VAR-SOM-MX6 Yocto Unit Testing V10 Fido: Difference between revisions
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</pre> | </pre> | ||
On Host: | On Host: | ||
<pre>$ iperf -c 192.168.1.189 -u - | <pre>$ iperf -c 192.168.1.189 -u -b400M | ||
</pre> | </pre> | ||
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= Camera = | = Camera = | ||
<pre> | <pre> | ||
$ gst-launch imxv4l2src ! imxv4l2sink | $ gst-launch imxv4l2src ! imxv4l2sink | ||
</pre> | </pre> | ||
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'video=mxcfb0:dev=hdmi,1920x1080M@60,if=RGB24'<br> | 'video=mxcfb0:dev=hdmi,1920x1080M@60,if=RGB24'<br> | ||
For example: | For example HDMI 1080P: | ||
If your current settings is booting from SD-Card<br> | If your current settings is booting from SD-Card<br> | ||
In U-boot write : | In U-boot write : | ||
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</pre> | </pre> | ||
As another example, booting from NAND boot args will look like:<br> | As another example, booting from NAND boot args will look like:<br> | ||
<pre>U-Boot # 'editenv bootargs ' and copy past " video=mxcfb0:dev=hdmi,1920x1080M@60,if=RGB24" at the end. | <pre>U-Boot # 'editenv bootargs ' and copy past " video=mxcfb0:dev=hdmi,1920x1080M@60,if=RGB24" at the end. | ||
</pre> | </pre> | ||
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= GPIO manipulation = | = GPIO manipulation = | ||
Please | Please refer to [[VAR-SOM-MX6 GPIO| VAR-SOM-MX6 GPIO]] | ||
= I2C manipulation = | |||
Please refer to [[VAR-SOM-MX6 I2C| VAR-SOM-MX6 I2C]] | |||
= Can-bus = | = Can-bus = |
Latest revision as of 14:40, 10 December 2015
WLAN
Test
Scan for wireless networks:
$ ifconfig wlan0 up $ iw dev wlan0 scan | grep SSID
Connecting to a WPA encrypted network:
Find your network from the above scan command.
$ mv /etc/wpa_supplicant.conf /etc/wpa_supplicant.conf.org $ wpa_passphrase <YourAP> <YourPassword> >/etc/wpa_supplicant.conf $ wpa_supplicant -B -Dnl80211 -iwlan0 -c/etc/wpa_supplicant.conf
wait for:
wlcore: Association completed.
Disable eth0:
$ ifconfig eth0 down
Run DHCP:
$ udhcpc -iwlan0 $ ifconfig
Useful link for common iw commands: https://wiki.archlinux.org/index.php/Wireless_network_configuration#Manual_setup
Access Point
This example will demonstrate you how to use the VAR-SOM-MX6 as an access point. It will forward packets from wlan0 to eth0. DHCPD:
$ vi /etc/udhcpd.conf # Sample udhcpd configuration file (/etc/udhcpd.conf) # The start and end of the IP lease block start 192.168.5.20 #default: 192.168.0.20 end 192.168.5.25 #default: 192.168.0.254 # The interface that udhcpd will use interface wlan0 #default: eth0 #Example opt dns 8.8.8.8 8.8.4.4 # public google dns servers option subnet 255.255.255.0 opt router 192.168.5.1 option lease 864000 # 10 days of seconds
This is a network example. You need to set the IP address based on your network.
First ensure that wpa_supplicant is not holding the device
$ killall wpa_supplicant
IP Forwarding:
$ echo 1 > /proc/sys/net/ipv4/ip_forward $ ifconfig wlan0 192.168.5.1 $ hostapd -B /etc/hostapd.conf -P /var/run/hostapd.pid $ udhcpd /etc/udhcpd.conf $ iptables -t nat -A POSTROUTING -o eth0 -j MASQUERADE
As a next step one should take a look at /etc/hostapd.conf. You may want to configure password access point name etc.
Setup
This phase is not required by default. VAR-SOM-MX6 V2.X (WiLink8):
- Select your WL183x p/n:
$ cd /usr/bin/wlconf/ $ ./configure-device.sh wl18xx select one out of : WL1831, WL1833, WL1835, WL1837.
As a result some additional information may be required like 1/2 antenna connected
<reboot system!>
note: In Yocto Dizzy, ignore the following
wl1271_sdio: probe of mmc2:0001:1 failed with error -110 wl1271_sdio: probe of mmc2:0001:2 failed with error -110
First time need to set mac address to be used automatically (Not required in Yocto Dizzy)
$ calibrator set nvs_mac /lib/firmware/ti-connectivity/wl1271-nvs.bin 00:00:00:00:00:00
Gbit Ethernet
On Target:
$ ifconfig $ iperf -s -u
On Host:
$ iperf -c 192.168.1.189 -u -b400M
Bluetooth
$ hcitool scan $ l2ping 98:03:D8:C7:1A:96
Video playback
Play video file, from linux shell type:
$ gplay <file>
You can also use the "IMX Player" utility to play a movie from the GUI.
