Implement 24 bit pixel formats for raw and tight

pull/100/head
MazTheMan 2023-09-21 08:25:10 -06:00 committed by Andri Yngvason
parent 56f1c125fa
commit fd1e18b475
9 changed files with 258 additions and 40 deletions

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@ -23,9 +23,9 @@
struct rfb_pixel_format; struct rfb_pixel_format;
void pixel32_to_cpixel(uint8_t* restrict dst, void pixel_to_cpixel(uint8_t* restrict dst,
const struct rfb_pixel_format* dst_fmt, const struct rfb_pixel_format* dst_fmt,
const uint32_t* restrict src, const uint8_t* restrict src,
const struct rfb_pixel_format* src_fmt, const struct rfb_pixel_format* src_fmt,
size_t bytes_per_cpixel, size_t len); size_t bytes_per_cpixel, size_t len);

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@ -94,12 +94,14 @@ int cursor_encode(struct vec* dst, struct rfb_pixel_format* pixfmt,
uint8_t* dstdata = dst->data; uint8_t* dstdata = dst->data;
dstdata += dst->len; dstdata += dst->len;
int32_t src_byte_stride = image->stride * (srcfmt.bits_per_pixel / 8);
if((int32_t)width == image->stride) { if((int32_t)width == image->stride) {
pixel32_to_cpixel(dstdata, pixfmt, image->addr, &srcfmt, bpp, size); pixel_to_cpixel(dstdata, pixfmt, image->addr, &srcfmt, bpp, size);
} else { } else {
for (uint32_t y = 0; y < height; ++y) { for (uint32_t y = 0; y < height; ++y) {
pixel32_to_cpixel(dstdata + y * bpp * width, pixfmt, pixel_to_cpixel(dstdata + y * bpp * width, pixfmt,
(uint32_t*)image->addr + y * image->stride, (uint8_t*)image->addr + y * src_byte_stride,
&srcfmt, bpp, width); &srcfmt, bpp, width);
} }
} }

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@ -22,6 +22,7 @@
#include <sys/param.h> #include <sys/param.h>
#include "fb.h" #include "fb.h"
#include "pixels.h"
#include "damage-refinery.h" #include "damage-refinery.h"
#include "murmurhash.h" #include "murmurhash.h"
@ -63,8 +64,9 @@ void damage_refinery_destroy(struct damage_refinery* self)
static uint32_t damage_hash_tile(struct damage_refinery* self, uint32_t tx, static uint32_t damage_hash_tile(struct damage_refinery* self, uint32_t tx,
uint32_t ty, const struct nvnc_fb* buffer) uint32_t ty, const struct nvnc_fb* buffer)
{ {
uint32_t* pixels = buffer->addr; uint8_t* pixels = buffer->addr;
int pixel_stride = buffer->stride; int bpp = pixel_size_from_fourcc(buffer->fourcc_format);
int byte_stride = buffer->stride * bpp;
int x_start = tx * 32; int x_start = tx * 32;
int x_stop = MIN((tx + 1) * 32, self->width); int x_stop = MIN((tx + 1) * 32, self->width);
@ -72,11 +74,11 @@ static uint32_t damage_hash_tile(struct damage_refinery* self, uint32_t tx,
int y_stop = MIN((ty + 1) * 32, self->height); int y_stop = MIN((ty + 1) * 32, self->height);
uint32_t hash = 0; uint32_t hash = 0;
int32_t xoff = x_start * bpp;
// TODO: Support different pixel sizes
for (int y = y_start; y < y_stop; ++y) for (int y = y_start; y < y_stop; ++y)
hash = murmurhash((void*)&(pixels[x_start + y * pixel_stride]), hash = murmurhash((void*)&(pixels[xoff + y * byte_stride]),
