OpenCloudOS-Kernel/drivers/gpu/drm/msm/disp/dpu1/dpu_formats.c

1025 lines
33 KiB
C

// SPDX-License-Identifier: GPL-2.0-only
/* Copyright (c) 2015-2018, The Linux Foundation. All rights reserved.
*/
#define pr_fmt(fmt) "[drm:%s:%d] " fmt, __func__, __LINE__
#include <uapi/drm/drm_fourcc.h>
#include "msm_media_info.h"
#include "dpu_kms.h"
#include "dpu_formats.h"
#define DPU_UBWC_META_MACRO_W_H 16
#define DPU_UBWC_META_BLOCK_SIZE 256
#define DPU_UBWC_PLANE_SIZE_ALIGNMENT 4096
#define DPU_TILE_HEIGHT_DEFAULT 1
#define DPU_TILE_HEIGHT_TILED 4
#define DPU_TILE_HEIGHT_UBWC 4
#define DPU_TILE_HEIGHT_NV12 8
#define DPU_MAX_IMG_WIDTH 0x3FFF
#define DPU_MAX_IMG_HEIGHT 0x3FFF
/**
* DPU supported format packing, bpp, and other format
* information.
* DPU currently only supports interleaved RGB formats
* UBWC support for a pixel format is indicated by the flag,
* there is additional meta data plane for such formats
*/
#define INTERLEAVED_RGB_FMT(fmt, a, r, g, b, e0, e1, e2, e3, uc, alpha, \
bp, flg, fm, np) \
{ \
.base.pixel_format = DRM_FORMAT_ ## fmt, \
.fetch_planes = DPU_PLANE_INTERLEAVED, \
.alpha_enable = alpha, \
.element = { (e0), (e1), (e2), (e3) }, \
.bits = { g, b, r, a }, \
.chroma_sample = DPU_CHROMA_RGB, \
.unpack_align_msb = 0, \
.unpack_tight = 1, \
.unpack_count = uc, \
.bpp = bp, \
.fetch_mode = fm, \
.flag = {(flg)}, \
.num_planes = np, \
.tile_height = DPU_TILE_HEIGHT_DEFAULT \
}
#define INTERLEAVED_RGB_FMT_TILED(fmt, a, r, g, b, e0, e1, e2, e3, uc, \
alpha, bp, flg, fm, np, th) \
{ \
.base.pixel_format = DRM_FORMAT_ ## fmt, \
.fetch_planes = DPU_PLANE_INTERLEAVED, \
.alpha_enable = alpha, \
.element = { (e0), (e1), (e2), (e3) }, \
.bits = { g, b, r, a }, \
.chroma_sample = DPU_CHROMA_RGB, \
.unpack_align_msb = 0, \
.unpack_tight = 1, \
.unpack_count = uc, \
.bpp = bp, \
.fetch_mode = fm, \
.flag = {(flg)}, \
.num_planes = np, \
.tile_height = th \
}
#define INTERLEAVED_YUV_FMT(fmt, a, r, g, b, e0, e1, e2, e3, \
alpha, chroma, count, bp, flg, fm, np) \
{ \
.base.pixel_format = DRM_FORMAT_ ## fmt, \
.fetch_planes = DPU_PLANE_INTERLEAVED, \
.alpha_enable = alpha, \
.element = { (e0), (e1), (e2), (e3)}, \
.bits = { g, b, r, a }, \
.chroma_sample = chroma, \
.unpack_align_msb = 0, \
.unpack_tight = 1, \
.unpack_count = count, \
.bpp = bp, \
.fetch_mode = fm, \
.flag = {(flg)}, \
.num_planes = np, \
.tile_height = DPU_TILE_HEIGHT_DEFAULT \
}
#define PSEUDO_YUV_FMT(fmt, a, r, g, b, e0, e1, chroma, flg, fm, np) \
{ \
.base.pixel_format = DRM_FORMAT_ ## fmt, \
.fetch_planes = DPU_PLANE_PSEUDO_PLANAR, \
.alpha_enable = false, \
.element = { (e0), (e1), 0, 0 }, \
.bits = { g, b, r, a }, \
.chroma_sample = chroma, \
.unpack_align_msb = 0, \
.unpack_tight = 1, \
.unpack_count = 2, \
.bpp = 2, \
.fetch_mode = fm, \
.flag = {(flg)}, \
.num_planes = np, \
.tile_height = DPU_TILE_HEIGHT_DEFAULT \
}
#define PSEUDO_YUV_FMT_TILED(fmt, a, r, g, b, e0, e1, chroma, \
flg, fm, np, th) \
{ \
.base.pixel_format = DRM_FORMAT_ ## fmt, \
.fetch_planes = DPU_PLANE_PSEUDO_PLANAR, \
.alpha_enable = false, \
.element = { (e0), (e1), 0, 0 }, \
.bits = { g, b, r, a }, \
.chroma_sample = chroma, \
.unpack_align_msb = 0, \
