RK摄像头移植【转】

本文转载自:http://wiki.t-firefly.com/index.php/Firefly-RK3288/Camera

板载资源

Firefly-RK3288 开发板带有一个 MIPI 摄像头接口,图像处理能力达到 4416x3312 像素,支持 4K 视频录制。此外,开发板还支持 USB 摄像头。

本文以 OV13850 摄像头为例,讲解在该开发板上的配置过程。

相关代码目录

与摄像头相关的代码目录如下:

Android:
`- hardware/rk29/camera
   |- Config
   |  `- cam_board.xml      // 摄像头的参数设置
   |- CameraHal             // 摄像头的 HAL 源码
   `- SiliconImage          // ISP 库,包括所有支持模组的驱动源码
      `- isi/drv/OV13850    // OV13850 模组的驱动源码
         `- calib/OV13850.xml // OV13850 模组的调校参数

Kernel:
|- kernel/drivers/media/video/rk_camsys  // CamSys 驱动源码
`- kernel/include/media/camsys_head.h

配置原理

设置摄像头相关的引脚和时钟,即可完成配置过程。

从以下摄像头接口原理图可知,需要配置的引脚有:AF_VDD28、DOVDD18、AVDD28、DVDD12、PWDN1、RST 和 MCLK。

Rk3288 camera schematic 1.png

  • AF_VDD28 可不做配置。
  • DOVDD18、AVDD28

DOVDD18、AVDD28 由 DVP_PWR 控制:

Rk3288 camera schematic 2.png

DVP_PWR 对应 RK3288 的 GPIO0_B3:

Rk3288 camera schematic 3.png

  • DVDD12

DVDD12 由 CIF_POWER 引脚控制:

Rk3288 camera schematic 4.png

CIF_POWER 对应 RK3288 上的 GPIO7_B4 引脚:

Rk3288 camera schematic 5.png

  • PWDN1、RST

PWDN1、RST 对应 GPIO2_B6、GPIO2_B7 引脚:

Rk3288 camera schematic 6.png

在开发板中,除了 DVDD12 (CIF_POWER) 要在 DTS 和驱动中设置,其它引脚都是在 cam_board.xml 中设置。

配置步骤

配置 Android

修改 hardware/rk29/camera/Config/cam_board.xml 来注册摄像头:

<?xml version="1.0" ?>
<BoardFile>
        <BoardXmlVersion version="v0.7.0">
        </BoardXmlVersion>
        <CamDevie>
            <HardWareInfo>
                <Sensor>
                    <SensorName name="OV13850" ></SensorName>
                    <SensorDevID IDname="CAMSYS_DEVID_SENSOR_1B"></SensorDevID>
                    <SensorHostDevID busnum="CAMSYS_DEVID_MARVIN" ></SensorHostDevID>
                    <SensorI2cBusNum busnum="3"></SensorI2cBusNum>
                    <SensorI2cAddrByte byte="2"></SensorI2cAddrByte>
                    <SensorI2cRate rate="100000"></SensorI2cRate>
                    <SensorMclk mclk="24000000"></SensorMclk>
                    <SensorAvdd name="NC" min="0" max="0"></SensorAvdd>
                    <SensorDovdd name="NC" min="18000000" max="18000000"></SensorDovdd>
                    <SensorDvdd name="NC" min="0" max="0"></SensorDvdd>
                    <SensorGpioPwdn ioname="RK30_PIN2_PB6" active="0"></SensorGpioPwdn>
                    <SensorGpioRst ioname="RK30_PIN2_PB7" active="0"></SensorGpioRst>
                    <SensorGpioPwen ioname="RK30_PIN0_PB3" active="1"></SensorGpioPwen>
                    <SensorFacing facing="front"></SensorFacing>
                    <SensorInterface interface="MIPI"></SensorInterface>
                    <SensorMirrorFlip mirror="0"></SensorMirrorFlip>
                    <SensorOrientation orientation="0"></SensorOrientation>
                    <SensorPowerupSequence seq="1234"></SensorPowerupSequence>
                    <SensorFovParemeter h="60.0" v="60.0"></SensorFovParemeter>
                    <SensorAWB_Frame_Skip fps="15"></SensorAWB_Frame_Skip>
                    <SensorPhy phyMode="CamSys_Phy_Mipi" lane="2"  phyIndex="1" sensorFmt="CamSys_Fmt_Raw_10b"></SensorPhy>
                </Sensor>
 <VCM>
                    <VCMDrvName name="BuiltInSensor"></VCMDrvName>
                    <VCMName name="NC"></VCMName>
                    <VCMI2cBusNum busnum="3"></VCMI2cBusNum>
                    <VCMI2cAddrByte byte="0"></VCMI2cAddrByte>
                    <VCMI2cRate rate="0"></VCMI2cRate>
                    <VCMVdd name="NC" min="0" max="0"></VCMVdd>
                    <VCMGpioPwdn ioname="NC" active="0"></VCMGpioPwdn>
                    <VCMGpioPower ioname="NC" active="0"></VCMGpioPower>
                    <VCMCurrent start="20" rated="80" vcmmax="100" stepmode="13"  drivermax="100"></VCMCurrent>
                </VCM>
 
