ladybird/Kernel/TTY/VirtualConsole.cpp
Liav A fdef8d0d37 Kernel: Move PCSpeaker code to the x86-specific architecture directory
The PCSpeaker code is specific to x86 platforms, thus it makes sense to
put in the Arch/x86 subdirectory.
2022-09-20 18:43:05 +01:00

487 lines
16 KiB
C++

/*
* Copyright (c) 2018-2020, Andreas Kling <kling@serenityos.org>
* Copyright (c) 2020, Sergey Bugaev <bugaevc@serenityos.org>
* Copyright (c) 2021, Liav A. <liavalb@hotmail.co.il>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/StdLibExtras.h>
#include <Kernel/Arch/Delay.h>
#if ARCH(I386) || ARCH(X86_64)
# include <Kernel/Arch/x86/common/PCSpeaker.h>
#endif
#include <Kernel/CommandLine.h>
#include <Kernel/Debug.h>
#include <Kernel/Devices/DeviceManagement.h>
#include <Kernel/Devices/HID/HIDManagement.h>
#include <Kernel/Graphics/GraphicsManagement.h>
#include <Kernel/Heap/kmalloc.h>
#include <Kernel/Sections.h>
#include <Kernel/StdLib.h>
#include <Kernel/TTY/ConsoleManagement.h>
#include <Kernel/TTY/VirtualConsole.h>
#include <LibVT/Color.h>
namespace Kernel {
ConsoleImpl::ConsoleImpl(VirtualConsole& client)
: Terminal(client)
{
}
void ConsoleImpl::invalidate_cursor()
{
}
void ConsoleImpl::clear()
{
m_client.clear();
}
void ConsoleImpl::clear_history()
{
}
void ConsoleImpl::set_size(u16 determined_columns, u16 determined_rows)
{
VERIFY(determined_columns);
VERIFY(determined_rows);
if (determined_columns == columns() && determined_rows == rows())
return;
m_columns = determined_columns;
m_rows = determined_rows;
m_scroll_region_top = 0;
m_scroll_region_bottom = determined_rows - 1;
m_current_state.cursor.clamp(rows() - 1, columns() - 1);
m_normal_saved_state.cursor.clamp(rows() - 1, columns() - 1);
m_alternate_saved_state.cursor.clamp(rows() - 1, columns() - 1);
m_saved_cursor_position.clamp(rows() - 1, columns() - 1);
m_horizontal_tabs.resize(determined_columns);
for (unsigned i = 0; i < determined_columns; ++i)
m_horizontal_tabs[i] = (i % 8) == 0;
// Rightmost column is always last tab on line.
m_horizontal_tabs[determined_columns - 1] = 1;
m_client.terminal_did_resize(m_columns, m_rows);
}
void ConsoleImpl::scroll_up(u16 region_top, u16 region_bottom, size_t count)
{
// NOTE: We have to invalidate the cursor first.
m_client.invalidate_cursor(cursor_row());
m_client.scroll_up(region_top, region_bottom, count);
}
void ConsoleImpl::scroll_down(u16 region_top, u16 region_bottom, size_t count)
{
m_client.invalidate_cursor(cursor_row());
m_client.scroll_down(region_top, region_bottom, count);
}
void ConsoleImpl::put_character_at(unsigned row, unsigned column, u32 ch)
{
m_client.put_character_at(row, column, ch, m_current_state.attribute);
m_last_code_point = ch;
}
void ConsoleImpl::clear_in_line(u16 row, u16 first_column, u16 last_column)
{
m_client.clear_in_line(row, first_column, last_column);
}
void ConsoleImpl::scroll_left(u16 row, u16 column, size_t count)
{
m_client.scroll_left(row, column, count);
}
void ConsoleImpl::scroll_right(u16 row, u16 column, size_t count)
{
m_client.scroll_right(row, column, count);
}
void VirtualConsole::set_graphical(bool graphical)
{
m_graphical = graphical;
}
ErrorOr<NonnullOwnPtr<KString>> VirtualConsole::pseudo_name() const
{
return KString::formatted("tty:{}", m_index);
}
UNMAP_AFTER_INIT NonnullLockRefPtr<VirtualConsole> VirtualConsole::create(size_t index)
{
auto virtual_console_or_error = DeviceManagement::try_create_device<VirtualConsole>(index);
// FIXME: Find a way to propagate errors
VERIFY(!virtual_console_or_error.is_error());
return virtual_console_or_error.release_value();
}
UNMAP_AFTER_INIT NonnullLockRefPtr<VirtualConsole> VirtualConsole::create_with_preset_log(size_t index, CircularQueue<char, 16384> const& log)
{
auto virtual_console = VirtualConsole::create(index);
// HACK: We have to go through the TTY layer for correct newline handling.
