// SPDX-License-Identifier: GPL-2.0-only /* * Copyright (c) 2017-2020, The Linux Foundation. All rights reserved. */ #include #include #include #include "msm_vidc_internal.h" #include "msm_vidc_debug.h" #define DDR_TYPE_LPDDR4 0x6 #define DDR_TYPE_LPDDR4X 0x7 #define DDR_TYPE_LPDDR5 0x8 #define DDR_TYPE_LPDDR5X 0x9 #define CODEC_ENTRY(n, p, vsp, vpp, lp) \ { \ .fourcc = n, \ .session_type = p, \ .vsp_cycles = vsp, \ .vpp_cycles = vpp, \ .low_power_cycles = lp \ } #define EFUSE_ENTRY(sa, s, m, sh, p) \ { \ .start_address = sa, \ .size = s, \ .mask = m, \ .shift = sh, \ .purpose = p \ } #define UBWC_CONFIG(mco, mlo, hbo, bslo, bso, rs, mc, ml, hbb, bsl, bsp) \ { \ .override_bit_info.max_channel_override = mco, \ .override_bit_info.mal_length_override = mlo, \ .override_bit_info.hb_override = hbo, \ .override_bit_info.bank_swzl_level_override = bslo, \ .override_bit_info.bank_spreading_override = bso, \ .override_bit_info.reserved = rs, \ .max_channels = mc, \ .mal_length = ml, \ .highest_bank_bit = hbb, \ .bank_swzl_level = bsl, \ .bank_spreading = bsp, \ } static struct msm_vidc_codec_data default_codec_data[] = { CODEC_ENTRY(V4L2_PIX_FMT_H264, MSM_VIDC_ENCODER, 125, 675, 320), CODEC_ENTRY(V4L2_PIX_FMT_H264, MSM_VIDC_DECODER, 125, 675, 320), }; /* Update with Lahaina data */ static struct msm_vidc_codec_data lahaina_codec_data[] = { CODEC_ENTRY(V4L2_PIX_FMT_H264, MSM_VIDC_ENCODER, 25, 675, 320), CODEC_ENTRY(V4L2_PIX_FMT_HEVC, MSM_VIDC_ENCODER, 25, 675, 320), CODEC_ENTRY(V4L2_PIX_FMT_VP8, MSM_VIDC_ENCODER, 60, 675, 320), CODEC_ENTRY(V4L2_PIX_FMT_MPEG2, MSM_VIDC_DECODER, 25, 200, 200), CODEC_ENTRY(V4L2_PIX_FMT_H264, MSM_VIDC_DECODER, 25, 200, 200), CODEC_ENTRY(V4L2_PIX_FMT_HEVC, MSM_VIDC_DECODER, 25, 200, 200), CODEC_ENTRY(V4L2_PIX_FMT_VP8, MSM_VIDC_DECODER, 60, 200, 200), CODEC_ENTRY(V4L2_PIX_FMT_VP9, MSM_VIDC_DECODER, 60, 200, 200), }; static struct msm_vidc_codec_data bengal_codec_data[] = { CODEC_ENTRY(V4L2_PIX_FMT_H264, MSM_VIDC_ENCODER, 0, 675, 320), CODEC_ENTRY(V4L2_PIX_FMT_HEVC, MSM_VIDC_ENCODER, 0, 675, 320), CODEC_ENTRY(V4L2_PIX_FMT_H264, MSM_VIDC_DECODER, 0, 440, 440), CODEC_ENTRY(V4L2_PIX_FMT_HEVC, MSM_VIDC_DECODER, 0, 440, 440), CODEC_ENTRY(V4L2_PIX_FMT_VP9, MSM_VIDC_DECODER, 0, 440, 440), }; #define ENC HAL_VIDEO_DOMAIN_ENCODER #define DEC HAL_VIDEO_DOMAIN_DECODER #define H264 HAL_VIDEO_CODEC_H264 #define HEVC HAL_VIDEO_CODEC_HEVC #define VP8 HAL_VIDEO_CODEC_VP8 #define VP9 HAL_VIDEO_CODEC_VP9 #define MPEG2 HAL_VIDEO_CODEC_MPEG2 #define DOMAINS_ALL (HAL_VIDEO_DOMAIN_ENCODER | HAL_VIDEO_DOMAIN_DECODER) #define CODECS_ALL (HAL_VIDEO_CODEC_H264 | HAL_VIDEO_CODEC_HEVC | \ HAL_VIDEO_CODEC_VP8 | HAL_VIDEO_CODEC_VP9 | \ HAL_VIDEO_CODEC_MPEG2) static struct msm_vidc_codec bengal_codecs[] = { /* {domain, codec} */ {DEC, H264}, {DEC, HEVC}, {DEC, VP9}, {ENC, H264}, {ENC, HEVC}, }; static struct msm_vidc_codec default_codecs[] = { /* {domain, codec} */ {DEC, H264}, {DEC, HEVC}, {DEC, VP8}, {DEC, VP9}, {DEC, MPEG2}, {ENC, H264}, {ENC, HEVC}, {ENC, VP8}, }; static struct msm_vidc_codec_capability bengal_capabilities_v0[] = { /* {cap_type, domains, codecs, min, max, step_size, default_value} */ {CAP_FRAME_WIDTH, DOMAINS_ALL, CODECS_ALL, 128, 1920, 1, 1920}, {CAP_FRAME_HEIGHT, DOMAINS_ALL, CODECS_ALL, 128, 1920, 1, 1080}, /* ((1920 * 1088) / 256) */ {CAP_MBS_PER_FRAME, DOMAINS_ALL, CODECS_ALL, 64, 8160, 1, 8160}, /* 1080@30 decode + 1080@30 encode */ {CAP_MBS_PER_SECOND, DOMAINS_ALL, CODECS_ALL, 64, 489600, 1, 244800}, {CAP_FRAMERATE, DOMAINS_ALL, CODECS_ALL, 1, 120, 1, 30}, {CAP_BITRATE, DOMAINS_ALL, CODECS_ALL, 1, 60000000, 1, 20000000}, {CAP_HIER_P_NUM_ENH_LAYERS, ENC, H264|HEVC, 0, 6, 1, 0}, {CAP_LTR_COUNT, ENC, H264|HEVC, 0, 4, 1, 0}, /* ((1920 * 1088) / 256) * 30 fps */ {CAP_MBS_PER_SECOND_POWER_SAVE, ENC, CODECS_ALL, 0, 244800, 1, 244800}, {CAP_CABAC_BITRATE, ENC, H264, 1, 60000000, 1, 20000000}, {CAP_I_FRAME_QP, ENC, H264|HEVC, 0, 51, 1, 10}, {CAP_P_FRAME_QP, ENC, H264|HEVC, 0, 51, 1, 20}, {CAP_B_FRAME_QP, ENC, H264|HEVC, 0, 51, 1, 20}, /* 10 slices */ {CAP_SLICE_BYTE, ENC, H264|HEVC, 1, 10, 1, 10}, {CAP_SLICE_MB, ENC, H264|HEVC, 1, 10, 1, 10}, {CAP_MAX_VIDEOCORES, DOMAINS_ALL, CODECS_ALL, 0, 1, 1, 1}, /* Secure usecase specific */ {CAP_SECURE_FRAME_WIDTH, DOMAINS_ALL, CODECS_ALL, 128, 1920, 1, 1920}, {CAP_SECURE_FRAME_HEIGHT, DOMAINS_ALL, CODECS_ALL, 128, 1920, 1, 1080}, /* (1920 * 1088) / 256 */ {CAP_SECURE_MBS_PER_FRAME, DOMAINS_ALL, CODECS_ALL, 64, 8160, 1, 8160}, {CAP_SECURE_BITRATE, DOMAINS_ALL, CODECS_ALL, 1, 35000000, 1, 20000000}, /* Image specific */ {CAP_HEVC_IMAGE_FRAME_WIDTH, ENC, HEVC, 128, 512, 1, 512}, {CAP_HEVC_IMAGE_FRAME_HEIGHT, ENC, HEVC, 128, 512, 1, 512}, {CAP_HEIC_IMAGE_FRAME_WIDTH, ENC, HEVC, 512, 8192, 1, 8192}, {CAP_HEIC_IMAGE_FRAME_HEIGHT, ENC, HEVC, 512, 8192, 1, 8192}, /* Level for AVC and HEVC encoder specific. * Default for levels is UNKNOWN value. But if we use unknown * value here to set as default, max value needs to be set to * unknown as well, which creates a problem of allowing client * to set higher level than supported */ {CAP_H264_LEVEL, ENC, H264, V4L2_MPEG_VIDEO_H264_LEVEL_1_0, V4L2_MPEG_VIDEO_H264_LEVEL_5_0, 