[PATCH 2/2] drm/vkms: Use a simpler composition function
Louis Chauvet
louis.chauvet at bootlin.com
Thu Feb 1 17:31:32 UTC 2024
Change the composition algorithm to iterate over pixels instead of lines.
It allows a simpler management of rotation and pixel access for complex formats.
This new algorithm allows read_pixel function to have access to x/y
coordinates and make it possible to read the correct thing in a block
when block_w and block_h are not 1.
The iteration pixel-by-pixel in the same method also allows a simpler
management of rotation with drm_rect_* helpers. This way it's not needed
anymore to have misterious switch-case distributed in multiple places.
This patch is tested with IGT:
- kms_plane at pixel_format
- kms_plane at pixel-format-source-clamping
- kms_plane at plane-position-covered
- kms_plane at plane-position-hole
- kms_plane at plane-position-hole-dpms
- kms_plane at plane-panning-top-left
- kms_plane at plane-panning-bottom-right
- kms_plane at test-odd-size-with-yuv - See [1]
- kms_cursor_crc at cursor-size-change
- kms_cursor_crc at cursor-alpha-opaque
- kms_cursor_crc at cursor-alpha-transparent
- kms_cursor_crc at cursor-dpms
- kms_cursor_crc at cursor-onscreen-*
- kms_cursor_crc at cursor-offscreen-*
- kms_cursor_crc at cursor-sliding-*
- kms_cursor_crc at cursor-random-*
- kms_cursor_crc at cursor-rapid-movement-* - FAIL, but with Overflow of
CRC buffer
- kms_rotation_crc at primary-rotation-* - See [1]
- kms_rotation_crc at sprite-rotation-* - See [1]
- kms_rotation_crc at cursor-rotation-* - See [1]
- kms_rotation_crc at sprite-rotation-90-pos-100-0 - See [1]
- kms_rotation_crc at multiplane-rotation - See [1]
- kms_rotation_crc at multiplane-rotation-cropping-* - See [1]
[1]: https://lore.kernel.org/igt-dev/20240201-kms_tests-v1-0-bc34c5d28b3f@bootlin.com/T/#t
Signed-off-by: Louis Chauvet <louis.chauvet at bootlin.com>
---
drivers/gpu/drm/vkms/vkms_composer.c | 97 +++++++++-----
drivers/gpu/drm/vkms/vkms_drv.h | 21 ++-
drivers/gpu/drm/vkms/vkms_formats.c | 250 ++++++++++++++++++-----------------
drivers/gpu/drm/vkms/vkms_plane.c | 13 +-
4 files changed, 221 insertions(+), 160 deletions(-)
diff --git a/drivers/gpu/drm/vkms/vkms_composer.c b/drivers/gpu/drm/vkms/vkms_composer.c
index 3c99fb8b54e2..4c5439209907 100644
--- a/drivers/gpu/drm/vkms/vkms_composer.c
+++ b/drivers/gpu/drm/vkms/vkms_composer.c
@@ -43,7 +43,7 @@ static void pre_mul_alpha_blend(struct vkms_frame_info *frame_info,
{
int x_dst = frame_info->dst.x1;
struct pixel_argb_u16 *out = output_buffer->pixels + x_dst;
- struct pixel_argb_u16 *in = stage_buffer->pixels;
+ struct pixel_argb_u16 *in = stage_buffer->pixels + x_dst;
int x_limit = min_t(size_t, drm_rect_width(&frame_info->dst),
stage_buffer->n_pixels);
@@ -55,33 +55,6 @@ static void pre_mul_alpha_blend(struct vkms_frame_info *frame_info,
}
}
-static int get_y_pos(struct vkms_frame_info *frame_info, int y)