4 * (x_stop - x_start), hash); bpp * (x_stop - x_start), hash);
return hash; return hash;
} }

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@ -41,6 +41,8 @@ struct nvnc_fb* nvnc_fb_new(uint16_t width, uint16_t height,
if (!fb) if (!fb)
return NULL; return NULL;
uint32_t bpp = pixel_size_from_fourcc(fourcc_format);
fb->type = NVNC_FB_SIMPLE; fb->type = NVNC_FB_SIMPLE;
fb->ref = 1; fb->ref = 1;
fb->width = width; fb->width = width;
@ -49,7 +51,7 @@ struct nvnc_fb* nvnc_fb_new(uint16_t width, uint16_t height,
fb->stride = stride; fb->stride = stride;
fb->pts = NVNC_NO_PTS; fb->pts = NVNC_NO_PTS;
size_t size = height * stride * 4; /* Assume 4 byte format for now */ size_t size = height * stride * bpp;
size_t alignment = MAX(4, sizeof(void*)); size_t alignment = MAX(4, sizeof(void*));
size_t aligned_size = ALIGN_UP(size, alignment); size_t aligned_size = ALIGN_UP(size, alignment);

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@ -25,14 +25,13 @@
#define XSTR(s) STR(s) #define XSTR(s) STR(s)
#define STR(s) #s #define STR(s) #s
void pixel32_to_cpixel(uint8_t* restrict dst, static void pixel32_to_cpixel(uint8_t* restrict dst,
const struct rfb_pixel_format* dst_fmt, const struct rfb_pixel_format* dst_fmt,
const uint32_t* restrict src, const uint32_t* restrict src,
const struct rfb_pixel_format* src_fmt, const struct rfb_pixel_format* src_fmt,
size_t bytes_per_cpixel, size_t len) size_t bytes_per_cpixel, size_t len)
{ {
assert(src_fmt->true_colour_flag); assert(src_fmt->true_colour_flag);
assert(src_fmt->bits_per_pixel == 32);
assert(src_fmt->depth <= 32); assert(src_fmt->depth <= 32);
assert(dst_fmt->true_colour_flag); assert(dst_fmt->true_colour_flag);
assert(dst_fmt->bits_per_pixel <= 32); assert(dst_fmt->bits_per_pixel <= 32);
@ -152,6 +151,148 @@ void pixel32_to_cpixel(uint8_t* restrict dst,
#undef CONVERT_PIXELS #undef CONVERT_PIXELS
} }
void pixel_to_cpixel(uint8_t* restrict dst,
const struct rfb_pixel_format* dst_fmt,
const uint8_t* restrict src,
const struct rfb_pixel_format* src_fmt,
size_t bytes_per_cpixel, size_t len)
{
if (src_fmt->bits_per_pixel == 32) {
pixel32_to_cpixel(dst, dst_fmt, (uint32_t*)src, src_fmt, bytes_per_cpixel, len);
return;
}
assert(src_fmt->true_colour_flag);
assert(src_fmt->depth <= 32);
assert(dst_fmt->true_colour_flag);
assert(dst_fmt->bits_per_pixel <= 32);
assert(dst_fmt->depth <= 32);
assert(bytes_per_cpixel <= 4 && bytes_per_cpixel >= 1);
uint32_t src_bpp = src_fmt->bits_per_pixel / 8;
uint32_t src_red_shift = src_fmt->red_shift;
uint32_t src_green_shift = src_fmt->green_shift;
uint32_t src_blue_shift = src_fmt->blue_shift;
uint32_t dst_red_shift = dst_fmt->red_shift;
uint32_t dst_green_shift = dst_fmt->green_shift;
uint32_t dst_blue_shift = dst_fmt->blue_shift;
uint32_t src_red_max = src_fmt->red_max;
uint32_t src_green_max = src_fmt->green_max;
uint32_t src_blue_max = src_fmt->blue_max;
uint32_t src_red_bits = POPCOUNT(src_fmt->red_max);
uint32_t src_green_bits = POPCOUNT(src_fmt->green_max);
uint32_t src_blue_bits = POPCOUNT(src_fmt->blue_max);
