libdisplay-info/displayid.c
Bernd Kuhls 5c9801a75f displayid.c: Include sys/types.h
Fixes build error
../displayid.c:377:10: error: ‘ssize_t’ undeclared (first use in this function); did you mean ‘size_t’?

seen with:
arc-linux-gcc.br_real (Buildroot 2021.11-4428-g6b6741b) 10.2.0

Signed-off-by: Bernd Kuhls <bernd.kuhls@t-online.de>
2023-05-07 14:23:26 +02:00

566 lines
17 KiB
C

#include <assert.h>
#include <errno.h>
#include <inttypes.h>
#include <stdlib.h>
#include <string.h>
#include <sys/types.h>
#include "bits.h"
#include "displayid.h"
/**
* The size of the mandatory fields in a DisplayID section.
*/
#define DISPLAYID_MIN_SIZE 5
/**
* The maximum size of a DisplayID section.
*/
#define DISPLAYID_MAX_SIZE 256
/**
* The size of a DisplayID data block header (tag, revision and size).
*/
#define DISPLAYID_DATA_BLOCK_HEADER_SIZE 3
/**
* The size of a DisplayID type I timing.
*/
#define DISPLAYID_TYPE_I_TIMING_SIZE 20
static bool
is_all_zeroes(const uint8_t *data, size_t size)
{
size_t i;
for (i = 0; i < size; i++) {
if (data[i] != 0)
return false;
}
return true;
}
static void
add_failure(struct di_displayid *displayid, const char fmt[], ...)
{
va_list args;
va_start(args, fmt);
_di_logger_va_add_failure(displayid->logger, fmt, args);
va_end(args);
}
static void
check_data_block_revision(struct di_displayid *displayid,
const uint8_t data[static DISPLAYID_DATA_BLOCK_HEADER_SIZE],
const char *block_name, uint8_t max_revision)
{
uint8_t revision, flags;
flags = get_bit_range(data[0x01], 7, 3);
revision = get_bit_range(data[0x01], 2, 0);
if (revision > max_revision) {
add_failure(displayid, "%s: Unexpected revision (%u != %u).",
block_name, revision, max_revision);
}
if (flags != 0) {
add_failure(displayid, "%s: Unexpected flags (0x%02x).",
block_name, flags);
}
}
static bool
parse_display_params_block(struct di_displayid *displayid,
struct di_displayid_display_params_priv *priv,
const uint8_t *data, size_t size)
{
struct di_displayid_display_params *params = &priv->base;
uint8_t raw_features;
check_data_block_revision(displayid, data,
"Display Parameters Data Block",
0);
if (size != 0x0F) {
add_failure(displayid, "Display Parameters Data Block: DisplayID payload length is different than expected (%zu != %zu)", size, 0x0F);
return false;
}
params->horiz_image_mm = 0.1f * (float)(data[0x03] | (data[0x04] << 8));
params->vert_image_mm = 0.1f * (float)(data[0x05] | (data[0x06] << 8));
params->horiz_pixels = data[0x07] | (data[0x08] << 8);
params->vert_pixels = data[0x09] | (data[0x0A] << 8);
raw_features = data[0x0B];
params->features = &priv->features;
priv->features.audio = has_bit(raw_features, 7);
priv->features.separate_audio_inputs = has_bit(raw_features, 6);
priv->features.audio_input_override = has_bit(raw_features, 5);
priv->features.power_management = has_bit(raw_features, 4);
priv->features.fixed_timing = has_bit(raw_features, 3);
priv->features.fixed_pixel_format = has_bit(raw_features, 2);
priv->features.ai = has_bit(raw_features, 1);
priv->features.deinterlacing = has_bit(raw_features, 0);
if (data[0x0C] != 0xFF)
params->gamma = (float)data[0x0C] / 100 + 1;
params->aspect_ratio = (float)data[0x0D] / 100 + 1;
params->bits_per_color_overall = get_bit_range(data[0x0E], 7, 4) + 1;
params->bits_per_color_native = get_bit_range(data[0x0E], 3, 0) + 1;