1, V4L2_MPEG_VIDEO_H264_LEVEL_4_1}, {CAP_HEVC_LEVEL, ENC, HEVC, V4L2_MPEG_VIDEO_HEVC_LEVEL_1, V4L2_MPEG_VIDEO_HEVC_LEVEL_5, 1, V4L2_MPEG_VIDEO_HEVC_LEVEL_4_1}, /* Level for AVC and HEVC decoder specific */ {CAP_H264_LEVEL, DEC, H264, V4L2_MPEG_VIDEO_H264_LEVEL_1_0, V4L2_MPEG_VIDEO_H264_LEVEL_5_0, 1, V4L2_MPEG_VIDEO_H264_LEVEL_4_1}, {CAP_HEVC_LEVEL, DEC, HEVC, V4L2_MPEG_VIDEO_HEVC_LEVEL_1, V4L2_MPEG_VIDEO_HEVC_LEVEL_5, 1, V4L2_MPEG_VIDEO_HEVC_LEVEL_4_1}, }; static struct msm_vidc_codec_capability bengal_capabilities_v1[] = { /* {cap_type, domains, codecs, min, max, step_size, default_value} */ {CAP_FRAME_WIDTH, DOMAINS_ALL, CODECS_ALL, 128, 1920, 1, 1920}, {CAP_FRAME_HEIGHT, DOMAINS_ALL, CODECS_ALL, 128, 1920, 1, 1080}, /* ((1920 * 1088) / 256) */ {CAP_MBS_PER_FRAME, DOMAINS_ALL, CODECS_ALL, 64, 8160, 1, 8160}, /* 1920*1088 @30fps */ {CAP_MBS_PER_SECOND, DOMAINS_ALL, CODECS_ALL, 64, 244800, 1, 244800}, {CAP_FRAMERATE, DOMAINS_ALL, CODECS_ALL, 1, 120, 1, 30}, {CAP_BITRATE, DOMAINS_ALL, CODECS_ALL, 1, 60000000, 1, 20000000}, {CAP_HIER_P_NUM_ENH_LAYERS, ENC, H264|HEVC, 0, 6, 1, 0}, {CAP_LTR_COUNT, ENC, H264|HEVC, 0, 4, 1, 0}, /* ((1920 * 1088) / 256) * 30 fps */ {CAP_MBS_PER_SECOND_POWER_SAVE, ENC, CODECS_ALL, 0, 244800, 1, 244800}, {CAP_CABAC_BITRATE, ENC, H264, 1, 60000000, 1, 20000000}, {CAP_I_FRAME_QP, ENC, H264|HEVC, 0, 51, 1, 10}, {CAP_P_FRAME_QP, ENC, H264|HEVC, 0, 51, 1, 20}, {CAP_B_FRAME_QP, ENC, H264|HEVC, 0, 51, 1, 20}, /* 10 slices */ {CAP_SLICE_BYTE, ENC, H264|HEVC, 1, 10, 1, 10}, {CAP_SLICE_MB, ENC, H264|HEVC, 1, 10, 1, 10}, {CAP_MAX_VIDEOCORES, DOMAINS_ALL, CODECS_ALL, 0, 1, 1, 1}, /* Secure usecase specific */ {CAP_SECURE_FRAME_WIDTH, DOMAINS_ALL, CODECS_ALL, 128, 1920, 1, 1920}, {CAP_SECURE_FRAME_HEIGHT, DOMAINS_ALL, CODECS_ALL, 128, 1920, 1, 1080}, /* (1920 * 1088) / 256 */ {CAP_SECURE_MBS_PER_FRAME, DOMAINS_ALL, CODECS_ALL, 64, 8160, 1, 8160}, {CAP_SECURE_BITRATE, DOMAINS_ALL, CODECS_ALL, 1, 35000000, 1, 20000000}, /* Image specific */ {CAP_HEVC_IMAGE_FRAME_WIDTH, ENC, HEVC, 128, 512, 1, 512}, {CAP_HEVC_IMAGE_FRAME_HEIGHT, ENC, HEVC, 128, 512, 1, 512}, {CAP_HEIC_IMAGE_FRAME_WIDTH, ENC, HEVC, 512, 8192, 1, 8192}, {CAP_HEIC_IMAGE_FRAME_HEIGHT, ENC, HEVC, 512, 8192, 1, 8192}, /* Level for AVC and HEVC encoder specific. * Default for levels is UNKNOWN value. But if we use unknown * value here to set as default, max value needs to be set to * unknown as well, which creates a problem of allowing client * to set higher level than supported */ {CAP_H264_LEVEL, ENC, H264, V4L2_MPEG_VIDEO_H264_LEVEL_1_0, V4L2_MPEG_VIDEO_H264_LEVEL_5_0, 1, V4L2_MPEG_VIDEO_H264_LEVEL_4_1}, {CAP_HEVC_LEVEL, ENC, HEVC, V4L2_MPEG_VIDEO_HEVC_LEVEL_1, V4L2_MPEG_VIDEO_HEVC_LEVEL_5, 