-{
- if (frame_info->rotation & DRM_MODE_REFLECT_Y)
- return drm_rect_height(&frame_info->rotated) - y - 1;
-
- switch (frame_info->rotation & DRM_MODE_ROTATE_MASK) {
- case DRM_MODE_ROTATE_90:
- return frame_info->rotated.x2 - y - 1;
- case DRM_MODE_ROTATE_270:
- return y + frame_info->rotated.x1;
- default:
- return y;
- }
-}
-
-static bool check_limit(struct vkms_frame_info *frame_info, int pos)
-{
- if (drm_rotation_90_or_270(frame_info->rotation)) {
- if (pos >= 0 && pos < drm_rect_width(&frame_info->rotated))
- return true;
- } else {
- if (pos >= frame_info->rotated.y1 && pos < frame_info->rotated.y2)
- return true;
- }
-
- return false;
-}
static void fill_background(const struct pixel_argb_u16 *background_color,
struct line_buffer *output_buffer)
@@ -182,18 +155,74 @@ static void blend(struct vkms_writeback_job *wb,
const struct pixel_argb_u16 background_color = { .a = 0xffff };
size_t crtc_y_limit = crtc_state->base.crtc->mode.vdisplay;
+ size_t crtc_x_limit = crtc_state->base.crtc->mode.hdisplay;
+ /*
+ * Iterating over each pixel to simplify the handling of rotations by using drm_rect_*
+ * helpers.
+ * Iteration per pixel also allosw a simple management of complex pixel formats.
+ *
+ * If needed, this triple loop might be a good place for optimizations.
+ */
for (size_t y = 0; y < crtc_y_limit; y++) {
fill_background(&background_color, output_buffer);
/* The active planes are composed associatively in z-order. */
for (size_t i = 0; i < n_active_planes; i++) {
- y_pos = get_y_pos(plane[i]->frame_info, y);
-
- if (!check_limit(plane[i]->frame_info, y_pos))
- continue;
-
- vkms_compose_row(stage_buffer, plane[i], y_pos);
+ for (size_t x = 0; x < crtc_x_limit; x++) {
+ /*
+ * @x and @y are the coordinate in the output crtc.
+ * @dst_px is used to easily check if a pixel must be blended.
+ * @src_px is used to handle rotation. Just before blending, it
+ * will contain the coordinate of the wanted source pixel in
+ * the source buffer.
+ * @tmp_src is the conversion of src rectangle to integer.
+ */
+
+ struct drm_rect dst_px = DRM_RECT_INIT(x, y, 1, 1);
+ struct drm_rect src_px = DRM_RECT_INIT(x, y, 1, 1);
+ struct drm_rect tmp_src;
+
+ drm_rect_fp_to_int(&tmp_src, &plane[i]->frame_info->src);
+
+ /*
+ * Check that dst_px is inside the plane output
+ * Note: This is destructive for dst_px, if you need this
+ * rectangle you have to do a copy
+ */
+ if (!drm_rect_intersect(&dst_px, &plane[i]->frame_info->dst))
+ continue;
+
+ /*
+ * Transform the coordinate x/y from the crtc to coordinates into
+ * coordinates for the src buffer.
+ *
+ * First step is to cancel the offset of the dst buffer.
+ * Then t will have to invert the rotation. This assumes that
+ * dst = drm_rect_rotate(src, rotation) (dst and src have the
+ * space size, but can be rotated).
+ * And then, apply the offset of the source rectangle to the
+ * coordinate.