return true;
}
static bool
parse_type_i_timing(struct di_displayid *displayid,
struct di_displayid_data_block *data_block,
const uint8_t data[static DISPLAYID_TYPE_I_TIMING_SIZE])
{
int raw_pixel_clock;
uint8_t stereo_3d, aspect_ratio;
struct di_displayid_type_i_timing *t = calloc(1, sizeof(*t));
if (t == NULL) {
return false;
}
raw_pixel_clock = data[0] | (data[1] << 8) | (data[2] << 16);
t->pixel_clock_mhz = (double)(1 + raw_pixel_clock) * 0.01;
t->preferred = has_bit(data[3], 7);
t->interlaced = has_bit(data[3], 4);
stereo_3d = get_bit_range(data[3], 6, 5);
switch (stereo_3d) {
case DI_DISPLAYID_TYPE_I_TIMING_STEREO_3D_NEVER:
case DI_DISPLAYID_TYPE_I_TIMING_STEREO_3D_ALWAYS:
case DI_DISPLAYID_TYPE_I_TIMING_STEREO_3D_USER:
t->stereo_3d = stereo_3d;
break;
default:
add_failure(displayid,
"Video Timing Modes Type 1 - Detailed Timings Data Block: Reserved stereo 0x%02x.",
stereo_3d);
break;
}
aspect_ratio = get_bit_range(data[3], 3, 0);
switch (aspect_ratio) {
case DI_DISPLAYID_TYPE_I_TIMING_ASPECT_RATIO_1_1:
case DI_DISPLAYID_TYPE_I_TIMING_ASPECT_RATIO_5_4:
case DI_DISPLAYID_TYPE_I_TIMING_ASPECT_RATIO_4_3:
case DI_DISPLAYID_TYPE_I_TIMING_ASPECT_RATIO_15_9:
case DI_DISPLAYID_TYPE_I_TIMING_ASPECT_RATIO_16_9:
case DI_DISPLAYID_TYPE_I_TIMING_ASPECT_RATIO_16_10:
case DI_DISPLAYID_TYPE_I_TIMING_ASPECT_RATIO_64_27:
case DI_DISPLAYID_TYPE_I_TIMING_ASPECT_RATIO_256_135:
case DI_DISPLAYID_TYPE_I_TIMING_ASPECT_RATIO_UNDEFINED:
t->aspect_ratio = aspect_ratio;
break;
default:
t->aspect_ratio = DI_DISPLAYID_TYPE_I_TIMING_ASPECT_RATIO_UNDEFINED;
add_failure(displayid,
"Video Timing Modes Type 1 - Detailed Timings Data Block: Unknown aspect 0x%02x.",
aspect_ratio);
break;
}
t->horiz_active = 1 + (data[4] | (data[5] << 8));
t->horiz_blank = 1 + (data[6] | (data[7] << 8));
t->horiz_offset = 1 + (data[8] | (get_bit_range(data[9], 6, 0) << 8));
t->horiz_sync_polarity = has_bit(data[9], 7);
t->horiz_sync_width = 1 + (data[10] | (data[11] << 8));
t->vert_active = 1 + (data[12] | (data[13] << 8));
t->vert_blank = 1 + (data[14] | (data[15] << 8));
t->vert_offset = 1 + (data[16] | (get_bit_range(data[17], 6, 0) << 8));
t->vert_sync_polarity = has_bit(data[17], 7);
t->vert_sync_width = 1 + (data[18] | (data[19] << 8));
assert(data_block->type_i_timings_len < DISPLAYID_MAX_TYPE_I_TIMINGS);
data_block->type_i_timings[data_block->type_i_timings_len++] = t;
return true;
}
static bool
parse_type_i_timing_block(struct di_displayid *displayid,
struct di_displayid_data_block *data_block,
const uint8_t *data, size_t size)
{
size_t i;
check_data_block_revision(displayid, data,
"Video Timing Modes Type 1 - Detailed Timings Data Block",
1);
if ((size - DISPLAYID_DATA_BLOCK_HEADER_SIZE) % DISPLAYID_TYPE_I_TIMING_SIZE != 0) {
add_failure(displayid,
"Video Timing Modes Type 1 - Detailed Timings Data Block: payload size not divisible by element size.");
}
for (i = DISPLAYID_DATA_BLOCK_HEADER_SIZE;
i + DISPLAYID_TYPE_I_TIMING_SIZE <= size;
i += DISPLAYID_TYPE_I_TIMING_SIZE) {
if (!parse_type_i_timing(displayid, data_block, &data[i])) {
return false;
}
}
return true;
}
static bool
parse_tiled_topo_block(struct di_displayid *displayid,
struct di_displayid_tiled_topo_priv *priv,
const uint8_t *data, size_t size)
{
struct di_displayid_tiled_topo *tiled_topo = &priv->base;