1, V4L2_MPEG_VIDEO_HEVC_LEVEL_4_1}, /* Level for AVC and HEVC decoder specific */ {CAP_H264_LEVEL, DEC, H264, V4L2_MPEG_VIDEO_H264_LEVEL_1_0, V4L2_MPEG_VIDEO_H264_LEVEL_5_0, 1, V4L2_MPEG_VIDEO_H264_LEVEL_4_1}, {CAP_HEVC_LEVEL, DEC, HEVC, V4L2_MPEG_VIDEO_HEVC_LEVEL_1, V4L2_MPEG_VIDEO_HEVC_LEVEL_5, 1, V4L2_MPEG_VIDEO_HEVC_LEVEL_4_1}, }; static struct msm_vidc_codec_capability lahaina_capabilities[] = { /* {cap_type, domains, codecs, min, max, step_size, default_value,} */ {CAP_FRAME_WIDTH, DOMAINS_ALL, CODECS_ALL, 128, 8192, 1, 1920}, {CAP_FRAME_HEIGHT, DOMAINS_ALL, CODECS_ALL, 128, 8192, 1, 1080}, /* (8192 * 4320) / 256 */ {CAP_MBS_PER_FRAME, DOMAINS_ALL, CODECS_ALL, 64, 138240, 1, 138240}, /* ((1920 * 1088) / 256) * 960 fps */ {CAP_MBS_PER_SECOND, DOMAINS_ALL, CODECS_ALL, 64, 7833600, 1, 7833600}, {CAP_FRAMERATE, DOMAINS_ALL, CODECS_ALL, 1, 960, 1, 30}, {CAP_BITRATE, DOMAINS_ALL, CODECS_ALL, 1, 220000000, 1, 20000000}, {CAP_BITRATE, ENC, HEVC, 1, 160000000, 1, 20000000}, {CAP_CABAC_BITRATE, ENC, H264, 1, 160000000, 1, 20000000}, {CAP_SCALE_X, ENC, CODECS_ALL, 8192, 65536, 1, 8192}, {CAP_SCALE_Y, ENC, CODECS_ALL, 8192, 65536, 1, 8192}, {CAP_SCALE_X, DEC, CODECS_ALL, 65536, 65536, 1, 65536}, {CAP_SCALE_Y, DEC, CODECS_ALL, 65536, 65536, 1, 65536}, {CAP_BFRAME, ENC, H264|HEVC, 0, 1, 1, 0}, {CAP_HIER_P_NUM_ENH_LAYERS, ENC, H264|HEVC, 0, 6, 1, 0}, {CAP_LTR_COUNT, ENC, H264|HEVC, 0, 2, 1, 0}, /* ((4096 * 2304) / 256) * 60 fps */ {CAP_MBS_PER_SECOND_POWER_SAVE, ENC, CODECS_ALL, 0, 2211840, 1, 2211840}, {CAP_I_FRAME_QP, ENC, H264|HEVC, 0, 51, 1, 10}, {CAP_P_FRAME_QP, ENC, H264|HEVC, 0, 51, 1, 20}, {CAP_B_FRAME_QP, ENC, H264|HEVC, 0, 51, 1, 20}, {CAP_I_FRAME_QP, ENC, VP8|VP9, 0, 127, 1, 20}, {CAP_P_FRAME_QP, ENC, VP8|VP9, 0, 127, 1, 40}, {CAP_B_FRAME_QP, ENC, VP8|VP9, 0, 127, 1, 40}, /* 10 slices */ {CAP_SLICE_BYTE, ENC, H264|HEVC, 1, 10, 1, 10}, {CAP_SLICE_MB, ENC, H264|HEVC, 1, 10, 1, 10}, {CAP_MAX_VIDEOCORES, DOMAINS_ALL, CODECS_ALL, 0, 1, 1, 1}, /* VP8 specific */ {CAP_FRAME_WIDTH, ENC|DEC, VP8, 128, 4096, 1, 1920}, {CAP_FRAME_HEIGHT, ENC|DEC, VP8, 128, 4096, 1, 1080}, /* (4096 * 2304) / 256 */ {CAP_MBS_PER_FRAME, ENC|DEC, VP8, 64, 36864, 1, 8160}, /* ((4096 * 2304) / 256) * 120 */ {CAP_MBS_PER_SECOND, ENC|DEC, VP8, 64, 4423680, 1, 244800}, {CAP_BFRAME, ENC, VP8, 0, 0, 1, 0}, {CAP_FRAMERATE, ENC, VP8, 1, 60, 1, 30}, {CAP_FRAMERATE, DEC, VP8, 1, 120, 1, 30}, {CAP_BITRATE, ENC, VP8, 1, 74000000, 1, 20000000}, {CAP_BITRATE, DEC, VP8, 1, 100000000, 1, 20000000}, /* Mpeg2 decoder specific */ {CAP_FRAME_WIDTH, DEC, MPEG2, 