+ */
+ drm_rect_translate(&src_px, -plane[i]->frame_info->dst.x1,
+ -plane[i]->frame_info->dst.y1);
+ drm_rect_rotate_inv(&src_px,
+ drm_rect_width(&tmp_src),
+ drm_rect_height(&tmp_src),
+ plane[i]->frame_info->rotation);
+ drm_rect_translate(&src_px, tmp_src.x1, tmp_src.y1);
+
+ /*
+ * Now, as the src_px contains the correct position, we can use
+ * it to convert the pixel color
+ */
+ plane[i]->pixel_read(plane[i]->frame_info,
+ src_px.x1,
+ src_px.y1,
+ &stage_buffer->pixels[x],
+ plane[i]->base.base.color_encoding,
+ plane[i]->base.base.color_range);
+ }
pre_mul_alpha_blend(plane[i]->frame_info, stage_buffer,
output_buffer);
}
diff --git a/drivers/gpu/drm/vkms/vkms_drv.h b/drivers/gpu/drm/vkms/vkms_drv.h
index cb20bab26cae..ba3c063adc5f 100644
--- a/drivers/gpu/drm/vkms/vkms_drv.h
+++ b/drivers/gpu/drm/vkms/vkms_drv.h
@@ -25,10 +25,20 @@
#define VKMS_LUT_SIZE 256
+/**
+ * struct vkms_frame_info - structure to store the state of a frame
+ *
+ * @fb: backing drm framebuffer
+ * @src: source rectangle of this frame in the source framebuffer
+ * @dst: destination rectangle in the crtc buffer
+ * @map: see drm_shadow_plane_state at data
+ * @rotation: rotation applied to the source.
+ *
+ * @src and @dst should have the same size modulo the rotation.
+ */
struct vkms_frame_info {
struct drm_framebuffer *fb;
struct drm_rect src, dst;
- struct drm_rect rotated;
struct iosys_map map[DRM_FORMAT_MAX_PLANES];
unsigned int rotation;
};
@@ -51,14 +61,15 @@ struct vkms_writeback_job {
/**
* typedef pixel_read_t - These functions are used to read the pixels in the source frame, convert
* them to argb16 and write them to out_pixel.
- * It assumes that src_pixels point to a valid pixel (not a block, or a block of 1x1 pixel)
*
- * @src_pixels: Source pointer to a pixel
+ * @frame_info: Frame used as source for the pixel value
+ * @x: X (width) coordinate in the source buffer
+ * @y: Y (height) coordinate in the source buffer
* @out_pixel: Pointer where to write the pixel value
* @encoding: Color encoding to use (mainly used for YUV formats)
* @range: Color range to use (mainly used for YUV formats)
*/
-typedef void (*pixel_read_t)(u8 **src_pixels, int y,
+typedef void (*pixel_read_t)(struct vkms_frame_info *frame_info, int x, int y,
struct pixel_argb_u16 *out_pixel, enum drm_color_encoding enconding,
enum drm_color_range range);
@@ -66,6 +77,8 @@ typedef void (*pixel_read_t)(u8 **src_pixels, int y,
* vkms_plane_state - Driver specific plane state
* @base: base plane state
* @frame_info: data required for composing computation
+ * @pixel_read: function to read a pixel in this plane. The creator of a vkms_plane_state must
+ * ensure that this pointer is valid
*/
struct vkms_plane_state {
struct drm_shadow_plane_state base;
diff --git a/drivers/gpu/drm/vkms/vkms_formats.c b/drivers/gpu/drm/vkms/vkms_formats.c
index c6376db58d38..8ff85ffda94f 100644
--- a/drivers/gpu/drm/vkms/vkms_formats.c
+++ b/drivers/gpu/drm/vkms/vkms_formats.c
@@ -11,79 +11,88 @@
#include "vkms_formats.h"
-static size_t pixel_offset(const struct vkms_frame_info *frame_info, int x, int y, size_t index)
+
+/**
+ * packed_pixels_offset() - Get the offset of the block containing the pixel at coordinates x/y
+ *
+ * @frame_info: Buffer metadata
+ * @x: The x coordinate of the wanted pixel in the buffer
+ * @y: The y coordinate of the wanted pixel in the buffer
+ * @plane: The index of the plane to use
+ *
+ * The caller must be aware that this offset is not always a pointer to a pixel. If individual
+ * pixel values are needed, they have to be extracted from the block.
