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MY-IMX6-EK140 Linux-4.1.15 测试手册 
 +
 
 +
<br />
 +
 
 +
### 测试环境 
 +
* 开发板型号:MYZR-IMX6-EK140-6Y
 +
* 内核版本:Linux-4.1.15 
 +
* 文件系统:L4115-core-image-base-myimx6a7.tar.bz2
 +
 +
### 测试前的准备
 +
1)请按照《[[MYZR-IMX6-EK140 启动手册|Linux快速启动手册]]》中的“Linux快速启动” -> “连接设备”进行连接。
 +
 +
2)请按照《[[MYZR-IMX6-EK140 启动手册|Linux快速启动手册]]》中的“Linux快速启动” -> “启动设备”进行启动。
 +
 
  
='''测试项目(Test Item)'''=
+
### 网口测试
-------
+
  MYZR-IMX6-EK140 支持1个百兆网口。<br/>
===测试说明(test description):===
 
:开发板的登录密码是:root。
 
:<span style="background:#CCCCCC">The login password of the development board is:root.</span><br>
 
  
== '''网口测试( test of network interface)''' ==
+
**接口属性** 
===测试方法(test method)===
+
  ENET 接口位置:P2
1)连接网线,将板子和电脑的网口用网线相连。<br>
+
 
1)<span style="background:#CCCCCC">Connect the network cable, connect the board to the computer network interface with the network cable.</span><br>
+
**测试方法** 
2)设置计算机有线网卡IP为192.168.18.18<br>
+
1)配置计算机IP 
2)<span style="background:#CCCCCC">Set IP of cable network interface card for computer as 192.168.18.18</span><br>
+
设置计算机有线网卡IP为: 192.168.18.18   
 +
2)ENET 连接测试   
 +
连接网线:将评估板“ENET”对应的接口与计算机有线网卡的接口用网线相连接。       
 +
*设置评估板IP:
 +
<pre>
 +
# ifconfig eth0 192.168.18.100
 +
</pre> 
 +
*执行测试命令:
 +
<pre>
 +
# ping 192.168.18.18 -c 4
 +
</pre>
 +
 
 +
*观察测试结果,系统会输出类似如下信息:
 +
<pre>
 +
PING 192.168.18.18 (192.168.18.18): 56 data bytes
 +
64 bytes from 192.168.18.18: seq=0 ttl=64 time=2.848 ms
 +
64 bytes from 192.168.18.18: seq=1 ttl=64 time=0.496 ms
 +
64 bytes from 192.168.18.18: seq=2 ttl=64 time=0.478 ms
 +
64 bytes from 192.168.18.18: seq=3 ttl=64 time=0.518 ms
 +
 
 +
--- 192.168.18.18 ping statistics ---
 +
4 packets transmitted, 4 packets received, 0% packet loss
 +
round-trip min/avg/max = 0.478/1.085/2.848 ms 
 +
</pre>
 +
*测试结果:“0% packet loss”表示测试通过。
 +
 
 +
###USB 测试 
 +
**接口属性** 
 +
  接口位置:P3 <br/>
 +
 
 +
**测试方法**<br/>
 +
1)开始测试
 +
将USB设备(U盘)插入底板USB接口,系统会输出类似如下信息:
 +
<pre>
 +
usb 1-1: new high-speed USB device number 2 using ci_hdrc
 +
usb-storage 1-1:1.0: USB Mass Storage device detected
 +
scsi host0: usb-storage 1-1:1.0
 +
scsi 0:0:0:0: Direct-Access    SMI      USB DISK        1100 PQ: 0 ANSI: 0 CCS
 +
sd 0:0:0:0: Attached scsi generic sg0 type 0
 +
sd 0:0:0:0: [sda] 15730688 512-byte logical blocks: (8.05 GB/7.50 GiB)
 +
sd 0:0:0:0: [sda] Write Protect is off
 +
sd 0:0:0:0: [sda] No Caching mode page found
 +
sd 0:0:0:0: [sda] Assuming drive cache: write through
 +
sda:
 +
sd 0:0:0:0: [sda] Attached SCSI removable disk
 +
</pre>
 +
2)结束测试
 +
将USB设备从底板拔出,系统会输出类似如下信息:
 +
<pre>
 +
usb 1-1: USB disconnect, device number 2 
 +
</pre>   
 +
*测试结果:如上“(8.05 GB/7.50 GiB)”能识别U盘的大小表示测试通过。 
 +
 
 +
### TF卡测试 
 +
**接口属性** 
 +
  接口位置:P5 
 +
  接口类型:MicroSD<br/>
 +
   
 +
**测试方法**<br/>
 +
1)开始测试 
 +
断电下,插入TF卡到底板背面的TF卡接口后再启动系统 
 +
输入如下命令: 
 +
<pre>
 +
# dmesg | grep mmc0 
 +
</pre>
 +
系统输出类似以下信息,即表示 TF 接口正常: 
 +
<pre>
 +
mmc0: SDHCI controller on 2190000.usdhc [2190000.usdhc] using ADMA
 +
mmc0: host does not support reading read-only switch, assuming write-enable
 +
mmc0: new high speed SDHC card at address 1234
 +
mmcblk0: mmc0:1234 SA32G 28.9 GiB 
 +
</pre>
 +
 
 +
2)查看系统的TF卡设备 
 +
输入如下命令:
 +
<pre>
 +
# ls /dev/mmcblk0* 
 +
</pre>
 +
系统会输出以下信息:
 +
<pre>
 +
/dev/mmcblk0    /dev/mmcblk0p1
 +
</pre>
 +
 
 +
### RGB屏测试
 +
测试说明;显示模块的连接不可接错,避免烧板;
 +
*具体连接参考《[[MYZR-IMX6-EK140P 启动手册|Linux快速启动手册]]》里的显示屏模块连接里的附图
 +
*开发板开机进入系统后,屏幕上有如下几行文字显示如下:
 +
<pre>
 +
Freescale i.MX Release Distro 4.1.15-2.1.0 myimxlek140/dev/tty1
 +
imx6ek140 login:
 +
</pre>
 +
屏幕上出现以上显示则说明屏幕正常。 
 +
 
 +
<br/>
 +
### GPIO-LED 测试(led-heartbeat)
 +
 
 +
--------------------------------------------------------------------------------
 +
  【测试说明】:观察实现为led-heartbeat的LED 
 +
  【接口标识】:USER LIGHT 
 +
  【接口丝印】:D2 
 +
  【系统接口】:/sys/class/leds/Heartbeat/ 
 +
**测试操作** 
 +
  无需任何操作 
 +
**测试结果** 
 +
  系统启动后可以看到 D2 在有规律的闪烁,即表示应该功能正常。 
 +
 
 +
<br/>
 +
### GPIO-LED 测试(led-timer)
 +
 
 +
--------------------------------------------------------------------------------
 +
  【测试说明】:控制实现为led-timer(LED)的亮灭时间 
 +
  【接口标识】:USER LIGHT 
 +
  【接口丝印】:D3 
 +
  【系统接口】:/sys/class/leds/led-timer/ 
 +
**测试操作** 
 +
  更改灭的时间: 
 +
<pre>
 +
=====> 输入指令:
 +
echo 1000 > /sys/class/leds/led-timer/delay_off 
 +
</pre>
 +
  更改亮的时间: 
 +
<pre>
 +
=====> 输入指令:
 +
echo 2000 > /sys/class/leds/led-timer/delay_on 
 +
</pre>
 +
**测试结果** 
 +
  执行上面两条指令后,发现对应LED亮的持续时间为2秒,LED灭的持续时间为1秒。
 +
 