128, 1920, 1, 1920}, {CAP_FRAME_HEIGHT, DEC, MPEG2, 128, 1920, 1, 1080}, /* (1920 * 1088) / 256 */ {CAP_MBS_PER_FRAME, DEC, MPEG2, 64, 8160, 1, 8160}, /* ((1920 * 1088) / 256) * 30*/ {CAP_MBS_PER_SECOND, DEC, MPEG2, 64, 244800, 1, 244800}, {CAP_FRAMERATE, DEC, MPEG2, 1, 30, 1, 30}, {CAP_BITRATE, DEC, MPEG2, 1, 40000000, 1, 20000000}, /* Secure usecase specific */ {CAP_SECURE_FRAME_WIDTH, DOMAINS_ALL, CODECS_ALL, 128, 4096, 1, 1920}, {CAP_SECURE_FRAME_HEIGHT, DOMAINS_ALL, CODECS_ALL, 128, 4096, 1, 1080}, /* (4096 * 2304) / 256 */ {CAP_SECURE_MBS_PER_FRAME, DOMAINS_ALL, CODECS_ALL, 64, 36864, 1, 36864}, {CAP_SECURE_BITRATE, DOMAINS_ALL, CODECS_ALL, 1, 40000000, 1, 20000000}, /* Batch Mode Decode */ {CAP_BATCH_MAX_MB_PER_FRAME, DEC, CODECS_ALL, 64, 34816, 1, 34816}, /* (4096 * 2176) / 256 */ {CAP_BATCH_MAX_FPS, DEC, CODECS_ALL, 1, 120, 1, 120}, /* Lossless encoding usecase specific */ {CAP_LOSSLESS_FRAME_WIDTH, ENC, H264|HEVC, 128, 4096, 1, 1920}, {CAP_LOSSLESS_FRAME_HEIGHT, ENC, H264|HEVC, 128, 4096, 1, 1080}, /* (4096 * 2304) / 256 */ {CAP_LOSSLESS_MBS_PER_FRAME, ENC, H264|HEVC, 64, 36864, 1, 36864}, /* All intra encoding usecase specific */ {CAP_ALLINTRA_MAX_FPS, ENC, H264|HEVC, 1, 240, 1, 30}, /* Image specific */ {CAP_HEVC_IMAGE_FRAME_WIDTH, ENC, HEVC, 128, 512, 1, 512}, {CAP_HEVC_IMAGE_FRAME_HEIGHT, ENC, HEVC, 128, 512, 1, 512}, {CAP_HEIC_IMAGE_FRAME_WIDTH, ENC, HEVC, 512, 16384, 1, 16384}, {CAP_HEIC_IMAGE_FRAME_HEIGHT, ENC, HEVC, 512, 16384, 1, 16384}, /* * Level for AVC and HEVC encoder specific. * Default for levels is UNKNOWN value. But if we use unknown * value here to set as default, max value needs to be set to * unknown as well, which creates a problem of allowing client * to set higher level than supported. */ {CAP_H264_LEVEL, ENC, H264, V4L2_MPEG_VIDEO_H264_LEVEL_1_0, V4L2_MPEG_VIDEO_H264_LEVEL_6_0, 1, V4L2_MPEG_VIDEO_H264_LEVEL_6_0}, {CAP_HEVC_LEVEL, ENC, HEVC, V4L2_MPEG_VIDEO_HEVC_LEVEL_1, V4L2_MPEG_VIDEO_HEVC_LEVEL_6, 1, V4L2_MPEG_VIDEO_HEVC_LEVEL_6}, /* Level for AVC and HEVC decoder specific */ {CAP_H264_LEVEL, DEC, H264, V4L2_MPEG_VIDEO_H264_LEVEL_1_0, V4L2_MPEG_VIDEO_H264_LEVEL_6_1, 1, V4L2_MPEG_VIDEO_H264_LEVEL_5_0}, {CAP_HEVC_LEVEL, DEC, HEVC, V4L2_MPEG_VIDEO_HEVC_LEVEL_1, V4L2_MPEG_VIDEO_HEVC_LEVEL_6_1, 1, V4L2_MPEG_VIDEO_HEVC_LEVEL_5}, }; /* * Custom conversion coefficients for resolution: 176x144 negative * coeffs are converted to s4.9 format * (e.g. -22 converted to ((1 << 13) - 22) * 3x3 transformation matrix coefficients in s4.9 fixed point format */ static u32 vpe_csc_custom_matrix_coeff[HAL_MAX_MATRIX_COEFFS] = { 