找方案 | 基于NUVOTON MA35D1 在OpenWRT系统的 IP CAM方案

描述

 

OpenWRT系统为嵌入式设备的Linux作业系统,并且拥有庞大的软件包管理功能。它提供了一个完全可写的文件系统,可让伙伴们从应用程序的供应商所提供的清单来配置。并允许使用者来自定义的设备,以适任任何应用程序。对于即将进行开发的伙伴们而言,OpenWRT系统能快速建构应用程序的框架,而无需重新建立该应用程序完整的固件。这也意味着可以进行完全自行定制的能力。

 

接下来,为伙伴们提供 基于Nuvoton MA35D1 IoT平台上,建构 OpenWRT 的方法,并搭载UVC Camera 来实现 IP CAM 监控的基本应用。

 

A. 硬件环境 : NuMaker-IoT-MA35D1EVB 

NuMaker-IoT-MA35D1

系统

 

主要核心MA35D1 规格如下:  

MA35D16F987C with DDR3L (128 MB)

      # Dual Cortex-A35 core running up to 800 MHz

      # Cortex-M4 processor core running up to 180 MHz

      # Real-Time Clock (RTC)

      # Ethernet Poart : RGMII x1 and RMIIx1

      # USB2.0: Host x1 and OTG x1

      # SDIO: SD CARD x1

      # QSPI : QSPI FLASH

      # NAND: NAND Flash

      # GPIO/UART/I2C/I2S/ADC...

 

B. 软体建置, 建议使用 Ubuntu 20.04-LTS 的设备来架设

 

1. 安装 Docker

sudo apt-get update
 

sudo apt install apt-transport-https ca-certificates curl software-properties-common

sudo apt install build-essential ccache ecj fastjar file g++ gawk gettext git java-propose-classpath libelf-dev libncurses5-dev libncursesw5-dev libssl-dev python python2.7-dev python3 unzip wget python-distutils-extra python3-setuptools python3-dev rsync subversion swig time xsltproc zlib1g-dev libssl-dev device-tree-compiler

pip3 install pycryptodomex pyelftools pyusb usb crypto ecdsa crcmod tqdm pycryptodome

curl -fsSL https://download.docker.com/linux/ubuntu/gpg | sudo apt-key add -

sudo add-apt-repository "deb [arch=amd64] https://download.docker.com/linux/ubuntu focal stable"

sudo apt-get update

sudo apt-get install docker-ce docker-ce-cli containerd.io

git clone https://github.com/OpenNuvoton/MA35D1_Docker_Script.git

./build.sh

./join.sh

 

2. 新增并更换目录

mkdir shared/openwrt
 

cd shared/openwrt

 

3. 配置git 环境

git config –global user.email 

sac_test@sacsys.com.tw

git config –global user.name ‘sac_test”

 

4. 下载 NUVOTON Openwrt 源代码

sac@90440e70ea26:~/shared/openwrt$ git clone https://github.com/OpenNuvoton/MA35D1_OpenWrt.git
 

Cloning into 'MA35D1_OpenWrt'...

remote: Enumerating objects: 532695, done.

remote: Counting objects: 100% (61/61), done.

remote: Compressing objects: 100% (39/39), done.

remote: Total 532695 (delta 13), reused 44 (delta 9), pack-reused 532634

Receiving objects: 100% (532695/532695), 196.76 MiB | 1.19 MiB/s, done.

Resolving deltas: 100% (358529/358529), done.

Updating files: 100% (8566/8566), done.

sac@90440e70ea26:~/shared/openwrt$

 

5. 更新和安装 OpenWRT原代码

sac@312bc2ae8ba4:~/shared/openwrt/MA35D1_OpenWrt$ ./scripts/feeds update -a
 

Updating feed 'packages' from 'https://git.openwrt.org/feed/packages.git^78bcd00c13587571b5c79ed2fc3363aa674aaef7' ...

Create index file './feeds/packages.index'

Checking 'working-make'... ok.

Checking 'case-sensitive-fs'... ok.