<Flash>
      <FlashName name="Internal"></FlashName>
      <FlashI2cBusNum busnum="0"></FlashI2cBusNum>
      <FlashI2cAddrByte byte="0"></FlashI2cAddrByte>
      <FlashI2cRate rate="0"></FlashI2cRate>
      <FlashTrigger ioname="NC" active="0"></FlashTrigger>
      <FlashEn ioname="NC" active="0"></FlashEn>
      <FlashModeType mode="1"></FlashModeType>
      <FlashLuminance luminance="0"></FlashLuminance>
      <FlashColorTemp colortemp="0"></FlashColorTemp>
   </Flash>
</HardWareInfo>
 <SoftWareInfo>
        <AWB>
               <AWB_Auto support="1"></AWB_Auto>
               <AWB_Incandescent support="1"></AWB_Incandescent>
               <AWB_Fluorescent support="1"></AWB_Fluorescent>
                <AWB_Warm_Fluorescent support="1"></AWB_Warm_Fluorescent>
                <AWB_Daylight support="1"></AWB_Daylight>
                <AWB_Cloudy_Daylight support="1"></AWB_Cloudy_Daylight>
                <AWB_Twilight support="1"></AWB_Twilight>
                <AWB_Shade support="1"></AWB_Shade>
         </AWB>
         <Sence>
                <Sence_Mode_Auto support="1"></Sence_Mode_Auto>
                <Sence_Mode_Action support="1"></Sence_Mode_Action>
                <Sence_Mode_Portrait support="1"></Sence_Mode_Portrait>
                <Sence_Mode_Landscape support="1"></Sence_Mode_Landscape>
                <Sence_Mode_Night support="1"></Sence_Mode_Night>
                <Sence_Mode_Night_Portrait support="1"></Sence_Mode_Night_Portrait>
                <Sence_Mode_Theatre support="1"></Sence_Mode_Theatre>
                <Sence_Mode_Beach support="1"></Sence_Mode_Beach>
                <Sence_Mode_Snow support="1"></Sence_Mode_Snow>
                <Sence_Mode_Sunset support="1"></Sence_Mode_Sunset>
                <Sence_Mode_Steayphoto support="1"></Sence_Mode_Steayphoto>
                <Sence_Mode_Pireworks support="1"></Sence_Mode_Pireworks>
                <Sence_Mode_Sports support="1"></Sence_Mode_Sports>
                <Sence_Mode_Party support="1"></Sence_Mode_Party>
                <Sence_Mode_Candlelight support="1"></Sence_Mode_Candlelight>
                <Sence_Mode_Barcode support="1"></Sence_Mode_Barcode>
                <Sence_Mode_HDR support="1"></Sence_Mode_HDR>
         </Sence>
         <Effect>
                <Effect_None support="1"></Effect_None>
                <Effect_Mono support="1"></Effect_Mono>
                <Effect_Solarize support="1"></Effect_Solarize>
                <Effect_Negative support="1"></Effect_Negative>
                <Effect_Sepia support="1"></Effect_Sepia>
                <Effect_Posterize support="1"></Effect_Posterize>
                <Effect_Whiteboard support="1"></Effect_Whiteboard>
                <Effect_Blackboard support="1"></Effect_Blackboard>
                <Effect_Aqua support="1"></Effect_Aqua>
          </Effect>
                <FocusMode>
                    <Focus_Mode_Auto support="1"></Focus_Mode_Auto>
                    <Focus_Mode_Infinity support="1"></Focus_Mode_Infinity>
                    <Focus_Mode_Marco support="1"></Focus_Mode_Marco>
                    <Focus_Mode_Fixed support="1"></Focus_Mode_Fixed>
                    <Focus_Mode_Edof support="1"></Focus_Mode_Edof>
         <Focus_Mode_Continuous_Video support="0"></Focus_Mode_Continuous_Video>
         <Focus_Mode_Continuous_Picture support="1"></Focus_Mode_Continuous_Picture>
                </FocusMode>
                <FlashMode>
                    <Flash_Mode_Off support="1"></Flash_Mode_Off>
                    <Flash_Mode_On support="1"></Flash_Mode_On>
                    <Flash_Mode_Torch support="1"></Flash_Mode_Torch>
                    <Flash_Mode_Auto support="1"></Flash_Mode_Auto>
                    <Flash_Mode_Red_Eye support="1"></Flash_Mode_Red_Eye>
                </FlashMode>
                <AntiBanding>
                    <Anti_Banding_Auto support="1"></Anti_Banding_Auto>
                    <Anti_Banding_50HZ support="1"></Anti_Banding_50HZ>
                    <Anti_Banding_60HZ support="1"></Anti_Banding_60HZ>
                    <Anti_Banding_Off support="1"></Anti_Banding_Off>
                </AntiBanding>
                <HDR support="1"></HDR>
                <ZSL support="1"></ZSL>
                <DigitalZoom support="1"></DigitalZoom>
                <Continue_SnapShot support="1"></Continue_SnapShot>
                <PreviewSize width="800" height="600"></PreviewSize>
                <DV>
<DV_QCIF name="qcif" width="176" height="144" fps="10" support="1"></DV_QCIF>
<DV_QVGA name="qvga" width="320" height="240" fps="10" support="1"></DV_QVGA>
<DV_CIF name="cif" width="352" height="288" fps="10" support="1"></DV_CIF>
<DV_VGA name="480p" width="640" height="480" fps="10" support="0"></DV_VGA>
<DV_480P name="480p" width="720" height="480" fps="10" support="0"></DV_480P>
<DV_720P name="720p" width="1280" height="720" fps="10" support="1"></DV_720P>
<DV_1080P name="1080p" width="1920" height="1080" fps="10" support="1"></DV_1080P>
                </DV>
            </SoftWareInfo>
        </CamDevie>
</BoardFile>

