/* * Copyright (c) 2018-2020, Andreas Kling * Copyright (c) 2021, Daniel Bertalan * * SPDX-License-Identifier: BSD-2-Clause */ #include #include #include #include #include #include #include #ifdef KERNEL # include #endif namespace VT { #ifndef KERNEL Terminal::Terminal(TerminalClient& client) #else Terminal::Terminal(Kernel::VirtualConsole& client) #endif : m_client(client) , m_parser(*this) { } #ifndef KERNEL void Terminal::clear() { dbgln_if(TERMINAL_DEBUG, "Clear the entire screen"); for (size_t i = 0; i < rows(); ++i) active_buffer()[i].clear(); set_cursor(0, 0); } void Terminal::clear_history() { dbgln_if(TERMINAL_DEBUG, "Clear history"); auto previous_history_size = m_history.size(); m_history.clear(); m_history_start = 0; m_client.terminal_history_changed(-previous_history_size); } #endif void Terminal::alter_ansi_mode(bool should_set, Parameters params) { for (auto mode : params) { switch (mode) { // FIXME: implement *something* for this default: dbgln("Terminal::alter_ansi_mode: Unimplemented mode {} (should_set={})", mode, should_set); break; } } } void Terminal::alter_private_mode(bool should_set, Parameters params) { auto steady_cursor_to_blinking = [](CursorStyle style) { switch (style) { case SteadyBar: return BlinkingBar; case SteadyBlock: return BlinkingBlock; case SteadyUnderline: return BlinkingUnderline; default: return style; } }; auto blinking_cursor_to_steady = [](CursorStyle style) { switch (style) { case BlinkingBar: return SteadyBar; case BlinkingBlock: return SteadyBlock; case BlinkingUnderline: return SteadyUnderline; default: return style; } }; for (auto mode : params) { switch (mode) { case 1: // Cursor Keys Mode (DECCKM) dbgln_if(TERMINAL_DEBUG, "Setting cursor keys mode (should_set={})", should_set); m_cursor_keys_mode = should_set ? CursorKeysMode::Application : CursorKeysMode::Cursor; break; case 3: { // 80/132-column mode (DECCOLM) unsigned new_columns = should_set ? 132 : 80; dbgln_if(TERMINAL_DEBUG, "Setting {}-column mode", new_columns); set_size(new_columns, rows()); clear(); break; } case 12: if (should_set) { // Start blinking cursor m_cursor_style = steady_cursor_to_blinking(m_cursor_style); } else { // Stop blinking cursor m_cursor_style = blinking_cursor_to_steady(m_cursor_style); } m_client.set_cursor_style(m_cursor_style); break; case 25: if (should_set) { // Show cursor m_cursor_style = m_saved_cursor_style; m_client.set_cursor_style(m_cursor_style); } else { // Hide cursor m_saved_cursor_style = m_cursor_style; m_cursor_style = None; m_client.set_cursor_style(None); } break; case 1047: #ifndef KERNEL if (should_set) { dbgln_if(TERMINAL_DEBUG, "Switching to Alternate Screen Buffer"); m_use_alternate_screen_buffer = true; clear(); m_client.terminal_history_changed(-m_history.size()); } else { dbgln_if(TERMINAL_DEBUG, "Switching to Normal Screen Buffer"); m_use_alternate_screen_buffer = false; m_client.terminal_history_changed(m_history.size()); } m_need_full_flush = true; #else dbgln("Alternate Screen Buffer is not supported"); #endif break; case 1048: if (should_set) SCOSC(); else SCORC(); break; case 1049: #ifndef KERNEL if (should_set) { dbgln_if(TERMINAL_DEBUG, "Switching to Alternate Screen Buffer and saving state"); m_normal_saved_state = m_current_state; m_use_alternate_screen_buffer = true; clear(); m_client.terminal_history_changed(-m_history.size()); } else { dbgln_if(TERMINAL_DEBUG, "Switching to Normal Screen Buffer and restoring state"); m_current_state = m_normal_saved_state; m_use_alternate_screen_buffer = false; set_cursor(cursor_row(), cursor_column()); m_client.terminal_history_changed(m_history.size()); } m_need_full_flush = true; #else dbgln("Alternate Screen Buffer is not supported"); #endif break; case 2004: dbgln_if(TERMINAL_DEBUG, "Setting bracketed mode enabled={}", should_set); m_needs_bracketed_paste = should_set; break; default: dbgln("Terminal::alter_private_mode: Unimplemented private mode {} (should_set={})", mode, should_set); break; } } } void Terminal::RM(Parameters params) { alter_ansi_mode(false, params); } void Terminal::DECRST(Parameters params) { alter_private_mode(false, params); } void Terminal::SM(Parameters params) { alter_ansi_mode(true, params); } void Terminal::DECSET(Parameters params) { alter_private_mode(true, params); } void Terminal::SGR(Parameters params) { if (params.is_empty()) { m_current_state.attribute.reset(); return; } auto parse_color = [&]() -> Optional { if (params.size() < 2) { dbgln("Color code has no type"); return {}; } u32 rgb = 0; switch (params[1]) { case 5: // 8-bit if (params.size() < 3) { dbgln("8-bit color code has too few parameters"); return {}; } if (params[2] > 255) { dbgln("8-bit color code has out-of-bounds value"); return {}; } return Color::indexed(params[2]); case 2: // 24-bit if (params.size() < 5) { dbgln("24-bit color code has too few parameters"); return {}; } for (size_t i = 0; i < 3; ++i) { rgb <<= 8; rgb |= params[i + 2]; } return Color::rgb(rgb); default: dbgln("Unknown color type {}", params[1]); return {}; } }; if (params[0] == 38) { m_current_state.attribute.foreground_color = parse_color().value_or(m_current_state.attribute.foreground_color); } else if (params[0] == 48) { m_current_state.attribute.background_color = parse_color().value_or(m_current_state.attribute.background_color); } else { // A single escape sequence may set multiple parameters. for (auto param : params) { switch (param) { case 0: // Reset m_current_state.attribute.reset(); break; case 1: m_current_state.attribute.flags |= Attribute::Flags::Bold; break; case 3: m_current_state.attribute.flags |= Attribute::Flags::Italic; break; case 4: m_current_state.attribute.flags |= Attribute::Flags::Underline; break; case 5: m_current_state.attribute.flags |= Attribute::Flags::Blink; break; case 7: m_current_state.attribute.flags |= Attribute::Flags::Negative; break; case 22: m_current_state.attribute.flags &= ~Attribute::Flags::Bold; break; case 23: m_current_state.attribute.flags &= ~Attribute::Flags::Italic; break; case 24: m_current_state.attribute.flags &= ~Attribute::Flags::Underline; break; case 25: m_current_state.attribute.flags &= ~Attribute::Flags::Blink; break; case 27: m_current_state.attribute.flags &= ~Attribute::Flags::Negative; break; case 30: case 31: case 32: case 33: case 34: case 35: case 36: case 37: // Foreground color m_current_state.attribute.foreground_color = Color::named(static_cast(param - 30)); break; case 39: // reset foreground m_current_state.attribute.foreground_color = Attribute::default_foreground_color; break; case 40: case 41: case 42: case 43: case 44: case 45: case 46: case 47: // Background color m_current_state.attribute.background_color = Color::named(static_cast(param - 40)); break; case 49: // reset background m_current_state.attribute.background_color = Attribute::default_background_color; break; case 90: case 91: case 92: case 93: case 94: case 95: case 96: case 97: // Bright foreground color m_current_state.attribute.foreground_color = Color::named(static_cast(8 + param - 90)); break; case 100: case 101: case 102: case 103: case 104: case 105: case 106: case 107: // Bright background color m_current_state.attribute.background_color = Color::named(static_cast(8 + param - 100)); break; default: dbgln("FIXME: SGR: p: {}", param); } } } } void Terminal::SCOSC() { dbgln_if(TERMINAL_DEBUG, "Save cursor position"); m_saved_cursor_position = m_current_state.cursor; } void Terminal::SCORC() { dbgln_if(TERMINAL_DEBUG, "Restore cursor position"); m_current_state.cursor = m_saved_cursor_position; set_cursor(cursor_row(), cursor_column()); } void Terminal::DECSC() { dbgln_if(TERMINAL_DEBUG, "Save cursor (and other state)"); if (m_use_alternate_screen_buffer) { m_alternate_saved_state = m_current_state; } else { m_normal_saved_state = m_current_state; } } void Terminal::DECRC() { dbgln_if(TERMINAL_DEBUG, "Restore cursor (and other state)"); if (m_use_alternate_screen_buffer) { m_current_state = m_alternate_saved_state; } else { m_current_state = m_normal_saved_state; } set_cursor(cursor_row(), cursor_column()); } void Terminal::XTERM_WM(Parameters params) { if (params.size() < 1) return; switch (params[0]) { case 22: { if (params.size() > 1 && params[1] == 1) { dbgln("FIXME: we don't support icon titles"); return; } dbgln_if(TERMINAL_DEBUG, "Title stack push: {}", m_current_window_title); #ifdef KERNEL (void)m_title_stack.try_append(m_current_window_title.release_nonnull()); // FIXME: Propagate Error #else (void)m_title_stack.try_append(move(m_current_window_title)); #endif break; } case 23: { if (params.size() > 1 && params[1] == 1) return; if (m_title_stack.is_empty()) { dbgln("Shenanigans: Tried to pop from empty title stack"); return; } m_current_window_title = m_title_stack.take_last(); dbgln_if(TERMINAL_DEBUG, "Title stack pop: {}", m_current_window_title); #ifdef KERNEL m_client.set_window_title(m_current_window_title->view()); #else m_client.set_window_title(m_current_window_title); #endif break; } default: dbgln("FIXME: XTERM_WM: Ps: {} (param count: {})", params[0], params.size()); } } void Terminal::DECSTBM(Parameters params) { unsigned top = 1; unsigned bottom = m_rows; if (params.size() >= 1 && params[0] != 0) top = params[0]; if (params.size() >= 2 && params[1] != 0) bottom = params[1]; if ((bottom - top) < 2 || bottom > m_rows) { dbgln("Error: DECSTBM: scrolling region invalid: {}-{}", top, bottom); return; } if (top >= bottom) { return; } m_scroll_region_top = top - 1; m_scroll_region_bottom = bottom - 1; set_cursor(0, 0); dbgln_if(TERMINAL_DEBUG, "Set scrolling region: {}-{}", m_scroll_region_top, m_scroll_region_bottom); } void Terminal::CUP(Parameters params) { // CUP – Cursor Position unsigned row = 1; unsigned col = 1; if (params.size() >= 1 && params[0] != 0) row = params[0]; if (params.size() >= 2 && params[1] != 0) col = params[1]; set_cursor(row - 1, col - 1); } void Terminal::HVP(Parameters params) { unsigned row = 1; unsigned col = 1; if (params.size() >= 1 && params[0] != 0) row = params[0]; if (params.size() >= 2 && params[1] != 0) col = params[1]; set_cursor(row - 1, col - 1); } void Terminal::CUU(Parameters params) { unsigned num = 1; if (params.size() >= 1 && params[0] != 0) num = params[0]; int new_row = cursor_row() - num; if (new_row < 0) new_row = 0; set_cursor(new_row, cursor_column()); } void Terminal::CUD(Parameters