uint32_t dst_red_bits = POPCOUNT(dst_fmt->red_max);
uint32_t dst_green_bits = POPCOUNT(dst_fmt->green_max);
uint32_t dst_blue_bits = POPCOUNT(dst_fmt->blue_max);
uint32_t dst_endian_correction;
#define CONVERT_PIXELS(cpx, px) \
{ \
uint32_t r, g, b; \
r = ((px >> src_red_shift) & src_red_max) << dst_red_bits \
>> src_red_bits << dst_red_shift; \
g = ((px >> src_green_shift) & src_green_max) << dst_green_bits\
>> src_green_bits << dst_green_shift; \
b = ((px >> src_blue_shift) & src_blue_max) << dst_blue_bits \
>> src_blue_bits << dst_blue_shift; \
cpx = r | g | b; \
}
switch (bytes_per_cpixel) {
case 4:
if (dst_fmt->big_endian_flag) {
while (len--) {
uint32_t cpx, px = 0;
memcpy(&px, src, src_bpp);
src += src_bpp;
CONVERT_PIXELS(cpx, px)
*dst++ = (cpx >> 24) & 0xff;
*dst++ = (cpx >> 16) & 0xff;
*dst++ = (cpx >> 8) & 0xff;
*dst++ = (cpx >> 0) & 0xff;
}
} else {
while (len--) {
uint32_t cpx, px = 0;
memcpy(&px, src, src_bpp);
src += src_bpp;
CONVERT_PIXELS(cpx, px)
*dst++ = (cpx >> 0) & 0xff;
*dst++ = (cpx >> 8) & 0xff;
*dst++ = (cpx >> 16) & 0xff;
*dst++ = (cpx >> 24) & 0xff;
}
}
break;
case 3:
if (dst_fmt->bits_per_pixel == 32 && dst_fmt->depth <= 24) {
uint32_t min_dst_shift = dst_red_shift;
if (min_dst_shift > dst_green_shift)
min_dst_shift = dst_green_shift;
if (min_dst_shift > dst_blue_shift)
min_dst_shift = dst_blue_shift;
dst_red_shift -= min_dst_shift;
dst_green_shift -= min_dst_shift;
dst_blue_shift -= min_dst_shift;
}
dst_endian_correction = dst_fmt->big_endian_flag ? 16 : 0;
while (len--) {
uint32_t cpx, px = 0;
memcpy(&px, src, src_bpp);
src += src_bpp;
CONVERT_PIXELS(cpx, px)
*dst++ = (cpx >> (0 ^ dst_endian_correction)) & 0xff;
*dst++ = (cpx >> 8) & 0xff;
*dst++ = (cpx >> (16 ^ dst_endian_correction)) & 0xff;
}
break;
case 2:
dst_endian_correction = dst_fmt->big_endian_flag ? 8 : 0;
while (len--) {
uint32_t cpx, px = 0;
memcpy(&px, src, src_bpp);
src += src_bpp;
CONVERT_PIXELS(cpx, px)
*dst++ = (cpx >> (0 ^ dst_endian_correction)) & 0xff;
*dst++ = (cpx >> (8 ^ dst_endian_correction)) & 0xff;
}
break;
case 1:
while (len--) {
uint32_t cpx, px = 0;
memcpy(&px, src, src_bpp);
src += src_bpp;
CONVERT_PIXELS(cpx, px)
*dst++ = cpx & 0xff;
}
break;
default:
abort();
}
#undef CONVERT_PIXELS
}
/* clang-format off */ /* clang-format off */
int rfb_pixfmt_from_fourcc(struct rfb_pixel_format *dst, uint32_t src) { int rfb_pixfmt_from_fourcc(struct rfb_pixel_format *dst, uint32_t src) {
switch (src & ~DRM_FORMAT_BIG_ENDIAN) { switch (src & ~DRM_FORMAT_BIG_ENDIAN) {
@ -215,6 +356,22 @@ bpp_32:
dst->green_max = 0xff; dst->green_max = 0xff;
dst->blue_max = 0xff; dst->blue_max = 0xff;
break; break;
case DRM_FORMAT_BGR888:
dst->red_shift = 0;
dst->green_shift = 8;
dst->blue_shift = 16;
goto bpp_24;
case DRM_FORMAT_RGB888:
dst->red_shift = 16;
dst->green_shift = 8;
dst->blue_shift = 0;
bpp_24:
dst->bits_per_pixel = 24;
dst->depth = 24;
dst->red_max = 0xff;
dst->green_max = 0xff;
dst->blue_max = 0xff;
break;
case DRM_FORMAT_RGBA4444: case DRM_FORMAT_RGBA4444:
case DRM_FORMAT_RGBX4444: case DRM_FORMAT_RGBX4444:
