d339df73a5
- Added check of dirs used by example generator - Fixed path for ${s}/conf/files.FOO and include it via files directive from config file - Changed kernel configuration example with the driver: it is not produced by copying Generic but by including it - KDB is added to config (for DDB) - Added module building instead and fixed kernel building Reviewed by: julian@ |
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make_device_driver.sh | ||
make_pseudo_driver.sh | ||
README |
$FreeBSD$ Author: Julian Elischer The files in this directory are shell scripts. They will, when run, create an example skeleton driver for you. You can use this driver as a starting point for writing drivers for your own devices. They have all the hooks needed for initialization, probing, attaching, as well as DEVFS node creation. They also create sample ioctl commands and a sample ioctl definition .h file in /sys/sys. In other words they are fully functional in a 'skeleton' sort of a way. They support multiple devices so that you may have several of your 'foobar' devices probed and attached at once. I expect that these scripts will improve with time. At present these scripts also link the newly created driver into the kernel sources in /sys. Possibly a better way would be to make them interactive. (and ask what kernel tree to use as well as a name for the driver.). There are presently two scripts. One for making a real device driver for ISA devices, and one for making a device driver for pseudo devices (e.g. /dev/null). Hopefully they will be joined by similar scripts for creating skeletons for PCI and EISA devices as well. Give them a single argument: the name of the driver. They will use this given name in many places within the driver, both in lower and upper case form. (conforming to normal usage). The skeleton driver should already link with the kernel and in fact the shell script will compile a kernel with the new drive linked in.. The new kernel should still be runnable and the new driver should be fully callable (once you get your device to probe). You should simply edit the driver and continue to use 'make' (as done in the script) until your driver does what you want. The driver will end up in /sys/i386/isa for the device driver script, and in /sys/dev for the pseudo driver script.