Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
David Francis | 638 | 49.65% | 3 | 27.27% |
Manasi D Navare | 568 | 44.20% | 2 | 18.18% |
Jani Nikula | 73 | 5.68% | 2 | 18.18% |
Thomas Zimmermann | 3 | 0.23% | 2 | 18.18% |
Ville Syrjälä | 2 | 0.16% | 1 | 9.09% |
caihuoqing | 1 | 0.08% | 1 | 9.09% |
Total | 1285 | 11 |
// SPDX-License-Identifier: MIT /* * Copyright © 2018 Intel Corp * * Author: * Manasi Navare <manasi.d.navare@intel.com> */ #include <linux/kernel.h> #include <linux/module.h> #include <linux/init.h> #include <linux/errno.h> #include <linux/byteorder/generic.h> #include <drm/display/drm_dp_helper.h> #include <drm/display/drm_dsc_helper.h> #include <drm/drm_print.h> /** * DOC: dsc helpers * * VESA specification for DP 1.4 adds a new feature called Display Stream * Compression (DSC) used to compress the pixel bits before sending it on * DP/eDP/MIPI DSI interface. DSC is required to be enabled so that the existing * display interfaces can support high resolutions at higher frames rates uisng * the maximum available link capacity of these interfaces. * * These functions contain some common logic and helpers to deal with VESA * Display Stream Compression standard required for DSC on Display Port/eDP or * MIPI display interfaces. */ /** * drm_dsc_dp_pps_header_init() - Initializes the PPS Header * for DisplayPort as per the DP 1.4 spec. * @pps_header: Secondary data packet header for DSC Picture * Parameter Set as defined in &struct dp_sdp_header * * DP 1.4 spec defines the secondary data packet for sending the * picture parameter infoframes from the source to the sink. * This function populates the SDP header defined in * &struct dp_sdp_header. */ void drm_dsc_dp_pps_header_init(struct dp_sdp_header *pps_header) { memset(pps_header, 0, sizeof(*pps_header)); pps_header->HB1 = DP_SDP_PPS; pps_header->HB2 = DP_SDP_PPS_HEADER_PAYLOAD_BYTES_MINUS_1; } EXPORT_SYMBOL(drm_dsc_dp_pps_header_init); /** * drm_dsc_dp_rc_buffer_size - get rc buffer size in bytes * @rc_buffer_block_size: block size code, according to DPCD offset 62h * @rc_buffer_size: number of blocks - 1, according to DPCD offset 63h * * return: * buffer size in bytes, or 0 on invalid input */ int drm_dsc_dp_rc_buffer_size(u8 rc_buffer_block_size, u8 rc_buffer_size) { int size = 1024 * (rc_buffer_size + 1); switch (rc_buffer_block_size) { case DP_DSC_RC_BUF_BLK_SIZE_1: return 1 * size; case DP_DSC_RC_BUF_BLK_SIZE_4: return 4 * size; case DP_DSC_RC_BUF_BLK_SIZE_16: return 16 * size; case DP_DSC_RC_BUF_BLK_SIZE_64: return 64 * size; default: return 0; } } EXPORT_SYMBOL(drm_dsc_dp_rc_buffer_size); /** * drm_dsc_pps_payload_pack() - Populates the DSC PPS * * @pps_payload: * Bitwise struct for DSC Picture Parameter Set. This is defined * by &struct drm_dsc_picture_parameter_set * @dsc_cfg: * DSC Configuration data filled by driver as defined by * &struct drm_dsc_config * * DSC source device sends a picture parameter set (PPS) containing the * information required by the sink to decode the compressed frame. Driver * populates the DSC PPS struct