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telekom-security:24.04.1 telekom-security:24.04.0 telekom-security:24.04.0beta telekom-security:22.04.0 telekom-security:20.06.2 telekom-security:20.06.1 telekom-security:20.06.0 telekom-security:19.03.3 telekom-security:19.03.1 telekom-security:19.03 telekom-security:19.03.beta telekom-security:18.11.1 telekom-security:18.11 telekom-security:17.10 telekom-security:17.10.beta telekom-security:17.10.alpha telekom-security:16.10.1 telekom-security:16.10

53 Commits
dev ... 24.04.0bet

Author SHA1 Message Date
Marco Ochse
85431b308d add 24.04 version tag 2024-03-24 19:22:37 +01:00
Marco Ochse
086116f64d tweaking 2024-03-24 18:15:58 +01:00
Marco Ochse
42689cf902 tweaking 2024-03-24 17:53:11 +01:00
Marco Ochse
0488849a37 tweaking 2024-03-24 17:28:26 +01:00
Marco Ochse
ebffec9b0f tweaking 2024-03-24 17:22:43 +01:00
Marco Ochse
3e9c94c3ac tweaking 2024-03-24 17:01:29 +01:00
Marco Ochse
e2d9362f8a tweaking 2024-03-24 16:59:02 +01:00
Marco Ochse
3a81e988da finish documentation 
add uninstaller playbook and script
tweaking and cleanup
 2024-03-24 16:21:51 +01:00
Marco Ochse
013f817c19 fix an issue where micro is missing in opensuse tumbleweed 2024-03-23 21:41:17 +01:00
Marco Ochse
d594c2aa0c fix an issue where crontab (cron) is missing in ubuntu 2024-03-23 21:23:28 +01:00
Marco Ochse
8a64930b59 fix an issue where crontab (cronie) is missing in fedora 2024-03-23 20:08:27 +01:00
Marco Ochse
e0182cae6b fix an issue where tar is missing for alma and rocky 2024-03-23 19:21:32 +01:00
Marco Ochse
d8c187b176 fix an issue where micro, htop and exa are no longer available for alma and rocky 
fix an issue for download links for supported linux distros
 2024-03-23 19:16:50 +01:00
Marco Ochse
de9db43ae0 continue with documentation 2024-03-22 21:12:37 +01:00
Marco Ochse
558280a041 continue with documentation 2024-03-22 21:00:10 +01:00
Marco Ochse
cf5df3b60b continue with documentation 
fix tpotinit entrypoint.sh to resolve a conflict with sensor deployment where data folder is not yet owned by tpot user
 2024-03-22 20:47:39 +01:00
t3chn0m4g3
4585d750e1 add htop, cron job to t-pot playbook 2024-03-22 18:09:18 +01:00
t3chn0m4g3
9c1120384b add logo to customizer, change path for genuser.sh, adjust README accordingly 2024-03-22 17:27:21 +01:00
Marco Ochse
fc0ca4c935 continue with documentation 
cleanup preview related folders
fix typos / errors
 2024-03-22 16:48:40 +01:00
Marco Ochse
e21eb1aef6 begin with documentation 2024-03-21 19:32:10 +01:00
t3chn0m4g3
0580215afd tweak updater 2024-03-19 21:14:40 +01:00
t3chn0m4g3
f9ff4d10aa add updater 2024-03-19 21:05:25 +01:00
t3chn0m4g3
abe03436d4 add tpot.service 2024-03-19 13:56:35 +01:00
t3chn0m4g3
234fb16394 tweaking 
where possible kibana visualizations are converted to lens objects (more than 100 objects)
all dashboards have been updated
fixes #1392 for leaving SentryPeer log tag out
add wordpot dashboard
after discussion (#1486) and testing iptables-legacy is no longer required
include all kibana objects for installation
cleaning up some service scripts
 2024-03-18 16:19:49 +01:00
t3chn0m4g3
3546e31a7c tweaking 2024-03-15 22:41:12 +01:00
t3chn0m4g3
b0a6ce432a add wordpot to compose files 2024-03-13 17:03:30 +01:00
t3chn0m4g3
6c5e34f2bf fix typo 2024-03-13 16:37:05 +01:00
t3chn0m4g3
3c7e27d9ad better wording 2024-03-13 16:34:35 +01:00
t3chn0m4g3
fe5eac0104 add genuser.sh, fix errors 
macOS and Windows might not have htpasswd tools available, so adding this to the tpotinit image. users can run genuser.sh which simply contains a docker command to run tpotinit to create a user and add it to the T-Pot config (.env).
Fix an issue where WEB_USER was added with hyphens
Fix issues where shebang was incorrect
Update .env / env.example
 2024-03-13 16:30:17 +01:00
t3chn0m4g3
1e5e57a52b fix git tree error 2024-03-12 17:37:23 +01:00
t3chn0m4g3
540d5574d1 cleanup, tweaking, updating 
make tpotinit aware of sigterm events to unload blackhole routes, firewall rules
fixes #1204 where citrixhoneypot logs use logs instead of log folder
bump ELK stack to 8.12.2
add wordpot logs to logstash pipeline
bump t-pot attackmap to 2.2.0, alpine 3.19
 2024-03-12 17:03:43 +01:00
t3chn0m4g3
1da35284be update, tweaking, add 
add wordpot incl. json logging with activated plugins
bump snare, tanner, phpox, tanner_redis to latest master and to alpine 3.19
 2024-03-11 17:33:53 +01:00
t3chn0m4g3
4baac7ac04 update esvue, cleanup 2024-03-11 09:45:01 +01:00
t3chn0m4g3
97adcbeb1b tweaking 
updating .env, env.example and compose files regarding sentrypeer ENVs
make glutton image aware of payloads feature
bump glutton to latest master, alpine 3.19, multi-stage build
bump ipphoney to alpine 3.19
bump mailoney to alpine 3.19, adjust for py3
revert medpot to previous master, use multi stage build and alpine 3.19
bump cyberchef to latest master
bump ngninx to alpine 3.19
bump p0f to alpine 3.19, use multi stage build
bump redishoneypot to alpine 3.19, use multi stage build
bump sentrypeer to latest master, fix bug for open ports in compose files, now all tcp/5060, udp/5060 traffic will be seen
bump spiderfoot to latest master
bump spiderfoot to alpine 3.19
bump suricata to 7.0.2, fix performance issue with capture-filter-bpf by reducing the rules
update clean.sh to include glutton payloads folder
 2024-03-09 12:11:14 +01:00
t3chn0m4g3
c45870594b tweaking 
multi stage build for dicompot
rebuild fatt, glutton, hellpot, honeypots for alpine 3.19
bump glutton, hellpot, honeypots to latest master
 2024-03-05 19:50:35 +01:00
t3chn0m4g3
519a101fdf tweaking 2024-02-28 21:05:03 +01:00
t3chn0m4g3
be74fc75ca tweaking 
healthcheck, watch pid not cpu
cleanup dockerfiles
bump dicompot, heralding, elasticpot, endlessh to alpine 3.19
bump dionaea, heralding to latest master
 2024-02-28 19:07:22 +01:00
t3chn0m4g3
285b37a00d cleanup 2024-02-27 20:28:07 +01:00
t3chn0m4g3
f9a9c8c4bf tweak deploy, add autoheal, start update Dockerfiles 
- tweak deploy a little further
- start with rebuilding Dockerfiles
- rework healthcheck for adbhoney CPU issues
- bump adbhoney, ciscoasa, citrixhoneypot, conpot, cowriepot, ddospot to alpine 3.19
- fix conpot issue with py 3.11
- bump conpot to latest master
- bump cowrie to latest master
- add autoheal to tpotinit to restart unhealthy container (if healthcheck enabled)
 2024-02-27 20:23:30 +01:00
Marco Ochse
22d2bdff7e update .env 2024-02-23 20:41:58 +01:00
t3chn0m4g3
2723becd96 continue work on sensor deploy 2024-02-23 20:30:12 +01:00
t3chn0m4g3
127f0c2c92 point installer and ansible to alpha 2024-02-23 17:30:36 +01:00
t3chn0m4g3
31f09413e0 continue working on env, tpotinit and deploy 2024-02-23 16:41:52 +01:00
t3chn0m4g3
72fd6d963b start rework env, sensor deploy 2024-02-22 19:09:52 +01:00
Marco Ochse
a4262e9aae Add SENSOR type to installer with info to deploy from HIVE. 2024-02-21 16:20:18 +01:00
t3chn0m4g3
4f41b84103 Adjust T-Pot config file, tpotinit 
fix logrotate.conf path
add tpotinit logging
add support for LS_WEB_USER in tpot config (.env)
make tpotinit always validate config / adjust users on tpotinit start
 2024-02-19 17:34:14 +01:00
Marco Ochse
09b75cb5be Start working on new landing page 
Remove old code
 2024-02-16 19:32:02 +01:00
Marco Ochse
0dda858ac1 Start working on new landing page 
Remove old code
 2024-02-16 19:15:17 +01:00
Marco Ochse
0c9b58b6ac Remove Cockpit 2024-02-15 18:32:16 +01:00
Marco Ochse
380ade13a3 make heralding work with py3.10+ 2024-02-14 22:47:41 +01:00
Marco Ochse
e94f70a15f Revert to medpot (75a2e6134cf926c35b6017d62542274434c87388) from 2 years ago since current master is broken. 2024-02-14 21:14:40 +01:00
Marco Ochse
8bbfe7ac62 Fix manuf location 2024-02-14 20:16:13 +01:00
Marco Ochse
7ae6c73b88 Testing and developing in alpha branch 2024-02-14 19:23:25 +01:00
364 changed files with 121917 additions and 28222 deletions
Expand all files Collapse all files

96
.env
View File

@ -4,49 +4,64 @@
# T-Pot Base Settings - Adjust to your needs. #
###############################################
# Set Web username and password here, it will be used to create the Nginx password file nginxpasswd.
# Use 'htpasswd -n <username>' to create the WEB_USER if you want to manually deploy T-Pot
# Example: 'htpasswd -n tsec' will print tsec:$apr1$TdJGdsss$6yLsxPmOcXb2kaEZ7lKva0
# Copy the string and replace WEB_USER='tsec:$apr1$TdJGdsss$6yLsxPmOcXb2kaEZ7lKva0'
WEB_USER='change:me'
# Set Web usernames and passwords here. This section will be used to create / update the Nginx password file nginxpasswd.
# <empty>: This is the default
# <base64 encoded htpasswd usernames / passwords>:
# Use 'htpasswd -n -b "username" "password" | base64 -w0' to create the WEB_USER if you want to manually deploy T-Pot, run 'install.sh' to automatically add a user during installation, or 'genuser.sh' if you just want to add a web user.
# Example: 'htpasswd -n -b "tsec" "tsec" | base64 -w0' will print dHNlYzokYXByMSRYUnE2SC5rbiRVRjZQM1VVQmJVNWJUQmNmSGRuUFQxCgo=
# Copy the string and replace WEB_USER=dHNlYzokYXByMSRYUnE2SC5rbiRVRjZQM1VVQmJVNWJUQmNmSGRuUFQxCgo=
# Multiple users are possible:
# WEB_USER=dHNlYzokYXByMSRYUnE2SC5rbiRVRjZQM1VVQmJVNWJUQmNmSGRuUFQxCgo= dHNlYzokYXByMSR6VUFHVWdmOCRROXI3a09CTjFjY3lCeU1DTloyanEvCgo=
WEB_USER=
# Set Logstash Web usernames and passwords here. This section will be used to create / update the Nginx password file lswebpasswd.
# The Lostsash Web usernames are used for T-Pot log ingestion via Logstash, each sensor should have its own user.
# <empty>: This is empty by default.
# <'htpasswd encoded usernames / passwords'>:
# Use 'htpasswd -n -b "username" "password" | base64 -w0' to create the LS_WEB_USER if you want to manually deploy the sensor.
# Example: 'htpasswd -n -b "sensor" "sensor" | base64 -w0' will print c2Vuc29yOiRhcHIxJGVpMHdzUmdYJHNyWHF4UG53ZzZqWUc3aEFaUWxrWDEKCg==
# Copy the string and replace / add LS_WEB_USER=c2Vuc29yOiRhcHIxJGVpMHdzUmdYJHNyWHF4UG53ZzZqWUc3aEFaUWxrWDEKCg==
# Multiple users are possible:
# LS_WEB_USER=c2Vuc29yMTokYXByMSQ5aXhNRk5yMCR6d3F2dGFwQ2x0cFBhU1pqMm9ZemYxCgo= c2Vuc29yMjokYXByMSRtYTlOS1J2NCQvU3dsVVBMeW5RaVIyM3pyWVAzOUkwCgo=
LS_WEB_USER=
# T-Pot Blackhole
# ENABLED: T-Pot will download a db of known mass scanners and nullroute them
# ENABLED: T-Pot will download a db of known mass scanners and nullroute them.
# Be aware, this will put T-Pot off the map for stealth reasons and
# you will get less traffic. Routes will active until reboot and will
# be re-added with every T-Pot start until disabled.
# you will get less traffic. Routes will be active until next reboot
# and will be re-added with every T-Pot start until disabled.
# DISABLED: This is the default and no stealth efforts are in place.
TPOT_BLACKHOLE=DISABLED
# T-Pot Persistence
# on: This is the default. T-Pot will keep the honeypot logfiles and rotate
# with logrotate for 30 days.
# off: This is recommended for Raspberry Pi or setups with weaker CPUs or
# if you just do not need any of the logfiles.
# on: This is the default. T-Pot will keep the honeypot logfiles and rotate
# with logrotate for 30 days.
# off: This is recommended for Raspberry Pi or setups with weaker CPUs or
# if you just do not need any of the logfiles.
TPOT_PERSISTENCE=on
# T-Pot Type
# HIVE: This is the default and offers everything to connect T-Pot sensors.
# SENSOR: This needs to be used when running a sensor. Be aware to adjust all other
# settings as well.
# 1. You will need to copy compose/sensor.yml to ./docker-comopose.yml
# 2. From HIVE host you will need to copy ~/tpotce/data/nginx/cert/nginx.crt to
# your SENSOR host to ~/tpotce/data/hive.crt
# 3. On HIVE: Create a web user per SENSOR on HIVE and provide credentials below
# Create credentials with 'htpasswd ~/tpotce/data/nginx/conf/lswebpasswd <username>'
# 4. On SENSOR: Provide username / password from (3) for TPOT_HIVE_USER as base64 encoded string:
# "echo -n 'username:password' | base64"
# HIVE: This is the default and offers everything to connect T-Pot sensors.
# SENSOR: This needs to be used when running a sensor. Be aware to adjust all other
# settings as well.
# 1. You will need to copy compose/sensor.yml to ./docker-comopose.yml
# 2. From HIVE host you will need to copy ~/tpotce/data/nginx/cert/nginx.crt to
# your SENSOR host to ~/tpotce/data/hive.crt
# 3. On HIVE: Create a web user per SENSOR on HIVE and provide credentials below
# Create credentials with 'htpasswd ~/tpotce/data/nginx/conf/lswebpasswd <username>'
# 4. On SENSOR: Provide username / password from (3) for TPOT_HIVE_USER as base64 encoded string:
# "echo -n 'username:password' | base64 -w0"
TPOT_TYPE=HIVE
# T-Pot Hive User (only relevant for SENSOR deployment)
# <empty>: This is empty by default.
# <base64 encoded string>: Provide a base64 encoded string "echo -n 'username:password' | base64"
# i.e. TPOT_HIVE_USER='dXNlcm5hbWU6cGFzc3dvcmQ='
# <empty>: This is empty by default.
# <base64 encoded string>: Provide a base64 encoded string "echo -n 'username:password' | base64 -w0"
# i.e. TPOT_HIVE_USER='dXNlcm5hbWU6cGFzc3dvcmQ='
TPOT_HIVE_USER=
# T-Pot Hive IP (only relevant for SENSOR deployment)
# <empty>: This is empty by default.
# <IP, FQDN>: This can be either a IP (i.e. 192.168.1.1) or a FQDN (i.e. foo.bar.local)
# <empty>: This is empty by default.
# <IP, FQDN>: This can be either a IP (i.e. 192.168.1.1) or a FQDN (i.e. foo.bar.local)
TPOT_HIVE_IP=
# T-Pot AttackMap Text Output
@ -67,17 +82,9 @@ TPOT_ATTACKMAP_TEXT_TIMEZONE=UTC
# Some services / tools offer adjustments using ENVs which can be adjusted here.
###################################################################################
# SentryPeer P2P mode
# Exchange bad actor data via DHT / P2P mode by setting the ENV to true (1)
# In some cases (i.e. internally deployed T-Pots) this might be confusing as SentryPeer will show
# the bad actors in its logs. Therefore this option is opt-in based.
# 0: This is the default, P2P mode is disabled.
# 1: Enable P2P mode.
SENTRYPEER_PEER_TO_PEER=0
# Suricata ET Pro ruleset
# OPEN: This is the default and will the ET Open ruleset
# OINKCODE: Replace OPEN with your Oinkcode to use the ET Pro ruleset
# OPEN: This is the default and will the ET Open ruleset
# OINKCODE: Replace OPEN with your Oinkcode to use the ET Pro ruleset
OINKCODE=OPEN
@ -85,9 +92,6 @@ OINKCODE=OPEN
# NEVER MAKE CHANGES TO THIS SECTION UNLESS YOU REALLY KNOW WHAT YOU ARE DOING!!! #
###################################################################################
# T-Pot Landing page provides Cockpit Link
COCKPIT=false
# docker.sock Path
TPOT_DOCKER_SOCK=/var/run/docker.sock
@ -97,14 +101,14 @@ TPOT_DOCKER_ENV=./.env
# Docker-Compose file
TPOT_DOCKER_COMPOSE=./docker-compose.yml
# T-Pot Repo
# Depending on where you are located you may choose between DockerHub and GHCR
# dtagdevsec: This will use the DockerHub image registry
# ghcr.io/telekom-security: This will use the GitHub container registry
TPOT_REPO=ghcr.io/telekom-security
# T-Pot Docker Repo
# Depending on where you are located you may choose between DockerHub and GHCR
# dtagdevsec: This will use the DockerHub image registry
# ghcr.io/telekom-security: This will use the GitHub container registry
TPOT_REPO=dtagdevsec
# T-Pot Version Tag
TPOT_VERSION=dev
TPOT_VERSION=24.04
# T-Pot Pull Policy
# always: (T-Pot default) Compose implementations SHOULD always pull the image from the registry.

