Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I would like to take a snapshot of my entire proc file system, and save it in a tarball (or in the worst case concatenate all of the text files together into a single text file).

But when I run:

tar -c /proc

I get a segfault.

What's the best way to do this? Should I set up some kind of recursive walk through each file?

I only have the basic *nix utilities, such as bash, cat, ls, echo, etc. I don't have anything fancy like python or perl or java.

share|improve this question
1  
try tar -vc /proc > /dev/null, at which file the segfault is produced? –  aularon Sep 2 '10 at 20:34
3  
I really, really have to wonder why you want this. –  Ignacio Vazquez-Abrams Sep 2 '10 at 20:37
    
Maybe ask over on serverfault.com ? –  David J. Liszewski Sep 2 '10 at 20:43
    
"tar" froze when it got to /proc/kmsg –  pcd6623 Sep 2 '10 at 21:10

2 Answers 2

up vote 6 down vote accepted

The linux /proc filesystem is actually kernel variables pretending to be a filesystem. There is nothing to save thus nothing to backup. If the system let you, you could rm -rf /proc and it would magically reappear upon the next reboot.

The /dev file system has real i-nodes and they can be backed up. Except they have no contents, just a major and minor number, permissions, and a name. Tools that do backup special device files only record those parameters and never try to open(2) the device. However, since the device major and minor numbers are only meaningful on the precise system they are built for, there is little cause for backing them up.

The reason that trying to tar the /proc pseudo-filesystem causes tar to segfault is because /proc has funny file behavior: things like a write-only pseudo-file may appear to have read permissions, but return an error indication if a program tries to open(2) it for backup. That's sure to drive a naïve tar to get persnickety.

Added in response to comment

It doesn't surprise me that tar had problems reading /proc/kmsg because it has some funny properties:

# strace cat /proc/kmsg
execve("/bin/cat", ["cat", "kmsg"],
open("kmsg", O_RDONLY|O_LARGEFILE)      = 3
// ok, no problem opening the file for reading
fstat64(3, { st_mode=S_IFREG|0400,  st_size=0,
// looks like a normal file of zero length
// but cat does not pay attention to st_size so it just
// does a blocking read
read(3, "<4>[103128.156051] ata2.00: qc t"..., 32768) = 461
write(1, "<4>[103128.156051] ata2.00: qc t"..., 461) = 461
// ...forever...
read(3, "<6>[103158.228444] ata2.00: conf"..., 32768) = 48
write(1, "<6>[103158.228444] ata2.00: conf"..., 48) = 48
+++ killed by SIGINT +++

Since /proc/kmsg is a running list of kernel messages as they happen, it never returns 0 (EOF) it just keeps going until I get bored and press ^C.

Interestingly, my tar has no trouble with /proc/kmsg:

$ tar --version
tar (GNU tar) 1.22
# tar cf /tmp/junk.tar /proc/kmsg
$ tar tvf /tmp/junk.tar
-r-------- root/root         0 2010-09-01 14:41 proc/kmsg

and if you look at the strace output, GNU tar 1.22 saw that st_length == 0 and didn't even bother opening the file for reading, since there wasn't anything there.

I can imagine that your tar saw the length was 0, allocated that much (none) space using malloc(3) which dutifully handed back a pointer to a zero length buffer. Your tar read from /proc/kmsg, got a non-zero length read, and tried to store it in the zero length buffer and got a segmentation violation.

That is but one rat-hole that awaits tar in /proc. How many more are there? Dunno. Will they behave identically? Probably not. Which of the ~1000 or so files which aren't /proc/<pid> psuedo-files are going to have weird semantics? Dunno.

But perhaps the most telling question: What sense would you make of /proc/sys/vm/lowmem_reserve_ratio, will it be different next week, and will you be able to learn anything from that difference?

share|improve this answer
    
Good answer. I'd add that /sys is the same sort of thing, kernel variables pretending to be a file system. It shouldn't be backed up either. –  zwol Sep 2 '10 at 20:47
    
I understand that the /proc file system is composed of virtual files (not actually present on the hard drive), but there are still a lot of files in there that I can read with "cat". I would like to copy all of the files that are readable to a physical file system so that I may have a snapshot of what it looked like at one point in time. Is there a single command (or a few commands) that I can use to accomplish this task without crashing? –  pcd6623 Sep 2 '10 at 21:09
    
@pcd6623: see "added" above –  msw Sep 3 '10 at 0:14
    
That makes sense. Thank you! –  pcd6623 Sep 3 '10 at 12:52
    
It's somewhat minor, but by not having only /proc/ itself archived, I've had systems I've deployed my images to halt on boot. It's easy enough for me to manually make just /proc/ itself and then it'll boot. –  Doc Sep 19 '14 at 16:05

While the accepted answer makes a lot of sense if you want to argue the sense of doing something like this, nevertheless there is an answer that works. Here's a script to duplicate the complete /proc file system into /tmp/proc. This can then be tarred and gzipped. I used this to keep a memory of the setup and capabilities (memory, bogomips, default processes, etc.) of my trusty old file server before I replaced it with a new one.

cd /
mkdir /tmp/proc
find /proc -type f | while read F ; do
   D=/tmp/$(dirname $F)
   test -d $D || mkdir -p $D
   test -f /tmp/$F || sudo cat $F > /tmp/$F
done

Notes: Permissions are not preserved since I have to use cat instead of cp. cp -a /proc /proccopy doesn't work since it crashes on "kcore" as well. mc (Midnight Commander) succeeds in creating a copy of /proc which you can then tar and gzip, but you have to dismiss thousands of "Cannot read file XYZ" errors and it too crashes on 'kcore' with a Bus Error.

share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.