First of all, this driver,
gpio_wdt.c, doesn't seem to exist in the mainline kernel as of this date, so it's hard to comment it.
Sysfs (usually mounted at
/sys) is actually very easy to use. This is a great example of how to create Sysfs attributes. Basically, you create attributes (will become the Sysfs file names) and register them with two defined operations (callbacks): store and show, which are the equivalent of resp. write and read. The show callback is called everytime the Sysfs file (attribute) is read and store when it's written.
When writing a device driver that belongs to an existing class (most likely your situation), you will rarely need to do that yourself. This is because the standard Linux device classes already have a working set of Sysfs attributes that your driver will use more or less indirectly.
For example, the
leds class (LED devices), of which you will find the devices in
/sys/class/leds, has a bunch of Sysfs attributes per LED so that a user may read/modify them from userspace (brightness, maximum brightness, trigger, etc.). Now, if you look at LED specific drivers in
/drivers/leds, you won't find manual Sysfs attributes creations. You will find, however, a call to
led_classdev_register when the driver is probed, which takes a
struct led_classdev* as a parameter. This structure has a
brightness_set callback member the specific driver needs to provide. When a user writes to
leds class' store Sysfs callback gets called which in turn calls the specific driver's
My point is: make sure you really know your device class before manually adding Sysfs attributes. Anyway, when submitting your driver to the LKML, you will know fast enough if it was a good decision.