.unpack_tight = 1, \
.unpack_count = 2, \
.bpp = 2, \
.fetch_mode = fm, \
.flag = {(flg)}, \
.num_planes = np, \
.tile_height = th \
}
#define PSEUDO_YUV_FMT_LOOSE(fmt, a, r, g, b, e0, e1, chroma, flg, fm, np)\
{ \
.base.pixel_format = DRM_FORMAT_ ## fmt, \
.fetch_planes = DPU_PLANE_PSEUDO_PLANAR, \
.alpha_enable = false, \
.element = { (e0), (e1), 0, 0 }, \
.bits = { g, b, r, a }, \
.chroma_sample = chroma, \
.unpack_align_msb = 1, \
.unpack_tight = 0, \
.unpack_count = 2, \
.bpp = 2, \
.fetch_mode = fm, \
.flag = {(flg)}, \
.num_planes = np, \
.tile_height = DPU_TILE_HEIGHT_DEFAULT \
}
#define PSEUDO_YUV_FMT_LOOSE_TILED(fmt, a, r, g, b, e0, e1, chroma, \
flg, fm, np, th) \
{ \
.base.pixel_format = DRM_FORMAT_ ## fmt, \
.fetch_planes = DPU_PLANE_PSEUDO_PLANAR, \
.alpha_enable = false, \
.element = { (e0), (e1), 0, 0 }, \
.bits = { g, b, r, a }, \
.chroma_sample = chroma, \
.unpack_align_msb = 1, \
.unpack_tight = 0, \
.unpack_count = 2, \
.bpp = 2, \
.fetch_mode = fm, \
.flag = {(flg)}, \
.num_planes = np, \
.tile_height = th \
}
#define PLANAR_YUV_FMT(fmt, a, r, g, b, e0, e1, e2, alpha, chroma, bp, \
flg, fm, np) \
{ \
.base.pixel_format = DRM_FORMAT_ ## fmt, \
.fetch_planes = DPU_PLANE_PLANAR, \
.alpha_enable = alpha, \
.element = { (e0), (e1), (e2), 0 }, \
.bits = { g, b, r, a }, \
.chroma_sample = chroma, \
.unpack_align_msb = 0, \
.unpack_tight = 1, \
.unpack_count = 1, \
.bpp = bp, \
.fetch_mode = fm, \
.flag = {(flg)}, \
.num_planes = np, \
.tile_height = DPU_TILE_HEIGHT_DEFAULT \
}
/*
* struct dpu_media_color_map - maps drm format to media format
* @format: DRM base pixel format
* @color: Media API color related to DRM format
*/
struct dpu_media_color_map {
uint32_t format;
uint32_t color;
};
static const struct dpu_format dpu_format_map[] = {
INTERLEAVED_RGB_FMT(ARGB8888,
COLOR_8BIT, COLOR_8BIT, COLOR_8BIT, COLOR_8BIT,
C1_B_Cb, C0_G_Y, C2_R_Cr, C3_ALPHA, 4,
true, 4, 0,
DPU_FETCH_LINEAR, 1),
INTERLEAVED_RGB_FMT(ABGR8888,
COLOR_8BIT, COLOR_8BIT, COLOR_8BIT, COLOR_8BIT,
C2_R_Cr, C0_G_Y, C1_B_Cb, C3_ALPHA, 4,
true, 4, 0,
DPU_FETCH_LINEAR, 1),
INTERLEAVED_RGB_FMT(XBGR8888,
COLOR_8BIT, COLOR_8BIT, COLOR_8BIT, COLOR_8BIT,
C2_R_Cr, C0_G_Y, C1_B_Cb, C3_ALPHA, 4,
false, 4, 0,
DPU_FETCH_LINEAR, 1),
INTERLEAVED_RGB_FMT(RGBA8888,
COLOR_8BIT, COLOR_8BIT, COLOR_8BIT, COLOR_8BIT,
C3_ALPHA, C1_B_Cb, C0_G_Y, C2_R_Cr, 4,
true, 4, 0,
DPU_FETCH_LINEAR, 1),
INTERLEAVED_RGB_FMT(BGRA8888,
COLOR_8BIT, COLOR_8BIT, COLOR_8BIT, COLOR_8BIT,
C3_ALPHA, C2_R_Cr, C0_G_Y, C1_B_Cb, 4,
true, 4, 0,
DPU_FETCH_LINEAR, 1),
INTERLEAVED_RGB_FMT(BGRX8888,
COLOR_8BIT, COLOR_8BIT, COLOR_8BIT, COLOR_8BIT,
C3_ALPHA, C2_R_Cr, C0_G_Y, C1_B_Cb, 4,
false, 4, 0,
DPU_FETCH_LINEAR, 1),
INTERLEAVED_RGB_FMT(XRGB8888,
COLOR_8BIT, COLOR_8BIT, COLOR_8BIT, COLOR_8BIT,
C1_B_Cb, C0_G_Y, C2_R_Cr, C3_ALPHA, 4,
false, 4, 0,
DPU_FETCH_LINEAR, 1),
INTERLEAVED_RGB_FMT(RGBX8888,
COLOR_8BIT, COLOR_8BIT, COLOR_8BIT, COLOR_8BIT,
C3_ALPHA, C1_B_Cb, C0_G_Y, C2_R_Cr, 4,
false, 4, 0,
DPU_FETCH_LINEAR, 1),
INTERLEAVED_RGB_FMT(RGB888,
0, COLOR_8BIT, COLOR_8BIT, COLOR_8BIT,
C1_B_Cb, C0_G_Y, C2_R_Cr, 0, 3,
false, 3, 0,
DPU_FETCH_LINEAR, 1),
INTERLEAVED_RGB_FMT(BGR888,