uint8_t raw_caps, raw_missing_recv_behavior, raw_single_recv_behavior;
bool has_bezel;
float px_mult;
check_data_block_revision(displayid, data,
"Tiled Display Topology Data Block",
0);
if (size - DISPLAYID_DATA_BLOCK_HEADER_SIZE != 22) {
add_failure(displayid,
"Tiled Display Topology Data Block: DisplayID payload length is different than expected (%zu != %zu)",
size - DISPLAYID_DATA_BLOCK_HEADER_SIZE, 22);
return false;
}
raw_caps = data[0x03];
tiled_topo->caps = &priv->caps;
priv->caps.single_enclosure = has_bit(raw_caps, 7);
has_bezel = has_bit(raw_caps, 6);
raw_missing_recv_behavior = get_bit_range(raw_caps, 4, 3);
raw_single_recv_behavior = get_bit_range(raw_caps, 2, 0);
if (has_bit(raw_caps, 5)) {
add_failure(displayid, "Tiled Display Topology Data Block: Capability bit 5 is reserved.");
}
switch (raw_missing_recv_behavior) {
case DI_DISPLAYID_TILED_TOPO_MISSING_RECV_UNDEF:
case DI_DISPLAYID_TILED_TOPO_MISSING_RECV_TILE_ONLY:
priv->caps.missing_recv_behavior = raw_missing_recv_behavior;
break;
default:
add_failure(displayid,
"Tiled Display Topology Data Block: Behavior if more than one tile and fewer than total number of tiles set to reserved value 0x%02x.",
raw_missing_recv_behavior);
break;
}
switch (raw_single_recv_behavior) {
case DI_DISPLAYID_TILED_TOPO_SINGLE_RECV_UNDEF:
case DI_DISPLAYID_TILED_TOPO_SINGLE_RECV_TILE_ONLY:
case DI_DISPLAYID_TILED_TOPO_SINGLE_RECV_SCALED:
case DI_DISPLAYID_TILED_TOPO_SINGLE_RECV_CLONED:
priv->caps.single_recv_behavior = raw_single_recv_behavior;
break;
default:
add_failure(displayid,
"Tiled Display Topology Data Block: Behavior if it is the only tile set to reserved value 0x%02x.",
raw_single_recv_behavior);
break;
}
tiled_topo->total_horiz_tiles = 1 + (get_bit_range(data[0x04], 7, 4) |
(get_bit_range(data[0x06], 7, 6) << 4));
tiled_topo->total_vert_tiles = 1 + (get_bit_range(data[0x04], 3, 0) |
(get_bit_range(data[0x06], 5, 4) << 4));
tiled_topo->horiz_tile_location = 1 + (get_bit_range(data[0x05], 7, 4) |
(get_bit_range(data[0x06], 3, 2) << 4));
tiled_topo->vert_tile_location = 1 + (get_bit_range(data[0x05], 3, 0) |
(get_bit_range(data[0x06], 1, 0) << 4));
tiled_topo->horiz_tile_pixels = 1 + (data[0x07] | (data[0x08] << 8));
tiled_topo->vert_tile_lines = 1 + (data[0x09] | (data[0x0A] << 8));
px_mult = data[0x0B];
if (has_bezel && px_mult == 0) {
add_failure(displayid, "Tiled Display Topology Data Block: Bezel information bit is set, but the pixel multiplier is zero.");
has_bezel = false;
}
if (has_bezel) {
tiled_topo->bezel = &priv->bezel;
priv->bezel.top_px = px_mult * data[0x0C] * 0.1f;
priv->bezel.bottom_px = px_mult * data[0x0D] * 0.1f;
priv->bezel.right_px = px_mult * data[0x0E] * 0.1f;
priv->bezel.left_px = px_mult * data[0x0F] * 0.1f;
} else {
if (px_mult != 0)
add_failure(displayid, "Tiled Display Topology Data Block: No bezel information, but the pixel multiplier is non-zero.");
if (!is_all_zeroes(&data[0x0C], 4))
add_failure(displayid, "Tiled Display Topology Data Block: No bezel information, but the bezel size is non-zero.");
}
memcpy(tiled_topo->vendor_id, &data[0x10], 3);
tiled_topo->product_code = (uint16_t)(data[0x13] | (data[0x14] << 8));
tiled_topo->serial_number = data[0x15] |
(uint32_t)(data[0x16] << 8) |
(uint32_t)(data[0x17] << 16) |
(uint32_t)(data[0x18] << 24);
return true;
