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Diffstat (limited to 'community/gsoc/project_ideas/valgrind.mdwn')
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diff --git a/community/gsoc/project_ideas/valgrind.mdwn b/community/gsoc/project_ideas/valgrind.mdwn deleted file mode 100644 index 7d68e82d..00000000 --- a/community/gsoc/project_ideas/valgrind.mdwn +++ /dev/null @@ -1,80 +0,0 @@ -[[!meta copyright="Copyright © 2009, 2010 Free Software Foundation, Inc."]] - -[[!meta license="""[[!toggle id="license" text="GFDL 1.2+"]][[!toggleable -id="license" text="Permission is granted to copy, distribute and/or modify this -document under the terms of the GNU Free Documentation License, Version 1.2 or -any later version published by the Free Software Foundation; with no Invariant -Sections, no Front-Cover Texts, and no Back-Cover Texts. A copy of the license -is included in the section entitled -[[GNU Free Documentation License|/fdl]]."]]"""]] - -[[!meta title="Porting Valgrind to the Hurd"]] - -[Valgrind](http://valgrind.org/) is an extremely useful debugging tool for memory errors. -(And some other kinds of hard-to-find errors too.) -Aside from being useful for program development in general, -a Hurd port will help finding out why certain programs segfault on the Hurd, -although they work on Linux. -Even more importantly, it will help finding bugs in the Hurd servers themselfs. - -To keep track of memory use, -Valgrind however needs to know how each [[system call]] affects the validity of memory regions. -This knowledge is highly kernel-specific, -and thus Valgrind needs to be explicitely ported for every system. - -Such a port involves two major steps: -making Valgrind understand how kernel traps work in general on the system in question; -and how all the individual kernel calls affect memory. -The latter step is where most of the work is, -as the behaviour of each single [[system call]] needs to be described. - -Compared to Linux, -Mach (the microkernel used by the Hurd) has very few kernel traps. -Almost all [[system call]]s are implemented as RPCs instead -- -either handled by Mach itself, or by the various Hurd servers. -All RPCs use a pair of mach\_msg() invocations: -one to send a request message, and one to receive a reply. -However, while all RPCs use the same mach\_msg() trap, -the actual effect of the call varies greatly depending on which RPC is invoked -- -similar to the ioctl() call on Linux. -Each request thus must be handled individually. - -Unlike ioctl(), -the RPC invocations have explicit type information for the parameters though, -which can be retrieved from the message header. -By analyzing the parameters of the RPC reply message, -Valgrind can know exactly which memory regions are affected by that call, -even without specific knowledge of the RPC in question. -Thus implementing a general parser for the reply messages -will already give Valgrind a fairly good approximation of memory validity -- -without having to specify the exact semantic of each RPC by hand. - -While this should make Valgrind quite usable on the Hurd already, it's not perfect: -some RPCs might return a buffer that is only partially filled with valid data; -or some reply parameters might be optional, -and only contain valid data under certain conditions. -Such specific semantics can't be deduced from the message headers alone. -Thus for a complete port, -it will still be necessary to go through the list of all known RPCs, -and implement special handling in Valgrind for those RPCs that need it. - -The goal of this task is at minimum to make Valgrind grok Mach traps, -and to implement the generic RPC handler. -Ideally, specific handling for RPCs needing it should also be implemented. - -Completing this project will require digging into Valgrind's handling of [[system call]]s, -and into Hurd RPCs. -It is not an easy task, but a fairly predictable one -- -there shouldn't be any unexpected difficulties, -and no major design work is necessary. -It doesn't require any specific previous knowledge: -only good programming skills in general. -On the other hand, -the student will obtain a good understanding of Hurd RPCs while working on this task, -and thus perfect qualifications for Hurd development in general :-) - -Possible mentors: Samuel Thibault (youpi) - -Exercise: As a starter, -students can try to teach valgrind a couple of Linux ioctls, -as this will make them learn how to use the read/write primitives of valgrind. |