主要修改的内容如下:

  • Sensor 名称
<SensorName name="OV13850" ></SensorName>

该名字必须与 Sensor 驱动的名字一致,目前提供的 Sensor 驱动格式如下:

libisp_isi_drv_OV13850.so

用户可在编译 Android 完成后在目录 out/target/product/rk3288/system/lib/hw/ 下找到该摄像头驱动文件。

  • Sensor 软件标识
<SensorDevID IDname="CAMSYS_DEVID_SENSOR_1A"></SensorDevID>

注册标识不一致即可,可填写以下值:

CAMSYS_DEVID_SENSOR_1A
CAMSYS_DEVID_SENSOR_1B
CAMSYS_DEVID_SENSOR_2

  • 采集控制器名称
<SensorHostDevID busnum="CAMSYS_DEVID_MARVIN" ></SensorHostDevID>

目前只支持:

CAMSYS_DEVID_MARVIN
  • Sensor 所连接的主控 I2C 通道号
<SensorI2cBusNum busnum="3"></SensorI2cBusNum>

具体通道号请参考摄像头原理图连接主控的 I2C 通道号。

  • Sensor 寄存器地址长度,单位:字节
<SensorI2cAddrByte byte="2"></SensorI2cAddrByte>
  • Sensor 的 I2C 频率,单位:Hz,用于设置 I2C 的频率。
<SensorI2cRate rate="100000"></SensorI2cRate>
  • Sensor 输入时钟频率, 单位:Hz,用于设置摄像头的时钟。
<SensorMclk mclk="24000000"></SensorMclk>
  • Sensor AVDD 的 PMU LDO 名称。如果不是连接到 PMU,那么只需填写 NC。
<SensorAvdd name="NC" min="0" max="0"></SensorAvdd>
  • Sensor DOVDD 的 PMU LDO 名称。
<SensorDovdd name="NC" min="18000000" max="18000000"></SensorDovdd>

如果不是连接到 PMU,那么只需填写 NC。注意 min 以及 max 值必须填写,这决定了 Sensor 的 IO 电压。

  • Sensor DVDD 的 PMU LDO 名称。
<SensorDvdd name="NC" min="0" max="0"></SensorDvdd>

如果不是连接到 PMU,那么只需填写 NC。

  • Sensor PowerDown 引脚。
<SensorGpioPwdn ioname="RK30_PIN2_PB6" active="0"></SensorGpioPwdn>

直接填写名称即可,active 填写休眠的有效电平。

  • Sensor Reset 引脚。
<SensorGpioRst ioname="RK30_PIN2_PB7" active="0"></SensorGpioRst>

