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==================================
A correlation framework for Bro
==================================

This framework facilitates correlating Bro events on the fly. While this task can also be done offline by post-processing logs, the correlation framework allows putting some sense into thousands of events spewed during live analysis and reacting to those in real time; the reaction being raising a threshold, kick-starting another correlation, invoking a bash script and so on.

A really cool feature of the correlation framework is the ability to trace back events that led to the correlation rule yielding true. For example, suppose we know that events A,B and C contribute to correlation X. If correlation rule for X is met, the framework will tell you which combination of A, B and C triggered the rule.

==================================
How to use the correlation framework 
==================================

1. Correlation framework is a directory (avalilable at https://github.com/sheharbano/correlation) which you need to put in a place of your choice. Once done, load the main correlation scripts in your script paying attention to paths.

   ----------------------
   @load correlation.bro
   @load non-cluster.bro
   ----------------------

2. Next, you need to add your correlation item to the framework. Usually, this should be done in event bro_init but it's possible to do this in a code block that is invoked in reaction to some other event.
    
   ----------------------------------------
	function correlated_func(index: Correlation::Index, val: Correlation::Val)
		{
		print "This function will be called when my correlation rule is met.";
		}
   	local str_rule = "<SOME RULE THAT I WILL SHORTLY DESCRIBE>";

   	local done = Correlation::add_correlation_item("correlation1",[$name="filter1",
                                                  $every=5mins,
                                                  $rule=str_rule,
						  $log=T,
                                                  $correlated=correlated_func] ); 
   	if ( !done )
           	print "Correlation Framework Error: Failed to add filter."; 

   -------------------------------------------

   Lets discuss the different fields one by one.

	* done
 	  	A Boolean value that indicates if the filter was su-
		-ccessfully added to the correlarion framework.

        * add_correlation_item
          	A function that adds a correlation item to the framework. 

          Correlation ID:
          	The first parameter here is the correlation ID ("correlation1").

	  Filter name ($name):
		The second parameter is the filter name ("filter1"). 
		A filter together with the correlation ID uniquely 
		identifies a correlation item. A correlation ID can 
		potentially have many filters associated with it. 
		Confused? Suppose our correlation item is malware C&C 
		communication (correlation id = "CNC"). You could have 
		two filters for it with different rules (rule_filter_1
		=<Blacklist match and Talked to hosts based in Timbuktu>,
		 rule_filter_2=<Blacklist matched 2 times>). Yes, it's 
		possible to express this in a single rule by placing an 
		<or> between the individual rules. Why need two filters 
		then? What if we want to say that filter_rule_1 should 
		be observed for 1 hour duration, but filter_rule_2 should 
		be reported only if the two blacklist matches are made in 
		5 minutes? Essenrially, the filter provides different 
		perspectives on the same correlation entity.    
	
	  Observation interval ($every):
		How long to watch for the correlation rule being met after which
		the framework will wipe out previous state and start fresh obser-
		-vation. You want to have some temporal boundaries on your corr-
		-elation. Mostly, higher observation intervals indicate less str-
		-ingent correlation criteria and vice versa. For example, it is 
		more likely to observe a host that makes DNS query for a black-
		-listed host and then establishes an HTTP connection with it in 
		5 hours than 1 second.

	  Correlation rule ($rule):
		A rule that applies to the events that contribute to the corr-
		-elation in question. For example, ( event A and event B ) de-
		-scribes a very simple rule. I will discuss rule in more detail 
		in the next point (3).

          Logging enable/diable ($log):
		A boolean value that indicates whether or not to log the results
		when a correlation rule is met. We will discuss what is logged 
		in point 5.

	  Correlation function ($correlated):
		If defined, this function will be called whenever a correlation
		rule is met. The idea is to give users a chance to implement add-
		-itional functionality in response to something being correlated. 
		The function is optional and you can skip it if you have no such 
		requirements. The function must have the signature (index: Corre
		lation::Index, val: Correlation::Val). When correlation rule is 
		met, the framework will invoke this function filling :index: and 
		:val: with appropriate values. While index is self explanatory, 
		:val: is the same as what is logged and will be described in pt 5.  

