libdisplay-info/cta.c

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#include <assert.h>
#include <errno.h>
#include <inttypes.h>
#include <math.h>
#include <stdlib.h>
#include <string.h>
#include "bits.h"
#include "cta.h"
#include "log.h"
#include "edid.h"
/**
* Number of bytes in the CTA header (tag + revision + DTD offset + flags).
*/
#define CTA_HEADER_SIZE 4
/**
* Exclusive upper bound for the detailed timing definitions in the CTA block.
*/
#define CTA_DTD_END 127
static void
add_failure(struct di_edid_cta *cta, const char fmt[], ...)
{
va_list args;
va_start(args, fmt);
_di_logger_va_add_failure(cta->logger, fmt, args);
va_end(args);
}
static void
add_failure_until(struct di_edid_cta *cta, int revision, const char fmt[], ...)
{
va_list args;
if (cta->revision > revision) {
return;
}
va_start(args, fmt);
_di_logger_va_add_failure(cta->logger, fmt, args);
va_end(args);
}
static bool
parse_video_block(struct di_edid_cta *cta, struct di_cta_video_block *video,
const uint8_t *data, size_t size)
{
size_t i;
uint8_t raw;
struct di_cta_svd svd, *svd_ptr;
if (size == 0)
add_failure(cta, "Video Data Block: Empty Data Block");
for (i = 0; i < size; i++) {
raw = data[i];
if (raw == 0 || raw == 128 || raw >= 254) {
/* Reserved */
add_failure_until(cta, 3,
"Video Data Block: Unknown VIC %" PRIu8 ".",
raw);
continue;
} else if (raw <= 127 || raw >= 193) {
svd = (struct di_cta_svd) {
.vic = raw,
};
} else {
svd = (struct di_cta_svd) {
.vic = get_bit_range(raw, 6, 0),
.native = true,
};
}
svd_ptr = calloc(1, sizeof(*svd_ptr));
if (!svd_ptr)
return false;
*svd_ptr = svd;
assert(video->svds_len < EDID_CTA_MAX_VIDEO_BLOCK_ENTRIES);
video->svds[video->svds_len++] = svd_ptr;
}
return true;
}
static bool
parse_video_cap_block(struct di_edid_cta *cta,
struct di_cta_video_cap_block *video_cap,
const uint8_t *data, size_t size)
{
if (size < 1) {
add_failure(cta,
"Video Capability Data Block: Empty Data Block with length %u.",
size);
return false;
}
video_cap->selectable_ycc_quantization_range = has_bit(data[0], 7);
video_cap->selectable_rgb_quantization_range = has_bit(data[0], 6);
video_cap->pt_over_underscan = get_bit_range(data[0], 5, 4);
video_cap->it_over_underscan = get_bit_range(data[0], 3, 2);
video_cap->ce_over_underscan = get_bit_range(data[0], 1, 0);
if (!video_cap->selectable_rgb_quantization_range && cta->revision >= 3)
add_failure(cta,
"Video Capability Data Block: Set Selectable RGB Quantization to avoid interop issues.");
/* TODO: add failure if selectable_ycc_quantization_range is unset,
* the sink supports YCbCr formats and the revision is 3+ */
switch (video_cap->it_over_underscan) {
case DI_CTA_VIDEO_CAP_ALWAYS_OVERSCAN:
if (cta->flags.it_underscan)
add_failure(cta, "Video Capability Data Block: IT video formats are always overscanned, but bit 7 of Byte 3 of the CTA-861 Extension header is set to underscanned.");
break;
case DI_CTA_VIDEO_CAP_ALWAYS_UNDERSCAN:
if (!cta->flags.it_underscan)
add_failure(cta, "Video Capability Data Block: IT video formats are always underscanned, but bit 7 of Byte 3 of the CTA-861 Extension header is set to overscanned.");
default:
break;
}
return true;
}
static bool
parse_colorimetry_block(struct di_edid_cta *cta,
struct di_cta_colorimetry_block *colorimetry,
const uint8_t *data, size_t size)
{
if (size < 2) {
add_failure(cta, "Colorimetry Data Block: Empty Data Block with length %u.",
