Difference between revisions of "GPIO Driver"
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On this page, you will find all the informations needed to use the Armadeus GPIO driver. | On this page, you will find all the informations needed to use the Armadeus GPIO driver. | ||
| − | == | + | ==Compilation== |
| − | The first thing you have to do is to compile the driver. The only way to do that | + | The first thing you have to do is to compile the driver. The only way to do that for the moment is to compile it as a module: |
[host]$ cd armadeus/ | [host]$ cd armadeus/ | ||
[host]$ make linux-menuconfig | [host]$ make linux-menuconfig | ||
| − | Then | + | Then go in menu: '''Device Drivers ---> Armadeus specific drivers''' and choose '''<M> Armadeus GPIO driver''' + '''<M> Armadeus Parallel Port driver''':<br> |
| − | Exit and save your kernel configuration | + | [[Image:linux_config_gpio.png]]<br> |
| − | + | Exit and save your kernel configuration, then compile it: | |
[host]$ make linux | [host]$ make linux | ||
| − | When compiled, you will obtain | + | When compiled, you will obtain 2 modules in ''armadeus/target/linux/modules/gpio/'': |
| − | * gpio.ko: this is the main driver. It should be loaded first and will allow you to easily control gpio pin from user space | + | * gpio.ko: this is the main driver. It should be loaded first and will allow you to easily control gpio pin from user space, |
| − | * ppdev.ko: this is an extension driver to add PPDEV emulation. This way you will be able to emulate a standard parallel port on one GPIO port ( | + | * ppdev.ko: this is an extension driver to add PPDEV emulation to gpio.ko. This way you will be able to emulate a standard parallel port on one GPIO port (to connect a textual LCD, for example). |
| − | + | ==Installation== | |
| − | * copy these modules on your | + | You have to: |
| + | * reflash your rootfs or copy these modules on your target in ''/lib/modules/2.6.18.1/extra/gpio'' (don't forget modules.dep file), | ||
* copy loadgpio.sh script on your rootfs in /etc/ | * copy loadgpio.sh script on your rootfs in /etc/ | ||
After that you can launch: | After that you can launch: | ||
# sh /etc/loadgpio.sh | # sh /etc/loadgpio.sh | ||
| − | or look inside this script if you want to manually enter the module parameters | + | or look inside this script if you want to manually enter the module parameters: |
# modprobe gpio portB_init=0,0,0x00FFFF00,0,0,0,0,0,0x0FF00000,0,0,0,0,0,0,0x0FF00000 | # modprobe gpio portB_init=0,0,0x00FFFF00,0,0,0,0,0,0x0FF00000,0,0,0,0,0,0,0x0FF00000 | ||
gpio module parameters are values for PORTA, PORTB, PORTC, PORTD configuration registers in following order: | gpio module parameters are values for PORTA, PORTB, PORTC, PORTD configuration registers in following order: | ||
Revision as of 12:44, 28 October 2007
On this page, you will find all the informations needed to use the Armadeus GPIO driver.
Contents
Compilation
The first thing you have to do is to compile the driver. The only way to do that for the moment is to compile it as a module:
[host]$ cd armadeus/ [host]$ make linux-menuconfig
Then go in menu: Device Drivers ---> Armadeus specific drivers and choose <M> Armadeus GPIO driver + <M> Armadeus Parallel Port driver:
Exit and save your kernel configuration, then compile it:
[host]$ make linux
When compiled, you will obtain 2 modules in armadeus/target/linux/modules/gpio/:
- gpio.ko: this is the main driver. It should be loaded first and will allow you to easily control gpio pin from user space,
- ppdev.ko: this is an extension driver to add PPDEV emulation to gpio.ko. This way you will be able to emulate a standard parallel port on one GPIO port (to connect a textual LCD, for example).
