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243 lines
8 KiB
Text
243 lines
8 KiB
Text
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Date: Wed, 16 Oct 2013 04:34:01 -0400
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From: Jeff King <peff@peff.net>
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Subject: pack corruption post-mortem
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Abstract: Recovering a corrupted object when no good copy is available.
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Content-type: text/asciidoc
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How to recover an object from scratch
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=====================================
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I was recently presented with a repository with a corrupted packfile,
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and was asked if the data was recoverable. This post-mortem describes
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the steps I took to investigate and fix the problem. I thought others
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might find the process interesting, and it might help somebody in the
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same situation.
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********************************
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Note: In this case, no good copy of the repository was available. For
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the much easier case where you can get the corrupted object from
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elsewhere, see link:recover-corrupted-blob-object.html[this howto].
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********************************
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I started with an fsck, which found a problem with exactly one object
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(I've used $pack and $obj below to keep the output readable, and also
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because I'll refer to them later):
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-----------
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$ git fsck
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error: $pack SHA1 checksum mismatch
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error: index CRC mismatch for object $obj from $pack at offset 51653873
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error: inflate: data stream error (incorrect data check)
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error: cannot unpack $obj from $pack at offset 51653873
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-----------
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The pack checksum failing means a byte is munged somewhere, and it is
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presumably in the object mentioned (since both the index checksum and
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zlib were failing).
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Reading the zlib source code, I found that "incorrect data check" means
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that the adler-32 checksum at the end of the zlib data did not match the
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inflated data. So stepping the data through zlib would not help, as it
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did not fail until the very end, when we realize the crc does not match.
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The problematic bytes could be anywhere in the object data.
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The first thing I did was pull the broken data out of the packfile. I
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needed to know how big the object was, which I found out with:
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------------
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$ git show-index <$idx | cut -d' ' -f1 | sort -n | grep -A1 51653873
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51653873
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51664736
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------------
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Show-index gives us the list of objects and their offsets. We throw away
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everything but the offsets, and then sort them so that our interesting
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offset (which we got from the fsck output above) is followed immediately
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by the offset of the next object. Now we know that the object data is
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10863 bytes long, and we can grab it with:
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------------
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dd if=$pack of=object bs=1 skip=51653873 count=10863
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------------
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I inspected a hexdump of the data, looking for any obvious bogosity
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(e.g., a 4K run of zeroes would be a good sign of filesystem
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corruption). But everything looked pretty reasonable.
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Note that the "object" file isn't fit for feeding straight to zlib; it
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has the git packed object header, which is variable-length. We want to
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strip that off so we can start playing with the zlib data directly. You
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can either work your way through it manually (the format is described in
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link:../technical/pack-format.html[Documentation/technical/pack-format.txt]),
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or you can walk through it in a debugger. I did the latter, creating a
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valid pack like:
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------------
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# pack magic and version
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printf 'PACK\0\0\0\2' >tmp.pack
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# pack has one object
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printf '\0\0\0\1' >>tmp.pack
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# now add our object data
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cat object >>tmp.pack
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# and then append the pack trailer
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/path/to/git.git/test-sha1 -b <tmp.pack >trailer
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cat trailer >>tmp.pack
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------------
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and then running "git index-pack tmp.pack" in the debugger (stop at
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unpack_raw_entry). Doing this, I found that there were 3 bytes of header
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(and the header itself had a sane type and size). So I stripped those
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off with:
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------------
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dd if=object of=zlib bs=1 skip=3
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------------
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I ran the result through zlib's inflate using a custom C program. And
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while it did report the error, I did get the right number of output
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bytes (i.e., it matched git's size header that we decoded above). But
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feeding the result back to "git hash-object" didn't produce the same
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sha1. So there were some wrong bytes, but I didn't know which. The file
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happened to be C source code, so I hoped I could notice something
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obviously wrong with it, but I didn't. I even got it to compile!