 +
<br/>
 +
### GPIO-LED 测试(led-default)
 +
 
 +
--------------------------------------------------------------------------------
 +
  【测试说明】:控制实现为led-default(LED)的亮灭状态 
 +
  【接口标识】:USER LIGHT 
 +
  【接口丝印】:D4 
 +
  【系统接口】:/sys/class/leds/default/ 
 +
**测试操作** 
 +
  **说明:**系统启动后默认状态为常亮。 
 +
  使 D4 灭:   
 +
<pre>
 +
=====> 输入指令:
 +
echo 0 > /sys/class/leds/default/brightness 
 +
</pre>
 +
  使 D4 亮: 
 +
<pre>
 +
=====> 输入指令:
 +
echo 1 > /sys/class/leds/default/brightness 
 +
</pre>
 +
**测试结果** 
 +
  执行指令后,发现对应LED的状态随指令的功能进行改变。
 +
 
 +
<br/>
 +
### 串口测试(UART2)
 +
 
 +
--------------------------------------------------------------------------------
 +
  【测试说明】:采用串口自发自收的方式进行测试 
 +
  【接口标识】:IO 
 +
  【接口位置】:P7:11,12 
 +
  【系统设备】:/dev/ttymxc1 
 +
**测试操作** 
 +
  短接串口2的发送发接收管脚(P7的11和12号管脚) 
 +
  执行测试指令:
 +
<pre>
 +
=====> 输入指令:
 +
/my-demo/gcc-linaro-5.3-arm/serial_test.out /dev/ttymxc1 "www.myzr.com.cn" 
 +
 
 +
=====> 输出信息:
 +
Starting send data...finish
 +
Starting receive data:
 +
ASCII: 0x77      Character: w
 +
ASCII: 0x77      Character: w
 +
ASCII: 0x77      Character: w
 +
ASCII: 0x2e      Character: .
 +
ASCII: 0x6d      Character: m
 +
ASCII: 0x79      Character: y
 +
ASCII: 0x7a      Character: z
 +
ASCII: 0x72      Character: r
 +
ASCII: 0x2e      Character: .
 +
ASCII: 0x63      Character: c
 +
ASCII: 0x6f      Character: o
 +
ASCII: 0x6d      Character: m
 +
ASCII: 0x2e      Character: .
 +
ASCII: 0x63      Character: c
 +
ASCII: 0x6e      Character: n
 +
ASCII: 0x0      Character: 
 +
</pre>
 +
**测试结果** 
 +
  执行测试指令后,应用输出如上类似信息即正常。 
 +
 
 +
<br/>
 +
### 串口测试(UART3)
 +
 
 +
--------------------------------------------------------------------------------
 +
  【测试说明】:采用串口自发自收的方式进行测试 
 +
  【接口标识】:IO 
 +
  【接口位置】:P7:13,14 
 +
  【系统设备】:/dev/ttymxc2 
 +
**测试命令** 
 +
  短接串口2的发送发接收管脚(P7的13和14号管脚) 
 +
  执行测试指令:
 +
<pre>
 +
=====> 输入指令:
 +
/my-demo/gcc-linaro-5.3-arm/serial_test.out /dev/ttymxc2 "www.myzr.com.cn" 
 +
 
 +
=====> 输出信息:
 +
Starting send data...finish
 +
Starting receive data:
 +
ASCII: 0x77      Character: w
 +
ASCII: 0x77      Character: w
 +
ASCII: 0x77      Character: w
 +
ASCII: 0x2e      Character: .
 +
ASCII: 0x6d      Character: m
 +
ASCII: 0x79      Character: y
 +
ASCII: 0x7a      Character: z
 +
ASCII: 0x72      Character: r
 +
ASCII: 0x2e      Character: .
 +
ASCII: 0x63      Character: c
 +
ASCII: 0x6f      Character: o
 +
ASCII: 0x6d      Character: m
 +
ASCII: 0x2e      Character: .
 +
ASCII: 0x63      Character: c
 +
ASCII: 0x6e      Character: n
 +
ASCII: 0x0      Character: 
 +
</pre>
 +
**测试结果** 
 +
  执行测试指令后,应用输出如上类似信息即正常。 
 +
 
 +
<br/>
 +
### SPI测试(ECSPI1)
 +
 
 +
--------------------------------------------------------------------------------
 +
  【测试说明】:采用自发自收的方式测试。 
 +
  【接口标识】:IO 
 +
  【接口丝印】:P8: 24,26 
 +
  【系统设备】:/dev/spidev0.
 +
**测试操作** 
 +
  短接P8的24和26管脚。 
 +
  执行测试指令 
 +
<pre>
 +
=====> 输入指令:
 +
/my-demo/gcc-linaro-5.3-arm/spidev_test.out -D /dev/spidev0.0 
 +
 
 +
=====> 输出信息:
 +
spi mode: 0
 +
bits per word: 8
 +
max speed: 500000 Hz (500 KHz)
 +
 
 +
FF FF FF FF FF FF 
 +
40 00 00 00 00 95 
 +
FF FF FF FF FF FF 
 +
FF FF FF FF FF FF 
 +
FF FF FF FF FF FF 
 +
DE AD BE EF BA AD 
 +
F0 0D
 +
</pre>
 +
**测试结果** 
 +
  执行测试指令后,应用输出如上类似信息即正常。 
 +
 
 +
<br/>
 +
### SPI测试(ECSPI2)
 +
 
 +
--------------------------------------------------------------------------------
 +
  【测试说明】:采用自发自收的方式测试。 
 +
  【接口标识】:IO 
 +
  【接口丝印】:P8: 23,25 
 +
  【系统设备】:/dev/spidev1.
 +
**测试操作** 
 +
  短接P8的23和25管脚。 
 +
  执行测试指令
 +
<pre>
 +
=====> 输入指令:
 +
/my-demo/gcc-linaro-5.3-arm/spidev_test.out -D /dev/spidev1.
 +
 
 +
=====> 输出信息:
 +
spi mode: 0
 +
bits per word: 8
 +
max speed: 500000 Hz (500 KHz)
 +
 
 +
FF FF FF FF FF FF 
 +
40 00 00 00 00 95 
 +
FF FF FF FF FF FF 
 +
FF FF FF FF FF FF 
 +
FF FF FF FF FF FF 
 +
DE AD BE EF BA AD 
 +
F0 0D
 +
</pre>
 +
**测试结果** 
 +
  执行测试指令后,应用输出如上类似信息即正常。 
 +
 
 +
<br/>
 +
### Watchdog 喂狗测试
 +
 
 +
--------------------------------------------------------------------------------
 +
  【测试说明】:开启看门狗,并使应用程序喂狗。 
 +
  【接口标识】:无 
 +
  【接口丝印】:无 
 +
  【系统设备】:/dev/watchdog 
 +
**测试操作** 
 +
  运行看门狗程序,并设置超时时间为4秒,喂狗间隔时间为2秒: 
 +
<pre>
 +
=====> 输入指令:
 +
/unit_tests/wdt_driver_test.out 4 2 1 & 
 +
 
 +
=====> 输出信息:
 +
[1] 831
 +
Starting wdt_driver (timeout: 4, sleep: 2, test: write)
 +
Trying to set timeout value=4 seconds
 +
The actual timeout was set to 4 seconds
 +
Now reading back -- The timeout is 4 seconds
 +
</pre>
 +
**测试结果** 
 +
  系统正常工作,表示喂狗功能正常。
 +
 
