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Based on 1 normalized pattern(s): this software is licensed under the terms of the gnu general public license version 2 as published by the free software foundation and may be copied distributed and modified under those terms this program is distributed in the hope that it will be useful but without any warranty without even the implied warranty of merchantability or fitness for a particular purpose see the gnu general public license for more details extracted by the scancode license scanner the SPDX license identifier GPL-2.0-only has been chosen to replace the boilerplate/reference in 285 file(s). Signed-off-by: Thomas Gleixner <tglx@linutronix.de> Reviewed-by: Alexios Zavras <alexios.zavras@intel.com> Reviewed-by: Allison Randal <allison@lohutok.net> Cc: linux-spdx@vger.kernel.org Link: https://lkml.kernel.org/r/20190529141900.642774971@linutronix.de Signed-off-by: Greg Kroah-Hartman <gregkh@linuxfoundation.org>
414 lines
11 KiB
C
414 lines
11 KiB
C
// SPDX-License-Identifier: GPL-2.0-only
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/*
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* Copyright (C) Fuzhou Rockchip Electronics Co.Ltd
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* Author: Jacob Chen <jacob-chen@iotwrt.com>
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*/
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#include <linux/pm_runtime.h>
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#include "rga-hw.h"
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#include "rga.h"
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enum e_rga_start_pos {
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LT = 0,
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LB = 1,
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RT = 2,
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RB = 3,
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};
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struct rga_addr_offset {
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unsigned int y_off;
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unsigned int u_off;
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unsigned int v_off;
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};
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struct rga_corners_addr_offset {
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struct rga_addr_offset left_top;
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struct rga_addr_offset right_top;
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struct rga_addr_offset left_bottom;
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struct rga_addr_offset right_bottom;
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};
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static unsigned int rga_get_scaling(unsigned int src, unsigned int dst)
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{
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/*
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* The rga hw scaling factor is a normalized inverse of the
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* scaling factor.
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* For example: When source width is 100 and destination width is 200
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* (scaling of 2x), then the hw factor is NC * 100 / 200.
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* The normalization factor (NC) is 2^16 = 0x10000.
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*/
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return (src > dst) ? ((dst << 16) / src) : ((src << 16) / dst);
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}
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static struct rga_corners_addr_offset
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rga_get_addr_offset(struct rga_frame *frm, unsigned int x, unsigned int y,
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unsigned int w, unsigned int h)
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{
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struct rga_corners_addr_offset offsets;
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struct rga_addr_offset *lt, *lb, *rt, *rb;
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unsigned int x_div = 0,
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y_div = 0, uv_stride = 0, pixel_width = 0, uv_factor = 0;
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lt = &offsets.left_top;
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lb = &offsets.left_bottom;
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rt = &offsets.right_top;
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rb = &offsets.right_bottom;
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x_div = frm->fmt->x_div;
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y_div = frm->fmt->y_div;
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uv_factor = frm->fmt->uv_factor;
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uv_stride = frm->stride / x_div;
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pixel_width = frm->stride / frm->width;
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lt->y_off = y * frm->stride + x * pixel_width;
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lt->u_off =
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frm->width * frm->height + (y / y_div) * uv_stride + x / x_div;
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lt->v_off = lt->u_off + frm->width * frm->height / uv_factor;
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lb->y_off = lt->y_off + (h - 1) * frm->stride;
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lb->u_off = lt->u_off + (h / y_div - 1) * uv_stride;
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lb->v_off = lt->v_off + (h / y_div - 1) * uv_stride;
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rt->y_off = lt->y_off + (w - 1) * pixel_width;
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rt->u_off = lt->u_off + w / x_div - 1;
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rt->v_off = lt->v_off + w / x_div - 1;
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rb->y_off = lb->y_off + (w - 1) * pixel_width;
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rb->u_off = lb->u_off + w / x_div - 1;
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rb->v_off = lb->v_off + w / x_div - 1;
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return offsets;
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}
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static struct rga_addr_offset *rga_lookup_draw_pos(struct
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rga_corners_addr_offset
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* offsets, u32 rotate_mode,
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u32 mirr_mode)
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{
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static enum e_rga_start_pos rot_mir_point_matrix[4][4] = {
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{
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LT, RT, LB, RB,
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},
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{
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RT, LT, RB, LB,
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},
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{
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RB, LB, RT, LT,
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},
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{
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LB, RB, LT, RT,