+ */
+static size_t packed_pixels_offset(const struct vkms_frame_info *frame_info, int x, int y, size_t plane)
{
struct drm_framebuffer *fb = frame_info->fb;
-
- return fb->offsets[index] + (y * fb->pitches[index])
- + (x * fb->format->cpp[index]);
+ const struct drm_format_info *format = frame_info->fb->format;
+ /* Directly using x and y to multiply pitches and format->ccp is not sufficient because
+ * in some formats a block can represent multiple pixels.
+ *
+ * Dividing x and y by the block size allows to extract the correct offset of the block
+ * containing the pixel.
+ */
+ return fb->offsets[plane] +
+ (y / drm_format_info_block_width(format, plane)) * fb->pitches[plane] +
+ (x / drm_format_info_block_height(format, plane)) * format->char_per_block[plane];
}
/*
- * packed_pixels_addr - Get the pointer to pixel of a given pair of coordinates
+ * packed_pixels_addr - Get the pointer to the block containing the pixel at the given coordinate
*
* @frame_info: Buffer metadata
- * @x: The x(width) coordinate of the 2D buffer
- * @y: The y(Heigth) coordinate of the 2D buffer
+ * @x: The x(width) coordinate inside the 2D buffer
+ * @y: The y(Heigth) coordinate inside the 2D buffer
* @index: The index of the plane on the 2D buffer
*
- * Takes the information stored in the frame_info, a pair of coordinates, and
- * returns the address of the first color channel on the desired index. The
- * format's specific subsample is applied.
+ * Takes the information stored in the frame_info, a pair of coordinates, and returns the address
+ * of the block containing this pixel.
+ * The caller must be aware that this pointer is sometimes not directly a pixel, it needs some
+ * additional work to extract pixel color from this block.
*/
static void *packed_pixels_addr(const struct vkms_frame_info *frame_info,
int x, int y, size_t index)
{
- int vsub = index == 0 ? 1 : frame_info->fb->format->vsub;
- int hsub = index == 0 ? 1 : frame_info->fb->format->hsub;
- size_t offset = pixel_offset(frame_info, x / hsub, y / vsub, index);
-
- return (u8 *)frame_info->map[0].vaddr + offset;
+ return (u8 *)frame_info->map[0].vaddr + packed_pixels_offset(frame_info, x, y, index);
}
-static void *get_packed_src_addr(const struct vkms_frame_info *frame_info, int y, size_t index)
+static void ARGB8888_to_argb_u16(struct vkms_frame_info *frame_info, int x, int y,
+ struct pixel_argb_u16 *out_pixel, enum drm_color_encoding encoding,
+ enum drm_color_range range)
{
- int x_src = frame_info->src.x1 >> 16;
- int y_src = y - frame_info->rotated.y1 + (frame_info->src.y1 >> 16);
-
- return packed_pixels_addr(frame_info, x_src, y_src, index);
-}
+ u8 *src_pixel = packed_pixels_addr(frame_info, x, y, 0);
-static int get_x_position(const struct vkms_frame_info *frame_info, int limit, int x)
-{
- if (frame_info->rotation & (DRM_MODE_REFLECT_X | DRM_MODE_ROTATE_270))
- return limit - x - 1;
- return x;
-}
-
-static void ARGB8888_to_argb_u16(u8 **src_pixels, struct pixel_argb_u16 *out_pixel,
- enum drm_color_encoding encoding, enum drm_color_range range)
-{
/*
* The 257 is the "conversion ratio". This number is obtained by the
* (2^16 - 1) / (2^8 - 1) division. Which, in this case, tries to get
* the best color value in a pixel format with more possibilities.
* A similar idea applies to others RGB color conversions.
