Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Ezequiel García | 998 | 55.29% | 9 | 26.47% |
Benjamin Gaignard | 372 | 20.61% | 10 | 29.41% |
Andrzej Pietrasiewicz | 147 | 8.14% | 3 | 8.82% |
Jernej Škrabec | 113 | 6.26% | 4 | 11.76% |
Jonas Karlman | 112 | 6.20% | 3 | 8.82% |
Philipp Zabel | 27 | 1.50% | 1 | 2.94% |
Hertz Wong | 24 | 1.33% | 1 | 2.94% |
Boris Brezillon | 7 | 0.39% | 1 | 2.94% |
Arnd Bergmann | 4 | 0.22% | 1 | 2.94% |
Marek Vašut | 1 | 0.06% | 1 | 2.94% |
Total | 1805 | 34 |
// SPDX-License-Identifier: GPL-2.0 /* * Hantro G1 post-processor support * * Copyright (C) 2019 Collabora, Ltd. */ #include <linux/dma-mapping.h> #include <linux/types.h> #include "hantro.h" #include "hantro_hw.h" #include "hantro_g1_regs.h" #include "hantro_g2_regs.h" #include "hantro_v4l2.h" #define HANTRO_PP_REG_WRITE(vpu, reg_name, val) \ { \ hantro_reg_write(vpu, \ &hantro_g1_postproc_regs.reg_name, \ val); \ } #define HANTRO_PP_REG_WRITE_RELAXED(vpu, reg_name, val) \ { \ hantro_reg_write_relaxed(vpu, \ &hantro_g1_postproc_regs.reg_name, \ val); \ } #define VPU_PP_IN_YUYV 0x0 #define VPU_PP_IN_NV12 0x1 #define VPU_PP_IN_YUV420 0x2 #define VPU_PP_IN_YUV240_TILED 0x5 #define VPU_PP_OUT_RGB 0x0 #define VPU_PP_OUT_YUYV 0x3 static const struct hantro_postproc_regs hantro_g1_postproc_regs = { .pipeline_en = {G1_REG_PP_INTERRUPT, 1, 0x1}, .max_burst = {G1_REG_PP_DEV_CONFIG, 0, 0x1f}, .clk_gate = {G1_REG_PP_DEV_CONFIG, 1, 0x1}, .out_swap32 = {G1_REG_PP_DEV_CONFIG, 5, 0x1}, .out_endian = {G1_REG_PP_DEV_CONFIG, 6, 0x1}, .out_luma_base = {G1_REG_PP_OUT_LUMA_BASE, 0, 0xffffffff}, .input_width = {G1_REG_PP_INPUT_SIZE, 0, 0x1ff}, .input_height = {G1_REG_PP_INPUT_SIZE, 9, 0x1ff}, .output_width = {G1_REG_PP_CONTROL, 4, 0x7ff}, .output_height = {G1_REG_PP_CONTROL, 15, 0x7ff}, .input_fmt = {G1_REG_PP_CONTROL, 29, 0x7}, .output_fmt = {G1_REG_PP_CONTROL, 26, 0x7}, .orig_width = {G1_REG_PP_MASK1_ORIG_WIDTH, 23, 0x1ff}, .display_width = {G1_REG_PP_DISPLAY_WIDTH, 0, 0xfff}, }; bool hantro_needs_postproc(const struct hantro_ctx *ctx, const struct hantro_fmt *fmt) { if (ctx->is_encoder) return false; if (ctx->need_postproc) return true; return fmt->postprocessed; } static void hantro_postproc_g1_enable(struct hantro_ctx *ctx) { struct hantro_dev *vpu = ctx->dev; struct vb2_v4l2_buffer *dst_buf; u32 src_pp_fmt, dst_pp_fmt; dma_addr_t dst_dma; /* Turn on pipeline mode. Must be done first. */ HANTRO_PP_REG_WRITE(vpu, pipeline_en, 0x1); src_pp_fmt = VPU_PP_IN_NV12; switch (ctx->vpu_dst_fmt->fourcc) { case V4L2_PIX_FMT_YUYV: dst_pp_fmt = VPU_PP_OUT_YUYV; break; default: WARN(1, "output format %d not supported by the post-processor, this wasn't expected.", ctx->vpu_dst_fmt->fourcc); dst_pp_fmt = 0; break; } dst_buf = v4l2_m2m_next_dst_buf(ctx->fh.m2m_ctx); dst_dma = vb2_dma_contig_plane_dma_addr(&dst_buf->vb2_buf, 0); HANTRO_PP_REG_WRITE(vpu, clk_gate, 0x1); HANTRO_PP_REG_WRITE(vpu, out_endian, 0x1); HANTRO_PP_REG_WRITE(vpu, out_swap32, 0x1); HANTRO_PP_REG_WRITE(vpu, max_burst, 