drm/amd/display: Update FMT and OPPBUF functions
Updates to FMT and OPPBUF programming from HW team pseudocode review. Signed-off-by: Eric Bernstein <eric.bernstein@amd.com> Reviewed-by: Tony Cheng <Tony.Cheng@amd.com> Acked-by: Harry Wentland <harry.wentland@amd.com> Signed-off-by: Alex Deucher <alexander.deucher@amd.com>
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@ -462,9 +462,6 @@ static enum dc_status dcn10_prog_pixclk_crtc_otg(
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struct dc_stream_state *stream = pipe_ctx->stream;
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enum dc_color_space color_space;
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struct tg_color black_color = {0};
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bool enableStereo = stream->timing.timing_3d_format == TIMING_3D_FORMAT_NONE ?
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false:true;
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bool rightEyePolarity = stream->timing.flags.RIGHT_EYE_3D_POLARITY;
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/* by upper caller loop, pipe0 is parent pipe and be called first.
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* back end is set up by for pipe0. Other children pipe share back end
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@ -499,11 +496,6 @@ static enum dc_status dcn10_prog_pixclk_crtc_otg(
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&stream->timing,
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true);
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pipe_ctx->stream_res.opp->funcs->opp_set_stereo_polarity(
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pipe_ctx->stream_res.opp,
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enableStereo,
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rightEyePolarity);
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#if 0 /* move to after enable_crtc */
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/* TODO: OPP FMT, ABM. etc. should be done here. */
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/* or FPGA now. instance 0 only. TODO: move to opp.c */
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@ -2251,10 +2243,10 @@ static void dcn10_setup_stereo(struct pipe_ctx *pipe_ctx, struct dc *dc)
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dcn10_config_stereo_parameters(stream, &flags);
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pipe_ctx->stream_res.opp->funcs->opp_set_stereo_polarity(
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pipe_ctx->stream_res.opp->funcs->opp_program_stereo(
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pipe_ctx->stream_res.opp,
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flags.PROGRAM_STEREO == 1 ? true:false,
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stream->timing.flags.RIGHT_EYE_3D_POLARITY == 1 ? true:false);
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&stream->timing);
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pipe_ctx->stream_res.tg->funcs->program_stereo(
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pipe_ctx->stream_res.tg,
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@ -296,13 +296,75 @@ void opp1_program_fmt(
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return;
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}
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void opp1_set_stereo_polarity(
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void opp1_program_stereo(
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struct output_pixel_processor *opp,
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bool enable, bool rightEyePolarity)
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bool enable,
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const struct dc_crtc_timing *timing)
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{
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struct dcn10_opp *oppn10 = TO_DCN10_OPP(opp);
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REG_UPDATE(FMT_CONTROL, FMT_STEREOSYNC_OVERRIDE, enable);
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uint32_t active_width = timing->h_addressable - timing->h_border_right - timing->h_border_right;
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uint32_t space1_size = timing->v_total - timing->v_addressable;
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/* TODO: confirm computation of space2_size */
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uint32_t space2_size = timing->v_total - timing->v_addressable;
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if (!enable) {
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active_width = 0;
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space1_size = 0;
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space2_size = 0;
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}
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/* TODO: for which cases should FMT_STEREOSYNC_OVERRIDE be set? */
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REG_UPDATE(FMT_CONTROL, FMT_STEREOSYNC_OVERRIDE, 0);
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REG_UPDATE(OPPBUF_CONTROL, OPPBUF_ACTIVE_WIDTH, active_width);
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/* Program OPPBUF_3D_VACT_SPACE1_SIZE and OPPBUF_VACT_SPACE2_SIZE registers
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* In 3D progressive frames, Vactive space happens only in between the 2 frames,
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* so only need to program OPPBUF_3D_VACT_SPACE1_SIZE
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* In 3D alternative frames, left and right frames, top and bottom field.
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*/
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if (timing->timing_3d_format == TIMING_3D_FORMAT_FRAME_ALTERNATE)
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REG_UPDATE(OPPBUF_3D_PARAMETERS_0, OPPBUF_3D_VACT_SPACE2_SIZE, space2_size);
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else
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REG_UPDATE(OPPBUF_3D_PARAMETERS_0, OPPBUF_3D_VACT_SPACE1_SIZE, space1_size);
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/* TODO: Is programming of OPPBUF_DUMMY_DATA_R/G/B needed? */
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/*
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REG_UPDATE(OPPBUF_3D_PARAMETERS_0,
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OPPBUF_DUMMY_DATA_R, data_r);
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REG_UPDATE(OPPBUF_3D_PARAMETERS_1,
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OPPBUF_DUMMY_DATA_G, data_g);
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REG_UPDATE(OPPBUF_3D_PARAMETERS_1,
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OPPBUF_DUMMY_DATA_B, _data_b);
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*/
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}
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void opp1_program_oppbuf(
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struct output_pixel_processor *opp,
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struct oppbuf_params *oppbuf)
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{
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struct dcn10_opp *oppn10 = TO_DCN10_OPP(opp);
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/* Program the oppbuf active width to be the frame width from mpc */
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REG_UPDATE(OPPBUF_CONTROL, OPPBUF_ACTIVE_WIDTH, oppbuf->active_width);
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/* Specifies the number of segments in multi-segment mode (DP-MSO operation)
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* description "In 1/2/4 segment mode, specifies the horizontal active width in pixels of the display panel.