*/
- out_pixel->a = (u16)src_pixels[0][3] * 257;
- out_pixel->r = (u16)src_pixels[0][2] * 257;
- out_pixel->g = (u16)src_pixels[0][1] * 257;
- out_pixel->b = (u16)src_pixels[0][0] * 257;
+ out_pixel->a = (u16)src_pixel[3] * 257;
+ out_pixel->r = (u16)src_pixel[2] * 257;
+ out_pixel->g = (u16)src_pixel[1] * 257;
+ out_pixel->b = (u16)src_pixel[0] * 257;
}
-static void XRGB8888_to_argb_u16(u8 **src_pixels, struct pixel_argb_u16 *out_pixel,
- enum drm_color_encoding encoding, enum drm_color_range range)
+static void XRGB8888_to_argb_u16(struct vkms_frame_info *frame_info, int x, int y,
+ struct pixel_argb_u16 *out_pixel, enum drm_color_encoding encoding,
+ enum drm_color_range range)
{
+ u8 *src_pixel = packed_pixels_addr(frame_info, x, y, 0);
out_pixel->a = (u16)0xffff;
- out_pixel->r = (u16)src_pixels[0][2] * 257;
- out_pixel->g = (u16)src_pixels[0][1] * 257;
- out_pixel->b = (u16)src_pixels[0][0] * 257;
+ out_pixel->r = (u16)src_pixel[2] * 257;
+ out_pixel->g = (u16)src_pixel[1] * 257;
+ out_pixel->b = (u16)src_pixel[0] * 257;
}
-static void ARGB16161616_to_argb_u16(u8 **src_pixels, struct pixel_argb_u16 *out_pixel,
- enum drm_color_encoding encoding, enum drm_color_range range)
+static void ARGB16161616_to_argb_u16(struct vkms_frame_info *frame_info, int x, int y,
+ struct pixel_argb_u16 *out_pixel,
+ enum drm_color_encoding encoding,
+ enum drm_color_range range)
{
- u16 *pixels = (u16 *)src_pixels[0];
+ u8 *src_pixel = packed_pixels_addr(frame_info, x, y, 0);
+ u16 *pixels = (u16 *)src_pixel;
out_pixel->a = le16_to_cpu(pixels[3]);
out_pixel->r = le16_to_cpu(pixels[2]);
@@ -91,10 +100,13 @@ static void ARGB16161616_to_argb_u16(u8 **src_pixels, struct pixel_argb_u16 *out
out_pixel->b = le16_to_cpu(pixels[0]);
}
-static void XRGB16161616_to_argb_u16(u8 **src_pixels, struct pixel_argb_u16 *out_pixel,
- enum drm_color_encoding encoding, enum drm_color_range range)
+static void XRGB16161616_to_argb_u16(struct vkms_frame_info *frame_info, int x, int y,
+ struct pixel_argb_u16 *out_pixel,
+ enum drm_color_encoding encoding,
+ enum drm_color_range range)
{
- u16 *pixels = (u16 *)src_pixels[0];
+ u8 *src_pixel = packed_pixels_addr(frame_info, x, y, 0);
+ u16 *pixels = (u16 *)src_pixel;
out_pixel->a = (u16)0xffff;
out_pixel->r = le16_to_cpu(pixels[2]);
@@ -102,10 +114,12 @@ static void XRGB16161616_to_argb_u16(u8 **src_pixels, struct pixel_argb_u16 *out
out_pixel->b = le16_to_cpu(pixels[0]);
}
-static void RGB565_to_argb_u16(u8 **src_pixels, struct pixel_argb_u16 *out_pixel,
- enum drm_color_encoding encoding, enum drm_color_range range)
+static void RGB565_to_argb_u16(struct vkms_frame_info *frame_info, int x, int y,
+ struct pixel_argb_u16 *out_pixel, enum drm_color_encoding encoding,
+ enum drm_color_range range)
{
- u16 *pixels = (u16 *)src_pixels[0];
+ u8 *src_pixel = packed_pixels_addr(frame_info, x, y, 0);