直接填写名称即可,active 填写复位的有效电平。

  • Sensor Power 引脚。
<SensorGpioPwen ioname="RK30_PIN0_PB3" active="1"></SensorGpioPwen>

直接填写名称即可, active 填写电源有效电平。

  • 选择 Sensor 作为前置还是后置。
<SensorFacing facing="front"></SensorFacing>

可填写 "front" 或 "back"。

  • Sensor 的接口方式
<SensorInterface mode="MIPI"></SensorInterface>

可填写如下值:

CCIR601
CCIR656
MIPI
SMIA
  • Sensor 的镜像方式
<SensorMirrorFlip mirror="0"></SensorMirrorFlip>

目前暂不支持。

  • Sensor 的角度信息
<SensorOrientation orientation="0"></SensorOrientation>
  • 物理接口设置
  • MIPI
<SensorPhy phyMode="CamSys_Phy_Mipi" lane="2" phyIndex="1" sensorFmt="CamSys_Fmt_Raw_10b">   </SensorPhy>
 hyMode:Sensor 接口硬件连接方式,对 MIPI Sensor 来说,该值取 "CamSys_Phy_Mipi"
 Lane:Sensor mipi 接口数据通道数
 Phyindex:Sensor mipi 连接的主控 mipi phy 编号
 sensorFmt:Sensor 输出数据格式,目前仅支持 CamSys_Fmt_Raw_10b
  • DVP
<SensorPhy phyMode="CamSys_Phy_Cif" sensor_d0_to_cif_d ="2" cif_num="0" sensorFmt="CamSys_Fmt_Raw_10b"></SensorPhy>
phyMode: Sensor 接口硬件连接方式,DVP Sensor 接口则为:CamSys_Phy_Cif
sensor_d0_to_cif_d:Sensor DVP 输出数据位 D0 对应连接的主控 DVP 接口的数据位号码
cif_num:Sensor DVP 连接到主控 DVP 接口编号
sensorFmt:Sensor 输出的数据格式,目前版本仅支持填写 CamSys_Fmt_Raw_10b

配置内核

在配置原理中提到,GPIO7_B4 需要在 DTS 和驱动中配置。其配置方法如下:

(1). DTS 文件添加 GPIO7_B4 配置属性

在 kernel/arch/arm/boot/dts/rk3288.dtsi 文件中添加 gpios-cifpower 属性,如下所示:

        isp: isp@ff910000{
                compatible = "firefly,isp";
               ...
                gpios-cifpower = <&gpio7 GPIO_B4 GPIO_ACTIVE_HIGH>;
           ...
                status = "okay";
        };

(2). 驱动中配置 CIF_POWER

在 kernel/drivers/media/video/rk_camsys/camsys_drv.c 中读取 gpios-cifpower ,并设置该引脚,使能 CIF_POWER,在probe函数camsys_platform_probe()中添加如下所示:

       enum of_gpio_flags flags;
       int cifpower_io;
       int io_ret;
       cifpower_io = of_get_named_gpio_flags(dev->of_node, "gpios-cifpower", 0, &flags);
       camsys_trace(1, "1-gpios-cifpower: gpio=%d", cifpower_io);
       if(gpio_is_valid(cifpower_io)){
               cifpower_io = of_get_named_gpio_flags(dev->of_node, "gpios-cifpower", 0, &flags);
               camsys_trace(1, "gpios-cifpower: gpio_request");
               io_ret = gpio_request(cifpower_io,"cifpower");
               camsys_trace(1, "1-gpios-cifpower: gpio_request=%d", io_ret);
               if(io_ret < 0){
                 camsys_err("Request %s(%d) failed","cifpower", cifpower_io);
               }
               else{
                       gpio_direction_output(cifpower_io, 1);
                       gpio_set_value(cifpower_io, 1);
                      camsys_trace(1, "gpios-cifpower: %d high", cifpower_io);
                   }
       }

(3). 编译内核

需将 drivers\media\video\rk_camsys 驱动源码编进内核,其配置方法如下:

在内核源码目录下执行命令:

make menuconfig

然后将以下配置项打开:

Device Drivers  --->
<*>Multimedia support  --->
        <*>camsys driver
         RockChip camera system driver  --->
                  <*> camsys driver for marvin isp
                  < > camsys driver for cif

最后执行:

make firefly-rk3288.img

即可完成内核的编译。

posted @ 2017-09-28 09:23  请给我倒杯茶  阅读(1331)  评论(0编辑  收藏  举报