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},
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};
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if (!offsets)
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return NULL;
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switch (rot_mir_point_matrix[rotate_mode][mirr_mode]) {
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case LT:
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return &offsets->left_top;
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case LB:
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return &offsets->left_bottom;
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case RT:
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return &offsets->right_top;
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case RB:
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return &offsets->right_bottom;
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}
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return NULL;
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}
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static void rga_cmd_set_src_addr(struct rga_ctx *ctx, void *mmu_pages)
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{
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struct rockchip_rga *rga = ctx->rga;
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u32 *dest = rga->cmdbuf_virt;
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unsigned int reg;
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reg = RGA_MMU_SRC_BASE - RGA_MODE_BASE_REG;
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dest[reg >> 2] = virt_to_phys(mmu_pages) >> 4;
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reg = RGA_MMU_CTRL1 - RGA_MODE_BASE_REG;
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dest[reg >> 2] |= 0x7;
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}
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static void rga_cmd_set_src1_addr(struct rga_ctx *ctx, void *mmu_pages)
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{
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struct rockchip_rga *rga = ctx->rga;
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u32 *dest = rga->cmdbuf_virt;
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unsigned int reg;
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reg = RGA_MMU_SRC1_BASE - RGA_MODE_BASE_REG;
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dest[reg >> 2] = virt_to_phys(mmu_pages) >> 4;
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reg = RGA_MMU_CTRL1 - RGA_MODE_BASE_REG;
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dest[reg >> 2] |= 0x7 << 4;
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}
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static void rga_cmd_set_dst_addr(struct rga_ctx *ctx, void *mmu_pages)
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{
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struct rockchip_rga *rga = ctx->rga;
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u32 *dest = rga->cmdbuf_virt;
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unsigned int reg;
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reg = RGA_MMU_DST_BASE - RGA_MODE_BASE_REG;
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dest[reg >> 2] = virt_to_phys(mmu_pages) >> 4;
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reg = RGA_MMU_CTRL1 - RGA_MODE_BASE_REG;
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dest[reg >> 2] |= 0x7 << 8;
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}
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static void rga_cmd_set_trans_info(struct rga_ctx *ctx)
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{
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struct rockchip_rga *rga = ctx->rga;
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u32 *dest = rga->cmdbuf_virt;
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unsigned int scale_dst_w, scale_dst_h;
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unsigned int src_h, src_w, src_x, src_y, dst_h, dst_w, dst_x, dst_y;
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union rga_src_info src_info;
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union rga_dst_info dst_info;
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union rga_src_x_factor x_factor;
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union rga_src_y_factor y_factor;
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union rga_src_vir_info src_vir_info;
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union rga_src_act_info src_act_info;
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union rga_dst_vir_info dst_vir_info;
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union rga_dst_act_info dst_act_info;
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struct rga_addr_offset *dst_offset;
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struct rga_corners_addr_offset offsets;
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struct rga_corners_addr_offset src_offsets;
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src_h = ctx->in.crop.height;
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src_w = ctx->in.crop.width;
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src_x = ctx->in.crop.left;
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src_y = ctx->in.crop.top;
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dst_h = ctx->out.crop.height;
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dst_w = ctx->out.crop.width;
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dst_x = ctx->out.crop.left;
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dst_y = ctx->out.crop.top;
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src_info.val = dest[(RGA_SRC_INFO - RGA_MODE_BASE_REG) >> 2];
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dst_info.val = dest[(RGA_DST_INFO - RGA_MODE_BASE_REG) >> 2];
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x_factor.val = dest[(RGA_SRC_X_FACTOR - RGA_MODE_BASE_REG) >> 2];
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y_factor.val = dest[(RGA_SRC_Y_FACTOR - RGA_MODE_BASE_REG) >> 2];
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src_vir_info.val = dest[(RGA_SRC_VIR_INFO - RGA_MODE_BASE_REG) >> 2];
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src_act_info.val = dest[(RGA_SRC_ACT_INFO - RGA_MODE_BASE_REG) >> 2];
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dst_vir_info.val = dest[(RGA_DST_VIR_INFO - RGA_MODE_BASE_REG) >> 2];
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dst_act_info.val = dest[(RGA_DST_ACT_INFO - RGA_MODE_BASE_REG) >> 2];
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src_info.data.format = ctx->in.fmt->hw_format;
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src_info.data.swap = ctx->in.fmt->color_swap;
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dst_info.data.format = ctx->out.fmt->hw_format;
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dst_info.data.swap = ctx->out.fmt->color_swap;
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if (ctx->in.fmt->hw_format >= RGA_COLOR_FMT_YUV422SP) {
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if (ctx->out.fmt->hw_format < RGA_COLOR_FMT_YUV422SP) {
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switch (ctx->in.colorspace) {
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case V4L2_COLORSPACE_REC709:
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src_info.data.csc_mode =
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RGA_SRC_CSC_MODE_BT709_R0;
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break;