41
.github/ISSUE_TEMPLATE/bug-report-for-t-pot.md vendored
View File

@ -1,37 +1,42 @@
---
name: Bug report for T-Pot
about: Bug report for T-Pot
name: Bug report for T-Pot 24.04.x
about: Bug report for T-Pot 24.04.x
title: ''
labels: ''
assignees: ''
---
Before you post your issue make sure it has not been answered yet and provide `basic support information` if you come to the conclusion it is a new issue.
# Successfully raise an issue
Before you post your issue make sure it has not been answered yet and provide **⚠️ BASIC SUPPORT INFORMATION** (as requested below) if you come to the conclusion it is a new issue.
- 🔍 Use the [search function](https://github.com/dtag-dev-sec/tpotce/issues?utf8=%E2%9C%93&q=) first
- 🧐 Check our [WIKI](https://github.com/dtag-dev-sec/tpotce/wiki)
- 📚 Consult the documentation of 💻 [Debian](https://www.debian.org/doc/), 🐳 [Docker](https://docs.docker.com/), the 🦌 [ELK stack](https://www.elastic.co/guide/index.html) and the 🍯 [T-Pot Readme](https://github.com/dtag-dev-sec/tpotce/blob/master/README.md).
- **⚠️ Provide [basic support information](#info) or similiar information with regard to your issue or we can not help you and will close the issue without further notice**
- 🧐 Check our [Wiki](https://github.com/dtag-dev-sec/tpotce/wiki) and the [discussions](https://github.com/telekom-security/tpotce/discussions)
- 📚 Consult the documentation of 💻 your Linux OS, 🐳 [Docker](https://docs.docker.com/), the 🦌 [Elastic stack](https://www.elastic.co/guide/index.html) and the 🍯 [T-Pot Readme](https://github.com/dtag-dev-sec/tpotce/blob/master/README.md).
- **⚠️ Provide [BASIC SUPPORT INFORMATION](#-basic-support-information-commands-are-expected-to-run-as-root) or similar detailed information with regard to your issue or we will close the issue or convert it into a discussion without further interaction from the maintainers**.<br>
<br>
<br>
<br>
# ⚠️ Basic support information (commands are expected to run as `root`)
<a name="info"></a>
## ⚠️ Basic support information (commands are expected to run as `root`)
**We happily take the time to improve T-Pot and take care of things, but we need you to take the time to create an issue that provides us with all the information we need.**
- What version of the OS are you currently using `lsb_release -a` and `uname -a`?
- What T-Pot version are you currently using?
- What edition (Standard, Nextgen, etc.) of T-Pot are you running?
- What OS are you T-Pot running on?
- What is the version of the OS `lsb_release -a` and `uname -a`?
- What T-Pot version are you currently using (only **T-Pot 24.04.x** is currently supported)?
- What architecture are you running on (i.e. hardware, cloud, VM, etc.)?
- Did you have any problems during the install? If yes, please attach `/install.log` `/install.err`.
- Review the `~/install_tpot.log`, attach the log and highlight the errors.
- How long has your installation been running?
- If it is a fresh install consult the documentation first.
- Most likely it is a port conflict or a remote dependency was unavailable.
- Retry a fresh installation and only open the issue if the error keeps coming up and is not resolved using the documentation as described [here](#how-to-raise-an-issue).
- Did you install upgrades, packages or use the update script?
- Did you modify any scripts or configs? If yes, please attach the changes.
- Please provide a screenshot of `glances` and `htop`.
- Please provide a screenshot of `htop` and `docker stats`.
- How much free disk space is available (`df -h`)?
- What is the current container status (`dps.sh`)?
- What is the status of the T-Pot service (`systemctl status tpot`)?
- What ports are being occupied? Stop T-Pot `systemctl stop tpot` and run `netstat -tulpen`
- On Linux: What is the status of the T-Pot service (`systemctl status tpot`)?
- What ports are being occupied? Stop T-Pot `systemctl stop tpot` and run `grc netstat -tulpen`
- Stop T-Pot `systemctl stop tpot`
- Run `grc netstat -tulpen`
- Run T-Pot manually with `docker compose -f ~/tpotce/docker-compose.yml up` and check for errors
- Stop execution with `CTRL-C` and `docker compose -f ~/tpotce/docker-compose.yml down -v`
- If a single container shows as `DOWN` you can run `docker logs <container-name>` for the latest log entries

4
.github/ISSUE_TEMPLATE/feature-request-for-t-pot.md vendored
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@ -1,6 +1,6 @@
---
name: Feature request for T-Pot
about: Suggest an idea for T-Pot
name: Feature request for T-Pot 24.04.x
about: Suggest an idea for T-Pot 24.04.x
title: ''
labels: ''
assignees: ''

43
.github/ISSUE_TEMPLATE/general-issue-for-t-pot.md vendored
View File

@ -1,39 +1,42 @@
---
name: General issue for T-Pot
about: General issue for T-Pot
name: General issue for T-Pot 24.04.x
about: General issue for T-Pot 24.04.x
title: ''
labels: ''
assignees: ''
---
🗨️ Please post your questions in [Discussions](https://github.com/telekom-security/tpotce/discussions) and keep the issues for **issues**. Thank you 😁.<br>
Before you post your issue make sure it has not been answered yet and provide `basic support information` if you come to the conclusion it is a new issue.
# Successfully raise an issue
Before you post your issue make sure it has not been answered yet and provide **⚠️ BASIC SUPPORT INFORMATION** (as requested below) if you come to the conclusion it is a new issue.
- 🔍 Use the [search function](https://github.com/dtag-dev-sec/tpotce/issues?utf8=%E2%9C%93&q=) first
- 🧐 Check our [WIKI](https://github.com/dtag-dev-sec/tpotce/wiki)
- 📚 Consult the documentation of 💻 [Debian](https://www.debian.org/doc/), 🐳 [Docker](https://docs.docker.com/), the 🦌 [ELK stack](https://www.elastic.co/guide/index.html) and the 🍯 [T-Pot Readme](https://github.com/dtag-dev-sec/tpotce/blob/master/README.md).
- **⚠️ Provide [basic support information](#info) or similiar information with regard to your issue or we can not help you and will close the issue without further notice**
- 🧐 Check our [Wiki](https://github.com/dtag-dev-sec/tpotce/wiki) and the [discussions](https://github.com/telekom-security/tpotce/discussions)
- 📚 Consult the documentation of 💻 your Linux OS, 🐳 [Docker](https://docs.docker.com/), the 🦌 [Elastic stack](https://www.elastic.co/guide/index.html) and the 🍯 [T-Pot Readme](https://github.com/dtag-dev-sec/tpotce/blob/master/README.md).
- **⚠️ Provide [BASIC SUPPORT INFORMATION](#-basic-support-information-commands-are-expected-to-run-as-root) or similar detailed information with regard to your issue or we will close the issue or convert it into a discussion without further interaction from the maintainers**.<br>
<br>
<br>
<br>
# ⚠️ Basic support information (commands are expected to run as `root`)
<a name="info"></a>
## ⚠️ Basic support information (commands are expected to run as `root`)
**We happily take the time to improve T-Pot and take care of things, but we need you to take the time to create an issue that provides us with all the information we need.**
- What version of the OS are you currently using `lsb_release -a` and `uname -a`?
- What T-Pot version are you currently using?
- What edition (Standard, Nextgen, etc.) of T-Pot are you running?
- What OS are you T-Pot running on?
- What is the version of the OS `lsb_release -a` and `uname -a`?
- What T-Pot version are you currently using (only **T-Pot 24.04.x** is currently supported)?
- What architecture are you running on (i.e. hardware, cloud, VM, etc.)?
- Did you have any problems during the install? If yes, please attach `/install.log` `/install.err`.
- Review the `~/install_tpot.log`, attach the log and highlight the errors.
- How long has your installation been running?
- If it is a fresh install consult the documentation first.
- Most likely it is a port conflict or a remote dependency was unavailable.
- Retry a fresh installation and only open the issue if the error keeps coming up and is not resolved using the documentation as described [here](#how-to-raise-an-issue).
- Did you install upgrades, packages or use the update script?
- Did you modify any scripts or configs? If yes, please attach the changes.
- Please provide a screenshot of `glances` and `htop`.
- Please provide a screenshot of `htop` and `docker stats`.
- How much free disk space is available (`df -h`)?
- What is the current container status (`dps.sh`)?
- What is the status of the T-Pot service (`systemctl status tpot`)?
- What ports are being occupied? Stop T-Pot `systemctl stop tpot` and run `netstat -tulpen`
- On Linux: What is the status of the T-Pot service (`systemctl status tpot`)?
- What ports are being occupied? Stop T-Pot `systemctl stop tpot` and run `grc netstat -tulpen`
- Stop T-Pot `systemctl stop tpot`
- Run `grc netstat -tulpen`
- Run T-Pot manually with `docker compose -f ~/tpotce/docker-compose.yml up` and check for errors
- Stop execution with `CTRL-C` and `docker compose -f ~/tpotce/docker-compose.yml down -v`
- If a single container shows as `DOWN` you can run `docker logs <container-name>` for the latest log entries

1
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@ -2,3 +2,4 @@
data/
**/.DS_Store
.idea
install_tpot.log

10
CITATION.cff
View File

@ -2,7 +2,7 @@
# Visit https://bit.ly/cffinit to generate yours today!
cff-version: 1.2.0
title: T-Pot DEV
title: T-Pot 24.04.0
message: >-
If you use this software, please cite it using the
metadata from this file.
@ -20,8 +20,8 @@ authors:
identifiers:
- type: url
value: >-
https://github.com/telekom-security/tpotce/releases/tag/22.04.0
description: T-Pot Release 22.04.0
https://github.com/telekom-security/tpotce/releases/tag/24.04.0
description: T-Pot Release 24.04.0
repository-code: 'https://github.com/telekom-security/tpotce'
abstract: >-
T-Pot is the all in one, optionally distributed, multiarch
@ -39,5 +39,5 @@ keywords:
- elk
license: GPL-3.0
commit: unreleased, under heavy development
version: 2x.yy.z
date-released: '202x-yy-zz'
version: 24.04.0
date-released: '2024-04-22'