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* In 4 segment split left/right mode, specifies the horizontal 1/2 active width in pixels of the display panel.
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* Used to determine segment boundaries in multi-segment mode. Used to determine the width of the vertical active space in 3D frame packed modes.
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* OPPBUF_ACTIVE_WIDTH must be integer divisible by the total number of segments."
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*/
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REG_UPDATE(OPPBUF_CONTROL, OPPBUF_DISPLAY_SEGMENTATION, oppbuf->mso_segmentation);
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/* description "Specifies the number of overlap pixels (1-8 overlapping pixels supported), used in multi-segment mode (DP-MSO operation)" */
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REG_UPDATE(OPPBUF_CONTROL, OPPBUF_OVERLAP_PIXEL_NUM, oppbuf->mso_overlap_pixel_num);
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/* description "Specifies the number of times a pixel is replicated (0-15 pixel replications supported).
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* A value of 0 disables replication. The total number of times a pixel is output is OPPBUF_PIXEL_REPETITION + 1."
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*/
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REG_UPDATE(OPPBUF_CONTROL, OPPBUF_PIXEL_REPETITION, oppbuf->pixel_repetition);
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}
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/*****************************************/
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@ -319,7 +381,7 @@ static struct opp_funcs dcn10_opp_funcs = {
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.opp_set_dyn_expansion = opp1_set_dyn_expansion,
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.opp_program_fmt = opp1_program_fmt,
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.opp_program_bit_depth_reduction = opp1_program_bit_depth_reduction,
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.opp_set_stereo_polarity = opp1_set_stereo_polarity,
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.opp_program_stereo = opp1_program_stereo,
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.opp_destroy = opp1_destroy
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};
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@ -41,7 +41,10 @@
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SRI(FMT_DITHER_RAND_B_SEED, FMT, id), \
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SRI(FMT_CLAMP_CNTL, FMT, id), \
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SRI(FMT_DYNAMIC_EXP_CNTL, FMT, id), \
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SRI(FMT_MAP420_MEMORY_CONTROL, FMT, id)
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SRI(FMT_MAP420_MEMORY_CONTROL, FMT, id), \
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SRI(OPPBUF_CONTROL, OPPBUF, id),\
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SRI(OPPBUF_3D_PARAMETERS_0, OPPBUF, id), \
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SRI(OPPBUF_3D_PARAMETERS_1, OPPBUF, id)
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#define OPP_REG_LIST_DCN10(id) \
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OPP_REG_LIST_DCN(id)
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@ -54,7 +57,11 @@
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uint32_t FMT_DITHER_RAND_B_SEED; \
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uint32_t FMT_CLAMP_CNTL; \
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uint32_t FMT_DYNAMIC_EXP_CNTL; \
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uint32_t FMT_MAP420_MEMORY_CONTROL;
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uint32_t FMT_MAP420_MEMORY_CONTROL; \
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uint32_t OPPBUF_CONTROL; \
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uint32_t OPPBUF_CONTROL1; \
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uint32_t OPPBUF_3D_PARAMETERS_0; \
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uint32_t OPPBUF_3D_PARAMETERS_1
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#define OPP_MASK_SH_LIST_DCN(mask_sh) \
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OPP_SF(FMT0_FMT_BIT_DEPTH_CONTROL, FMT_TRUNCATE_EN, mask_sh), \
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@ -78,10 +85,16 @@
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OPP_SF(FMT0_FMT_CLAMP_CNTL, FMT_CLAMP_COLOR_FORMAT, mask_sh), \
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OPP_SF(FMT0_FMT_DYNAMIC_EXP_CNTL, FMT_DYNAMIC_EXP_EN, mask_sh), \
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OPP_SF(FMT0_FMT_DYNAMIC_EXP_CNTL, FMT_DYNAMIC_EXP_MODE, mask_sh), \
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OPP_SF(FMT0_FMT_MAP420_MEMORY_CONTROL, FMT_MAP420MEM_PWR_FORCE, mask_sh)
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OPP_SF(FMT0_FMT_MAP420_MEMORY_CONTROL, FMT_MAP420MEM_PWR_FORCE, mask_sh), \
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OPP_SF(OPPBUF0_OPPBUF_CONTROL, OPPBUF_ACTIVE_WIDTH, mask_sh),\
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OPP_SF(OPPBUF0_OPPBUF_CONTROL, OPPBUF_PIXEL_REPETITION, mask_sh),\
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OPP_SF(OPPBUF0_OPPBUF_3D_PARAMETERS_0, OPPBUF_3D_VACT_SPACE1_SIZE, mask_sh), \
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OPP_SF(OPPBUF0_OPPBUF_3D_PARAMETERS_0, OPPBUF_3D_VACT_SPACE2_SIZE, mask_sh)
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#define OPP_MASK_SH_LIST_DCN10(mask_sh) \
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OPP_MASK_SH_LIST_DCN(mask_sh)
