We are eager to work with any colleges and universities to help implement Phoenix into their curriculum, especially as it pertains to creating and testing countermeasures.
If Phoenix helps you win and save money, consider donating to our gear & beer fund: 3N8fx47jEKQ6WUUXeziPrS7d1SpWbj954g
Want to know if your production IPS and Yara rules will help mitigate that nasty Word doc going around? Just submit it to Phoenix and know if you have coverage, or if you need to create a countermeasure.
See an interesting report online with a list of hashes? Have a ReversingLabs API key, or a VT key? Want to see how your controls would measure up? Paste your key and your hash list into Phoenix and start detonating malware en masse.
Have multiple teams working multiple incidents? Phoenix was built with trust groups and basic TLP as its foundation for authorization.
If you have a folder of OpenVPN configs that end in .ovpn, then run this to modify them slightly:
cd my/openvpn/directory
ls *ovpn|while read line; do O=$(echo $line|sed 's/ //g'); mv "$line" "$O"; do
ne
ls *ovpn|while read vpn; do echo 'keepalive 10 60
route 0.0.0.0 192.0.0.0 net_gateway
route 64.0.0.0 192.0.0.0 net_gateway
route 128.0.0.0 192.0.0.0 net_gateway
route 192.0.0.0 192.0.0.0 net_gateway' >> $vpn; done
ls *ovpn|awk -F '.' '{print $1}'|while read line; do mv $line.ovpn $line.conf; done
Ensure you set your $HOSTNAME properly first, as we generate many things which are dependent on this
If you already run Cuckoo on machinery other than VirtualBox then you can ignore the next instructions and just copy and paste your current configs once the easy-button has finished.
Please note we use port 8739 for the cuckoo agent, you might need to change that in your configs.
Those of you already running Cuckoo deployments on VirtualBox have an easy migration path. Tar up your VirtualBox machine directories and import them as a tarball with the easy-button.
Doing this will preserve your snapshots, so you shouldn't need much (if any) configuration to migrate from your existing Cuckoo deployment to Phoenix.
To export your VMs in a way that the easy-button knows how to import, su to your VirtualBox user, run the following commands, and put the output .tar.gz file in ./install/virtualbox/:
VBOXDIR=$(vboxmanage list systemproperties|grep "Default machine folder:"|awk -F 'Default machine folder:' '{print $2}'|sed -e 's/^ //g')
cd "$VBOXDIR/../"
tar -cpzf "$HOME/$(echo $VBOXDIR|awk -F '/' '{print $NF}'|sed 's/ //g').tar.gz" "$(echo $VBOXDIR|awk -F '/' '{print $NF}')"Consider the easy-button a 'quickstart' guide, as there are dozens of ways to deploy and configure Cuckoo/Phoenix.
A typical build with the VM installation and all configuration takes around an hour, but once you start the easy-button there is no interaction, so be sure your variables are correct in ./install/ubuntu_install.sh before running it.
- update_packages
- setup_rsyslog
- tune_mongo
- install_docker
- configure_es
- import_kibana
- setup_iptables
- import_grafana
- setup_virtualbox
- setup_rclocal
- add_cuckoo_user
- setup_fail2ban
- setup_certificates
- setup_apache2
- setup_cuckoo_daemons
- setup_moloch
- install_vms
- setup_crontab
- setup_openvpn
- configure_cuckoo
- setup_tcpdump
- configure_hunt_containers
- setup_netdata
In our environment, we use a larger spinning RAID 5 mount (/data) and an SSD mount (/ssd). Keep this in mind when setting up the installer script.
Make sure you change the variables (like usernames and passwords) in ubuntu_installer.sh before you build.
