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/*
* Copyright (c) 2022, the SerenityOS developers.
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#pragma once
#include <AK/ByteReader.h>
#include <AK/Endian.h>
#include <AK/Error.h>
#include <AK/FixedPoint.h>
#include <AK/Forward.h>
#include <AK/Span.h>
#include <AK/String.h>
#include <AK/Vector.h>
#include <LibEDID/DMT.h>
#include <LibEDID/VIC.h>
namespace EDID {
namespace Definitions {
struct EDID;
struct DetailedTiming;
struct DisplayDescriptor;
struct ExtensionBlock;
}
class Parser final {
friend class CEA861ExtensionBlock;
public:
static constexpr size_t BufferSize = 128;
using RawBytes = unsigned char[BufferSize];
protected:
class DisplayFeatures {
public:
bool supports_standby() const { return (m_features & (1 << 7)) != 0; }
bool supports_suspend() const { return (m_features & (1 << 6)) != 0; }
bool supports_off() const { return (m_features & (1 << 5)) != 0; }
bool preferred_timing_mode_includes_pixel_format_and_refresh_rate() const
{
if (m_edid_revision < 4)
return true; // Bit 1 must be set to 1
return (m_features & (1 << 1)) != 0;
}
bool srgb_is_default_color_space() const { return (m_features & (1 << 2)) != 0; }
enum class Frequency : u8 {
Continuous,
NonContinuous,
DefaultGTF,
VESA_DMT
};
Frequency frequency() const
{
if (m_edid_revision < 4)
return ((m_features & 1) != 0) ? Frequency::DefaultGTF : Frequency::VESA_DMT;
return ((m_features & 1) != 0) ? Frequency::Continuous : Frequency::NonContinuous;
}
protected:
DisplayFeatures(u8 features, u8 edid_revision)
: m_features(features)
, m_edid_revision(edid_revision)
{
}
u8 m_features { 0 };
u8 m_edid_revision { 0 };
};
public:
static ErrorOr<Parser> from_bytes(ReadonlyBytes);
static ErrorOr<Parser> from_bytes(ByteBuffer&&);
#ifndef KERNEL
static ErrorOr<Parser> from_framebuffer_device(int, size_t);
static ErrorOr<Parser> from_framebuffer_device(String const&, size_t);
#endif
String legacy_manufacturer_id() const;
#ifndef KERNEL
String manufacturer_name() const;
#endif
u16 product_code() const;
u32 serial_number() const;
class DigitalDisplayFeatures final : public DisplayFeatures {
friend class Parser;
public:
enum class SupportedColorEncodings : u8 {
RGB444,
RGB444_YCrCb444,
RGB444_YCrCb422,
RGB444_YCrCb444_YCrCb422
};
SupportedColorEncodings supported_color_encodings() const { return (SupportedColorEncodings)((m_features >> 3) & 3); }
private:
DigitalDisplayFeatures(u8 features, u8 edid_revision)
: DisplayFeatures(features, edid_revision)
{
}
};
class AnalogDisplayFeatures final : public DisplayFeatures {
friend class Parser;
public:
enum class DisplayColorType : u8 {
MonochromeOrGrayscale,
RGB,
NonRGB,
Undefined
};
DisplayColorType display_color_type() const { return (DisplayColorType)((m_features >> 3) & 3); }
private:
AnalogDisplayFeatures(u8 features, u8 edid_revision)
: DisplayFeatures(features, edid_revision)
{
}
};
class DigitalDisplay final {
friend class Parser;
public:
enum class ColorBitDepth : u8 {
Undefined = 0,
BPP_6,
BPP_8,
BPP_10,
BPP_12,
BPP_14,
BPP_16,
Reserved
};
enum class SupportedInterface : u8 {
Undefined = 0,
DVI,
HDMI_A,
HDMI_B,
MDDI,
DisplayPort,
Reserved
};
ColorBitDepth color_bit_depth() const { return (ColorBitDepth)((m_video_input_definition >> 4) & 7); }
SupportedInterface supported_interface() const { return ((m_video_input_definition & 0xf) <= 5) ? (SupportedInterface)(m_video_input_definition & 0xf) : SupportedInterface::Reserved; }
DigitalDisplayFeatures const& features() { return m_features; }
private:
DigitalDisplay(u8 video_input_definition, u8 features, u8 edid_revision)
