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currently I am working on a project that requires me to use java's Runtime .exec(String[]), however I am having some "non code related" issues with this the executable. First, I am unable to provide specifics on what I am actually executing, however I can provide generic information on what it is in order to hopefully point me in the right direction. My thoughts are that this might happen only when calling java from java, see below.

Currently, I have separated the Runtime .exec(String[]) code from my overall project (a grails app). For now I have only the runtime.exec() code in a separate, pure java class (no groovyc, just javac) (with public static void main()), which is run from bash in the HotSpot JVM, version 1.6, on OSX. Second, the executable is a shell script. Before I get into details on what that does, I can exec that shell script form bash, or via `` in perl or ruby, and everything works 100% correctly. I can also execute any other binary from runtime.exec, and read the output (buffered reader of course) without issues, (ls, pwd, top, ps, etc...), in other words, assume that the implementation of Runtime.exec() in my code is correct.

This program that I am calling contains everything it needs itself, all in one directory, there are no shared libraries or JVM's that it uses elsewhere on the system. In short, there is one "entry point", which is a shell script that a user calls and passes arguments to. That then calls another shell script that then calls an OpenJDK runtime (via relative path), also included in the same directory. The first script, the main binary that users execute, accepts a number of user-related command line arguments, such as username, password, etc (no jvm args). the script them checks to make sure that it has not been moved, and everything else in the "program", including the second openjdk runtime is in that directory. Once that passes, it will call the second script. The second script sets a number of JVM arguments (heap space, perm-gem, etc), and then runs "eval exec" on a runnable jar, (with the included openjdk) instance, along with the user arguments and the JVM arguments that the second script has just set. The jar then runs...

Currently if you execute that first script in bash, it works. The same happens if you execute it in ruby or perl (via ``). Strangely though, when you use runtime.exec(), it doesn't work. Specifically, it looks like it will execute the two scripts, start the jvm, start doing what it does, then block. One of the "user" args you can pass in is a log arguments, where the executable jar will log to disk as well as returning STDOUT and STDERR. No matter how I execute this (bash, ruby, perl, java), that log is written to, however when calling this in java, the log stops getting written to at some point, and nothing else happens. Because of this Process.waitFor() continues to block, and I don’t get an exit code, and of course cannot read the STDOUT or STDERR. I have also found that if I comment out the "eval exec" line that starts the JVM in the second script, and just end the script, I do get an exit code, and the correct exit code while using runtime.exec().

I have obviously not provided nearly enough information for this to be an actual question, so my question is a little more generic. Is there anything you need to be mindful of when executing java from java's runtime.exec? The link below, which is old, mentions they their JAVA_OPS were getting passed form one java instance to the second one they were running, which I don’t believe is the case because the second scripts overwrites all JVM args. Could there be something along those lines though? Anything specific to threading that might cause these issues?

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up vote 1 down vote accepted

In this case it would have been nice to see your code that calls Runtime.exec.

From your description I guess that you read the stdout and stderr of the process only after waitFor() returned, is this correct?

In this case, the problem is clear. The started process writes to stdout (and stderr), and this text needs to be stored somewhere in memory until your process reads it. The buffer allocated for this task is fixed and not very large. If the buffer is full, the other process can't write anymore to stdout. If it tries to do so nevertheless, the writing call will block until there is free space in the buffer.

So you have a classical dead lock here: Your process waits for the other process to terminate, and the other process waits for your process to read from stdout/stderr.

To solve this, you need to start two threads after calling exec() that continuously read from stdout and stderr.

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One thread is enough if you use ProcessBuilder instead (and if you redirect the stderr to stdout). – Mark Rotteveel Mar 19 '13 at 19:14
@MarkRotteveel Yep, good idea if you don't care whether the output comes on stdout or stderr. The method is… – Philipp Wendler Mar 19 '13 at 19:18
If either of you read my first comment, ignore it, I somehow, after a long day, missed the actual answer and just read your comment so I deleted it. In short, yep, that was the issue. During my tests much earlier I was getting much less STDOUT (just --usage), which was not filling up the buffer, however when I passed in the "real" args, the STDOUT increased, and the bufferer Filled up. I just tested this with threads and ProcessBuilder (with the redirect) and both work just fine. Thanks again, and thanks for bearing with this insane question. – Justin Burrous Mar 20 '13 at 9:44

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