Tuesday, September 25, 2012

Always Elevated Privileges in Windows 7

As a developer I usually need to execute lots of commands and programs that require administrative privileges. Although my Windows user is in the Administrators group I always needed to do "Run as administrator" on command prompt, text editors and other applications that required privilege elevation, even if they were created by me or by programs that I launched!
After digging a little through Windows permissions system system I found out that in order to improve security and minimize virus propagation risks, the windows team has decided that even if you are in the administrator group, and even if you are the Administrator, there is better to explicitly grant yourself the rights to do elevated privileges in an interactive way, so that underground malicious programs would not be able to go through without you knowing this.
That said, I am quite sure that an experienced user can do fine even without this kind of assistance, especially in corporate environments where almost everything is filtered and secured.

So, to grant yourself elevated privileges without prompt you need to:
1. open security policy configuration, by typing in the command prompt:

%windir%\system32\secpol.msc /s

A window titled "Local Security Policy" should open as below:


2. Navigate to the Security Options node:


3. On the right side click on the "Policy" table header at the top to order alphabetically the entries so that you shall have all entries starting with "User Account Control" easy to spot.

4. Select the entry called "User Account Control: Run all administrators in Admin Approval Mode":


5. Here it is all. When activated, this option instructs Windows to ask for your permission every time when elevated privileges are required, even if you already own them. Double click on the entry and set this option to Disabled. It will require you to  restart Windows in order to get effective:


As a bottom line, be sure that you know what you are doing, as this will downgrade your system's overall security.

Good luck!

Wednesday, May 4, 2011

Tailing log files over SSH in Windows

My problem: I wanted to be able to track logs on Unix machines using BareTail or something similar.
Until now the only solution was to use putty and log console output into a local file, then open it with BareTail.
Disadvantages: for each log file had to open another putty.

Solution:
Dokan SSHFS (SSH File System)
It's a file system mapping application that allows a remote file system map to a Windows local drive.
After I installed the one I could open all 6 log files with baretail as if it was on a
local drive (N).

Installation Steps:
1. Install the NET 2.0 Runtime;
2. Install the Visual C++ 2005 Runtime;
3. Install the Dokan library 0.6
4. Install the Dokan sshfs 0.2;
5. Download the Dohan sshfs 0.6;
6. From 0.6 zip copy DokanSSHFS.exe and DokanNet.dll over the files installed by the 0.2 installer. This is because there is no yet an installer for the 0.6 version;
7. Run DokanSSHFS.exe then choose the remote path, username and password, and choose the letter for windows drive to be assigned;
8. In the options tab to check the cache disable;
9. Click on CONNECT

From this moment you have a new drive in Windows where you can work normally with explorer, BareTail, etc. plus an icon in the Windows taskbar that allows mount/unmount on-the-fly
I hope you will find this useful.

Update:
There is an excellent log viewer called LogExpert that can directly use tailing over sftp on *nix servers. In my opinion this is the most complete log viewer at least for Windows: highliting, regular expression filtering in a separate panel, columnizers and a lot of other useful stuff. Try it with confidence.

Good luck!

Dikran

Saturday, October 10, 2009

How to know when Java Virtual Machine is shutting down

The question is: why would someone need to know such thing?

You already have the jdk's Runtime.getRuntime().addShutdownHook() method that adds your thread to be called when the jvm is shutting down. So why another way?

Well, I would have asked the same thing if I didn't experience an unusual situation.
(For the inpatient reader that wants to skip the story, you can jump directly to the answer)

I was working on a complex web aplication that was running in a jBoss/Tomcat container. We needed a clean server shutdown in order to release  the resources (connection pools, sockets, temporary files, etc). At a certain moment the team members noticed that the undeploy operation worked well while the majority of the shutdowns (but not all) were hanging at a certain point. The displayed reason was a strange exception raised from the AWT thread:

Exception in thread "AWT-Windows" java.lang.IllegalStateException: Shutdown in progress
at java.lang.Shutdown.add(Shutdown.java:81)
at java.lang.Runtime.addShutdownHook(Runtime.java:190)

We could not understand why the exception would come from the AWT as we were not using at all the AWT in our application... Or at least we didn't know it... However, who was calling the Runtime.addShutdownHook() and why was it driving to a jvm crash?