Checking 'proper-umask'... ok.

Checking 'gcc'... ok.

Checking 'working-gcc'... ok.

Checking 'g++'... ok.

Checking 'working-g++'... ok.

Checking 'ncurses'... ok.

Checking 'perl-data-dumper'... ok.

Checking 'perl-findbin'... ok.

Checking 'perl-file-copy'... ok.

Checking 'perl-file-compare'... ok.

Checking 'perl-thread-queue'... ok.

 

sac@312bc2ae8ba4:~/shared/openwrt/MA35D1_OpenWrt$ ./scripts/feeds install -a

Installing package 'freeswitch-mod-bcg729' from telephony

Installing package 'freetdm' from telephony

Installing package 'kamailio' from telephony

Installing package 'libosip2' from telephony

Installing package 'miax' from telephony

Installing package 'pcapsipdump' from telephony

Installing package 'restund' from telephony

Installing package 'rtpengine' from telephony

Installing package 'rtpproxy' from telephony

Installing package 'sipgrep' from telephony

Installing package 'sipp' from telephony

Installing package 'siproxd' from telephony

Installing package 'sngrep' from telephony

Installing package 'yate' from telephony

sac@312bc2ae8ba4:~/shared/openwrt/MA35D1_OpenWrt$

 

6. 配置并导入预设的内核设定文档

sac@312bc2ae8ba4:~/shared/openwrt/MA35D1_OpenWrt$ make menuconfig
 

Collecting package info: done

configuration written to .config

*** End of the configuration.

*** Execute 'make' to start the build or try 'make help'.

sac@312bc2ae8ba4:~/shared/openwrt/MA35D1_OpenWrt$

系统系统

 

sac@312bc2ae8ba4:~/shared/openwrt/MA35D1_OpenWrt$ make kernel_menuconfig
 

"Image/Build" squashfs

"Image/Build" ext4

time: target/linux/prereq#0.33#0.25#0.52

make[1] toolchain/install

make[2] tools/compile

make[3] -C tools/flock compile

make[3] -C tools/xz compile

make[3] -C tools/sed compile

make[3] -C tools/tar compile

make[3] -C tools/patch compile

make[3] -C tools/m4 compile

 

7. 配置完成开始编译sac@312bc2ae8ba4:~/shared/openwrt/MA35D1_OpenWrt$ make

 

8. 编译完成后,执行烧录,值得注意的是需离开 Docker 后才能正确的烧录成功

user@ubuntu:~/MA35D1/MA35D1_NuWriter$ lsusb
 

Bus 001 Device 008: ID 0416:5963 Winbond Electronics Corp.

Bus 001 Device 001: ID 1d6b:0002 Linux Foundation 2.0 root hub

Bus 002 Device 004: ID 0e0f:0008 VMware, Inc. VMware Virtual USB Mouse

Bus 002 Device 003: ID 0e0f:0002 VMware, Inc. Virtual USB Hub

Bus 002 Device 002: ID 0e0f:0003 VMware, Inc. Virtual Mouse

Bus 002 Device 001: ID 1d6b:0001 Linux Foundation 1.1 root hub

user@ubuntu:~/MA35D1/MA35D1_NuWriter$ sudo python3 ./nuwriter.py -a ./ddrimg/enc_ddr3_winbond_512mb.bin

Successfully attached 1 device(s) 

 

==== NAND ====

 

Page per block: 64

Page size: 2048

Block per flash: 4096

Bad block count: 0

Spare size: 64

Is uer config: 0

 

==== SPI NOR ====

 

ID: 0

Is uer config: 0

Quad read cmd: 0

Read sts cmd: 0

Write sts cmd: 0

Sts value: 0

Dummy byte: 0

 

==== eMMC ====

 

Block: 0

Reserved: 0

 

==== SPI NAND ====

 

Is uer config: 0

ID: 15710755

Page size: 2048

Spare size: 64

Quad read cmd: 107

Read sts cmd: 5

Write sts cmd: 1

Sts value: 2

Dummy byte: 1

Block per flash: 4096

Page per block: 64 

 