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I also tried comparing it to other versions of the same path in the
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repository, hoping that there would be some part of the diff that didn't
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make sense. Unfortunately, this happened to be the only revision of this
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particular file in the repository, so I had nothing to compare against.
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So I took a different approach. Working under the guess that the
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corruption was limited to a single byte, I wrote a program to munge each
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byte individually, and try inflating the result. Since the object was
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only 10K compressed, that worked out to about 2.5M attempts, which took
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a few minutes.
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The program I used is here:
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----------------------------------------------
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#include <stdio.h>
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#include <unistd.h>
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#include <string.h>
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#include <signal.h>
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#include <zlib.h>
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static int try_zlib(unsigned char *buf, int len)
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{
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/* make this absurdly large so we don't have to loop */
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static unsigned char out[1024*1024];
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z_stream z;
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int ret;
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memset(&z, 0, sizeof(z));
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inflateInit(&z);
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z.next_in = buf;
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z.avail_in = len;
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z.next_out = out;
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z.avail_out = sizeof(out);
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ret = inflate(&z, 0);
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inflateEnd(&z);
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return ret >= 0;
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}
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/* eye candy */
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static int counter = 0;
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static void progress(int sig)
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{
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fprintf(stderr, "\r%d", counter);
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alarm(1);
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}
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int main(void)
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{
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/* oversized so we can read the whole buffer in */
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unsigned char buf[1024*1024];
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int len;
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unsigned i, j;
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signal(SIGALRM, progress);
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alarm(1);
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len = read(0, buf, sizeof(buf));
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for (i = 0; i < len; i++) {
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unsigned char c = buf[i];
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for (j = 0; j <= 0xff; j++) {
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buf[i] = j;
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counter++;
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if (try_zlib(buf, len))
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printf("i=%d, j=%x\n", i, j);
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}
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buf[i] = c;
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}
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alarm(0);
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fprintf(stderr, "\n");
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return 0;
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}
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----------------------------------------------
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I compiled and ran with:
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-------
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gcc -Wall -Werror -O3 munge.c -o munge -lz
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./munge <zlib
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-------
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There were a few false positives early on (if you write "no data" in the
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zlib header, zlib thinks it's just fine :) ). But I got a hit about
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halfway through:
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-------
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i=5642, j=c7
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-------
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I let it run to completion, and got a few more hits at the end (where it
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was munging the crc to match our broken data). So there was a good
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chance this middle hit was the source of the problem.
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I confirmed by tweaking the byte in a hex editor, zlib inflating the
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result (no errors!), and then piping the output into "git hash-object",
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which reported the sha1 of the broken object. Success!
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I fixed the packfile itself with:
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-------
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chmod +w $pack
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printf '\xc7' | dd of=$pack bs=1 seek=51659518 conv=notrunc
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chmod -w $pack
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-------
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The `\xc7` comes from the replacement byte our "munge" program found.
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The offset 51659518 is derived by taking the original object offset
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(51653873), adding the replacement offset found by "munge" (5642), and
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then adding back in the 3 bytes of git header we stripped.
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After that, "git fsck" ran clean.
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As for the corruption itself, I was lucky that it was indeed a single
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byte. In fact, it turned out to be a single bit. The byte 0xc7 was
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corrupted to 0xc5. So presumably it was caused by faulty hardware, or a
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cosmic ray.
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And the aborted attempt to look at the inflated output to see what was
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wrong? I could have looked forever and never found it. Here's the diff
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between what the corrupted data inflates to, versus the real data:
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--------------
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- cp = strtok (arg, "+");
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+ cp = strtok (arg, ".");
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--------------
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It tweaked one byte and still ended up as valid, readable C that just
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happened to do something totally different! One takeaway is that on a
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less unlucky day, looking at the zlib output might have actually been
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helpful, as most random changes would actually break the C code.
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But more importantly, git's hashing and checksumming noticed a problem
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that easily could have gone undetected in another system. The result
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still compiled, but would have caused an interesting bug (that would
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have been blamed on some random commit).
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