Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
ZhiChao Yu | 2435 | 89.19% | 1 | 5.00% |
Ezequiel García | 219 | 8.02% | 12 | 60.00% |
Jonas Karlman | 41 | 1.50% | 1 | 5.00% |
Philipp Zabel | 15 | 0.55% | 1 | 5.00% |
Benjamin Gaignard | 10 | 0.37% | 2 | 10.00% |
Jeffy Chen | 5 | 0.18% | 1 | 5.00% |
Mauro Carvalho Chehab | 3 | 0.11% | 1 | 5.00% |
Boris Brezillon | 2 | 0.07% | 1 | 5.00% |
Total | 2730 | 20 |
// SPDX-License-Identifier: GPL-2.0 /* * Hantro VP8 codec driver * * Copyright (C) 2019 Rockchip Electronics Co., Ltd. * ZhiChao Yu <zhichao.yu@rock-chips.com> * * Copyright (C) 2019 Google, Inc. * Tomasz Figa <tfiga@chromium.org> */ #include <media/v4l2-mem2mem.h> #include "hantro_hw.h" #include "hantro.h" #include "hantro_g1_regs.h" /* DCT partition base address regs */ static const struct hantro_reg vp8_dec_dct_base[8] = { { G1_REG_ADDR_STR, 0, 0xffffffff }, { G1_REG_ADDR_REF(8), 0, 0xffffffff }, { G1_REG_ADDR_REF(9), 0, 0xffffffff }, { G1_REG_ADDR_REF(10), 0, 0xffffffff }, { G1_REG_ADDR_REF(11), 0, 0xffffffff }, { G1_REG_ADDR_REF(12), 0, 0xffffffff }, { G1_REG_ADDR_REF(14), 0, 0xffffffff }, { G1_REG_ADDR_REF(15), 0, 0xffffffff }, }; /* Loop filter level regs */ static const struct hantro_reg vp8_dec_lf_level[4] = { { G1_REG_REF_PIC(2), 18, 0x3f }, { G1_REG_REF_PIC(2), 12, 0x3f }, { G1_REG_REF_PIC(2), 6, 0x3f }, { G1_REG_REF_PIC(2), 0, 0x3f }, }; /* Macroblock loop filter level adjustment regs */ static const struct hantro_reg vp8_dec_mb_adj[4] = { { G1_REG_REF_PIC(0), 21, 0x7f }, { G1_REG_REF_PIC(0), 14, 0x7f }, { G1_REG_REF_PIC(0), 7, 0x7f }, { G1_REG_REF_PIC(0), 0, 0x7f }, }; /* Reference frame adjustment regs */ static const struct hantro_reg vp8_dec_ref_adj[4] = { { G1_REG_REF_PIC(1), 21, 0x7f }, { G1_REG_REF_PIC(1), 14, 0x7f }, { G1_REG_REF_PIC(1), 7, 0x7f }, { G1_REG_REF_PIC(1), 0, 0x7f }, }; /* Quantizer */ static const struct hantro_reg vp8_dec_quant[4] = { { G1_REG_REF_PIC(3), 11, 0x7ff }, { G1_REG_REF_PIC(3), 0, 0x7ff }, { G1_REG_BD_REF_PIC(4), 11, 0x7ff }, { G1_REG_BD_REF_PIC(4), 0, 0x7ff }, }; /* Quantizer delta regs */ static const struct hantro_reg vp8_dec_quant_delta[5] = { { G1_REG_REF_PIC(3), 27, 0x1f }, { G1_REG_REF_PIC(3), 22, 0x1f }, { G1_REG_BD_REF_PIC(4), 27, 0x1f }, { G1_REG_BD_REF_PIC(4), 22, 0x1f }, { G1_REG_BD_P_REF_PIC, 27, 0x1f }, }; /* DCT partition start bits regs */ static const struct hantro_reg vp8_dec_dct_start_bits[8] = { { G1_REG_DEC_CTRL2, 26, 0x3f }, { G1_REG_DEC_CTRL4, 26, 0x3f }, { G1_REG_DEC_CTRL4, 20, 0x3f }, { G1_REG_DEC_CTRL7, 24, 0x3f }, { G1_REG_DEC_CTRL7, 18, 0x3f }, { G1_REG_DEC_CTRL7, 12, 0x3f }, { G1_REG_DEC_CTRL7, 6, 0x3f }, { G1_REG_DEC_CTRL7, 0, 0x3f }, }; /* Precision filter tap regs */ static const struct hantro_reg vp8_dec_pred_bc_tap[8][4] = { { { G1_REG_PRED_FLT, 22, 0x3ff }, { G1_REG_PRED_FLT, 12, 0x3ff }, { G1_REG_PRED_FLT, 2, 0x3ff }, { G1_REG_REF_PIC(4), 22, 0x3ff }, }, { { G1_REG_REF_PIC(4), 12, 0x3ff }, { G1_REG_REF_PIC(4), 2, 0x3ff }, { G1_REG_REF_PIC(5), 22, 0x3ff }, { G1_REG_REF_PIC(5), 12, 0x3ff }, }, { { G1_REG_REF_PIC(5), 2, 0x3ff }, { G1_REG_REF_PIC(6), 22, 0x3ff }, { G1_REG_REF_PIC(6), 12, 0x3ff }, { G1_REG_REF_PIC(6), 2, 0x3ff }, }, { { G1_REG_REF_PIC(7), 22, 0x3ff }, { G1_REG_REF_PIC(7), 12, 0x3ff }, { G1_REG_REF_PIC(7), 2, 0x3ff }, { G1_REG_LT_REF, 22, 0x3ff }, }, { { G1_REG_LT_REF, 12, 0x3ff }, { G1_REG_LT_REF, 2, 0x3ff }, { G1_REG_VALID_REF, 22, 0x3ff }, { G1_REG_VALID_REF, 12, 0x3ff }, }, { { G1_REG_VALID_REF, 2, 0x3ff }, { G1_REG_BD_REF_PIC(0), 22, 0x3ff }, { G1_REG_BD_REF_PIC(0), 12, 0x3ff }, { G1_REG_BD_REF_PIC(0), 2, 0x3ff }, }, { { G1_REG_BD_REF_PIC(1), 22, 0x3ff }, { G1_REG_BD_REF_PIC(1), 12, 0x3ff }, { G1_REG_BD_REF_PIC(1), 2, 0x3ff }, { G1_REG_BD_REF_PIC(2), 22, 0x3ff }, }, { { G1_REG_BD_REF_PIC(2), 12, 0x3ff }, { G1_REG_BD_REF_PIC(2), 2, 0x3ff }, { G1_REG_BD_REF_PIC(3), 22, 0x3ff }, { G1_REG_BD_REF_PIC(3), 12, 0x3ff }, }, }; /* * Set loop filters */ static void cfg_lf(struct hantro_ctx *ctx, const struct v4l2_ctrl_vp8_frame *hdr) { const struct v4l2_vp8_segment *seg = &hdr->segment; const struct v4l2_vp8_loop_filter *lf = &hdr->lf; struct hantro_dev *vpu = ctx->dev; unsigned int i; u32 reg; if (!(seg->flags & V4L2_VP8_SEGMENT_FLAG_ENABLED)) { hantro_reg_write(vpu, &vp8_dec_lf_level[0], lf->level); } else if (seg->flags & V4L2_VP8_SEGMENT_FLAG_DELTA_VALUE_MODE) { for (i = 0; i < 4; i++) { u32 lf_level = clamp(lf->level + seg->lf_update[i], 0, 63); hantro_reg_write(vpu, &vp8_dec_lf_level[i], lf_level); } } else { for (i = 0; i < 4; i++) hantro_reg_write(vpu, &vp8_dec_lf_level[i], seg->lf_update[i]); } reg = G1_REG_REF_PIC_FILT_SHARPNESS(lf->sharpness_level); if (lf->flags & V4L2_VP8_LF_FILTER_TYPE_SIMPLE) reg |= G1_REG_REF_PIC_FILT_TYPE_E; vdpu_write_relaxed(vpu, reg, G1_REG_REF_PIC(0)); if (lf->flags & V4L2_VP8_LF_ADJ_ENABLE) { for (i = 0; i < 4; i++) { hantro_reg_write(vpu, &vp8_dec_mb_adj[i], lf->mb_mode_delta[i]); hantro_reg_write(vpu, &vp8_dec_ref_adj[i], lf->ref_frm_delta[i]); } } } /* * Set quantization parameters */ static void cfg_qp(struct hantro_ctx *ctx, const struct v4l2_ctrl_vp8_frame *hdr) { const struct v4l2_vp8_quantization *q = &hdr->quant; const struct v4l2_vp8_segment *seg = &hdr->segment; struct hantro_dev *vpu = ctx->dev; unsigned int i; if (!(seg->flags & V4L2_VP8_SEGMENT_FLAG_ENABLED)) { hantro_reg_write(vpu, &vp8_dec_quant[0], q->y_ac_qi); } else if (seg->flags & V4L2_VP8_SEGMENT_FLAG_DELTA_VALUE_MODE) { for (i = 0; i < 4; i++) { u32 quant = clamp(q->y_ac_qi + seg->quant_update[i], 0, 127); hantro_reg_write(vpu, &vp8_dec_quant[i], quant); } } else { for (i = 0; i < 