// It would be nice to not have to make all these calls, but we can't get the underlying data pointer
// and head index. If we did that, we could reduce this to at most 2 calls.
for (auto ch : log) {
virtual_console->emit_char(ch);
}
return virtual_console;
}
UNMAP_AFTER_INIT void VirtualConsole::initialize()
{
VERIFY(GraphicsManagement::the().console());
set_size(GraphicsManagement::the().console()->max_column(), GraphicsManagement::the().console()->max_row());
m_console_impl.set_size(GraphicsManagement::the().console()->max_column(), GraphicsManagement::the().console()->max_row());
// Allocate twice of the max row * max column * sizeof(Cell) to ensure we can have some sort of history mechanism...
auto size = GraphicsManagement::the().console()->max_column() * GraphicsManagement::the().console()->max_row() * sizeof(Cell) * 2;
m_cells = MM.allocate_kernel_region(Memory::page_round_up(size).release_value_but_fixme_should_propagate_errors(), "Virtual Console Cells"sv, Memory::Region::Access::ReadWrite, AllocationStrategy::AllocateNow).release_value();
// Add the lines, so we also ensure they will be flushed now
for (size_t row = 0; row < rows(); row++) {
m_lines.append({ true, 0 });
}
VERIFY(m_cells);
}
void VirtualConsole::refresh_after_resolution_change()
{
auto old_rows_count = rows();
auto old_columns_count = columns();
set_size(GraphicsManagement::the().console()->max_column(), GraphicsManagement::the().console()->max_row());
m_console_impl.set_size(GraphicsManagement::the().console()->max_column(), GraphicsManagement::the().console()->max_row());
// Note: From now on, columns() and rows() are updated with the new settings.
auto size = GraphicsManagement::the().console()->max_column() * GraphicsManagement::the().console()->max_row() * sizeof(Cell) * 2;
auto new_cells = MM.allocate_kernel_region(Memory::page_round_up(size).release_value_but_fixme_should_propagate_errors(), "Virtual Console Cells"sv, Memory::Region::Access::ReadWrite, AllocationStrategy::AllocateNow).release_value();
if (rows() < old_rows_count) {
m_lines.shrink(rows());
} else {
for (size_t row = 0; row < (size_t)(rows() - old_rows_count); row++) {
m_lines.append({ true, 0 });
}
}
// Note: A potential loss of displayed data occur when resolution width shrinks.
auto common_rows_count = min(old_rows_count, rows());
auto common_columns_count = min(old_columns_count, columns());
for (size_t row = 0; row < common_rows_count; row++) {
auto& line = m_lines[row];
memcpy(new_cells->vaddr().offset(row * columns() * sizeof(Cell)).as_ptr(), m_cells->vaddr().offset(row * old_columns_count * sizeof(Cell)).as_ptr(), common_columns_count * sizeof(Cell));
line.dirty = true;
}
// Update the new cells Region
m_cells = move(new_cells);
m_console_impl.m_need_full_flush = true;
flush_dirty_lines();
}
UNMAP_AFTER_INIT VirtualConsole::VirtualConsole(unsigned const index)
: TTY(4, index)
, m_index(index)
, m_console_impl(*this)
{
initialize();
}
UNMAP_AFTER_INIT VirtualConsole::~VirtualConsole()
{
VERIFY_NOT_REACHED();
}
static inline Graphics::Console::Color ansi_color_to_standard_vga_color(VT::Color::ANSIColor color)
{
switch (color) {
case VT::Color::ANSIColor::DefaultBackground:
case VT::Color::ANSIColor::Black:
return Graphics::Console::Color::Black;
case VT::Color::ANSIColor::Red:
return Graphics::Console::Color::Red;
case VT::Color::ANSIColor::Green:
return Graphics::Console::Color::Green;
case VT::Color::ANSIColor::Yellow:
// VGA only has bright yellow, and treats normal yellow as a brownish orange color.