 +
<br/>
 +
### wakealarm 唤醒测试
 +
 
 +
--------------------------------------------------------------------------------
 +
  【测试说明】:设定 wakealarm 事件,之后使系统进入睡眠,等待 wakealarm 事件唤醒。 
 +
  【接口标识】:无 
 +
  【接口丝印】:无 
 +
  【系统设备】:如 /sys/class/rtc/rtc0/wakealarm 
 +
**测试操作** 
 +
  1. 设定 rtc0,使 10 秒后产生 wakealarm 事件
 +
<pre>
 +
=====> 输入指令:
 +
echo +10 > /sys/class/rtc/rtc0/wakealarm
 +
</pre>
 +
 
 +
  2. 使设备进入睡眠
 +
<pre>
 +
=====> 输入指令:
 +
echo mem > /sys/power/state
 +
 
 +
=====> 输出信息:
 +
PM: Syncing filesystems ... done.
 +
Freezing user space processes ... (elapsed 0.007 seconds) done.
 +
Freezing remaining freezable tasks ... (elapsed 0.001 seconds) done.
 +
Suspending console(s) (use no_console_suspend to debug)
 +
</pre>
 +
**测试结果** 
 +
  1. 可以看到开发板的除电源指示灯以外的 LED 都灭了。 
 +
  2. 10内 LED 的状态又恢复了,并且系统输出类似如下信息:
 +
<pre>
 +
PM: suspend of devices complete after 708.601 msecs
 +
PM: suspend devices took 0.710 seconds
 +
PM: late suspend of devices complete after 2.543 msecs
 +
PM: noirq suspend of devices complete after 2.410 msecs
 +
Disabling non-boot CPUs ...
 +
PM: noirq resume of devices complete after 1.494 msecs
 +
PM: early resume of devices complete after 1.571 msecs
 +
PM: resume of devices complete after 223.182 msecs
 +
PM: resume devices took 0.230 seconds
 +
Restarting tasks ... done.
 +
</pre>
 +
<br/>
 +
### 背光测试
 +
 
 +
--------------------------------------------------------------------------------
 +
  【测试说明】:通过设置背光亮度值验证评估板的背光功能。 
 +
  【接口标识】:LCD DISPLAY
 +
  【系统设备】:backlight 
 +
**测试操作** 
 +
  1. 查看最大背光亮度值。 
 +
<pre>
 +
=====> 输入指令:
 +
cat /sys/class/backlight/backlight/max_brightness
 +
 
 +
=====> 输出信息:
 +
7
 +
</pre>
 +
  2. 设置背光亮度,直接看显示屏亮度。
 +
<pre>
 +
=====> 输入指令:
 +
echo 5 > /sys/class/backlight/backlight/brightness
 +
cat /sys/class/backlight/backlight/brightness
 +
 
 +
=====> 输出信息:
 +
5
 +
</pre>
 +
**测试结果** 
 +
  执行上面的测试命令后会看到显示屏的亮度发生变化。 
 
<br>
 
<br>
[[文件:MY-IMX6-ek140 L41115 1.2.1.0 .jpg|520px]]<br>
+
###CPU温度测试
3) 设置评估板IP:ifconfig eth0 192.168.18.100<br>
+
  【测试说明】:查看CPU温度<br>
3)<span style="background:#CCCCCC">Set up the evaluation board IP: ifconfig eth0 192.168.18.100</span><br>
+
  【接口标识】:无<br>
4)执行测试命令:ping 192.168.18.18 -c 4<br>
+
  【系统设备】:/sys/class/thermal/thermal_zone0/temp<br>
4)<span style="background:#CCCCCC">execute test command:ping 192.168.18.18 -c 4 </span><br>
+
**测试操作** 
5)测试结果:“0% packet loss”表示测试通过<br>
+
  1. 输入命令
5)<span style="background:#CCCCCC">test reuslt:“0% packet loss” represent passing of test</span><br>
+
<pre>
测试通过会出现如下信息:<br>
+
=====> 输入指令:
<span style="background:#CCCCCC">The following information will appear after passing the test:</span><br>
+
echo $[$(cat /sys/class/thermal/thermal_zone0/temp)/1000]
附图(figures):<br>
+
=====> 输出信息:
<br>
+
53</pre>
[[文件:MY-IMX6-ek140 L41115_1.2.1.1.jpg|642px]]
 
  
== '''USB测试(USB test)''' ==
+
**测试结果** 
 +
53表示CPU的温度为53°<br>
  
===测试方法(test method)===
+
### usb识别为网口测试
1)将U盘插入开发板,系统会输出类似如下信息:<br>
+
  【测试说明】:通过mini usb线将usb识别为网口<br>
1)<span style="background:#CCCCCC">Insert the usb drive into the development board,system will output information like below.</span><br>
+
  【接口标识】:P4<br>
[[文件:MY-IMX6-ek140 L41115_1.3.1.0.jpg|642px]] <br>
+
  【系统设备】:usb0<br>
2)能识别U盘的大小,则测试通过。<br>
+
**测试操作** 
2)<span style="background:#CCCCCC"> can identify the size of the usb disk, and the test is passed.</span><br>
+
  1. 载入模块
 +
<pre>
 +
=====> 输入指令:
 +
# modprobe g_ether
 +
=====> 输出信息:
 +
using random self ethernet address
 +
using random host ethernet address
 +
usb0: HOST MAC 4a:d6:a1:ff:e6:53
 +
usb0: MAC 12:e3:37:e8:7a:ab
 +
using random self ethernet address
 +
using random host ethernet address
 +
g_ether gadget: Ethernet Gadget, version: Memorial Day 2008
 +
g_ether gadget: g_ether ready
 +
root@myimx6ek140p:/# IPv6: ADDRCONF(NETDEV_UP): usb0: link is not ready
 +
g_ether gadget: high-speed config #2: RNDIS
 +
IPv6: ADDRCONF(NETDEV_CHANGE): usb0: link becomes ready
 +
</pre>
  
== '''SD卡测试(SD card test)''' ==
+
  2. 设置IP
 +
<pre>
 +
=====> 输入指令:
 +
# ifconfig usb0 192.168.7.2
 +
将PC识别的rndis的本地连接IP设置为192.168.7.8
 +
</pre>
 +
  3. 测试网口
 +
<pre>
 +
=====> 输入指令:
 +
# ping 192.168.7.8 -c 2 -w 4
 +
=====> 输出信息:
 +
PING 192.168.7.8 (192.168.7.8) 56(84) bytes of data.
 +
64 bytes from 192.168.7.8: icmp_seq=1 ttl=64 time=0.609 ms
 +
64 bytes from 192.168.7.8: icmp_seq=2 ttl=64 time=0.630 ms
  
===测试方法(test method)===
+
--- 192.168.7.8 ping statistics ---
1)断电,插入SD卡,上电。<br>
+
2 packets transmitted, 2 received, 0% packet loss, time 999ms
1)<span style="background:#CCCCCC">power off, insert SD card and power up</span><br>
+
rtt min/avg/max/mdev = 0.609/0.619/0.630/0.027 ms
2)进入系统后,用命令:dmesg | grep mmc0 查询,会有以下输出:<br>
+
</pre>
2)<span style="background:#CCCCCC">after entering the system, query with the command: dmesg | grep mmc0, and the following output will be: </span><br>
 
[[文件:MY-IMX6-140_L41115_1.4.1.0.jpg|840px]]
 
  
== '''RGB屏测试(RGB screen test)''' ==
+
**测试结果** 
===测试说明(test instruction)===
+
“0% packet loss”表示测试通过
1)开发板开机进入系统后,屏幕上有几行文字,如图:<br>
+
<br>
1)<span style="background:#CCCCCC">After the development board is booted into the system, there are several lines of text on the screen, as shown in the figure:</span><br>
 