0, COLOR_8BIT, COLOR_8BIT, COLOR_8BIT,
C2_R_Cr, C0_G_Y, C1_B_Cb, 0, 3,
false, 3, 0,
DPU_FETCH_LINEAR, 1),
INTERLEAVED_RGB_FMT(RGB565,
0, COLOR_5BIT, COLOR_6BIT, COLOR_5BIT,
C2_R_Cr, C0_G_Y, C1_B_Cb, 0, 3,
false, 2, 0,
DPU_FETCH_LINEAR, 1),
INTERLEAVED_RGB_FMT(BGR565,
0, COLOR_5BIT, COLOR_6BIT, COLOR_5BIT,
C1_B_Cb, C0_G_Y, C2_R_Cr, 0, 3,
false, 2, 0,
DPU_FETCH_LINEAR, 1),
INTERLEAVED_RGB_FMT(ARGB1555,
COLOR_ALPHA_1BIT, COLOR_5BIT, COLOR_5BIT, COLOR_5BIT,
C1_B_Cb, C0_G_Y, C2_R_Cr, C3_ALPHA, 4,
true, 2, 0,
DPU_FETCH_LINEAR, 1),
INTERLEAVED_RGB_FMT(ABGR1555,
COLOR_ALPHA_1BIT, COLOR_5BIT, COLOR_5BIT, COLOR_5BIT,
C2_R_Cr, C0_G_Y, C1_B_Cb, C3_ALPHA, 4,
true, 2, 0,
DPU_FETCH_LINEAR, 1),
INTERLEAVED_RGB_FMT(RGBA5551,
COLOR_ALPHA_1BIT, COLOR_5BIT, COLOR_5BIT, COLOR_5BIT,
C3_ALPHA, C1_B_Cb, C0_G_Y, C2_R_Cr, 4,
true, 2, 0,
DPU_FETCH_LINEAR, 1),
INTERLEAVED_RGB_FMT(BGRA5551,
COLOR_ALPHA_1BIT, COLOR_5BIT, COLOR_5BIT, COLOR_5BIT,
C3_ALPHA, C2_R_Cr, C0_G_Y, C1_B_Cb, 4,
true, 2, 0,
DPU_FETCH_LINEAR, 1),
INTERLEAVED_RGB_FMT(XRGB1555,
COLOR_ALPHA_1BIT, COLOR_5BIT, COLOR_5BIT, COLOR_5BIT,
C1_B_Cb, C0_G_Y, C2_R_Cr, C3_ALPHA, 4,
false, 2, 0,
DPU_FETCH_LINEAR, 1),
INTERLEAVED_RGB_FMT(XBGR1555,
COLOR_ALPHA_1BIT, COLOR_5BIT, COLOR_5BIT, COLOR_5BIT,
C2_R_Cr, C0_G_Y, C1_B_Cb, C3_ALPHA, 4,
false, 2, 0,
DPU_FETCH_LINEAR, 1),
INTERLEAVED_RGB_FMT(RGBX5551,
COLOR_ALPHA_1BIT, COLOR_5BIT, COLOR_5BIT, COLOR_5BIT,
C3_ALPHA, C1_B_Cb, C0_G_Y, C2_R_Cr, 4,
false, 2, 0,
DPU_FETCH_LINEAR, 1),
INTERLEAVED_RGB_FMT(BGRX5551,
COLOR_ALPHA_1BIT, COLOR_5BIT, COLOR_5BIT, COLOR_5BIT,
C3_ALPHA, C2_R_Cr, C0_G_Y, C1_B_Cb, 4,
false, 2, 0,
DPU_FETCH_LINEAR, 1),
INTERLEAVED_RGB_FMT(ARGB4444,
COLOR_ALPHA_4BIT, COLOR_4BIT, COLOR_4BIT, COLOR_4BIT,
C1_B_Cb, C0_G_Y, C2_R_Cr, C3_ALPHA, 4,
true, 2, 0,
DPU_FETCH_LINEAR, 1),
INTERLEAVED_RGB_FMT(ABGR4444,
COLOR_ALPHA_4BIT, COLOR_4BIT, COLOR_4BIT, COLOR_4BIT,
C2_R_Cr, C0_G_Y, C1_B_Cb, C3_ALPHA, 4,
true, 2, 0,
DPU_FETCH_LINEAR, 1),
INTERLEAVED_RGB_FMT(RGBA4444,
COLOR_ALPHA_4BIT, COLOR_4BIT, COLOR_4BIT, COLOR_4BIT,
C3_ALPHA, C1_B_Cb, C0_G_Y, C2_R_Cr, 4,
true, 2, 0,
DPU_FETCH_LINEAR, 1),
INTERLEAVED_RGB_FMT(BGRA4444,
COLOR_ALPHA_4BIT, COLOR_4BIT, COLOR_4BIT, COLOR_4BIT,
C3_ALPHA, C2_R_Cr, C0_G_Y, C1_B_Cb, 4,
true, 2, 0,
DPU_FETCH_LINEAR, 1),
INTERLEAVED_RGB_FMT(XRGB4444,
COLOR_ALPHA_4BIT, COLOR_4BIT, COLOR_4BIT, COLOR_4BIT,
C1_B_Cb, C0_G_Y, C2_R_Cr, C3_ALPHA, 4,
false, 2, 0,
DPU_FETCH_LINEAR, 1),
INTERLEAVED_RGB_FMT(XBGR4444,
COLOR_ALPHA_4BIT, COLOR_4BIT, COLOR_4BIT, COLOR_4BIT,
C2_R_Cr, C0_G_Y, C1_B_Cb, C3_ALPHA, 4,
false, 2, 0,
DPU_FETCH_LINEAR, 1),
INTERLEAVED_RGB_FMT(RGBX4444,
COLOR_ALPHA_4BIT, COLOR_4BIT, COLOR_4BIT, COLOR_4BIT,
C3_ALPHA, C1_B_Cb, C0_G_Y, C2_R_Cr, 4,
false, 2, 0,
DPU_FETCH_LINEAR, 1),
INTERLEAVED_RGB_FMT(BGRX4444,
COLOR_ALPHA_4BIT, COLOR_4BIT, COLOR_4BIT, COLOR_4BIT,
C3_ALPHA, C2_R_Cr, C0_G_Y, C1_B_Cb, 4,
false, 2, 0,
DPU_FETCH_LINEAR, 1),
INTERLEAVED_RGB_FMT(BGRA1010102,
COLOR_8BIT, COLOR_8BIT, COLOR_8BIT, COLOR_8BIT,
C3_ALPHA, C2_R_Cr, C0_G_Y, C1_B_Cb, 4,
true, 4, DPU_FORMAT_FLAG_DX,
DPU_FETCH_LINEAR, 1),
INTERLEAVED_RGB_FMT(RGBA1010102,
COLOR_8BIT, COLOR_8BIT, COLOR_8BIT, COLOR_8BIT,
