FIWARE Cyber seCurity Attack graPh moniTORing - Server
This project is part of FIWARE. For more information, please consult FIWARE website.
CyberCAPTOR is an implementation of the Cyber Security Generic Enabler, the future developments of the Security Monitoring GE.
- CyberCAPTOR Server
- Get sources from Github
git clone https://github.com/fiware-cybercaptor/cybercaptor-server.git
cd cybercaptor-server
- Use Maven to download dependencies and build the web application archive (.war).
mvn clean
mvn package
- Deploy the .war into tomcat.
Using command line
cp ./target/cybercaptor-server*.war /var/lib/tomcat7/webapps/cybercaptor-server.war
This can also be done using the tomcat GUI manager, or with Maven's tomcat7 plugin.
- Link the configuration and scripts repertory and fix permissions
sudo ln -s `pwd`/configuration-files /usr/share/tomcat7/.remediation
chmod -R o+rw ./configuration-files/
sudo chown -R tomcat7:tomcat7 /usr/share/tomcat7/
cd .. #Go in the parent folder of cybercaptor-server
git clone https://github.com/fiware-cybercaptor/cybercaptor-data-extraction.git # Clone the cyber-data-extraction for the "mulval-input-script-folder" parameter.
- Copy and edit the configuration file
cp ./configuration-files/config.properties.sample ./configuration-files/config.properties
vim ./configuration-files/config.properties
For more details, read the documentation Installation And adminsitration Manual.
docker build -t cybercaptor-server .
If you want to run the server in foreground, launch the following command:
docker run --rm --name cybercaptor-server -p 8000:8080 fiwarecybercaptor/cybercaptor-server
If you want to run the server in background, launch the following command:
docker run -d --name cybercaptor-server -p 8000:8080 fiwarecybercaptor/cybercaptor-server
Then, the application can be accessed at http://localhost:8000/cybercaptor-server/.
More details about building and/or running the Docker container can be found in container/README.md
Go on URL : http://localhost:8080/cybercaptor-server/rest/json/initialize
If the result is {"status":"Loaded"}
, the application has been properly built and installed.
For more details, read the documentation Installation And adminsitration Manual.
/var/log/tomcat7/catalina.out
`pwd`/configuration-files/tmp/xsb_log.txt
`pwd`/configuration-files/tmp/input-generation.log
To use the CyberCAPTOR server API, the first call to test that the server is available is
curl http://localhost:8080/cybercaptor-server/rest/version/detailed
which should returns something like
{"version":"4.4"}
Before using the API to manipulate the attack graph, the attack paths, and the remediations, the first call that needs to be done is
curl -c /tmp/curl.cookie http://localhost:8080/cybercaptor-server/rest/json/initialize
which loads the topology, generates the attack graph with MulVAL and computes the attack paths.
Note the -c /tmp/curl.cookie
option of curl, allowing to keep the session cookie, necessary to chain calls and keep
the attack graph and attack paths in session.
It is also possible to load the topology from an XML file, or a XML string containing the XML network topology, using the POST method of the /rest/json/initialize
call :
Using a XML String:
curl -c /tmp/curl.cookie -H "Content-Type: application/xml" -X POST -d '<topology><machine><name>linux-user-1</name><security_requirement>7</security_requirement><interfaces><interface><name>eth0</name><ipaddress>192.168.1.111</ipaddress><vlan><name>user-lan</name><label>user-lan</label></vlan></interface></interfaces><routes><route><destination>0.0.0.0</destination><mask>0.0.0.0</mask><gateway>192.168.1.111</gateway><interface>eth0</interface></route></routes></machine><machine><name>linux-user-2</name><security_requirement>30</security_requirement><interfaces><interface><name>eth0</name><ipaddress>192.168.1.112</ipaddress><vlan><name>user-lan</name><label>user-lan</label></vlan></interface></interfaces><services><service><name>mdns</name><ipaddress>192.168.1.112</ipaddress><protocol>udp</protocol><port>5353</port><vulnerabilities><vulnerability><type>remoteExploit</type><cve>CVE-2007-2446</cve><goal>privEscalation</goal><cvss>10.0</cvss></vulnerability></vulnerabilities></service></services><routes><route><destination>0.0.0.0</destination><mask>0.0.0.0</mask><gateway>192.168.1.111</gateway><interface>eth0</interface></route></routes></machine></topology>' http://localhost:8080/cybercaptor-server/rest/json/initialize
Using a XML file:
curl -c /tmp/curl.cookie -X POST -H "Content-Type: multipart/form-data" -F "file=@./topology.xml" http://localhost:8080/cybercaptor-server/rest/json/initialize
The exhaustive description of this file is XML topological file is provided in https://github.com/fiware-cybercaptor/cybercaptor-data-extraction/blob/master/doc/topology-file-specifications.md. This file can be generated automatically using CyberCAPTOR-Data-Extraction.
Then, the calls to get the attack paths, attack graph or remediations can be used:
Get the number of attack paths:
curl -b /tmp/curl.cookie http://localhost:8080/cybercaptor-server/rest/json/attack_path/number
Note the -b /tmp/curl.cookie
option of curl, to load the previously saved session cookie.
Get the attack path 0:
curl -b /tmp/curl.cookie http://localhost:8080/cybercaptor-server/rest/json/attack_path/0
Get the attack graph
curl -b /tmp/curl.cookie http://localhost:8080/cybercaptor-server/rest/json/attack_graph
Get the remediations for attack path 0:
curl -b /tmp/curl.cookie http://localhost:8080/cybercaptor-server/rest/json/attack_path/0/remediations
Get the XML network topology (useful for backups):
curl -b /tmp/curl.cookie http://localhost:8080/cybercaptor-server/rest/json/topology
The full list of API calls and specifications is stored in apiary.apib and can be visualized on Apiary.io using the Apiary Blueprint format.
For more details, please refer to User & Programmers manual.
If you want to participate to the development of CyberCAPTOR-Server, all contributions are welcome.
The Javadoc can be found on github pages
It can be updated with Maven using
mvn site-deploy
Don't forget to configure GitHub OAuth token in ~/.m2/settings.xml
.
Tokens can be generated on https://github.com/settings/tokens, with repo and user:email authorized scopes.
<settings>
<servers>
<server>
<id>github</id>
<password>OAuth token</password>
</server>
</servers>
</settings>
The API specified using Blueprint can be checked with the dredd tool. In order to do that, first install bredd with NPM (you should have Node.js installed).
sudo npm install -g dredd
Go in the folder in which is the dredd configuration file tools/api/dredd.yml:
cd tools/api
Execute dredd
dredd
In addition to the console reports provided by dredd, a detailed report file can be found in tools/api/report.html
.
For more details, refer to the User & Programmers manual.