size);
return false;
}
colorimetry->bt2020_rgb = has_bit(data[0], 7);
colorimetry->bt2020_ycc = has_bit(data[0], 6);
colorimetry->bt2020_cycc = has_bit(data[0], 5);
colorimetry->oprgb = has_bit(data[0], 4);
colorimetry->opycc_601 = has_bit(data[0], 3);
colorimetry->sycc_601 = has_bit(data[0], 2);
colorimetry->xvycc_709 = has_bit(data[0], 1);
colorimetry->xvycc_601 = has_bit(data[0], 0);
colorimetry->st2113_rgb = has_bit(data[1], 7);
colorimetry->ictcp = has_bit(data[1], 6);
if (get_bit_range(data[1], 5, 0) != 0)
add_failure_until(cta, 3,
"Colorimetry Data Block: Reserved bits MD0-MD3 must be 0.");
return true;
}
static float
parse_max_luminance(uint8_t raw)
{
if (raw == 0)
return 0;
return 50 * powf(2, (float) raw / 32);
}
static float
parse_min_luminance(uint8_t raw, float max)
{
if (raw == 0)
return 0;
return max * powf((float) raw / 255, 2) / 100;
}
static bool
parse_hdr_static_metadata_block(struct di_edid_cta *cta,
struct di_cta_hdr_static_metadata_block_priv *metadata,
const uint8_t *data, size_t size)
{
uint8_t eotfs, descriptors;
if (size < 2) {
add_failure(cta, "HDR Static Metadata Data Block: Empty Data Block with length %u.",
size);
return false;
}
metadata->base.eotfs = &metadata->eotfs;
metadata->base.descriptors = &metadata->descriptors;
eotfs = data[0];
metadata->eotfs.traditional_sdr = has_bit(eotfs, 0);
metadata->eotfs.traditional_hdr = has_bit(eotfs, 1);
metadata->eotfs.pq = has_bit(eotfs, 2);
metadata->eotfs.hlg = has_bit(eotfs, 3);
if (get_bit_range(eotfs, 7, 4))
add_failure_until(cta, 3, "HDR Static Metadata Data Block: Unknown EOTF.");
descriptors = data[1];
metadata->descriptors.type1 = has_bit(descriptors, 0);
if (get_bit_range(descriptors, 7, 1))
add_failure_until(cta, 3, "HDR Static Metadata Data Block: Unknown descriptor type.");
if (size > 2)
metadata->base.desired_content_max_luminance = parse_max_luminance(data[2]);
if (size > 3)
metadata->base.desired_content_max_frame_avg_luminance = parse_max_luminance(data[3]);
if (size > 4) {
if (metadata->base.desired_content_max_luminance == 0)
add_failure(cta, "HDR Static Metadata Data Block: Desired content min luminance is set, but max luminance is unset.");
else
metadata->base.desired_content_min_luminance =
parse_min_luminance(data[4], metadata->base.desired_content_max_luminance);
}
return true;
}
static bool
parse_vesa_transfer_characteristics_block(struct di_edid_cta *cta,
struct di_cta_vesa_transfer_characteristics *tf,
const uint8_t *data, size_t size)
{
size_t i;
if (size != 7 && size != 15 && size != 31) {
add_failure(cta, "Invalid length %u.", size);
return false;
}
tf->points_len = (uint8_t) size + 1;
tf->usage = get_bit_range(data[0], 7, 6);
tf->points[0] = get_bit_range(data[0], 5, 0) / 1023.0f;
for (i = 1; i < size; i++)
tf->points[i] = tf->points[i - 1] + data[i] / 1023.0f;
tf->points[i] = 1.0f;
return true;
}
static void
destroy_data_block(struct di_cta_data_block *data_block)
{
size_t i;
struct di_cta_video_block *video;
switch (data_block->tag) {
case DI_CTA_DATA_BLOCK_VIDEO:
video = &data_block->video;
for (i = 0; i < video->svds_len; i++)
free(video->svds[i]);
break;
default:
break; /* Nothing to do */
}
free(data_block);
}
static bool
parse_data_block(struct di_edid_cta *cta, uint8_t raw_tag, const uint8_t *data, size_t size)
{
enum di_cta_data_block_tag tag;
uint8_t extended_tag;
struct di_cta_data_block *data_block;