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OPP_MASK_SH_LIST_DCN(mask_sh), \
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OPP_SF(OPPBUF0_OPPBUF_CONTROL, OPPBUF_DISPLAY_SEGMENTATION, mask_sh),\
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OPP_SF(OPPBUF0_OPPBUF_CONTROL, OPPBUF_OVERLAP_PIXEL_NUM, mask_sh)
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#define OPP_DCN10_REG_FIELD_LIST(type) \
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type FMT_TRUNCATE_EN; \
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@ -105,18 +118,25 @@
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type FMT_DYNAMIC_EXP_EN; \
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type FMT_DYNAMIC_EXP_MODE; \
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type FMT_MAP420MEM_PWR_FORCE; \
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type FMT_STEREOSYNC_OVERRIDE;
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type FMT_STEREOSYNC_OVERRIDE; \
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type OPPBUF_ACTIVE_WIDTH;\
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type OPPBUF_PIXEL_REPETITION;\
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type OPPBUF_DISPLAY_SEGMENTATION;\
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type OPPBUF_OVERLAP_PIXEL_NUM;\
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type OPPBUF_NUM_SEGMENT_PADDED_PIXELS; \
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type OPPBUF_3D_VACT_SPACE1_SIZE; \
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type OPPBUF_3D_VACT_SPACE2_SIZE
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struct dcn10_opp_registers {
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OPP_COMMON_REG_VARIABLE_LIST
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OPP_COMMON_REG_VARIABLE_LIST;
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};
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struct dcn10_opp_shift {
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OPP_DCN10_REG_FIELD_LIST(uint8_t)
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OPP_DCN10_REG_FIELD_LIST(uint8_t);
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};
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struct dcn10_opp_mask {
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OPP_DCN10_REG_FIELD_LIST(uint32_t)
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OPP_DCN10_REG_FIELD_LIST(uint32_t);
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};
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struct dcn10_opp {
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@ -151,9 +171,10 @@ void opp1_program_bit_depth_reduction(
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struct output_pixel_processor *opp,
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const struct bit_depth_reduction_params *params);
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void opp1_set_stereo_polarity(
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void opp1_program_stereo(
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struct output_pixel_processor *opp,
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bool enable, bool rightEyePolarity);
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bool enable,
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const struct dc_crtc_timing *timing);
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void opp1_destroy(struct output_pixel_processor **opp);
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@ -91,11 +91,6 @@ static void optc1_disable_stereo(struct timing_generator *optc)
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OTG_3D_STRUCTURE_EN, 0,
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OTG_3D_STRUCTURE_V_UPDATE_MODE, 0,
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OTG_3D_STRUCTURE_STEREO_SEL_OVR, 0);
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REG_UPDATE(OPPBUF_CONTROL,
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OPPBUF_ACTIVE_WIDTH, 0);
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REG_UPDATE(OPPBUF_3D_PARAMETERS_0,
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OPPBUF_3D_VACT_SPACE1_SIZE, 0);
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}
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/**
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@ -1078,16 +1073,11 @@ void optc1_get_crtc_scanoutpos(
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*v_position = position.vertical_count;
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}
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static void optc1_enable_stereo(struct timing_generator *optc,
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const struct dc_crtc_timing *timing, struct crtc_stereo_flags *flags)
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{
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struct optc *optc1 = DCN10TG_FROM_TG(optc);
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uint32_t active_width = timing->h_addressable;
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uint32_t space1_size = timing->v_total - timing->v_addressable;
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if (flags) {
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uint32_t stereo_en;
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stereo_en = flags->FRAME_PACKED == 0 ? 1 : 0;
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@ -1114,12 +1104,6 @@ static void optc1_enable_stereo(struct timing_generator *optc,
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OTG_3D_STRUCTURE_STEREO_SEL_OVR, flags->FRAME_PACKED);
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}
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REG_UPDATE(OPPBUF_CONTROL,
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OPPBUF_ACTIVE_WIDTH, active_width);
