This file describes the strategy for dynamically loadable modules in the Linux kernel. This is not a technical description on the internals of module, but mostly a sample of how to compile and use modules. Note: You should ensure that the modutils-X.Y.Z.tar.gz you are using is the most up to date one for this kernel. The "X.Y.Z" will reflect the kernel version at the time of the release of the modules package. Some older modules packages aren't aware of some of the newer modular features that the kernel now supports. The current required version is listed in the file linux/Documentation/Changes. * * * NOTE * * * The kernel has been changed to remove kerneld support and use the new kmod support. Keep this in mind when reading this file. Kmod does the exact same thing as kerneld, but doesn't require an external program (see Documentation/kmod.txt) In the beginning... ------------------- Anyway, your first step is to compile the kernel, as explained in the file linux/README. It generally goes like: make config make dep make clean make zImage or make zlilo In "make config", you select what you want to include in the "resident" kernel and what features you want to have available as loadable modules. You will generally select the minimal resident set that is needed to boot: The filesystem of your root partition A scsi driver, but see below for a list of SCSI modules! Normal hard drive support Net support (CONFIG_NET) TCP/IP support (CONFIG_INET), but no drivers! plus those things that you just can't live without... The set of modules is constantly increasing, and you will be able to select the option "m" in "make config" for those features that the current kernel can offer as loadable modules. You also have a possibility to create modules that are less dependent on the kernel version. This option can be selected during "make config", by enabling CONFIG_MODVERSIONS, and is most useful on "stable" kernel versions, such as the kernels from the 1.2 and 2.0 series. If you have modules that are based on sources that are not included in the official kernel sources, you will certainly like this option... Here is a sample of the available modules included in the kernel sources: Most filesystems: minix, msdos, umsdos, sysv, isofs, hpfs, smbfs, nfs Mid-level SCSI support (required by top and low level scsi drivers). Most low-level SCSI drivers: (i.e. aha1542, in2000) All SCSI high-level drivers: disk, tape, cdrom, generic. Most ethernet drivers: (too many to list, please see the file ./Documentation/networking/net-modules.txt) Most CDROM drivers: aztcd: Aztech,Orchid,Okano,Wearnes cm206: Philips/LMS CM206 gscd: Goldstar GCDR-420 mcd, mcdx: Mitsumi LU005, FX001 optcd: Optics Storage Dolphin 8000AT sjcd: Sanyo CDR-H94A sbpcd: Matsushita/Panasonic CR52x, CR56x, CD200, Longshine LCS-7260, TEAC CD-55A sonycd535: Sony CDU-531/535, CDU-510/515 And a lot of misc modules, such as: lp: line printer binfmt_elf: elf loader binfmt_java: java loader isp16: cdrom interface serial: the serial (tty) interface When you have made the kernel, you create the modules by doing: make modules This will compile all modules and update the linux/modules directory. In this directory you will then find a bunch of symbolic links, pointing to the various object files in the kernel tree. Now, after you have created all your modules, you should also do: make modules_install This will copy all newly made modules into subdirectories under "/lib/modules/kernel_release/", where "kernel_release" is something like 2.0.1, or whatever the current kernel version is... As soon as you have rebooted the newly made kernel, you can install and remove modules at will with the utilities: "insmod" and "rmmod". After reading the man-page for insmod, you will also know how easy it is to configure a module when you do "insmod" (hint: symbol=value). Nifty features: --------------- You also have access to two utilities: "modprobe" and "depmod", where modprobe is a "wrapper" for (or extension to) "insmod". These utilities use (and maintain) a set of files that describe all the modules that are available for the current kernel in the /lib/modules hierarchy as well as their interdependencies. Using the modprobe utility, you can load any module like this: /sbin/modprobe module without paying much attention to which kernel you are running, or what other modules this module depends on. With the help of the modprobe configuration file: "/etc/conf.modules" you can tune the behaviour of modprobe in many ways, including an automatic setting of insmod options for each module. And, yes, there _are_ man-pages for all this... To use modprobe successfully, you generally place the following command in your /etc/rc.d/rc.S script. (Read more about this in the "rc.hints" file in the module utilities package, "modules-x.y.z.tar.gz".) /sbin/depmod -a This computes the dependencies between the different modules. Then if you do, for example /sbin/modprobe umsdos you will automatically load _both_ the msdos and umsdos modules, since umsdos runs piggyback on msdos. The "ultimate" utility: ----------------------- OK, you have read all of the above, and feel amply impressed... Now, we tell you to forget all about how to install and remove loadable modules... With the kerneld daemon, all of these chores will be taken care of automatically. Just answer "Y" to CONFIG_KERNELD in "make config", and make sure that /sbin/kerneld is started as soon as possible after boot and that "/sbin/depmod -a" has been executed for the current kernel. (Read more about this in the module utilities package.) Whenever a program wants the kernel to use a feature that is only available as a loadable module, and if the kernel hasn't got the module installed yet, the kernel will ask the kerneld daemon to take care of the situation and make the best of it. This is what happens: - The kernel notices that a feature is requested that is not resident in the kernel. - The kernel sends a message to kerneld, with a symbolic description of the requested feature. - The kerneld daemon asks e.g. modprobe to load a module that fits this symbolic description. - modprobe looks into its internal "alias" translation table to see if there is a match. This table can be reconfigured and expanded by having "alias" lines in "/etc/conf.modules". - insmod is then asked to insert the module(s) that modprobe has decided that the kernel needs. Every module will be configured according to the "options" lines in "/etc/conf.modules". - modprobe exits and kerneld tells the kernel that the request succeeded (or failed...) - The kernel uses the freshly installed feature just as if it had been configured into the kernel as a "resident" part. The icing of the cake is that when an automatically installed module has been unused for a period of time (usually 1 minute), the module will be automatically removed from the kernel as well. This makes the kernel use the minimal amount of memory at any given time, making it available for more productive use than as just a placeholder for unused code. Actually, this is only a side-effect from the _real_ benefit of kerneld: You only have to create a minimal kernel, that is more or less independent of the actual hardware setup. The setup of the "virtual" kernel is instead controlled by a configuration file as well as the actual usage pattern of the current machine and its kernel. This should be good news for maintainers of multiple machines as well as for maintainers of distributions. To use kerneld with the least amount of "hassle", you need modprobe from a release that can be considered "recent" w.r.t. your kernel, and also a configuration file for modprobe ("/etc/conf.modules"). Since modprobe already knows about most modules, the minimal configuration file could look something like this: alias scsi_hostadapter aha1542 # or whatever SCSI adapter you have alias eth0 3c509 # or whatever net adapter you have # you might need an "options" line for some net adapters: options 3c509 io=0x300 irq=10 # you might also need an "options" line for some other module: options cdu31a cdu31a_port=0x1f88 sony_pas_init=1 You could add these lines as well, but they are only "cosmetic": alias net-pf-3 off # no ax25 module available (yet) alias net-pf-4 off # if you don't use the ipx module alias net-pf-5 off # if you don't use the appletalk module Finally, for the "purists": You can name the modprobe configuration either "/etc/conf.modules" or "/etc/modules.conf", since modprobe knows what to do in each case... Written by: Jacques Gelinas Bjorn Ekwall