: m_video_input_definition(video_input_definition)
, m_features(features, edid_revision)
{
}
u8 m_video_input_definition { 0 };
DigitalDisplayFeatures m_features;
};
Optional<DigitalDisplay> digital_display() const;
class AnalogDisplay final {
friend class Parser;
public:
bool separate_sync_h_and_v_supported() const { return (m_video_input_definition & (1 << 3)) != 0; }
private:
AnalogDisplay(u8 video_input_definition, u8 features, u8 edid_revision)
: m_video_input_definition(video_input_definition)
, m_features(features, edid_revision)
{
}
u8 m_video_input_definition { 0 };
AnalogDisplayFeatures m_features;
};
Optional<AnalogDisplay> analog_display() const;
class ScreenSize final {
friend class Parser;
public:
unsigned horizontal_cm() const { return m_horizontal_cm; }
unsigned vertical_cm() const { return m_vertical_cm; }
private:
ScreenSize(u8 horizontal_cm, u8 vertical_cm)
: m_horizontal_cm(horizontal_cm)
, m_vertical_cm(vertical_cm)
{
}
u8 m_horizontal_cm { 0 };
u8 m_vertical_cm { 0 };
};
Optional<ScreenSize> screen_size() const;
class ScreenAspectRatio final {
friend class Parser;
public:
enum class Orientation {
Landscape,
Portrait
};
Orientation orientation() const { return m_orientation; }
auto ratio() const { return m_ratio; }
private:
ScreenAspectRatio(Orientation orientation, FixedPoint<16> ratio)
: m_orientation(orientation)
, m_ratio(ratio)
{
}
Orientation m_orientation { Orientation::Landscape };
FixedPoint<16> m_ratio {};
};
Optional<ScreenAspectRatio> aspect_ratio() const;
Optional<FixedPoint<16>> gamma() const;
class EstablishedTiming final {
friend class Parser;
public:
enum class Source {
IBM,
Apple,
VESA,
Manufacturer
};
ALWAYS_INLINE Source source() const { return m_source; }
ALWAYS_INLINE unsigned width() const { return m_width; };
ALWAYS_INLINE unsigned height() const { return m_height; }
ALWAYS_INLINE unsigned refresh_rate() const
{
if (m_source == Source::Manufacturer)
return 0;
return m_refresh_rate_or_manufacturer_specific;
}
ALWAYS_INLINE u8 manufacturer_specific() const
{
VERIFY(m_source == Source::Manufacturer);
return m_refresh_rate_or_manufacturer_specific;
}
ALWAYS_INLINE u8 dmt_id() const { return m_dmt_id; }
private:
constexpr EstablishedTiming(Source source, u16 width, u16 height, u8 refresh_rate_or_manufacturer_specific, u8 dmt_id = 0)
: m_source(source)
, m_width(width)
, m_height(height)
, m_refresh_rate_or_manufacturer_specific(refresh_rate_or_manufacturer_specific)
, m_dmt_id(dmt_id)
{
}
Source m_source { Source::IBM };
u16 m_width { 0 };
u16 m_height { 0 };
u8 m_refresh_rate_or_manufacturer_specific { 0 };
u8 m_dmt_id { 0 };
};
ErrorOr<IterationDecision> for_each_established_timing(Function<IterationDecision(EstablishedTiming const&)>) const;
class StandardTiming final {
friend class Parser;
public:
enum class AspectRatio {
AR_16_10,
AR_4_3,
AR_5_4,
AR_16_9
};
unsigned width() const { return m_width; }
unsigned height() const { return m_height; }
unsigned refresh_rate() const { return m_refresh_rate; }
AspectRatio aspect_ratio() const { return m_aspect_ratio; }
u8 dmt_id() const { return m_dmt_id; }
private:
constexpr StandardTiming(u16 width, u16 height, u8 refresh_rate, AspectRatio aspect_ratio, u8 dmt_id)
: m_width(width)
, m_height(height)
, m_refresh_rate(refresh_rate)
, m_aspect_ratio(aspect_ratio)
, m_dmt_id(dmt_id)
{
}
u16 m_width { 0 };
u16 m_height { 0 };
u8 m_refresh_rate { 0 };
AspectRatio m_aspect_ratio { AspectRatio::AR_16_10 };
u8 m_dmt_id { 0 };
};
ErrorOr<IterationDecision> for_each_standard_timing(Function<IterationDecision(StandardTiming const&)>) const;