dst->red_shift = 12; dst->red_shift = 12;
@ -275,6 +432,9 @@ int pixel_size_from_fourcc(uint32_t fourcc)
case DRM_FORMAT_ABGR8888: case DRM_FORMAT_ABGR8888:
case DRM_FORMAT_XBGR8888: case DRM_FORMAT_XBGR8888:
return 4; return 4;
case DRM_FORMAT_BGR888:
case DRM_FORMAT_RGB888:
return 3;
case DRM_FORMAT_RGBA4444: case DRM_FORMAT_RGBA4444:
case DRM_FORMAT_RGBX4444: case DRM_FORMAT_RGBX4444:
case DRM_FORMAT_BGRA4444: case DRM_FORMAT_BGRA4444:
@ -457,6 +617,8 @@ const char* drm_format_to_string(uint32_t fmt)
X(XRGB8888) \ X(XRGB8888) \
X(ABGR8888) \ X(ABGR8888) \
X(XBGR8888) \ X(XBGR8888) \
X(RGB888) \
X(BGR888) \
X(RGBA4444) \ X(RGBA4444) \
X(RGBX4444) \ X(RGBX4444) \
X(BGRA4444) \ X(BGRA4444) \

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@ -69,7 +69,10 @@ static int raw_encode_box(struct raw_encoder_work* ctx, struct vec* dst,
if (rc < 0) if (rc < 0)
return -1; return -1;
uint32_t* b = fb->addr; uint8_t* b = fb->addr;
int32_t src_bpp = src_fmt->bits_per_pixel / 8;
int32_t xoff = x_start * src_bpp;
int32_t src_stride = fb->stride * src_bpp;
int bpp = dst_fmt->bits_per_pixel / 8; int bpp = dst_fmt->bits_per_pixel / 8;
@ -80,8 +83,8 @@ static int raw_encode_box(struct raw_encoder_work* ctx, struct vec* dst,
uint8_t* d = dst->data; uint8_t* d = dst->data;
for (int y = y_start; y < y_start + height; ++y) { for (int y = y_start; y < y_start + height; ++y) {
pixel32_to_cpixel(d + dst->len, dst_fmt, pixel_to_cpixel(d + dst->len, dst_fmt,
b + x_start + y * stride, src_fmt, b + xoff + y * src_stride, src_fmt,
bpp, width); bpp, width);
dst->len += width * bpp; dst->len += width * bpp;
} }
@ -131,7 +134,7 @@ static void raw_encoder_do_work(void* obj)
struct nvnc_fb* fb = ctx->fb; struct nvnc_fb* fb = ctx->fb;
assert(fb); assert(fb);
size_t bpp = nvnc_fb_get_pixel_size(fb); size_t bpp = ctx->output_format.bits_per_pixel / 8;
size_t n_rects = pixman_region_n_rects(&ctx->damage); size_t n_rects = pixman_region_n_rects(&ctx->damage);
if (n_rects > UINT16_MAX) if (n_rects > UINT16_MAX)
n_rects = 1; n_rects = 1;

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@ -302,14 +302,15 @@ static void tight_encode_tile_basic(struct tight_encoder* self,
else else
memcpy(&cfmt, &self->dfmt, sizeof(cfmt)); memcpy(&cfmt, &self->dfmt, sizeof(cfmt));
uint32_t* addr = nvnc_fb_get_addr(self->fb); uint8_t* addr = nvnc_fb_get_addr(self->fb);
int32_t stride = nvnc_fb_get_stride(self->fb); int32_t bpp = self->sfmt.bits_per_pixel / 8;
int32_t byte_stride = nvnc_fb_get_stride(self->fb) * bpp;
int32_t xoff = x * bpp;
// TODO: Limit width and hight to the sides // TODO: Limit width and hight to the sides
for (uint32_t y = y_start; y < y_start + height; ++y) { for (uint32_t y = y_start; y < y_start + height; ++y) {
void* img = addr + x + y * stride; uint8_t* img = addr + xoff + y * byte_stride;
pixel32_to_cpixel(row, &cfmt, img, &self->sfmt, pixel_to_cpixel(row, &cfmt, img, &self->sfmt,
bytes_per_cpixel, width); bytes_per_cpixel, width);
// TODO What to do if the buffer fills up? // TODO What to do if the buffer fills up?
