConsole::clear() { word* linemem = m_active ? (word*)s_vga_buffer : (word*)m_buffer; for (word i = 0; i < rows() * columns(); ++i) linemem[i] = 0x0720; if (m_active) set_vga_start_row(0); set_cursor(0, 0); } void VirtualConsole::switch_to(unsigned index) { if ((int)index == s_active_console) return; dbgprintf("VC: Switch to %u (%p)\n", index, s_consoles[index]); ASSERT(index < 6); ASSERT(s_consoles[index]); InterruptDisabler disabler; if (s_active_console != -1) s_consoles[s_active_console]->set_active(false); s_active_console = index; s_consoles[s_active_console]->set_active(true); Console::the().setImplementation(s_consoles[s_active_console]); } void VirtualConsole::set_active(bool b) { if (b == m_active) return; InterruptDisabler disabler; m_active = b; if (!m_active) { memcpy(m_buffer, m_current_vga_window, rows() * columns() * 2); return; } memcpy(s_vga_buffer, m_buffer, rows() * columns() * 2); set_vga_start_row(0); flush_vga_cursor(); #if 0 Keyboard::the().set_client(this); #endif } inline bool is_valid_parameter_character(byte ch) { return ch >= 0x30 && ch <= 0x3f; } inline bool is_valid_intermediate_character(byte ch) { return ch >= 0x20 && ch <= 0x2f; } inline bool is_valid_final_character(byte ch) { return ch >= 0x40 && ch <= 0x7e; } unsigned parseUInt(const String& str, bool& ok) { unsigned value = 0; for (size_t i = 0; i < str.length(); ++i) { if (str[i] < '0' || str[i] > '9') { ok = false; return 0; } value = value * 10; value += str[i] - '0'; } ok = true; return value; } enum class VGAColor : byte { Black = 0, Blue, Green, Cyan, Red, Magenta, Brown, LightGray, DarkGray, BrightBlue, BrightGreen, BrightCyan, BrightRed, BrightMagenta, Yellow, White, }; enum class ANSIColor : byte { Black = 0, Red, Green, Brown, Blue, Magenta, Cyan, LightGray, DarkGray, BrightRed, BrightGreen, Yellow, BrightBlue, BrightMagenta, BrightCyan, White, }; static inline VGAColor ansi_color_to_vga(ANSIColor color) { switch (color) { case ANSIColor::Black: return VGAColor::Black; case ANSIColor::Red: return VGAColor::Red; case ANSIColor::Brown: return VGAColor::Brown; case ANSIColor::Blue: return VGAColor::Blue; case ANSIColor::Magenta: return VGAColor::Magenta; case ANSIColor::Green: return VGAColor::Green; case ANSIColor::Cyan: return VGAColor::Cyan; case ANSIColor::LightGray: return VGAColor::LightGray; case ANSIColor::DarkGray: return VGAColor::DarkGray; case ANSIColor::BrightRed: return VGAColor::BrightRed; case ANSIColor::BrightGreen: return VGAColor::BrightGreen; case ANSIColor::Yellow: return VGAColor::Yellow; case ANSIColor::BrightBlue: return VGAColor::BrightBlue; case ANSIColor::BrightMagenta: return VGAColor::BrightMagenta; case ANSIColor::BrightCyan: return VGAColor::BrightCyan; case ANSIColor::White: return VGAColor::White; } ASSERT_NOT_REACHED(); return VGAColor::LightGray; } static inline byte ansi_color_to_vga(byte color) { return (byte)ansi_color_to_vga((ANSIColor)color); } void VirtualConsole::escape$m(const Vector& params) { for (auto param : params) { switch (param) { case 0: // Reset m_current_attribute = 0x07; break; case 1: // Bold m_current_attribute |= 8; break; case 30: case 31: case 32: case 33: case 34: case 35: case 36: case 37: // Foreground color m_current_attribute &= ~0x7; m_current_attribute |= ansi_color_to_vga(param - 30); break; case 40: case 41: case 42: case 43: case 44: case 45: case 46: case 47: // Background color m_current_attribute &= ~0x70; m_current_attribute |= ansi_color_to_vga(param - 30) << 8; break; } } } void VirtualConsole::escape$s(const Vector&) { m_saved_cursor_row = m_cursor_row; m_saved_cursor_column = m_cursor_column; } void VirtualConsole::escape$u(const Vector&) { set_cursor(m_saved_cursor_row, m_saved_cursor_column); } void VirtualConsole::escape$H(const Vector& params) { unsigned row = 1; unsigned col = 1; if (params.size() >= 1) row = params[0]; if (params.size() >= 2) col = params[1]; set_cursor(row - 1, col - 1); } void VirtualConsole::escape$A(const Vector& params) { int num = 1; if (params.size() >= 1) num = params[0]; int new_row = (int)m_cursor_row - num; if (new_row < 0) new_row = 0; set_cursor(new_row, m_cursor_column); } void VirtualConsole::escape$D(const Vector& params) { int num = 1; if (params.size() >= 1) num = params[0]; int new_column = (int)m_cursor_column - num; if (new_column < 0) new_column = 0; set_cursor(m_cursor_row, new_column); } void VirtualConsole::escape$J(const Vector& params) { int mode = 0; if (params.size() >= 1) mode = params[0]; switch (mode) { case 0: // FIXME: Clear