205
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@ -1,205 +0,0 @@
# T-Pot - Dev Preview
T-Pot will be turning 10 years next year and this milestone will be celebrated when the time comes, which brings us today to the best time to reflect on how technology advanced, what this means for the project and how we can ensure T-Pot will meet the current and future requirements of the community.
<br><br>
# TL;DR
1. [Download](#choose-your-distro) or use a running, supported distribution
2. Install the ISO with as minimal packages / services as possible (SSH required!)
3. Install curl: `$ sudo [apt, dnf, zypper] install curl` if not installed already
4. Run installer as non-root:
```
/bin/bash -c "$(curl -sL https://github.com/telekom-security/tpotce/raw/dev/install.sh)"
```
* Follow instructions, read messages, check for possible port conflicts and reboot
5. [Start](#start-t-pot) T-Pot as non-root for the first time:
```
cd tpotce/preview/
docker compose up
```
# Table of Contents
- [Disclaimer](#disclaimer)
- [Last Time Departed](#last-time-departed)
- [Present Time](#present-time)
- [Destination Time](#destination-time)
- [Technical Preview](#technical-preview)
- [Architecture](#architecture)
- [Installation](#installation)
- [Choose your distro](#choose-your-distro)
- [Get and Install T-Pot](#get-and-install-t-pot)
- [T-Pot Config File](#t-pot-config-file)
- [macOS & Windows](#macos--windows)
- [Start T-Pot](#start-t-pot)
- [Stop T-Pot](#stop-t-pot)
- [Uninstall T-Pot](#uninstall-t-pot)
- [Feedback](#uninstall-t-pot)
<br><br>
# Disclaimer
- This is a Technical Preview, a very very early stage in the development T-Pot. You have been warned - there will be dragons steering flying time machines possibly causing paradoxes.
- The T-Pot [disclaimer](https://github.com/telekom-security/tpotce/blob/master/README.md#disclaimer) and [documentation](https://github.com/telekom-security/tpotce/blob/master/README.md) apply.
<br><br>
# Last Time Departed
Jumping back to 2014 T-Pot was born as the direct ancestor of our Raspberry Pi images we used to offer for download (which probably by now only insiders will remember 😅). Docker was just the new kid on the block with the shiny new container engine everyone desperately unknowingly waited for and thus taking the dev-world by storm. At that point we wanted to ensure that T-Pot was something tangible, tethered to a physical device (Hello NUC my old friend 👋) while using latest technologies ensuring an easy transition should we ever leave hardware based installations (or VMs for that matter). And Oh-My-Zsh as you all know that day came faster than anticipated! (Special thanks @vorband, @shaderecker and @tmariuss for all of their contributions!)
<br><br>
# Present Time
Flash Forward to today, T-Pot offers support for Debian, both as an ISO based installation or a post installation method (install your own Debian Server), support for OTC, AWS and other clouds through Ansible and Terraform Support. All of this in many different flavors and even a distributed installation. At the same time we are still relying on the same base concept we originally started with which does not seem fit for the foreseeable future.<br>
In the last couple of years being independent of a certain platform was the one feature that stood out by far. The reason for this, until today, is the simple fact that T-Pot, although relying heavily on Docker, still relies on a fully controlled environment. This has its advantages but can not meet a demand where cloud based installations need different settings than we can provide (we can only run limited platform tests), companies follow different guidelines for allowed distributions or hosters simply offer Debian images slightly adjusted to their environments causing issues with the setting T-Pot relies on. Roll the dice or ask the Magic-8-Ball.
<br><br>
# Destination Time
Back to the future of T-Pot. For a brief time we had the idea of T-Pot Light which should compensate for the missing platform support. A concept was whipped up to support all of T-Pot's dockered services on minimal installations of Debian, Fedora, OpenSuse and Ubuntu Server. And it worked! It worked so good that we have almost achieved feature parity for this Technical Preview and decided that this is the best candidate for the future of the development of T-Pot<br>
We are thrilled to share this now, so you can test, provide us with feedback, open issues and discussions and give us the chance to make the next T-Pot the best T-Pot we have ever released!
<br><br>
## Technical Preview
For the purpose of the Technical Preview T-Pot will still use the 22.04 images and for a great part rely on the 22.04 release. This will lay the groundwork though for the next T-Pot release by just relying on the latest Docker package repositories (yes, the distros mostly do not offer Docker's bleeding edge features), some tiny modifications on the host (installer and uninstaller provided!) and move all of T-Pot's core in its own Docker image with a simple, user adjustable, configuration.<br>
<br><br>
## Architecture
While the basic architecture still remains, the Technical Preview of T-Pot is mostly independent of the underlying OS with only some basic requirements:
1. Underlying OS is available as supported distribution:
* Only the bare minimum of services and packages are installed to avoid possible port conflicts with T-Pot's services
* Debian, Fedora, OpenSuse and Ubuntu Server are currently supported, others might follow if the requirements will be met
2. Latest Docker Engine from Docker's repositories is supported
* Only the latest Docker Engine packages offer all the features needed for T-Pot
* Docker Desktop does not offer host network capabilities and thus only a limited T-Pot experience (not available for the Technical Preview, but planned to even get started faster!)
3. Changes to the host
* Some changes to the host are necessary but will be kept as minimalistic as possible, just enough T-Pot will be able to run
* There are uninstallers available this time 😁
<br><br>
# System Requirements
The known T-Pot hardware (CPU, RAM, SSD) requirements and recommendations still apply.
<br><br>
# Installation
[Download](#choose-your-distro) one of the supported Linux distro images, `git clone` the T-Pot repository and run the installer specific to your system. Running T-Pot on top of a running and supported Linux system is possible, but a clean installation is recommended to avoid port conflicts with running services.
<br><br>
## Choose your distro
Choose a supported distro of your choice. It is recommended to use the minimum / netiso installers linked below and only install a minimalistic set of packages. SSH is mandatory or you will not be able to connect to the machine remotely.
| Distribution Name | x64 | arm64
|:-----------------------------------------------|:--------------------------------------------------------------------------------------------------------------------------------------|:--------------
| [AlmaLinux](https://almalinux.org) | [download](https://mirrors.almalinux.org/isos/x86_64/9.2.html) | [download](https://mirrors.almalinux.org/isos/aarch64/9.2.html)
| [Debian](https://www.debian.org/index.en.html) | [download](https://cdimage.debian.org/debian-cd/current/amd64/iso-cd/debian-12.0.0-amd64-netinst.iso) | [download](https://cdimage.debian.org/debian-cd/current/arm64/iso-cd/debian-12.0.0-arm64-netinst.iso)
| [DietPi](https://dietpi.com/#home) | | [download](https://dietpi.com/downloads/images/DietPi_RPi-ARMv8-Bookworm.7z)
| [Fedora](https://fedoraproject.org) | [download](https://download.fedoraproject.org/pub/fedora/linux/releases/38/Server/x86_64/iso/Fedora-Server-netinst-x86_64-38-1.6.iso) | [download](https://download.fedoraproject.org/pub/fedora/linux/releases/38/Server/aarch64/iso/Fedora-Server-netinst-aarch64-38-1.6.iso)
| [OpenSuse](https://www.opensuse.org) | [download](https://download.opensuse.org/tumbleweed/iso/openSUSE-Tumbleweed-NET-x86_64-Current.iso) | [download](https://download.opensuse.org/ports/aarch64/tumbleweed/iso/openSUSE-Tumbleweed-NET-aarch64-Current.iso)
| [Rocky Linux](https://rockylinux.org) | [download](https://download.rockylinux.org/pub/rocky/9/isos/x86_64/Rocky-9.2-x86_64-minimal.iso) | [download](https://download.rockylinux.org/pub/rocky/9/isos/aarch64/Rocky-9.2-aarch64-minimal.iso)
| [Ubuntu](https://ubuntu.com) | [download](https://releases.ubuntu.com/22.04.2/ubuntu-22.04.2-live-server-amd64.iso) | [download](https://cdimage.ubuntu.com/releases/22.04/release/ubuntu-22.04.2-live-server-arm64.iso)
## Raspberry Pi 4 (8GB) Support
| Distribution Name | arm64 | Notes
|:-----------------------------------------------|:----------------------------------------------------------------------------------------------------------------------------------------------------|:--------------
| [DietPi](https://dietpi.com/#home) | [download](https://dietpi.com/downloads/images/DietPi_RPi-ARMv8-Bookworm.7z) | In DietPi config you need to choose OpenSSH instead of Dropbear or T-Pot will fail to install
| [Raspberry Pi OS](https://www.raspberrypi.com) | [download](https://downloads.raspberrypi.org/raspios_lite_arm64/images/raspios_lite_arm64-2023-05-03/2023-05-03-raspios-bullseye-arm64-lite.img.xz) | Recommended, everything incl. Wifi works as expected right away (when using Raspberry Pi Imager)
<br><br>
## Get and install T-Pot
1. Clone the GitHub repository: `$ git clone https://github.com/telekom-security/tpotce`
2. Change into the **tpotce/preview/installer** folder: `$ cd tpotce/preview/installer`
3. Locate your distribution, i.e. `fedora`: `$ cd fedora`
4. Run the installer as non-root: `$ ./install.sh`:
* ⚠️ ***Depending on your Linux distribution of choice the installer will:***
* Change the SSH port to `tcp/64295`
* Disable the DNS Stub Listener to avoid port conflicts with honeypots
* Set SELinux to Monitor Mode
* Set the firewall target for the public zone to ACCEPT
* Add Docker's repository and install Docker
* Install recommended packages
* Remove package known to cause issues
* Add the current user to the docker group (allow docker interaction without `sudo`)
* Add `dps` and `dpsw` aliases (`grc docker ps -a`, `watch -c "grc --colour=on docker ps -a`)
* Display open ports on the host (compare with T-Pot [required](https://github.com/telekom-security/tpotce#required-ports) ports)
5. Follow the installer instructions, you will have to enter your password at least once
6. Check the installer messages for errors and open ports that might cause port conflicts
7. Reboot: `$ sudo reboot`
<br><br>
## T-Pot Config File
T-Pot offers a configuration file providing environment variables not only for the docker services (i.e. honeypots and tools) but also for the docker compose environment. The configuration file is hidden in the `preview` folder and is called `.env`. There is however an example file (`env.example`) which holds the default configuration.<br> Before the first start set the `WEB_USER` and `WEB_PW`. Once T-Pot was initialized it is recommended to remove the password and set `WEB_PW=<changeme>`. Other settings are available also, these however should only be changed if you are comfortable with possible errors 🫠 as some of the features are not fully integrated and tested yet.
```
# T-Pot config file. Do not remove.
# Set Web username and password here, only required for first run
# Removing the password after first run is recommended
# You can always add or remove users as you see fit using htpasswd:
# htpasswd -b -c /<data_folder>/nginx/conf/nginxpasswd <username> <password>
WEB_USER=<changeme>
WEB_PW=<changeme>
# T-Pot Blackhole
# ENABLED: T-Pot will download a db of known mass scanners and nullroute them
# Be aware, this will put T-Pot off the map for stealth reasons and
# you will get less traffic. Routes will active until reboot and will
# be re-added with every T-Pot start until disabled.
# DISABLED: This is the default and no stealth efforts are in place.
TPOT_BLACKHOLE=DISABLED
```
## macOS & Windows
Sometimes it is just nice if you can spin up a T-Pot instance on macOS or Windows, i.e. for development, testing or just the fun of it. While Docker Desktop is rather limited not all honeypot types or T-Pot features are supported. Also remember, by default the macOS and Windows firewall are blocking access from remote, so testing is limited to the host. For production it is recommended to run T-Pot on Linux.<br>
To get things up and running just follow these steps:
1. Install Docker Desktop for [macOS](https://docs.docker.com/desktop/install/mac-install/) or [Windows](https://docs.docker.com/desktop/install/windows-install/)
2. Clone the GitHub repository: `$ git clone https://github.com/telekom-security/tpotce`
2. Change into the **tpotce/preview/compose** folder: `$ cd tpotce/preview/compose`
3. Copy **mac_win.yml** to the **tpotce/preview** folder by overwriting **docker-compose.yml**: `$ cp mac_win.yml ../docker-compose.yml`
4. Adjust the **.env** file by changing **TPOT_OSTYPE** to either **mac** or **win**:
```
# OSType (linux, mac, win)
# Most docker features are available on linux
TPOT_OSTYPE=mac
```
5. You have to ensure on your own there are no port conflicts keeping T-Pot from starting up.
You can follow the README on how to [Start T-Pot](#start-t-pot), however you may skip the **crontab**.
# Start T-Pot
1. Change into the **tpotce/preview/** folder: `$ cd tpotce/preview/`
2. Run: `$ docker compose up` (notice the missing dash, `docker-compose` no longer exists with the latest Docker installation)
* You can also run `$ docker compose -f /<path_to_tpot>/tpotce/preview/docker-compose.yml up` directly if you want to avoid to change into the `preview` folder or add an alias of your choice.
3. `docker compose` will now download all the necessary images to run the T-Pot Docker containers
4. On the first run T-Pot (`tpotinit`) will initialize and create the `data` folder in the path specified (by default it is located in `tpotce/preview/data/`):
* It takes about 2-3 minutes to bring all the containers up (should port conflicts arise `docker compose` will simply abort)
* Once all containers have started successfully for the first time you can access T-Pot as described [here](https://github.com/telekom-security/tpotce#remote-access-and-tools) or cancel with `CTRL-C` ...
5. ... and run T-Pot in the background: `$ docker compose up -d`
* Unless you run `docker compose down -v` T-Pot's Docker service will remain persistent and restart with a reboot
* You can however add a crontab entry with `crontab -e` which will also add some container and image management.
```
@reboot docker compose -f /<path_to_tpot_>/tpotce/preview/docker-compose.yml down -v; \
docker container prune -f; \
docker image prune -f; \
docker compose -f /<path_to_tpot_>/tpotce/preview/docker-compose.yml up -d
```
6. By default Docker will always check if the local and remote docker images match, if not, Docker will either revert to a fitting locally cached image or download the image from remote. This ensures T-Pot images will always be up-to-date
# Stop T-Pot
1. Change into the **tpotce/preview/** folder: `$ cd tpotce/preview/`
2. Run: `$ docker compose down -v` (notice the missing dash, `docker-compose` no longer exists with the latest docker installation)
3. Docker will now stop all running T-Pot containers and disable reboot persistence (unless you made a [crontab entry](#start-t-pot)
* You can also run `$ docker compose -f /<path_to_tpot>/tpotce/preview/docker-compose.yml down -v` directly if you want to avoid to change into the `preview` folder or add an alias of your choice.
# Uninstall T-Pot
1. Change into the **tpotce/preview/uninstaller/** folder: `$ cd tpotce/preview/uninstaller/`
2. Locate your distribution, i.e. `fedora`: `$ cd fedora`
3. Run the installer as non-root: `$ ./uninstall.sh`:
* The uninstaller will reverse the installation steps
4. Follow the uninstaller instructions, you will have to enter your password at least once
5. Check the uninstaller messages for errors
6. Reboot: `$ sudo reboot`
<br><br>
# Feedback
To ensure the next T-Pot release will be everything we and you - The T-Pot Community - have in mind please feel free to leave comments in the `Technical Preview` [discussion](https://github.com/telekom-security/tpotce/discussions/1325) pinned on our GitHub [Discussions](https://github.com/telekom-security/tpotce/discussions) section. Please bear in mind that this Technical Preview is made public in the earliest stage of the T-Pot development process at your convenience for ***your*** valuable input.
<br><br>
Thank you for testing 💖
Special thanks to all the [contributors](https://github.com/telekom-security/tpotce/graphs/contributors) and [developers](https://github.com/telekom-security/tpotce#credits) making this project possible!