data_block = calloc(1, sizeof(*data_block));
if (!data_block) {
return false;
}
switch (raw_tag) {
case 1:
tag = DI_CTA_DATA_BLOCK_AUDIO;
break;
case 2:
tag = DI_CTA_DATA_BLOCK_VIDEO;
if (!parse_video_block(cta, &data_block->video, data, size))
goto error;
break;
case 3:
/* Vendor-Specific Data Block */
goto skip;
case 4:
tag = DI_CTA_DATA_BLOCK_SPEAKER_ALLOC;
break;
case 5:
tag = DI_CTA_DATA_BLOCK_VESA_DISPLAY_TRANSFER_CHARACTERISTIC;
if (!parse_vesa_transfer_characteristics_block(cta,
&data_block->vesa_transfer_characteristics,
data, size))
goto error;
break;
case 7:
/* Use Extended Tag */
if (size < 1) {
add_failure(cta, "Empty block with extended tag.");
goto skip;
}
extended_tag = data[0];
data = &data[1];
size--;
switch (extended_tag) {
case 0:
tag = DI_CTA_DATA_BLOCK_VIDEO_CAP;
if (!parse_video_cap_block(cta, &data_block->video_cap,
data, size))
goto skip;
break;
case 2:
tag = DI_CTA_DATA_BLOCK_VESA_DISPLAY_DEVICE;
break;
case 5:
tag = DI_CTA_DATA_BLOCK_COLORIMETRY;
if (!parse_colorimetry_block(cta,
&data_block->colorimetry,
data, size))
goto skip;
break;
case 6:
tag = DI_CTA_DATA_BLOCK_HDR_STATIC_METADATA;
if (!parse_hdr_static_metadata_block(cta,
&data_block->hdr_static_metadata,
data, size))
goto skip;
break;
case 7:
tag = DI_CTA_DATA_BLOCK_HDR_DYNAMIC_METADATA;
break;
case 13:
tag = DI_CTA_DATA_BLOCK_VIDEO_FORMAT_PREF;
break;
case 14:
tag = DI_CTA_DATA_BLOCK_YCBCR420;
break;
case 15:
tag = DI_CTA_DATA_BLOCK_YCBCR420_CAP_MAP;
break;
case 18:
tag = DI_CTA_DATA_BLOCK_HDMI_AUDIO;
break;
case 19:
tag = DI_CTA_DATA_BLOCK_ROOM_CONFIG;
break;
case 20:
tag = DI_CTA_DATA_BLOCK_SPEAKER_LOCATION;
break;
case 32:
tag = DI_CTA_DATA_BLOCK_INFOFRAME;
break;
case 34:
tag = DI_CTA_DATA_BLOCK_DISPLAYID_VIDEO_TIMING_VII;
break;
case 35:
tag = DI_CTA_DATA_BLOCK_DISPLAYID_VIDEO_TIMING_VIII;
break;
case 42:
tag = DI_CTA_DATA_BLOCK_DISPLAYID_VIDEO_TIMING_X;
break;
case 120:
tag = DI_CTA_DATA_BLOCK_HDMI_EDID_EXT_OVERRIDE;
break;
case 121:
tag = DI_CTA_DATA_BLOCK_HDMI_SINK_CAP;
break;
case 1: /* Vendor-Specific Video Data Block */
case 17: /* Vendor-Specific Audio Data Block */
goto skip;
default:
/* Reserved */
add_failure_until(cta, 3,
"Unknown CTA-861 Data Block (extended tag 0x"PRIx8", length %zu).",
extended_tag, size);
goto skip;
}
break;
default:
/* Reserved */
add_failure_until(cta, 3, "Unknown CTA-861 Data Block (tag 0x"PRIx8", length %zu).",
raw_tag, size);
goto skip;
}
data_block->tag = tag;
assert(cta->data_blocks_len < EDID_CTA_MAX_DATA_BLOCKS);
cta->data_blocks[cta->data_blocks_len++] = data_block;
return true;
skip:
free(data_block);
return true;
error:
destroy_data_block(data_block);
return false;
}
bool
_di_edid_cta_parse(struct di_edid_cta *cta, const uint8_t *data, size_t size,
struct di_logger *logger)
{
uint8_t flags, dtd_start;
uint8_t data_block_header, data_block_tag, data_block_size;
size_t i;
struct di_edid_detailed_timing_def_priv *detailed_timing_def;
assert(size == 128);
assert(data[0] == 0x02);
cta->logger = logger;
cta->revision = data[1];
dtd_start = data[2];
flags = data[3];
if (cta->revision >= 2) {
cta->flags.it_underscan = has_bit(flags, 7);
cta->flags.basic_audio = has_bit(flags, 6);
cta->flags.ycc444 = has_bit(flags, 5);
cta->flags.ycc422 = has_bit(flags, 4);
cta->flags.native_dtds = get_bit_range(flags, 3, 0);
} else if (flags != 0) {
/* Reserved */
add_failure(cta, "Non-zero byte 3.");
}
if (dtd_start == 0) {