Successfully get info from 1 device(s)

user@ubuntu:~/MA35D1/MA35D1_NuWriter$ sudo python3 ./nuwriter.py -e nand all

 

100%|##########                                                                

Successfully erased 1 device(s)

user@ubuntu:~/MA35D1/MA35D1_NuWriter$ sudo python3

python3           python3.8         python3.8-config  python3-config

user@ubuntu:~/MA35D1/MA35D1_NuWriter$ sudo python3 ./nuwriter.py -w nand ../MA35D1_

MA35D1_Docker_Script/ MA35D1_NuWriter/     

user@ubuntu:~/MA35D1/MA35D1_NuWriter$ sudo python3 ./nuwriter.py -w nand ../MA35D1_

MA35D1_Docker_Script/ MA35D1_NuWriter/     

user@ubuntu:~/MA35D1/MA35D1_NuWriter$ sudo python3 ./nuwriter.py -w nand /home/user/openwrt/MA35D1_OpenWrt/bin/targets/ma35d1/iot/openwrt-ma35d1-iot-iot-

openwrt-ma35d1-iot-iot-128m-header-nand.bin

openwrt-ma35d1-iot-iot-128m.manifest

openwrt-ma35d1-iot-iot-128m-pack-nand.bin

openwrt-ma35d1-iot-iot-128m-rootfs.tar.gz

openwrt-ma35d1-iot-iot-128m-squashfs-firmware.bin

openwrt-ma35d1-iot-iot-128m-squashfs-sysupgrade.bin

openwrt-ma35d1-iot-iot-128m-uImage

openwrt-ma35d1-iot-iot-512m-header-nand.bin

openwrt-ma35d1-iot-iot-512m.manifest

openwrt-ma35d1-iot-iot-512m-pack-nand.bin

openwrt-ma35d1-iot-iot-512m-rootfs.tar.gz

openwrt-ma35d1-iot-iot-512m-squashfs-firmware.bin

openwrt-ma35d1-iot-iot-512m-squashfs-sysupgrade.bin

openwrt-ma35d1-iot-iot-512m-uImage

user@ubuntu:~/MA35D1/MA35D1_NuWriter$ sudo python3 ./nuwriter.py -w nand /home/user/openwrt/MA35D1_OpenWrt/bin/targets/ma35d1/iot/openwrt-ma35d1-iot-iot-512m-pack-nand.bin

Waiting for unpack Images ...

check pack file crc32 ...

Programming 1/7: 100%|##########                Programming 2/7: 100%|##########                Programming 3/7: 100%|##########                Programming 4/7: 100%|##########                Programming 5/7: 100%|##########                Programming 6/7: 100%|##########                Programming 7/7: 100%|##########                Successfully programmed 1 device(s)

 

9. 执行到此,伙伴们已经可以看到开机的讯息了对吧?

INFO:    ma35d1 config setup

INFO:    1.25V

WARNING: CA-PLL is 800000000 Hz without PSCI setting.

POR: 0x900

INFO:    Boot from NAND

INFO:    NAND: Size 1024MB, Page 2048, pages per block 64, oob size 64, bit correct 8

NOTICE:  BL2: v2.3(release):OpenWrt v2.3-3 (ma35d1-cpu800-wb-512m)

系统

 

接下来为了顺利执行摄相头的应用,需额外增设内核的配置,小弟为大家整理出来所需要的清单如下。

 