}
static ssize_t
parse_data_block(struct di_displayid *displayid, const uint8_t *data,
size_t size)
{
uint8_t tag;
size_t data_block_size;
struct di_displayid_data_block *data_block = NULL;
assert(size >= DISPLAYID_DATA_BLOCK_HEADER_SIZE);
tag = data[0x00];
data_block_size = (size_t) data[0x02] + DISPLAYID_DATA_BLOCK_HEADER_SIZE;
if (data_block_size > size) {
add_failure(displayid,
"The length of this DisplayID data block (%d) exceeds the number of bytes remaining (%zu)",
data_block_size, size);
goto skip;
}
data_block = calloc(1, sizeof(*data_block));
if (!data_block)
goto error;
switch (tag) {
case DI_DISPLAYID_DATA_BLOCK_DISPLAY_PARAMS:
if (!parse_display_params_block(displayid,
&data_block->display_params,
data, data_block_size))
goto error;
break;
case DI_DISPLAYID_DATA_BLOCK_TYPE_I_TIMING:
if (!parse_type_i_timing_block(displayid, data_block, data, data_block_size))
goto error;
break;
case DI_DISPLAYID_DATA_BLOCK_TILED_DISPLAY_TOPO:
if (!parse_tiled_topo_block(displayid, &data_block->tiled_topo, data,
data_block_size))
goto skip;
break;
case DI_DISPLAYID_DATA_BLOCK_PRODUCT_ID:
case DI_DISPLAYID_DATA_BLOCK_COLOR_CHARACT:
case DI_DISPLAYID_DATA_BLOCK_TYPE_II_TIMING:
case DI_DISPLAYID_DATA_BLOCK_TYPE_III_TIMING:
case DI_DISPLAYID_DATA_BLOCK_TYPE_IV_TIMING:
case DI_DISPLAYID_DATA_BLOCK_VESA_TIMING:
case DI_DISPLAYID_DATA_BLOCK_CEA_TIMING:
case DI_DISPLAYID_DATA_BLOCK_TIMING_RANGE_LIMITS:
case DI_DISPLAYID_DATA_BLOCK_PRODUCT_SERIAL:
case DI_DISPLAYID_DATA_BLOCK_ASCII_STRING:
case DI_DISPLAYID_DATA_BLOCK_DISPLAY_DEVICE_DATA:
case DI_DISPLAYID_DATA_BLOCK_INTERFACE_POWER_SEQ:
case DI_DISPLAYID_DATA_BLOCK_TRANSFER_CHARACT:
case DI_DISPLAYID_DATA_BLOCK_DISPLAY_INTERFACE:
case DI_DISPLAYID_DATA_BLOCK_STEREO_DISPLAY_INTERFACE:
case DI_DISPLAYID_DATA_BLOCK_TYPE_V_TIMING:
case DI_DISPLAYID_DATA_BLOCK_TYPE_VI_TIMING:
break; /* Supported */
case 0x7F:
goto skip; /* Vendor-specific */
default:
add_failure(displayid,
"Unknown DisplayID Data Block (0x%" PRIx8 ", length %" PRIu8 ")",
tag, data_block_size - DISPLAYID_DATA_BLOCK_HEADER_SIZE);
goto skip;
}
data_block->tag = tag;
assert(displayid->data_blocks_len < DISPLAYID_MAX_DATA_BLOCKS);
displayid->data_blocks[displayid->data_blocks_len++] = data_block;
return (ssize_t) data_block_size;
skip:
free(data_block);
return (ssize_t) data_block_size;
error:
free(data_block);
return -1;
}
static bool
is_data_block_end(const uint8_t *data, size_t size)
{
if (size < DISPLAYID_DATA_BLOCK_HEADER_SIZE)
return true;
return is_all_zeroes(data, DISPLAYID_DATA_BLOCK_HEADER_SIZE);
}
static bool
validate_checksum(const uint8_t *data, size_t size)
{
uint8_t sum = 0;
size_t i;
for (i = 0; i < size; i++) {
sum += data[i];
}
return sum == 0;
}
bool
_di_displayid_parse(struct di_displayid *displayid, const uint8_t *data,
size_t size, struct di_logger *logger)
{
size_t section_size, i, max_data_block_size;
ssize_t data_block_size;
uint8_t product_type;
if (size < DISPLAYID_MIN_SIZE) {
errno = EINVAL;
return false;
}
displayid->logger = logger;
displayid->version = get_bit_range(data[0x00], 7, 4);
displayid->revision = get_bit_range(data[0x00], 3, 0);
if (displayid->version == 0 || displayid->version > 1) {
errno = ENOTSUP;
return false;
}
section_size = (size_t) data[0x01] + DISPLAYID_MIN_SIZE;