+ u16 *pixels = (u16 *)src_pixel;
s64 fp_rb_ratio = drm_fixp_div(drm_int2fixp(65535), drm_int2fixp(31));
s64 fp_g_ratio = drm_fixp_div(drm_int2fixp(65535), drm_int2fixp(63));
@@ -121,12 +135,19 @@ static void RGB565_to_argb_u16(u8 **src_pixels, struct pixel_argb_u16 *out_pixel
out_pixel->b = drm_fixp2int_round(drm_fixp_mul(fp_b, fp_rb_ratio));
}
+/**
+ * ycbcr2rgb() - helper to convert ycbcr 8 bits to rbg 16 bits
+ *
+ * @m: conversion matrix to use
+ * @y, @cb, @cr: component of the ycbcr pixel
+ * @r, @g, @b: pointers to write the rbg pixel
+ */
static void ycbcr2rgb(const s16 m[3][3], u8 y, u8 cb, u8 cr, u8 y_offset, u8 *r, u8 *g, u8 *b)
{
s32 y_16, cb_16, cr_16;
s32 r_16, g_16, b_16;
- y_16 = y - y_offset;
+ y_16 = y - y_offset;
cb_16 = cb - 128;
cr_16 = cr - 128;
@@ -139,6 +160,14 @@ static void ycbcr2rgb(const s16 m[3][3], u8 y, u8 cb, u8 cr, u8 y_offset, u8 *r,
*b = clamp(b_16, 0, 0xffff) >> 8;
}
+/**
+ * yuv_u8_to_argb_u16() - helper to convert yuv 8 bits to argb 16 bits
+ *
+ * @argb_u16: pointer to write the converted pixel
+ * @yuv_u8: pointer to the source yuv pixel
+ * @encoding: encoding to use
+ * @range: range to use
+ */
VISIBLE_IF_KUNIT void yuv_u8_to_argb_u16(struct pixel_argb_u16 *argb_u16,
const struct pixel_yuv_u8 *yuv_u8,
enum drm_color_encoding encoding,
@@ -205,104 +234,89 @@ VISIBLE_IF_KUNIT void yuv_u8_to_argb_u16(struct pixel_argb_u16 *argb_u16,
}
EXPORT_SYMBOL_IF_KUNIT(yuv_u8_to_argb_u16);
-static void semi_planar_yuv_to_argb_u16(u8 **src_pixels, struct pixel_argb_u16 *out_pixel,
+static void semi_planar_yuv_to_argb_u16(struct vkms_frame_info *frame_info, int x,
+ int y, struct pixel_argb_u16 *out_pixel,
enum drm_color_encoding encoding,
enum drm_color_range range)
{
struct pixel_yuv_u8 yuv_u8;
- yuv_u8.y = src_pixels[0][0];
- yuv_u8.u = src_pixels[1][0];
- yuv_u8.v = src_pixels[1][1];
+ /* Subsampling must be applied for semi-planar yuv formats */
+ int vsub = frame_info->fb->format->vsub;
+ int hsub = frame_info->fb->format->hsub;
+
+ u8 *src_y = packed_pixels_addr(frame_info, x, y, 0);
+ u8 *src_uv = packed_pixels_addr(frame_info, x / hsub, y / vsub, 1);
+
+ yuv_u8.y = src_y[0];
+ yuv_u8.u = src_uv[0];
+ yuv_u8.v = src_uv[1];
yuv_u8_to_argb_u16(out_pixel, &yuv_u8, encoding, range);
}
-static void semi_planar_yvu_to_argb_u16(u8 **src_pixels, struct pixel_argb_u16 *out_pixel,
+static void semi_planar_yvu_to_argb_u16(struct vkms_frame_info *frame_info, int x,
+ int y, struct pixel_argb_u16 *out_pixel,
enum drm_color_encoding encoding,
enum drm_color_range range)
{
struct pixel_yuv_u8 yuv_u8;
- yuv_u8.y = src_pixels[0][0];
- yuv_u8.v = src_pixels[1][0];
- yuv_u8.u = src_pixels[1][1];
+ /* Subsampling must be applied for semi-planar yuv formats */
+ int vsub = frame_info->fb->format->vsub ? frame_info->fb->format->vsub : 1;
+ int hsub = frame_info->fb->format->hsub ? frame_info->fb->format->hsub : 1;