C3_ALPHA, C1_B_Cb, C0_G_Y, C2_R_Cr, 4,
true, 4, DPU_FORMAT_FLAG_DX,
DPU_FETCH_LINEAR, 1),
INTERLEAVED_RGB_FMT(ABGR2101010,
COLOR_8BIT, COLOR_8BIT, COLOR_8BIT, COLOR_8BIT,
C2_R_Cr, C0_G_Y, C1_B_Cb, C3_ALPHA, 4,
true, 4, DPU_FORMAT_FLAG_DX,
DPU_FETCH_LINEAR, 1),
INTERLEAVED_RGB_FMT(ARGB2101010,
COLOR_8BIT, COLOR_8BIT, COLOR_8BIT, COLOR_8BIT,
C1_B_Cb, C0_G_Y, C2_R_Cr, C3_ALPHA, 4,
true, 4, DPU_FORMAT_FLAG_DX,
DPU_FETCH_LINEAR, 1),
INTERLEAVED_RGB_FMT(XRGB2101010,
COLOR_8BIT, COLOR_8BIT, COLOR_8BIT, COLOR_8BIT,
C1_B_Cb, C0_G_Y, C2_R_Cr, C3_ALPHA, 4,
false, 4, DPU_FORMAT_FLAG_DX,
DPU_FETCH_LINEAR, 1),
INTERLEAVED_RGB_FMT(BGRX1010102,
COLOR_8BIT, COLOR_8BIT, COLOR_8BIT, COLOR_8BIT,
C3_ALPHA, C2_R_Cr, C0_G_Y, C1_B_Cb, 4,
false, 4, DPU_FORMAT_FLAG_DX,
DPU_FETCH_LINEAR, 1),
INTERLEAVED_RGB_FMT(XBGR2101010,
COLOR_8BIT, COLOR_8BIT, COLOR_8BIT, COLOR_8BIT,
C2_R_Cr, C0_G_Y, C1_B_Cb, C3_ALPHA, 4,
false, 4, DPU_FORMAT_FLAG_DX,
DPU_FETCH_LINEAR, 1),
INTERLEAVED_RGB_FMT(RGBX1010102,
COLOR_8BIT, COLOR_8BIT, COLOR_8BIT, COLOR_8BIT,
C3_ALPHA, C1_B_Cb, C0_G_Y, C2_R_Cr, 4,
false, 4, DPU_FORMAT_FLAG_DX,
DPU_FETCH_LINEAR, 1),
PSEUDO_YUV_FMT(NV12,
0, COLOR_8BIT, COLOR_8BIT, COLOR_8BIT,
C1_B_Cb, C2_R_Cr,
DPU_CHROMA_420, DPU_FORMAT_FLAG_YUV,
DPU_FETCH_LINEAR, 2),
PSEUDO_YUV_FMT(NV21,
0, COLOR_8BIT, COLOR_8BIT, COLOR_8BIT,
C2_R_Cr, C1_B_Cb,
DPU_CHROMA_420, DPU_FORMAT_FLAG_YUV,
DPU_FETCH_LINEAR, 2),
PSEUDO_YUV_FMT(NV16,
0, COLOR_8BIT, COLOR_8BIT, COLOR_8BIT,
C1_B_Cb, C2_R_Cr,
DPU_CHROMA_H2V1, DPU_FORMAT_FLAG_YUV,
DPU_FETCH_LINEAR, 2),
PSEUDO_YUV_FMT(NV61,
0, COLOR_8BIT, COLOR_8BIT, COLOR_8BIT,
C2_R_Cr, C1_B_Cb,
DPU_CHROMA_H2V1, DPU_FORMAT_FLAG_YUV,
DPU_FETCH_LINEAR, 2),
INTERLEAVED_YUV_FMT(VYUY,
0, COLOR_8BIT, COLOR_8BIT, COLOR_8BIT,
C2_R_Cr, C0_G_Y, C1_B_Cb, C0_G_Y,
false, DPU_CHROMA_H2V1, 4, 2, DPU_FORMAT_FLAG_YUV,
DPU_FETCH_LINEAR, 2),
INTERLEAVED_YUV_FMT(UYVY,
0, COLOR_8BIT, COLOR_8BIT, COLOR_8BIT,
C1_B_Cb, C0_G_Y, C2_R_Cr, C0_G_Y,
false, DPU_CHROMA_H2V1, 4, 2, DPU_FORMAT_FLAG_YUV,
DPU_FETCH_LINEAR, 2),
INTERLEAVED_YUV_FMT(YUYV,
0, COLOR_8BIT, COLOR_8BIT, COLOR_8BIT,
C0_G_Y, C1_B_Cb, C0_G_Y, C2_R_Cr,
false, DPU_CHROMA_H2V1, 4, 2, DPU_FORMAT_FLAG_YUV,
DPU_FETCH_LINEAR, 2),
INTERLEAVED_YUV_FMT(YVYU,
0, COLOR_8BIT, COLOR_8BIT, COLOR_8BIT,
C0_G_Y, C2_R_Cr, C0_G_Y, C1_B_Cb,
false, DPU_CHROMA_H2V1, 4, 2, DPU_FORMAT_FLAG_YUV,
DPU_FETCH_LINEAR, 2),
PLANAR_YUV_FMT(YUV420,
0, COLOR_8BIT, COLOR_8BIT, COLOR_8BIT,
C2_R_Cr, C1_B_Cb, C0_G_Y,
false, DPU_CHROMA_420, 1, DPU_FORMAT_FLAG_YUV,
DPU_FETCH_LINEAR, 3),
PLANAR_YUV_FMT(YVU420,
0, COLOR_8BIT, COLOR_8BIT, COLOR_8BIT,
C1_B_Cb, C2_R_Cr, C0_G_Y,
false, DPU_CHROMA_420, 1, DPU_FORMAT_FLAG_YUV,
DPU_FETCH_LINEAR, 3),
};
/*
* UBWC formats table:
* This table holds the UBWC formats supported.
* If a compression ratio needs to be used for this or any other format,
* the data will be passed by user-space.
*/
static const struct dpu_format dpu_format_map_ubwc[] = {
INTERLEAVED_RGB_FMT_TILED(BGR565,
0, COLOR_5BIT, COLOR_6BIT, COLOR_5BIT,
C2_R_Cr, C0_G_Y, C1_B_Cb, 0, 3,
false, 2, DPU_FORMAT_FLAG_COMPRESSED,
DPU_FETCH_UBWC, 2, DPU_TILE_HEIGHT_UBWC),
INTERLEAVED_RGB_FMT_TILED(ABGR8888,
COLOR_8BIT, COLOR_8BIT, COLOR_8BIT, COLOR_8BIT,
