[media] v4l: ti-vpe: enable basic scaler support
Add the required SC register configurations which lets us perform linear scaling for the supported range of horizontal and vertical scaling ratios. The horizontal scaler performs polyphase scaling using it's 8 tap 32 phase filter, decimation is performed when downscaling passes beyond 2x or 4x. The vertical scaler performs polyphase scaling using it's 5 tap 32 phase filter, it switches to a simpler form of scaling using the running average filter when the downscale ratio is more than 4x. Many of the SC features like peaking, trimming and non-linear scaling aren't implemented for now. Only the minimal register fields required for basic scaling operation are configured. The function to configure SC registers takes the sc_data handle, the source and destination widths and heights, and the scaler address data block offsets for the current context so that they can be configured. Signed-off-by: Archit Taneja <archit@ti.com> Signed-off-by: Hans Verkuil <hans.verkuil@cisco.com> Signed-off-by: Mauro Carvalho Chehab <m.chehab@samsung.com>
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@ -20,11 +20,6 @@
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#include "sc.h"
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#include "sc_coeff.h"
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void sc_set_regs_bypass(struct sc_data *sc, u32 *sc_reg0)
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{
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*sc_reg0 |= CFG_SC_BYPASS;
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}
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void sc_dump_regs(struct sc_data *sc)
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{
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struct device *dev = &sc->pdev->dev;
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@ -159,6 +154,133 @@ void sc_set_vs_coeffs(struct sc_data *sc, void *addr, unsigned int src_h,
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sc->load_coeff_v = true;
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}
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void sc_config_scaler(struct sc_data *sc, u32 *sc_reg0, u32 *sc_reg8,
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u32 *sc_reg17, unsigned int src_w, unsigned int src_h,
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unsigned int dst_w, unsigned int dst_h)
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{
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struct device *dev = &sc->pdev->dev;
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u32 val;
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int dcm_x, dcm_shift;
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bool use_rav;
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unsigned long lltmp;
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u32 lin_acc_inc, lin_acc_inc_u;
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u32 col_acc_offset;
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u16 factor = 0;
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int row_acc_init_rav = 0, row_acc_init_rav_b = 0;
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u32 row_acc_inc = 0, row_acc_offset = 0, row_acc_offset_b = 0;
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/*
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* location of SC register in payload memory with respect to the first
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* register in the mmr address data block
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*/
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u32 *sc_reg9 = sc_reg8 + 1;
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u32 *sc_reg12 = sc_reg8 + 4;
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u32 *sc_reg13 = sc_reg8 + 5;
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u32 *sc_reg24 = sc_reg17 + 7;
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val = sc_reg0[0];
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/* clear all the features(they may get enabled elsewhere later) */
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val &= ~(CFG_SELFGEN_FID | CFG_TRIM | CFG_ENABLE_SIN2_VER_INTP |
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CFG_INTERLACE_I | CFG_DCM_4X | CFG_DCM_2X | CFG_AUTO_HS |
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CFG_ENABLE_EV | CFG_USE_RAV | CFG_INVT_FID | CFG_SC_BYPASS |
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CFG_INTERLACE_O | CFG_Y_PK_EN | CFG_HP_BYPASS | CFG_LINEAR);
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if (src_w == dst_w && src_h == dst_h) {
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val |= CFG_SC_BYPASS;
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sc_reg0[0] = val;
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return;
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}
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/* we only support linear scaling for now */
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val |= CFG_LINEAR;
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/* configure horizontal scaler */
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/* enable 2X or 4X decimation */
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dcm_x = src_w / dst_w;
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if (dcm_x > 4) {
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val |= CFG_DCM_4X;
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dcm_shift = 2;
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} else if (dcm_x > 2) {
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val |= CFG_DCM_2X;
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dcm_shift = 1;
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} else {
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dcm_shift = 0;
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}
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lltmp = dst_w - 1;
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lin_acc_inc = div64_u64(((u64)(src_w >> dcm_shift) - 1) << 24, lltmp);
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lin_acc_inc_u = 0;
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col_acc_offset = 0;
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dev_dbg(dev, "hs config: src_w = %d, dst_w = %d, decimation = %s, lin_acc_inc = %08x\n",
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src_w, dst_w, dcm_shift == 2 ? "4x" :
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(dcm_shift == 1 ? "2x" : "none"), lin_acc_inc);
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/* configure vertical scaler */
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/* use RAV for vertical scaler if vertical downscaling is > 4x */
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if (dst_h < (src_h >> 2)) {
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use_rav = true;
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val |= CFG_USE_RAV;
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} else {
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use_rav = false;
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}
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if (use_rav) {
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/* use RAV */
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factor = (u16) ((dst_h << 10) / src_h);
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row_acc_init_rav = factor + ((1 + factor) >> 1);
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if (row_acc_init_rav >= 1024)
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row_acc_init_rav -= 1024;
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row_acc_init_rav_b = row_acc_init_rav +
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(1 + (row_acc_init_rav >> 1)) -
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(1024 >> 1);
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if (row_acc_init_rav_b < 0) {