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default:
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src_info.data.csc_mode =
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RGA_SRC_CSC_MODE_BT601_R0;
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break;
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}
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}
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}
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if (ctx->out.fmt->hw_format >= RGA_COLOR_FMT_YUV422SP) {
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switch (ctx->out.colorspace) {
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case V4L2_COLORSPACE_REC709:
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dst_info.data.csc_mode = RGA_SRC_CSC_MODE_BT709_R0;
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break;
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default:
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dst_info.data.csc_mode = RGA_DST_CSC_MODE_BT601_R0;
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break;
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}
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}
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if (ctx->vflip)
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src_info.data.mir_mode |= RGA_SRC_MIRR_MODE_X;
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if (ctx->hflip)
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src_info.data.mir_mode |= RGA_SRC_MIRR_MODE_Y;
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switch (ctx->rotate) {
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case 90:
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src_info.data.rot_mode = RGA_SRC_ROT_MODE_90_DEGREE;
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break;
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case 180:
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src_info.data.rot_mode = RGA_SRC_ROT_MODE_180_DEGREE;
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break;
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case 270:
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src_info.data.rot_mode = RGA_SRC_ROT_MODE_270_DEGREE;
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break;
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default:
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src_info.data.rot_mode = RGA_SRC_ROT_MODE_0_DEGREE;
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break;
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}
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/*
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* Calculate the up/down scaling mode/factor.
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*
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* RGA used to scale the picture first, and then rotate second,
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* so we need to swap the w/h when rotate degree is 90/270.
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*/
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if (src_info.data.rot_mode == RGA_SRC_ROT_MODE_90_DEGREE ||
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src_info.data.rot_mode == RGA_SRC_ROT_MODE_270_DEGREE) {
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if (rga->version.major == 0 || rga->version.minor == 0) {
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if (dst_w == src_h)
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src_h -= 8;
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if (abs(src_w - dst_h) < 16)
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src_w -= 16;
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}
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scale_dst_h = dst_w;
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scale_dst_w = dst_h;
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} else {
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scale_dst_w = dst_w;
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scale_dst_h = dst_h;
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}
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if (src_w == scale_dst_w) {
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src_info.data.hscl_mode = RGA_SRC_HSCL_MODE_NO;
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x_factor.val = 0;
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} else if (src_w > scale_dst_w) {
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src_info.data.hscl_mode = RGA_SRC_HSCL_MODE_DOWN;
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x_factor.data.down_scale_factor =
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rga_get_scaling(src_w, scale_dst_w) + 1;
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} else {
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src_info.data.hscl_mode = RGA_SRC_HSCL_MODE_UP;
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x_factor.data.up_scale_factor =
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rga_get_scaling(src_w - 1, scale_dst_w - 1);
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}
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if (src_h == scale_dst_h) {
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src_info.data.vscl_mode = RGA_SRC_VSCL_MODE_NO;
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y_factor.val = 0;
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} else if (src_h > scale_dst_h) {
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src_info.data.vscl_mode = RGA_SRC_VSCL_MODE_DOWN;
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y_factor.data.down_scale_factor =
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rga_get_scaling(src_h, scale_dst_h) + 1;
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} else {
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src_info.data.vscl_mode = RGA_SRC_VSCL_MODE_UP;
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y_factor.data.up_scale_factor =
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rga_get_scaling(src_h - 1, scale_dst_h - 1);
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}
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/*
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* Calculate the framebuffer virtual strides and active size,
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* note that the step of vir_stride / vir_width is 4 byte words
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*/
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src_vir_info.data.vir_stride = ctx->in.stride >> 2;
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src_vir_info.data.vir_width = ctx->in.stride >> 2;
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src_act_info.data.act_height = src_h - 1;
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src_act_info.data.act_width = src_w - 1;
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dst_vir_info.data.vir_stride = ctx->out.stride >> 2;
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dst_act_info.data.act_height = dst_h - 1;
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dst_act_info.data.act_width = dst_w - 1;
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/*
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* Calculate the source framebuffer base address with offset pixel.
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*/
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src_offsets = rga_get_addr_offset(&ctx->in, src_x, src_y,
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src_w, src_h);
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/*
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* Configure the dest framebuffer base address with pixel offset.