C2_R_Cr, C0_G_Y, C1_B_Cb, C3_ALPHA, 4,
true, 4, DPU_FORMAT_FLAG_COMPRESSED,
DPU_FETCH_UBWC, 2, DPU_TILE_HEIGHT_UBWC),
INTERLEAVED_RGB_FMT_TILED(XBGR8888,
COLOR_8BIT, COLOR_8BIT, COLOR_8BIT, COLOR_8BIT,
C2_R_Cr, C0_G_Y, C1_B_Cb, C3_ALPHA, 4,
false, 4, DPU_FORMAT_FLAG_COMPRESSED,
DPU_FETCH_UBWC, 2, DPU_TILE_HEIGHT_UBWC),
INTERLEAVED_RGB_FMT_TILED(ABGR2101010,
COLOR_8BIT, COLOR_8BIT, COLOR_8BIT, COLOR_8BIT,
C2_R_Cr, C0_G_Y, C1_B_Cb, C3_ALPHA, 4,
true, 4, DPU_FORMAT_FLAG_DX | DPU_FORMAT_FLAG_COMPRESSED,
DPU_FETCH_UBWC, 2, DPU_TILE_HEIGHT_UBWC),
INTERLEAVED_RGB_FMT_TILED(XBGR2101010,
COLOR_8BIT, COLOR_8BIT, COLOR_8BIT, COLOR_8BIT,
C2_R_Cr, C0_G_Y, C1_B_Cb, C3_ALPHA, 4,
true, 4, DPU_FORMAT_FLAG_DX | DPU_FORMAT_FLAG_COMPRESSED,
DPU_FETCH_UBWC, 2, DPU_TILE_HEIGHT_UBWC),
PSEUDO_YUV_FMT_TILED(NV12,
0, COLOR_8BIT, COLOR_8BIT, COLOR_8BIT,
C1_B_Cb, C2_R_Cr,
DPU_CHROMA_420, DPU_FORMAT_FLAG_YUV |
DPU_FORMAT_FLAG_COMPRESSED,
DPU_FETCH_UBWC, 4, DPU_TILE_HEIGHT_NV12),
};
/* _dpu_get_v_h_subsample_rate - Get subsample rates for all formats we support
* Note: Not using the drm_format_*_subsampling since we have formats
*/
static void _dpu_get_v_h_subsample_rate(
enum dpu_chroma_samp_type chroma_sample,
uint32_t *v_sample,
uint32_t *h_sample)
{
if (!v_sample || !h_sample)
return;
switch (chroma_sample) {
case DPU_CHROMA_H2V1:
*v_sample = 1;
*h_sample = 2;
break;
case DPU_CHROMA_H1V2:
*v_sample = 2;
*h_sample = 1;
break;
case DPU_CHROMA_420:
*v_sample = 2;
*h_sample = 2;
break;
default:
*v_sample = 1;
*h_sample = 1;
break;
}
}
static int _dpu_format_get_media_color_ubwc(const struct dpu_format *fmt)
{
static const struct dpu_media_color_map dpu_media_ubwc_map[] = {
{DRM_FORMAT_ABGR8888, COLOR_FMT_RGBA8888_UBWC},
{DRM_FORMAT_XBGR8888, COLOR_FMT_RGBA8888_UBWC},
{DRM_FORMAT_ABGR2101010, COLOR_FMT_RGBA1010102_UBWC},
{DRM_FORMAT_XBGR2101010, COLOR_FMT_RGBA1010102_UBWC},
{DRM_FORMAT_BGR565, COLOR_FMT_RGB565_UBWC},
};
int color_fmt = -1;
int i;
if (fmt->base.pixel_format == DRM_FORMAT_NV12) {
if (DPU_FORMAT_IS_DX(fmt)) {
if (fmt->unpack_tight)
color_fmt = COLOR_FMT_NV12_BPP10_UBWC;
else
color_fmt = COLOR_FMT_P010_UBWC;
} else
color_fmt = COLOR_FMT_NV12_UBWC;
return color_fmt;
}
for (i = 0; i < ARRAY_SIZE(dpu_media_ubwc_map); ++i)
if (fmt->base.pixel_format == dpu_media_ubwc_map[i].format) {
color_fmt = dpu_media_ubwc_map[i].color;
break;
}
return color_fmt;
}
static int _dpu_format_get_plane_sizes_ubwc(
const struct dpu_format *fmt,
const uint32_t width,
const uint32_t height,
struct dpu_hw_fmt_layout *layout)
{
int i;
int color;
bool meta = DPU_FORMAT_IS_UBWC(fmt);
memset(layout, 0, sizeof(struct dpu_hw_fmt_layout));
layout->format = fmt;
layout->width = width;
layout->height = height;
layout->num_planes = fmt->num_planes;
color = _dpu_format_get_media_color_ubwc(fmt);
if (color < 0) {
DRM_ERROR("UBWC format not supported for fmt: %4.4s\n",
(char *)&fmt->base.pixel_format);
return -EINVAL;
}
if (DPU_FORMAT_IS_YUV(layout->format)) {
uint32_t y_sclines, uv_sclines;
uint32_t y_meta_scanlines = 0;
uint32_t uv_meta_scanlines = 0;
layout->num_planes = 2;
layout->plane_pitch[0] = VENUS_Y_STRIDE(color, width);
