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I am currently dealing with log files with sizes approx. 5gb. I'm quite new to parsing log files and using UNIX bash, so I'll try to be as precise as possible. While searching through log files, I do the following: provide the request number to look for, then optionally to provide the action as a secondary filter. A typical command looks like this:

fgrep '2064351200' example.log | fgrep 'action: example'

This is fine dealing with smaller files, but with a log file that is 5gb, it's unbearably slow. I've read online it's great to use sed or awk to improve performance (or possibly even combination of both), but I'm not sure how this is accomplished. For example, using awk, I have a typical command:

awk '/2064351200/ {print}' example.log

Basically my ultimate goal is to be able print/return the records (or line number) that contain the strings (could be up to 4-5, and I've read piping is bad) to match in a log file efficiently.

On a side note, in bash shell, if I want to use awk and do some processing, how is that achieved? For example:

BEGIN { print "File\tOwner" }
{ print $8, "\t", \
$3}
END { print " - DONE -" }

That is a pretty simple awk script, and I would assume there's a way to put this into a one liner bash command? But I'm not sure how the structure is.

Thanks in advance for the help. Cheers.

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1  
awk will not be faster than chaining piped greps in your example. if you are performing lots of searches on the same large file, you may save on IO if you store it as .lzo –  Ron Aug 25 '11 at 22:01
    
@Ron thanks for the advice, but if I have to perform the searching on a log file that is constantly being update throughout the day, I'm assuming this technique is not applicable? Since I would have to constantly update the stored file –  Albert Aug 26 '11 at 16:50
    
@Albert There is a new opensource software project international-characters.com/icgrep that is a "parallel bitstream implementation". I haven't tried the software but it might be fast. –  Erik Sjölund Jul 20 at 9:04

4 Answers 4

up vote 17 down vote accepted

You need to perform some tests to find out where your bottlenecks are, and how fast your various tools perform. Try some tests like this:

time fgrep '2064351200' example.log >/dev/null
time egrep '2064351200' example.log >/dev/null
time sed -e '/2064351200/!d' example.log >/dev/null
time awk '/2064351200/ {print}' example.log >/dev/null

Traditionally, egrep should be the fastest of the bunch (yes, faster than fgrep), but some modern implementations are adaptive and automatically switch to the most appropriate searching algorithm. If you have bmgrep (which uses the Boyer-Moore search algorithm), try that. Generally, sed and awk will be slower because they're designed as more general-purpose text manipulation tools rather than being tuned for the specific job of searching. But it really depends on the implementation, and the correct way to find out is to run tests. Run them each several times so you don't get messed up by things like caching and competing processes.

As @Ron pointed out, your search process may be disk I/O bound. If you will be searching the same log file a number of times, it may be faster to compress the log file first; this makes it faster to read off disk, but then require more CPU time to process because it has to be decompressed first. Try something like this:

compress -c example2.log >example2.log.Z
time zgrep '2064351200' example2.log.Z >/dev/null
gzip -c example2.log >example2.log.gz
time zgrep '2064351200' example2.log.gz >/dev/null
bzip2 -k example.log
time bzgrep '2064351200' example.log.bz2 >/dev/null

I just ran a quick test with a fairly compressible text file, and found that bzip2 compressed best, but then took far more CPU time to decompress, so the zgip option wound up being fastest overall. Your computer will have different disk and CPU performance than mine, so your results may be different. If you have any other compressors lying around, try them as well, and/or try different levels of gzip compression, etc.

Speaking of preprocessing: if you're searching the same log over and over, is there a way to preselect out just the log lines that you might be interested in? If so, grep them out into a smaller (maybe compressed) file, then search that instead of the whole thing. As with compression, you spend some extra time up front, but then each individual search runs faster.

A note about piping: other things being equal, piping a huge file through multiple commands will be slower than having a single command do all the work. But all things are not equal here, and if using multiple commands in a pipe (which is what zgrep and bzgrep do) buys you better overall performance, go for it. Also, consider whether you're actually passing all of the data through the entire pipe. In the example you gave, fgrep '2064351200' example.log | fgrep 'action: example', the first fgrep will discard most of the file; the pipe and second command only have to process the small fraction of the log that contains '2064351200', so the slowdown will likely be negligible.

tl;dr TEST ALL THE THINGS!

EDIT: if the log file is "live" (i.e. new entries are being added), but the bulk of it is static, you may be able to use a partial preprocess approach: compress (& maybe prescan) the log, then when scanning use the compressed (&/prescanned) version plus a tail of the part of the log added since you did the prescan. Something like this:

# Precompress:
gzip -v -c example.log >example.log.gz
compressedsize=$(gzip -l example.log.gz | awk '{if(NR==2) print $2}')

# Search the compressed file + recent additions:
{ gzip -cdfq example.log.gz; tail -c +$compressedsize example.log; } | egrep '2064351200'

If you're going to be doing several related searches (e.g. a particular request, then specific actions with that request), you can save prescanned versions:

# Prescan for a particular request (repeat for each request you'll be working with):
gzip -cdfq example.log.gz | egrep '2064351200' > prescan-2064351200.log

# Search the prescanned file + recent additions:
{ cat prescan-2064351200.log; tail -c +$compressedsize example.log | egrep '2064351200'; } | egrep 'action: example'
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2  
The sed script can be optimized slightly to exit as soon as there is a match (assuming this is a unique identifier). sed -n '/2064351200/{;p;q;}' Certainly you could do this in awk, too. –  tripleee Aug 26 '11 at 5:25
    
@tripleee: my understanding is that the poster needs to see all matches, not just check for a match. The reason I'm discarding output (`>/dev/null') is because these are just speed tests. –  Gordon Davisson Aug 26 '11 at 5:35
    
It's not clear from the question whether "request number" matches one line, or many. Even in the many case, if the matches are all grouped together, you can optimize by closing when you see the first non-match after a match. –  tripleee Aug 26 '11 at 6:25
    
@Gordon thanks for the advice, unfortunately most of the work will be searching a real time log file. I think this means the compression methods are not applicable? Thanks for your explanation on the grep options. As for the testing, you're right, egrep was the fastest and by quite a margin in comparison to the other 4 options (which were around the same). Thanks for your help! –  Albert Aug 26 '11 at 16:44
    
@triplee unfortunately the matches are not grouped together. But that is a good technique I was investigating: exit if a predefined number of matches have been retrieved. –  Albert Aug 26 '11 at 16:46

If you don't know the sequence of your strings, then:

awk '/str1/ && /str2/ && /str3/ && /str4/' filename

If you know that they will appear one following another in the line:

grep 'str1.*str2.*str3.*str4' filename

(note for awk, {print} is the default action block, so it can be omitted if the condition is given)

Dealing with files that large is going to be slow no matter how you slice it.

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As to multi-line programs on the command line,

$ awk 'BEGIN { print "File\tOwner" }
> { print $8, "\t", \
> $3}
> END { print " - DONE -" }' infile > outfile

Note the single quotes.

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thanks for the help, this is great! –  Albert Aug 26 '11 at 16:47

If you process the same file multiple times, it might be faster to read it into a database, and perhaps even create an index.

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