params) { unsigned num = 1; if (params.size() >= 1 && params[0] != 0) num = params[0]; unsigned new_row = cursor_row() + num; if (new_row >= m_rows) new_row = m_rows - 1; set_cursor(new_row, cursor_column()); } void Terminal::CUF(Parameters params) { unsigned num = 1; if (params.size() >= 1 && params[0] != 0) num = params[0]; unsigned new_column = cursor_column() + num; if (new_column >= m_columns) new_column = m_columns - 1; set_cursor(cursor_row(), new_column); } void Terminal::CUB(Parameters params) { unsigned num = 1; if (params.size() >= 1 && params[0] != 0) num = params[0]; int new_column = (int)cursor_column() - num; if (new_column < 0) new_column = 0; set_cursor(cursor_row(), new_column); } void Terminal::CNL(Parameters params) { unsigned num = 1; if (params.size() >= 1 && params[0] != 0) num = params[0]; unsigned new_row = cursor_row() + num; if (new_row >= m_columns) new_row = m_columns - 1; set_cursor(new_row, 0); } void Terminal::CPL(Parameters params) { unsigned num = 1; if (params.size() >= 1 && params[0] != 0) num = params[0]; int new_row = (int)cursor_row() - num; if (new_row < 0) new_row = 0; set_cursor(new_row, 0); } void Terminal::CHA(Parameters params) { unsigned new_column = 1; if (params.size() >= 1 && params[0] != 0) new_column = params[0]; if (new_column > m_columns) new_column = m_columns; set_cursor(cursor_row(), new_column - 1); } void Terminal::REP(Parameters params) { unsigned count = 1; if (params.size() >= 1 && params[0] != 0) count = params[0]; for (unsigned i = 0; i < count; ++i) put_character_at(m_current_state.cursor.row, m_current_state.cursor.column++, m_last_code_point); } void Terminal::VPA(Parameters params) { unsigned new_row = 1; if (params.size() >= 1 && params[0] != 0) new_row = params[0]; if (new_row > m_rows) new_row = m_rows; set_cursor(new_row - 1, cursor_column()); } void Terminal::VPR(Parameters params) { unsigned num = 1; if (params.size() >= 1 && params[0] != 0) num = params[0]; int new_row = cursor_row() + num; if (new_row >= m_rows) new_row = m_rows - 1; set_cursor(new_row, cursor_column()); } void Terminal::HPA(Parameters params) { unsigned new_column = 1; if (params.size() >= 1 && params[0] != 0) new_column = params[0]; if (new_column > m_columns) new_column = m_columns; set_cursor(cursor_row(), new_column - 1); } void Terminal::HPR(Parameters params) { unsigned num = 1; if (params.size() >= 1 && params[0] != 0) num = params[0]; unsigned new_column = cursor_column() + num; if (new_column >= m_columns) new_column = m_columns - 1; set_cursor(cursor_row(), new_column); } void Terminal::ECH(Parameters params) { // Erase characters (without moving cursor) unsigned num = 1; if (params.size() >= 1 && params[0] != 0) num = params[0]; // Clear num characters from the right of the cursor. auto clear_end = min(m_columns, cursor_column() + num - 1); dbgln_if(TERMINAL_DEBUG, "Erase characters {}-{} on line {}", cursor_column(), clear_end, cursor_row()); clear_in_line(cursor_row(), cursor_column(), clear_end); } void Terminal::EL(Parameters params) { unsigned mode = 0; if (params.size() >= 1) mode = params[0]; switch (mode) { case 0: dbgln_if(TERMINAL_DEBUG, "Clear line {} from cursor column ({}) to the end", cursor_row(), cursor_column()); clear_in_line(cursor_row(), cursor_column(), m_columns - 1); break; case 1: dbgln_if(TERMINAL_DEBUG, "Clear line {} from the start to cursor column ({})", cursor_row(), cursor_column()); clear_in_line(cursor_row(), 0, cursor_column()); break; case 2: dbgln_if(TERMINAL_DEBUG, "Clear line {} completely", cursor_row()); clear_in_line(cursor_row(), 0, m_columns - 1); break; default: unimplemented_csi_sequence(params, {}, 'K'); break; } } void Terminal::ED(Parameters params) { unsigned mode = 0; if (params.size() >= 1) mode = params[0]; switch (mode) { case 0: dbgln_if(TERMINAL_DEBUG, "Clear from cursor ({},{}) to end of screen", cursor_row(), cursor_column()); clear_in_line(cursor_row(), cursor_column(), m_columns - 1); for (int row = cursor_row() + 1; row < m_rows; ++row) clear_in_line(row, 0, m_columns - 1); break; case 1: dbgln_if(TERMINAL_DEBUG, "Clear from beginning of screen to cursor ({},{})", cursor_row(), cursor_column()); clear_in_line(cursor_row(), 0, cursor_column()); for (int row = cursor_row() - 1; row >= 0; --row) clear_in_line(row, 0, m_columns - 1); break; case 2: clear(); break; case 3: clear_history(); break; default: unimplemented_csi_sequence(params, {}, 'J'); break; } } void Terminal::SU(Parameters params) { unsigned count = 1; if (params.size() >= 1 && params[0] != 0) count = params[0]; scroll_up(count); } void Terminal::SD(Parameters params) { unsigned count = 1; if (params.size() >= 1 && params[0] != 0) count = params[0]; scroll_down(count); } void Terminal::DECSCUSR(Parameters params) { unsigned style = 1; if (params.size() >= 1 && params[0] != 0) style = params[0]; switch (style) { case 1: m_client.set_cursor_style(BlinkingBlock); break; case 2: m_client.set_cursor_style(SteadyBlock); break; case 3: m_client.set_cursor_style(BlinkingUnderline); break; case 4: m_client.set_cursor_style(SteadyUnderline); break; case 5: m_client.set_cursor_style(BlinkingBar); break; case 6: m_client.set_cursor_style(SteadyBar); break; default: dbgln("Unknown cursor style {}", style); } } void Terminal::IL(Parameters params) { size_t count = 1; if (params.size() >= 1 && params[0] != 0) count = params[0]; if (!is_within_scroll_region(cursor_row())) { dbgln("Shenanigans! Tried to insert line outside the scroll region"); return; } scroll_down(cursor_row(), m_scroll_region_bottom, count); } void Terminal::DA(Parameters) { emit_string("\033[?1;0c"); } void Terminal::DL(Parameters params) { size_t count = 1; if (params.size() >= 1 && params[0] != 0) count = params[0]; if (!is_within_scroll_region(cursor_row())) { dbgln("Shenanigans! Tried to delete line outside the scroll region"); return; } scroll_up(cursor_row(), m_scroll_region_bottom, count); } void Terminal::DCH(Parameters params) { int num = 1; if (params.size() >= 1 && params[0] != 0) num = params[0]; num = min(num, columns() - cursor_column()); scroll_left(cursor_row(), cursor_column(), num); } void Terminal::linefeed() { u16 new_row = cursor_row(); #ifndef KERNEL if (!m_controls_are_logically_generated) active_buffer()[new_row].set_terminated(m_column_before_carriage_return.value_or(cursor_column())); #endif if (cursor_row() == m_scroll_region_bottom) { scroll_up(); } else { ++new_row; }; // We shouldn't jump to the first column after receiving a line feed. // The TTY will take care of generating the carriage return. set_cursor(new_row, cursor_column()); } void Terminal::carriage_return() { dbgln_if(TERMINAL_DEBUG, "Carriage return"); m_column_before_carriage_return = cursor_column(); set_cursor(cursor_row(), 0); } void Terminal::scroll_up(size_t count) { scroll_up(m_scroll_region_top, m_scroll_region_bottom, count); } void Terminal::scroll_down(size_t count) { scroll_down(m_scroll_region_top, m_scroll_region_bottom, count); } #ifndef KERNEL // Insert `count` blank lines at the bottom of the region. Text moves up, top lines get added to the scrollback. void Terminal::scroll_up(u16 region_top, u16 region_bottom, size_t count) { VERIFY(region_top <= region_bottom); VERIFY(region_bottom < rows()); // Only the specified region should be affected. size_t region_size = region_bottom - region_top + 1; count = min(count, region_size); dbgln_if(TERMINAL_DEBUG, "Scroll up {} lines in region {}-{}", count, region_top, region_bottom); // NOTE: We have to invalidate the cursor first. invalidate_cursor(); int history_delta = -count; bool should_move_to_scrollback = !m_use_alternate_screen_buffer && max_history_size() != 0; if (should_move_to_scrollback) { auto remaining_lines = max_history_size() - history_size(); history_delta = (count > remaining_lines) ? remaining_lines - count : 0; for (size_t i = 0; i < count; ++i) add_line_to_history(move(active_buffer().ptr_at(region_top + i))); } // Move lines into their new place. for (u16 row = region_top; row + count <= region_bottom; ++row) swap(active_buffer().ptr_at(row), active_buffer().ptr_at(row + count)); // Clear 'new' lines at the bottom. if (should_move_to_scrollback) { // Since we moved the previous lines into history, we can't just clear them. for (u16 row = region_bottom + 1 - count; row <= region_bottom; ++row) active_buffer().ptr_at(row) = make(columns()); } else { // The new lines haven't been moved and we don't want to leak memory. for (u16 row = region_bottom + 1 - count; row <= region_bottom; ++row) active_buffer()[row].clear(); } // Set dirty flag on swapped lines. // The other lines have implicitly been set dirty by being cleared. for (u16 row = region_top; row <= region_bottom - count; ++row) active_buffer()[row].set_dirty(true); m_client.terminal_history_changed(history_delta); } // Insert `count` blank lines at the top of the region. Text moves down. Does not affect the scrollback buffer. void Terminal::scroll_down(u16 region_top, u16 region_bottom, size_t count) { VERIFY(region_top <= region_bottom); VERIFY(region_bottom < rows()); // Only the specified region should be affected. size_t region_size = region_bottom - region_top + 1; count = min(count, region_size); dbgln_if(TERMINAL_DEBUG, "Scroll down {} lines in region {}-{}", count, region_top, region_bottom); // NOTE: We have to invalidate the cursor first. invalidate_cursor(); // Move lines into their new place. for (int row = region_bottom; row >= static_cast(region_top + count); --row) swap(active_buffer().ptr_at(row), active_buffer().ptr_at(row - count)); // Clear the 'new' lines at the top. for (u16 row = region_top; row < region_top + count; ++row) active_buffer()[row].clear(); // Set dirty flag on swapped lines. // The other lines have implicitly been set dirty by being cleared. for (u16 row = region_top + count; row <= region_bottom; ++row) active_buffer()[row].set_dirty(true); } // Insert `count` blank cells at the end of the line. Text moves left. void Terminal::scroll_left(u16 row, u16 column, size_t count) { VERIFY(row < rows()); VERIFY(column < columns()); count = min(count, columns() - column); dbgln_if(TERMINAL_DEBUG, "Scroll left {} columns from line {} column {}", count, row, column); auto& line = active_buffer()[row]; for (size_t i = column; i < columns() - count; ++i) swap(line.cell_at(i), line.cell_at(i + count)); clear_in_line(row, columns() - count, columns() - 1); line.set_dirty(true); } // Insert `count` blank cells after `row`. Text moves right. void Terminal::scroll_right(u16 row, u16 column, size_t count) { VERIFY(row < rows()); VERIFY(column < columns()); count = min(count, columns() - column); dbgln_if(TERMINAL_DEBUG, "Scroll right {} columns from line {} column {}", count, row, column); auto& line = active_buffer()[row]; for (int i = columns() - 1; i >= static_cast(column + count); --i) swap(line.cell_at(i), line.cell_at(i - count)); clear_in_line(row, column, column + count - 1); line.set_dirty(true); } void Terminal::put_character_at(unsigned row, unsigned column, u32 code_point) { VERIFY(row < rows()); VERIFY(column < columns()); auto& line = active_buffer()[row]; line.set_code_point(column, code_point); line.attribute_at(column) = m_current_state.attribute; line.attribute_at(column).flags |= Attribute::Flags::Touched; line.set_dirty(true); m_last_code_point = code_point; } void Terminal::clear_in_line(u16 row, u16 first_column, u16 last_column) { VERIFY(row < rows()); active_buffer()[row].clear_range(first_column, last_column); } #endif void Terminal::set_cursor(unsigned a_row, unsigned a_column, bool skip_debug) { unsigned row = min(a_row, m_rows - 1u); unsigned column = min(a_column, m_columns - 1u); m_stomp = false; if (row == cursor_row() && column == cursor_column()) return; VERIFY(row < rows()); VERIFY(column < columns()); invalidate_cursor(); m_current_state.cursor.row = row; m_current_state.cursor.column = column; invalidate_cursor(); if (!skip_debug) dbgln_if(TERMINAL_DEBUG, "Set cursor position: {},{}", cursor_row(), cursor_column()); } void Terminal::NEL() { if (cursor_row() == m_scroll_region_bottom) scroll_up(); else set_cursor(cursor_row() + 1, 0); } void Terminal::IND() { // Not equivalent to CUD: if we are at the bottom margin, we have to scroll up. if (cursor_row() == m_scroll_region_bottom) scroll_up(); else set_cursor(cursor_row() + 1, cursor_column()); } void Terminal::RI() { // Not equivalent to CUU : if we at the top margin , we have to scroll down. if (cursor_row() == m_scroll_region_top) scroll_down(); else set_cursor(cursor_row() - 1, cursor_column()); } void Terminal::DECFI() { if (cursor_column() == columns() - 1) scroll_left(cursor_row(), 0, 1); else set_cursor(cursor_row(), cursor_column() + 1); } void Terminal::DECBI() { if (cursor_column() == 0) scroll_right(cursor_row(), 0, 1); else set_cursor(cursor_row(), cursor_column() - 1); } void Terminal::DECIC(Parameters params) { unsigned num = 1; if (params.size() >= 1 && params[0] != 0) num = params[0]; num = min(num, columns() - cursor_column()); for (unsigned row = cursor_row(); row <= m_scroll_region_bottom; ++row) scroll_right(row, cursor_column(), num); } void Terminal::DECDC(Parameters params) { unsigned num = 1; if (params.size() >= 1 && params[0] != 0) num = params[0]; num = min(num, columns() - cursor_column()); for (unsigned row = cursor_row(); row <= m_scroll_region_bottom; ++row) scroll_left(row, cursor_column(), num); } void Terminal::DECPNM() { dbgln("FIXME: implement setting the keypad to numeric mode"); } void Terminal::DECPAM() { dbgln("FIXME: implement setting the keypad to application mode"); } void Terminal::DSR(Parameters params) { if (params.size() == 1 && params[0] == 5) { // Device status emit_string("\033[0n"); // Terminal status OK! } else if (params.size() == 1 && params[0] == 6) { // Cursor position query StringBuilder builder; MUST(builder.try_appendff("\e[{};{}R", cursor_row() + 1, cursor_column() + 1)); // StringBuilder's inline capacity of 256 is enough to guarantee no allocations emit_string(builder.string_view()); } else { dbgln("Unknown DSR"); } } void Terminal::ICH(Parameters params) { unsigned num = 1; if (params.size() >= 1 && params[0] != 0) num = params[0]; num = min(num, columns() - cursor_column()); scroll_right(cursor_row(), cursor_column(), num); } void Terminal::on_input(u8 byte) { m_parser.on_input(byte); } void Terminal::emit_code_point(u32 code_point) { auto working_set = m_working_sets[m_active_working_set_index]; code_point = m_character_set_translator.translate_code_point(working_set, code_point); auto new_column = cursor_column() + 1; if (new_column < columns()) { put_character_at(cursor_row(), cursor_column(), code_point); set_cursor(cursor_row(), new_column, true); return; } if (m_stomp) { m_stomp = false; TemporaryChange change { m_controls_are_logically_generated, true }; carriage_return(); linefeed(); put_character_at(cursor_row(), cursor_column(), code_point); set_cursor(cursor_row(), 1); } else { // Curious: We wait once on the right-hand side m_stomp = true; put_character_at(cursor_row(), cursor_column(), code_point); } } void Terminal::execute_control_code(u8 code) { ArmedScopeGuard clear_position_before_cr { [&] { m_column_before_carriage_return.clear(); } }; switch (code) { case '\a': m_client.beep(); return; case '\b': if (cursor_column()) { set_cursor(cursor_row(), cursor_column() - 1); return; } return; case '\t': { for (unsigned i = cursor_column() + 1; i < columns(); ++i) { if (m_horizontal_tabs[i]) { set_cursor(cursor_row(), i); return; } } return; } case '\n': case '\v': case '\f': if (m_column_before_carriage_return == m_columns - 1) m_column_before_carriage_return = m_columns; linefeed(); return; case '\r': carriage_return(); clear_position_before_cr.disarm(); return; default: unimplemented_control_code(code); } } void Terminal::execute_escape_sequence(Intermediates intermediates, bool ignore, u8 last_byte) { // FIXME: Handle it somehow? if (ignore) dbgln("Escape sequence has its ignore flag set."); if (intermediates.size() == 0) { switch (last_byte) { case 'D': IND(); return; case 'E': NEL(); return; case 'M': RI(); return; case '\\': // ST (string terminator) -- do nothing return; case '6': DECBI(); return; case '7': DECSC(); return; case '8': DECRC(); return; case '9': DECFI(); return; case '=': DECPAM(); return; case '>': DECPNM(); return; } unimplemented_escape_sequence(intermediates, last_byte); return; } char intermediate = intermediates[0]; switch (intermediate) { case '#': switch (last_byte) { case '8': // Confidence Test - Fill screen with E's for (size_t row = 0; row < m_rows; ++row) { for (size_t column = 0; column < m_columns; ++column) { put_character_at(row, column, 'E'); } } return; } break; case '(': case ')': case '*': case '+': // Determine G0..G3 index size_t working_set_index = intermediate - '('; CharacterSet new_set; switch (last_byte) { case 'B': new_set = CharacterSet::Iso_8859_1; break; case '0': new_set = CharacterSet::VT100; break; case 'U': new_set = CharacterSet::Null; break; case 'K': new_set = CharacterSet::UserDefined; break; default: unimplemented_escape_sequence(intermediates, last_byte); return; } dbgln_if(TERMINAL_DEBUG, "Setting G{} working set to character set {}", working_set_index, to_underlying(new_set)); VERIFY(working_set_index <= 3); m_working_sets[working_set_index] = new_set; return; } unimplemented_escape_sequence(intermediates, last_byte); } void Terminal::execute_csi_sequence(Parameters parameters, Intermediates intermediates, bool ignore, u8 last_byte) { // FIXME: Handle it somehow? if (ignore) dbgln("CSI sequence has its ignore flag set."); if (intermediates.is_empty()) { switch (last_byte) { case '@': return ICH(parameters); case 'A': return CUU(parameters); case 'B': return CUD(parameters); case 'C': return CUF(parameters); case 'D': return CUB(parameters); case 'E': return CNL(parameters); case 'F': return CPL(parameters); case 'G': return CHA(parameters); case 'H': return CUP(parameters); case 'J': return ED(parameters); case 'K': return EL(parameters); case 'L': return IL(parameters); case 'M': return DL(parameters); case 'P': return DCH(parameters); case 'S': return SU(parameters); case 'T': return SD(parameters); case 'X': return ECH(parameters); case '`': return HPA(parameters); case 'a': return HPR(parameters); case 'b': return REP(parameters); case 'c': return DA(parameters); case 'd': return VPA(parameters); case 'e': return VPR(parameters); case 'f': return HVP(parameters); case 'h': return SM(parameters); case 'l': return RM(parameters); case 'm': return SGR(parameters); case 'n': return DSR(parameters); case 'r': return DECSTBM(parameters); case 's': return SCOSC(); case 't': return XTERM_WM(parameters); case 'u': return SCORC(); } } else if (intermediates.size() == 1 && intermediates[0] == '?') { switch (last_byte) { case 'h': return DECSET(parameters); case 'l': return DECRST(parameters); } } else if (intermediates.size() == 1 && intermediates[0] == '\'') { switch (last_byte) { case '}': return DECIC(parameters); case '~': return DECDC(parameters); } } else if (intermediates.size() == 1 && intermediates[0] == ' ') { switch (last_byte) { case 'q': return DECSCUSR(parameters); } } unimplemented_csi_sequence(parameters, intermediates, last_byte); } void Terminal::execute_osc_sequence(OscParameters parameters, u8 last_byte) { auto stringview_ify = [&](size_t param_idx) { return StringView(parameters[param_idx]); }; if (parameters.size() == 0 || parameters[0].is_empty()) { unimplemented_osc_sequence(parameters, last_byte); return; } auto command_number = stringview_ify(0).to_uint(); if (!command_number.has_value()) { unimplemented_osc_sequence(parameters, last_byte); return; } switch (command_number.value()) { case 0: case 1: case 2: if (parameters.size() < 2) { dbgln("Attempted to set window title without any parameters"); } else { // FIXME: the split breaks titles containing semicolons. // Should we expose the raw OSC string from the parser? Or join by semicolon? #ifdef KERNEL m_current_window_title = Kernel::KString::try_create(stringview_ify(1)).release_value_but_fixme_should_propagate_errors(); m_client.set_window_title(m_current_window_title->view()); #else m_current_window_title = stringview_ify(1).to_string(); m_client.set_window_title(m_current_window_title); #endif } break; case 8: #ifndef KERNEL if (parameters.size() < 3) { dbgln("Attempted to set href but gave too few parameters"); } else if (parameters[1].is_empty() && parameters[2].is_empty()) { // Clear hyperlink m_current_state.attribute.href = String(); m_current_state.attribute.href_id = String(); } else { m_current_state.attribute.href = stringview_ify(2); // FIXME: Respect the provided ID m_current_state.attribute.href_id = String::number(m_next_href_id++); } #endif break; case 9: if (parameters.size() < 2) dbgln("Atttempted to set window progress but gave too few parameters"); else if (parameters.size() == 2) m_client.set_window_progress(stringview_ify(1).to_int().value_or(-1), 0); else m_client.set_window_progress(stringview_ify(1).to_int().value_or(-1), stringview_ify(2).to_int().value_or(0)); break; default: unimplemented_osc_sequence(parameters, last_byte); } } void Terminal::dcs_hook(Parameters, Intermediates, bool, u8) { dbgln("Received DCS parameters, but we don't support it yet"); } void Terminal::receive_dcs_char(u8 byte) { dbgln_if(TERMINAL_DEBUG, "DCS string character {:c}", byte); } void Terminal::execute_dcs_sequence() { } void Terminal::inject_string(StringView str) { for (size_t i = 0; i < str.length(); ++i) on_input(str[i]); } void Terminal::emit_string(StringView string) { m_client.emit((const u8*)string.characters_without_null_termination(), string.length()); } void Terminal::handle_key_press(KeyCode key, u32 code_point, u8 flags) { bool ctrl = flags & Mod_Ctrl; bool alt = flags & Mod_Alt; bool shift = flags & Mod_Shift; unsigned modifier_mask = int(shift) + (int(alt) << 1) + (int(ctrl) << 2); auto emit_final_with_modifier = [this, modifier_mask](char final) { char escape_character = m_cursor_keys_mode == CursorKeysMode::Application ? 'O' : '['; StringBuilder builder; if (modifier_mask) MUST(builder.try_appendff("\e{}1;{}{:c}", escape_character, modifier_mask + 1, final)); // StringBuilder's inline capacity of 256 is enough to guarantee no allocations else MUST(builder.try_appendff("\e{}{:c}", escape_character, final)); // StringBuilder's inline capacity of 256 is enough to guarantee no allocations emit_string(builder.string_view()); }; auto emit_tilde_with_modifier = [this, modifier_mask](unsigned num) { StringBuilder builder; if (modifier_mask) MUST(builder.try_appendff("\e[{};{}~", num, modifier_mask + 1)); // StringBuilder's inline capacity of 256 is enough to guarantee no allocations else MUST(builder.try_appendff("\e[{}~", num)); // StringBuilder's inline capacity of 256 is enough to guarantee no allocations emit_string(builder.string_view()); }; switch (key) { case KeyCode::Key_Up: emit_final_with_modifier('A'); return; case KeyCode::Key_Down: emit_final_with_modifier('B'); return; case KeyCode::Key_Right: emit_final_with_modifier('C'); return; case KeyCode::Key_Left: emit_final_with_modifier('D'); return; case KeyCode::Key_Insert: emit_tilde_with_modifier(2); return; case KeyCode::Key_Delete: emit_tilde_with_modifier(3); return; case KeyCode::Key_Home: emit_final_with_modifier('H'); return; case KeyCode::Key_End: emit_final_with_modifier('F'); return; case KeyCode::Key_PageUp: emit_tilde_with_modifier(5); return; case KeyCode::Key_PageDown: emit_tilde_with_modifier(6); return; case KeyCode::Key_Return: // The standard says that CR should be generated by the return key. // The TTY will take care of translating it to CR LF for the terminal. emit_string("\r"); return; default: break; } if (!code_point) { // Probably a modifier being pressed. return; } if (shift && key == KeyCode::Key_Tab) { emit_string("\033[Z"); return; } // Key event was not one of the above special cases, // attempt to treat it as a character... if (ctrl) { if (code_point >= 'a' && code_point <= 'z') { code_point = code_point - 'a' + 1; } else if (code_point == '\\') { code_point = 0x1c; } } // Alt modifier sends escape prefix. if (alt) emit_string("\033"); StringBuilder sb; sb.append_code_point(code_point); emit_string(sb.string_view()); } void Terminal::unimplemented_control_code(u8 code) { dbgln_if(TERMINAL_DEBUG, "Unimplemented control code {:02x}", code); } void Terminal::unimplemented_escape_sequence(Intermediates intermediates, u8 last_byte) { StringBuilder builder; builder.appendff("Unimplemented escape sequence {:c}", last_byte); if (!intermediates.is_empty()) { builder.append(", intermediates: "); for (size_t i = 0; i < intermediates.size(); ++i) builder.append((char)intermediates[i]); } dbgln("{}", builder.string_view()); } void Terminal::unimplemented_csi_sequence(Parameters parameters, Intermediates intermediates, u8 last_byte) { StringBuilder builder; builder.appendff("Unimplemented CSI sequence: {:c}", last_byte); if (!parameters.is_empty()) { builder.append(", parameters: ["); for (size_t i = 0; i < parameters.size(); ++i) builder.appendff("{}{}", (i == 0) ? "" : ", ", parameters[i]); builder.append("]"); } if (!intermediates.is_empty()) { builder.append(", intermediates:"); for (size_t i = 0; i < intermediates.size(); ++i) builder.append((char)intermediates[i]); } dbgln("{}", builder.string_view()); } void Terminal::unimplemented_osc_sequence(OscParameters parameters, u8 last_byte) { StringBuilder builder; builder.appendff("Unimplemented OSC sequence parameters: (bel_terminated={}) [ ", last_byte == '\a'); bool first = true; for (auto parameter : parameters) { if (!first) builder.append(", "); builder.append("["); for (auto character : parameter) builder.append((char)character); builder.append("]"); first = false; } builder.append(" ]"); dbgln("{}", builder.string_view()); } #ifndef KERNEL