This document is adapted from the paper Cost-based Modeling and Evaluation for Data Mining With Application to Fraud and Intrusion Detection: Results from the JAM Project by Salvatore J. Stolfo, Wei Fan, Wenke Lee, Andreas Prodromidis, and Philip K. Chan.
 
 

INTRUSION DETECTOR LEARNING

Software to detect network intrusions protects a computer network from unauthorized users, including perhaps insiders.  The intrusion detector learning task is to build a predictive model (i.e. a classifier) capable of distinguishing between ``bad'' connections, called intrusions or attacks, and ``good'' normal connections.

The 1998 DARPA Intrusion Detection Evaluation Program was prepared and managed by MIT Lincoln Labs. The objective was to survey and evaluate research in intrusion detection.  A standard set of data to be audited, which includes a wide variety of intrusions simulated in a military network environment, was provided.  The data here is a version of this dataset.

Lincoln Labs set up an environment to acquire nine weeks of raw TCP dump data for a local-area network (LAN) simulating a typical U.S. Air Force LAN.  They operated the LAN as if it were a true Air Force environment, but peppered it with multiple attacks.

The raw data was about four gigabytes of compressed binary TCP dump data from seven weeks of network traffic.  This was processed into about five million connection records. 

A connection is a sequence of TCP packets starting and ending at some well defined times, between which data flows to and from a source IP address to a target IP address under some well defined protocol.  Each connection is labeled as either normal, or as an attack, with exactly one specific attack type.  Each connection record consists of about 100 bytes.

Attacks fall into four main categories:

The dataset contains a total of 24 training attack types.
 
 

DERIVED FEATURES

Stolfo et al. defined higher-level features that help in distinguishing normal connections from attacks.  There are several categories of derived features.

The ``same host'' features examine only the connections in the past two seconds that have the same destination host as the current connection, and calculate statistics related to protocol behavior, service, etc.

The similar ``same service'' features examine only the connections in the past two seconds that have the same service as the current connection.

"Same host" and "same service" features are together called  time-based traffic features of the connection records.

Some probing attacks scan the hosts (or ports) using a much larger time interval than two seconds, for example once per minute.  Therefore, connection records were also sorted by destination host, and features were constructed using a window of 100 connections to the same host instead of a time window.  This yields a set of so-called host-based traffic features.

Unlike most of the DOS and probing attacks, there appear to be no sequential patterns that are frequent in records of R2L and U2R attacks. This is because the DOS and probing attacks involve many connections to some host(s) in a very short period of time, but the R2L and U2R attacks are embedded in the data portions of packets, and normally involve only a single connection.

Useful algorithms for mining the unstructured data portions of packets automatically are an open research question.  Stolfo et al. used domain knowledge to add features that look for suspicious behavior in the data portions, such as the number of failed login attempts.  These features are called ``content'' features.

A complete listing of the set of features defined for the connection records is given in the three tables below.  The data schema of the dataset is available in machine-readable form .
 
 

feature name description  type
duration  length (number of seconds) of the connection  continuous
protocol_type  type of the protocol, e.g. tcp, udp, etc.  discrete
service  network service on the destination, e.g., http, telnet, etc.  discrete
src_bytes  number of data bytes from source to destination  continuous
dst_bytes  number of data bytes from destination to source  continuous
flag  normal or error status of the connection  discrete 
land  1 if connection is from/to the same host/port; 0 otherwise  discrete
wrong_fragment  number of ``wrong'' fragments  continuous
urgent  number of urgent packets  continuous
 
Table 1: Basic features of individual TCP connections.
 
feature name description  type
hot  number of ``hot'' indicators continuous
num_failed_logins  number of failed login attempts  continuous
logged_in  1 if successfully logged in; 0 otherwise  discrete
num_compromised  number of ``compromised'' conditions  continuous
root_shell  1 if root shell is obtained; 0 otherwise  discrete
su_attempted  1 if ``su root'' command attempted; 0 otherwise  discrete
num_root  number of ``root'' accesses  continuous
num_file_creations  number of file creation operations  continuous
num_shells  number of shell prompts  continuous
num_access_files  number of operations on access control files  continuous
num_outbound_cmds number of outbound commands in an ftp session  continuous
is_hot_login  1 if the login belongs to the ``hot'' list; 0 otherwise  discrete
is_guest_login  1 if the login is a ``guest''login; 0 otherwise  discrete
 
Table 2: Content features within a connection suggested by domain knowledge.
 
feature name description  type
count  number of connections to the same host as the current connection in the past two seconds  continuous
Note: The following  features refer to these same-host connections.
serror_rate  % of connections that have ``SYN'' errors  continuous
rerror_rate  % of connections that have ``REJ'' errors  continuous
same_srv_rate  % of connections to the same service  continuous
diff_srv_rate  % of connections to different services  continuous
srv_count  number of connections to the same service as the current connection in the past two seconds  continuous
Note: The following features refer to these same-service connections.
srv_serror_rate  % of connections that have ``SYN'' errors  continuous
srv_rerror_rate  % of connections that have ``REJ'' errors  continuous
srv_diff_host_rate  % of connections to different hosts  continuous 
 
Table 3: Traffic features computed using a two-second time window.