class DetailedTiming final {
friend class Parser;
friend class CEA861ExtensionBlock;
public:
u32 pixel_clock_khz() const;
u16 horizontal_addressable_pixels() const;
u16 horizontal_blanking_pixels() const;
u16 vertical_addressable_lines() const;
u16 vertical_blanking_lines() const;
u16 horizontal_front_porch_pixels() const;
ALWAYS_INLINE u16 horizontal_back_porch_pixels() const { return horizontal_blanking_pixels() - horizontal_sync_pulse_width_pixels() - horizontal_front_porch_pixels(); }
u16 horizontal_sync_pulse_width_pixels() const;
u16 vertical_front_porch_lines() const;
ALWAYS_INLINE u16 vertical_back_porch_lines() const { return vertical_blanking_lines() - vertical_sync_pulse_width_lines() - vertical_front_porch_lines(); }
u16 vertical_sync_pulse_width_lines() const;
u16 horizontal_image_size_mm() const;
u16 vertical_image_size_mm() const;
u8 horizontal_right_or_left_border_pixels() const;
u8 vertical_top_or_bottom_border_lines() const;
bool is_interlaced() const;
FixedPoint<16, u32> refresh_rate() const;
private:
DetailedTiming(Parser const& edid, Definitions::DetailedTiming const* detailed_timings)
: m_edid(edid)
, m_detailed_timings(*detailed_timings)
{
}
Parser const& m_edid;
Definitions::DetailedTiming const& m_detailed_timings;
};
ErrorOr<IterationDecision> for_each_detailed_timing(Function<IterationDecision(DetailedTiming const&, unsigned)>) const;
Optional<DetailedTiming> detailed_timing(size_t) const;
String display_product_name() const;
String display_product_serial_number() const;
ErrorOr<IterationDecision> for_each_short_video_descriptor(Function<IterationDecision(unsigned, bool, VIC::Details const&)>) const;
class CoordinatedVideoTiming final {
friend class Parser;
public:
enum class AspectRatio : u8 {
AR_4_3 = 0,
AR_16_9 = 1,
AR_16_10 = 2,
AR_15_9 = 3
};
u16 horizontal_addressable_pixels() const;
u16 vertical_addressable_lines() const;
AspectRatio aspect_ratio() const;
u16 preferred_refresh_rate();
ALWAYS_INLINE DMT::CVT cvt_code() const { return m_cvt; }
private:
CoordinatedVideoTiming(DMT::CVT const& cvt)
: m_cvt(cvt)
{
}
DMT::CVT m_cvt;
};
ErrorOr<IterationDecision> for_each_coordinated_video_timing(Function<IterationDecision(CoordinatedVideoTiming const&)>) const;
ErrorOr<IterationDecision> for_each_extension_block(Function<IterationDecision(unsigned, u8, u8, ReadonlyBytes)>) const;
struct SupportedResolution {
unsigned width { 0 };
unsigned height { 0 };
struct RefreshRate {
FixedPoint<16, u32> rate;
bool preferred { false };
bool operator<(RefreshRate const& rhs) const { return rate < rhs.rate; }
};
Vector<RefreshRate, 4> refresh_rates;
};
ErrorOr<Vector<SupportedResolution>> supported_resolutions() const;
Parser() = default;
Parser(Parser&&) = default;
Parser(Parser const&);
Parser& operator=(Parser&&);
Parser& operator=(Parser const&);
bool operator==(Parser const& other) const;
String version() const;
auto bytes() const { return m_bytes; }
private:
Parser(ReadonlyBytes);
Parser(ByteBuffer&&);
ErrorOr<void> parse();
template<typename T>
T read_host(T const*) const;
template<typename T>
requires(IsIntegral<T> && sizeof(T) > 1) T read_le(T const*)
const;
template<typename T>
requires(IsIntegral<T> && sizeof(T) > 1) T read_be(T const*)
const;
Definitions::EDID const& raw_edid() const;
ErrorOr<IterationDecision> for_each_display_descriptor(Function<IterationDecision(u8, Definitions::DisplayDescriptor const&)>) const;
ByteBuffer m_bytes_buffer;
ReadonlyBytes m_bytes;
u8 m_revision { 0 };
};
}
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