#!/bin/bash
CUCKOO_USER="cuckoo"
echo "Cloning phoenix"
if [ -z "$(which git)" ]; then
apt-get -y install git
fi
if [ -z "$(which add-apt-repository)" ]; then
apt-get -y install software-properties-common
fi
git clone https://github.com/SparkITSolutions/cuckoo.git /opt/phoenix
## We used to import ova files, but then you have to setup snapshots. We're lazy...
## You can still have the easy-button import your OVAs, but then you'll have to do stuff like this later to setup snapshots:
##
## su - cuckoo
## vboxmanage modifyvm win7-x86-0 --vrde on
## vboxmanage modifyvm win7-x86-0 --vrdeaddress 127.0.0.1
## vboxmanage modifyvm win7-x86-0 --vrdeport 3389
## vboxheadless -v on -e authType=NULL -s $$VMNAME
##
#cp /data/staging/vms/*.ova /opt/phoenix/install/virtualbox/
echo "Copying staging VMs"
cp /data/staging/VirtualBoxVMs.gz /opt/phoenix/install/virtualbox/
echo "Copying openvpn files"
cp /data/staging/openvpn/* /opt/phoenix/install/openvpn/
cd /opt/phoenix/install
echo "Installing phoenix"
## This is where the magic happens...
bash ubuntu_install.sh
## Copy the virtualbox config from your existing Cuckoo deployment into Phoenix
cp /data/staging/virtualbox.conf /opt/phoenix/conf/
chown $CUCKOO_USER.$CUCKOO_USER /opt/phoenix/conf/*
## Restart all of your newly installed Cuckoo services
/opt/phoenix/utils/crontab/root/cuckoo_full_restart.sh
## Go get your miscreant punch on!!!By installing using the easy-button, you receive the following services, which you'll need to setup dns/hosts file entries for:
- https://$PHOENIX_HOSTNAME - Django Phoenix interface
- https://netdata.$PHOENIX_HOSTNAME - Netdata performance monitoring
- https://grafana.$PHOENIX_HOSTNAME - Mongodb and Elasticsearch health and performance dashboards
- https://kibana.$PHOENIX_HOSTNAME - Kibana dashboards and logging with the following indexed logs: linux-, iptables-, docker-, cuckoo-, apache2-, fail2ban-, mongo_stats-, sessions-
- https://moloch.$PHOENIX_HOSTNAME - Local Moloch instance
- https://misp.$PHOENIX_HOSTNAME - Local MISP instance
Login to https://misp.$PHOENIX_HOSTNAME and change the default username/password (admin@admin.test/admin).
Click on Admin in the top right corner. The API key will need to be copied from here and added to /opt/phoenix/conf/reporting.conf under the [z_misp] heading.
Click on Administration -> Server Settings & Maintenance, then click on MISP Settings. The only actual options that need to be changed are live and MISP.baseurl, but we recommend going through all of the red and yellow MISP values and setting them appropriately.
In order to do any reasonable amount of samples, we'll want to disable the MISP correlation. This 'feature' renders MISP largely useless if left enabled. Set MISP.completely_disable_correlation to true.
Now you'll need to allow the Publisher role to tag MISP events. This is necessary for the accounts linked to Cuckoo to add tags for families, TLP, etc.
/opt/phoenix/utils/crontab/root/cuckoo_full_restart.sh
Now that MISP is configured, navigate to https://$PHOENIX_HOSTNAME/admin as the admin user and setup some groups. Let's start with SecOps and CyberIntel. For any and all groups you create within Phoenix's Django interface, leave all of the permissions the way they are (empty).
Now that we have trust groups setup in Django, we need to add the same (case sensitive) groups within MISP. Within your MISP instance go to Global Actions -> Add Sharing Group and add SecOps and CyberIntel.
