1. Introduction
1.1 Who needs that
2. Principles
2.1 Non reversible isolation
2.2 Isolation areas
2.3 New system calls
2.4 Limiting super-user: The capabilities system
2.5 Enhancing the capability system
2.6 Playing with the new system calls
2.6.1 Playing with /usr/sbin/chcontext
2.6.2 Playing with /usr/sbin/chcontext as root
2.6.3 Playing with /usr/sbin/chbind
2.6.4 Playing with /usr/sbin/reducecap
2.7 Unification
3. Applications
3.1 Virtual server
3.2 Per user fire-wall
3.3 Secure server/Intrusion detection
3.4 Fail over servers
4. Installation
4.1 The packages
4.2 Setting a virtual server
4.3 Basic configuration of the virtual server
4.4 Entering the virtual server
4.5 Configuring the services
4.6 Starting/Stopping the virtual server
4.7 Starting/Stopping all the virtual servers
4.8 Restarting a virtual server from inside
4.9 Executing tasks at vserver start/stop time
4.10 Issues
4.11 How real is it ?
5. Features
6. Future directions
6.1 User controlled security box
6.2 Kernel enhancements
6.2.1 Per context disk quota
6.2.2 Global limits
6.2.3 Scheduler
6.2.4 Security issues
6.2.4.1 /dev/random
6.2.4.2 /dev/pts
6.2.4.3 Network devices
7. Alternative technologies
7.1 Virtual machines
7.2 Partitioning
7.3 Limitation of those technologies
8. Conclusion
9. Download
10. References
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2.6.1 Playing with /usr/sbin/chcontext

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The /usr/sbin/chcontext utility is used to enter into a new security context. The utility switch the security context and execute a program, specified on the command line. This program is now isolated and can't see the other processes running on the server.

The experiment with this, start two command windows (xterm), as the same user ID. In each window execute the following commands:

xterm

Using chcontext: first window


/usr/sbin/chcontext /bin/sh
pstree
killall xterm
exit

Using chcontext: second window

In the first window, you start the xterm command (or any command you like). In the second window you execute chcontext. This starts a new shell. You execute pstree and see very little. You attempt to kill the xterm and you fail. You exit this shell and you are back seeing all processes.

Here is another example. You switch context and you get a new shell. In this shell you start an xterm. Then you switch context again and start another sub-shell. Now the sub-shell is again isolated.

/usr/sbin/chcontext /bin/sh
pstree
xterm &
pstree
# Ok now you see your xterm
/usr/sbin/chcontext /bin/sh
pstree
# the xterm is not there, killall will fail
killall xterm
# Now we exit the shell
exit
pstree
# the xterm is there
killall xterm
# Ok, it is gone
exit
# We are back to the initial security context

Using chcontext several times

Processes isolated using chcontext are doubly isolated: They can't see the other processes on the server, but the other processes can't see them either. The original security context (0) when you boot is no better than the other: It sees only process in security context 0.

While playing with chcontext, you will notice an exception. The process 1 is visible from every security context. It is visible to please utilities like pstree. But only root processes in security context 0 are allowed to interact with it.

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