【分享】修改V4L2的Video Pipeline的devicetree

hankfu

发布于 2021-07-29 14:48:58

9350

发布于 2021-07-29 14:48:58

文章被收录于专栏：hankhank

介绍

PetaLinux 能够根据Vivado的设计，自动生成V4L2的Video Pipeline的devicetree。但是它主要为Xilinx的VCU TRD服务，测试的组合比较少。很多时候，需要根据自己的工程，修改V4L2的Video Pipeline的devicetree。

硬件设计

有项目需要对输入的视频，既需要对原始视频做编解码，也需要缩放后再做编解码。于是创建了下面的硬件设计。

axis_data_fifo主要用于暂时缓存数据。axis_broadcaster和vpss之间的axis_data_fifo、axis_register_slice，可以删除，完全不影响共。

两个framebuffer_write的tready通过逻辑门的“或”操作，连接到了一起，再连接到前级axis_register_slice的输入，保证只要有一个framebuffer_write在工作，前面的模块就能向后输出数据。

devicetree

对于上述的硬件设计，对应的V4L2的devicetree如下：

&amba_pl {

    /delete-node/ axis_broadcasterhdmi_input_axis_broadcaster_0@0;
    
    /* media-ctl prints out each node name of the video pipeline.
       hdmi_brdcst_0@0: media-ctl prints it out. */
    hdmi_brdcst_0_lb: hdmi_brdcst_0@0 {
        compatible = "xlnx,axis-broadcaster-1.1";
        
        hdmi_brdcst_0_ports: ports {
            #address-cells = <1>;
            #size-cells = <0>;  
        };        
    };
    
    /delete-node/ vcapaxis_broad_out1hdmi_input_axis_broadcaster_0;
    /delete-node/ vcap_hdmi_input_v_proc_ss_0;
    
    /* vcap_hdmi_brdcst_0: media-ctl prints it out. */
    vcap_hdmi_brdcst_0 {
        compatible = "xlnx,video";
        dma-names = "port0", "port1";
        dmas = <&hdmi_input_v_frmbuf_wr_1 0>, <&hdmi_input_v_frmbuf_wr_0 0>;
        
        /* vcap_hdmi_brdcst_0_ports: Linux prints it out in log. */
        vcap_hdmi_brdcst_0_ports: ports {
            #address-cells = <1>;
            #size-cells = <0>;
            
            vcap_broadcaster_0_port1: port@0 {
                direction = "input";
                reg = <1>;
                /*  Video input pipeline 1: 
                        hdmi_rx_ss --> broadcaster_0 : 1 --> v_proc_ss_0 --> v_frmbuf_wr_1
                    hdmi_rx_ss : source_to_axis_broad_in0_from_v_hdmi_rx_ss_0
                    broadcaster_0 : out 1 : port2 ：： src_to_vpss0_from_broad_port2_hwout1 
                    v_proc_ss_0 @a0040000 port@0 ：： sink_to_vpss0_from_broad_port2_hwout1
                    v_proc_ss_0 @a0040000 port@1 ：： src_to_frmbuf_wr1_from_vpss_0
                    v_frmbuf_wr_1 @a0080000 :: hdmi_input_v_frmbuf_wr_1
                */
                sink_to_frmbuf_wr1_from_vpss_0: endpoint {
                        remote-endpoint = <&src_to_frmbuf_wr1_from_vpss_0>;
                };
            };
            
            vcap_broadcaster_0_port2: port@1 {
                direction = "input";
                reg = <0>;
                /*  Video input pipeline 0: 
                        hdmi_rx_ss --> broadcaster_0 : 0 --> v_frmbuf_wr_0
                    hdmi_rx_ss : source_to_axis_broad_in0_from_v_hdmi_rx_ss_0
                    broadcaster_0 : out 0 : port1 ：：  src_to_frmbuf_wr0_from_broad_port1_hwout0
                    v_frmbuf_wr_1 @a0010000 :: hdmi_input_v_frmbuf_wr_0
                    hdmi_input_ v_frmbuf_wr_0 hdmi_input_ axis_broadcaster_0 
                */
                sink_to_frmbuf_wr0_from_broad_port1_hwout0: endpoint {
                        remote-endpoint = <&src_to_frmbuf_wr0_from_broad_port1_hwout0>;
                };                          
            };

        };
    };
};

/* hdmi_input_v_hdmi_rx_ss_0: v_hdmi_rx_ss@a0000000 */
&hdmirx_porthdmi_input_v_hdmi_rx_ss_0 {
    source_to_axis_broad_in0_from_v_hdmi_rx_ss_0: endpoint {
            remote-endpoint = <&sink_to_broad_in0__from_v_hdmi_rx_ss_0>;
    };
};

&hdmi_brdcst_0_ports{

   /delete-node/ axis_broad_port1hdmi_input_axis_broadcaster_0;
   /delete-node/ axis_broad_port2hdmi_input_axis_broadcaster_0;
   /delete-node/ axis_broad_port0hdmi_input_axis_broadcaster_0;

    axis_broad_port1_hw_output0: port@1 {
        reg = <1>;
        src_to_frmbuf_wr0_from_broad_port1_hwout0: endpoint {
            remote-endpoint = <&sink_to_frmbuf_wr0_from_broad_port1_hwout0>;
        };
    };
    axis_broad_port2_hw_output1: port@2 {
        reg = <2>;
        src_to_vpss0_from_broad_port2_hwout1: endpoint {
            remote-endpoint = <&sink_to_vpss0_from_broad_port2_hwout1>;
        };
    };
    axis_broad_port0_hw_input: port@0 {
        reg = <0>;
        sink_to_broad_in0__from_v_hdmi_rx_ss_0: endpoint {
            remote-endpoint = <&source_to_axis_broad_in0_from_v_hdmi_rx_ss_0>;
        };
    };
};

&scaler_portshdmi_input_v_proc_ss_0{

    /delete-node/ port@0;
    /delete-node/ port@1;
    
    scaler_port1_v_proc_ss_0: port@1 {
        /* For xlnx,video-format user needs to fill as per their requirement */
        reg = <1>;
        xlnx,video-format = <3>;
        xlnx,video-width = <8>;
        src_to_frmbuf_wr1_from_vpss_0: endpoint {
            remote-endpoint = <&sink_to_frmbuf_wr1_from_vpss_0>;
        };
    };
    scaler_port0_v_proc_ss_0: port@0 {
        /* For xlnx,video-format user needs to fill as per their requirement */
        reg = <0>;
        xlnx,video-format = <3>;
        xlnx,video-width = <8>;
        sink_to_vpss0_from_broad_port2_hwout1: endpoint {
            remote-endpoint = <&src_to_vpss0_from_broad_port2_hwout1>;
        };
    };
};

上述的devicetree，使用了更短更好理解的标签名称。

v_proc_ss的devicetree里，port@0是输入；port@1是输出。 broadcaster的devicetree里，port@0是输入；port@1和port@2是输出。

另外，V4L2的设备号，根据"xlnx,video"设备里的port顺序分配。如果port@0在port@1后面，那么port@0也会被分配video1; 而port@1也会被分配video0.

测试环境

PetaLinux 2020.2 Linux 5.4.0 ZCU106

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原始发表：2021-07-27 ，如有侵权请联系 cloudcommunity@tencent.com 删除

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