I am a software developer from Poland, currently working in banking industry. For the past few years I have been writing software in Java, however I actively seek for a close alternative. Certified in SCJP, SCJD, SCWCD and SCBCD, used to be active on StackOverflow. I feel comfortable at the back-end, however recently rediscovered front-end development. In spare time I love cycling. Tomasz is a DZone MVB and is not an employee of DZone and has posted 81 posts at DZone. You can read more from them at their website. View Full User Profile

Which Java Thread Consumes my CPU?

09.03.2012
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What do you do when your Java application consumes 100% of the CPU? Turns out you can easily find the problematic thread(s) using built-in UNIX and JDK tools. No profilers or agents required.

For the purpose of testing we'll use this simple program:

public class Main {
    public static void main(String[] args) {
        new Thread(new Idle(), "Idle").start();
        new Thread(new Busy(), "Busy").start();
    }
}
 
class Idle implements Runnable {
 
    @Override
    public void run() {
        try {
            TimeUnit.HOURS.sleep(1);
        } catch (InterruptedException e) {
        }
    }
}
 
class Busy implements Runnable {
    @Override
    public void run() {
        while(true) {
            "Foo".matches("F.*");
        }
    }
}

As you can see, it starts two threads. Idle is not consuming any CPU (remember, sleeping threads consume memory, but not CPU) while Busy eats the whole core as regular expression parsing and executing is a surprisingly complex process. Let's run this program and forget about it. How can we quickly find out that Busy is the problematic piece of our software? First of all we use top to find out the process id (PID) of the java process consuming most of the CPU. This is quite straightforward:

$ top -n1 | grep -m1 java

This will display the first line of top output containing "java" sentence:

22614 tomek     20   0 1360m 734m  31m S    6 24.3   7:36.59 java

The first column is the PID, let's extract it. Unfortunately it turned out that top uses ANSI escape codes for colors - invisible characters that are breaking tools like grep and cut. Luckily I found a perl script to remove these characters and was finally able to extract the PID of java process exhausting my CPU:

$ top -n1 | grep -m1 java | perl -pe 's/\e\[?.*?[\@-~] ?//g' | cut -f1 -d' '

The cut -f1 -d' ' invocation simply takes the first value out of space-separated columns:

22614

Now when we now the problematic JVM PID, we can use top -H to find problematic Linux threads. The -H option prints a list of all threads as opposed to processes, the PID column now represents the internal Linux thread ID:

$ top -n1 -H | grep -m1 java
$ top -n1 -H | grep -m1 java | perl -pe 's/\e\[?.*?[\@-~] ?//g' | cut -f1 -d' '

The output is surprisingly similar, but the first value is now the thread ID:

25938 tomek     20   0 1360m 748m  31m S    2 24.8   0:15.15 java
25938

So we have a process ID of our busy JVM and Linux thread ID (most likely from that process) consuming our CPU. Here comes the best part: if you look at jstack output (available in JDK), each thread has some mysterious ID printed next to its name:

$ printf "%x" 25938
6552

Let's wrap all we have now into a script and combine the results:

#!/bin/bash
PID=$(top -n1 | grep -m1 java | perl -pe 's/\e\[?.*?[\@-~] ?//g' | cut -f1 -d' ')
NID=$(printf "%x" $(top -n1 -H | grep -m1 java | perl -pe 's/\e\[?.*?[\@-~] ?//g' | cut -f1 -d' '))
jstack $PID | grep -A500 $NID | grep -m1 "^$" -B 500

PID holds the java PID and NID holds the thread ID, most likely from that JVM. The last line simply dumps the JVM stack trace of the given PID and filters out (using grep) the thread which has matching nid. Guess what, it works:

$ ./profile.sh
"Busy" prio=10 tid=0x7f3bf800 nid=0x6552 runnable [0x7f25c000]
    java.lang.Thread.State: RUNNABLE
        at java.util.regex.Pattern$Node.study(Pattern.java:3010)
        at java.util.regex.Pattern$Curly.study(Pattern.java:3854)
        at java.util.regex.Pattern$CharProperty.study(Pattern.java:3355)
        at java.util.regex.Pattern$Start.<init>(Pattern.java:3044)
        at java.util.regex.Pattern.compile(Pattern.java:1480)
        at java.util.regex.Pattern.<init>(Pattern.java:1133)
        at java.util.regex.Pattern.compile(Pattern.java:823)
        at java.util.regex.Pattern.matches(Pattern.java:928)
        at java.lang.String.matches(String.java:2090)
        at com.blogspot.nurkiewicz.Busy.run(Main.java:27)
        at java.lang.Thread.run(Thread.java:662)

Running the script multiple times (or with watch, see below) will capture Busy thread in different places, but almost always inside regular expression parsing - which is our problematic piece!

Multiple threads

In case your application has multiple CPU-hungry threads, you can use watch -n1 ./profile.sh command to run the script every second and get semi real-time stack dumps, most likely from different threads. Testing with the following program:

new Thread(new Idle(), "Idle").start();
new Thread(new Busy(), "Busy-1").start();
new Thread(new Busy(), "Busy-2").start();

you'll see stack traces either of Busy-1 or of Busy-2 threads (in different places inside Pattern class), but never Idle. 

 

Published at DZone with permission of Tomasz Nurkiewicz, author and DZone MVB. (source)

(Note: Opinions expressed in this article and its replies are the opinions of their respective authors and not those of DZone, Inc.)

Comments

Dapeng Liu replied on Wed, 2012/09/05 - 12:20am

great post

Giancarlo Frison replied on Wed, 2012/09/05 - 3:25am

Nice job.

 

You can also use JTop, a plugin for jconsole and getting all information of cpu consumption for a specific thread.

http://lsd.luminis.nl/top-threads-plugin-for-jconsole/

 

enjoy, 

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