Camera
$ gst-launch imxv4l2src ! imxv4l2sink
You can also use the "IMX Camera" GUI utility to record and play movie or capture image.
Audio record/play
$ amixer set PCM 125 $ aplay /usr/share/sounds/alsa/Front_Center.wav $ arecord -f cd -d 10 -D hw:0,0 test.wav $ aplay test.wav
Resistive and/or Capacitive touch panel display boot arguments
Variscite expand the default display settings to support alternate display without requirement to change the device tree. During boot we will add screen_alternate=yes to select the second display settings (capacitive display). One can prevent the environment modification of u-boot by settings var_auto_fdt_file=N.
HDMI boot arguments
Choosing HDMI display is determined by passing relevant bootargs from U-BOOT to Kernel.
Add the following arguments in addition to the default ones:
'video=mxcfb0:dev=hdmi,1920x1080M@60,if=RGB24'
For example HDMI 1080P:
If your current settings is booting from SD-Card
In U-boot write :
U-Boot # 'editenv mmcargs' and copy past "video=mxcfb0:dev=hdmi,1920x1080M@60,if=RGB24" at the end.
As another example, booting from NAND boot args will look like:
U-Boot # 'editenv bootargs ' and copy past " video=mxcfb0:dev=hdmi,1920x1080M@60,if=RGB24" at the end.
LVDS boot arguments
Resistive/Capacitive alternate screen
Variscite expand the default display settings to support alternate display without any requirement to change the device tree. During the boot sequence Variscite u-boot will add screen_alternate=yes option to enable selection of the second display settings (capacitive display).
For example:
U-Boot # printenv mmcargs mmcargs=setenv bootargs console=${console},${baudrate} ${smp} video=mxcfb1:off root=${mmcroot} screen_alternate=yes
The developer can prevent the modification of u-boot by settings var_auto_fdt_file=N.
U-Boot # setenv var_auto_fdt_file=N
Switching to LVDS1 as main display
Switching to LVDS1 display requires changing the "primary" of the lvds section flag in the device tree. Setting display to be LVDS1 by default: edit arch/arm/boot/dts/imx6qdl-var-som.dtsi and set section of the lvds1. When you set the "primary" property to the LVDS1 struct, make sure you remove it from the LVDS0 struct
- lvds-channel@1 {
- fsl,data-mapping = "spwg";
- fsl,data-width = <18>;
- crtc = "ipu1-di1";
- primary;
- fsl,data-mapping = "spwg";
- status = "okay";
- display-timings {
- native-mode = <&timing1>;
- timing1: hsd100pxn1 {
- clock-frequency = <35714000>;
- hactive = <800>;
- vactive = <480>;
- hback-porch = <28>;
- hfront-porch = <17>;
- vback-porch = <13>;
- vfront-porch = <20>;
- hsync-len = <20>;
- vsync-len = <13>;
- clock-frequency = <35714000>;
- };
- native-mode = <&timing1>;
- };
- display-timings {
- };
Please take a look on the wiki section for kernel out of tree to see how to compile the device tree.
Backlight
$ cd /sys/class/backlight/backlight.X (number changes) $ echo 0 > brightness $ echo 7 > brightness
RTC
To set the RTC first set the date from Linux shell, type:
$ date --set="20150225 09:04"
Then set the real time clock from Linux shell, type:
$ hwclock --systohc --utc
Power down your board wait 5 minutes and power up. Check your system with date and the time should be up to date.
External Uart
Use minicom to connect. Set the serial to ttymxc2 You can use a loopback or connect to anther computer
SATA
$ $ fdisk /dev/sda When you get prompt "Command (m for help):" hit p
Test output example:
root@varsommx6q:~# cat /proc/scsi/scsi Attached devices: Host: scsi0 Channel: 00 Id: 00 Lun: 00 Vendor: ATA Model: ST9120823AS Rev: 3.AD Type: Direct-Access ANSI SCSI revision: 05 root@varsommx6q:~# fdisk /dev/sda The number of cylinders for this disk is set to 14593. There is nothing wrong with that, but this is larger than 1024, and could in certain setups cause problems with: 1) software that runs at boot time (e.g., old versions of LILO) 2) booting and partitioning software from other OSs (e.g., DOS FDISK, OS/2 FDISK) Command (m for help): p Disk /dev/sda: 120.0 GB, 120034123776 bytes 255 heads, 63 sectors/track, 14593 cylinders Units = cylinders of 16065 * 512 = 8225280 bytes Device Boot Start End Blocks Id System /dev/sda1 * 1 9123 73280466 7 HPFS/NTFS /dev/sda2 9124 14593 43937744+ f Win95 Ext'd (LBA) /dev/sda5 9124 11035 15358108+ 7 HPFS/NTFS /dev/sda6 14319 14593 2208906 82 Linux swap /dev/sda7 11036 14318 26369024 83 Linux
eMMC (SOM version 2.x)
nand-recovery version 34 and 36 supports flashing of eMMC without the requirement of the process below.