if (tight_deflate(tile, row, bytes_per_cpixel * width, if (tight_deflate(tile, row, bytes_per_cpixel * width,
@ -335,6 +336,10 @@ static enum TJPF tight_get_jpeg_pixfmt(uint32_t fourcc)
case DRM_FORMAT_ABGR8888: case DRM_FORMAT_ABGR8888:
case DRM_FORMAT_XBGR8888: case DRM_FORMAT_XBGR8888:
return TJPF_RGBX; return TJPF_RGBX;
case DRM_FORMAT_BGR888:
return TJPF_RGB;
case DRM_FORMAT_RGB888:
return TJPF_BGR;
} }
return TJPF_UNKNOWN; return TJPF_UNKNOWN;
@ -360,14 +365,16 @@ static int tight_encode_tile_jpeg(struct tight_encoder* self,
if (!handle) if (!handle)
return -1; return -1;
uint32_t* addr = nvnc_fb_get_addr(self->fb); uint8_t* addr = nvnc_fb_get_addr(self->fb);
int32_t stride = nvnc_fb_get_stride(self->fb); int32_t bpp = self->sfmt.bits_per_pixel / 8;
void* img = (uint32_t*)addr + x + y * stride; int32_t byte_stride = nvnc_fb_get_stride(self->fb) * bpp;
int32_t xoff = x * bpp;
uint8_t* img = addr + xoff + y * byte_stride;
enum TJSAMP subsampling = (quality == 9) ? TJSAMP_444 : TJSAMP_420; enum TJSAMP subsampling = (quality == 9) ? TJSAMP_444 : TJSAMP_420;
int rc = -1; int rc = -1;
rc = tjCompress2(handle, img, width, stride * 4, height, tjfmt, &buffer, rc = tjCompress2(handle, img, width, byte_stride, height, tjfmt, &buffer,
&size, subsampling, quality, TJFLAG_FASTDCT); &size, subsampling, quality, TJFLAG_FASTDCT);
if (rc < 0) { if (rc < 0) {
nvnc_log(NVNC_LOG_ERROR, "Failed to encode tight JPEG box: %s", nvnc_log(NVNC_LOG_ERROR, "Failed to encode tight JPEG box: %s",

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@ -102,7 +102,7 @@ static void zrle_encode_unichrome_tile(struct vec* dst,
vec_fast_append_8(dst, 1); vec_fast_append_8(dst, 1);
pixel32_to_cpixel(((uint8_t*)dst->data) + 1, dst_fmt, &colour, src_fmt, pixel_to_cpixel(((uint8_t*)dst->data) + 1, dst_fmt, (uint8_t*)&colour, src_fmt,
bytes_per_cpixel, 1); bytes_per_cpixel, 1);
dst->len += bytes_per_cpixel; dst->len += bytes_per_cpixel;
@ -135,7 +135,7 @@ static void zrle_encode_packed_tile(struct vec* dst,
int bytes_per_cpixel = calc_bytes_per_cpixel(dst_fmt); int bytes_per_cpixel = calc_bytes_per_cpixel(dst_fmt);
uint8_t cpalette[16 * 3]; uint8_t cpalette[16 * 3];
pixel32_to_cpixel((uint8_t*)cpalette, dst_fmt, palette, src_fmt, pixel_to_cpixel((uint8_t*)cpalette, dst_fmt, (uint8_t*)palette, src_fmt,
bytes_per_cpixel, palette_size); bytes_per_cpixel, palette_size);
vec_fast_append_8(dst, 128 | palette_size); vec_fast_append_8(dst, 128 | palette_size);
@ -196,7 +196,7 @@ static void zrle_encode_tile(struct vec* dst,
vec_fast_append_8(dst, 0); vec_fast_append_8(dst, 0);
pixel32_to_cpixel(((uint8_t*)dst->data) + 1, dst_fmt, src, src_fmt, pixel_to_cpixel(((uint8_t*)dst->data) + 1, dst_fmt, (uint8_t*)src, src_fmt,
bytes_per_cpixel, length); bytes_per_cpixel, length);
dst->len += bytes_per_cpixel * length; dst->len += bytes_per_cpixel * length;

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@ -22,10 +22,11 @@
#define UDIV_UP(a, b) (((a) + (b) - 1) / (b)) #define UDIV_UP(a, b) (((a) + (b) - 1) / (b))
#define ARRAY_LEN(a) (sizeof(a) / (sizeof(a[0]))) #define ARRAY_LEN(a) (sizeof(a) / (sizeof(a[0])))
static bool test_pixel32_to_cpixel_4bpp(void) static bool test_pixel_to_cpixel_4bpp(void)