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## Supported Versions
| Version | Supported |
|---------| ------------------ |
| 23.12.x | :white_check_mark: |
|---------|--------------------|
| 24.04.x | :white_check_mark: |
## Reporting a Vulnerability
We take security of T-Pot very seriously. If one of T-Pot's components is affected, it is most likely that a upstream component we rely on is involved, such as a honeypot, docker image, tool or package. Together we will find the best possible way to remedy the situation.
We prioritize the security of T-Pot highly. Often, vulnerabilities in T-Pot components stem from upstream dependencies, including honeypots, Docker images, tools, or packages. We are committed to working together to resolve any issues effectively.
Before you submit a possible vulnerability, please ensure you have done the following:
1. You have checked the documentation, issues and discussions if the detected behavior is typical and does not revolve around other issues. I.e. Cowrie will be detected with outgoing conncection requests or T-Pot opening all possible TCP ports which Honeytrap enabled install flavors will do as a feature.
2. You have identified the vulnerable component and isolated your finding (honeypot, docker image, tool, package, etc.).
3. You have a detailed description including log files, possibly debug files, with all steps necessary for us to reproduce / trigger the behaviour or vulnerability. At best you already have a possible solution, hotfix, fix or patch to remedy the situation and want to submit a PR.
4. You have checked if the possible vulnerability is known upstream. If a fix / patch is already available, please provide the necessary info.
Please follow these steps before reporting a potential vulnerability:
We will get back to you as fast as possible. In case you think this is an emergency for the whole T-Pot community feel free to speed things up by **responsibly** informing our [CERT](https://www.telekom.com/en/corporate-responsibility/data-protection-data-security/security/details/introducing-deutsche-telekom-cert-358316).
1. Verify that the behavior you've observed isn't already documented as a normal aspect or unrelated issue of T-Pot. For example, Cowrie may initiate outgoing connections, or T-Pot might open all possible TCP ports—a feature enabled by Honeytrap.
2. Clearly identify which component is vulnerable (e.g., a specific honeypot, Docker image, tool, package) and isolate the issue.
3. Provide a detailed description of the issue, including log and, if available, debug files. Include all steps necessary to reproduce the vulnerability. If you have a proposed solution, hotfix, or patch, please be prepared to submit a pull request (PR).
4. Check whether the vulnerability is already known upstream. If there is an existing fix or patch, include that information in your report.
This approach ensures a thorough and efficient resolution process.
We aim to respond as quickly as possible. If you believe the issue poses an immediate threat to the entire T-Pot community, you can expedite the process by responsibly alerting our [CERT](https://www.telekom.com/en/corporate-responsibility/data-protection-data-security/security/details/introducing-deutsche-telekom-cert-358316).

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#!/bin/bash
# Make sure script is started as non-root.
myWHOAMI=$(whoami)
if [ "$myWHOAMI" = "root" ]
then
echo "Need to run as non-root ..."
echo ""
exit
fi
# set vars, check deps
myPAM_COCKPIT_FILE="/etc/pam.d/cockpit"
if ! [ -s "$myPAM_COCKPIT_FILE" ];
then
echo "### Cockpit PAM module config does not exist. Something went wrong."
echo ""
exit 1
fi
myPAM_COCKPIT_GA="
# google authenticator for two-factor
auth required pam_google_authenticator.so
"
myAUTHENTICATOR=$(which google-authenticator)
if [ "$myAUTHENTICATOR" == "" ];
then
echo "### Could not locate google-authenticator, trying to install (if asked provide root password)."
echo ""
sudo apt-get update
sudo apt-get install -y libpam-google-authenticator
exec "$1" "$2"
exit 1
fi
# write PAM changes
function fuWRITE_PAM_CHANGES {
myCHECK=$(cat $myPAM_COCKPIT_FILE | grep -c "google")
if ! [ "$myCHECK" == "0" ];
then
echo "### PAM config already enabled. Skipped."
echo ""
else
echo "### Updating PAM config for Cockpit (if asked provide root password)."
echo "$myPAM_COCKPIT_GA" | sudo tee -a $myPAM_COCKPIT_FILE
sudo systemctl restart cockpit
fi
}
# create 2fa
function fuGEN_TOKEN {
echo "### Now generating token for Google Authenticator."
echo ""
google-authenticator -t -d -r 3 -R 30 -w 17
}
# main
echo "### This script will enable Two Factor Authentication for Cockpit."
echo ""
echo "### Please download one of the many authenticator apps from the appstore of your choice."
echo ""
while true;
do
read -p "### Ready to start (y/n)? " myANSWER
case $myANSWER in
[Yy]* ) echo "### OK. Starting ..."; break;;
[Nn]* ) echo "### Exiting."; exit;;
esac
done
fuWRITE_PAM_CHANGES
fuGEN_TOKEN
echo "Done. Re-run this script by every user who needs Cockpit access."
echo ""

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@ -1,61 +0,0 @@
#!/bin/bash
# Run as root only.
myWHOAMI=$(whoami)
if [ "$myWHOAMI" != "root" ];
then
echo "Need to run as root ..."
exit
fi
if [ "$1" == "" ] || [ "$1" != "all" ] && [ "$1" != "base" ];
then
echo "Usage: backup_es_folders [all, base]"
echo " all = backup all ES folder"
echo " base = backup only Kibana index".
echo
exit
fi
# Backup all ES relevant folders
# Make sure ES is available
myES="http://127.0.0.1:64298/"
myESSTATUS=$(curl -s -XGET ''$myES'_cluster/health' | jq '.' | grep -c green)
if ! [ "$myESSTATUS" = "1" ]
then
echo "### Elasticsearch is not available, try starting via 'systemctl start tpot'."
exit
else
echo "### Elasticsearch is available, now continuing."
echo
fi
# Set vars
myCOUNT=1
myDATE=$(date +%Y%m%d%H%M)
myELKPATH="/data/elk/data"
myKIBANAINDEXNAME=$(curl -s -XGET ''$myES'_cat/indices/.kibana' | awk '{ print $4 }')
myKIBANAINDEXPATH=$myELKPATH/indices/$myKIBANAINDEXNAME
# Let's ensure normal operation on exit or if interrupted ...
function fuCLEANUP {
### Start ELK
systemctl start tpot
echo "### Now starting T-Pot ..."
}
trap fuCLEANUP EXIT
# Stop T-Pot to lift db lock
echo "### Now stopping T-Pot"
systemctl stop tpot
sleep 2
# Backup DB in 2 flavors
echo "### Now backing up Elasticsearch folders ..."
if [ "$1" == "all" ];
then
tar cvfz "elkall_"$myDATE".tgz" $myELKPATH
elif [ "$1" == "base" ];
then
tar cvfz "elkbase_"$myDATE".tgz" $myKIBANAINDEXPATH
fi

109
_deprecated/bin/blackhole.sh
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@ -1,109 +0,0 @@
#!/bin/bash
# Run as root only.
myWHOAMI=$(whoami)
if [ "$myWHOAMI" != "root" ]
then
echo "### Need to run as root ..."
echo
exit
fi
# Disclaimer
if [ "$1" == "" ];
then
echo "### Warning!"
echo "### This script will download and add blackhole routes for known mass scanners in an attempt to decrease the chance of detection."
echo "### IPs are neither curated or verified, use at your own risk!"
echo "###"
echo "### As long as <blackhole.sh del> is not executed the routes will be re-added on T-Pot start through </opt/tpot/bin/updateip.sh>."
echo "### Check with <ip r> or <dps.sh> if blackhole is enabled."
echo
echo "Usage: blackhole.sh add (add blackhole routes)"
echo " blackhole.sh del (delete blackhole routes)"
echo
exit
fi
# QnD paths, files
mkdir -p /etc/blackhole
cd /etc/blackhole
myFILE="mass_scanner.txt"
myURL="https://raw.githubusercontent.com/stamparm/maltrail/master/trails/static/mass_scanner.txt"
myBASELINE="500"
# Alternatively, using less routes, but blocking complete /24 networks
#myFILE="mass_scanner_cidr.txt"
#myURL="https://raw.githubusercontent.com/stamparm/maltrail/master/trails/static/mass_scanner_cidr.txt"
# Calculate age of downloaded list, read IPs
if [ -f "$myFILE" ];
then
myNOW=$(date +%s)
myOLD=$(date +%s -r "$myFILE")
myDAYS=$(( ($myNOW-$myOLD) / (60*60*24) ))
echo "### Downloaded $myFILE list is $myDAYS days old."
myBLACKHOLE_IPS=$(grep -o -P "\b(?:\d{1,3}\.){3}\d{1,3}\b" "$myFILE" | sort -u)
fi
# Let's load ip list
if [[ ! -f "$myFILE" && "$1" == "add" || "$myDAYS" -gt 30 ]];
then
echo "### Downloading $myFILE list."
aria2c --allow-overwrite -s16 -x 16 "$myURL" && \
myBLACKHOLE_IPS=$(grep -o -P "\b(?:\d{1,3}\.){3}\d{1,3}\b" "$myFILE" | sort -u)
fi
myCOUNT=$(echo $myBLACKHOLE_IPS | wc -w)
# Let's extract mass scanner IPs
if [ "$myCOUNT" -lt "$myBASELINE" ] && [ "$1" == "add" ];
then
echo "### Something went wrong. Please check contents of /etc/blackhole/$myFILE."
echo "### Aborting."
echo
exit
elif [ "$(ip r | grep 'blackhole' -c)" -gt "$myBASELINE" ] && [ "$1" == "add" ];
then
echo "### Blackhole already enabled."
echo "### Aborting."
echo
exit
fi
# Let's add blackhole routes for all mass scanner IPs
if [ "$1" == "add" ];
then
echo
echo -n "Now adding $myCOUNT IPs to blackhole."
for i in $myBLACKHOLE_IPS;
do
ip route add blackhole "$i"
echo -n "."
done
echo
echo "Added $(ip r | grep "blackhole" -c) IPs to blackhole."
echo
echo "### Remember!"
echo "### As long as <blackhole.sh del> is not executed the routes will be re-added on T-Pot start through </opt/tpot/bin/updateip.sh>."
echo "### Check with <ip r> or <dps.sh> if blackhole is enabled."
echo
exit
fi
# Let's delete blackhole routes for all mass scanner IPs
if [ "$1" == "del" ] && [ "$myCOUNT" -gt "$myBASELINE" ];
then
echo
echo -n "Now deleting $myCOUNT IPs from blackhole."
for i in $myBLACKHOLE_IPS;
do
ip route del blackhole "$i"
echo -n "."
done
echo
echo "$(ip r | grep 'blackhole' -c) IPs remaining in blackhole."
echo
rm "$myFILE"
else
echo "### Blackhole already disabled."
echo
fi

89
_deprecated/bin/change_ews_config.sh
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@ -1,89 +0,0 @@
#!/bin/bash
echo """
##############################
# T-POT DTAG Data Submission #
# Contact: #
# cert@telekom.de #
##############################
"""
# Got root?
myWHOAMI=$(whoami)
if [ "$myWHOAMI" != "root" ]
then
echo "Need to run as root ..."
sudo ./$0
exit
fi
printf "[*] Enter your API UserID: "
read apiUser
printf "[*] Enter your API Token: "
read apiToken
printf "[*] If you have multiple T-Pots running, give them each a unique NUMBER, e.g. '2' for your second T-Pot installation. Enter unique number for THIS T-Pot: "
read indexNumber
if ! [[ "$indexNumber" =~ ^[0-9]+$ ]]
then
echo "Sorry integers only. You have to start over..."
exit 1
fi
apiURL="https://community.sicherheitstacho.eu/ews-0.1/alert/postSimpleMessage"
printf "[*] Currently, your honeypot is configured to transmit data the default backend at 'https://community.sicherheitstacho.eu/ews-0.1/alert/postSimpleMessage'. Do you want to change this API endpoint? Only do this if you run your own PEBA backend instance? (N/y): "
read replyAPI
if [[ $replyAPI =~ ^[Yy]$ ]]
then
printf "[*] Enter your API endpoint URL and make sure it contains the full path, e.g. 'https://myDomain.local:9922/ews-0.1/alert/postSimpleMessage': "
read apiURL
fi
echo ""
echo "[*] Recap! You defined: "
echo "############################"
echo "API User: " $apiUser
echo "API Token: " $apiToken
echo "API URL: " $apiURL
echo "Unique numeric ID for your T-Pot Installation: " $indexNumber
echo "Specific honeypot-IDs will look like : <honeypotType>-"$apiUser"-"$indexNumber
echo "############################"
echo ""
printf "[*] Is the above correct (y/N)? "
read reply
if [[ ! $reply =~ ^[Yy]$ ]]
then
echo "OK, then run this again..."
exit 1
fi
echo ""
echo "[+] Creating config file with API UserID '$apiUser' and API Token '$apiToken'."
echo "[+] Fetching config file from github. Outgoing https requests must be enabled!"
wget -q https://raw.githubusercontent.com/telekom-security/tpotce/master/docker/ews/dist/ews.cfg -O ews.cfg.dist
if [[ -f "ews.cfg.dist" ]]; then
echo "[+] Successfully downloaded ews.cfg from github."
else
echo "[+] Could not download ews.cfg from github."
exit 1
fi
echo "[+] Patching ews.cfg API Credentials."
sed 's/community-01-user/'$apiUser'/' ews.cfg.dist > ews.cfg
sed -i 's/foth{a5maiCee8fineu7/'$apiToken'/' ews.cfg
echo "[+] Patching ews.cfg API Url."
apiURL=${apiURL////\\/};
sed -i 's/https:\/\/community.sicherheitstacho.eu\/ews-0.1\/alert\/postSimpleMessage/'$apiURL'/' ews.cfg
echo "[+] Patching ews.cfg honeypot IDs."
sed -i 's/community-01/'$apiUser'-'$indexNumber'/' ews.cfg
rm ews.cfg.dist
echo "[+] Changing tpot.yml to include new ews.cfg."
cp ews.cfg /data/ews/conf/ews.cfg
cp /opt/tpot/etc/tpot.yml /opt/tpot/etc/tpot.yml.bak
sed -i '/- \/data\/ews\/conf\/ews.ip:\/opt\/ewsposter\/ews.ip/a\ \ \ - \/data\/ews\/conf\/ews.cfg:\/opt\/ewsposter\/ews.cfg' /opt/tpot/etc/tpot.yml
echo "[+] Restarting T-Pot."
systemctl restart tpot
echo "[+] Done."

