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serenity/Kernel/Graphics/VirtIOGPU/DisplayConnector.cpp
Liav A e2ed6ef741 Kernel/Graphics: Bring back the mmap interface for DisplayConnectors 
The mmap interface was removed when we introduced the DisplayConnector
class, as it was quite unsafe to use and didn't handle switching between
graphical and text modes safely. By using the SharedFramebufferVMObject,
we are able to elegantly coordinate the switch by remapping the attached
mmap'ed-Memory::Region(s) with different mappings, therefore, keeping
WindowServer to think that the mappings it has are still valid, while
they are going to a different physical range until we are back to the
graphical mode (after a switch from text mode).

Most drivers take advantage of the fact that we know where is the actual
framebuffer in physical memory space, the SharedFramebufferVMObject is
created with that information. However, the VirtIO driver is different
in that aspect, because it relies on DMA transactions to show graphics
on the framebuffer, so the SharedFramebufferVMObject is created with
that mindset to support the arbitrary framebuffer location in physical
memory space.
2022-06-06 20:11:05 +01:00

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/*
* Copyright (c) 2021, Sahan Fernando <sahan.h.fernando@gmail.com>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <Kernel/API/VirGL.h>
#include <Kernel/Devices/DeviceManagement.h>
#include <Kernel/Graphics/GraphicsManagement.h>
#include <Kernel/Graphics/VirtIOGPU/Console.h>
#include <Kernel/Graphics/VirtIOGPU/DisplayConnector.h>
#include <Kernel/Graphics/VirtIOGPU/GraphicsAdapter.h>
#include <Kernel/Graphics/VirtIOGPU/Protocol.h>
#include <Kernel/Random.h>
namespace Kernel {
NonnullRefPtr<VirtIODisplayConnector> VirtIODisplayConnector::must_create(VirtIOGraphicsAdapter& graphics_adapter, Graphics::VirtIOGPU::ScanoutID scanout_id)
{
auto device_or_error = DeviceManagement::try_create_device<VirtIODisplayConnector>(graphics_adapter, scanout_id);
VERIFY(!device_or_error.is_error());
auto connector = device_or_error.release_value();
connector->initialize_console();
return connector;
}
static_assert((MAX_VIRTIOGPU_RESOLUTION_WIDTH * MAX_VIRTIOGPU_RESOLUTION_HEIGHT * sizeof(u32) * 2) % PAGE_SIZE == 0);
VirtIODisplayConnector::VirtIODisplayConnector(VirtIOGraphicsAdapter& graphics_adapter, Graphics::VirtIOGPU::ScanoutID scanout_id)
: DisplayConnector((MAX_VIRTIOGPU_RESOLUTION_WIDTH * MAX_VIRTIOGPU_RESOLUTION_HEIGHT * sizeof(u32) * 2), false)
, m_graphics_adapter(graphics_adapter)
, m_scanout_id(scanout_id)
{
}
void VirtIODisplayConnector::initialize_console()
{
m_console = Kernel::Graphics::VirtIOGPU::Console::initialize(*this);
}
void VirtIODisplayConnector::set_safe_mode_setting_after_initialization(Badge<VirtIOGraphicsAdapter>)
{
MUST(set_safe_mode_setting());
}
ErrorOr<void> VirtIODisplayConnector::set_mode_setting(ModeSetting const& mode_setting)
{
SpinlockLocker locker(m_modeset_lock);
if (mode_setting.horizontal_active > MAX_VIRTIOGPU_RESOLUTION_WIDTH || mode_setting.vertical_active > MAX_VIRTIOGPU_RESOLUTION_HEIGHT)
return Error::from_errno(ENOTSUP);
auto& info = m_display_info;
info.rect = {
.x = 0,
.y = 0,
.width = (u32)mode_setting.horizontal_active,
.height = (u32)mode_setting.vertical_active,
};
TRY(m_graphics_adapter->mode_set_resolution({}, *this, mode_setting.horizontal_active, mode_setting.vertical_active));
