Difference between revisions of "PolicyValidate"

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Line 32: Line 32:
 
Next try rebuilding your policy with no changes:
 
Next try rebuilding your policy with no changes:
  
  semodule -B
+
  # semodule -B
  
 
It should succeed. Make a module that would violate this rule:
 
It should succeed. Make a module that would violate this rule:
Line 48: Line 48:
 
Do the standard compilation steps:
 
Do the standard compilation steps:
  
  [root@F12 ~]# checkmodule -o badmod.mod badmod.te -m -M
+
  # checkmodule -o badmod.mod badmod.te -m -M
 
  checkmodule:  loading policy configuration from badmod.te
 
  checkmodule:  loading policy configuration from badmod.te
 
  checkmodule:  policy configuration loaded
 
  checkmodule:  policy configuration loaded
 
  checkmodule:  writing binary representation (version 10) to badmod.mod
 
  checkmodule:  writing binary representation (version 10) to badmod.mod
  [root@F12 ~]# semodule_package -m badmod.mod -o badmod.pp
+
  # semodule_package -m badmod.mod -o badmod.pp
  
 
And then attempt to insert it:
 
And then attempt to insert it:
  
  [root@F12 ~]# semodule -i badmod.pp
+
  # semodule -i badmod.pp
 
  semodule:  Failed!
 
  semodule:  Failed!
  
 
You can run sesearch yourself to ensure that there is no matching rule:
 
You can run sesearch yourself to ensure that there is no matching rule:
  
  [root@F12 ~]# sesearch --allow -s user_t -t shadow_t -c file  
+
  # sesearch --allow -s user_t -t shadow_t -c file  
 
   
 
   
  
 
There is also a [verify module] and [verify linked].
 
There is also a [verify module] and [verify linked].

Latest revision as of 20:24, 25 November 2009

Libsemanage is the library responsible for building a kernel policy from policy modules. It has many features but one that is rarely mentioned is the policy validation hook. This page will show you how to make a basic validator and tell libsemanage to run it before allowing any policy updates.

First we'll write the validator. In this case we'll use sesearch to search for a rule between user_t and shadow_t. The purpose of this validator is to never allow a policy update that allows user_t to access shadow_t.

To use the script below you need to have setools-console installed.

Make a file in /usr/local/bin/validate that contains the following (remember to chmod +x it or semodule will fail):

#!/bin/bash

# Usage: validate <policy file> 
 
# The following searches for a file rule with user_t as the source and shadow_t as the target.
# If the output of sesearch has "Found", meaning matching rules were found, then grep will return 0
# otherwise it will return 1. This is actually the reverse of the logic we want, so we'll reverse it.
sesearch --allow -s user_t -t shadow_t -c file $1 | grep "Found" > /dev/null

if [ $? == 1 ]; then
        exit 0
fi

exit 1

Then add the validation script to /etc/selinux/semanage.conf

[verify kernel]
path = /usr/local/bin/validate
args = $@
[end]


Next try rebuilding your policy with no changes:

# semodule -B

It should succeed. Make a module that would violate this rule:

module badmod 1.0;

require {
      type user_t, shadow_t;
      class file { read };
}

allow user_t shadow_t : file read;


Do the standard compilation steps:

# checkmodule -o badmod.mod badmod.te -m -M
checkmodule:  loading policy configuration from badmod.te
checkmodule:  policy configuration loaded
checkmodule:  writing binary representation (version 10) to badmod.mod
# semodule_package -m badmod.mod -o badmod.pp

And then attempt to insert it:

# semodule -i badmod.pp
semodule:  Failed!

You can run sesearch yourself to ensure that there is no matching rule:

# sesearch --allow -s user_t -t shadow_t -c file 

There is also a [verify module] and [verify linked].