ArmSoM Rockchip系列产品通用教程之Camera使用

描述

1. Camera 简介

ArmSoM系列产品使用的是mipi-csi接口的摄像头

ArmSoM-Sige7支持双摄同显:

Camera

2. RK3588硬件通路框图

Camera

rk3588支持2个isp硬件,每个isp设备可虚拟出多个虚拟节点,软件上通过回读的方式,依次从ddr读取每一路的图像数据进isp处理。对于多摄方案,建议将数据流平均分配到两个isp上。

回读:指数据经过vicap采集到ddr,应用获取到数据后,将buffer地址推送给isp,isp再从ddr获取图像数据。

3. RK3588 的camera通路:

多sensor支持:

  • 单路硬件isp最多支持4路复用,isp复用情况支持分辨率如下:
  • 2路复用:最大分辨率3840x2160,dts对应配置2路rkisp_vir设备。
  • 3路或4路复用:最大分辨率2560x1536,dts对应配置3或4路rkisp_vir设备。
  • 硬件支持最多采集7路sensor:6mipi + 1dvp,多sensor软件通路如下:

下图是RK3588 camera连接链路示意图,可以支持7路camera。

Camera

4. 链路解析:

Camera
  • 图中:mipi camera2---> csi2_dphy1 ---> mipi2_csi2 ---> rkcif_mipi_lvds2--->rkcif_mipi_lvds2_sditf --->rkisp0_vir2
  • 对应节点:imx415 ---> csi2_dphy0 ---> mipi2_csi2 ---> rkcif_mipi_lvds2--->rkcif_mipi_lvds2_sditf --->rkisp0_vir2
  • 链接关系:sensor---> csi2 dphy---->mipi csi host--->vicap
  • 实线链路解析: Camera sensor ---> dphy ---> 通过mipi_csi2模块解析mipi协议---> vicap ( rkcif节点代表vicap )
  • 虚线链路解析:vicap ---> rkcif_mipi_lvds2_sditf ---> isp

提示

每个vicap节点与isp的链接关系,通过对应虚拟出的XXX_sditf来指明链接关系。

5. ArmSoM-Sige7双路Camera调试

这里以imx415摄像头为例,解析ArmSoM-Sige7双路Camera调试

5.1 原理图

Camera1:CSI0_MIPI:

Camera

Camera2: CS1_MIPI:

Camera

5.2 双路Camera的dts配置:

  • 链路配置1: imx415 —> csi2_dphy0 —> mipi2_csi2 —> rkcif_mipi_lvds2—>rkcif_mipi_lvds2_sditf —>rkisp0_vir2
  • 链路配置2: imx415 —> csi2_dphy3 —> mipi4_csi2 —> rkcif_mipi_lvds4—>rkcif_mipi_lvds4_sditf —>rkisp1_vir1
&i2c3 {    status = "okay";    imx415: imx415@1a {        status = "okay";        compatible = "sony,imx415";        reg = < 0x1a >;        clocks = < &cru CLK_MIPI_CAMARAOUT_M3 >;        clock-names = "xvclk";        pinctrl-names = "default";        pinctrl-0 = < &mipim0_camera3_clk >;        power-domains = < &power RK3588_PD_VI >;        pwdn-gpios = < &gpio1 RK_PB0 GPIO_ACTIVE_HIGH >;        reset-gpios = < &gpio4 RK_PA0 GPIO_ACTIVE_LOW >;        rockchip,camera-module-index = < 0 >;        rockchip,camera-module-facing = "back";        rockchip,camera-module-name = "CMK-OT2022-PX1";        rockchip,camera-module-lens-name = "IR0147-50IRC-8M-F20";        port {            imx415_out0: endpoint {                remote-endpoint = < &mipidphy0_in_ucam0 >;                data-lanes = < 1 2 3 4 >;            };        };    };};&i2c4 {    status = "okay";    pinctrl-names = "default";    pinctrl-0 = < &i2c4m1_xfer >;    imx415_1: imx415_1@1a {        status = "okay";        compatible = "sony,imx415";        reg = < 0x1a >;        clocks = < &cru CLK_MIPI_CAMARAOUT_M2 >;        clock-names = "xvclk";        pinctrl-names = "default";        pinctrl-0 = < &mipim0_camera2_clk >;        power-domains = < &power RK3588_PD_VI >;        pwdn-gpios = < &gpio3 RK_PA2 GPIO_ACTIVE_HIGH >;        reset-gpios = < &gpio3 RK_PA0 GPIO_ACTIVE_LOW >;        rockchip,camera-module-index = < 1 >;        rockchip,camera-module-facing = "back";        rockchip,camera-module-name = "CMK-OT2022-PX1";        rockchip,camera-module-lens-name = "IR0147-50IRC-8M-F20";        port {            imx415_out3: endpoint {                remote-endpoint = < &mipidphy3_in_ucam3 >;                data-lanes = < 1 2 3 4 >;            };        };    };};&csi2_dphy0_hw {    status = "okay";};&csi2_dphy1_hw {    status = "okay";};&csi2_dphy0 {    status = "okay";    ports {        #address-cells = < 1 >;        #size-cells = < 0 >;        port@0 {            reg = < 0 >;            #address-cells = < 1 >;            #size-cells = < 0 >;            mipidphy0_in_ucam0: endpoint@1 {                reg = < 1 >;                remote-endpoint = < &imx415_out0 >;                data-lanes = < 1 2 3 4 >;            };        };        port@1 {            reg = < 1 >;            #address-cells = < 1 >;            #size-cells = < 0 >;            csidphy0_out: endpoint@0 {                reg = < 0 >;                remote-endpoint = < &mipi2_csi2_input >;            };        };    };};&csi2_dphy3 {    status = "okay";    ports {        #address-cells = < 1 >;        #size-cells = < 0 >;        port@0 {            reg = < 0 >;            #address-cells = < 1 >;            #size-cells = < 0 >;            mipidphy3_in_ucam3: endpoint@1 {                reg = < 1 >;                remote-endpoint = < &imx415_out3 >;                data-lanes = < 1 2 3 4 >;            };        };        port@1 {            reg = < 1 >;            #address-cells = < 1 >;            #size-cells = < 0 >;            csidphy3_out: endpoint@0 {                reg = < 0 >;                remote-endpoint = < &mipi4_csi2_input >;            };        };    };};&mipi2_csi2 {    status = "okay";    ports {        #address-cells = < 1 >;        #size-cells = < 0 >;        port@0 {            reg = < 0 >;            #address-cells = < 1 >;            #size-cells = < 0 >;            mipi2_csi2_input: endpoint@1 {                reg = < 1 >;                remote-endpoint = < &csidphy0_out >;            };        };        port@1 {            reg = < 1 >;            #address-cells = < 1 >;            #size-cells = < 0 >;            mipi2_csi2_output: endpoint@0 {                reg = < 0 >;                remote-endpoint = < &cif_mipi2_in0 >;            };        };    };};&mipi4_csi2 {    status = "okay";    ports {        #address-cells = < 1 >;        #size-cells = < 0 >;        port@0 {            reg = < 0 >;            #address-cells = < 1 >;            #size-cells = < 0 >;            mipi4_csi2_input: endpoint@1 {                reg = < 1 >;                remote-endpoint = < &csidphy3_out >;            };        };        port@1 {            reg = < 1 >;            #address-cells = < 1 >;            #size-cells = < 0 >;            mipi4_csi2_output: endpoint@0 {                reg = < 0 >;                remote-endpoint = < &cif_mipi_in4 >;            };        };    };};&rkcif {    status = "okay";};&rkcif_mipi_lvds2 {    status = "okay";    port {        cif_mipi2_in0: endpoint {            remote-endpoint = < &mipi2_csi2_output >;        };    };};&rkcif_mipi_lvds2_sditf {    status = "okay";    port {        mipi_lvds2_sditf: endpoint {            remote-endpoint = < &isp0_vir2 >;        };    };};&rkcif_mipi_lvds4 {    status = "okay";    port {        cif_mipi_in4: endpoint {            remote-endpoint = < &mipi4_csi2_output >;        };    };};&rkcif_mipi_lvds4_sditf {    status = "okay";    port {        mipi4_lvds_sditf: endpoint {            remote-endpoint = < &isp1_vir1 >;        };    };};&rkcif_mmu {    status = "okay";};&rkisp0 {    status = "okay";};&isp0_mmu {    status = "okay";};&rkisp0_vir2 {    status = "okay";    port {        #address-cells = < 1 >;        #size-cells = < 0 >;        isp0_vir2: endpoint@0 {            reg = < 0 >;            remote-endpoint = < &mipi_lvds2_sditf >;        };    };};&rkisp1 {    status = "okay";};&isp1_mmu {    status = "okay";};&rkisp1_vir1 {    status = "okay";    port {        #address-cells = < 1 >;        #size-cells = < 0 >;        isp1_vir1: endpoint@0 {            reg = < 0 >;            remote-endpoint = < &mipi4_lvds_sditf >;        };    };};&pinctrl {    camera {        cam_pwdn_gpio: cam-pwdn-gpio {            rockchip,pins = < 1 RK_PB0 RK_FUNC_GPIO &pcfg_pull_up >;        };    };};