{ {
uint32_t src = u32_le(0x11223344u); uint32_t src = u32_le(0x11223344u);
uint32_t dst; uint32_t dst;
uint8_t* src_addr = (uint8_t*)&src;
struct rfb_pixel_format dstfmt = { 0 }, srcfmt = { 0 }; struct rfb_pixel_format dstfmt = { 0 }, srcfmt = { 0 };
@ -33,25 +34,63 @@ static bool test_pixel32_to_cpixel_4bpp(void)
dst = 0; dst = 0;
rfb_pixfmt_from_fourcc(&srcfmt, DRM_FORMAT_RGBA8888); rfb_pixfmt_from_fourcc(&srcfmt, DRM_FORMAT_RGBA8888);
pixel32_to_cpixel((uint8_t*)&dst, &dstfmt, &src, &srcfmt, 4, 1); pixel_to_cpixel((uint8_t*)&dst, &dstfmt, src_addr, &srcfmt, 4, 1);
if ((src & 0xffffff00u) != (dst & 0xffffff00u)) if ((src & 0xffffff00u) != (dst & 0xffffff00u))
return false; return false;
dst = 0; dst = 0;
rfb_pixfmt_from_fourcc(&dstfmt, DRM_FORMAT_ABGR8888); rfb_pixfmt_from_fourcc(&dstfmt, DRM_FORMAT_ABGR8888);
pixel32_to_cpixel((uint8_t*)&dst, &dstfmt, &src, &srcfmt, 4, 1); pixel_to_cpixel((uint8_t*)&dst, &dstfmt, src_addr, &srcfmt, 4, 1);
if (dst != u32_le(0x00332211u)) if (dst != u32_le(0x00332211u))
return false; return false;
dst = 0; dst = 0;
rfb_pixfmt_from_fourcc(&dstfmt, DRM_FORMAT_ARGB8888); rfb_pixfmt_from_fourcc(&dstfmt, DRM_FORMAT_ARGB8888);
pixel32_to_cpixel((uint8_t*)&dst, &dstfmt, &src, &srcfmt, 4, 1); pixel_to_cpixel((uint8_t*)&dst, &dstfmt, src_addr, &srcfmt, 4, 1);
if (dst != u32_le(0x00112233u)) if (dst != u32_le(0x00112233u))
return false; return false;
dst = 0; dst = 0;
rfb_pixfmt_from_fourcc(&dstfmt, DRM_FORMAT_BGRA8888); rfb_pixfmt_from_fourcc(&dstfmt, DRM_FORMAT_BGRA8888);
pixel32_to_cpixel((uint8_t*)&dst, &dstfmt, &src, &srcfmt, 4, 1); pixel_to_cpixel((uint8_t*)&dst, &dstfmt, src_addr, &srcfmt, 4, 1);
if (dst != u32_le(0x33221100u))
return false;
return true;
}
static bool test_pixel_to_cpixel_3bpp(void)
{
//44 is extra data that should not be copied anywhere below.
uint32_t src = u32_le(0x44112233u);
uint32_t dst;
uint8_t* src_addr = (uint8_t*)&src;
struct rfb_pixel_format dstfmt = { 0 }, srcfmt = { 0 };
rfb_pixfmt_from_fourcc(&srcfmt, DRM_FORMAT_RGB888);
dst = 0;
rfb_pixfmt_from_fourcc(&dstfmt, DRM_FORMAT_RGBA8888);
pixel_to_cpixel((uint8_t*)&dst, &dstfmt, src_addr, &srcfmt, 4, 1);
if (dst != u32_le(0x11223300u))
return false;
dst = 0;
rfb_pixfmt_from_fourcc(&dstfmt, DRM_FORMAT_ABGR8888);
pixel_to_cpixel((uint8_t*)&dst, &dstfmt, src_addr, &srcfmt, 4, 1);
if (dst != u32_le(0x00332211u))
return false;
dst = 0;
rfb_pixfmt_from_fourcc(&dstfmt, DRM_FORMAT_ARGB8888);
pixel_to_cpixel((uint8_t*)&dst, &dstfmt, src_addr, &srcfmt, 4, 1);
if (dst != u32_le(0x00112233u))
return false;
dst = 0;
rfb_pixfmt_from_fourcc(&dstfmt, DRM_FORMAT_BGRA8888);
pixel_to_cpixel((uint8_t*)&dst, &dstfmt, src_addr, &srcfmt, 4, 1);
if (dst != u32_le(0x33221100u)) if (dst != u32_le(0x33221100u))
return false; return false;
@ -173,7 +212,8 @@ static bool test_rfb_pixfmt_to_string(void)
int main() int main()
{ {
bool ok = test_pixel32_to_cpixel_4bpp() && bool ok = test_pixel_to_cpixel_4bpp() &&
test_pixel_to_cpixel_3bpp() &&
test_fourcc_to_pixman_fmt() && test_fourcc_to_pixman_fmt() &&
test_extract_alpha_mask_rgba8888() && test_extract_alpha_mask_rgba8888() &&
test_drm_format_to_string() && test_drm_format_to_string() &&