372
_deprecated/bin/clean.sh
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@ -1,372 +0,0 @@
#!/bin/bash
# T-Pot Container Data Cleaner & Log Rotator
# Set colors
myRED=""
myGREEN=""
myWHITE=""
# Set pigz
myPIGZ=$(which pigz)
# Set persistence
myPERSISTENCE=$1
# Let's create a function to check if folder is empty
fuEMPTY () {
local myFOLDER=$1
echo $(ls $myFOLDER | wc -l)
}
# Let's create a function to rotate and compress logs
fuLOGROTATE () {
local mySTATUS="/opt/tpot/etc/logrotate/status"
local myCONF="/opt/tpot/etc/logrotate/logrotate.conf"
local myADBHONEYTGZ="/data/adbhoney/downloads.tgz"
local myADBHONEYDL="/data/adbhoney/downloads/"
local myCOWRIETTYLOGS="/data/cowrie/log/tty/"
local myCOWRIETTYTGZ="/data/cowrie/log/ttylogs.tgz"
local myCOWRIEDL="/data/cowrie/downloads/"
local myCOWRIEDLTGZ="/data/cowrie/downloads.tgz"
local myDIONAEABI="/data/dionaea/bistreams/"
local myDIONAEABITGZ="/data/dionaea/bistreams.tgz"
local myDIONAEABIN="/data/dionaea/binaries/"
local myDIONAEABINTGZ="/data/dionaea/binaries.tgz"
local myHONEYTRAPATTACKS="/data/honeytrap/attacks/"
local myHONEYTRAPATTACKSTGZ="/data/honeytrap/attacks.tgz"
local myHONEYTRAPDL="/data/honeytrap/downloads/"
local myHONEYTRAPDLTGZ="/data/honeytrap/downloads.tgz"
local myTANNERF="/data/tanner/files/"
local myTANNERFTGZ="/data/tanner/files.tgz"
# Ensure correct permissions and ownerships for logrotate to run without issues
chmod 770 /data/ -R
chown tpot:tpot /data -R
chmod 644 /data/nginx/conf -R
chmod 644 /data/nginx/cert -R
# Run logrotate with force (-f) first, so the status file can be written and race conditions (with tar) be avoided
logrotate -f -s $mySTATUS $myCONF
# Compressing some folders first and rotate them later
if [ "$(fuEMPTY $myADBHONEYDL)" != "0" ]; then tar -I $myPIGZ -cvf $myADBHONEYTGZ $myADBHONEYDL; fi
if [ "$(fuEMPTY $myCOWRIETTYLOGS)" != "0" ]; then tar -I $myPIGZ -cvf $myCOWRIETTYTGZ $myCOWRIETTYLOGS; fi
if [ "$(fuEMPTY $myCOWRIEDL)" != "0" ]; then tar -I $myPIGZ -cvf $myCOWRIEDLTGZ $myCOWRIEDL; fi
if [ "$(fuEMPTY $myDIONAEABI)" != "0" ]; then tar -I $myPIGZ -cvf $myDIONAEABITGZ $myDIONAEABI; fi
if [ "$(fuEMPTY $myDIONAEABIN)" != "0" ]; then tar -I $myPIGZ -cvf $myDIONAEABINTGZ $myDIONAEABIN; fi
if [ "$(fuEMPTY $myHONEYTRAPATTACKS)" != "0" ]; then tar -I $myPIGZ -cvf $myHONEYTRAPATTACKSTGZ $myHONEYTRAPATTACKS; fi
if [ "$(fuEMPTY $myHONEYTRAPDL)" != "0" ]; then tar -I $myPIGZ -cvf $myHONEYTRAPDLTGZ $myHONEYTRAPDL; fi
if [ "$(fuEMPTY $myTANNERF)" != "0" ]; then tar -I $myPIGZ -cvf $myTANNERFTGZ $myTANNERF; fi
# Ensure correct permissions and ownership for previously created archives
chmod 770 $myADBHONEYTGZ $myCOWRIETTYTGZ $myCOWRIEDLTGZ $myDIONAEABITGZ $myDIONAEABINTGZ $myHONEYTRAPATTACKSTGZ $myHONEYTRAPDLTGZ $myTANNERFTGZ
chown tpot:tpot $myADBHONEYTGZ $myCOWRIETTYTGZ $myCOWRIEDLTGZ $myDIONAEABITGZ $myDIONAEABINTGZ $myHONEYTRAPATTACKSTGZ $myHONEYTRAPDLTGZ $myTANNERFTGZ
# Need to remove subfolders since too many files cause rm to exit with errors
rm -rf $myADBHONEYDL $myCOWRIETTYLOGS $myCOWRIEDL $myDIONAEABI $myDIONAEABIN $myHONEYTRAPATTACKS $myHONEYTRAPDL $myTANNERF
# Recreate subfolders with correct permissions and ownership
mkdir -p $myADBHONEYDL $myCOWRIETTYLOGS $myCOWRIEDL $myDIONAEABI $myDIONAEABIN $myHONEYTRAPATTACKS $myHONEYTRAPDL $myTANNERF
chmod 770 $myADBHONEYDL $myCOWRIETTYLOGS $myCOWRIEDL $myDIONAEABI $myDIONAEABIN $myHONEYTRAPATTACKS $myHONEYTRAPDL $myTANNERF
chown tpot:tpot $myADBHONEYDL $myCOWRIETTYLOGS $myCOWRIEDL $myDIONAEABI $myDIONAEABIN $myHONEYTRAPATTACKS $myHONEYTRAPDL $myTANNERF
# Run logrotate again to account for previously created archives - DO NOT FORCE HERE!
logrotate -s $mySTATUS $myCONF
}
# Let's create a function to clean up and prepare honeytrap data
fuADBHONEY () {
if [ "$myPERSISTENCE" != "on" ]; then rm -rf /data/adbhoney/*; fi
mkdir -p /data/adbhoney/log/ /data/adbhoney/downloads/
chmod 770 /data/adbhoney/ -R
chown tpot:tpot /data/adbhoney/ -R
}
# Let's create a function to clean up and prepare ciscoasa data
fuCISCOASA () {
if [ "$myPERSISTENCE" != "on" ]; then rm -rf /data/ciscoasa/*; fi
mkdir -p /data/ciscoasa/log
chmod 770 /data/ciscoasa -R
chown tpot:tpot /data/ciscoasa -R
}
# Let's create a function to clean up and prepare citrixhoneypot data
fuCITRIXHONEYPOT () {
if [ "$myPERSISTENCE" != "on" ]; then rm -rf /data/citrixhoneypot/*; fi
mkdir -p /data/citrixhoneypot/logs/
chmod 770 /data/citrixhoneypot/ -R
chown tpot:tpot /data/citrixhoneypot/ -R
}
# Let's create a function to clean up and prepare conpot data
fuCONPOT () {
if [ "$myPERSISTENCE" != "on" ]; then rm -rf /data/conpot/*; fi
mkdir -p /data/conpot/log
chmod 770 /data/conpot -R
chown tpot:tpot /data/conpot -R
}
# Let's create a function to clean up and prepare cowrie data
fuCOWRIE () {
if [ "$myPERSISTENCE" != "on" ]; then rm -rf /data/cowrie/*; fi
mkdir -p /data/cowrie/log/tty/ /data/cowrie/downloads/ /data/cowrie/keys/ /data/cowrie/misc/
chmod 770 /data/cowrie -R
chown tpot:tpot /data/cowrie -R
}
# Let's create a function to clean up and prepare ddospot data
fuDDOSPOT () {
if [ "$myPERSISTENCE" != "on" ]; then rm -rf /data/ddospot/log; fi
mkdir -p /data/ddospot/bl /data/ddospot/db /data/ddospot/log
chmod 770 /data/ddospot -R
chown tpot:tpot /data/ddospot -R
}
# Let's create a function to clean up and prepare dicompot data
fuDICOMPOT () {
if [ "$myPERSISTENCE" != "on" ]; then rm -rf /data/dicompot/log; fi
mkdir -p /data/dicompot/log
mkdir -p /data/dicompot/images
chmod 770 /data/dicompot -R
chown tpot:tpot /data/dicompot -R
}
# Let's create a function to clean up and prepare dionaea data
fuDIONAEA () {
if [ "$myPERSISTENCE" != "on" ]; then rm -rf /data/dionaea/*; fi
mkdir -p /data/dionaea/log /data/dionaea/bistreams /data/dionaea/binaries /data/dionaea/rtp /data/dionaea/roots/ftp /data/dionaea/roots/tftp /data/dionaea/roots/www /data/dionaea/roots/upnp
chmod 770 /data/dionaea -R
chown tpot:tpot /data/dionaea -R
}
# Let's create a function to clean up and prepare elasticpot data
fuELASTICPOT () {
if [ "$myPERSISTENCE" != "on" ]; then rm -rf /data/elasticpot/*; fi
mkdir -p /data/elasticpot/log
chmod 770 /data/elasticpot -R
chown tpot:tpot /data/elasticpot -R
}
# Let's create a function to clean up and prepare elk data
fuELK () {
# ELK data will be kept for <= 90 days, check /etc/crontab for curator modification
# ELK daemon log files will be removed
if [ "$myPERSISTENCE" != "on" ]; then rm -rf /data/elk/log/*; fi
mkdir -p /data/elk
chmod 770 /data/elk -R
chown tpot:tpot /data/elk -R
}
# Let's create a function to clean up and prepare endlessh data
fuENDLESSH () {
if [ "$myPERSISTENCE" != "on" ]; then rm -rf /data/endlessh/log; fi
mkdir -p /data/endlessh/log
chmod 770 /data/endlessh -R
chown tpot:tpot /data/endlessh -R
}
# Let's create a function to clean up and prepare fatt data
fuFATT () {
if [ "$myPERSISTENCE" != "on" ]; then rm -rf /data/fatt/*; fi
mkdir -p /data/fatt/log
chmod 770 -R /data/fatt
chown tpot:tpot -R /data/fatt
}
# Let's create a function to clean up and prepare glastopf data
fuGLUTTON () {
if [ "$myPERSISTENCE" != "on" ]; then rm -rf /data/glutton/*; fi
mkdir -p /data/glutton/log
chmod 770 /data/glutton -R
chown tpot:tpot /data/glutton -R
}
# Let's create a function to clean up and prepare hellpot data
fuHELLPOT () {
if [ "$myPERSISTENCE" != "on" ]; then rm -rf /data/hellpot/log; fi
mkdir -p /data/hellpot/log
chmod 770 /data/hellpot -R
chown tpot:tpot /data/hellpot -R
}
# Let's create a function to clean up and prepare heralding data
fuHERALDING () {
if [ "$myPERSISTENCE" != "on" ]; then rm -rf /data/heralding/*; fi
mkdir -p /data/heralding/log
chmod 770 /data/heralding -R
chown tpot:tpot /data/heralding -R
}
# Let's create a function to clean up and prepare honeypots data
fuHONEYPOTS () {
if [ "$myPERSISTENCE" != "on" ]; then rm -rf /data/honeypots/*; fi
mkdir -p /data/honeypots/log
chmod 770 /data/honeypots -R
chown tpot:tpot /data/honeypots -R
}
# Let's create a function to clean up and prepare honeysap data
fuHONEYSAP () {
if [ "$myPERSISTENCE" != "on" ]; then rm -rf /data/honeysap/*; fi
mkdir -p /data/honeysap/log
chmod 770 /data/honeysap -R
chown tpot:tpot /data/honeysap -R
}
# Let's create a function to clean up and prepare honeytrap data
fuHONEYTRAP () {
if [ "$myPERSISTENCE" != "on" ]; then rm -rf /data/honeytrap/*; fi
mkdir -p /data/honeytrap/log/ /data/honeytrap/attacks/ /data/honeytrap/downloads/
chmod 770 /data/honeytrap/ -R
chown tpot:tpot /data/honeytrap/ -R
}
# Let's create a function to clean up and prepare ipphoney data
fuIPPHONEY () {
if [ "$myPERSISTENCE" != "on" ]; then rm -rf /data/ipphoney/*; fi
mkdir -p /data/ipphoney/log
chmod 770 /data/ipphoney -R
chown tpot:tpot /data/ipphoney -R
}
# Let's create a function to clean up and prepare log4pot data
fuLOG4POT () {
if [ "$myPERSISTENCE" != "on" ]; then rm -rf /data/log4pot/*; fi
mkdir -p /data/log4pot/log
chmod 770 /data/log4pot -R
chown tpot:tpot /data/log4pot -R
}
# Let's create a function to clean up and prepare mailoney data
fuMAILONEY () {
if [ "$myPERSISTENCE" != "on" ]; then rm -rf /data/mailoney/*; fi
mkdir -p /data/mailoney/log/
chmod 770 /data/mailoney/ -R
chown tpot:tpot /data/mailoney/ -R
}
# Let's create a function to clean up and prepare mailoney data
fuMEDPOT () {
if [ "$myPERSISTENCE" != "on" ]; then rm -rf /data/medpot/*; fi
mkdir -p /data/medpot/log/
chmod 770 /data/medpot/ -R
chown tpot:tpot /data/medpot/ -R
}
# Let's create a function to clean up nginx logs
fuNGINX () {
if [ "$myPERSISTENCE" != "on" ]; then rm -rf /data/nginx/log/*; fi
touch /data/nginx/log/error.log
chmod 644 /data/nginx/conf -R
chmod 644 /data/nginx/cert -R
}
# Let's create a function to clean up and prepare rdpy data
fuRDPY () {
if [ "$myPERSISTENCE" != "on" ]; then rm -rf /data/rdpy/*; fi
mkdir -p /data/rdpy/log/
chmod 770 /data/rdpy/ -R
chown tpot:tpot /data/rdpy/ -R
}
# Let's create a function to clean up and prepare redishoneypot data
fuREDISHONEYPOT () {
if [ "$myPERSISTENCE" != "on" ]; then rm -rf /data/redishoneypot/log; fi
mkdir -p /data/redishoneypot/log
chmod 770 /data/redishoneypot -R
chown tpot:tpot /data/redishoneypot -R
}
# Let's create a function to clean up and prepare sentrypeer data
fuSENTRYPEER () {
if [ "$myPERSISTENCE" != "on" ]; then rm -rf /data/sentrypeer/log; fi
mkdir -p /data/sentrypeer/log
chmod 770 /data/sentrypeer -R
chown tpot:tpot /data/sentrypeer -R
}
# Let's create a function to prepare spiderfoot db
fuSPIDERFOOT () {
mkdir -p /data/spiderfoot
touch /data/spiderfoot/spiderfoot.db
chmod 770 -R /data/spiderfoot
chown tpot:tpot -R /data/spiderfoot
}
# Let's create a function to clean up and prepare suricata data
fuSURICATA () {
if [ "$myPERSISTENCE" != "on" ]; then rm -rf /data/suricata/*; fi
mkdir -p /data/suricata/log
chmod 770 -R /data/suricata
chown tpot:tpot -R /data/suricata
}
# Let's create a function to clean up and prepare p0f data
fuP0F () {
if [ "$myPERSISTENCE" != "on" ]; then rm -rf /data/p0f/*; fi
mkdir -p /data/p0f/log
chmod 770 -R /data/p0f
chown tpot:tpot -R /data/p0f
}
# Let's create a function to clean up and prepare p0f data
fuTANNER () {
if [ "$myPERSISTENCE" != "on" ]; then rm -rf /data/tanner/*; fi
mkdir -p /data/tanner/log /data/tanner/files
chmod 770 -R /data/tanner
chown tpot:tpot -R /data/tanner
}
# Avoid unwanted cleaning
if [ "$myPERSISTENCE" = "" ];
then
echo $myRED"!!! WARNING !!! - This will delete ALL honeypot logs. "$myWHITE
while [ "$myQST" != "y" ] && [ "$myQST" != "n" ];
do
read -p "Continue? (y/n) " myQST
done
if [ "$myQST" = "n" ];
then
echo $myGREEN"Puuh! That was close! Aborting!"$myWHITE
exit
fi
fi
# Check persistence, if enabled compress and rotate logs
if [ "$myPERSISTENCE" = "on" ];
then
echo "Persistence enabled, now rotating and compressing logs."
fuLOGROTATE
else
echo "Cleaning up and preparing data folders."
fuADBHONEY
fuCISCOASA
fuCITRIXHONEYPOT
fuCONPOT
fuCOWRIE
fuDDOSPOT
fuDICOMPOT
fuDIONAEA
fuELASTICPOT
fuELK
fuENDLESSH
fuFATT
fuGLUTTON
fuHERALDING
fuHELLPOT
fuHONEYSAP
fuHONEYPOTS
fuHONEYTRAP
fuIPPHONEY
fuLOG4POT
fuMAILONEY
fuMEDPOT
fuNGINX
fuREDISHONEYPOT
fuRDPY
fuSENTRYPEER
fuSPIDERFOOT
fuSURICATA
fuP0F
fuTANNER
fi