y_sclines = VENUS_Y_SCANLINES(color, height);
layout->plane_size[0] = MSM_MEDIA_ALIGN(layout->plane_pitch[0] *
y_sclines, DPU_UBWC_PLANE_SIZE_ALIGNMENT);
layout->plane_pitch[1] = VENUS_UV_STRIDE(color, width);
uv_sclines = VENUS_UV_SCANLINES(color, height);
layout->plane_size[1] = MSM_MEDIA_ALIGN(layout->plane_pitch[1] *
uv_sclines, DPU_UBWC_PLANE_SIZE_ALIGNMENT);
if (!meta)
goto done;
layout->num_planes += 2;
layout->plane_pitch[2] = VENUS_Y_META_STRIDE(color, width);
y_meta_scanlines = VENUS_Y_META_SCANLINES(color, height);
layout->plane_size[2] = MSM_MEDIA_ALIGN(layout->plane_pitch[2] *
y_meta_scanlines, DPU_UBWC_PLANE_SIZE_ALIGNMENT);
layout->plane_pitch[3] = VENUS_UV_META_STRIDE(color, width);
uv_meta_scanlines = VENUS_UV_META_SCANLINES(color, height);
layout->plane_size[3] = MSM_MEDIA_ALIGN(layout->plane_pitch[3] *
uv_meta_scanlines, DPU_UBWC_PLANE_SIZE_ALIGNMENT);
} else {
uint32_t rgb_scanlines, rgb_meta_scanlines;
layout->num_planes = 1;
layout->plane_pitch[0] = VENUS_RGB_STRIDE(color, width);
rgb_scanlines = VENUS_RGB_SCANLINES(color, height);
layout->plane_size[0] = MSM_MEDIA_ALIGN(layout->plane_pitch[0] *
rgb_scanlines, DPU_UBWC_PLANE_SIZE_ALIGNMENT);
if (!meta)
goto done;
layout->num_planes += 2;
layout->plane_pitch[2] = VENUS_RGB_META_STRIDE(color, width);
rgb_meta_scanlines = VENUS_RGB_META_SCANLINES(color, height);
layout->plane_size[2] = MSM_MEDIA_ALIGN(layout->plane_pitch[2] *
rgb_meta_scanlines, DPU_UBWC_PLANE_SIZE_ALIGNMENT);
}
done:
for (i = 0; i < DPU_MAX_PLANES; i++)
layout->total_size += layout->plane_size[i];
return 0;
}
static int _dpu_format_get_plane_sizes_linear(
const struct dpu_format *fmt,
const uint32_t width,
const uint32_t height,
struct dpu_hw_fmt_layout *layout,
const uint32_t *pitches)
{
int i;
memset(layout, 0, sizeof(struct dpu_hw_fmt_layout));
layout->format = fmt;
layout->width = width;
layout->height = height;
layout->num_planes = fmt->num_planes;
/* Due to memset above, only need to set planes of interest */
if (fmt->fetch_planes == DPU_PLANE_INTERLEAVED) {
layout->num_planes = 1;
layout->plane_size[0] = width * height * layout->format->bpp;
layout->plane_pitch[0] = width * layout->format->bpp;
} else {
uint32_t v_subsample, h_subsample;
uint32_t chroma_samp;
uint32_t bpp = 1;
chroma_samp = fmt->chroma_sample;
_dpu_get_v_h_subsample_rate(chroma_samp, &v_subsample,
&h_subsample);
if (width % h_subsample || height % v_subsample) {
DRM_ERROR("mismatch in subsample vs dimensions\n");
return -EINVAL;
}
if ((fmt->base.pixel_format == DRM_FORMAT_NV12) &&
(DPU_FORMAT_IS_DX(fmt)))
bpp = 2;
layout->plane_pitch[0] = width * bpp;
layout->plane_pitch[1] = layout->plane_pitch[0] / h_subsample;
layout->plane_size[0] = layout->plane_pitch[0] * height;
layout->plane_size[1] = layout->plane_pitch[1] *
(height / v_subsample);
if (fmt->fetch_planes == DPU_PLANE_PSEUDO_PLANAR) {
layout->num_planes = 2;
layout->plane_size[1] *= 2;
layout->plane_pitch[1] *= 2;
} else {
/* planar */
layout->num_planes = 3;
layout->plane_size[2] = layout->plane_size[1];
layout->plane_pitch[2] = layout->plane_pitch[1];
}
}
/*
* linear format: allow user allocated pitches if they are greater than
* the requirement.