 

6. 调试技巧

6.1 查看Camera是否挂载到i2c总线下

i2cdetect -y 3

 

6.2 查看拓扑结构

 media-ctl -d /dev/media0 -p

 

6.3 imx415 相关的log信息

dmesg | grep imx415

 

6.4 查看sys文件系统中文件信息

内核会为摄像头在目录/sys/class/video4linux下分配设备信息描述文件

armsom@armsom:~$  grep imx415 /sys/class/video4linux/v*/name/sys/class/video4linux/v4l-subdev2/name:m00_b_imx415 3-001a/sys/class/video4linux/v4l-subdev7/name:m01_b_imx415 4-001a

 

查找Camera对应的vedio节点:

armsom@armsom:~$ grep "" /sys/class/video4linux/v*/name | grep mainpath/sys/class/video4linux/video22/name:rkisp_mainpath/sys/class/video4linux/video31/name:rkisp_mainpath

 

可以看到,在ArmSoM-Sige7中,双Camera的节点对应的是:video22和video31

6.5 查找所有摄像头设备

armsom@armsom:~$ v4l2-ctl --list-devicesrkisp-statistics (platform: rkisp):        /dev/video29        /dev/video30        /dev/video38        /dev/video39rkcif-mipi-lvds2 (platform:rkcif):        /dev/media0        /dev/media1rkcif (platform:rkcif-mipi-lvds2):        /dev/video0        /dev/video1        /dev/video2        /dev/video3        /dev/video4        /dev/video5        /dev/video6        /dev/video7        /dev/video8        /dev/video9        /dev/video10rkcif (platform:rkcif-mipi-lvds4):        /dev/video11        /dev/video12        /dev/video13        /dev/video14        /dev/video15        /dev/video16        /dev/video17        /dev/video18        /dev/video19        /dev/video20        /dev/video21rkisp_mainpath (platform:rkisp0-vir0):        /dev/video22        /dev/video23        /dev/video24        /dev/video25        /dev/video26        /dev/video27        /dev/video28        /dev/media2rkisp_mainpath (platform:rkisp1-vir1):        /dev/video31        /dev/video32        /dev/video33        /dev/video34        /dev/video35        /dev/video36        /dev/video37        /dev/media3

 