With the Django groups and the MISP sharing groups now in sync, we can start adding users to groups.
python setup_user.py -h
usage: setup_user.py [-h] [-g GROUPS] [-p PASSWORD] email
Phoenix user add script
positional arguments:
email Email to add
optional arguments:
-h, --help show this help message and exit
-g GROUPS, --group GROUPS
One group to add the email to (can be used multiple
times
-p PASSWORD, --password PASSWORD
Optional, set the password manually
python /opt/phoenix/utils/setup_user.py -g SecOps -g CyberIntel JoeBlow@yourdomain.com
Create the folder that is set as tmppath in cuckoo.conf and chown it to cuckoo.cuckoo, if you changed it to something other than /tmp
With users and groups setup, and VPNs turned on, you can start submitting files, and enjoying your Phoenix install
To programmatically submit files from Reversing Labs or Virus Total take a look at /opt/phoenix/utils/submitters/a10002phoenix.py. You'll need to put in your A1000 API key at the top along with your owner email (the user you created with setup_user.py for instance), and your yara rulesets on line 136
- We haven't seen any issues using chrome, so I'd advise using that browser with Cuckoo/Phoenix
- If you start noticing that no reports are switching from "pending" to "running", then cuckoop (cuckoo.py) is having issues. check /var/log/cuckoo/cuckoo.log. The usual culprit is a VPN circuit being down causing cuckoo to fail to start. You'll see which it is in that log. Do a full_restart to bounce all the circuits, and if that circuit still refuses to come up, remove it from vpn.conf.
- If you set a new path via
tmppathincuckoo.confmake sure to create the folder andchownit tocuckoo.cuckoo - There are some additional configurations you can enable to make cuckoo use other (larger/faster) mounts if you have those on your systems. Read through the comments in ubuntu_installer.sh
- To update the code from github, simply run update_cuckoo.sh from the root of your cuckoo folder (in our example /opt/phoenix).
*** We recommend you backup before you run this *** - Put the Yara rules you'd like tagged into MISP in /opt/phoenix/data/external
- When using the auto-tagging feature (conf/misp.json) make sure to setup your tags within MISP first, and use the ID which MISP generates there for your auto-tagging
- Cuckoo has bugs. We did everything we could to package up great logging with this appliance. If things crash, please take a look in kibana and the logs there.
- If you're planning to use a script to send lots of submissions to the API, make sure you crank up your Usage Limits in the Admin section (https://<cuckoo_home_url>/admin) under the user (it's at the bottom)
- We've seen sometimes where cuckoo.py crashes, so often we'll run it in a screen like so:
screen -R cuckoo
su - $CUCKOO_USER
cd /opt/phoenix
python cuckoo.py -d -m 1000000
## If you use this greasy hack, remember to take `cuckood` out of `PROGNAMES` in `/etc/init.d/cuckoo_all`.
-
If you want to greatly improve processing time, especially as it pertains to volatility, look at conf/memory.conf and allocate some space to
memdump_tmp. That will ensure that all volatility processing (very heavy IO) is done entirely in memory, or on a dedicated file system.- Remember to turn 'delete_memdump' = yes in
<cuckoodir>/conf/memory.conf - Uncomment the
memdump_tmpline in<cuckoodir>/conf/memory.confand set the value to your memory volume - Uncomment
del_memdump_from_reported.shfrom cuckoo'scrontab - In
<cuckoodir>/utils/del_memdump_from_reported.sh, set the "STORAGE" variable to your memory volume - 36GB tmpfs RAM disk was used with 6 VMs,
high_watermark= 10,low_watermark= 5 (incuckoo.conf)
- Remember to turn 'delete_memdump' = yes in
-
Got lots of cores? Modify /etc/init.d/cuckoop and crank the threads up for processing. Use netdata to figure out what your bottlenecks are (disk, cpu, etc.) and tune accordingly.
Take a look at Phoenix in our presentation at ACoD in Austin.
We would like to see these changes forked back to the main branch and will be working with the Cuckoo developers to merge our changes
In three words, Cuckoo Sandbox is a malware analysis system.
What does that mean? It simply means that you can throw any suspicious file at it and in a matter of seconds Cuckoo will provide you back some detailed results outlining what such file did when executed inside an isolated environment.
If you want to contribute to development, please read this and this first. Make sure you check our Issues and Pull Requests and that you join our IRC channel.