Difference between revisions of "How to use GPIOs"
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− | = Overview = | + | __TOC__ |
+ | == Overview == | ||
− | This How-To is meant to be a starting point for people to learn use GPIOs for IGEP | + | This How-To is meant to be a starting point for people to learn use GPIOs for IGEP devices as quickly and easily as possible. |
− | There are more ways to use GPIOs | + | There are more ways to use GPIOs. This article show two simple ways to use gpios: bash commandline and C-code. |
− | + | For this How-To I used [http://labs.isee.biz/index.php/IGEP_firmware_Yocto IGEP firmware Yocto] | |
− | At any point, if you see a mistake you can contribute to this How-To. | + | === Feedback and Contributing === |
+ | At any point, if you see a mistake you can contribute to this How-To. Edit yourself ! | ||
− | = | + | == Requirements == |
+ | For this How-to, I used: | ||
+ | * IGEPv2 Board | ||
+ | * Only for C-program example it also needed: | ||
+ | ** Add shortcircuit cable between J990:20 and J990:22 pins. By default, GPIO 156 (J990:20) and GPIO 157 (J990:22) are available on these J990 pins. | ||
− | + | Another boards tested: | |
− | + | *IGEP COM MODULE | |
+ | *IGEP COM AQUILA | ||
− | + | == How to chek an GPIO == | |
− | - | + | The gpio-int-test.c program shows one way of using the sysfs file /sys/class/gpio/gpioXX/value to block program execution using poll() until the input level on GPIOXX changes. |
− | + | [[File:GPIO_TEST.tar]] | |
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− | + | == Bash commandline == | |
+ | Basic gpio operations could be done using bash and sysfs : | ||
+ | * Export GPIOs <pre>echo "GPIO number NN" > /sys/class/gpio/export</pre> | ||
+ | ** For example: '''echo "156" > /sys/class/gpio/export'''<br><br> | ||
+ | * Unexport GPIOs <pre>echo "GPIO number NN" > /sys/class/gpio/unexport</pre> | ||
+ | * Set GPIO direction <pre>echo "out" > /sys/class/gpio/gpioNN/direction</pre> | ||
+ | ** For example: '''echo "out" > /sys/class/gpio/gpio156/direction'''<br><br> | ||
+ | * Set GPIO value <pre>echo "1" > /sys/class/gpio/gpioNN/value</pre> | ||
+ | * Get GPIO value <pre>cat /sys/class/gpio/gpioNN/value</pre> | ||
+ | * Configure hardware interrupts <pre>echo "rising" > /sys/class/gpio/gpioNN/edge</pre> | ||
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− | = | + | == C-program Example == |
− | + | C-program Example contains some C-functions to control GPIOs. These also can do: | |
+ | * Export and unexport GPIOs | ||
+ | * Set GPIO direction | ||
+ | * Set GPIO value | ||
+ | * Get GPIO value | ||
+ | * Configure hardware interrupts | ||
− | + | Example program configures a GPIO to wait a hardware interrupt. Once the GPIO value change from 0 value to 1 value (rising), program gives you a message. | |
− | + | === Compile example program === | |
− | + | [http://labs.isee.biz/index.php/How_to_setup_a_cross_compiler#Download.2FInstall_IGEP_SDK Download an Install] IGEP SDK if you don't have it. | |
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− | + | First of all you need to initialize a suitable environment in the bash shell console inside your machine. <br> You can do this sourcing once the environment-setup script. | |
+ | <pre>jdoe@ubuntu ~ $ source /opt/poky/1.2/environment-setup-armv7a-vfp-neon-poky-linux-gnueabi </pre> | ||
− | + | * Download [http://labs.isee.biz/images/6/69/Gpio_examplebeta1.tar.bz2 source code] | |
+ | * Extract source code | ||
+ | * Build source code: | ||
− | + | Cross toolchain tools are available into the built-in virtual machine Poky SDK. You only need open bash terminal prompt and write command: | |
− | + | <pre>jdoe@ubuntu ~/Desktop $ arm-poky-linux-gnueabi-gcc -o gpio_example gpio_examplebeta1.c</pre> | |
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− | </pre> | ||
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− | + | * Copy binary file to IGEP Board | |
− | + | === Execute program === | |
+ | Open a remote terminal and locate your program binary, execute program and pass like a parameter 157 value (GPIO 157): | ||
+ | <pre>root@igep00x0:~# ./gpio_example 157 </pre> | ||
+ | Result will be: | ||
+ | <pre>root@igep00x0:~# ./gpio_example 157 | ||
+ | gpio/direction: No such file or directory | ||
− | + | poll() GPIO 157 interrupt occurred | |
+ | ............. </pre> | ||
− | === | + | === Generate interrupts === |
+ | Open a second remote terminal and type: | ||
+ | <pre>cd /sys/class/gpio/ | ||
+ | echo 156 > export | ||
+ | cd gpio156/ | ||
+ | echo out > direction | ||
+ | echo 0 > value | ||
+ | echo 1 > value</pre> | ||
− | + | === Result === | |
− | + | At first remote terminal you should read a message similar like this: | |
− | + | <pre>poll() GPIO 157 interrupt occurred </pre> | |
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Latest revision as of 16:59, 22 September 2015
Contents
Overview
This How-To is meant to be a starting point for people to learn use GPIOs for IGEP devices as quickly and easily as possible.
