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First off, let me apologize if I'm writing this in the wrong place. I can't seem to find a valgrind users forum in which to post things of this nature, and since this place seems fairly all encompassing, I figured I'd try it out.

I have a somewhat unorthodox linux kernel I need to utilize when running my code. I don't know too much about the kernel, specifics since I didn't write it. My kernel, for whatever reason, looks like it extends the default linux kernel's syscall table. What appears to happen is that upon insmod of a .ko file, the current, standard syscall table is extended, starting at what appears to be 333, and going to 341, with the original syscall table being saved, and restored when the .ko is rmmoded. These extra syscalls seem to perform some sort of unique IPC communication with the proprietary software I am running.

Of course, this seems to play hell with valgrind.

I'd like to use valgrind to memcheck my programs of course, but valgrind always crashes the instant my application performs a syscall. Here is the output I get from valgrind, minus a few things I'd rather

==26045== Thread 2:
==26045== Syscall param preadv(vector) points to unaddressable byte(s)
==26045==    at 0x4000982: ??? (in /lib/ld-2.9.so)
==26045==    by 0x426C756: syscall (in /lib/libc-2.9.so)
==26045==    by 0x4037430: com_lock (coms.c:114)


--23932-- VALGRIND INTERNAL ERROR: Valgrind received a signal 11 (SIGSEGV) - exiting
--23932-- si_code=1;  Faulting address: 0x165;  sp: 0x63a6dde4

valgrind: the 'impossible' happened:
   Killed by fatal signal
==23932==    at 0x3809D5E0: vgSysWrap_linux_sys_preadv_before (syswrap-linux.c:3413)
==23932==    by 0x380785CB: vgPlain_client_syscall (syswrap-main.c:1382)
==23932==    by 0x38076330: vgPlain_scheduler (scheduler.c:929)
==23932==    by 0x380A13E8: run_a_thread_NORETURN (syswrap-linux.c:98)
==23932==    by 0x380A1732: vgModuleLocal_start_thread_NORETURN (syswrap-linux.c:268)
==23932==    by 0x380A8AC8: ??? (in /usr/local/lib/valgrind/memcheck-x86-linux)

Unfortunately it is impossible for me to not use these extra syscalls. The challenge I'm facing is how to deal with them.

What I've learned so far is that I can specify in valgrind new and or customized syscall wrappers. Unfortunately I don't quite know how to pull that off when syscall addresses are getting all switched around during my runtime.

If anyone has any sort of experience writing valgrind syscall wrappers for syscalls they've added to their kernel that are non standard (and know how to tell valgrind to switch wrappers) please reply back with some details, references, anything. I'd really appreciate it.

I am using valgrind 3.7, with g++ 4.1.1 and a custom kernel built off 2.6.29 gentoo (for all intents and purposes, it's 2.6.29 gentoo until my proprietary kernel module is loaded)

Edit:

I have discovered a few more things relating to this since I first posted. It appears that valgrind has a file called include/vki/vki-scnums-x86-linux.h. According to the comments in it (valgrind 3.7.0 here remember), it's more or less a cut and paste of asm-i386/unistd.h from a 2.6.9 kernel. At instruction enumeration 333, __NR_preadv is defined. For me, valgrind dies when it performs a syscall for something called my_ipc, which is a syscall unique to my kernel, enumerated at none other than 333. It appears that there is a syscall mapping error between what valgrind was compiled against, and what is actually happening in the kernel. As such, the syscall wrapper valgrind tries to call when it sees syscall 333 can't really handle syscall 333 since the function call signature probably doesn't match up.

I think preadv looks like...

preadv(int fd, const struct iovec *iov, int iovcnt, off_t offset);

and from what I can tell, my ipc call looks like

asmlinkage long my_ipc (uint, long, long, long, long, long);
share|improve this question
    
Is it simply extending the table? It might be that it's overriding an entry and when valgrind makes a syscall it's not the one it wanted (which it seems like it as there's a bad access) –  Jesus Ramos Feb 23 '12 at 1:50
    
After further review, it is overriding an entry. –  sbrett Feb 23 '12 at 18:42
    
That's what I thought :) –  Jesus Ramos Feb 23 '12 at 20:45

1 Answer 1

up vote 3 down vote accepted

Basically the only way you are going to resolve this is to modify valgrind to remove support for the system calls which clash with your custom ones and add at least minimal support for the custom system calls. As things stand valgrind is trying to interpret the arguments to the custom system call as if it was the standard system call that uses the same slot.

The README_MISSING_SYSCALL_OR_IOCTL file in the root of the valgrind source tree is the best place to start for guidance on how to add a system call wrapper to valgrind.

To answer your question about valgrind discussion forums, there are mailing lists, or the #valgrind IRC channel on freenode.

share|improve this answer
    
Ok, so I flat out have to gut a build of valgrind and insert support for my particular system calls huh? Guess there's no easy way. I was unsure if there was a way to let both sets of system calls co-exist in a single valgrind build, but perhaps that's too hard. I guess I can keep 2 separate valgrind executables. –  sbrett Feb 23 '12 at 18:40
    
They can't coexist no, because system calls are identified purely by a number and your kernel has added custom calls that use numbers which clash with new calls added by more recent upstream kernels. So valgrind has no way of knowing that on your machine system call 333 is something different to what it normally is. –  TomH Feb 23 '12 at 18:43

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