182
_deprecated/bin/deploy.sh
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@ -1,182 +0,0 @@
#!/bin/bash
# Do we have root?
function fuGOT_ROOT {
echo
echo -n "### Checking for root: "
if [ "$(whoami)" != "root" ];
then
echo "[ NOT OK ]"
echo "### Please run as root."
echo "### Example: sudo $0"
exit
else
echo "[ OK ]"
fi
}
function fuDEPLOY_SENSOR () {
echo
echo "###############################"
echo "# Deploying to T-Pot Hive ... #"
echo "###############################"
echo
sshpass -e ssh -4 -t -T -l "$MY_TPOT_USERNAME" -p 64295 "$MY_HIVE_IP" << EOF
echo "$SSHPASS" | sudo -S bash -c 'useradd -m -s /sbin/nologin -G tpotlogs "$MY_HIVE_USERNAME";
mkdir -p /home/"$MY_HIVE_USERNAME"/.ssh;
echo "$MY_SENSOR_PUBLICKEY" >> /home/"$MY_HIVE_USERNAME"/.ssh/authorized_keys;
chmod 600 /home/"$MY_HIVE_USERNAME"/.ssh/authorized_keys;
chmod 755 /home/"$MY_HIVE_USERNAME"/.ssh;
chown "$MY_HIVE_USERNAME":"$MY_HIVE_USERNAME" -R /home/"$MY_HIVE_USERNAME"/.ssh'
EOF
echo
echo "###########################"
echo "# Done. Please reboot ... #"
echo "###########################"
echo
exit 0
}
# Check Hive availability
function fuCHECK_HIVE () {
echo
echo "############################################"
echo "# Checking for T-Pot Hive availability ... #"
echo "############################################"
echo
sshpass -e ssh -4 -t -l "$MY_TPOT_USERNAME" -p 64295 -f -N -L64305:127.0.0.1:64305 "$MY_HIVE_IP" -o "StrictHostKeyChecking=no"
if [ $? -eq 0 ];
then
echo
echo "#########################"
echo "# T-Pot Hive available! #"
echo "#########################"
echo
myHIVE_OK=$(curl -s http://127.0.0.1:64305)
if [ "$myHIVE_OK" == "ok" ];
then
echo
echo "##############################"
echo "# T-Pot Hive tunnel test OK! #"
echo "##############################"
echo
kill -9 $(pidof ssh)
else
echo
echo "######################################################"
echo "# T-Pot Hive tunnel test FAILED! #"
echo "# Tunneled port tcp/64305 unreachable on T-Pot Hive. #"
echo "# Aborting. #"
echo "######################################################"
echo
kill -9 $(pidof ssh)
rm $MY_SENSOR_PUBLICKEYFILE
rm $MY_SENSOR_PRIVATEKEYFILE
rm $MY_LS_ENVCONFIGFILE
exit 1
fi;
else
echo
echo "#################################################################"
echo "# Something went wrong, most likely T-Pot Hive was unreachable! #"
echo "# Aborting. #"
echo "#################################################################"
echo
rm $MY_SENSOR_PUBLICKEYFILE
rm $MY_SENSOR_PRIVATEKEYFILE
rm $MY_LS_ENVCONFIGFILE
exit 1
fi;
}
function fuGET_DEPLOY_DATA () {
echo
echo "### Please provide data from your T-Pot Hive installation."
echo "### This usually is the one running the 'T-Pot Hive' type."
echo "### You will be needing the OS user (typically 'tsec'), the users' password and the IP / FQDN."
echo "### Do not worry, the password will not be persisted!"
echo
read -p "Username: " MY_TPOT_USERNAME
read -s -p "Password: " SSHPASS
echo
export SSHPASS
read -p "IP / FQDN: " MY_HIVE_IP
MY_HIVE_USERNAME="$(hostname)"
MY_TPOT_TYPE="SENSOR"
MY_LS_ENVCONFIGFILE="/data/elk/logstash/ls_environment"
MY_SENSOR_PUBLICKEYFILE="/data/elk/logstash/$MY_HIVE_USERNAME.pub"
MY_SENSOR_PRIVATEKEYFILE="/data/elk/logstash/$MY_HIVE_USERNAME"
if ! [ -s "$MY_SENSOR_PRIVATEKEYFILE" ] && ! [ -s "$MY_SENSOR_PUBLICKEYFILE" ];
then
echo
echo "##############################"
echo "# Generating ssh keyfile ... #"
echo "##############################"
echo
mkdir -p /data/elk/logstash
ssh-keygen -f "$MY_SENSOR_PRIVATEKEYFILE" -N "" -C "$MY_HIVE_USERNAME"
MY_SENSOR_PUBLICKEY="$(cat "$MY_SENSOR_PUBLICKEYFILE")"
else
echo
echo "#############################################"
echo "# There is already a ssh keyfile. Aborting. #"
echo "#############################################"
echo
exit 1
fi
echo
echo "###########################################################"
echo "# Writing config to /data/elk/logstash/ls_environment. #"
echo "# If you make changes to this file, you need to reboot or #"
echo "# run /opt/tpot/bin/updateip.sh. #"
echo "###########################################################"
echo
tee $MY_LS_ENVCONFIGFILE << EOF
MY_TPOT_TYPE=$MY_TPOT_TYPE
MY_SENSOR_PRIVATEKEYFILE=$MY_SENSOR_PRIVATEKEYFILE
MY_HIVE_USERNAME=$MY_HIVE_USERNAME
MY_HIVE_IP=$MY_HIVE_IP
EOF
}
# Deploy Pot to Hive
fuGOT_ROOT
echo
echo "#################################"
echo "# Ship T-Pot Logs to T-Pot Hive #"
echo "#################################"
echo
echo "If you already have a T-Pot Hive installation running and"
echo "this T-Pot installation is running the type \"Pot\" the"
echo "script will automagically setup this T-Pot to ship and"
echo "prepare the Hive to receive logs from this T-Pot."
echo
echo
echo "###################################"
echo "# Deploy T-Pot Logs to T-Pot Hive #"
echo "###################################"
echo
echo "[c] - Continue deplyoment"
echo "[q] - Abort and exit"
echo
while [ 1 != 2 ]
do
read -s -n 1 -p "Your choice: " mySELECT
echo $mySELECT
case "$mySELECT" in
[c,C])
fuGET_DEPLOY_DATA
fuCHECK_HIVE
fuDEPLOY_SENSOR
break
;;
[q,Q])
echo "Aborted."
exit 0
;;
esac
done

122
_deprecated/bin/deprecated/hptest.sh
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@ -1,122 +0,0 @@
#!/bin/bash
myHOST="$1"
myPACKAGES="dcmtk netcat nmap"
myMEDPOTPACKET="
MSH|^~\&|ADT1|MCM|LABADT|MCM|198808181126|SECURITY|ADT^A01|MSG00001-|P|2.6
EVN|A01|198808181123
PID|||PATID1234^5^M11^^AN||JONES^WILLIAM^A^III||19610615|M||2106-3|677 DELAWARE AVENUE^^EVERETT^MA^02149|GL|(919)379-1212|(919)271-3434~(919)277-3114||S||PATID12345001^2^M10^^ACSN|123456789|9-87654^NC
NK1|1|JONES^BARBARA^K|SPO|||||20011105
NK1|1|JONES^MICHAEL^A|FTH
PV1|1|I|2000^2012^01||||004777^LEBAUER^SIDNEY^J.|||SUR||-||ADM|A0
AL1|1||^PENICILLIN||CODE16~CODE17~CODE18
AL1|2||^CAT DANDER||CODE257
DG1|001|I9|1550|MAL NEO LIVER, PRIMARY|19880501103005|F
PR1|2234|M11|111^CODE151|COMMON PROCEDURES|198809081123
ROL|45^RECORDER^ROLE MASTER LIST|AD|RO|KATE^SMITH^ELLEN|199505011201
GT1|1122|1519|BILL^GATES^A
IN1|001|A357|1234|BCMD|||||132987
IN2|ID1551001|SSN12345678
ROL|45^RECORDER^ROLE MASTER LIST|AD|RO|KATE^ELLEN|199505011201"
function fuGOTROOT {
myWHOAMI=$(whoami)
if [ "$myWHOAMI" != "root" ]
then
echo "Need to run as root ..."
exit
fi
}
function fuCHECKDEPS {
myINST=""
for myDEPS in $myPACKAGES;
do
myOK=$(dpkg -s $myDEPS | grep ok | awk '{ print $3 }');
if [ "$myOK" != "ok" ]
then
myINST=$(echo $myINST $myDEPS)
fi
done
if [ "$myINST" != "" ]
then
apt-get update -y
for myDEPS in $myINST;
do
apt-get install $myDEPS -y
done
fi
}
function fuCHECKFORARGS {
if [ "$myHOST" != "" ];
then
echo "All arguments met. Continuing."
else
echo "Usage: hp_test.sh <[host or ip]>"
exit
fi
}
function fuGETPORTS {
myDOCKERCOMPOSEPORTS=$(cat $myDOCKERCOMPOSEYML | yq -r '.services[].ports' | grep ':' | sed -e s/127.0.0.1// | tr -d '", ' | sed -e s/^:// | cut -f1 -d ':' | grep -v "6429\|6430" | sort -gu)
myPORTS=$(for i in $myDOCKERCOMPOSEPORTS; do echo "$i"; done)
echo "Found these ports enabled:"
echo "$myPORTS"
exit
}
function fuSCAN {
local myTIMEOUT="$1"
local mySCANPORT="$2"
local mySCANIP="$3"
local mySCANOPTS="$4"
timeout --foreground ${myTIMEOUT} nmap ${mySCANOPTS} -T4 -v -p ${mySCANPORT} ${mySCANIP} &
}
# Main
fuGOTROOT
fuCHECKDEPS
fuCHECKFORARGS
echo "Starting scans ..."
echo "$myMEDPOTPACKET" | nc "$myHOST" 2575 &
curl -XGET "http://$myHOST:9200/logstash-*/_search" &
curl -XPOST -H "Content-Type: application/json" -d '{"name":"test","email":"test@test.com"}' "http://$myHOST:9200/test" &
echo "I20100" | timeout --foreground 3 nc "$myHOST" 10001 &
findscu -P -k PatientName="*" $myHOST 11112 &
getscu -P -k PatientName="*" $myHOST 11112 &
telnet $myHOST 3299 &
fuSCAN "180" "7,8,102,135,161,1025,1080,5000,9200" "$myHOST" "-sC -sS -sU -sV"
fuSCAN "180" "2048,4096,5432" "$myHOST" "-sC -sS -sU -sV --version-light"
fuSCAN "120" "20,21" "$myHOST" "--script=ftp* -sC -sS -sV"
fuSCAN "120" "22" "$myHOST" "--script=ssh2-enum-algos,ssh-auth-methods,ssh-hostkey,ssh-publickey-acceptance,sshv1 -sC -sS -sV"
fuSCAN "30" "22" "$myHOST" "--script=ssh-brute"
fuSCAN "120" "23,2323,2324" "$myHOST" "--script=telnet-encryption,telnet-ntlm-info -sC -sS -sV --version-light"
fuSCAN "120" "25" "$myHOST" "--script=smtp* -sC -sS -sV"
fuSCAN "180" "42" "$myHOST" "-sC -sS -sV"
fuSCAN "120" "69" "$myHOST" "--script=tftp-enum -sU"
fuSCAN "120" "80,81,8080,8443" "$myHOST" "-sC -sS -sV"
fuSCAN "120" "110,995" "$myHOST" "--script=pop3-capabilities,pop3-ntlm-info -sC -sS -sV --version-light"
fuSCAN "30" "110,995" "$myHOST" "--script=pop3-brute -sS"
fuSCAN "120" "143,993" "$myHOST" "--script=imap-capabilities,imap-ntlm-info -sC -sS -sV --version-light"
fuSCAN "30" "143,993" "$myHOST" "--script=imap-brute -sS"
fuSCAN "240" "445" "$myHOST" "--script=smb-vuln* -sS -sU"
fuSCAN "120" "502" "$myHOST" "--script=modbus-discover -sS -sU"
fuSCAN "120" "623" "$myHOST" "--script=ipmi-cipher-zero,ipmi-version,supermicro-ipmi -sS -sU"
fuSCAN "30" "623" "$myHOST" "--script=ipmi-brute -sS -sU"
fuSCAN "120" "1433" "$myHOST" "--script=ms-sql* -sS"
fuSCAN "120" "1723" "$myHOST" "--script=pptp-version -sS"
fuSCAN "120" "1883" "$myHOST" "--script=mqtt-subscribe -sS"
fuSCAN "120" "2404" "$myHOST" "--script=iec-identify -sS"
fuSCAN "120" "3306" "$myHOST" "--script=mysql-vuln* -sC -sS -sV"
fuSCAN "120" "3389" "$myHOST" "--script=rdp* -sC -sS -sV"
fuSCAN "120" "5000" "$myHOST" "--script=*upnp* -sS -sU"
fuSCAN "120" "5060,5061" "$myHOST" "--script=sip-call-spoof,sip-enum-users,sip-methods -sS -sU"
fuSCAN "120" "5900" "$myHOST" "--script=vnc-info,vnc-title,realvnc-auth-bypass -sS"
fuSCAN "120" "27017" "$myHOST" "--script=mongo* -sS"
fuSCAN "120" "47808" "$myHOST" "--script=bacnet* -sS"
wait
reset
echo "Done."