[[文件:MY-IMX6-ek140 L41115_1.5.1.0.jpg|642px]]<br>
 
2)出现以上显示则说明屏幕正常<br>
 
2)<span style="background:#CCCCCC">If the above display appears, the screen is normal</span><br>
 
  
== '''串口测试( serial port test)''' ==
+
注:若WIN10识别rndis为COM口,则需要下载驱动kindle_rndis.inf_amd64-v1.0.0.1.zip
===测试说明(test instruction):===<br>
+
解压后,以管理员权限执行5-runasadmin_register-CA-cer.cmd,然后在COM口处双击,在计算机中查找解压的驱动程序,这样就会有rndis网络了。
1)评估板总共有8路串口,其中uart1用作调试串口,uart6,uart7,uart8用作LCD,所以有4路串口可供测试使用。<br>
+
<br>
1)<span style="background:#CCCCCC">There are a total of 8 serial ports for the assessment board, where UART1 is used as a debugging serial port, UART 6, UART 7, and uart8 are used as LCDs, so there are 4 serial ports for testing.</span><br>
 
2)uart1对应的操作文件是/dev/ttymxc0,uart2对应的是/dev/ttymxc1,以此类推。<br>
 
2)<span style="background:#CCCCCC">The operating file corresponding to UART1 is / dev / ttymx0, uart2 corresponds to / dev / ttymxc1, and so on.</span><br>
 
3)以uart2为例,通过自发自收的方式来测试。<br>
 
3)<span style="background:#CCCCCC">Take uart2 as an example, which is tested by spontaneous self-collection.</span><br>
 
  
===测试方法(test method) ===
+
###tftp更新镜像
1)将uart2_rxd和uart2_txd短接,查看原理,分别对应P7的11和12脚,将他们短接。<br>
+
  【测试说明】:可更新dtb、zImage、u-boot、u-boot环境变量<br>
1)<span style="background:#CCCCCC">Short uart2_rxd and uart2_txd to see how it works, corresponding to the 11 and 12 legs of P7 respectively, short them.</span><br>
+
  【接口标识】:无<br>
2)执行测试命令:/home/root/my-demo/linux-4.1.15/uart_test.out /dev/ttymxc1<br>
+
  【系统设备】:无<br>
2)<span style="background:#CCCCCC">execute test command:/home/root/my-demo/linux-4.1.15/uart_test.out /dev/ttymxc1</span><br>
+
**测试操作** 
3)测试结果如下显示则表示测试通过<br>
+
  电脑端打开软件 tftpd 地址设置为需更换的文件所在的目录。   
3)<span style="background:#CCCCCC">Test results are shown below to indicate that the test passed</span><br>
+
  把开发板的这个网口用网线跟电脑网口连接起来。 
[[文件:MY-IMX6-ek140-L41115_1.6.1.0.jpg|840px]]<br>
+
  进入u-boot命令行。<br>
4)其他串口测试和uart2的方法一样。<br>
+
  1. 设置IP
4)<span style="background:#CCCCCC">Other serial port tests are the same as the uart2 method.</span><br>
+
<pre>
 +
=====> 输入指令:
 +
设置开发板IP:setenv ipaddr 192.168.137.9
 +
设置电脑IP:setenv serverip 192.168.137.99
 +
设置MAC地址:setenv ethaddr 00:00:00:00:00:03
 +
测试网络: ping 192.168.137.99
 +
=====> 输出信息:
 +
Using FEC device
 +
host 192.168.137.99 is alive
 +
</pre>
 +
  2.加载环境变量 
 +
**emmc开发板**
 +
<pre>
 +
=====> 输入指令:
 +
run load_scr_emmc; source ${loadaddr}; 
 +
=====> 输出信息:
 +
reading my_environment_emmc.scr
 +
1514 bytes read in 14 ms (105.5 KiB/s)
 +
## Executing script at 80800000
 +
</pre>
 +
**nand开发板**
 +
<pre>
 +
=====> 输入指令:
 +
run load_scr_nand; source ${loadaddr}; 
 +
=====> 输出信息:
 +
NAND read: device 0 offset 0x3c0000,size 0x20000
 +
131072 bytes read:OK
 +
## Executing script at 80800000
 +
</pre>
 +
  3.烧写dtb
 +
<pre>
 +
=====> 输入指令:
 +
run update_dtb
 +
=====> 输出信息:
 +
Using FEC device
 +
TFTP from server 192.168.137.99; our IP address is 192.168.137.9
 +
Filename 'myimx6ek140-6g-256m-emmc.dtb'.
 +
Load address: 0x80800000
 +
Loading: ###
 +
        282.2 KiB/s
 +
done
 +
Bytes transferred = 34705 (8791 hex)
 +
writing myimx6ek140-6g-256m-emmc.dtb
 +
34705 bytes written
 +
</pre>
 +
  4.烧写zImage
 +
<pre>
 +
=====> 输入指令:
 +
run update_kern
 +
=====> 输出信息:
 +
Using FEC device
 +
TFTP from server 192.168.137.99; our IP address is 192.168.137.9
 +
Filename 'zImage-myimx6a7'.
 +
Load address: 0x80800000
 +
Loading: #################################################################
 +
        #################################################################
 +
        #################################################################
 +
        #################################################################
 +
        #################################################################
 +
        #################################################################
 +
        #################################################################
 +
        #################################################################
 +
        ##
 +
        3.8 MiB/s
 +
done
 +
Bytes transferred = 7654360 (74cbd8 hex)
 +
writing zImage-myimx6a7
 +
7654360 bytes written
 +
</pre>
 +
  5.烧写u-boot环境变量
 +
<pre>
 +
=====> 输入指令:
 +
run update_scr
 +
=====> 输出信息:
 +
Using FEC device
 +
TFTP from server 192.168.137.99; our IP address is 192.168.137.9
 +
Filename 'my_environment_emmc.scr'.
 +
Load address: 0x80800000
 +
Loading: #
 +
        35.2 KiB/s
 +
done
 +
Bytes transferred = 1514 (5ea hex)
 +
writing my_environment_emmc.scr
 +
1514 bytes written
 +
## Executing script at 80800000
 +
Saving Environment to MMC...
 +
Writing to MMC(1)... done
 +
</pre>  
 +
  6.烧写u-boot
 +
<pre>
 +
=====> 输入指令:
 +
run update_ubot
 +
=====> 输出信息:
 +
Using FEC device
 +
TFTP from server 192.168.137.99; our IP address is 192.168.137.9
 +
Filename 'uboot-myimx6ek140-6g-256m-emmc.imx'.
 +
Load address: 0x80800000
 +
Loading: ####################################################
 +
        3 MiB/s
 +
done
 +
Bytes transferred = 752640 (b7c00 hex)
 +
switch to partitions #0, OK
 +
mmc1(part 0) is current device
  
== '''SPI测试''' ==
+
MMC write: dev # 1, block # 2, count 1022 ... 1022 blocks written: OK
===测试说明(test instruction):===
+
</pre>
1)评估板一共有2路SPI,SPI1对应的设备文件是/dev/spidev0.0;SPI2对应的文件是/dev/spidev1.0。<br>
+
<br>
1)<span style="background:#CCCCCC">There are 2 SPI channels in the evaluation board, and the corresponding device file of SPI1 is /dev/spidev0.0.The file for SPI2 is /dev/spidev1.0.</span><br>
 