- Check that the device is up.
$ dmesg | grep mmcblk
- Output example
mmcblk0: mmc1:0001 MBG4GC 29.1 GiB
mmcblk0boot0: mmc1:0001 MBG4GC partition 1 4.00 MiB
mmcblk0boot1: mmc1:0001 MBG4GC partition 2 4.00 MiB
mmcblk0rpmb: mmc1:0001 MBG4GC partition 3 4.00 MiB
mmcblk0: unknown partition table
mmcblk0boot1: unknown partition table
mmcblk0boot0: unknown partition table
Select the eMMC device number. Number will change if SD card is in.
- Create partition
$fdisk /dev/mmcblk1 enter n p 1 <enter> <enter> w
Example of a partition root@varsomimx6:~# fdisk /dev/mmcblk1 Device contains neither a valid DOS partition table, nor Sun, SGI, OSF or GPT disklabel Building a new DOS disklabel. Changes will remain in memory only, until you decide to write them. After that the previous content won't be recoverable.
The number of cylinders for this disk is set to 954240.
There is nothing wrong with that, but this is larger than 1024,
and could in certain setups cause problems with:
1) software that runs at boot time (e.g., old versions of LILO)
2) booting and partitioning software from other OSs
(e.g., DOS FDISK, OS/2 FDISK)
Command (m for help): n Command action
e extended p primary partition (1-4)
p Partition number (1-4): 1 First cylinder (1-954240, default 1): Using default value 1 Last cylinder or +size or +sizeM or +sizeK (1-954240, default 954240): Using default value 954240
Command (m for help): p
Disk /dev/mmcblk1: 31.2 GB, 31268536320 bytes 4 heads, 16 sectors/track, 954240 cylinders Units = cylinders of 64 * 512 = 32768 bytes
Device Boot Start End Blocks Id System
/dev/mmcblk1p1 1 954240 30535672 83 Linux
Command (m for help): w The partition table has been altered. Calling ioctl() to re-read partition table
mmcblk1: p1
- Format and mount
$ mkfs.ext3 /dev/mmcblk1p1 $ reboot
PCIE
$ lspci
The output should look like:
00:00.0 PCI bridge: Device 16c3:abcd (rev 01)
01:00.0 Network controller: Intel Corporation PRO/Wireless 4965 AG or AGN [Kedron] Network Connection (rev 61)
USB OTG as host
By default the OTG is configure to be "host". You can switch it to "peripheral" if you change the dr_mode in the device tree.
&usbotg { vbus-supply = <®_usb_otg_vbus>; pinctrl-names = "default"; pinctrl-0 = <&pinctrl_usbotg_var>; disable-over-current; /* dr_mode: One of "host", "peripheral" or "otg". Defaults to "otg" */ dr_mode = "host" ; status = "okay"; };
- build Linux out of tree.
- edit arch/arm/boot/dts/imx6qdl-var-som.dtsi
- Change the dr_mode in usbotg section
- re build the device tree with
$ make ARCH=arm CROSS_COMPILE=arm-poky-linux-gnueabi- imx6q-var-som.dtb
copy the file to the sd-card or re flash it to nand. See the relevant section in the WIKI.
USB OTG as device
Plug a cable to a A linux host.
Folow www.linux-usb.org/gadget/file_storage.html and build the backing_file.
On the Target:
$ modprobe g_mass_storage file=./backing_file
On the Host:
use dmesg and find out your device for example /dev/sdb $ sudo dd if=/dev/zero of=/dev/sdb bs=128k count=1000
USB Host
Plug a DiskOnKey, Mouse or Keyboard to any of the 3 USB host ports on EVK
GPIO manipulation
Please refer to VAR-SOM-MX6 GPIO
I2C manipulation
Please refer to VAR-SOM-MX6 I2C
Can-bus
Starting Release 4 of the Yocto Canbus is integrated into the system. No patch required.
- Connect 2 boards. Each board JP26 connect to the other with the right cable.
Set up the 2 boards by running on each of them:
$ ip link set can0 up type can bitrate 125000
On board #1:
$ cansniffer can0
On board #2:
$ cansend can0 500#1E.10.10
SPI
Testing SPI from user space require some changes.
- Configure your kernel and add spidev driver. Device Drivers -> SPI support -> <*> User mode SPI device driver support
- Add spidev to your device tree
&ecspi1 { fsl,spi-num-chipselects = <1>; cs-gpios = <&gpio4 9 0>; pinctrl-names = "default"; pinctrl-0 = <&pinctrl_ecspi1_2>; status = "okay"; chip1: spidev@0 { compatible = "spidev"; spi-max-frequency = <12000000>; reg = <0>; }; /* chip2: spidev@1 { compatible = "spidev"; spi-max-frequency = <20000000>; reg = <1>; }; */ };
Pick and choose the right chip select and you can also have multiple chip selects.
- Compile the Linux kernel and device tree.
- For testing use the application:
https://raw.githubusercontent.com/varigit/linux-2.6-imx/master/Documentation/spi/spidev_test.c