from cursor to end of screen. notImplemented(); break; case 1: // FIXME: Clear from cursor to beginning of screen. notImplemented(); break; case 2: clear(); break; case 3: // FIXME: [3J should also clear the scrollback buffer. clear(); break; } } void VirtualConsole::execute_escape_sequence(byte final) { auto paramparts = String((const char*)m_parameters.data(), m_parameters.size()).split(';'); Vector params; for (auto& parampart : paramparts) { bool ok; unsigned value = parseUInt(parampart, ok); if (!ok) { // FIXME: Should we do something else? return; } params.append(value); } switch (final) { case 'A': escape$A(params); break; case 'D': escape$D(params); break; case 'H': escape$H(params); break; case 'J': escape$J(params); break; case 'm': escape$m(params); break; case 's': escape$s(params); break; case 'u': escape$u(params); break; default: break; } m_parameters.clear(); m_intermediates.clear(); } void VirtualConsole::clear_vga_row(word row) { word* linemem = (word*)&m_current_vga_window[row * 160]; for (word i = 0; i < columns(); ++i) linemem[i] = 0x0720; } void VirtualConsole::scroll_up() { if (m_cursor_row == (rows() - 1)) { if (m_active) { if (m_vga_start_row >= 160) { memcpy(s_vga_buffer, m_current_vga_window + 160, (rows() - 1) * columns() * 2); set_vga_start_row(0); clear_vga_row(24); } else { set_vga_start_row(m_vga_start_row + 1); clear_vga_row(24); } } else { memcpy(m_buffer, m_buffer + 160, 160 * 24); word* linemem = (word*)&m_buffer[24 * 160]; for (word i = 0; i < columns(); ++i) linemem[i] = 0x0720; } } else { ++m_cursor_row; } m_cursor_column = 0; } void VirtualConsole::set_cursor(unsigned row, unsigned column) { ASSERT(row < rows()); ASSERT(column < columns()); m_cursor_row = row; m_cursor_column = column; if (m_active) flush_vga_cursor(); } void VirtualConsole::put_character_at(unsigned row, unsigned column, byte ch) { ASSERT(row < rows()); ASSERT(column < columns()); word cur = (row * 160) + (column * 2); if (m_active) { word cur = (row * 160) + (column * 2); m_current_vga_window[cur] = ch; m_current_vga_window[cur + 1] = m_current_attribute; } else { m_buffer[cur] = ch; m_buffer[cur + 1] = m_current_attribute; } } void VirtualConsole::on_char(byte ch) { switch (m_escape_state) { case ExpectBracket: if (ch == '[') m_escape_state = ExpectParameter; else m_escape_state = Normal; return; case ExpectParameter: if (is_valid_parameter_character(ch)) { m_parameters.append(ch); return; } m_escape_state = ExpectIntermediate; // fall through case ExpectIntermediate: if (is_valid_intermediate_character(ch)) { m_intermediates.append(ch); return; } m_escape_state = ExpectFinal; // fall through case ExpectFinal: if (is_valid_final_character(ch)) { m_escape_state = Normal; execute_escape_sequence(ch); return; } m_escape_state = Normal; return; case Normal: break; } switch (ch) { case '\0': return; case '\033': m_escape_state = ExpectBracket; return; case 8: // Backspace if (m_cursor_column) { set_cursor(m_cursor_row, m_cursor_column - 1); put_character_at(m_cursor_row, m_cursor_column, ' '); return; } break; case '\a': // FIXME: Bell! return; case '\t': { for (unsigned i = m_cursor_column; i < columns(); ++i) { if (m_horizontal_tabs[i]) { set_cursor(m_cursor_row, i); return; } } return; } case '\n': scroll_up(); set_cursor(m_cursor_row, m_cursor_column); return; } put_character_at(m_cursor_row, m_cursor_column, ch); ++m_cursor_column; if (m_cursor_column >= columns()) scroll_up(); set_cursor(m_cursor_row, m_cursor_column); } void VirtualConsole::on_key_pressed(Keyboard::Key key) { if (key.ctrl()) { if (key.character >= 'a' && key.character <= 'z') { emit(key.character - 'a' + 1); return; } else if (key.character == '\\') { emit(0x1c); return; } } emit(key.character); } void VirtualConsole::on_sysconsole_receive(byte ch) { InterruptDisabler disabler; auto old_attribute = m_current_attribute; m_current_attribute = 0x03; on_char(ch); m_current_attribute = old_attribute; } void VirtualConsole::on_tty_write(const byte* data, size_t size) { InterruptDisabler disabler; for (size_t i = 0; i < size; ++i) on_char(data[i]); } String VirtualConsole::tty_name() const { char buf[16]; ksprintf(buf, "/dev/tty%u", m_index); return String(buf); } void VirtualConsole::set_vga_start_row(word row) { m_vga_start_row = row; m_current_vga_start_address = row * columns(); m_current_vga_window = s_vga_buffer + row * 160; IO::out8(0x3d4, 0x0c); IO::out8(0x3d5, MSB(m_current_vga_start_address)); IO::out8(0x3d4, 0x0d); IO::out8(0x3d5, LSB(m_current_vga_start_address)); }