Hi! > 6. What's the goal of validation of the input arguments? > Kernel code must do this validation anyway, right. > Any non-trivial validation is hard, e.g. even for open the validation function > for file name would need to have access to flags and check file precense for > some flags combinations. That may add significant amount of non-trivial code > that duplicates main syscall logic, and that logic may also have bugs and > memory leaks.
I was looking at that part and thinking that we could generate (at least some) automated conformance tests based on this information. We could make sure that invalid parameters are properly rejected. For open(), some combinations would be difficuilt to model though, e.g. for O_DIRECTORY the pathname is supposed to be a path to a directory and also the file descriptor returned has different properties. Also O_CREAT requires third parameter and changes which kinds of filepaths are invalid. Demultiplexing syscalls like this is going to be difficult to get right. As for testing purposes, most of the time it would be enough just to say something as "this parameter is an existing file". If we have this information in a machine parseable format we can generate automatic tests for various error conditions e.g. ELOOP, EACESS, ENAMETOOLONG, ENOENT, ... For paths we could have something as: file:existing file:notexisting file:replaced|nonexisting file:nonexisting|existing dir:existing dir:nonexisting Then for open() syscall we can do: flags=O_DIRECTORY path=dir:existing flags=O_CREAT path=file:nonexisting|existing flags=O_CREAT|O_EXCL path=file:nonexisting ... You may wonder if such kind of tests are useful at all, since quite a few of these errors are checked for and generated from a common functions. There are at least two cases I can think of. First of all it makes sure that errors are stable when particular function/subsystem is rewritten. And it can also make sure that errors are consistent across different implementation of the same functionality e.g. filesystems. I remember that some of the less used FUSE filesystems returned puzzling errors in certain corner cases. Maybe it would be more useful to steer this towards a system that annotates better the types for the syscall parameters and return values. Something that would be an extension to a C types with a description on how particular string or integer is interpreted. > Side-effects specification potentially can be used to detect logical kernel > bugs, > e.g. if a syscall does not claim to change fs state, but it does, it's a bug. > Though, a more useful check should be failure/concurrency atomicity. > Namely, if a syscall claims to not alter state on failure, it shouldn't do so. > Concurrency atomicity means linearizability of concurrent syscalls > (side-effects match one of 2 possible orders of syscalls). > But for these we would need to add additional flags to the descriptions > that say that a syscall supports failure/concurrency atomicity. > > 8. It would be useful to have a mapping of file_operations to actual files in > fs. > Otherwise the exposed info is not very actionable, since there is no way to > understand > what actual file/fd the ioctl's can be applied to. +1 There are many different kinds of file descriptors and they differ wildy in what operations they support. Maybe we would need a subclass for a file descriptor, something as: fd:file fd:timerfd fd:pidfs ... -- Cyril Hrubis chru...@suse.cz