using the DSC configuration parameters in * the order expected by the DSC Display Sink device. For the DSC, the sink * device expects the PPS payload in big endian format for fields * that span more than 1 byte. */ void drm_dsc_pps_payload_pack(struct drm_dsc_picture_parameter_set *pps_payload, const struct drm_dsc_config *dsc_cfg) { int i; /* Protect against someone accidentally changing struct size */ BUILD_BUG_ON(sizeof(*pps_payload) != DP_SDP_PPS_HEADER_PAYLOAD_BYTES_MINUS_1 + 1); memset(pps_payload, 0, sizeof(*pps_payload)); /* PPS 0 */ pps_payload->dsc_version = dsc_cfg->dsc_version_minor | dsc_cfg->dsc_version_major << DSC_PPS_VERSION_MAJOR_SHIFT; /* PPS 1, 2 is 0 */ /* PPS 3 */ pps_payload->pps_3 = dsc_cfg->line_buf_depth | dsc_cfg->bits_per_component << DSC_PPS_BPC_SHIFT; /* PPS 4 */ pps_payload->pps_4 = ((dsc_cfg->bits_per_pixel & DSC_PPS_BPP_HIGH_MASK) >> DSC_PPS_MSB_SHIFT) | dsc_cfg->vbr_enable << DSC_PPS_VBR_EN_SHIFT | dsc_cfg->simple_422 << DSC_PPS_SIMPLE422_SHIFT | dsc_cfg->convert_rgb << DSC_PPS_CONVERT_RGB_SHIFT | dsc_cfg->block_pred_enable << DSC_PPS_BLOCK_PRED_EN_SHIFT; /* PPS 5 */ pps_payload->bits_per_pixel_low = (dsc_cfg->bits_per_pixel & DSC_PPS_LSB_MASK); /* * The DSC panel expects the PPS packet to have big endian format * for data spanning 2 bytes. Use a macro cpu_to_be16() to convert * to big endian format. If format is little endian, it will swap * bytes to convert to Big endian else keep it unchanged. */ /* PPS 6, 7 */ pps_payload->pic_height = cpu_to_be16(dsc_cfg->pic_height); /* PPS 8, 9 */ pps_payload->pic_width = cpu_to_be16(dsc_cfg->pic_width); /* PPS 10, 11 */ pps_payload->slice_height = cpu_to_be16(dsc_cfg->slice_height); /* PPS 12, 13 */ pps_payload->slice_width = cpu_to_be16(dsc_cfg->slice_width); /* PPS 14, 15 */ pps_payload->chunk_size = cpu_to_be16(dsc_cfg->slice_chunk_size); /* PPS 16 */ pps_payload->initial_xmit_delay_high = ((dsc_cfg->initial_xmit_delay & DSC_PPS_INIT_XMIT_DELAY_HIGH_MASK) >> DSC_PPS_MSB_SHIFT); /* PPS 17 */ pps_payload->initial_xmit_delay_low = (dsc_cfg->initial_xmit_delay & DSC_PPS_LSB_MASK); /* PPS 18, 19 */ pps_payload->initial_dec_delay = cpu_to_be16(dsc_cfg->initial_dec_delay); /* PPS 20 is 0 */ /* PPS 21 */ pps_payload->initial_scale_value = dsc_cfg->initial_scale_value; /* PPS 22, 23 */ pps_payload->scale_increment_interval = cpu_to_be16(dsc_cfg->scale_increment_interval); /* PPS 24 */ pps_payload->scale_decrement_interval_high = ((dsc_cfg->scale_decrement_interval & DSC_PPS_SCALE_DEC_INT_HIGH_MASK) >> DSC_PPS_MSB_SHIFT); /* PPS 25 */ pps_payload->scale_decrement_interval_low = (dsc_cfg->scale_decrement_interval & DSC_PPS_LSB_MASK); /* PPS 26[7:0], PPS 27[7:5] RESERVED */ /* PPS 27 */ pps_payload->first_line_bpg_offset = dsc_cfg->first_line_bpg_offset; /* PPS 28, 29 */ pps_payload->nfl_bpg_offset = cpu_to_be16(dsc_cfg->nfl_bpg_offset); /* PPS 30, 31 */ pps_payload->slice_bpg_offset = cpu_to_be16(dsc_cfg->slice_bpg_offset); /* PPS 32, 33 */ pps_payload->initial_offset = cpu_to_be16(dsc_cfg->initial_offset); /* PPS 34, 35 */ pps_payload->final_offset = cpu_to_be16(dsc_cfg->final_offset); /* PPS 36 */ pps_payload->flatness_min_qp = dsc_cfg->flatness_min_qp; /* PPS 37 */ pps_payload->flatness_max_qp = dsc_cfg->flatness_max_qp; /* PPS 38, 39 */ pps_payload->rc_model_size = cpu_to_be16(dsc_cfg->rc_model_size); /* PPS 40 */ pps_payload->rc_edge_factor = DSC_RC_EDGE_FACTOR_CONST; /* PPS 41 */ pps_payload->rc_quant_incr_limit0 = dsc_cfg->rc_quant_incr_limit0; /* PPS 42 */ pps_payload->rc_quant_incr_limit1 = dsc_cfg->rc_quant_incr_limit1; /* PPS 43 */ pps_payload->rc_tgt_offset = DSC_RC_TGT_OFFSET_LO_CONST | DSC_RC_TGT_OFFSET_HI_CONST << DSC_PPS_RC_TGT_OFFSET_HI_SHIFT; /* PPS 44 - 57 */ for (i = 0; i < DSC_NUM_BUF_RANGES - 1; i++) pps_payload->rc_buf_thresh[i] = dsc_cfg->rc_buf_thresh[i]; /* PPS 58 - 87 */ /* * For DSC sink programming the RC Range parameter fields * are as follows: Min_qp[15:11], max_qp[10:6], offset[5:0] */ for (i = 0; i < DSC_NUM_BUF_RANGES; i++) { pps_payload->rc_range_parameters[i] = cpu_to_be16((dsc_cfg->rc_range_params[i].range_min_qp << DSC_PPS_RC_RANGE_MINQP_SHIFT) | (dsc_cfg->rc_range_params[i].range_max_qp << DSC_PPS_RC_RANGE_MAXQP_SHIFT) | (dsc_cfg->rc_range_params[i].range_bpg_offset)); } /* PPS 88 */ pps_payload->native_422_420 = dsc_cfg->native_422 | dsc_cfg->native_420 << DSC_PPS_NATIVE_420_SHIFT; /* PPS 89 */ pps_payload->second_line_bpg_offset = dsc_cfg->second_line_bpg_offset; /* PPS 90, 91 */ pps_payload->nsl_bpg_offset = cpu_to_be16(dsc_cfg->nsl_bpg_offset); /* PPS 92, 93 */ pps_payload->second_line_offset_adj = cpu_to_be16(dsc_cfg->second_line_offset_adj); /* PPS 94 - 127 are O */ } EXPORT_SYMBOL(drm_dsc_pps_payload_pack); /** * drm_dsc_compute_rc_parameters() - Write rate control * parameters to the dsc configuration defined in * &struct drm_dsc_config in accordance with the DSC 1.2 * specification. Some configuration fields must be present * beforehand. * * @vdsc_cfg: * DSC Configuration data partially filled by driver */ int drm_dsc_compute_rc_parameters(struct drm_dsc_config *vdsc_cfg) { unsigned long groups_per_line = 0; unsigned long groups_total = 0; unsigned long num_extra_mux_bits = 0; unsigned long slice_bits = 0; unsigned long hrd_delay = 0; unsigned long final_scale = 0; unsigned long rbs_min = 0; if (vdsc_cfg->native_420 || vdsc_cfg->native_422) { /* Number of groups used to code each line of a slice */ groups_per_line = DIV_ROUND_UP(vdsc_cfg->slice_width / 2, DSC_RC_PIXELS_PER_GROUP); /* chunksize in Bytes */ vdsc_cfg->slice_chunk_size = DIV_ROUND_UP(vdsc_cfg->slice_width / 2 * vdsc_cfg->bits_per_pixel, (8 * 16)); } else { /* Number of groups used to code each line of a slice */ groups_per_line = DIV_ROUND_UP(vdsc_cfg->slice_width, DSC_RC_PIXELS_PER_GROUP); /* chunksize in Bytes */ vdsc_cfg->slice_chunk_size = DIV_ROUND_UP(vdsc_cfg->slice_width * vdsc_cfg->bits_per_pixel, (8 * 16)); } if (vdsc_cfg->convert_rgb) num_extra_mux_bits = 3 * (vdsc_cfg->mux_word_size + (4 * vdsc_cfg->bits_per_component + 4) - 2); else if (vdsc_cfg->native_422) num_extra_mux_bits = 4 * vdsc_cfg->mux_word_size + (4 * vdsc_cfg->bits_per_component + 4) + 3 * (4 * vdsc_cfg->bits_per_component) - 2; else num_extra_mux_bits = 3 * vdsc_cfg->mux_word_size + (4 * vdsc_cfg->bits_per_component + 4) + 2 * (4 * vdsc_cfg->bits_per_component) - 2; /* Number of bits in one Slice */ slice_bits = 8 * vdsc_cfg->slice_chunk_size * vdsc_cfg->slice_height; while ((num_extra_mux_bits > 0) && ((slice_bits - num_extra_mux_bits) % vdsc_cfg->mux_word_size)) num_extra_mux_bits--; if (groups_per_line < vdsc_cfg->initial_scale_value - 8) vdsc_cfg->initial_scale_value = groups_per_line + 8; /* scale_decrement_interval calculation according to DSC spec 1.11 */ if (vdsc_cfg->initial_scale_value > 8) vdsc_cfg->scale_decrement_interval = groups_per_line / (vdsc_cfg->initial_scale_value - 8); else vdsc_cfg->scale_decrement_interval = DSC_SCALE_DECREMENT_INTERVAL_MAX; vdsc_cfg->final_offset = vdsc_cfg->rc_model_size - (vdsc_cfg->initial_xmit_delay * vdsc_cfg->bits_per_pixel + 8) / 16 + num_extra_mux_bits; if (vdsc_cfg->final_offset >= vdsc_cfg->rc_model_size) { DRM_DEBUG_KMS("FinalOfs < RcModelSze for this InitialXmitDelay\n"); return -ERANGE; } final_scale = (vdsc_cfg->rc_model_size * 8) / (vdsc_cfg->rc_model_size - vdsc_cfg->final_offset); if (vdsc_cfg->slice_height > 1) /* * NflBpgOffset is 16 bit value with 11 fractional bits * hence we multiply by 2^11 for preserving the * fractional part */ vdsc_cfg->nfl_bpg_offset = DIV_ROUND_UP((vdsc_cfg->first_line_bpg_offset << 11), (vdsc_cfg->slice_height - 1)); else vdsc_cfg->nfl_bpg_offset = 0; /* Number of groups used to code the entire slice */ groups_total = groups_per_line * vdsc_cfg->slice_height; /* slice_bpg_offset is 16 bit value with 11 fractional bits */ vdsc_cfg->slice_bpg_offset = DIV_ROUND_UP(((vdsc_cfg->rc_model_size - vdsc_cfg->initial_offset + num_extra_mux_bits) << 11), groups_total); if (final_scale > 9) { /* * ScaleIncrementInterval = * finaloffset/((NflBpgOffset + SliceBpgOffset)*8(finalscale - 1.125)) * as (NflBpgOffset + SliceBpgOffset) has 11 bit fractional value, * we need divide by 2^11 from pstDscCfg values */ vdsc_cfg->scale_increment_interval = (vdsc_cfg->final_offset * (1 << 11)) / ((vdsc_cfg->nfl_bpg_offset + vdsc_cfg->slice_bpg_offset) * (final_scale - 9)); } else { /* * If finalScaleValue is less than or equal to 9, a value of 0 should * be used to disable the scale increment at the end of the slice */ vdsc_cfg->scale_increment_interval = 0; } /* * DSC spec mentions that bits_per_pixel specifies the target * bits/pixel (bpp) rate that is used by the encoder, * in steps of 1/16 of a bit per pixel */ rbs_min = vdsc_cfg->rc_model_size - vdsc_cfg->initial_offset + DIV_ROUND_UP(vdsc_cfg->initial_xmit_delay * vdsc_cfg->bits_per_pixel, 16) + groups_per_line * vdsc_cfg->first_line_bpg_offset; hrd_delay = DIV_ROUND_UP((rbs_min * 16), vdsc_cfg->bits_per_pixel); vdsc_cfg->rc_bits = (hrd_delay * vdsc_cfg->bits_per_pixel) / 16; vdsc_cfg->initial_dec_delay = hrd_delay - vdsc_cfg->initial_xmit_delay; return 0; } EXPORT_SYMBOL(drm_dsc_compute_rc_parameters);
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