4; i++) hantro_reg_write(vpu, &vp8_dec_quant[i], seg->quant_update[i]); } hantro_reg_write(vpu, &vp8_dec_quant_delta[0], q->y_dc_delta); hantro_reg_write(vpu, &vp8_dec_quant_delta[1], q->y2_dc_delta); hantro_reg_write(vpu, &vp8_dec_quant_delta[2], q->y2_ac_delta); hantro_reg_write(vpu, &vp8_dec_quant_delta[3], q->uv_dc_delta); hantro_reg_write(vpu, &vp8_dec_quant_delta[4], q->uv_ac_delta); } /* * set control partition and DCT partition regs * * VP8 frame stream data layout: * * first_part_size parttion_sizes[0] * ^ ^ * src_dma | | * ^ +--------+------+ +-----+-----+ * | | control part | | | * +--------+----------------+------------------+-----------+-----+-----------+ * | tag 3B | extra 7B | hdr | mb_data | DCT sz | DCT part0 | ... | DCT partn | * +--------+-----------------------------------+-----------+-----+-----------+ * | | | | * v +----+---+ v * mb_start | src_dma_end * v * DCT size part * (num_dct-1)*3B * Note: * 1. only key-frames have extra 7-bytes * 2. all offsets are base on src_dma * 3. number of DCT parts is 1, 2, 4 or 8 * 4. the addresses set to the VPU must be 64-bits aligned */ static void cfg_parts(struct hantro_ctx *ctx, const struct v4l2_ctrl_vp8_frame *hdr) { struct hantro_dev *vpu = ctx->dev; struct vb2_v4l2_buffer *vb2_src; u32 first_part_offset = V4L2_VP8_FRAME_IS_KEY_FRAME(hdr) ? 10 : 3; u32 mb_size, mb_offset_bytes, mb_offset_bits, mb_start_bits; u32 dct_size_part_size, dct_part_offset; struct hantro_reg reg; dma_addr_t src_dma; u32 dct_part_total_len = 0; u32 count = 0; unsigned int i; vb2_src = hantro_get_src_buf(ctx); src_dma = vb2_dma_contig_plane_dma_addr(&vb2_src->vb2_buf, 0); /* * Calculate control partition mb data info * @first_part_header_bits: bits offset of mb data from first * part start pos * @mb_offset_bits: bits offset of mb data from src_dma * base addr * @mb_offset_byte: bytes offset of mb data from src_dma * base addr * @mb_start_bits: bits offset of mb data from mb data * 64bits alignment addr */ mb_offset_bits = first_part_offset * 8 + hdr->first_part_header_bits + 8; mb_offset_bytes = mb_offset_bits / 8; mb_start_bits = mb_offset_bits - (mb_offset_bytes & (~DEC_8190_ALIGN_MASK)) * 8; mb_size = hdr->first_part_size - (mb_offset_bytes - first_part_offset) + (mb_offset_bytes & DEC_8190_ALIGN_MASK); /* Macroblock data aligned base addr */ vdpu_write_relaxed(vpu, (mb_offset_bytes & (~DEC_8190_ALIGN_MASK)) + src_dma, G1_REG_ADDR_REF(13)); /* Macroblock data start bits */ reg.base = G1_REG_DEC_CTRL2; reg.mask = 0x3f; reg.shift = 18; hantro_reg_write(vpu, ®, mb_start_bits); /* Macroblock aligned data length */ reg.base = G1_REG_DEC_CTRL6; reg.mask = 0x3fffff; reg.shift = 0; hantro_reg_write(vpu, ®, mb_size + 1); /* * Calculate DCT partition info * @dct_size_part_size: Containing sizes of DCT part, every DCT part * has 3 bytes to store its size, except the last * DCT part * @dct_part_offset: bytes offset of DCT parts from src_dma base addr * @dct_part_total_len: total size of all DCT parts */ dct_size_part_size = (hdr->num_dct_parts - 1) * 3; dct_part_offset = first_part_offset + hdr->first_part_size; for (i = 0; i < hdr->num_dct_parts; i++) dct_part_total_len += hdr->dct_part_sizes[i]; dct_part_total_len += dct_size_part_size; dct_part_total_len += (dct_part_offset & DEC_8190_ALIGN_MASK); /* Number of DCT partitions */ reg.base = G1_REG_DEC_CTRL6; reg.mask = 0xf; reg.shift = 24; hantro_reg_write(vpu, ®, hdr->num_dct_parts - 1); /* DCT partition length */ vdpu_write_relaxed(vpu, G1_REG_DEC_CTRL3_STREAM_LEN(dct_part_total_len), G1_REG_DEC_CTRL3); /* DCT partitions base address */ for (i = 0; i < hdr->num_dct_parts; i++) { u32 byte_offset = dct_part_offset + dct_size_part_size + count; u32 base_addr = byte_offset + src_dma; hantro_reg_write(vpu, &vp8_dec_dct_base[i], base_addr & (~DEC_8190_ALIGN_MASK)); hantro_reg_write(vpu, &vp8_dec_dct_start_bits[i], (byte_offset & DEC_8190_ALIGN_MASK) * 8); count += hdr->dct_part_sizes[i]; } } /* * prediction filter taps * normal 6-tap filters */ static void cfg_tap(struct hantro_ctx *ctx, const struct v4l2_ctrl_vp8_frame *hdr) { struct hantro_dev *vpu = ctx->dev; struct hantro_reg reg; u32 val = 0; int i, j; reg.base = G1_REG_BD_REF_PIC(3); reg.mask = 0xf; if ((hdr->version & 0x03) != 0) return; /* Tap filter not used. */ for (i = 0; i < 8; i++) { val = (hantro_vp8_dec_mc_filter[i][0] << 2) | hantro_vp8_dec_mc_filter[i][5]; for (j = 0; j < 4; j++) hantro_reg_write(vpu, &vp8_dec_pred_bc_tap[i][j], hantro_vp8_dec_mc_filter[i][j + 1]); switch (i) { case 2: reg.shift = 8; break; case 4: reg.shift = 4; break; case 6: reg.shift = 0; break; default: continue; } hantro_reg_write(vpu, ®, val); } } static void cfg_ref(struct hantro_ctx *ctx, const struct v4l2_ctrl_vp8_frame *hdr, struct vb2_v4l2_buffer *vb2_dst) { struct hantro_dev *vpu = ctx->dev; dma_addr_t ref; ref = hantro_get_ref(ctx, hdr->last_frame_ts); if (!ref) { vpu_debug(0, "failed to find last frame ts=%llu\n", hdr->last_frame_ts); ref = vb2_dma_contig_plane_dma_addr(&vb2_dst->vb2_buf, 0); } vdpu_write_relaxed(vpu, ref, G1_REG_ADDR_REF(0)); ref = hantro_get_ref(ctx, hdr->golden_frame_ts); if (!ref && hdr->golden_frame_ts) vpu_debug(0, "failed to find golden frame ts=%llu\n", hdr->golden_frame_ts); if (!ref) ref = vb2_dma_contig_plane_dma_addr(&vb2_dst->vb2_buf, 0); if (hdr->flags & V4L2_VP8_FRAME_FLAG_SIGN_BIAS_GOLDEN) ref |= G1_REG_ADDR_REF_TOPC_E; vdpu_write_relaxed(vpu, ref, G1_REG_ADDR_REF(4)); ref = hantro_get_ref(ctx, hdr->alt_frame_ts); if (!ref && hdr->alt_frame_ts) vpu_debug(0, "failed to find alt frame ts=%llu\n", hdr->alt_frame_ts); if (!ref) ref = vb2_dma_contig_plane_dma_addr(&vb2_dst->vb2_buf, 0); if (hdr->flags & V4L2_VP8_FRAME_FLAG_SIGN_BIAS_ALT) ref |= G1_REG_ADDR_REF_TOPC_E; vdpu_write_relaxed(vpu, ref, G1_REG_ADDR_REF(5)); } static void cfg_buffers(struct hantro_ctx *ctx, const struct v4l2_ctrl_vp8_frame *hdr, struct vb2_v4l2_buffer *vb2_dst) { const struct v4l2_vp8_segment *seg = &hdr->segment; struct hantro_dev *vpu = ctx->dev; dma_addr_t dst_dma; u32 reg; /* Set probability table buffer address */ vdpu_write_relaxed(vpu, ctx->vp8_dec.prob_tbl.dma, G1_REG_ADDR_QTABLE); /* Set segment map address */ reg = G1_REG_FWD_PIC1_SEGMENT_BASE(ctx->vp8_dec.segment_map.dma); if (seg->flags & V4L2_VP8_SEGMENT_FLAG_ENABLED) { reg |= G1_REG_FWD_PIC1_SEGMENT_E; if (seg->flags & V4L2_VP8_SEGMENT_FLAG_UPDATE_MAP) reg |= G1_REG_FWD_PIC1_SEGMENT_UPD_E; } vdpu_write_relaxed(vpu, reg, G1_REG_FWD_PIC(0)); dst_dma = hantro_get_dec_buf_addr(ctx, &vb2_dst->vb2_buf); vdpu_write_relaxed(vpu, dst_dma, G1_REG_ADDR_DST); } int hantro_g1_vp8_dec_run(struct hantro_ctx *ctx) { const struct v4l2_ctrl_vp8_frame *hdr; struct hantro_dev *vpu = ctx->dev; struct vb2_v4l2_buffer *vb2_dst; size_t height = ctx->dst_fmt.height; size_t width = ctx->dst_fmt.width; u32 mb_width, mb_height; u32 reg; hantro_start_prepare_run(ctx); hdr = hantro_get_ctrl(ctx, V4L2_CID_STATELESS_VP8_FRAME); if (WARN_ON(!hdr)) return -EINVAL; /* Reset segment_map buffer in keyframe */ if (V4L2_VP8_FRAME_IS_KEY_FRAME(hdr) && ctx->vp8_dec.segment_map.cpu) memset(ctx->vp8_dec.segment_map.cpu, 0, ctx->vp8_dec.segment_map.size); hantro_vp8_prob_update(ctx, hdr); reg = G1_REG_CONFIG_DEC_TIMEOUT_E | G1_REG_CONFIG_DEC_STRENDIAN_E | G1_REG_CONFIG_DEC_INSWAP32_E | G1_REG_CONFIG_DEC_STRSWAP32_E | G1_REG_CONFIG_DEC_OUTSWAP32_E | G1_REG_CONFIG_DEC_CLK_GATE_E | G1_REG_CONFIG_DEC_IN_ENDIAN | G1_REG_CONFIG_DEC_OUT_ENDIAN | G1_REG_CONFIG_DEC_MAX_BURST(16); vdpu_write_relaxed(vpu, reg, G1_REG_CONFIG); reg = G1_REG_DEC_CTRL0_DEC_MODE(10) | G1_REG_DEC_CTRL0_DEC_AXI_AUTO; if (!V4L2_VP8_FRAME_IS_KEY_FRAME(hdr)) reg |= G1_REG_DEC_CTRL0_PIC_INTER_E; if (!(hdr->flags & V4L2_VP8_FRAME_FLAG_MB_NO_SKIP_COEFF)) reg |= G1_REG_DEC_CTRL0_SKIP_MODE; if (hdr->lf.level == 0) reg |= G1_REG_DEC_CTRL0_FILTERING_DIS; vdpu_write_relaxed(vpu, reg, G1_REG_DEC_CTRL0); /* Frame dimensions */ mb_width = MB_WIDTH(width); mb_height = MB_HEIGHT(height); reg = G1_REG_DEC_CTRL1_PIC_MB_WIDTH(mb_width) | G1_REG_DEC_CTRL1_PIC_MB_HEIGHT_P(mb_height) | G1_REG_DEC_CTRL1_PIC_MB_W_EXT(mb_width >> 9) | G1_REG_DEC_CTRL1_PIC_MB_H_EXT(mb_height >> 8); vdpu_write_relaxed(vpu, reg, G1_REG_DEC_CTRL1); /* Boolean decoder */ reg = G1_REG_DEC_CTRL2_BOOLEAN_RANGE(hdr->coder_state.range) | G1_REG_DEC_CTRL2_BOOLEAN_VALUE(hdr->coder_state.value); vdpu_write_relaxed(vpu, reg, G1_REG_DEC_CTRL2); reg = 0; if (hdr->version != 3) reg |= G1_REG_DEC_CTRL4_VC1_HEIGHT_EXT; if (hdr->version & 0x3) reg |= G1_REG_DEC_CTRL4_BILIN_MC_E; vdpu_write_relaxed(vpu, reg, G1_REG_DEC_CTRL4); cfg_lf(ctx, hdr); cfg_qp(ctx, hdr); cfg_parts(ctx, hdr); cfg_tap(ctx, hdr); vb2_dst = hantro_get_dst_buf(ctx); cfg_ref(ctx, hdr, vb2_dst); cfg_buffers(ctx, hdr, vb2_dst); hantro_end_prepare_run(ctx); vdpu_write(vpu, G1_REG_INTERRUPT_DEC_E, G1_REG_INTERRUPT); return 0; }
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