return Graphics::Console::Color::Brown;
case VT::Color::ANSIColor::Blue:
return Graphics::Console::Color::Blue;
case VT::Color::ANSIColor::Magenta:
return Graphics::Console::Color::Magenta;
case VT::Color::ANSIColor::Cyan:
return Graphics::Console::Color::Cyan;
case VT::Color::ANSIColor::DefaultForeground:
case VT::Color::ANSIColor::White:
return Graphics::Console::Color::LightGray;
case VT::Color::ANSIColor::BrightBlack:
return Graphics::Console::Color::DarkGray;
case VT::Color::ANSIColor::BrightRed:
return Graphics::Console::Color::BrightRed;
case VT::Color::ANSIColor::BrightGreen:
return Graphics::Console::Color::BrightGreen;
case VT::Color::ANSIColor::BrightYellow:
return Graphics::Console::Color::Yellow;
case VT::Color::ANSIColor::BrightBlue:
return Graphics::Console::Color::BrightBlue;
case VT::Color::ANSIColor::BrightMagenta:
return Graphics::Console::Color::BrightMagenta;
case VT::Color::ANSIColor::BrightCyan:
return Graphics::Console::Color::BrightCyan;
case VT::Color::ANSIColor::BrightWhite:
return Graphics::Console::Color::White;
}
VERIFY_NOT_REACHED();
}
static inline Graphics::Console::Color terminal_to_standard_color(VT::Color color)
{
switch (color.kind()) {
case VT::Color::Kind::Named:
return ansi_color_to_standard_vga_color(color.as_named());
default:
return Graphics::Console::Color::LightGray;
}
}
void VirtualConsole::on_key_pressed(KeyEvent event)
{
// Ignore keyboard in graphical mode.
if (m_graphical)
return;
if (!event.is_press())
return;
Processor::deferred_call_queue([this, event]() {
m_console_impl.handle_key_press(event.key, event.code_point, event.flags);
});
}
ErrorOr<size_t> VirtualConsole::on_tty_write(UserOrKernelBuffer const& data, size_t size)
{
SpinlockLocker global_lock(ConsoleManagement::the().tty_write_lock());
auto result = data.read_buffered<512>(size, [&](ReadonlyBytes buffer) {
for (const auto& byte : buffer)
m_console_impl.on_input(byte);
return buffer.size();
});
if (m_active)
flush_dirty_lines();
return result;
}
void VirtualConsole::set_active(bool active)
{
VERIFY(ConsoleManagement::the().m_lock.is_locked());
VERIFY(m_active != active);
m_active = active;
if (active) {
HIDManagement::the().set_client(this);
m_console_impl.m_need_full_flush = true;
flush_dirty_lines();
} else {
HIDManagement::the().set_client(nullptr);
}
}
void VirtualConsole::emit_char(char ch)
{
// Since we are standards-compliant by not moving to column 1 on '\n', we have to add an extra carriage return to
// do newlines properly. The `TTY` layer handles adding it.
echo_with_processing(static_cast<u8>(ch));
}
void VirtualConsole::flush_dirty_lines()
{
if (!m_active)
return;
VERIFY(GraphicsManagement::is_initialized());
VERIFY(GraphicsManagement::the().console());
for (u16 visual_row = 0; visual_row < rows(); ++visual_row) {
auto& line = m_lines[visual_row];
if (!line.dirty && !m_console_impl.m_need_full_flush)
continue;
for (size_t column = 0; column < columns(); ++column) {
auto& cell = cell_at(column, visual_row);
auto foreground_color = terminal_to_standard_color(cell.attribute.effective_foreground_color());
if (has_flag(cell.attribute.flags, VT::Attribute::Flags::Bold))
foreground_color = (Graphics::Console::Color)((u8)foreground_color | 0x08);
GraphicsManagement::the().console()->write(column,
visual_row,
((u8)cell.ch < 128 ? cell.ch : '?'),
terminal_to_standard_color(cell.attribute.effective_background_color()),
foreground_color);
}
line.dirty = false;
}
GraphicsManagement::the().console()->set_cursor(m_console_impl.cursor_column(), m_console_impl.cursor_row());
m_console_impl.m_need_full_flush = false;
}
void VirtualConsole::beep()
{
if (!kernel_command_line().is_pc_speaker_enabled())
return;
#if ARCH(I386) || ARCH(X86_64)
PCSpeaker::tone_on(440);
microseconds_delay(10000);
PCSpeaker::tone_off();
#endif
}
void VirtualConsole::set_window_title(StringView)
{
// Do nothing.
}
void VirtualConsole::set_window_progress(int, int)
{
// Do nothing.
}
void VirtualConsole::terminal_did_resize(u16 columns, u16 rows)
{
// FIXME: Allocate more Region(s) or deallocate them if needed...
dbgln("VC {}: Resized to {} x {}", index(), columns, rows);
}
void VirtualConsole::terminal_history_changed(int)
{
// Do nothing, I guess?