其中/dev/video22和/dev/video31都是摄像头的设备。

6.6 查看设备的预览支持格式

如下是video22节点: imx415 摄像头的查询结果:

armsom@armsom:~$ v4l2-ctl -d /dev/video22 --list-formats-extioctl: VIDIOC_ENUM_FMT        Type: Video Capture Multiplanar        [0]: 'UYVY' (UYVY 4:2:2)                Size: Stepwise 32x32 - 3840x2160 with step 8/8        [1]: 'NV16' (Y/CbCr 4:2:2)                Size: Stepwise 32x32 - 3840x2160 with step 8/8        [2]: 'NV61' (Y/CrCb 4:2:2)                Size: Stepwise 32x32 - 3840x2160 with step 8/8        [3]: 'NV21' (Y/CrCb 4:2:0)                Size: Stepwise 32x32 - 3840x2160 with step 8/8        [4]: 'NV12' (Y/CbCr 4:2:0)                Size: Stepwise 32x32 - 3840x2160 with step 8/8        [5]: 'NM21' (Y/CrCb 4:2:0 (N-C))                Size: Stepwise 32x32 - 3840x2160 with step 8/8        [6]: 'NM12' (Y/CbCr 4:2:0 (N-C))                Size: Stepwise 32x32 - 3840x2160 with step 8/8

 

6.7 查看设备的所有信息:

armsom@armsom:~$ v4l2-ctl --all --device /dev/video22Driver Info:        Driver name      : rkisp_v6        Card type        : rkisp_mainpath        Bus info         : platform:rkisp0-vir0        Driver version   : 2.3.0        Capabilities     : 0x84201000                Video Capture Multiplanar                Streaming                Extended Pix Format                Device Capabilities        Device Caps      : 0x04201000                Video Capture Multiplanar                Streaming                Extended Pix FormatMedia Driver Info:        Driver name      : rkisp0-vir0        Model            : rkisp0        Serial           :        Bus info         :        Media version    : 5.10.160        Hardware revision: 0x00000000 (0)        Driver version   : 5.10.160Interface Info:        ID               : 0x03000007        Type             : V4L VideoEntity Info:        ID               : 0x00000006 (6)        Name             : rkisp_mainpath        Function         : V4L2 I/O        Pad 0x01000009   : 0: Sink          Link 0x0200000a: from remote pad 0x1000004 of entity 'rkisp-isp-subdev' (Unknown V4L2 Sub-Device): Data, EnabledPriority: 2Format Video Capture Multiplanar:        Width/Height      : 3840/2160        Pixel Format      : 'NM12' (Y/CbCr 4:2:0 (N-C))        Field             : None        Number of planes  : 2        Flags             :        Colorspace        : sRGB        Transfer Function : Rec. 709        YCbCr/HSV Encoding: Rec. 709        Quantization      : Full Range        Plane 0           :           Bytes per Line : 3840           Size Image     : 8294400        Plane 1           :           Bytes per Line : 3840           Size Image     : 4147200Selection Video Capture: crop, Left 0, Top 0, Width 3840, Height 2160, Flags:Selection Video Capture: crop_bounds, Left 0, Top 0, Width 3840, Height 2160, Flags:Selection Video Output: crop, Left 0, Top 0, Width 3840, Height 2160, Flags:Selection Video Output: crop_bounds, Left 0, Top 0, Width 3840, Height 2160, Flags:Image Processing Controls                     pixel_rate 0x009f0902 (int64)  : min=0 max=1000000000 step=1 default=1000000000 value=356800000 flags=read-only, volatile

 

6.8 摄像头预览

ArmSoM-Sige7中,双Camera的预览命令:

  • 预览摄像头1:
gst-launch-1.0 v4l2src device=/dev/video22 ! video/x-raw,format=NV12,width=3840,height=2160,framerate=30/1 ! videoconvert ! autovideosink

 

  • 预览摄像头2:
gst-launch-1.0 v4l2src device=/dev/video31 ! video/x-raw,format=NV12,width=3840,height=2160,framerate=30/1 ! videoconvert ! autovideosink
 

7. Camera应用程序开发

客户可以根据自己的需求进行Camera相关的应用程序开发,如下是使用QT开发的双摄同显应用程序。

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