73
_deprecated/bin/dps.sh
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@ -1,73 +0,0 @@
#!/bin/bash
# Run as root only.
myWHOAMI=$(whoami)
if [ "$myWHOAMI" != "root" ]
then
echo "Need to run as root ..."
exit
fi
myPARAM="$1"
if [[ $myPARAM =~ ^([1-9]|[1-9][0-9]|[1-9][0-9][0-9])$ ]];
then
watch --color -n $myPARAM "$0"
exit
fi
# Show current status of T-Pot containers
myCONTAINERS="$(cat /opt/tpot/etc/tpot.yml | grep -v '#' | grep container_name | cut -d: -f2 | sort | tr -d " ")"
myRED=""
myGREEN=""
myBLUE=""
myWHITE=""
myMAGENTA=""
# Blackhole Status
myBLACKHOLE_STATUS=$(ip r | grep "blackhole" -c)
if [ "$myBLACKHOLE_STATUS" -gt "500" ];
then
myBLACKHOLE_STATUS="${myGREEN}ENABLED"
else
myBLACKHOLE_STATUS="${myRED}DISABLED"
fi
function fuGETTPOT_STATUS {
# T-Pot Status
myTPOT_STATUS=$(systemctl status tpot | grep "Active" | awk '{ print $2 }')
if [ "$myTPOT_STATUS" == "active" ];
then
echo "${myGREEN}ACTIVE"
else
echo "${myRED}INACTIVE"
fi
}
function fuGETSTATUS {
grc --colour=on docker ps -f status=running -f status=exited --format "table {{.Names}}\t{{.Status}}\t{{.Ports}}" | grep -v "NAME" | sort
}
function fuGETSYS {
printf "[ ========| System |======== ]\n"
printf "${myBLUE}%+11s ${myWHITE}%-20s\n" "DATE: " "$(date)"
printf "${myBLUE}%+11s ${myWHITE}%-20s\n" "UPTIME: " "$(grc --colour=on uptime)"
printf "${myMAGENTA}%+11s %-20s\n" "T-POT: " "$(fuGETTPOT_STATUS)"
printf "${myMAGENTA}%+11s %-20s\n" "BLACKHOLE: " "$myBLACKHOLE_STATUS${myWHITE}"
echo
}
myDPS=$(fuGETSTATUS)
myDPSNAMES=$(echo "$myDPS" | awk '{ print $1 }' | sort)
fuGETSYS
printf "%-21s %-28s %s\n" "NAME" "STATUS" "PORTS"
if [ "$myDPS" != "" ];
then
echo "$myDPS"
fi
for i in $myCONTAINERS; do
myAVAIL=$(echo "$myDPSNAMES" | grep -o "$i" | uniq | wc -l)
if [ "$myAVAIL" = "0" ];
then
printf "%-28s %-28s\n" "$myRED$i" "DOWN$myWHITE"
fi
done

134
_deprecated/bin/hpfeeds_optin.sh
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@ -1,134 +0,0 @@
#!/bin/bash
# Run as root only.
myWHOAMI=$(whoami)
if [ "$myWHOAMI" != "root" ]
then
echo "Need to run as root ..."
exit
fi
myTPOTYMLFILE="/opt/tpot/etc/tpot.yml"
function fuGENERIC () {
echo
echo "You chose generic, please provide all the details of the broker"
echo
myENABLE="true"
read -p "Host URL: " myHOST
read -p "Port: " myPORT
read -p "Channel: " myCHANNEL
echo "For generic providers set this to 'false'"
echo "If you received a CA certficate mount it into the ewsposter container by modifying $myTPOTYMLFILE"
read -p "TLS - 'false' or path to CA in container: " myCERT
read -p "Ident: " myIDENT
read -p "Secret: " mySECRET
read -p "Format ews (xml) or json: " myFORMAT
}
function fuOPTOUT () {
echo
while [ 1 != 2 ]
do
read -s -n 1 -p "You chose to opt out (y/n)? " mySELECT
echo $mySELECT
case "$mySELECT" in
[y,Y])
echo "Opt out."
break
;;
[n,N])
echo "Aborted."
exit
;;
esac
done
myENABLE="false"
myHOST="host"
myPORT="port"
myCHANNEL="channels"
myCERT="false"
myIDENT="user"
mySECRET="secret"
myFORMAT="json"
}
function fuWRITETOFILE () {
if [ -f '/data/ews/conf/hpfeeds.cfg' ]; then
echo "Creating backup of current config in /data/ews/conf/hpfeeds.cfg.old"
mv /data/ews/conf/hpfeeds.cfg /data/ews/conf/hpfeeds.cfg.old
fi
echo "Storing new config in /data/ews/conf/hpfeeds.cfg"
cat >> /data/ews/conf/hpfeeds.cfg <<EOF
myENABLE=$myENABLE
myHOST=$myHOST
myPORT=$myPORT
myCHANNEL=$myCHANNEL
myCERT=$myCERT
myIDENT=$myIDENT
mySECRET=$mySECRET
myFORMAT=$myFORMAT
EOF
}
function fuAPPLY () {
echo "Now stopping T-Pot ..."
systemctl stop tpot
echo "Applying your settings to tpot.yml ... "
sed --follow-symlinks -i "s/EWS_HPFEEDS_ENABLE.*/EWS_HPFEEDS_ENABLE=${myENABLE}/g" "$myTPOTYMLFILE"
sed --follow-symlinks -i "s/EWS_HPFEEDS_HOST.*/EWS_HPFEEDS_HOST=${myHOST}/g" "$myTPOTYMLFILE"
sed --follow-symlinks -i "s/EWS_HPFEEDS_PORT.*/EWS_HPFEEDS_PORT=${myPORT}/g" "$myTPOTYMLFILE"
sed --follow-symlinks -i "s/EWS_HPFEEDS_CHANNELS.*/EWS_HPFEEDS_CHANNELS=${myCHANNEL}/g" "$myTPOTYMLFILE"
sed --follow-symlinks -i "s#EWS_HPFEEDS_TLSCERT.*#EWS_HPFEEDS_TLSCERT=${myCERT}#g" "$myTPOTYMLFILE"
sed --follow-symlinks -i "s/EWS_HPFEEDS_IDENT.*/EWS_HPFEEDS_IDENT=${myIDENT}/g" "$myTPOTYMLFILE"
sed --follow-symlinks -i "s/EWS_HPFEEDS_SECRET.*/EWS_HPFEEDS_SECRET=${mySECRET}/g" "$myTPOTYMLFILE"
sed --follow-symlinks -i "s/EWS_HPFEEDS_FORMAT.*/EWS_HPFEEDS_FORMAT=${myFORMAT}/g" "$myTPOTYMLFILE"
echo "Now starting T-Pot ..."
systemctl start tpot
echo "You can always change or review your settings in /data/ews/conf/hpfeeds.cfg and apply changes by"
echo "running \"./hpfeeds_optin.sh --conf=/data/ews/conf/hpfeeds.cfg\""
echo "Done."
}
# Check for cmdline argument and parse config file
filename=$(echo $@ | cut -d= -f2)
if [ $# == 1 ] && echo $@ | grep '\-\-conf=' > /dev/null && [ ! -z $filename ] && [ -f $filename ]
then
source $filename
else
# Proceed with interactive setup when no config file is found
echo "HPFEEDS Delivery Opt-In for T-Pot"
echo "---------------------------------"
echo "By running this script you agree to share your data with a 3rd party and agree to their corresponding sharing terms."
echo
echo
echo "Please choose your broker"
echo "---------------------------"
echo "[1] - Generic (enter details manually)"
echo "[0] - Opt out of HPFEEDS"
echo "[q] - Do not agree end exit"
echo
while [ 1 != 2 ]
do
read -s -n 1 -p "Your choice: " mySELECT
echo $mySELECT
case "$mySELECT" in
[1])
fuGENERIC
break
;;
[0])
fuOPTOUT
break
;;
[q,Q])
echo "Aborted."
exit
;;
esac
done
fi
fuWRITETOFILE
fuAPPLY

68
_deprecated/bin/hptest.sh
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@ -1,68 +0,0 @@
#!/bin/bash
myHOST="$1"
myPACKAGES="nmap"
myDOCKERCOMPOSEYML="/opt/tpot/etc/tpot.yml"
function fuGOTROOT {
myWHOAMI=$(whoami)
if [ "$myWHOAMI" != "root" ]
then
echo "Need to run as root ..."
exit
fi
}
function fuCHECKDEPS {
myINST=""
for myDEPS in $myPACKAGES;
do
myOK=$(dpkg -s $myDEPS | grep ok | awk '{ print $3 }');
if [ "$myOK" != "ok" ]
then
myINST=$(echo $myINST $myDEPS)
fi
done
if [ "$myINST" != "" ]
then
apt-get update -y
for myDEPS in $myINST;
do
apt-get install $myDEPS -y
done
fi
}
function fuCHECKFORARGS {
if [ "$myHOST" != "" ];
then
echo "All arguments met. Continuing."
echo
else
echo "Usage: hptest.sh <[host or ip]>"
echo
exit
fi
}
function fuGETPORTS {
myDOCKERCOMPOSEUDPPORTS=$(cat $myDOCKERCOMPOSEYML | grep "udp" | tr -d '"\|#\-' | cut -d ":" -f2 | cut -d "/" -f1 | sort -gu)
myDOCKERCOMPOSEPORTS=$(cat $myDOCKERCOMPOSEYML | yq -r '.services[].ports' | grep ':' | sed -e s/127.0.0.1// | tr -d '", ' | sed -e s/^:// | cut -f1 -d ':' | grep -v "6429\|6430" | sort -gu)
myUDPPORTS=$(for i in $myDOCKERCOMPOSEUDPPORTS; do echo -n "U:$i,"; done)
myPORTS=$(for i in $myDOCKERCOMPOSEPORTS; do echo -n "T:$i,"; done)
}
# Main
fuGETPORTS
fuGOTROOT
fuCHECKDEPS
fuCHECKFORARGS
echo
echo "Starting scan on all UDP / TCP ports defined in /opt/tpot/etc/tpot.yml ..."
nmap -sV -sC -v -p $myPORTS $1 &
nmap -sU -sV -sC -v -p $myUDPPORTS $1 &
echo
wait
echo "Done."
echo

103
_deprecated/bin/myip.sh
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@ -1,103 +0,0 @@
#!/bin/bash
## Get my external IP
timeout=2 # seconds to wait for a reply before trying next server
verbose=1 # prints which server was used to STDERR
dnslist=(
"dig +short myip.opendns.com @resolver1.opendns.com"
"dig +short myip.opendns.com @resolver2.opendns.com"
"dig +short myip.opendns.com @resolver3.opendns.com"
"dig +short myip.opendns.com @resolver4.opendns.com"
"dig +short -4 -t a whoami.akamai.net @ns1-1.akamaitech.net"
"dig +short whoami.akamai.net @ns1-1.akamaitech.net"
)
httplist=(
alma.ch/myip.cgi
api.infoip.io/ip
api.ipify.org
bot.whatismyipaddress.com
canhazip.com
checkip.amazonaws.com
eth0.me
icanhazip.com
ident.me
ipecho.net/plain
ipinfo.io/ip
ipof.in/txt
ip.tyk.nu
l2.io/ip
smart-ip.net/myip
wgetip.com
whatismyip.akamai.com
)
# function to check for valid ip
function valid_ip()
{
local ip=$1
local stat=1
if [[ $ip =~ ^[0-9]{1,3}\.[0-9]{1,3}\.[0-9]{1,3}\.[0-9]{1,3}$ ]]; then
OIFS=$IFS
IFS='.'
ip=($ip)
IFS=$OIFS
[[ ${ip[0]} -le 255 && ${ip[1]} -le 255 \
&& ${ip[2]} -le 255 && ${ip[3]} -le 255 ]]
stat=$?
fi
return $stat
}
# function to shuffle the global array "array"
shuffle() {
local i tmp size max rand
size=${#array[*]}
max=$(( 32768 / size * size ))
for ((i=size-1; i>0; i--)); do
while (( (rand=$RANDOM) >= max )); do :; done
rand=$(( rand % (i+1) ))
tmp=${array[i]} array[i]=${array[rand]} array[rand]=$tmp
done
}
# if we have dig and a list of dns methods, try that first
if hash dig 2>/dev/null && [ ${#dnslist[*]} -gt 0 ]; then
eval array=( \"\${dnslist[@]}\" )
shuffle
for cmd in "${array[@]}"; do
[ "$verbose" == 1 ] && echo Trying: $cmd 1>&2
ip=$(timeout $timeout $cmd)
if [ -n "$ip" ]; then
if valid_ip $ip; then
echo $ip
exit
fi
fi
done
fi
# if we haven't succeeded with DNS, try HTTP
if [ ${#httplist[*]} == 0 ]; then
echo "No hosts in httplist array!" >&2
exit 1
fi
# use curl or wget, depending on which one we find
curl_or_wget=$(if hash curl 2>/dev/null; then echo "curl -s"; elif hash wget 2>/dev/null; then echo "wget -qO-"; fi);
if [ -z "$curl_or_wget" ]; then
echo "Neither curl nor wget found. Cannot use http method." >&2
exit 1
fi
eval array=( \"\${httplist[@]}\" )
shuffle
for url in "${array[@]}"; do
[ "$verbose" == 1 ] && echo Trying: $curl_or_wget "$url" 1>&2
ip=$(timeout $timeout $curl_or_wget "$url")
if [ -n "$ip" ]; then
if valid_ip $ip; then
echo $ip
exit
fi
fi
done

27
_deprecated/bin/mytopips.sh
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@ -1,27 +0,0 @@
#!/bin/bash
# Make sure ES is available
myES="http://127.0.0.1:64298/"
myESSTATUS=$(curl -s -XGET ''$myES'_cluster/health' | jq '.' | grep -c green)
if ! [ "$myESSTATUS" = "1" ]
then
echo "### Elasticsearch is not available, try starting via 'systemctl start elk'."
exit 1
else
echo "### Elasticsearch is available, now continuing."
echo
fi
function fuMYTOPIPS {
curl -s -XGET $myES"_search" -H 'Content-Type: application/json' -d'
{
"aggs": {
"ips": {
"terms": { "field": "src_ip.keyword", "size": 100 }
}
},
"size" : 0
}'
}
echo "### Aggregating top 100 source IPs in ES"
fuMYTOPIPS | jq '.aggregations.ips.buckets[].key' | tr -d '"'

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@ -1,107 +0,0 @@
#!/bin/bash
### Vars, Ports for Standard services
myHOSTPORTS="7634 64294 64295 64297 64304"
myDOCKERCOMPOSEYML="$1"
myRULESFUNCTION="$2"
function fuCHECKFORARGS {
### Check if args are present, if not throw error
if [ "$myDOCKERCOMPOSEYML" != "" ] && ([ "$myRULESFUNCTION" == "set" ] || [ "$myRULESFUNCTION" == "unset" ]);
then
echo "All arguments met. Continuing."
else
echo "Usage: rules.sh <docker-compose.yml> <[set, unset]>"
exit
fi
}
function fuNFQCHECK {
### Check if honeytrap or glutton is actively enabled in docker-compose.yml
myNFQCHECK=$(grep -e '^\s*honeytrap:\|^\s*glutton:' $myDOCKERCOMPOSEYML | tr -d ': ' | uniq)
if [ "$myNFQCHECK" == "" ];
then
echo "No NFQ related honeypot detected, no iptables-legacy rules needed. Exiting."
exit
else
echo "Detected $myNFQCHECK as NFQ based honeypot, iptables-legacy rules needed. Continuing."
fi
}
function fuGETPORTS {
### Get ports from docker-compose.yml
myDOCKERCOMPOSEPORTS=$(cat $myDOCKERCOMPOSEYML | yq -r '.services[].ports' | grep ':' | sed -e s/127.0.0.1// | tr -d '", ' | sed -e s/^:// | cut -f1 -d ':' )
myDOCKERCOMPOSEPORTS+=" $myHOSTPORTS"
myRULESPORTS=$(for i in $myDOCKERCOMPOSEPORTS; do echo $i; done | sort -gu)
echo "Setting up / removing these ports:"
echo "$myRULESPORTS"
}
function fuSETRULES {
### Setting up iptables-legacy rules for honeytrap
if [ "$myNFQCHECK" == "honeytrap" ];
then
/usr/sbin/iptables-legacy -w -A INPUT -s 127.0.0.1 -j ACCEPT
/usr/sbin/iptables-legacy -w -A INPUT -d 127.0.0.1 -j ACCEPT
for myPORT in $myRULESPORTS; do
/usr/sbin/iptables-legacy -w -A INPUT -p tcp --dport $myPORT -j ACCEPT
done
/usr/sbin/iptables-legacy -w -A INPUT -p tcp --syn -m state --state NEW -j NFQUEUE
fi
### Setting up iptables-legacy rules for glutton
if [ "$myNFQCHECK" == "glutton" ];
then
/usr/sbin/iptables-legacy -w -t raw -A PREROUTING -s 127.0.0.1 -j ACCEPT
/usr/sbin/iptables-legacy -w -t raw -A PREROUTING -d 127.0.0.1 -j ACCEPT
for myPORT in $myRULESPORTS; do
/usr/sbin/iptables-legacy -w -t raw -A PREROUTING -p tcp --dport $myPORT -j ACCEPT
done
# No need for NFQ forwarding, such rules are set up by glutton
fi
}
function fuUNSETRULES {
### Removing iptables-legacy rules for honeytrap
if [ "$myNFQCHECK" == "honeytrap" ];
then
/usr/sbin/iptables-legacy -w -D INPUT -s 127.0.0.1 -j ACCEPT
/usr/sbin/iptables-legacy -w -D INPUT -d 127.0.0.1 -j ACCEPT
for myPORT in $myRULESPORTS; do
/usr/sbin/iptables-legacy -w -D INPUT -p tcp --dport $myPORT -j ACCEPT
done
/usr/sbin/iptables-legacy -w -D INPUT -p tcp --syn -m state --state NEW -j NFQUEUE
fi
### Removing iptables-legacy rules for glutton
if [ "$myNFQCHECK" == "glutton" ];
then
/usr/sbin/iptables-legacy -w -t raw -D PREROUTING -s 127.0.0.1 -j ACCEPT
/usr/sbin/iptables-legacy -w -t raw -D PREROUTING -d 127.0.0.1 -j ACCEPT
for myPORT in $myRULESPORTS; do
/usr/sbin/iptables-legacy -w -t raw -D PREROUTING -p tcp --dport $myPORT -j ACCEPT
done
# No need for removing NFQ forwarding, such rules are removed by glutton
fi
}
# Main
fuCHECKFORARGS
fuNFQCHECK
fuGETPORTS
if [ "$myRULESFUNCTION" == "set" ];
then
fuSETRULES
else
fuUNSETRULES
fi