3. Lets turn our attention to the correlation rule now. You need to supply a correlation rule in $rule in Correlation::ad__correlation_item(*), but how? Well, the correlation rule is a string as far as the user is concerned but internally, it is parsed and interpreted as an expression. The correlation rule has the form <order>;<join>;<expression> where you can optionally skip either <order> and <join>, or <join> and <expression>.

	* order
	This statement correlates events based on their order of occurence. 
	So if your correlation rule is of the type (A happens followed by B 
	followed by C), you want to express it as an order statement. The or-
	-der statement has the syntax <cardinality><event_name>:<cardinality>
	<event_name> and so on. 

  	<cardinality>:
	A non-negative number. If you don't care about cardinality of 
	the event in question, you can use a dot (.) to indicate any 
	number.

	<stream_name>:
	Name of the event. It must contain only capital English alpha-
	-bets and/or underscore (_).

	Examples: 2SCAN:.CONNECTION_ESTABLISHED_TIMBUKTU  


        * join      
	If both order and expression parts of the correlation rule are 
	present, this statement describes how to combine them. It can 
	have two values as of now; <and> and <or>  
	
	Example: <the order statement>; and ; <the expression statement>

	* expression
	This statement performs arithmetic/logical calculation to 
	correlate the event streams. Regardless of the kind of cal-
	-culations within the statement, the final result should be 
	a BOOLEAN type.    

	  =======	===========      ==========================   
	  OP            SYNTAX           OPERAND1 OPERAND2 RESULT    
	  ======= 	===========      ========================== 
	  MULTIPLY      *                NUMBER NUMBER NUMBER 
                                         STREAM NUMBER NUMBER
                                         NUMBER STREAM NUMBER
          ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
          ADD           +   		 NUMBER NUMBER NUMBER
          ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
          COMPARISON    > < =            NUMBER NUMBER BOOLEAN
          ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
          LOGICAL       & |              BOOLEAN BOOLEAN BOOLEAN
                                         STREAM STREAM BOOLEAN
          ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
          MEMBERSHIP    $                KEYWORD STREAM NUMBER
         
          ==> The above represent operators
          

	  =======	=================        ==================================     
	  OPERAND       SYNTAX                   DESCRIPTION
	  ======= 	=================        ==================================

          STREAM        Any combination of 	 If used with MULTIPLY operator, its 
                        Capital English al-      value will be set to 1 if the stream 
                        -phabets and the un-	 was seen, otherwise its value is 0.  
                        -derscore symbol(_)      If used with BOOLEAN operator, its 
						 value will be set to t if the stream 
						 was seen, otherwise its value will be f.
                                                 If used with MEMBERSHIP operator, it 
						 represents the event stream to which 
						 the keyword pertains. e.g. n$STREAM_X 
						 will be replaced with the number of 
						 times STREAM_X was seen by the framework.
						 Similarly, w$STREAM_X will be replaced by 
						 the highest weight seen for this event by 
						 the framework.
 
	  KEYWORD       n refers to cardinality 
			of an event stream i.e. 
			how many times it was 
                        seen.
                        w refers to weight of an 
			event stream
 
          NUMBER        Any combination of 0-9 
			with or without deci-
			-mal point 

          BOOLEAN       f for False
                        t for rue   

          =======	=================        ==================================     
	  OTHER         SYNTAX                   DESCRIPTION
	  ======= 	=================        ==================================
	  PRECEDENCE    ( )                      Typical expression evaluation style
                                          	 is left to right, with all the oper-
						 ators enjoying equal precedence. You 
					         can prioritize evaluation of specific 
					         sub-expressions by placing them between (). 
         
          ==========================================================================
    
Additionally, and this holds for all types of rule statements (order,join,expression), you can use '{' and '}' symbols to improve readability of the rule. Rule parser will ignore '{' and '}' symbols.