CONFIG_PACKAGE_librt=y

CONFIG_PACKAGE_libstdcpp=y

CONFIG_PACKAGE_kmod-input-core=y

CONFIG_PACKAGE_kmod-nls-base=y

CONFIG_PACKAGE_kmod-dma-buf=y

CONFIG_PACKAGE_kmod-usb-core=y

CONFIG_PACKAGE_kmod-usb-ehci=y

CONFIG_PACKAGE_kmod-usb2=y

CONFIG_PACKAGE_kmod-video-core=y

CONFIG_PACKAGE_kmod-video-cpia2=y

CONFIG_PACKAGE_kmod-video-gspca-core=y

CONFIG_PACKAGE_kmod-video-pwc=y

CONFIG_PACKAGE_kmod-video-uvc=y

CONFIG_PACKAGE_kmod-video-videobuf2=y

CONFIG_PACKAGE_libjpeg-turbo=y

CONFIG_PACKAGE_libprotobuf-c=y

CONFIG_PACKAGE_libuuid=y

CONFIG_PACKAGE_libv4l=y

CONFIG_PACKAGE_libzmq-nc=y

CONFIG_PACKAGE_mjpg-streamer=y

CONFIG_MJPG_STREAMER_V4L2=y

CONFIG_PACKAGE_mjpg-streamer-input-file=y

CONFIG_PACKAGE_mjpg-streamer-input-http=y

CONFIG_PACKAGE_mjpg-streamer-input-uvc=y

CONFIG_PACKAGE_mjpg-streamer-output-file=y

CONFIG_PACKAGE_mjpg-streamer-output-http=y

CONFIG_PACKAGE_mjpg-streamer-output-rtsp=y

CONFIG_PACKAGE_mjpg-streamer-output-zmq=y

CONFIG_PACKAGE_mjpg-streamer-www-simple=y 

 

接下来为伙伴们演示 OpenWRT软路由的基本页面,在使用 ifconfig -a 得知网关的位址为 192.168.0.175时,我们可以在熟悉的浏览器上键入 IP 位置,来登入软路由的管理页面。

如下图所示,能得知 Nuvoton MA35D1-IoT的系统信息。

系统系统

 

C. 再来为伙伴们演示如何透过软路由的camera 来实现 IP CAM的应用。

 

1. 配置摄像头输入的资料所期望的分办率和侦数,也可同时配置输出串口,本次演练是使用预设的串口 8080,并搭配方便又容易取得的 USB摄像头。

 

root@OpenWrt:/# mjpg_streamer -i "input_uvc.so -r HD -f 30 -d /dev/video0" -o "output_http.so"

 MJPG Streamer Version.: 2.0

 i: Using V4L2 device.: /dev/video0

 i: Desired Resolution: 1280 x 720

 i: Frames Per Second.: 30

 i: Format............: JPEG

 i: TV-Norm...........: DEFAULT

root@OpenWrt:/#

root@OpenWrt:/# /etc/init.d/mjpg-streamer enable

root@OpenWrt:/# /etc/init.d/mjpg-streamer start

root@OpenWrt:/#

 

此时我们已经可以在同一网域下,使用行动装置或是电脑的浏览器来透过网关的IP地址监看串流的影像。

系统

 

伙伴们一定很好奇,可以远端查看监控画面,是否能将摄像头画面录制下来呢?小弟再多新增一个方法让来录影
 

 

接上SD card

 

umount /dev/sda1

e2fsck /dev/sda1

mount /dev/sda1 /mnt

mjpg_streamer -i "input_uvc.so -d /dev/video0 " -o "output_http.so -p 8080 -o" -o "output_file12h.so -f /mnt -d 1000"

 

本次的演练就到此,有兴趣的伙伴们,可以一起来探讨和研究,谢谢。

 

►场景应用图

系统

 

►产品实体图

系统

 

►展示板照片

系统系统

 

►方案方块图

系统

 

►核心技术优势

MA35D1 特色:

1. 核心为 A35与M4的集成,各司其职;

2. 独立的加密岛,系统更加安全;

3. 两种封装(LQFP与BGA),依照不同应用,多种选择;

4. 内涵记忆体(128MB/256MB/512MB),不须外挂,简化设计;

5. 界面丰富,应用多样;

 

►方案规格

处理器(MPU): NUVOTON MA35D1;

网路接口 : 有线网路 RJ45 x2 (RGMII), 无线网路(SDIO WIFI module);

相机规格: 720P @ 30;

作业系统: OpenWRT。

 

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