return true;
} else if (dtd_start < CTA_HEADER_SIZE || dtd_start >= size) {
errno = EINVAL;
return false;
}
i = CTA_HEADER_SIZE;
while (i < dtd_start) {
data_block_header = data[i];
data_block_tag = get_bit_range(data_block_header, 7, 5);
data_block_size = get_bit_range(data_block_header, 4, 0);
if (i + 1 + data_block_size > dtd_start) {
_di_edid_cta_finish(cta);
errno = EINVAL;
return false;
}
if (!parse_data_block(cta, data_block_tag,
&data[i + 1], data_block_size)) {
_di_edid_cta_finish(cta);
return false;
}
i += 1 + data_block_size;
}
if (i != dtd_start)
add_failure(cta, "Offset is %"PRIu8", but should be %zu.",
dtd_start, i);
for (i = dtd_start; i + EDID_BYTE_DESCRIPTOR_SIZE <= CTA_DTD_END;
i += EDID_BYTE_DESCRIPTOR_SIZE) {
if (data[i] == 0)
break;
detailed_timing_def = _di_edid_parse_detailed_timing_def(&data[i]);
if (!detailed_timing_def) {
_di_edid_cta_finish(cta);
return false;
}
assert(cta->detailed_timing_defs_len < EDID_CTA_MAX_DETAILED_TIMING_DEFS);
cta->detailed_timing_defs[cta->detailed_timing_defs_len++] = detailed_timing_def;
}
/* All padding bytes after the last DTD must be zero */
while (i < CTA_DTD_END) {
if (data[i] != 0) {
add_failure(cta, "Padding: Contains non-zero bytes.");
break;
}
i++;
}
cta->logger = NULL;
return true;
}
void
_di_edid_cta_finish(struct di_edid_cta *cta)
{
size_t i;
for (i = 0; i < cta->data_blocks_len; i++) {
destroy_data_block(cta->data_blocks[i]);
}
for (i = 0; i < cta->detailed_timing_defs_len; i++) {
free(cta->detailed_timing_defs[i]);
}
}
int
di_edid_cta_get_revision(const struct di_edid_cta *cta)
{
return cta->revision;
}
const struct di_edid_cta_flags *
di_edid_cta_get_flags(const struct di_edid_cta *cta)
{
return &cta->flags;
}
const struct di_cta_data_block *const *
di_edid_cta_get_data_blocks(const struct di_edid_cta *cta)
{
return (const struct di_cta_data_block *const *) cta->data_blocks;
}
enum di_cta_data_block_tag
di_cta_data_block_get_tag(const struct di_cta_data_block *block)
{
return block->tag;
}
const struct di_cta_svd *const *
di_cta_data_block_get_svds(const struct di_cta_data_block *block)
{
if (block->tag != DI_CTA_DATA_BLOCK_VIDEO) {
return NULL;
}
return (const struct di_cta_svd *const *) block->video.svds;
}
const struct di_cta_colorimetry_block *
di_cta_data_block_get_colorimetry(const struct di_cta_data_block *block)
{
if (block->tag != DI_CTA_DATA_BLOCK_COLORIMETRY) {
return NULL;
}
return &block->colorimetry;
}
const struct di_cta_hdr_static_metadata_block *
di_cta_data_block_get_hdr_static_metadata(const struct di_cta_data_block *block)
{
if (block->tag != DI_CTA_DATA_BLOCK_HDR_STATIC_METADATA) {
return NULL;
}
return &block->hdr_static_metadata.base;
}
const struct di_cta_video_cap_block *
di_cta_data_block_get_video_cap(const struct di_cta_data_block *block)
{
if (block->tag != DI_CTA_DATA_BLOCK_VIDEO_CAP) {
return NULL;
}
return &block->video_cap;
}
const struct di_edid_detailed_timing_def *const *
di_edid_cta_get_detailed_timing_defs(const struct di_edid_cta *cta)
{
return (const struct di_edid_detailed_timing_def *const *) cta->detailed_timing_defs;
}
const struct di_cta_vesa_transfer_characteristics *
di_cta_data_block_get_vesa_transfer_characteristics(const struct di_cta_data_block *block)
{
if (block->tag != DI_CTA_DATA_BLOCK_VESA_DISPLAY_TRANSFER_CHARACTERISTIC) {
return NULL;
}
return &block->vesa_transfer_characteristics;
}