* ubwc format: pitch values are computed uniformly across
* all the components based on ubwc specifications.
*/
for (i = 0; i < layout->num_planes && i < DPU_MAX_PLANES; ++i) {
if (pitches && layout->plane_pitch[i] < pitches[i])
layout->plane_pitch[i] = pitches[i];
}
for (i = 0; i < DPU_MAX_PLANES; i++)
layout->total_size += layout->plane_size[i];
return 0;
}
static int dpu_format_get_plane_sizes(
const struct dpu_format *fmt,
const uint32_t w,
const uint32_t h,
struct dpu_hw_fmt_layout *layout,
const uint32_t *pitches)
{
if (!layout || !fmt) {
DRM_ERROR("invalid pointer\n");
return -EINVAL;
}
if ((w > DPU_MAX_IMG_WIDTH) || (h > DPU_MAX_IMG_HEIGHT)) {
DRM_ERROR("image dimensions outside max range\n");
return -ERANGE;
}
if (DPU_FORMAT_IS_UBWC(fmt) || DPU_FORMAT_IS_TILE(fmt))
return _dpu_format_get_plane_sizes_ubwc(fmt, w, h, layout);
return _dpu_format_get_plane_sizes_linear(fmt, w, h, layout, pitches);
}
static int _dpu_format_populate_addrs_ubwc(
struct msm_gem_address_space *aspace,
struct drm_framebuffer *fb,
struct dpu_hw_fmt_layout *layout)
{
uint32_t base_addr = 0;
bool meta;
if (!fb || !layout) {
DRM_ERROR("invalid pointers\n");
return -EINVAL;
}
if (aspace)
base_addr = msm_framebuffer_iova(fb, aspace, 0);
if (!base_addr) {
DRM_ERROR("failed to retrieve base addr\n");
return -EFAULT;
}
meta = DPU_FORMAT_IS_UBWC(layout->format);
/* Per-format logic for verifying active planes */
if (DPU_FORMAT_IS_YUV(layout->format)) {
/************************************************/
/* UBWC ** */
/* buffer ** DPU PLANE */
/* format ** */
/************************************************/
/* ------------------- ** -------------------- */
/* | Y meta | ** | Y bitstream | */
/* | data | ** | plane | */
/* ------------------- ** -------------------- */
/* | Y bitstream | ** | CbCr bitstream | */
/* | data | ** | plane | */
/* ------------------- ** -------------------- */
/* | Cbcr metadata | ** | Y meta | */
/* | data | ** | plane | */
/* ------------------- ** -------------------- */
/* | CbCr bitstream | ** | CbCr meta | */
/* | data | ** | plane | */
/* ------------------- ** -------------------- */
/************************************************/
/* configure Y bitstream plane */
layout->plane_addr[0] = base_addr + layout->plane_size[2];
/* configure CbCr bitstream plane */
layout->plane_addr[1] = base_addr + layout->plane_size[0]
+ layout->plane_size[2] + layout->plane_size[3];
if (!meta)
return 0;
/* configure Y metadata plane */
layout->plane_addr[2] = base_addr;
/* configure CbCr metadata plane */
layout->plane_addr[3] = base_addr + layout->plane_size[0]
+ layout->plane_size[2];
} else {
/************************************************/
/* UBWC ** */
/* buffer ** DPU PLANE */
/* format ** */
/************************************************/
/* ------------------- ** -------------------- */
/* | RGB meta | ** | RGB bitstream | */
/* | data | ** | plane | */
/* ------------------- ** -------------------- */
/* | RGB bitstream | ** | NONE | */
/* | data | ** | | */
/* ------------------- ** -------------------- */
/* ** | RGB meta | */
/* ** | plane | */
/* ** -------------------- */
/************************************************/
layout->plane_addr[0] = base_addr + layout->plane_size[2];
layout->plane_addr[1] = 0;
if (!meta)
return 0;
layout->plane_addr[2] = base_addr;
layout->plane_addr[3] = 0;
}
return 0;
}
static int _dpu_format_populate_addrs_linear(
struct msm_gem_address_space *aspace,
struct drm_framebuffer *fb,
struct dpu_hw_fmt_layout *layout)
{
unsigned int i;
/* Can now check the pitches given vs pitches expected */
for (i = 0; i < layout->num_planes; ++i) {
if (layout->plane_pitch[i] > fb->pitches[i]) {
DRM_ERROR("plane %u expected pitch %u, fb %u\n",