if (section_size > DISPLAYID_MAX_SIZE || section_size > size) {
errno = EINVAL;
return false;
}
if (!validate_checksum(data, section_size)) {
errno = EINVAL;
return false;
}
product_type = data[0x02];
switch (product_type) {
case DI_DISPLAYID_PRODUCT_TYPE_EXTENSION:
case DI_DISPLAYID_PRODUCT_TYPE_TEST:
case DI_DISPLAYID_PRODUCT_TYPE_DISPLAY_PANEL:
case DI_DISPLAYID_PRODUCT_TYPE_STANDALONE_DISPLAY:
case DI_DISPLAYID_PRODUCT_TYPE_TV_RECEIVER:
case DI_DISPLAYID_PRODUCT_TYPE_REPEATER:
case DI_DISPLAYID_PRODUCT_TYPE_DIRECT_DRIVE:
displayid->product_type = product_type;
break;
default:
errno = EINVAL;
return false;
}
i = DISPLAYID_MIN_SIZE - 1;
max_data_block_size = 0;
while (i < section_size - 1) {
max_data_block_size = section_size - 1 - i;
if (is_data_block_end(&data[i], max_data_block_size))
break;
data_block_size = parse_data_block(displayid, &data[i],
max_data_block_size);
if (data_block_size < 0)
return false;
assert(data_block_size > 0);
i += (size_t) data_block_size;
}
if (!is_all_zeroes(&data[i], max_data_block_size)) {
if (max_data_block_size < DISPLAYID_DATA_BLOCK_HEADER_SIZE)
add_failure(displayid,
"Not enough bytes remain (%zu) for a DisplayID data block and the DisplayID filler is non-0.",
max_data_block_size);
else
add_failure(displayid, "Padding: Contains non-zero bytes.");
}
displayid->logger = NULL;
return true;
}
static void
destroy_data_block(struct di_displayid_data_block *data_block)
{
size_t i;
switch (data_block->tag) {
case DI_DISPLAYID_DATA_BLOCK_TYPE_I_TIMING:
for (i = 0; i < data_block->type_i_timings_len; i++)
free(data_block->type_i_timings[i]);
break;
default:
break; /* Nothing to do */
}
free(data_block);
}
void
_di_displayid_finish(struct di_displayid *displayid)
{
size_t i;
for (i = 0; i < displayid->data_blocks_len; i++)
destroy_data_block(displayid->data_blocks[i]);
}
int
di_displayid_get_version(const struct di_displayid *displayid)
{
return displayid->version;
}
int
di_displayid_get_revision(const struct di_displayid *displayid)
{
return displayid->revision;
}
enum di_displayid_product_type
di_displayid_get_product_type(const struct di_displayid *displayid)
{
return displayid->product_type;
}
enum di_displayid_data_block_tag
di_displayid_data_block_get_tag(const struct di_displayid_data_block *data_block)
{
return data_block->tag;
}
const struct di_displayid_display_params *
di_displayid_data_block_get_display_params(const struct di_displayid_data_block *data_block)
{
if (data_block->tag != DI_DISPLAYID_DATA_BLOCK_DISPLAY_PARAMS) {
return NULL;
}
return &data_block->display_params.base;
}
const struct di_displayid_type_i_timing *const *
di_displayid_data_block_get_type_i_timings(const struct di_displayid_data_block *data_block)
{
if (data_block->tag != DI_DISPLAYID_DATA_BLOCK_TYPE_I_TIMING) {
return NULL;
}
return (const struct di_displayid_type_i_timing *const *) data_block->type_i_timings;
}
const struct di_displayid_tiled_topo *
di_displayid_data_block_get_tiled_topo(const struct di_displayid_data_block *data_block)
{
if (data_block->tag != DI_DISPLAYID_DATA_BLOCK_TILED_DISPLAY_TOPO) {
return NULL;
}
return &data_block->tiled_topo.base;
}
const struct di_displayid_data_block *const *
di_displayid_get_data_blocks(const struct di_displayid *displayid)
{
return (const struct di_displayid_data_block *const *) displayid->data_blocks;
}