Installation
You have to:
- reflash your rootfs or copy these modules on your target in /lib/modules/2.6.18.1/extra/gpio (don't forget modules.dep file),
- copy loadgpio.sh script on your rootfs in /etc/
After that you can launch:
# sh /etc/loadgpio.sh
or look inside this script if you want to manually enter the module parameters:
# modprobe gpio portB_init=0,0,0x00FFFF00,0,0,0,0,0,0x0FF00000,0,0,0,0,0,0,0x0FF00000
gpio module parameters are values for PORTA, PORTB, PORTC, PORTD configuration registers in following order: DDIR, OCR1, OCR2, ICONFA1, ICONFA2, ICONFB1, ICONFB2, DR, GIUS, SSR, ICR1, ICR2, IMR, GPR, SWR, PUEN,
Driver usage
Directly with shell commands (through /proc filesystem)
GPIO driver is usable through /proc interface:
- use /proc/drivers/gpio/portXdir to read (with cat) or set (with echo) pin direction (where X is your port name: A, B, C or D)
- then use /proc/drivers/gpio/portX to read (with cat) or write (with echo) pin status
Examples:
- See which IO-Pins of PortD are configured as inputs, and which one are outputs ('1' = output, '0' = input):
# cat /proc/driver/gpio/portDdir 01101100111100000110110011110000 #
- Configure the IO-Pins 30, 28, 23, 22 and 21 of PortB as outputs, all others are inputs:
# echo 01010000111000000000000000000000 > /proc/driver/gpio/portBdir
- Read the status/values of the IOs of PortB:
# cat /proc/driver/gpio/portB 00000000000011111111000000000000 #
- Set bits 30, 28 and 23 of PortB to '1', all other outputs to '0':
# echo 01010000100000000000000000000000 > /proc/driver/gpio/portB
Directly with C program ( /proc filesystem)
After inserting the GPIO module, /proc entries are created in the filesystem, and so it's possible to directly use some Linux standard functions inside a C program, such as:
- fopen
- fwrite
- fread
- fclose
A little piece of code is the best way to understand quickly:
int i;
unsigned char dummy;
FILE *GPIO,*GPIODIR;
char buffer[32];
char * bufferDir="00000000011111111000000000000000";
char * buffer1= "00000000000000011000000000000000";
char * buffer2= "00000000000001100000000000000000";
char * buffer3= "00000000000110000000000000000000";
char * buffer4= "00000000011000000000000000000000";
GPIODIR = fopen("/proc/driver/gpio/portDdir","w");
setvbuf(GPIODIR,buffer,_IONBF,32);
fwrite(bufferDir, sizeof(char), strlen(bufferDir), GPIODIR);
fclose(GPIODIR);
GPIO = fopen("/proc/driver/gpio/portD","w");
setvbuf(GPIO,buffer,_IONBF,32);
while(1) {
fwrite(buffer1, sizeof(char), strlen(buffer1), GPIO);
sleep(1);
fwrite(buffer2, sizeof(char), strlen(buffer2), GPIO);
sleep(1);
fwrite(buffer3, sizeof(char), strlen(buffer3), GPIO);
sleep(1);
fwrite(buffer4, sizeof(char), strlen(buffer4), GPIO);
sleep(1);
}
fclose(GPIO);
return (0);
Directly from a C program with IOCTLs
There is another way to drive GPIO module: with IOCTLs on the right device node. ioctl() function is using flags to say what it must be done (read and write):
- GPIORDDIRECTION for reading direction of the concerned port
- GPIOWRDIRECTION for writing direction of the concerned port
- GPIORDDATA for reading data of the concerned port
- GPIOWRDATA for writing data of the concerned port
An example of code will give more explanation:
int fd;
int i;
int iomask,result;
unsigned char dev_buffer[BUF_SIZE+1];
if ((fd = open("/dev/gpio/portD", O_RDWR))<0) {
printf("Open error on /dev/gpio/portD\n");
exit(0);
}
printf("Opened on /dev/gpio/portD\n");
iomask=0xFFFFFF00;
ioctl(fd,GPIOWRDIRECTION,&iomask);
iomask=0x003F0000;
for (i=0;i<2;i++) {
printf("Led ON\n");
iomask=0x007F8000;
ioctl(fd,GPIOWRDATA,&iomask);
sleep(1);
ioctl(fd,GPIORDDATA,&iomask);
printf("read /dev/gpio/portD 0x%x\n",iomask);
printf("Led OFF\n");
iomask=0x00000000;
ioctl(fd,GPIOWRDATA,&iomask);
sleep(1);
}
close(fd);
exit(0);
Of course you'll need to declare in the include part, the following:
- sys/ioctl.h
- linux/ppdev.h
and define pragmas such as:
- GPIORDDIRECTION _IOR(PP_IOCTL, 0xF0, int)
- GPIOWRDIRECTION _IOW(PP_IOCTL, 0xF1, int)
- GPIORDDATA _IOR(PP_IOCTL, 0xF2, int)
- GPIOWRDATA _IOW(PP_IOCTL, 0xF3, int)