After digging around the problem I discovered that, indeed, we were using AWT, although indirectly, by using a reporting engine. And that reporting engine was using classes of AWT to do it's job. The reporting library that we were using was packaged as a Struts plugin. The plugin's contract is simple: Struts calls the  init() method at startup and the destroy()method at shutdown, on all the registered plugins. The plugin's control class was a singleton that was simply redirecting the destroy() calls to it's internal methods. Of course, after creating an instance of itself.
So what? you may say. This is the normal way to do such things.
Yes, only that, in this particular case, unless you used the reporting feature while working with the application, the reporting engine was not initialized until shutdown. So, at server's shutdown, Struts was calling destroy on all it's plugins and at his turn the reporting plugin, inside it's destroy() method, was calling ReportsInitializer.getInstance().shutdown(). And... Boom! JVM freeze.

Ok, but why? It's just a class instance that does something within itself! What might drive it to crash all the system?
Well, the nice part is just coming. So, we have a system shutdown and a Struts plugin called that is instantiating some class that uses some AWT elements inside. It does not look like something to be scared of... Only that there is a catch: when a class AWT is instantiated, the AWT Toolkit itself adds a ShutDownHook  to the  Runtime. I haven't yet dug inside to understand why. But, as java specs state, it is illegal to add a  ShutdownHook  if the JVM shutdown sequence has already started.
Some people consider that this behavior inside AWT is a bug, because AWT should check itself if the JVM is shutting down before attempting to add its own ShutdownHook.
Ok. now, we found the reason why all happened. What next? I evaluated three possible solutions:
- to add a generic thread exception handler and simply "swallow" this exception.
- to add a myself a ShutdownHook and set some flag on the reporting reporting plugin not to instantiate anymore the reporting initializer.
- to detect (inside the destroy method in the plugin) if the virtual machine is shutting down and skip calling the reporting initializer.

The solution I chose was the last, because the generic thread exception handler couldn't prevent the exception to happen, and for the second option, the order in which JVM calls the ShutdownHooks  is not guaranteed, so you'll never know if it will be called before or after the Struts's own ShutdownHook, making of the solution a non deterministic one.

So I made some research to see if I may possibly know at any time if the Java Virtual Machine is shutting down. I discovered that when java.lang.Runtime.exit(int status) is called, it forwards the call to a class named java.lang.Shutdown.exit(int status), that calls all the ShutdownHooks before calling the native halt() method. Inside this class there are fields describing the state of the system. Unfortunately the class is private package and there is no public method that returns the System's state. But luckily, in Java we have the blessed reflection. So, here comes the answer:


private boolean isSystemShuttingDown() {
  try {
    Field running = Class.forName("java.lang.Shutdown").getDeclaredField("RUNNING");
    Field state = Class.forName("java.lang.Shutdown").getDeclaredField("state");
    running.setAccessible(true);
    state.setAccessible(true);
    return state.getInt(null) > running.getInt(null);
  }
  catch (Exception ex) {
    ex.printStackTrace();
    return false;
  }
}

I would not advise anyone to use this on a daily basis unless he is exceptionally needing such a solution, primarily because:
- the java.lang.Shutdown class is a package private class in the JDK and it may be changed or removed in any upcoming release. Of course, for custom built projects, that usually run for a long time on a single jdk version this is not such a big issue.
- In public distributions there is a chance that the SecurityManager is set to forbid the access to jdk internals. But again, inside custom projects you can configure your own SecurityManager.

I hope that you enjoyed reading this post and I am waiting for your comments.

Greetings,
Dikran

P.S. Thanks to Alex Gorbatchev for his excellent SyntaxHighlighter.