   Example rules: 
   
   { .STREAM_ONE:2STREAM_TWO }:{or}:{ w$STREAM_ONE > 0.5 }
   - Any number of STREAM_ONE followed by exactly two instances of 
     STREAM_TWO or if the weight of STREAM_ONE is greater than 0.5   

   ; ; { w$STREAM_TWO=1.0 & ( n$STREAM_ONE > 2 | w$STREAM_ONE > 0.5 ) }
   - Weight of STREAM_TWO is 1.0 and ( STREAM_ONE was seen more than two 
     times or its weight exceeded 0.5 )

4. After adding the correlation item, the next task is to feed event streams to the correlation framework. So far, we have just prepared the correlation framework to hanlde event streams fed to it in a certain way (defined by the correlation rule). Now, we are actually going to supply the event streams to the framework. For this, we will hanlde the events that we want to feed to the correlation framework, and call the following function in it:
        function add_stream(id: string, filter_name: string, 
   	index: Correlation::Index, name: string, weight: double ) 

        * Correlation ID (id)	
          The correlation ID to which the event stream corresponds 

	* Filter name (filter_name)	
          The correlation ID to which the event stream corresponds 

	* Index (index)
	  The index to which the event stream corresponds. The index 
	  is a :Bro:Record type of the following format.
	  type Index: record {
		## The IP address if the correlation is about an IP address.
		host:        addr           &optional;
		## The network if the correlation is about a CIDR block.
		net:         subnet         &optional;
		## The string if the correlation is about a string.
		str:         string         &optional;
		## The type of data that is in the string if the $str field is set.
		str_type:    StrType        &optional;
	  }

        * Name of the event stream (name) 
	  The name of the event stream. It should be the same as the 
	  one you specified for it  in the correlation rule; otherwise 
	  the framework will ignore it as it does not know what to do 
	  with it.

	* Weight of the event stream (weight)
	  Weight of the event stream. If not required, you can supply a 
	  dummy value and then simply ignore it in your definition of
          the correlation rule. Weight comes in handy when an event 
 	  stream itself is the result of another correlation. This 
	  means that multiple sub-streams can contribute to the event 
	  stream and you can differentiate among them by assigning 
	  different weights to reflect their significance. For example, 
	  you can assign greater weight to match against a trusted bl-
	  -acklist than with one that has a history of too many false 
          positives.  
	
	* History string (str_history)
	  A string that represents the events that ramped up to triggering 
	  the correlation rule e.g. 2SUCCESSFUL_CONN:1DNS_A_QUERY:1SUCCESSFUL
	  _CONN:

5. Finally, lets talk about the information you will get if the correlation rule turns true. This information can be inspected at a later stage by enabling logging in Correlation::add_correlation_item. Also, it can be obtained by defining a function corresponding to $correlated in Correlation::add_correlation_item.   

        * Timestamp (ts)	
          When this information was generetaed

	* Index (index)
	  The index to which the information corresponds

        * Correlation start time (begin)
	  When the first event stream was seen for this index

	* Correlation end time (end)
	  When the last event stream was seen for this index
	
	* History string (str_history)
	  A string that represents the events that ramped up to 
	  triggering the correlation rule
	  e.g. 2SUCCESSFUL_CONN:1DNS_A_QUERY:1SUCCESSFUL_CONN:

6. There is a demo script (test.bro) in correlation framework directory that nicely summarizes the entire discussion. Run using the command 'bro -r test.pcap test.bro'. Have fun!

<==================================>

Feedback/queries are welcome. A shout-out to Seth Hall (http://www.icir.org/seth/) for discussions and support. Many thanks to Affan A. Syed (http://www.isb.nu.edu.pk/sysnet/contact_us.html) and Syed Ali Khayam (http://www.xgridtech.com/#!Ali-Khayam/zoom/mainPage/image1jgm) for their useful feedback.

-Sheharbano
([email protected])
 

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A framework that correlates Bro events

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