16); HANTRO_PP_REG_WRITE(vpu, out_luma_base, dst_dma); HANTRO_PP_REG_WRITE(vpu, input_width, MB_WIDTH(ctx->dst_fmt.width)); HANTRO_PP_REG_WRITE(vpu, input_height, MB_HEIGHT(ctx->dst_fmt.height)); HANTRO_PP_REG_WRITE(vpu, input_fmt, src_pp_fmt); HANTRO_PP_REG_WRITE(vpu, output_fmt, dst_pp_fmt); HANTRO_PP_REG_WRITE(vpu, output_width, ctx->dst_fmt.width); HANTRO_PP_REG_WRITE(vpu, output_height, ctx->dst_fmt.height); HANTRO_PP_REG_WRITE(vpu, orig_width, MB_WIDTH(ctx->dst_fmt.width)); HANTRO_PP_REG_WRITE(vpu, display_width, ctx->dst_fmt.width); } static int down_scale_factor(struct hantro_ctx *ctx) { if (ctx->src_fmt.width <= ctx->dst_fmt.width) return 0; return DIV_ROUND_CLOSEST(ctx->src_fmt.width, ctx->dst_fmt.width); } static void hantro_postproc_g2_enable(struct hantro_ctx *ctx) { struct hantro_dev *vpu = ctx->dev; struct vb2_v4l2_buffer *dst_buf; int down_scale = down_scale_factor(ctx); int out_depth; size_t chroma_offset; dma_addr_t dst_dma; dst_buf = hantro_get_dst_buf(ctx); dst_dma = vb2_dma_contig_plane_dma_addr(&dst_buf->vb2_buf, 0); chroma_offset = ctx->dst_fmt.plane_fmt[0].bytesperline * ctx->dst_fmt.height; if (down_scale) { hantro_reg_write(vpu, &g2_down_scale_e, 1); hantro_reg_write(vpu, &g2_down_scale_y, down_scale >> 2); hantro_reg_write(vpu, &g2_down_scale_x, down_scale >> 2); hantro_write_addr(vpu, G2_DS_DST, dst_dma); hantro_write_addr(vpu, G2_DS_DST_CHR, dst_dma + (chroma_offset >> down_scale)); } else { hantro_write_addr(vpu, G2_RS_OUT_LUMA_ADDR, dst_dma); hantro_write_addr(vpu, G2_RS_OUT_CHROMA_ADDR, dst_dma + chroma_offset); } out_depth = hantro_get_format_depth(ctx->dst_fmt.pixelformat); if (ctx->dev->variant->legacy_regs) { u8 pp_shift = 0; if (out_depth > 8) pp_shift = 16 - out_depth; hantro_reg_write(ctx->dev, &g2_rs_out_bit_depth, out_depth); hantro_reg_write(ctx->dev, &g2_pp_pix_shift, pp_shift); } else { hantro_reg_write(vpu, &g2_output_8_bits, out_depth > 8 ? 0 : 1); hantro_reg_write(vpu, &g2_output_format, out_depth > 8 ? 1 : 0); } hantro_reg_write(vpu, &g2_out_rs_e, 1); } static int hantro_postproc_g2_enum_framesizes(struct hantro_ctx *ctx, struct v4l2_frmsizeenum *fsize) { /** * G2 scaler can scale down by 0, 2, 4 or 8 * use fsize->index has power of 2 diviser **/ if (fsize->index > 3) return -EINVAL; if (!ctx->src_fmt.width || !ctx->src_fmt.height) return -EINVAL; fsize->type = V4L2_FRMSIZE_TYPE_DISCRETE; fsize->discrete.width = ctx->src_fmt.width >> fsize->index; fsize->discrete.height = ctx->src_fmt.height >> fsize->index; return 0; } void hantro_postproc_free(struct hantro_ctx *ctx) { struct hantro_dev *vpu = ctx->dev; struct v4l2_m2m_ctx *m2m_ctx = ctx->fh.m2m_ctx; struct vb2_queue *queue = &m2m_ctx->cap_q_ctx.q; unsigned int i; for (i = 0; i < queue->max_num_buffers; ++i) { struct hantro_aux_buf *priv = &ctx->postproc.dec_q[i]; if (priv->cpu) { dma_free_attrs(vpu->dev, priv->size, priv->cpu, priv->dma, priv->attrs); priv->cpu = NULL; } } } static unsigned int hantro_postproc_buffer_size(struct hantro_ctx *ctx) { struct v4l2_pix_format_mplane pix_mp; const struct hantro_fmt *fmt; unsigned int buf_size; /* this should always pick native format */ fmt = hantro_get_default_fmt(ctx, false, ctx->bit_depth, HANTRO_AUTO_POSTPROC); if (!fmt) return 0; v4l2_fill_pixfmt_mp(&pix_mp, fmt->fourcc, ctx->src_fmt.width, ctx->src_fmt.height); buf_size = pix_mp.plane_fmt[0].sizeimage; if (ctx->vpu_src_fmt->fourcc == V4L2_PIX_FMT_H264_SLICE) buf_size += hantro_h264_mv_size(pix_mp.width, pix_mp.height); else if (ctx->vpu_src_fmt->fourcc == V4L2_PIX_FMT_VP9_FRAME) buf_size += hantro_vp9_mv_size(pix_mp.width, pix_mp.height); else if (ctx->vpu_src_fmt->fourcc == V4L2_PIX_FMT_HEVC_SLICE) buf_size += hantro_hevc_mv_size(pix_mp.width, pix_mp.height); else if (ctx->vpu_src_fmt->fourcc == V4L2_PIX_FMT_AV1_FRAME) buf_size += hantro_av1_mv_size(pix_mp.width, pix_mp.height); return buf_size; } static int hantro_postproc_alloc(struct hantro_ctx *ctx, int index) { struct hantro_dev *vpu = ctx->dev; struct hantro_aux_buf *priv = &ctx->postproc.dec_q[index]; unsigned int buf_size = hantro_postproc_buffer_size(ctx); if (!buf_size) return -EINVAL; /* * The buffers on this queue are meant as intermediate * buffers for the decoder, so no mapping is needed. */ priv->attrs = DMA_ATTR_NO_KERNEL_MAPPING; priv->cpu = dma_alloc_attrs(vpu->dev, buf_size, &priv->dma, GFP_KERNEL, priv->attrs); if (!priv->cpu) return -ENOMEM; priv->size = buf_size; return 0; } int hantro_postproc_init(struct hantro_ctx *ctx) { struct v4l2_m2m_ctx *m2m_ctx = ctx->fh.m2m_ctx; struct vb2_queue *cap_queue = &m2m_ctx->cap_q_ctx.q; unsigned int num_buffers = vb2_get_num_buffers(cap_queue); unsigned int i; int ret; for (i = 0; i < num_buffers; i++) { ret = hantro_postproc_alloc(ctx, i); if (ret) return ret; } return 0; } dma_addr_t hantro_postproc_get_dec_buf_addr(struct hantro_ctx *ctx, int index) { struct hantro_aux_buf *priv = &ctx->postproc.dec_q[index]; unsigned int buf_size = hantro_postproc_buffer_size(ctx); struct hantro_dev *vpu = ctx->dev; int ret; if (priv->size < buf_size && priv->cpu) { /* buffer is too small, release it */ dma_free_attrs(vpu->dev, priv->size, priv->cpu, priv->dma, priv->attrs); priv->cpu = NULL; } if (!priv->cpu) { /* buffer not already allocated, try getting a new one */ ret = hantro_postproc_alloc(ctx, index); if (ret) return 0; } if (!priv->cpu) return 0; return priv->dma; } static void hantro_postproc_g1_disable(struct hantro_ctx *ctx) { struct hantro_dev *vpu = ctx->dev; HANTRO_PP_REG_WRITE(vpu, pipeline_en, 0x0); } static void hantro_postproc_g2_disable(struct hantro_ctx *ctx) { struct hantro_dev *vpu = ctx->dev; hantro_reg_write(vpu, &g2_out_rs_e, 0); } void hantro_postproc_disable(struct hantro_ctx *ctx) { struct hantro_dev *vpu = ctx->dev; if (vpu->variant->postproc_ops && vpu->variant->postproc_ops->disable) vpu->variant->postproc_ops->disable(ctx); } void hantro_postproc_enable(struct hantro_ctx *ctx) { struct hantro_dev *vpu = ctx->dev; if (vpu->variant->postproc_ops && vpu->variant->postproc_ops->enable) vpu->variant->postproc_ops->enable(ctx); } int hanto_postproc_enum_framesizes(struct hantro_ctx *ctx, struct v4l2_frmsizeenum *fsize) { struct hantro_dev *vpu = ctx->dev; if (vpu->variant->postproc_ops && vpu->variant->postproc_ops->enum_framesizes) return vpu->variant->postproc_ops->enum_framesizes(ctx, fsize); return -EINVAL; } const struct hantro_postproc_ops hantro_g1_postproc_ops = { .enable = hantro_postproc_g1_enable, .disable = hantro_postproc_g1_disable, }; const struct hantro_postproc_ops hantro_g2_postproc_ops = { .enable = hantro_postproc_g2_enable, .disable = hantro_postproc_g2_disable, .enum_framesizes = hantro_postproc_g2_enum_framesizes, };
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