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*/
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offsets = rga_get_addr_offset(&ctx->out, dst_x, dst_y, dst_w, dst_h);
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dst_offset = rga_lookup_draw_pos(&offsets, src_info.data.rot_mode,
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src_info.data.mir_mode);
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dest[(RGA_SRC_Y_RGB_BASE_ADDR - RGA_MODE_BASE_REG) >> 2] =
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src_offsets.left_top.y_off;
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dest[(RGA_SRC_CB_BASE_ADDR - RGA_MODE_BASE_REG) >> 2] =
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src_offsets.left_top.u_off;
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dest[(RGA_SRC_CR_BASE_ADDR - RGA_MODE_BASE_REG) >> 2] =
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src_offsets.left_top.v_off;
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dest[(RGA_SRC_X_FACTOR - RGA_MODE_BASE_REG) >> 2] = x_factor.val;
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dest[(RGA_SRC_Y_FACTOR - RGA_MODE_BASE_REG) >> 2] = y_factor.val;
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dest[(RGA_SRC_VIR_INFO - RGA_MODE_BASE_REG) >> 2] = src_vir_info.val;
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dest[(RGA_SRC_ACT_INFO - RGA_MODE_BASE_REG) >> 2] = src_act_info.val;
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dest[(RGA_SRC_INFO - RGA_MODE_BASE_REG) >> 2] = src_info.val;
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dest[(RGA_DST_Y_RGB_BASE_ADDR - RGA_MODE_BASE_REG) >> 2] =
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dst_offset->y_off;
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dest[(RGA_DST_CB_BASE_ADDR - RGA_MODE_BASE_REG) >> 2] =
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dst_offset->u_off;
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dest[(RGA_DST_CR_BASE_ADDR - RGA_MODE_BASE_REG) >> 2] =
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dst_offset->v_off;
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dest[(RGA_DST_VIR_INFO - RGA_MODE_BASE_REG) >> 2] = dst_vir_info.val;
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dest[(RGA_DST_ACT_INFO - RGA_MODE_BASE_REG) >> 2] = dst_act_info.val;
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dest[(RGA_DST_INFO - RGA_MODE_BASE_REG) >> 2] = dst_info.val;
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}
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static void rga_cmd_set_mode(struct rga_ctx *ctx)
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{
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struct rockchip_rga *rga = ctx->rga;
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u32 *dest = rga->cmdbuf_virt;
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union rga_mode_ctrl mode;
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union rga_alpha_ctrl0 alpha_ctrl0;
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union rga_alpha_ctrl1 alpha_ctrl1;
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mode.val = 0;
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alpha_ctrl0.val = 0;
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alpha_ctrl1.val = 0;
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mode.data.gradient_sat = 1;
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mode.data.render = RGA_MODE_RENDER_BITBLT;
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mode.data.bitblt = RGA_MODE_BITBLT_MODE_SRC_TO_DST;
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/* disable alpha blending */
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dest[(RGA_ALPHA_CTRL0 - RGA_MODE_BASE_REG) >> 2] = alpha_ctrl0.val;
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dest[(RGA_ALPHA_CTRL1 - RGA_MODE_BASE_REG) >> 2] = alpha_ctrl1.val;
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dest[(RGA_MODE_CTRL - RGA_MODE_BASE_REG) >> 2] = mode.val;
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}
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static void rga_cmd_set(struct rga_ctx *ctx)
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{
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struct rockchip_rga *rga = ctx->rga;
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memset(rga->cmdbuf_virt, 0, RGA_CMDBUF_SIZE * 4);
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rga_cmd_set_src_addr(ctx, rga->src_mmu_pages);
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/*
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* Due to hardware bug,
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* src1 mmu also should be configured when using alpha blending.
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*/
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rga_cmd_set_src1_addr(ctx, rga->dst_mmu_pages);
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rga_cmd_set_dst_addr(ctx, rga->dst_mmu_pages);
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rga_cmd_set_mode(ctx);
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rga_cmd_set_trans_info(ctx);
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rga_write(rga, RGA_CMD_BASE, rga->cmdbuf_phy);
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/* sync CMD buf for RGA */
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dma_sync_single_for_device(rga->dev, rga->cmdbuf_phy,
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PAGE_SIZE, DMA_BIDIRECTIONAL);
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}
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void rga_hw_start(struct rockchip_rga *rga)
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{
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struct rga_ctx *ctx = rga->curr;
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rga_cmd_set(ctx);
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rga_write(rga, RGA_SYS_CTRL, 0x00);
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rga_write(rga, RGA_SYS_CTRL, 0x22);
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rga_write(rga, RGA_INT, 0x600);
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rga_write(rga, RGA_CMD_CTRL, 0x1);
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}
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