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row_acc_init_rav_b += row_acc_init_rav;
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row_acc_init_rav *= 2;
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}
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dev_dbg(dev, "vs config(RAV): src_h = %d, dst_h = %d, factor = %d, acc_init = %08x, acc_init_b = %08x\n",
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src_h, dst_h, factor, row_acc_init_rav,
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row_acc_init_rav_b);
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} else {
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/* use polyphase */
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row_acc_inc = ((src_h - 1) << 16) / (dst_h - 1);
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row_acc_offset = 0;
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row_acc_offset_b = 0;
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dev_dbg(dev, "vs config(POLY): src_h = %d, dst_h = %d,row_acc_inc = %08x\n",
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src_h, dst_h, row_acc_inc);
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}
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sc_reg0[0] = val;
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sc_reg0[1] = row_acc_inc;
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sc_reg0[2] = row_acc_offset;
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sc_reg0[3] = row_acc_offset_b;
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sc_reg0[4] = ((lin_acc_inc_u & CFG_LIN_ACC_INC_U_MASK) <<
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CFG_LIN_ACC_INC_U_SHIFT) | (dst_w << CFG_TAR_W_SHIFT) |
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(dst_h << CFG_TAR_H_SHIFT);
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sc_reg0[5] = (src_w << CFG_SRC_W_SHIFT) | (src_h << CFG_SRC_H_SHIFT);
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sc_reg0[6] = (row_acc_init_rav_b << CFG_ROW_ACC_INIT_RAV_B_SHIFT) |
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(row_acc_init_rav << CFG_ROW_ACC_INIT_RAV_SHIFT);
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*sc_reg9 = lin_acc_inc;
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*sc_reg12 = col_acc_offset << CFG_COL_ACC_OFFSET_SHIFT;
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*sc_reg13 = factor;
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*sc_reg24 = (src_w << CFG_ORG_W_SHIFT) | (src_h << CFG_ORG_H_SHIFT);
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}
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struct sc_data *sc_create(struct platform_device *pdev)
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{
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struct sc_data *sc;
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@ -195,12 +195,14 @@ struct sc_data {
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struct platform_device *pdev;
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};
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void sc_set_regs_bypass(struct sc_data *sc, u32 *sc_reg0);
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void sc_dump_regs(struct sc_data *sc);
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void sc_set_hs_coeffs(struct sc_data *sc, void *addr, unsigned int src_w,
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unsigned int dst_w);
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void sc_set_vs_coeffs(struct sc_data *sc, void *addr, unsigned int src_h,
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unsigned int dst_h);
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void sc_config_scaler(struct sc_data *sc, u32 *sc_reg0, u32 *sc_reg8,
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u32 *sc_reg17, unsigned int src_w, unsigned int src_h,
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unsigned int dst_w, unsigned int dst_h);
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struct sc_data *sc_create(struct platform_device *pdev);
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#endif
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@ -440,9 +440,15 @@ struct vpe_mmr_adb {
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u32 us3_regs[8];
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struct vpdma_adb_hdr dei_hdr;
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u32 dei_regs[8];
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struct vpdma_adb_hdr sc_hdr;
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u32 sc_regs[1];
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u32 sc_pad[3];
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struct vpdma_adb_hdr sc_hdr0;
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u32 sc_regs0[7];
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u32 sc_pad0[1];
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struct vpdma_adb_hdr sc_hdr8;
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u32 sc_regs8[6];
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u32 sc_pad8[2];
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struct vpdma_adb_hdr sc_hdr17;
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u32 sc_regs17[9];
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u32 sc_pad17[3];
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struct vpdma_adb_hdr csc_hdr;
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u32 csc_regs[6];
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u32 csc_pad[2];
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@ -463,8 +469,12 @@ static void init_adb_hdrs(struct vpe_ctx *ctx)
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VPE_SET_MMR_ADB_HDR(ctx, us2_hdr, us2_regs, VPE_US2_R0);
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VPE_SET_MMR_ADB_HDR(ctx, us3_hdr, us3_regs, VPE_US3_R0);
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VPE_SET_MMR_ADB_HDR(ctx, dei_hdr, dei_regs, VPE_DEI_FRAME_SIZE);
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VPE_SET_MMR_ADB_HDR(ctx, sc_hdr, sc_regs,
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VPE_SET_MMR_ADB_HDR(ctx, sc_hdr0, sc_regs0,
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GET_OFFSET_TOP(ctx, ctx->dev->sc, CFG_SC0));
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VPE_SET_MMR_ADB_HDR(ctx, sc_hdr8, sc_regs8,
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GET_OFFSET_TOP(ctx, ctx->dev->sc, CFG_SC8));
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VPE_SET_MMR_ADB_HDR(ctx, sc_hdr17, sc_regs17,
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GET_OFFSET_TOP(ctx, ctx->dev->sc, CFG_SC17));
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VPE_SET_MMR_ADB_HDR(ctx, csc_hdr, csc_regs, VPE_CSC_CSC00);
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};
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@ -810,9 +820,13 @@ static int set_srcdst_params(struct vpe_ctx *ctx)
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set_cfg_and_line_modes(ctx);
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set_dei_regs(ctx);
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set_csc_coeff_bypass(ctx);
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sc_set_hs_coeffs(ctx->dev->sc, ctx->sc_coeff_h.addr, src_w, dst_w);
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sc_set_vs_coeffs(ctx->dev->sc, ctx->sc_coeff_v.addr, src_h, dst_h);
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sc_set_regs_bypass(ctx->dev->sc, &mmr_adb->sc_regs[0]);
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sc_config_scaler(ctx->dev->sc, &mmr_adb->sc_regs0[0],
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&mmr_adb->sc_regs8[0], &mmr_adb->sc_regs17[0],
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src_w, src_h, dst_w, dst_h);
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return 0;
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}
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