+ u8 *src_y = packed_pixels_addr(frame_info, x, y, 0);
+ u8 *src_vu = packed_pixels_addr(frame_info, x / hsub, y / vsub, 1);
+
+ yuv_u8.y = src_y[0];
+ yuv_u8.v = src_vu[0];
+ yuv_u8.u = src_vu[1];
yuv_u8_to_argb_u16(out_pixel, &yuv_u8, encoding, range);
}
-static void planar_yuv_to_argb_u16(u8 **src_pixels, struct pixel_argb_u16 *out_pixel,
- enum drm_color_encoding encoding, enum drm_color_range range)
+static void planar_yuv_to_argb_u16(struct vkms_frame_info *frame_info, int x, int y,
+ struct pixel_argb_u16 *out_pixel,
+ enum drm_color_encoding encoding,
+ enum drm_color_range range)
{
struct pixel_yuv_u8 yuv_u8;
- yuv_u8.y = src_pixels[0][0];
- yuv_u8.u = src_pixels[1][0];
- yuv_u8.v = src_pixels[2][0];
+ /* Subsampling must be applied for planar yuv formats */
+ int vsub = frame_info->fb->format->vsub ? frame_info->fb->format->vsub : 1;
+ int hsub = frame_info->fb->format->hsub ? frame_info->fb->format->hsub : 1;
+
+ u8 *src_y = packed_pixels_addr(frame_info, x, y, 0);
+ u8 *src_u = packed_pixels_addr(frame_info, x / hsub, y / vsub, 1);
+ u8 *src_v = packed_pixels_addr(frame_info, x / hsub, y / vsub, 2);
+
+ yuv_u8.y = src_y[0];
+ yuv_u8.u = src_u[0];
+ yuv_u8.v = src_v[0];
yuv_u8_to_argb_u16(out_pixel, &yuv_u8, encoding, range);
}
-static void planar_yvu_to_argb_u16(u8 **src_pixels, struct pixel_argb_u16 *out_pixel,
- enum drm_color_encoding encoding, enum drm_color_range range)
+static void planar_yvu_to_argb_u16(struct vkms_frame_info *frame_info, int x, int y,
+ struct pixel_argb_u16 *out_pixel,
+ enum drm_color_encoding encoding,
+ enum drm_color_range range)
{
struct pixel_yuv_u8 yuv_u8;
- yuv_u8.y = src_pixels[0][0];
- yuv_u8.v = src_pixels[1][0];
- yuv_u8.u = src_pixels[2][0];
+ /* Subsampling must be applied for semi-planar yuv formats */
+ int vsub = frame_info->fb->format->vsub ? frame_info->fb->format->vsub : 1;
+ int hsub = frame_info->fb->format->hsub ? frame_info->fb->format->hsub : 1;
- yuv_u8_to_argb_u16(out_pixel, &yuv_u8, encoding, range);
-}
+ u8 *src_y = packed_pixels_addr(frame_info, x, y, 0);
+ u8 *src_u = packed_pixels_addr(frame_info, x / hsub, y / vsub, 1);
+ u8 *src_v = packed_pixels_addr(frame_info, x / hsub, y / vsub, 2);
-/**
- * vkms_compose_row - compose a single row of a plane
- * @stage_buffer: output line with the composed pixels
- * @plane: state of the plane that is being composed
- * @y: y coordinate of the row
- *
- * This function composes a single row of a plane. It gets the source pixels
- * through the y coordinate (see get_packed_src_addr()) and goes linearly
- * through the source pixel, reading the pixels and converting it to
- * ARGB16161616 (see the pixel_read() callback). For rotate-90 and rotate-270,
- * the source pixels are not traversed linearly. The source pixels are queried
- * on each iteration in order to traverse the pixels vertically.