There are more ways to use GPIOs. This article show two simple ways to use gpios: bash commandline and C-code.
For this How-To I used IGEP firmware Yocto
Feedback and Contributing
At any point, if you see a mistake you can contribute to this How-To. Edit yourself !
Requirements
For this How-to, I used:
- IGEPv2 Board
- Only for C-program example it also needed:
- Add shortcircuit cable between J990:20 and J990:22 pins. By default, GPIO 156 (J990:20) and GPIO 157 (J990:22) are available on these J990 pins.
Another boards tested:
- IGEP COM MODULE
- IGEP COM AQUILA
How to chek an GPIO
The gpio-int-test.c program shows one way of using the sysfs file /sys/class/gpio/gpioXX/value to block program execution using poll() until the input level on GPIOXX changes.
Bash commandline
Basic gpio operations could be done using bash and sysfs :
- Export GPIOs
echo "GPIO number NN" > /sys/class/gpio/export
- For example: echo "156" > /sys/class/gpio/export
- For example: echo "156" > /sys/class/gpio/export
- Unexport GPIOs
echo "GPIO number NN" > /sys/class/gpio/unexport
- Set GPIO direction
echo "out" > /sys/class/gpio/gpioNN/direction
- For example: echo "out" > /sys/class/gpio/gpio156/direction
- For example: echo "out" > /sys/class/gpio/gpio156/direction
- Set GPIO value
echo "1" > /sys/class/gpio/gpioNN/value
- Get GPIO value
cat /sys/class/gpio/gpioNN/value
- Configure hardware interrupts
echo "rising" > /sys/class/gpio/gpioNN/edge
C-program Example
C-program Example contains some C-functions to control GPIOs. These also can do:
- Export and unexport GPIOs
- Set GPIO direction
- Set GPIO value
- Get GPIO value
- Configure hardware interrupts
Example program configures a GPIO to wait a hardware interrupt. Once the GPIO value change from 0 value to 1 value (rising), program gives you a message.
Compile example program
Download an Install IGEP SDK if you don't have it.
First of all you need to initialize a suitable environment in the bash shell console inside your machine.
You can do this sourcing once the environment-setup script.
jdoe@ubuntu ~ $ source /opt/poky/1.2/environment-setup-armv7a-vfp-neon-poky-linux-gnueabi
- Download source code
- Extract source code
- Build source code:
Cross toolchain tools are available into the built-in virtual machine Poky SDK. You only need open bash terminal prompt and write command:
jdoe@ubuntu ~/Desktop $ arm-poky-linux-gnueabi-gcc -o gpio_example gpio_examplebeta1.c
- Copy binary file to IGEP Board
Execute program
Open a remote terminal and locate your program binary, execute program and pass like a parameter 157 value (GPIO 157):
root@igep00x0:~# ./gpio_example 157
Result will be:
root@igep00x0:~# ./gpio_example 157 gpio/direction: No such file or directory poll() GPIO 157 interrupt occurred .............
Generate interrupts
Open a second remote terminal and type:
cd /sys/class/gpio/ echo 156 > export cd gpio156/ echo out > direction echo 0 > value echo 1 > value
Result
At first remote terminal you should read a message similar like this:
poll() GPIO 157 interrupt occurred