i, layout->plane_pitch[i], fb->pitches[i]);
return -EINVAL;
}
}
/* Populate addresses for simple formats here */
for (i = 0; i < layout->num_planes; ++i) {
if (aspace)
layout->plane_addr[i] =
msm_framebuffer_iova(fb, aspace, i);
if (!layout->plane_addr[i]) {
DRM_ERROR("failed to retrieve base addr\n");
return -EFAULT;
}
}
return 0;
}
int dpu_format_populate_layout(
struct msm_gem_address_space *aspace,
struct drm_framebuffer *fb,
struct dpu_hw_fmt_layout *layout)
{
uint32_t plane_addr[DPU_MAX_PLANES];
int i, ret;
if (!fb || !layout) {
DRM_ERROR("invalid arguments\n");
return -EINVAL;
}
if ((fb->width > DPU_MAX_IMG_WIDTH) ||
(fb->height > DPU_MAX_IMG_HEIGHT)) {
DRM_ERROR("image dimensions outside max range\n");
return -ERANGE;
}
layout->format = to_dpu_format(msm_framebuffer_format(fb));
/* Populate the plane sizes etc via get_format */
ret = dpu_format_get_plane_sizes(layout->format, fb->width, fb->height,
layout, fb->pitches);
if (ret)
return ret;
for (i = 0; i < DPU_MAX_PLANES; ++i)
plane_addr[i] = layout->plane_addr[i];
/* Populate the addresses given the fb */
if (DPU_FORMAT_IS_UBWC(layout->format) ||
DPU_FORMAT_IS_TILE(layout->format))
ret = _dpu_format_populate_addrs_ubwc(aspace, fb, layout);
else
ret = _dpu_format_populate_addrs_linear(aspace, fb, layout);
/* check if anything changed */
if (!ret && !memcmp(plane_addr, layout->plane_addr, sizeof(plane_addr)))
ret = -EAGAIN;
return ret;
}
int dpu_format_check_modified_format(
const struct msm_kms *kms,
const struct msm_format *msm_fmt,
const struct drm_mode_fb_cmd2 *cmd,
struct drm_gem_object **bos)
{
const struct drm_format_info *info;
const struct dpu_format *fmt;
struct dpu_hw_fmt_layout layout;
uint32_t bos_total_size = 0;
int ret, i;
if (!msm_fmt || !cmd || !bos) {
DRM_ERROR("invalid arguments\n");
return -EINVAL;
}
fmt = to_dpu_format(msm_fmt);
info = drm_format_info(fmt->base.pixel_format);
if (!info)
return -EINVAL;
ret = dpu_format_get_plane_sizes(fmt, cmd->width, cmd->height,
&layout, cmd->pitches);
if (ret)
return ret;
for (i = 0; i < info->num_planes; i++) {
if (!bos[i]) {
DRM_ERROR("invalid handle for plane %d\n", i);
return -EINVAL;
}
if ((i == 0) || (bos[i] != bos[0]))
bos_total_size += bos[i]->size;
}
if (bos_total_size < layout.total_size) {
DRM_ERROR("buffers total size too small %u expected %u\n",
bos_total_size, layout.total_size);
return -EINVAL;
}
return 0;
}
const struct dpu_format *dpu_get_dpu_format_ext(
const uint32_t format,
const uint64_t modifier)
{
uint32_t i = 0;
const struct dpu_format *fmt = NULL;
const struct dpu_format *map = NULL;
ssize_t map_size = 0;
/*
* Currently only support exactly zero or one modifier.
* All planes use the same modifier.
*/
DPU_DEBUG("plane format modifier 0x%llX\n", modifier);
switch (modifier) {
case 0:
map = dpu_format_map;
map_size = ARRAY_SIZE(dpu_format_map);
break;
case DRM_FORMAT_MOD_QCOM_COMPRESSED:
map = dpu_format_map_ubwc;
map_size = ARRAY_SIZE(dpu_format_map_ubwc);
DPU_DEBUG("found fmt: %4.4s DRM_FORMAT_MOD_QCOM_COMPRESSED\n",
(char *)&format);
break;
default:
DPU_ERROR("unsupported format modifier %llX\n", modifier);
return NULL;
}
for (i = 0; i < map_size; i++) {
if (format == map[i].base.pixel_format) {
fmt = &map[i];
break;
}
}
if (fmt == NULL)
DPU_ERROR("unsupported fmt: %4.4s modifier 0x%llX\n",
(char *)&format, modifier);
else
DPU_DEBUG("fmt %4.4s mod 0x%llX ubwc %d yuv %d\n",
(char *)&format, modifier,
DPU_FORMAT_IS_UBWC(fmt),
DPU_FORMAT_IS_YUV(fmt));
return fmt;
}
const struct msm_format *dpu_get_msm_format(
struct msm_kms *kms,
const uint32_t format,
const uint64_t modifiers)
{
const struct dpu_format *fmt = dpu_get_dpu_format_ext(format,
modifiers);
if (fmt)
return &fmt->base;
return NULL;
}