DisplayConnector::ModeSetting mode_set {
.horizontal_stride = info.rect.width * sizeof(u32),
.pixel_clock_in_khz = 0, // Note: There's no pixel clock in paravirtualized hardware
.horizontal_active = info.rect.width,
.horizontal_front_porch_pixels = 0, // Note: There's no horizontal_front_porch_pixels in paravirtualized hardware
.horizontal_sync_time_pixels = 0, // Note: There's no horizontal_sync_time_pixels in paravirtualized hardware
.horizontal_blank_pixels = 0, // Note: There's no horizontal_blank_pixels in paravirtualized hardware
.vertical_active = info.rect.height,
.vertical_front_porch_lines = 0, // Note: There's no vertical_front_porch_lines in paravirtualized hardware
.vertical_sync_time_lines = 0, // Note: There's no vertical_sync_time_lines in paravirtualized hardware
.vertical_blank_lines = 0, // Note: There's no vertical_blank_lines in paravirtualized hardware
.horizontal_offset = 0,
.vertical_offset = 0,
};
m_current_mode_setting = mode_set;
m_display_info.enabled = 1;
return {};
}
ErrorOr<void> VirtIODisplayConnector::set_safe_mode_setting()
{
DisplayConnector::ModeSetting safe_mode_setting {
.horizontal_stride = 1024 * sizeof(u32),
.pixel_clock_in_khz = 0, // Note: There's no pixel clock in paravirtualized hardware
.horizontal_active = 1024,
.horizontal_front_porch_pixels = 0, // Note: There's no horizontal_front_porch_pixels in paravirtualized hardware
.horizontal_sync_time_pixels = 0, // Note: There's no horizontal_sync_time_pixels in paravirtualized hardware
.horizontal_blank_pixels = 0, // Note: There's no horizontal_blank_pixels in paravirtualized hardware
.vertical_active = 768,
.vertical_front_porch_lines = 0, // Note: There's no vertical_front_porch_lines in paravirtualized hardware
.vertical_sync_time_lines = 0, // Note: There's no vertical_sync_time_lines in paravirtualized hardware
.vertical_blank_lines = 0, // Note: There's no vertical_blank_lines in paravirtualized hardware
.horizontal_offset = 0,
.vertical_offset = 0,
};
return set_mode_setting(safe_mode_setting);
}
ErrorOr<void> VirtIODisplayConnector::set_y_offset(size_t y)
{
VERIFY(m_control_lock.is_locked());
if (y == 0)
m_last_set_buffer_index.store(0);
else if (y == m_display_info.rect.height)
m_last_set_buffer_index.store(1);
else
return Error::from_errno(EINVAL);
return {};
}
ErrorOr<void> VirtIODisplayConnector::unblank()
{
return Error::from_errno(ENOTIMPL);
}
ErrorOr<void> VirtIODisplayConnector::flush_rectangle(size_t buffer_index, FBRect const& rect)
{
VERIFY(m_flushing_lock.is_locked());
if (!is_valid_buffer_index(buffer_index))
return Error::from_errno(EINVAL);
SpinlockLocker locker(m_graphics_adapter->operation_lock());
Graphics::VirtIOGPU::Protocol::Rect dirty_rect {
.x = rect.x,
.y = rect.y,
.width = rect.width,
.height = rect.height
};
bool main_buffer = (buffer_index == 0);
m_graphics_adapter->transfer_framebuffer_data_to_host({}, *this, dirty_rect, main_buffer);
if (m_last_set_buffer_index.load() == buffer_index) {
// Flushing directly to screen
flush_displayed_image(dirty_rect, main_buffer);
} else {
set_dirty_displayed_rect(dirty_rect, main_buffer);
}
return {};
}
ErrorOr<void> VirtIODisplayConnector::flush_first_surface()
{
VERIFY(m_flushing_lock.is_locked());
SpinlockLocker locker(m_graphics_adapter->operation_lock());
Graphics::VirtIOGPU::Protocol::Rect dirty_rect {
.x = 0,
.y = 0,
.width = m_display_info.rect.width,
.height = m_display_info.rect.height
};