}
void VirtualConsole::emit(u8 const* data, size_t size)
{
for (size_t i = 0; i < size; i++)
TTY::emit(data[i], true);
}
void VirtualConsole::set_cursor_shape(VT::CursorShape)
{
// Do nothing
}
void VirtualConsole::set_cursor_blinking(bool)
{
// Do nothing
}
void VirtualConsole::echo(u8 ch)
{
m_console_impl.on_input(ch);
if (m_active)
flush_dirty_lines();
}
VirtualConsole::Cell& VirtualConsole::cell_at(size_t x, size_t y)
{
auto* ptr = (VirtualConsole::Cell*)(m_cells->vaddr().as_ptr());
ptr += (y * columns()) + x;
return *ptr;
}
void VirtualConsole::clear()
{
auto* cell = (Cell*)m_cells->vaddr().as_ptr();
for (size_t y = 0; y < rows(); y++) {
m_lines[y].dirty = true;
for (size_t x = 0; x < columns(); x++) {
cell[x].clear();
}
cell += columns();
}
m_console_impl.set_cursor(0, 0);
}
void VirtualConsole::scroll_up(u16 region_top, u16 region_bottom, size_t count)
{
VERIFY(region_top <= region_bottom);
size_t region_size = region_bottom - region_top + 1;
count = min(count, region_size);
size_t line_bytes = (columns() * sizeof(Cell));
memmove(m_cells->vaddr().offset(line_bytes * region_top).as_ptr(), m_cells->vaddr().offset(line_bytes * (region_top + count)).as_ptr(), line_bytes * (region_size - count));
for (size_t i = 0; i < count; ++i)
clear_line(region_bottom - i);
for (u16 row = region_top; row <= region_bottom; ++row)
m_lines[row].dirty = true;
}
void VirtualConsole::scroll_down(u16 region_top, u16 region_bottom, size_t count)
{
VERIFY(region_top <= region_bottom);
size_t region_size = region_bottom - region_top + 1;
count = min(count, region_size);
size_t line_bytes = (columns() * sizeof(Cell));
memmove(m_cells->vaddr().offset(line_bytes * (region_top + count)).as_ptr(), m_cells->vaddr().offset(line_bytes * region_top).as_ptr(), line_bytes * (region_size - count));
for (size_t i = 0; i < count; ++i)
clear_line(region_top + i);
for (u16 row = region_top; row <= region_bottom; ++row)
m_lines[row].dirty = true;
}
void VirtualConsole::scroll_left(u16 row, u16 column, size_t count)
{
VERIFY(row < rows());
VERIFY(column < columns());
count = min<size_t>(count, columns() - column);
memmove(&cell_at(column, row), &cell_at(column + count, row), sizeof(Cell) * (columns() - column - count));
for (size_t i = column + count; i < columns(); ++i)
cell_at(i, row).clear();
m_lines[row].dirty = true;
}
void VirtualConsole::scroll_right(u16 row, u16 column, size_t count)
{
VERIFY(row < rows());
VERIFY(column < columns());
count = min<size_t>(count, columns() - column);
memmove(&cell_at(column + count, row), &cell_at(column, row), sizeof(Cell) * (columns() - column - count));
for (size_t i = column; i < column + count; ++i)
cell_at(i, row).clear();
m_lines[row].dirty = true;
}
void VirtualConsole::clear_in_line(u16 row, u16 first_column, u16 last_column)
{
VERIFY(row < rows());
VERIFY(first_column <= last_column);
VERIFY(last_column < columns());
m_lines[row].dirty = true;
for (size_t x = first_column; x <= last_column; x++)
cell_at(x, row).clear();
}
void VirtualConsole::put_character_at(unsigned row, unsigned column, u32 code_point, const VT::Attribute& attribute)
{
VERIFY(row < rows());
VERIFY(column < columns());
auto& line = m_lines[row];
auto& cell = cell_at(column, row);
cell.attribute.foreground_color = attribute.foreground_color;
cell.attribute.background_color = attribute.background_color;
cell.attribute.flags = attribute.flags;
if (code_point > 128)
cell.ch = ' ';
else
cell.ch = code_point;
cell.attribute.flags |= VT::Attribute::Flags::Touched;
line.dirty = true;
// FIXME: Maybe we should consider to change length after printing a special char in a column
if (code_point <= 20)
return;
line.length = max<size_t>(line.length, column);
}
void VirtualConsole::invalidate_cursor(size_t row)
{
m_lines[row].dirty = true;
}
}