void Terminal::set_size(u16 columns, u16 rows) { if (!columns) columns = 1; if (!rows) rows = 1; if (columns == m_columns && rows == m_rows) return; // If we're making the terminal larger (column-wise), start at the end and go up, taking cells from the line below. // otherwise start at the beginning and go down, pushing cells into the line below. auto resize_and_rewrap = [&](auto& buffer, auto& old_cursor) { auto cursor_on_line = [&](auto index) { return index == old_cursor.row ? &old_cursor : nullptr; }; // Two passes, one from top to bottom, another from bottom to top for (size_t pass = 0; pass < 2; ++pass) { auto forwards = (pass == 0) ^ (columns < m_columns); if (forwards) { for (size_t i = 1; i <= buffer.size(); ++i) { auto is_at_seam = i == 1; auto next_line = is_at_seam ? nullptr : &buffer[buffer.size() - i + 1]; auto& line = buffer[buffer.size() - i]; auto next_cursor = cursor_on_line(buffer.size() - i + 1); line.rewrap(columns, next_line, next_cursor ?: cursor_on_line(buffer.size() - i), !!next_cursor); } } else { for (size_t i = 0; i < buffer.size(); ++i) { auto is_at_seam = i + 1 == buffer.size(); auto next_line = is_at_seam ? nullptr : &buffer[i + 1]; auto next_cursor = cursor_on_line(i + 1); buffer[i].rewrap(columns, next_line, next_cursor ?: cursor_on_line(i), !!next_cursor); } } Queue lines_to_reevaluate; for (size_t i = 0; i < buffer.size(); ++i) { if (buffer[i].length() != columns) lines_to_reevaluate.enqueue(i); } size_t rows_inserted = 0; while (!lines_to_reevaluate.is_empty()) { auto index = lines_to_reevaluate.dequeue(); auto is_at_seam = index + 1 == buffer.size(); auto next_line = is_at_seam ? nullptr : &buffer[index + 1]; auto& line = buffer[index]; auto next_cursor = cursor_on_line(index + 1); line.rewrap(columns, next_line, next_cursor ?: cursor_on_line(index), !!next_cursor); if (line.length() > columns) { auto current_cursor = cursor_on_line(index); // Split the line into two (or more) ++index; ++rows_inserted; buffer.insert(index, make(0)); VERIFY(buffer[index].length() == 0); line.rewrap(columns, &buffer[index], current_cursor, false); // If we inserted a line and the old cursor was after that line, increment its row if (!current_cursor && old_cursor.row >= index) ++old_cursor.row; if (buffer[index].length() != columns) lines_to_reevaluate.enqueue(index); } if (next_line && next_line->length() != columns) lines_to_reevaluate.enqueue(index + 1); } } for (auto& line : buffer) line.set_length(columns); return old_cursor; }; auto old_history_size = m_history.size(); m_history.extend(move(m_normal_screen_buffer)); CursorPosition cursor_tracker { cursor_row() + old_history_size, cursor_column() }; resize_and_rewrap(m_history, cursor_tracker); if (auto extra_lines = m_history.size() - rows) { while (extra_lines > 0) { if (m_history.size() <= cursor_tracker.row) break; if (m_history.last().is_empty()) { if (m_history.size() >= 2 && m_history[m_history.size() - 2].termination_column().has_value()) break; --extra_lines; (void)m_history.take_last(); continue; } break; } } // FIXME: This can use a more performant way to move the last N entries // from the history into the normal buffer m_normal_screen_buffer.ensure_capacity(rows); while (m_normal_screen_buffer.size() < rows) { if (!m_history.is_empty()) m_normal_screen_buffer.prepend(m_history.take_last()); else m_normal_screen_buffer.unchecked_append(make(columns)); } cursor_tracker.row -= m_history.size(); if (m_history.size() != old_history_size) { m_client.terminal_history_changed(-old_history_size); m_client.terminal_history_changed(m_history.size()); } CursorPosition dummy_cursor_tracker {}; resize_and_rewrap(m_alternate_screen_buffer, dummy_cursor_tracker); if (m_alternate_screen_buffer.size() > rows) m_alternate_screen_buffer.remove(0, m_alternate_screen_buffer.size() - rows); if (rows > m_rows) { while (m_normal_screen_buffer.size() < rows) m_normal_screen_buffer.append(make(columns)); while (m_alternate_screen_buffer.size() < rows) m_alternate_screen_buffer.append(make(columns)); } else { m_normal_screen_buffer.shrink(rows); m_alternate_screen_buffer.shrink(rows); } m_columns = columns; m_rows = rows; m_scroll_region_top = 0; m_scroll_region_bottom = rows - 1; m_current_state.cursor.clamp(m_rows - 1, m_columns - 1); m_normal_saved_state.cursor.clamp(m_rows - 1, m_columns - 1); m_alternate_saved_state.cursor.clamp(m_rows - 1, m_columns - 1); m_saved_cursor_position.clamp(m_rows - 1, m_columns - 1); m_horizontal_tabs.resize(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; set_cursor(cursor_tracker.row, cursor_tracker.column); m_client.terminal_did_resize(m_columns, m_rows); dbgln_if(TERMINAL_DEBUG, "Set terminal size: {}x{}", m_rows, m_columns); } #endif #ifndef KERNEL void Terminal::invalidate_cursor() { if (cursor_row() < active_buffer().size()) active_buffer()[cursor_row()].set_dirty(true); } Attribute Terminal::attribute_at(const Position& position) const { if (!position.is_valid()) return {}; if (position.row() >= static_cast(line_count())) return {}; auto& line = this->line(position.row()); if (static_cast(position.column()) >= line.length()) return {}; return line.attribute_at(position.column()); } #endif }