NAME
ndiscvt —
convert Windows® NDIS drivers
for use with DragonFly
SYNOPSIS
ndiscvt |
[-O] [-i
inffile] -s
sysfile [-n
devname] [-o
outfile] |
ndiscvt |
[-f firmfile] |
DESCRIPTION
Thendiscvt utility transforms a Windows® NDIS
driver into a data file which is used to build an
ndis(4) compatibility driver module. Windows® drivers consist of
two main parts: a .SYS file, which contains the actual
driver executable code, and an .INF file, which
provides the Windows® installer with device identifier information and
a list of driver-specific registry keys. The ndiscvt
utility can convert these files into a header file that is compiled into
if_ndis.c to create an object code module that can be
linked into the DragonFly kernel.
The .INF file is typically required since
only it contains device identification data such as PCI vendor and device
IDs or PCMCIA identifier strings. The .INF file may
be optionally omitted however, in which case the
ndiscvt utility will only perform the conversion of
the .SYS file. This is useful for debugging purposes
only.
OPTIONS
The options are as follows:
-iinffile- Open and parse the specified .INF file when
performing conversion. The
ndiscvtutility will parse this file and emit a device identification structure and registry key configuration structures which will be used by the ndis(4) driver andndisapikernel subsystem. If this is omitted,ndiscvtwill emit a dummy configuration structure only. -ssysfile- Open and parse the specified .SYS file. This file
must contain a Windows® driver image. The
ndiscvtutility will perform some manipulation of the sections within the executable file to make runtime linking within the kernel a little easier and then convert the image into a data array. -ndevname- Specify an alternate name for the network device/interface which will be
created when the driver is instantiated. If you need to load more than one
NDIS driver into your system (i.e., if you have two different network
cards in your system which require NDIS driver support), each module you
create must have a unique name. Device can not be larger than
IFNAMSIZ. If no name is specified, the driver will use the default a default name (“ndis”). -ooutfile- Specify the output file in which to place the resulting data. This can be
any file pathname. If outfile is a single dash
(‘
-’), the data will be written to the standard output. The if_ndis.c module expects to find the driver data in a file called ndis_driver_data.h, so it is recommended that this name be used. -O- Generate both an ndis_driver_data.h file and an ndis_driver.data.o file. The latter file will contain a copy of the Windows® .SYS driver image encoded as a DragonFly ELF object file (created with objcopy(1)). Turning the Windows® driver image directly into an object code file saves disk space and compilation time.
-ffirmfile- A few NDIS drivers come with additional files that the core driver module
will load during initialization time. Typically, these files contain
firmware which the driver will transfer to the device in order to make it
fully operational. In Windows®, these files are usually just copied
into one of the system directories along with the driver itself.
In DragonFly there are two mechanism for loading these files. If the driver is built as a loadable kernel module which is loaded after the kernel has finished booting (and after the root file system has been mounted), the extra files can simply be copied to the /compat/ndis directory, and they will be loaded into the kernel on demand when the driver needs them.
If however the driver is required to bootstrap the system (i.e., if the NDIS-based network interface is to be used for diskless/PXE booting), the files need to be pre-loaded by the bootstrap loader in order to be accessible, since the driver will need them before the root file system has been mounted. However, the bootstrap loader is only able to load files that are shared DragonFly binary objects.
The
-fflag can be used to convert an arbitrary file firmfile into shared object format (the actual conversion is done using the objcopy(1) and ld(1) commands). The resulting files can then be copied to the /boot/kernel directory, and can be pre-loaded directly from the boot loader prompt, or automatically by editing the loader.conf(5) file. If desired, the files can also be loaded into memory at runtime using the kldload(8) command.When an NDIS driver tries to open an external file, the
ndisapicode will first search for a loaded kernel module that matches the name specified in the open request, and if that fails, it will then try to open the file from the /compat/ndis directory as well. Note that during kernel bootstrap, the ability to open files from /compat/ndis is disabled: only the module search will be performed.When using the
-fflag,ndiscvtwill generate both a relocatable object file (with a .o extension) and a shared object file (with a .ko extension). The shared object is the one that should be placed in the /boot/kernel directory. The relocatable object file is useful if the user wishes to create a completely static kernel image: the object file can be linked into the kernel directly along with the driver itself. Some editing of the kernel configuration files will be necessary in order to have the extra object included in the build.
SEE ALSO
HISTORY
The ndiscvt utility first appeared in
FreeBSD 5.3.
AUTHORS
The ndiscvt utility was written by
Bill Paul
<wpaul@windriver.com>.
The lex(1) and
yacc(1) .INF file parser was written by
Matthew Dodd
<mdodd@FreeBSD.org>.