2)以SPI1为测试例子<br>
 
2)<span style="background:#CCCCCC">Taking SPI1 as an example</span><br>
 
  
===测试方法(test method)===
+
###复制更新镜像
1)将P8的24和26脚短接。<br>
+
  【测试说明】:可更新dtb、zImage、u-boot环境变量、kernel-modules<br>
1)<span style="background:#CCCCCC">Shorten the 24 and 26 feet of P8.</span><br>
+
  【接口标识】:无<br>
2)执行测试命令:/home/root/my-demo/linux-4.1.15/spidev_test.out -D /dev/spidev0.0<br>
+
  【系统设备】:无<br>
2)<span style="background:#CCCCCC">execute test command:/home/root/my-demo/linux-4.1.15/spidev_test.out -D /dev/spidev0.0</span><br>
+
**测试操作** 
3)测试结果如下显示则表示测试通过<br>
+
  1、复制相应文件到开发板当前目录,以tftp为例
3)<span style="background:#CCCCCC">Test results are shown below to indicate that the test passed</span><br>
 
[[文件:MY-IMX6-ek140-L41115_1.7.2.0.jpg|520px]]<br>
 
说明:SPI2测试方法同SPI1(即同上)。<br>
 
<span style="background:#CCCCCC">Note: The SPI2 test method is the same as SPI1(ie, the same above).</span><br>
 
  
== '''CAN测试''' ==
+
  电脑端打开软件 tftpd 地址设置为需更换的文件所在的目录。   
===测试说明(test instruction):===
+
  把开发板的这个网口用网线跟电脑网口连接起来。 
评估板有2路CAN,因为CAN的测试需要焊接CAN的收发芯片,此评估板没有焊接CAN的收发芯片,若需要测试可以参照[[MY-IMX6-EK140P_L4115_测试手册|MY-IMX6-EK140P Linux-4.1.15 测试手册]]<br>
+
  2、测试连接
<span style="background:#CCCCCC">There are two ways of CAN in the evaluation board, because the test of CAN requires the welding of CAN's transceiver chip. This assessment board does not have the welding of CAN's transceiver chip. If testing is needed, please refer to the test manual of MY-IMX6-EK140P.</span><br>
+
<pre>
 +
=====> 输入指令:
 +
ping 192.168.137.99 -c 2 -w 4
 +
=====> 输出信息:
 +
PING 192.168.137.99 (192.168.137.99) 56(84) bytes of data.
 +
64 bytes from 192.168.137.99: icmp_seq=1 ttl=64 time=0.522 ms
 +
64 bytes from 192.168.137.99: icmp_seq=2 ttl=64 time=0.415 ms
  
== '''标准GPIO测试(standard GPIO test)''' ==
+
--- 192.168.137.99 ping statistics ---
===测试说明(test instruction):===
+
2 packets transmitted, 2 received, 0% packet loss, time 999ms
1)接口属性(interface property)<br>
+
rtt min/avg/max/mdev = 0.415/0.468/0.522/0.057 ms
{| class="wikitable"
+
</pre>
|评估板型号
+
“0% packet loss”表示连接正常。<br>
(evaluation board model)
+
  3、传输文件
|CPU接口
+
<pre>
(CPU interface)
+
=====> 输入指令:
| 系统设备
+
tftp -g 192.168.137.99 -r zImage-myimx6a7
(system device)
+
tftp -g 192.168.137.99 -r myimx6ek140-6g-256m-emmc.dtb
|信号名称
+
tftp -g 192.168.137.99 -r my_environment_emmc.scr
(name of signal)
+
tftp -g 192.168.137.99 -r kernel-modules-myimx6a9.tar.bz2
|接口位置
+
</pre>
(interface position)
+
  4、查看系统是否自动挂载分区
|-
+
<pre>
|rowspan=2|MY-IMX6-EK140
+
=====> 输入指令:
|SNVS_TAMPER2
+
ls /run/media/mmcblk1p1/
|gpio130
+
=====> 输出信息:
|SNVS_TAMPER2
+
my_environment_emmc.scr  myimx6ek140-6g-256m-emmc.dtb  zImage-myimx6a7
|P8:32
+
</pre>
|-
+
**系统自动挂载分区** 
|SNVS_TAMPER3
+
  1.复制相应的文件到/run/media/mmcblk1p1/目录,将原文件替换。
|gpio131
+
<pre>
|SNVS_TAMPER3
+
=====> 输入指令:
|P8:34
+
cp zImage-myimx6a7 /run/media/mmcblk1p1/
|}
+
cp myimx6ek140-6g-256m-emmc.dtb /run/media/mmcblk1p1/
2)GPIO序号的计算方法。例如SNVS_TAMPER2,查看arch/arm/boot/dts/imx6ul-pinfunc.h文件,可以看到它属于GPIO组5的第2个IO,IO序号 = (GPIO组-1)*32 + IO 。所以SNVS_TAMPER2 = (5-1)*32 + 2 = 130。
+
cp my_environment_emmc.scr /run/media/mmcblk1p1/
2)<span style="background:#CCCCCC">GPIO serial number calculation method. For example, SN VS_TAMPER 2, look at the arch/arm/boot / dts/imx6ul-pinfunc. H file and you can see that it belongs to the second IO of GPIO Group 5, IO serial number =(GPIO Group -1) * 32 + IO. So SN VS _ TAMPER 2 =(5-1) * 32 +2 = 130.</span><br>
+
</pre>
 +
  2.解压更新内核模块
 +
<pre>
 +
=====> 输入指令:
 +
tar xjvf kernel-modules-myimx6a9.tar.bz2 -C /
 +
</pre>
 +
  3.保存并重启
 +
<pre>
 +
=====> 输入指令:
 +
reboot
 +
</pre>
 +
**若系统没有自动挂载分区** 
 +
  1.查看fat分区地址 
 +
<pre>
 +
=====> 输入指令:
 +
fdisk -l
 +
=====> 输出信息:
 +
......
 +
Device        Boot  Start    End Sectors  Size Id Type
 +
/dev/mmcblk1p1        20480 1044479 1024000  500M  c W95 FAT32 (LBA)
 +
/dev/mmcblk1p2      1228800 7733247 6504448  3.1G 83 Linux
 +
......
 +
</pre>
 +
  2.手动挂载
 +
<pre>
 +
=====> 输入指令:
 +
mount /dev/mmcblk1p1 /mnt
 +
</pre>
 +
  3.复制相应的文件到/mnt目录,将原文件替换。
 +
<pre>
 +
=====> 输入指令:
 +
cp zImage-myimx6a7 /mnt
 +
cp myimx6ek140-6g-256m-emmc.dtb /mnt
 +
cp my_environment_emmc.scr /mnt
 +
</pre>
 +
  4.解压更新内核模块
 +
<pre>
 +
=====> 输入指令:
 +
tar xjvf kernel-modules-myimx6a9.tar.bz2 -C /
 +
</pre>
 +
  5.保存并重启
 +
<pre>
 +
=====> 输入指令:
 +
reboot
 +
</pre>
 +
<br>
  
===测试方法(test method)===
+
<br />
1)设置需要测试的GPIO的IO序号:OUT_IO_NUMBER=130。<br>
 
1)<span style="background:#CCCCCC">Set the IO number of the GPIO to test:OUT_IO_NUMBER=130</span><br>
 
2)导出GPIO:echo ${OUT_IO_NUMBER} > /sys/class/gpio/export<br>
 
2)<span style="background:#CCCCCC">lead out GPIO:echo ${OUT_IO_NUMBER} > /sys/class/gpio/export</span><br>
 
3)设置GPIO方向:echo out > /sys/class/gpio/gpio130/direction。<br>
 
3)<span style="background:#CCCCCC">Set the GPIO direction:echo out > /sys/class/gpio/gpio130/direction。</span><br>
 
