VAR-SOM-AM43 Linux Unit Testing: Difference between revisions
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Calibration of TI WL12xx wireless device is required and is saved into the NVS file. The NVS file is then used by the wl12xx driver. | Calibration of TI WL12xx wireless device is required and is saved into the NVS file. The NVS file is then used by the wl12xx driver. | ||
For more details please read [http://processors.wiki.ti.com/index.php/WL12xx_NLCP_Calibration_Process NLCP Calibration Process] | For more details please read [http://processors.wiki.ti.com/index.php/WL12xx_NLCP_Calibration_Process NLCP Calibration Process] |
Revision as of 22:45, 26 January 2015
CPU info
root@varsomam43:~# cat /proc/cpuinfo processor : 0 model name : ARMv7 Processor rev 10 (v7l) Features : swp half thumb fastmult vfp edsp thumbee neon vfpv3 tls vfpd32 CPU implementer : 0x41 CPU architecture: 7 CPU variant : 0x2 CPU part : 0xc09 CPU revision : 10 Hardware : Generic AM43 (Flattened Device Tree) Revision : 0000 Serial : 0000000000000000 root@varsomam43:~# cat /proc/version Linux version 3.14.26-gde9decc-dirty (am43@ubuntu) (gcc version 4.7.3 20130226 (prerelease) (crosstool-NG linaro-1.13.1-4.7-2013.03-20130313 - Linaro GCC 2013.03) ) #1 Tue Jan 20 02:46:07 PST 2015 root@varsomam43:~#
RTC
To set the RTC first set the date from Linux shell, type:
$ date 2013.08.27-15:43
Then set the real time clock from Linux shell, type:
$ hwclock --systohc
Power down your board wait 15 seconds and power up. Check your system with date and the time should be up to date.
Audio record/play
$ aplay /usr/share/sounds/alsa/Front_Center.wav $ arecord -f cd -d 10 -D hw:0,0 test.wav $ aplay test.wav
WLAN
The VAR-SOM-AM43 device features a WL183x module, which needs to be configured after installing a new SW image.
Instructions for configuring (only in the first boot):
$ cd /usr/bin/wlconf/ $ ./configure-device.sh [WL18xx chip] Then choose the correct number of antennas on board and choose (y) to generate a configuration file from wl18xx-conf.bin file. For example: root@varsomam43:/usr/bin/wlconf# ./configure-device.sh wl1835 Device is capable of supporting 2 antenna in 2.4Ghz band how many antennae are fitted? [1/2] : 1 Error: Module wlcore_sdio is not currently loaded A wl18xx-conf.bin file already exists, do you want to modify it (y) or generate a clean one from .ini (y) modify it? [y/n] : y
General usage:
List SSIDs, from Linux shell type:
$ ifconfig wlan0 up $ iw wlan0 scan
Connecting to an encrypted network:
Find your network from the above scan command.
$ wpa_passphrase <YourAP> <YourPassword> >wpa.conf $ ps | grep wpa_supplicant *kill the wpa_supplicant process if exist. $ wpa_supplicant -Dnl80211 -iwlan0 -c./wpa.conf -B $ udhcpc -iwlan0 $ ifconfig
- WL18xx calibration tool
Calibration of TI WL12xx wireless device is required and is saved into the NVS file. The NVS file is then used by the wl12xx driver. For more details please read NLCP Calibration Process
100Mbit Ethernet
On Target:
$ ifconfig $ iperf -s -u
On Host:
$ iperf -c 192.168.1.189 -u -b100M -w4KB
Gbit Ethernet
On Target:
$ ifconfig $ iperf -s -u
On Host:
$ iperf -c 192.168.1.189 -u -b1000M -w4KB
OpenGL demo (supported CPUs)
Run the demo script at Linux command prompt after the VAR-DVK-AM33 EVB boots up
/etc/init.d/335x-demo
ADC controller
please follow TI wiki pages: http://processors.wiki.ti.com/index.php/AM335x_ADC_Driver%27s_Guide
USB OTG as host
By default the OTG is configure to be "peripheral". You can switch it to "host" if you change the dr_mode in the device tree.
Please see details on the Wiki page below: http://variwiki.com/index.php?title=VAR-SOM-AM33_Linux_SDK_7_Configurations
Once the USB-OTG port has been configured as host, simply connect a USB Mouse or DOK to the OTG port.
USB OTG as device
Plug a USB cable to a Linux or a Windows host.
Follow 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:
Wait for a mass-storage device to be detected.
Bluetooth
- Bring BT device up:
$ hciconfig hci0 up
- Scan for BT devices and ping:
$ hcitool scan $ l2ping 98:03:D8:C7:1A:96
Then work with any other standard bluetooth API and commands.
CAN Bus
- Connect CANL, CANH and GND pins of two VAR-SOM-AM33 boards (located on J17).
- Power-up both boards.
- Type the following into the shell of both boards for configuration the CAN bus device:
$ ip link set can0 type can bitrate 50000 triple-sampling on $ ip link set can0 up
- Type the following to the shell of board 1 (which is used for testing receiving over can0 device):
$ candump can0
- Type the following to the shell of board 2 (which is used for testing sending data packets over can0 device):
$ cansend can0 0x11 0x22 0x33 0x44 0x55 0x66 0x77 0x88
- At this point, board 1 will receive the data packet sent from board 2:
<0x001> [8] 11 22 33 44 55 66 77 88
RS-232 port
- Enable RS232 UART ttyO1 I/F on the VAR-SOM-AM33:
echo 20 > /sys/class/gpio/export echo "out" > /sys/class/gpio/gpio20/direction echo 0 > /sys/class/gpio/gpio20/value
- Start minicom and connect to a UART device:
minicom -D/dev/ttyO1 -b115200 -8