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REG_UPDATE(OPPBUF_3D_PARAMETERS_0,
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OPPBUF_3D_VACT_SPACE1_SIZE, space1_size);
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}
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void optc1_program_stereo(struct timing_generator *optc,
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@ -70,8 +70,6 @@
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SRI(OPTC_INPUT_CLOCK_CONTROL, ODM, inst),\
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SRI(OPTC_DATA_SOURCE_SELECT, ODM, inst),\
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SRI(OPTC_INPUT_GLOBAL_CONTROL, ODM, inst),\
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SRI(OPPBUF_CONTROL, OPPBUF, inst),\
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SRI(OPPBUF_3D_PARAMETERS_0, OPPBUF, inst),\
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SRI(CONTROL, VTG, inst),\
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SRI(OTG_VERT_SYNC_CONTROL, OTG, inst),\
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SRI(OTG_MASTER_UPDATE_MODE, OTG, inst),\
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@ -129,8 +127,6 @@ struct dcn_optc_registers {
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uint32_t OPTC_INPUT_CLOCK_CONTROL;
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uint32_t OPTC_DATA_SOURCE_SELECT;
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uint32_t OPTC_INPUT_GLOBAL_CONTROL;
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uint32_t OPPBUF_CONTROL;
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uint32_t OPPBUF_3D_PARAMETERS_0;
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uint32_t CONTROL;
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uint32_t OTG_GSL_WINDOW_X;
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uint32_t OTG_GSL_WINDOW_Y;
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@ -215,8 +211,6 @@ struct dcn_optc_registers {
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SF(ODM0_OPTC_INPUT_CLOCK_CONTROL, OPTC_INPUT_CLK_GATE_DIS, mask_sh),\
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SF(ODM0_OPTC_INPUT_GLOBAL_CONTROL, OPTC_UNDERFLOW_OCCURRED_STATUS, mask_sh),\
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SF(ODM0_OPTC_INPUT_GLOBAL_CONTROL, OPTC_UNDERFLOW_CLEAR, mask_sh),\
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SF(OPPBUF0_OPPBUF_CONTROL, OPPBUF_ACTIVE_WIDTH, mask_sh),\
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SF(OPPBUF0_OPPBUF_3D_PARAMETERS_0, OPPBUF_3D_VACT_SPACE1_SIZE, mask_sh),\
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SF(VTG0_CONTROL, VTG0_ENABLE, mask_sh),\
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SF(VTG0_CONTROL, VTG0_FP2, mask_sh),\
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SF(VTG0_CONTROL, VTG0_VCOUNT_INIT, mask_sh),\
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@ -336,8 +330,6 @@ struct dcn_optc_registers {
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type OPTC_SEG0_SRC_SEL;\
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type OPTC_UNDERFLOW_OCCURRED_STATUS;\
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type OPTC_UNDERFLOW_CLEAR;\
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type OPPBUF_ACTIVE_WIDTH;\
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type OPPBUF_3D_VACT_SPACE1_SIZE;\
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type VTG0_ENABLE;\
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type VTG0_FP2;\
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type VTG0_VCOUNT_INIT;\
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@ -249,6 +249,21 @@ enum ovl_csc_adjust_item {
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OVERLAY_COLOR_TEMPERATURE
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};
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enum oppbuf_display_segmentation {
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OPPBUF_DISPLAY_SEGMENTATION_1_SEGMENT = 0,
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OPPBUF_DISPLAY_SEGMENTATION_2_SEGMENT = 1,
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OPPBUF_DISPLAY_SEGMENTATION_4_SEGMENT = 2,
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OPPBUF_DISPLAY_SEGMENTATION_4_SEGMENT_SPLIT_LEFT = 3,
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OPPBUF_DISPLAY_SEGMENTATION_4_SEGMENT_SPLIT_RIGHT = 4
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};
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struct oppbuf_params {
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uint32_t active_width;
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enum oppbuf_display_segmentation mso_segmentation;
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uint32_t mso_overlap_pixel_num;
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uint32_t pixel_repetition;
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};
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struct opp_funcs {
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@ -277,10 +292,10 @@ struct opp_funcs {
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void (*opp_destroy)(struct output_pixel_processor **opp);
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void (*opp_set_stereo_polarity)(
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void (*opp_program_stereo)(
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struct output_pixel_processor *opp,
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bool enable,
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bool rightEyePolarity);
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const struct dc_crtc_timing *timing);
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};
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