4)控制输出电平:echo 0 > /sys/class/gpio/gpio130/value。<br>
 
4)<span style="background:#CCCCCC">control output electrical level:echo 0 > /sys/class/gpio/gpio130/value。</span><br>
 
:执行命令后可用万用表测P8的32脚为低电平。<br>
 
:<span style="background:#CCCCCC">After executing the command, the 32 pin of P8 can be measured with multimeter as low level.</span><br>
 
:执行命令后可用万用表测P8的32脚为高电平。<br>
 
:<span style="background:#CCCCCC">After executing the command, the 32 pin of P8 can be measured with multimeter as high level.</span><br>
 
:其他GPIO的测试方法同上例子。<br>
 
:<span style="background:#CCCCCC">Other GPIO testing methods are similar to the above example.</span><br>
 
  
</div>
+
-------------------------------------------------------------------------------- 
 +
<pre>
 +
-------------------------------------------------------------------------------- 
 +
* Looking forward to communicating with you for more functions and field applications. 
 +
* 珠海明远智睿科技有限公司   
 +
* ZhuHai MYZR Technology CO.,LTD. 
 +
* Latest Update: 2019/11/04   
 +
-------------------------------------------------------------------------------- 
 +
</pre>

2022年9月7日 (三) 09:46的最新版本


测试环境

  • 开发板型号:MYZR-IMX6-EK140-6Y
  • 内核版本:Linux-4.1.15
  • 文件系统:L4115-core-image-base-myimx6a7.tar.bz2

测试前的准备

1)请按照《Linux快速启动手册》中的“Linux快速启动” -> “连接设备”进行连接。

2)请按照《Linux快速启动手册》中的“Linux快速启动” -> “启动设备”进行启动。

网口测试

  MYZR-IMX6-EK140 支持1个百兆网口。

接口属性
  ENET 接口位置:P2

测试方法
1)配置计算机IP
设置计算机有线网卡IP为: 192.168.18.18
2)ENET 连接测试
连接网线:将评估板“ENET”对应的接口与计算机有线网卡的接口用网线相连接。

  • 设置评估板IP:
# ifconfig eth0 192.168.18.100
  • 执行测试命令:
# ping 192.168.18.18 -c 4
  • 观察测试结果,系统会输出类似如下信息:
PING 192.168.18.18 (192.168.18.18): 56 data bytes
64 bytes from 192.168.18.18: seq=0 ttl=64 time=2.848 ms
64 bytes from 192.168.18.18: seq=1 ttl=64 time=0.496 ms
64 bytes from 192.168.18.18: seq=2 ttl=64 time=0.478 ms
64 bytes from 192.168.18.18: seq=3 ttl=64 time=0.518 ms

--- 192.168.18.18 ping statistics ---
4 packets transmitted, 4 packets received, 0% packet loss
round-trip min/avg/max = 0.478/1.085/2.848 ms
  • 测试结果:“0% packet loss”表示测试通过。

USB 测试

接口属性
  接口位置:P3

测试方法
1)开始测试 将USB设备(U盘)插入底板USB接口,系统会输出类似如下信息: 

usb 1-1: new high-speed USB device number 2 using ci_hdrc
usb-storage 1-1:1.0: USB Mass Storage device detected
scsi host0: usb-storage 1-1:1.0
scsi 0:0:0:0: Direct-Access     SMI      USB DISK         1100 PQ: 0 ANSI: 0 CCS
sd 0:0:0:0: Attached scsi generic sg0 type 0
sd 0:0:0:0: [sda] 15730688 512-byte logical blocks: (8.05 GB/7.50 GiB)
sd 0:0:0:0: [sda] Write Protect is off
sd 0:0:0:0: [sda] No Caching mode page found
sd 0:0:0:0: [sda] Assuming drive cache: write through
 sda:
sd 0:0:0:0: [sda] Attached SCSI removable disk

2)结束测试 将USB设备从底板拔出,系统会输出类似如下信息: 

usb 1-1: USB disconnect, device number 2
  • 测试结果:如上“(8.05 GB/7.50 GiB)”能识别U盘的大小表示测试通过。

TF卡测试

接口属性
  接口位置:P5
  接口类型:MicroSD

测试方法
1)开始测试
断电下,插入TF卡到底板背面的TF卡接口后再启动系统
输入如下命令: 

# dmesg | grep mmc0

系统输出类似以下信息,即表示 TF 接口正常: 

mmc0: SDHCI controller on 2190000.usdhc [2190000.usdhc] using ADMA
mmc0: host does not support reading read-only switch, assuming write-enable
mmc0: new high speed SDHC card at address 1234
mmcblk0: mmc0:1234 SA32G 28.9 GiB

2)查看系统的TF卡设备
输入如下命令: 

# ls /dev/mmcblk0*

系统会输出以下信息: 

/dev/mmcblk0    /dev/mmcblk0p1

RGB屏测试

测试说明;显示模块的连接不可接错,避免烧板;

  • 具体连接参考《Linux快速启动手册》里的显示屏模块连接里的附图
  • 开发板开机进入系统后,屏幕上有如下几行文字显示如下:
Freescale i.MX Release Distro 4.1.15-2.1.0 myimxlek140/dev/tty1
imx6ek140 login:

屏幕上出现以上显示则说明屏幕正常。


GPIO-LED 测试(led-heartbeat)

  【测试说明】:观察实现为led-heartbeat的LED
  【接口标识】:USER LIGHT
  【接口丝印】:D2
  【系统接口】:/sys/class/leds/Heartbeat/
测试操作
  无需任何操作
测试结果
  系统启动后可以看到 D2 在有规律的闪烁,即表示应该功能正常。


GPIO-LED 测试(led-timer)

  【测试说明】:控制实现为led-timer(LED)的亮灭时间
  【接口标识】:USER LIGHT
  【接口丝印】:D3
  【系统接口】:/sys/class/leds/led-timer/
测试操作
  更改灭的时间: 

=====> 输入指令:
echo 1000 > /sys/class/leds/led-timer/delay_off

  更改亮的时间: 

=====> 输入指令:
echo 2000 > /sys/class/leds/led-timer/delay_on

测试结果
  执行上面两条指令后,发现对应LED亮的持续时间为2秒,LED灭的持续时间为1秒。


GPIO-LED 测试(led-default)

  【测试说明】:控制实现为led-default(LED)的亮灭状态
  【接口标识】:USER LIGHT
  【接口丝印】:D4
  【系统接口】:/sys/class/leds/default/
测试操作
  说明:系统启动后默认状态为常亮。
  使 D4 灭: 

=====> 输入指令:
echo 0 > /sys/class/leds/default/brightness

  使 D4 亮: 

=====> 输入指令:
echo 1 > /sys/class/leds/default/brightness

测试结果
  执行指令后,发现对应LED的状态随指令的功能进行改变。


串口测试(UART2)

  【测试说明】:采用串口自发自收的方式进行测试
  【接口标识】:IO
  【接口位置】:P7:11,12
  【系统设备】:/dev/ttymxc1
测试操作
  短接串口2的发送发接收管脚(P7的11和12号管脚)
  执行测试指令: 

=====> 输入指令:
/my-demo/gcc-linaro-5.3-arm/serial_test.out /dev/ttymxc1 "www.myzr.com.cn"  

=====> 输出信息:
Starting send data...finish
Starting receive data:
ASCII: 0x77      Character: w 
ASCII: 0x77      Character: w 
ASCII: 0x77      Character: w 
ASCII: 0x2e      Character: . 
ASCII: 0x6d      Character: m 
ASCII: 0x79      Character: y 
ASCII: 0x7a      Character: z 
ASCII: 0x72      Character: r 
ASCII: 0x2e      Character: . 
ASCII: 0x63      Character: c 
ASCII: 0x6f      Character: o 
ASCII: 0x6d      Character: m 
ASCII: 0x2e      Character: . 
ASCII: 0x63      Character: c 
ASCII: 0x6e      Character: n 
ASCII: 0x0       Character:

测试结果
  执行测试指令后,应用输出如上类似信息即正常。


串口测试(UART3)

  【测试说明】:采用串口自发自收的方式进行测试
  【接口标识】:IO
  【接口位置】:P7:13,14
  【系统设备】:/dev/ttymxc2
测试命令
  短接串口2的发送发接收管脚(P7的13和14号管脚)
  执行测试指令: 

=====> 输入指令:
/my-demo/gcc-linaro-5.3-arm/serial_test.out /dev/ttymxc2 "www.myzr.com.cn"  

=====> 输出信息:
Starting send data...finish
Starting receive data:
ASCII: 0x77      Character: w 
ASCII: 0x77      Character: w 
ASCII: 0x77      Character: w 
ASCII: 0x2e      Character: . 
ASCII: 0x6d      Character: m 
ASCII: 0x79      Character: y 
ASCII: 0x7a      Character: z 
ASCII: 0x72      Character: r 
ASCII: 0x2e      Character: . 
ASCII: 0x63      Character: c 
ASCII: 0x6f      Character: o 
ASCII: 0x6d      Character: m 
ASCII: 0x2e      Character: . 
ASCII: 0x63      Character: c 
ASCII: 0x6e      Character: n 
ASCII: 0x0       Character:

测试结果
  执行测试指令后,应用输出如上类似信息即正常。


SPI测试(ECSPI1)

  【测试说明】:采用自发自收的方式测试。
  【接口标识】:IO
  【接口丝印】:P8: 24,26
  【系统设备】:/dev/spidev0.0
测试操作
  短接P8的24和26管脚。
  执行测试指令 

=====> 输入指令:
/my-demo/gcc-linaro-5.3-arm/spidev_test.out -D /dev/spidev0.0   

=====> 输出信息:
spi mode: 0
bits per word: 8
max speed: 500000 Hz (500 KHz)

FF FF FF FF FF FF   
40 00 00 00 00 95   
FF FF FF FF FF FF   
FF FF FF FF FF FF   
FF FF FF FF FF FF   
DE AD BE EF BA AD   
F0 0D

测试结果
  执行测试指令后,应用输出如上类似信息即正常。


SPI测试(ECSPI2)

  【测试说明】:采用自发自收的方式测试。
  【接口标识】:IO
  【接口丝印】:P8: 23,25
  【系统设备】:/dev/spidev1.0
测试操作
  短接P8的23和25管脚。
  执行测试指令 

=====> 输入指令:
/my-demo/gcc-linaro-5.3-arm/spidev_test.out -D /dev/spidev1.0   

=====> 输出信息:
spi mode: 0
bits per word: 8
max speed: 500000 Hz (500 KHz)

FF FF FF FF FF FF   
40 00 00 00 00 95   
FF FF FF FF FF FF   
FF FF FF FF FF FF   
FF FF FF FF FF FF   
DE AD BE EF BA AD   
F0 0D

测试结果
  执行测试指令后,应用输出如上类似信息即正常。


Watchdog 喂狗测试

  【测试说明】:开启看门狗,并使应用程序喂狗。
  【接口标识】:无
  【接口丝印】:无
  【系统设备】:/dev/watchdog
测试操作
  运行看门狗程序,并设置超时时间为4秒,喂狗间隔时间为2秒: 

=====> 输入指令:
/unit_tests/wdt_driver_test.out 4 2 1 &  

=====> 输出信息:
[1] 831
Starting wdt_driver (timeout: 4, sleep: 2, test: write)
Trying to set timeout value=4 seconds
The actual timeout was set to 4 seconds
Now reading back -- The timeout is 4 seconds

测试结果
  系统正常工作,表示喂狗功能正常。


wakealarm 唤醒测试

  【测试说明】:设定 wakealarm 事件,之后使系统进入睡眠,等待 wakealarm 事件唤醒。
  【接口标识】:无
  【接口丝印】:无
  【系统设备】:如 /sys/class/rtc/rtc0/wakealarm
测试操作
  1. 设定 rtc0,使 10 秒后产生 wakealarm 事件 

=====> 输入指令:
echo +10 > /sys/class/rtc/rtc0/wakealarm

  2. 使设备进入睡眠 

=====> 输入指令:
echo mem > /sys/power/state

=====> 输出信息:
PM: Syncing filesystems ... done.
Freezing user space processes ... (elapsed 0.007 seconds) done.
Freezing remaining freezable tasks ... (elapsed 0.001 seconds) done.
Suspending console(s) (use no_console_suspend to debug)

测试结果
  1. 可以看到开发板的除电源指示灯以外的 LED 都灭了。
  2. 10内 LED 的状态又恢复了,并且系统输出类似如下信息: 

PM: suspend of devices complete after 708.601 msecs
PM: suspend devices took 0.710 seconds
PM: late suspend of devices complete after 2.543 msecs
PM: noirq suspend of devices complete after 2.410 msecs
Disabling non-boot CPUs ...
PM: noirq resume of devices complete after 1.494 msecs
PM: early resume of devices complete after 1.571 msecs
PM: resume of devices complete after 223.182 msecs
PM: resume devices took 0.230 seconds
Restarting tasks ... done.


背光测试

  【测试说明】:通过设置背光亮度值验证评估板的背光功能。
  【接口标识】:LCD DISPLAY   【系统设备】:backlight
测试操作
  1. 查看最大背光亮度值。 

=====> 输入指令:
cat /sys/class/backlight/backlight/max_brightness

=====> 输出信息:
7

  2. 设置背光亮度,直接看显示屏亮度。 

=====> 输入指令:
echo 5 > /sys/class/backlight/backlight/brightness
cat /sys/class/backlight/backlight/brightness

=====> 输出信息:
5

测试结果
  执行上面的测试命令后会看到显示屏的亮度发生变化。

CPU温度测试

  【测试说明】:查看CPU温度
  【接口标识】:无
  【系统设备】:/sys/class/thermal/thermal_zone0/temp
测试操作
  1. 输入命令 

=====> 输入指令:
echo $[$(cat /sys/class/thermal/thermal_zone0/temp)/1000]
=====> 输出信息:
53

测试结果
53表示CPU的温度为53°

usb识别为网口测试

  【测试说明】:通过mini usb线将usb识别为网口
  【接口标识】:P4
  【系统设备】:usb0
测试操作
  1. 载入模块 

=====> 输入指令:
# modprobe g_ether
=====> 输出信息:
using random self ethernet address
using random host ethernet address
usb0: HOST MAC 4a:d6:a1:ff:e6:53
usb0: MAC 12:e3:37:e8:7a:ab
using random self ethernet address
using random host ethernet address
g_ether gadget: Ethernet Gadget, version: Memorial Day 2008
g_ether gadget: g_ether ready
root@myimx6ek140p:/# IPv6: ADDRCONF(NETDEV_UP): usb0: link is not ready
g_ether gadget: high-speed config #2: RNDIS
IPv6: ADDRCONF(NETDEV_CHANGE): usb0: link becomes ready

  2. 设置IP 

=====> 输入指令:
# ifconfig usb0 192.168.7.2
将PC识别的rndis的本地连接IP设置为192.168.7.8

  3. 测试网口 

=====> 输入指令:
# ping 192.168.7.8 -c 2 -w 4
=====> 输出信息:
PING 192.168.7.8 (192.168.7.8) 56(84) bytes of data.
64 bytes from 192.168.7.8: icmp_seq=1 ttl=64 time=0.609 ms
64 bytes from 192.168.7.8: icmp_seq=2 ttl=64 time=0.630 ms