- */
-void vkms_compose_row(struct line_buffer *stage_buffer, struct vkms_plane_state *plane, int y)
-{
- struct pixel_argb_u16 *out_pixels = stage_buffer->pixels;
- struct vkms_frame_info *frame_info = plane->frame_info;
- const struct drm_format_info *frame_format = frame_info->fb->format;
- int limit = min_t(size_t, drm_rect_width(&frame_info->dst), stage_buffer->n_pixels);
- u8 *src_pixels[DRM_FORMAT_MAX_PLANES];
-
- enum drm_color_encoding encoding = plane->base.base.color_encoding;
- enum drm_color_range range = plane->base.base.color_range;
-
- for (size_t i = 0; i < frame_format->num_planes; i++)
- src_pixels[i] = get_packed_src_addr(frame_info, y, i);
-
- for (size_t x = 0; x < limit; x++) {
- int x_pos = get_x_position(frame_info, limit, x);
-
- bool shoud_inc = !((x + 1) % frame_format->num_planes);
-
- if (drm_rotation_90_or_270(frame_info->rotation)) {
- for (size_t i = 0; i < frame_format->num_planes; i++) {
- src_pixels[i] = get_packed_src_addr(frame_info,
- x + frame_info->rotated.y1, i);
- if (!i || shoud_inc)
- src_pixels[i] += frame_format->cpp[i] * y;
- }
- }
-
- plane->pixel_read(src_pixels, &out_pixels[x_pos], encoding, range);
-
- for (size_t i = 0; i < frame_format->num_planes; i++) {
- if (!i || shoud_inc)
- src_pixels[i] += frame_format->cpp[i];
- }
- }
+ yuv_u8.y = src_y[0];
+ yuv_u8.v = src_u[0];
+ yuv_u8.u = src_v[0];
+
+ yuv_u8_to_argb_u16(out_pixel, &yuv_u8, encoding, range);
}
/*
diff --git a/drivers/gpu/drm/vkms/vkms_plane.c b/drivers/gpu/drm/vkms/vkms_plane.c
index 932736fc3ee9..d818ed246a46 100644
--- a/drivers/gpu/drm/vkms/vkms_plane.c
+++ b/drivers/gpu/drm/vkms/vkms_plane.c
@@ -118,13 +118,20 @@ static void vkms_plane_atomic_update(struct drm_plane *plane,
return;
fmt = fb->format->format;
+ pixel_read_t pixel_read = get_pixel_conversion_function(fmt);
+
+ if (!pixel_read) {
+ DRM_WARN("The requested pixel format is not supported by VKMS. The new state is "
+ "not applied.\n");
+ return;
+ }
+
vkms_plane_state = to_vkms_plane_state(new_state);
shadow_plane_state = &vkms_plane_state->base;
frame_info = vkms_plane_state->frame_info;
memcpy(&frame_info->src, &new_state->src, sizeof(struct drm_rect));
memcpy(&frame_info->dst, &new_state->dst, sizeof(struct drm_rect));
- memcpy(&frame_info->rotated, &new_state->dst, sizeof(struct drm_rect));
frame_info->fb = fb;
memcpy(&frame_info->map, &shadow_plane_state->data, sizeof(frame_info->map));
drm_framebuffer_get(frame_info->fb);
@@ -134,10 +141,8 @@ static void vkms_plane_atomic_update(struct drm_plane *plane,
DRM_MODE_REFLECT_X |
DRM_MODE_REFLECT_Y);
- drm_rect_rotate(&frame_info->rotated, drm_rect_width(&frame_info->rotated),
- drm_rect_height(&frame_info->rotated), frame_info->rotation);
- vkms_plane_state->pixel_read = get_pixel_conversion_function(fmt);
+ vkms_plane_state->pixel_read = pixel_read;
}
static int vkms_plane_atomic_check(struct drm_plane *plane,
--
2.43.0
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