/* $NetBSD: TODO.modules,v 1.8 2016/09/28 06:47:55 wiz Exp $ */ Some notes on the limitations of our current (as of 7.99.35) module subsystem. This list was triggered by an Email exchange between christos and pgoyette. 1. Builtin drivers can't depend on modularized drivers (the modularized drivers are attempted to load as builtins). The assumption is that dependencies are loaded before those modules which depend on them. At load time, a module's undefined global symbols are resolved; if any symbols can't be resolved, the load fails. Similarly, if a module is included in (built-into) the kernel, all of its symbols must be resolvable by the linker, otherwise the link fails. There are ways around this (such as, having the parent module's initialization command recursively call the module load code), but they're often gross hacks. Another alternative (which is used by ppp) is to provide a "registration" mechanism for the "child" modules, and then when the need for a specific child module is encountered, use module_autoload() to load the child module. Of course, this requires that the parent module know about all potentially loadable children. 2. Currently, config(1) has no way to "no define" drivers XXX: I don't think this is true anymore. I think we can undefine drivers now, see MODULAR in amd64, which does no ath* and no select sppp* 3. It is not always obvious by their names which drivers/options correspond to which modules. 4. Right now critical drivers that would need to be pre-loaded (ffs, exec_elf64) are still built-in so that we don't need to alter the boot blocks to boot. This was a conscious decision by core@ some years ago. It is not a requirement that ffs or exec_* be built-in. The only requirement is that the root file-system's module must be available when the module subsystem is initialized, in order to load other modules. This can be accomplished by having the boot loader "push" the module at boot time. (It used to do this in all cases; currently the "push" only occurs if the booted filesystem is not ffs.) 5. Not all parent bus drivers are capable of rescan, so some drivers just have to be built-in. 6. Many (most?) drivers are not yet modularized 7. There's currently no provisions for autoconfig to figure out which modules are needed, and thus to load the required modules. In the "normal" built-in world, autoconfigure can only ask existing drivers if they're willing to manage (ie, attach) a device. Removing the built-in drivers tends to limit the availability of possible managers. There's currently no mechanism for identifying and loading drivers based on what devices might be found. 8. Even for existing modules, there are "surprise" dependencies with code that has not yet been modularized. For example, even though the bpf code has been modularized, there is some shared code in bpf_filter.c which is needed by both ipfilter and ppp. ipf is already modularized, but ppp is not. Thus, even though bpf_filter is modular, it MUST be included as a built-in module if you also have ppp in your configuration. Another example is sysmon_taskq module. It is required by other parts of the sysmon subsystem, including the "sysmon_power" module. Unfortunately, even though the sysmon_power code is modularized, it is referenced by the acpi code which has not been modularized. Therefore, if your configuration has acpi, then you must include the "sysmon_power" module built-in the kernel. And therefore your also need to have "sysmon_taskq" and "sysmon" built-in since "sysmon_power" rerefences them. 9. As a corollary to #8 above, having dependencies on modules from code which has not been modularized makes it extremely difficult to test the module code adequately. Testing of module code should include both testing-as-a-built-in module and testing-as-a-loaded-module, and all dependencies need to be identified. 10. The current /stand/$ARCH/$VERSION/modules/ hierarchy won't scale as we get more and more modules. There are hundreds of potential device driver modules. 11. There currently isn't any good way to handle attachment-specific modules. The build infrastructure (ie, sys/modules/Makefile) doesn't readily lend itself to bus-specific modules irrespective of $ARCH, and maintaining distrib/sets/lists/modules/* is awkward at best. Furthermore, devices such as ld(4), which can attach to a large set of parent devices, need to be modified. The parent devices need to provide a common attribute (for example, ld_bus), and the ld driver should attach to that attribute rather than to each parent. But currently, config(1) doesn't handle this - it doesn't allow an attribute to be used as the device tree's pseudo-root. The current directory structure where driver foo is split between ic/foo.c and bus1/foo_bus1.c ... busn/foo_busn.c is annoying. It would be better to switch to the FreeBSD model which puts all the driver files in one directory. 12. Item #11 gets even murkier when a particular parent can provide more than one attribute.