--- 192.168.7.8 ping statistics ---
2 packets transmitted, 2 received, 0% packet loss, time 999ms
rtt min/avg/max/mdev = 0.609/0.619/0.630/0.027 ms

测试结果
“0% packet loss”表示测试通过

注:若WIN10识别rndis为COM口,则需要下载驱动kindle_rndis.inf_amd64-v1.0.0.1.zip 解压后,以管理员权限执行5-runasadmin_register-CA-cer.cmd,然后在COM口处双击,在计算机中查找解压的驱动程序,这样就会有rndis网络了。

tftp更新镜像

  【测试说明】:可更新dtb、zImage、u-boot、u-boot环境变量
  【接口标识】:无
  【系统设备】:无
测试操作
  电脑端打开软件 tftpd 地址设置为需更换的文件所在的目录。
  把开发板的这个网口用网线跟电脑网口连接起来。
  进入u-boot命令行。
  1. 设置IP 

=====> 输入指令:
设置开发板IP:setenv ipaddr 192.168.137.9
设置电脑IP:setenv serverip 192.168.137.99
设置MAC地址:setenv ethaddr 00:00:00:00:00:03
测试网络: ping 192.168.137.99 
=====> 输出信息:
Using FEC device
host 192.168.137.99 is alive

  2.加载环境变量
emmc开发板 

=====> 输入指令:
run load_scr_emmc; source ${loadaddr};  
=====> 输出信息:
reading my_environment_emmc.scr
1514 bytes read in 14 ms (105.5 KiB/s)
## Executing script at 80800000

nand开发板 

=====> 输入指令:
run load_scr_nand; source ${loadaddr};  
=====> 输出信息:
NAND read: device 0 offset 0x3c0000,size 0x20000
 131072 bytes read:OK
## Executing script at 80800000

  3.烧写dtb 

=====> 输入指令:
run update_dtb
=====> 输出信息:
Using FEC device
TFTP from server 192.168.137.99; our IP address is 192.168.137.9
Filename 'myimx6ek140-6g-256m-emmc.dtb'.
Load address: 0x80800000
Loading: ###
         282.2 KiB/s
done
Bytes transferred = 34705 (8791 hex)
writing myimx6ek140-6g-256m-emmc.dtb
34705 bytes written

  4.烧写zImage 

=====> 输入指令:
run update_kern 
=====> 输出信息:
Using FEC device
TFTP from server 192.168.137.99; our IP address is 192.168.137.9
Filename 'zImage-myimx6a7'.
Load address: 0x80800000
Loading: #################################################################
         #################################################################
         #################################################################
         #################################################################
         #################################################################
         #################################################################
         #################################################################
         #################################################################
         ##
         3.8 MiB/s
done
Bytes transferred = 7654360 (74cbd8 hex)
writing zImage-myimx6a7
7654360 bytes written

  5.烧写u-boot环境变量 

=====> 输入指令:
run update_scr 
=====> 输出信息:
Using FEC device
TFTP from server 192.168.137.99; our IP address is 192.168.137.9
Filename 'my_environment_emmc.scr'.
Load address: 0x80800000
Loading: #
         35.2 KiB/s
done
Bytes transferred = 1514 (5ea hex)
writing my_environment_emmc.scr
1514 bytes written
## Executing script at 80800000
Saving Environment to MMC...
Writing to MMC(1)... done

  6.烧写u-boot 

=====> 输入指令:
run update_ubot 
=====> 输出信息:
Using FEC device
TFTP from server 192.168.137.99; our IP address is 192.168.137.9
Filename 'uboot-myimx6ek140-6g-256m-emmc.imx'.
Load address: 0x80800000
Loading: ####################################################
         3 MiB/s
done
Bytes transferred = 752640 (b7c00 hex)
switch to partitions #0, OK
mmc1(part 0) is current device

MMC write: dev # 1, block # 2, count 1022 ... 1022 blocks written: OK


复制更新镜像

  【测试说明】:可更新dtb、zImage、u-boot环境变量、kernel-modules
  【接口标识】:无
  【系统设备】:无
测试操作
  1、复制相应文件到开发板当前目录,以tftp为例

  电脑端打开软件 tftpd 地址设置为需更换的文件所在的目录。
  把开发板的这个网口用网线跟电脑网口连接起来。
  2、测试连接 

=====> 输入指令:
ping 192.168.137.99 -c 2 -w 4 
=====> 输出信息:
PING 192.168.137.99 (192.168.137.99) 56(84) bytes of data.
64 bytes from 192.168.137.99: icmp_seq=1 ttl=64 time=0.522 ms
64 bytes from 192.168.137.99: icmp_seq=2 ttl=64 time=0.415 ms

--- 192.168.137.99 ping statistics ---
2 packets transmitted, 2 received, 0% packet loss, time 999ms
rtt min/avg/max/mdev = 0.415/0.468/0.522/0.057 ms

“0% packet loss”表示连接正常。
  3、传输文件 

=====> 输入指令:
tftp -g 192.168.137.99 -r zImage-myimx6a7
tftp -g 192.168.137.99 -r myimx6ek140-6g-256m-emmc.dtb
tftp -g 192.168.137.99 -r my_environment_emmc.scr
tftp -g 192.168.137.99 -r kernel-modules-myimx6a9.tar.bz2

  4、查看系统是否自动挂载分区 

=====> 输入指令:
ls /run/media/mmcblk1p1/
=====> 输出信息:
my_environment_emmc.scr  myimx6ek140-6g-256m-emmc.dtb  zImage-myimx6a7

系统自动挂载分区
  1.复制相应的文件到/run/media/mmcblk1p1/目录,将原文件替换。 

=====> 输入指令:
cp zImage-myimx6a7 /run/media/mmcblk1p1/
cp myimx6ek140-6g-256m-emmc.dtb /run/media/mmcblk1p1/
cp my_environment_emmc.scr /run/media/mmcblk1p1/

  2.解压更新内核模块 

=====> 输入指令:
tar xjvf kernel-modules-myimx6a9.tar.bz2 -C /

  3.保存并重启 

=====> 输入指令:
reboot

若系统没有自动挂载分区
  1.查看fat分区地址  

=====> 输入指令:
fdisk -l
=====> 输出信息:
......
Device         Boot   Start     End Sectors  Size Id Type
/dev/mmcblk1p1        20480 1044479 1024000  500M  c W95 FAT32 (LBA)
/dev/mmcblk1p2      1228800 7733247 6504448  3.1G 83 Linux
......

  2.手动挂载 

=====> 输入指令:
mount /dev/mmcblk1p1 /mnt

  3.复制相应的文件到/mnt目录,将原文件替换。 

=====> 输入指令:
cp zImage-myimx6a7 /mnt
cp myimx6ek140-6g-256m-emmc.dtb /mnt
cp my_environment_emmc.scr /mnt

  4.解压更新内核模块 

=====> 输入指令:
tar xjvf kernel-modules-myimx6a9.tar.bz2 -C /

  5.保存并重启 

=====> 输入指令:
reboot




--------------------------------------------------------------------------------  
* Looking forward to communicating with you for more functions and field applications.  
* 珠海明远智睿科技有限公司    
* ZhuHai MYZR Technology CO.,LTD.  
* Latest Update: 2019/11/04    
--------------------------------------------------------------------------------
取自“http://wiki.myzr.com.cn/index.php?title=MYZR-IMX6-EK140_Linux-4.1.15_测试手册&oldid=4098