440, 8140, 8098, 0, 460, 52, 0, 34, 463 }; /* offset coefficients in s9 fixed point format */ static u32 vpe_csc_custom_bias_coeff[HAL_MAX_BIAS_COEFFS] = { 53, 0, 4 }; /* clamping value for Y/U/V([min,max] for Y/U/V) */ static u32 vpe_csc_custom_limit_coeff[HAL_MAX_LIMIT_COEFFS] = { 16, 235, 16, 240, 16, 240 }; static struct msm_vidc_common_data default_common_data[] = { { .key = "qcom,never-unload-fw", .value = 1, }, }; static struct msm_vidc_common_data lahaina_common_data[] = { { .key = "qcom,never-unload-fw", .value = 1, }, { .key = "qcom,sw-power-collapse", .value = 1, }, { .key = "qcom,domain-attr-non-fatal-faults", .value = 1, }, { .key = "qcom,max-secure-instances", .value = 3, }, { .key = "qcom,max-hw-load", .value = 7833600, /* * 7680x4320@60fps, 3840x2176@240fps * Greater than 4096x2176@120fps, * 8192x4320@48fps */ }, { .key = "qcom,max-mbpf", .value = 173056, /* (8192x4320)/256 + (4096x2176)/256*/ }, { .key = "qcom,max-hq-mbs-per-frame", .value = 8160, /* ((1920x1088)/256) */ }, { .key = "qcom,max-hq-mbs-per-sec", .value = 489600, /* ((1920x1088)/256)@60fps */ }, { .key = "qcom,max-b-frame-mbs-per-frame", .value = 32640, /* 3840x2176/256 */ }, { .key = "qcom,max-b-frame-mbs-per-sec", .value = 1958400, /* 3840x2176/256 MBs@60fps */ }, { .key = "qcom,power-collapse-delay", .value = 1500, }, { .key = "qcom,hw-resp-timeout", .value = 1000, }, { .key = "qcom,debug-timeout", .value = 0, }, { .key = "qcom,decode-batching", .value = 1, }, { .key = "qcom,batch-timeout", .value = 200, }, { .key = "qcom,dcvs", .value = 1, }, { .key = "qcom,fw-cycles", .value = 326389, }, { .key = "qcom,fw-vpp-cycles", .value = 44156, }, { .key = "qcom,avsync-window-size", .value = 40, }, { .key = "qcom,prefetch_non_pix_buf_count", .value = 1, }, { .key = "qcom,prefetch_non_pix_buf_size", /* * Internal buffer size is calculated for secure decode session * of resolution 4k (4096x2160) * Internal buf size = calculate_scratch_size() + * calculate_scratch1_size() + calculate_persist1_size() * Take maximum between VP9 10bit, HEVC 10bit, AVC, MPEG2 secure * decoder sessions */ .value = 209715200, }, { .key = "qcom,prefetch_pix_buf_count", .value = 18, }, { .key = "qcom,prefetch_pix_buf_size", /* * Calculated by VENUS_BUFFER_SIZE for 4096x2160 UBWC */ .value = 13434880, }, }; static struct msm_vidc_common_data bengal_common_data_v0[] = { { .key = "qcom,never-unload-fw", .value = 1, }, { .key = "qcom,sw-power-collapse", .value = 1, }, { .key = "qcom,domain-attr-non-fatal-faults", .value = 1, }, { .key = "qcom,max-secure-instances", .value = 3, }, { .key = "qcom,max-hw-load", .value = 489600, }, { .key = "qcom,max-hq-mbs-per-frame", .value = 8160, }, { .key = "qcom,max-hq-mbs-per-sec", .value = 244800, /* 1920 x 1088 @ 30 fps */ }, { .key = "qcom,power-collapse-delay", .value = 1500, }, { .key = "qcom,hw-resp-timeout", .value = 1000, }, { .key = "qcom,dcvs", .value = 1, }, { .key = "qcom,fw-cycles", .value = 733003, }, { .key = "qcom,fw-vpp-cycles", .value = 225975, }, }; static struct msm_vidc_common_data bengal_common_data_v1[] = { { .key = "qcom,never-unload-fw", .value = 1, }, { .key = "qcom,sw-power-collapse", .value = 1, }, { .key = "qcom,domain-attr-non-fatal-faults", .value = 1, }, { .key = "qcom,max-secure-instances", .value = 3, }, { .key = "qcom,max-hw-load", .value = 244800, }, { .key = "qcom,max-hq-mbs-per-frame", .value = 8160, }, { .key = "qcom,max-hq-mbs-per-sec", .value = 244800, /* 1920 x 1088 @ 30 fps */ }, { .key = "qcom,power-collapse-delay", .value = 1500, }, { .key = "qcom,hw-resp-timeout", .value = 1000, }, { .key = "qcom,dcvs", .value = 1, }, { .key = "qcom,fw-cycles", .value = 733003, }, { .key = "qcom,fw-vpp-cycles", .value = 225975, }, }; /* Default UBWC config for LPDDR5 */ static struct msm_vidc_ubwc_config_data lahaina_ubwc_data[] = { UBWC_CONFIG(1, 1, 1, 0, 0, 0, 8, 32, 16, 0, 0), }; static struct msm_vidc_platform_data default_data = { .codec_data = default_codec_data, .codec_data_length = ARRAY_SIZE(default_codec_data), .common_data = default_common_data, .common_data_length = ARRAY_SIZE(default_common_data), .csc_data.vpe_csc_custom_bias_coeff = vpe_csc_custom_bias_coeff, .csc_data.vpe_csc_custom_matrix_coeff = vpe_csc_custom_matrix_coeff, .csc_data.vpe_csc_custom_limit_coeff = vpe_csc_custom_limit_coeff, .efuse_data = NULL, .efuse_data_length = 0, .sku_version = 0, .vpu_ver = VPU_VERSION_IRIS2, .num_vpp_pipes = 0x4, .ubwc_config = 0x0, }; static struct msm_vidc_platform_data lahaina_data = { .codec_data = lahaina_codec_data, .codec_data_length = ARRAY_SIZE(lahaina_codec_data), .common_data = lahaina_common_data, .common_data_length = ARRAY_SIZE(lahaina_common_data), .csc_data.vpe_csc_custom_bias_coeff = vpe_csc_custom_bias_coeff, .csc_data.vpe_csc_custom_matrix_coeff = vpe_csc_custom_matrix_coeff, .csc_data.vpe_csc_custom_limit_coeff = vpe_csc_custom_limit_coeff, .efuse_data = NULL, .efuse_data_length = 0, .sku_version = 0, .vpu_ver = VPU_VERSION_IRIS2, .num_vpp_pipes = 0x4, .ubwc_config = lahaina_ubwc_data, .codecs = default_codecs, .codecs_count = ARRAY_SIZE(default_codecs), .codec_caps = lahaina_capabilities, .codec_caps_count = ARRAY_SIZE(lahaina_capabilities), }; static struct