auto current_buffer_index = m_last_set_buffer_index.load();
VERIFY(is_valid_buffer_index(current_buffer_index));
bool main_buffer = (current_buffer_index == 0);
m_graphics_adapter->transfer_framebuffer_data_to_host({}, *this, dirty_rect, main_buffer);
// Flushing directly to screen
flush_displayed_image(dirty_rect, main_buffer);
return {};
}
void VirtIODisplayConnector::enable_console()
{
VERIFY(m_control_lock.is_locked());
VERIFY(m_console);
m_console->enable();
}
void VirtIODisplayConnector::disable_console()
{
VERIFY(m_control_lock.is_locked());
VERIFY(m_console);
m_console->disable();
}
void VirtIODisplayConnector::set_edid_bytes(Badge<VirtIOGraphicsAdapter>, Array<u8, 128> const& edid_bytes)
{
DisplayConnector::set_edid_bytes(edid_bytes);
}
Graphics::VirtIOGPU::Protocol::DisplayInfoResponse::Display VirtIODisplayConnector::display_information(Badge<VirtIOGraphicsAdapter>) const
{
return m_display_info;
}
void VirtIODisplayConnector::clear_to_black()
{
size_t width = m_display_info.rect.width;
size_t height = m_display_info.rect.height;
u8* data = framebuffer_data();
for (size_t i = 0; i < width * height; ++i) {
data[4 * i + 0] = 0x00;
data[4 * i + 1] = 0x00;
data[4 * i + 2] = 0x00;
data[4 * i + 3] = 0xff;
}
}
void VirtIODisplayConnector::draw_ntsc_test_pattern(Badge<VirtIOGraphicsAdapter>)
{
constexpr u8 colors[12][4] = {
{ 0xff, 0xff, 0xff, 0xff }, // White
{ 0x00, 0xff, 0xff, 0xff }, // Primary + Composite colors
{ 0xff, 0xff, 0x00, 0xff },
{ 0x00, 0xff, 0x00, 0xff },
{ 0xff, 0x00, 0xff, 0xff },
{ 0x00, 0x00, 0xff, 0xff },
{ 0xff, 0x00, 0x00, 0xff },
{ 0xba, 0x01, 0x5f, 0xff }, // Dark blue
{ 0x8d, 0x3d, 0x00, 0xff }, // Purple
{ 0x22, 0x22, 0x22, 0xff }, // Shades of gray
{ 0x10, 0x10, 0x10, 0xff },
{ 0x00, 0x00, 0x00, 0xff },
};
size_t width = m_display_info.rect.width;
size_t height = m_display_info.rect.height;
u8* data = framebuffer_data();
// Draw NTSC test card
for (size_t i = 0; i < 2; ++i) {
for (size_t y = 0; y < height; ++y) {
for (size_t x = 0; x < width; ++x) {
size_t color = 0;
if (3 * y < 2 * height) {
// Top 2/3 of image is 7 vertical stripes of color spectrum
color = (7 * x) / width;
} else if (4 * y < 3 * height) {
// 2/3 mark to 3/4 mark is backwards color spectrum alternating with black
auto segment = (7 * x) / width;
color = segment % 2 ? 10 : 6 - segment;
} else {
if (28 * x < 5 * width) {
color = 8;
} else if (28 * x < 10 * width) {
color = 0;
} else if (28 * x < 15 * width) {
color = 7;
} else if (28 * x < 20 * width) {
color = 10;
} else if (7 * x < 6 * width) {
// Grayscale gradient
color = 26 - ((21 * x) / width);
} else {
// Solid black
color = 10;
}
}
u8* pixel = &data[4 * (y * width + x)];
for (int i = 0; i < 4; ++i) {
pixel[i] = colors[color][i];
}
}
}
data = data + (width * height * sizeof(u32));
}
dbgln_if(VIRTIO_DEBUG, "Finish drawing the pattern");
}
void VirtIODisplayConnector::flush_displayed_image(Graphics::VirtIOGPU::Protocol::Rect const& dirty_rect, bool main_buffer)
{
VERIFY(m_graphics_adapter->operation_lock().is_locked());
m_graphics_adapter->flush_displayed_image({}, *this, dirty_rect, main_buffer);
}
void VirtIODisplayConnector::set_dirty_displayed_rect(Graphics::VirtIOGPU::Protocol::Rect const& dirty_rect, bool main_buffer)
{
VERIFY(m_graphics_adapter->operation_lock().is_locked());
m_graphics_adapter->set_dirty_displayed_rect({}, *this, dirty_rect, main_buffer);
}
}
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