msm_vidc_platform_data bengal_data = { .codec_data = bengal_codec_data, .codec_data_length = ARRAY_SIZE(bengal_codec_data), .common_data = bengal_common_data_v0, .common_data_length = ARRAY_SIZE(bengal_common_data_v0), .csc_data.vpe_csc_custom_bias_coeff = vpe_csc_custom_bias_coeff, .csc_data.vpe_csc_custom_matrix_coeff = vpe_csc_custom_matrix_coeff, .csc_data.vpe_csc_custom_limit_coeff = vpe_csc_custom_limit_coeff, .efuse_data = NULL, .efuse_data_length = 0, .sku_version = 0, .vpu_ver = VPU_VERSION_AR50_LITE, .num_vpp_pipes = 0x1, .ubwc_config = 0x0, .codecs = bengal_codecs, .codecs_count = ARRAY_SIZE(bengal_codecs), .codec_caps = bengal_capabilities_v0, .codec_caps_count = ARRAY_SIZE(bengal_capabilities_v0), }; static const struct of_device_id msm_vidc_dt_device[] = { { .compatible = "qcom,lahaina-vidc", .data = &lahaina_data, }, { .compatible = "qcom,bengal-vidc", .data = &bengal_data, }, {}, }; MODULE_DEVICE_TABLE(of, msm_vidc_dt_device); static int msm_vidc_read_rank( struct msm_vidc_platform_data *data, struct device *dev) { uint32_t num_ranks; num_ranks = 0; //TO-DO Read Rank API to be added data->sku_version = SKU_VERSION_0; if (num_ranks == 1) data->sku_version = SKU_VERSION_1; return 0; } void *vidc_get_drv_data(struct device *dev) { struct msm_vidc_platform_data *driver_data = NULL; const struct of_device_id *match; uint32_t ddr_type = DDR_TYPE_LPDDR5; int rc = 0; if (!IS_ENABLED(CONFIG_OF) || !dev->of_node) { d_vpr_e("Using default_data\n"); driver_data = &default_data; goto exit; } match = of_match_node(msm_vidc_dt_device, dev->of_node); if (match) driver_data = (struct msm_vidc_platform_data *)match->data; if (!driver_data) goto exit; if (!strcmp(match->compatible, "qcom,lahaina-vidc")) { ddr_type = of_fdt_get_ddrtype(); if (ddr_type == -ENOENT) { d_vpr_e("Failed to get ddr type, use LPDDR5\n"); } if (driver_data->ubwc_config && (ddr_type == DDR_TYPE_LPDDR4 || ddr_type == DDR_TYPE_LPDDR4X)) driver_data->ubwc_config->highest_bank_bit = 0xf; d_vpr_h("DDR Type 0x%x hbb 0x%x\n", ddr_type, driver_data->ubwc_config ? driver_data->ubwc_config->highest_bank_bit : -1); } else if (!strcmp(match->compatible, "qcom,bengal-vidc")) { rc = msm_vidc_read_rank(driver_data, dev); if (rc) { d_vpr_e("Failed to get ddr rank, use Dual Rank DDR\n"); goto exit; } if (driver_data->sku_version == SKU_VERSION_1) { driver_data->common_data = bengal_common_data_v1; driver_data->common_data_length = ARRAY_SIZE(bengal_common_data_v1); driver_data->codec_caps = bengal_capabilities_v1; driver_data->codec_caps_count = ARRAY_SIZE(bengal_capabilities_v1); } } exit: return driver_data; }