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@ -1,29 +0,0 @@
#!/bin/bash
# T-Pot Compose and Container Cleaner
# Set colors
myRED=""
myGREEN=""
myWHITE=""
# Only run with command switch
if [ "$1" != "-y" ]; then
echo $myRED"### WARNING"$myWHITE
echo ""
echo $myRED"###### This script is only intended for the tpot.service."$myWHITE
echo $myRED"###### Run <systemctl stop tpot> first and then <tpdclean.sh -y>."$myWHITE
echo $myRED"###### Be aware, all T-Pot container volumes and images will be removed."$myWHITE
echo ""
echo $myRED"### WARNING "$myWHITE
echo
exit
fi
# Remove old containers, images and volumes
docker-compose -f /opt/tpot/etc/tpot.yml down -v >> /dev/null 2>&1
docker-compose -f /opt/tpot/etc/tpot.yml rm -v >> /dev/null 2>&1
docker network rm $(docker network ls -q) >> /dev/null 2>&1
docker volume rm $(docker volume ls -q) >> /dev/null 2>&1
docker rm -v $(docker ps -aq) >> /dev/null 2>&1
docker rmi $(docker images | grep "<none>" | awk '{print $3}') >> /dev/null 2>&1
docker rmi $(docker images | grep "2203" | awk '{print $3}') >> /dev/null 2>&1
exit 0

56
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@ -1,56 +0,0 @@
#!/bin/bash
# Run as root only.
myWHOAMI=$(whoami)
if [ "$myWHOAMI" != "root" ]
then
echo "Need to run as root ..."
exit
fi
# set backtitle, get filename
myBACKTITLE="T-Pot Edition Selection Tool"
myYMLS=$(cd /opt/tpot/etc/compose/ && ls -1 *.yml)
myLINK="/opt/tpot/etc/tpot.yml"
# Let's load docker images in parallel
function fuPULLIMAGES {
local myTPOTCOMPOSE="/opt/tpot/etc/tpot.yml"
for name in $(cat $myTPOTCOMPOSE | grep -v '#' | grep image | cut -d'"' -f2 | uniq)
do
docker pull $name &
done
wait
echo
}
# setup menu
for i in $myYMLS;
do
myITEMS+="$i $(echo $i | cut -d "." -f1 | tr [:lower:] [:upper:]) "
done
myEDITION=$(dialog --backtitle "$myBACKTITLE" --menu "Select T-Pot Edition" 18 50 1 $myITEMS 3>&1 1>&2 2>&3 3>&-)
if [ "$myEDITION" == "" ];
then
echo "Have a nice day!"
exit
fi
dialog --backtitle "$myBACKTITLE" --title "[ Activate now? ]" --yesno "\n$myEDITION" 7 50
myOK=$?
if [ "$myOK" == "0" ];
then
echo "OK - Activating and downloading latest images."
systemctl stop tpot
if [ "$(docker ps -aq)" != "" ];
then
docker stop $(docker ps -aq)
docker rm $(docker ps -aq)
fi
rm -f $myLINK
ln -s /opt/tpot/etc/compose/$myEDITION $myLINK
fuPULLIMAGES
systemctl start tpot
echo "Done. Use \"dps.sh\" for monitoring"
else
echo "Have a nice day!"
fi

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#!/bin/bash
# Let's add the first local ip to the /etc/issue and external ip to ews.ip file
# If the external IP cannot be detected, the internal IP will be inherited.
source /etc/environment
myCHECKIFSENSOR=$(head -n 1 /opt/tpot/etc/tpot.yml | grep "Sensor" | wc -l)
myUUID=$(lsblk -o MOUNTPOINT,UUID | grep -e "^/ " | awk '{ print $2 }')
myLOCALIP=$(hostname -I | awk '{ print $1 }')
myEXTIP=$(/opt/tpot/bin/myip.sh)
if [ "$myEXTIP" = "" ];
then
myEXTIP=$myLOCALIP
myEXTIP_LAT="49.865835022498125"
myEXTIP_LONG="8.62606472775735"
else
myEXTIP_LOC=$(curl -s ipinfo.io/$myEXTIP/loc)
myEXTIP_LAT=$(echo "$myEXTIP_LOC" | cut -f1 -d",")
myEXTIP_LONG=$(echo "$myEXTIP_LOC" | cut -f2 -d",")
fi
# Load Blackhole routes if enabled
myBLACKHOLE_FILE1="/etc/blackhole/mass_scanner.txt"
myBLACKHOLE_FILE2="/etc/blackhole/mass_scanner_cidr.txt"
if [ -f "$myBLACKHOLE_FILE1" ] || [ -f "$myBLACKHOLE_FILE2" ];
then
/opt/tpot/bin/blackhole.sh add
fi
myBLACKHOLE_STATUS=$(ip r | grep "blackhole" -c)
if [ "$myBLACKHOLE_STATUS" -gt "500" ];
then
myBLACKHOLE_STATUS="| BLACKHOLE: [ ENABLED ]"
else
myBLACKHOLE_STATUS="| BLACKHOLE: [ DISABLED ]"
fi
mySSHUSER=$(cat /etc/passwd | grep 1000 | cut -d ':' -f1)
# Export
export myUUID
export myLOCALIP
export myEXTIP
export myEXTIP_LAT
export myEXTIP_LONG
export myBLACKHOLE_STATUS
export mySSHUSER
# Build issue
echo "" > /etc/issue
toilet -f ivrit -F metal --filter border:metal "T-Pot 22.04" | sed 's/\\/\\\\/g' >> /etc/issue
echo >> /etc/issue
echo ",---- [ \n ] [ \d ] [ \t ]" >> /etc/issue
echo "|" >> /etc/issue
echo "| IP: $myLOCALIP ($myEXTIP)" >> /etc/issue
echo "| SSH: ssh -l tsec -p 64295 $myLOCALIP" >> /etc/issue
if [ "$myCHECKIFSENSOR" == "0" ];
then
echo "| WEB: https://$myLOCALIP:64297" >> /etc/issue
fi
echo "| ADMIN: https://$myLOCALIP:64294" >> /etc/issue
echo "$myBLACKHOLE_STATUS" >> /etc/issue
echo "|" >> /etc/issue
echo "\`----" >> /etc/issue
echo >> /etc/issue
tee /data/ews/conf/ews.ip << EOF
[MAIN]
ip = $myEXTIP
EOF
tee /opt/tpot/etc/compose/elk_environment << EOF
HONEY_UUID=$myUUID
MY_EXTIP=$myEXTIP
MY_EXTIP_LAT=$myEXTIP_LAT
MY_EXTIP_LONG=$myEXTIP_LONG
MY_INTIP=$myLOCALIP
MY_HOSTNAME=$HOSTNAME
EOF
if [ -s "/data/elk/logstash/ls_environment" ];
then
source /data/elk/logstash/ls_environment
tee -a /opt/tpot/etc/compose/elk_environment << EOF
MY_TPOT_TYPE=$MY_TPOT_TYPE
MY_SENSOR_PRIVATEKEYFILE=$MY_SENSOR_PRIVATEKEYFILE
MY_HIVE_USERNAME=$MY_HIVE_USERNAME
MY_HIVE_IP=$MY_HIVE_IP
EOF
fi
chown tpot:tpot /data/ews/conf/ews.ip
chmod 770 /data/ews/conf/ews.ip

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@ -1,10 +0,0 @@
# Ansible
*.retry
# Terraform
**/.terraform
**/terraform.*
# OpenStack clouds
**/clouds.yaml
**/secure.yaml

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@ -1,257 +0,0 @@
# T-Pot Ansible
Here you can find a ready-to-use solution for your automated T-Pot deployment using [Ansible](https://www.ansible.com/).
It consists of an Ansible Playbook with multiple roles, which is reusable for all [OpenStack](https://www.openstack.org/) based clouds (e.g. Open Telekom Cloud, Orange Cloud, Telefonica Open Cloud, OVH) out of the box.
Apart from that you can easily adapt the deploy role to use other [cloud providers](https://docs.ansible.com/ansible/latest/scenario_guides/cloud_guides.html). Check out [Ansible Galaxy](https://galaxy.ansible.com/search?keywords=&order_by=-relevance&page=1&deprecated=false&type=collection&tags=cloud) for more cloud collections.
The Playbook first creates all resources (security group, network, subnet, router), deploys one (or more) new servers and then installs and configures T-Pot on them.
This example showcases the deployment on our own OpenStack based Public Cloud Offering [Open Telekom Cloud](https://open-telekom-cloud.com/en).
# Table of contents
- [Preparation of Ansible Master](#ansible-master)
- [Ansible Installation](#ansible)
- [OpenStack Collection Installation](#collection)
- [Agent Forwarding](#agent-forwarding)
- [Preparations in Open Telekom Cloud Console](#preparation)
- [Create new project](#project)
- [Create API user](#api-user)
- [Import Key Pair](#key-pair)
- [Clone Git Repository](#clone-git)
- [Settings and recommended values](#settings)
- [clouds.yaml](#clouds-yaml)
- [Ansible remote user](#remote-user)
- [Number of instances to deploy](#number)
- [Instance settings](#instance-settings)
- [User password](#user-password)
- [Configure `tpot.conf.dist`](#tpot-conf)
- [Optional: Custom `ews.cfg`](#ews-cfg)
- [Optional: Custom HPFEEDS](#hpfeeds)
- [Deploying a T-Pot](#deploy)
- [Further documentation](#documentation)
<a name="ansible-master"></a>
# Preparation of Ansible Master
You can either run the Ansible Playbook locally on your Linux or macOS machine or you can use an ECS (Elastic Cloud Server) on Open Telekom Cloud, which I did.
I used Ubuntu 18.04 for my Ansible Master Server, but other OSes are fine too.
Ansible works over the SSH Port, so you don't have to add any special rules to your Security Group.
<a name="ansible"></a>
## Ansible Installation
:warning: Ansible 2.10 or newer is required!
Example for Ubuntu 18.04:
At first we update the system:
`sudo apt update`
`sudo apt dist-upgrade`
Then we need to add the repository and install Ansible:
`sudo apt-add-repository --yes --update ppa:ansible/ansible`
`sudo apt install ansible`
For other OSes and Distros have a look at the official [Ansible Documentation](https://docs.ansible.com/ansible/latest/installation_guide/intro_installation.html).
If your OS does not offer a recent version of Ansible (>= 2.10) you should consider [installing Ansible with pip](https://docs.ansible.com/ansible/latest/installation_guide/intro_installation.html#installing-ansible-with-pip).
In short (if you already have Python3/pip3 installed):
```
pip3 install ansible
```
<a name="collection"></a>
## OpenStack Collection Installation
For interacting with OpenStack resources in Ansible, you need to install the collection from Ansible Galaxy:
`ansible-galaxy collection install openstack.cloud`
<a name="agent-forwarding"></a>
## Agent Forwarding
If you run the Ansible Playbook remotely on your Ansible Master Server, Agent Forwarding must be enabled in order to let Ansible connect to newly created machines.
- On Linux or macOS:
- Create or edit `~/.ssh/config`
```
Host ANSIBLE_MASTER_IP
ForwardAgent yes
```
- On Windows using Putty:
![Putty Agent Forwarding](doc/putty_agent_forwarding.png)
<a name="preparation"></a>
# Preparations in Open Telekom Cloud Console
(You can skip this if you have already set up a project and an API account with key pair)
(Just make sure you know the naming for everything, as you need to configure the Ansible variables.)
Before we can start deploying, we have to prepare the Open Telekom Cloud tenant.
For that, go to the [Web Console](https://auth.otc.t-systems.com/authui/login) and log in with an admin user.
<a name="project"></a>
## Create new project
I strongly advise you to create a separate project for the T-Pots in your tenant.
In my case I named it `tpot`.
![Create new project](doc/otc_1_project.gif)
<a name="api-user"></a>
## Create API user
The next step is to create a new user account, which is restricted to the project.
This ensures that the API access is limited to that project.
![Create API user](doc/otc_2_user.gif)
<a name="key-pair"></a>
## Import Key Pair
:warning: Now log in with the newly created API user account and select your project.
![Login as API user](doc/otc_3_login.gif)
Import your SSH public key.
![Import SSH Public Key](doc/otc_4_import_key.gif)
<a name="clone-git"></a>
# Clone Git Repository
Clone the `tpotce` repository to your Ansible Master:
`git clone https://github.com/telekom-security/tpotce.git`
All Ansible related files are located in the [`cloud/ansible/openstack`](openstack) folder.
<a name="settings"></a>
# Settings and recommended values
You can configure all aspects of your Elastic Cloud Server and T-Pot before using the Playbook:
<a name="clouds-yaml"></a>
## clouds.yaml
Located at [`openstack/clouds.yaml`](openstack/clouds.yaml).
Enter your Open Telekom Cloud API user credentials here (username, password, project name, user domain name):
```
clouds:
open-telekom-cloud:
profile: otc
auth:
project_name: eu-de_your_project
username: your_api_user
password: your_password
user_domain_name: OTC-EU-DE-000000000010000XXXXX
```
You can also perform different authentication methods like sourcing OpenStack OS_* environment variables or providing an inline dictionary.
For more information have a look in the [openstack.cloud.server](https://docs.ansible.com/ansible/latest/collections/openstack/cloud/server_module.html) Ansible module documentation.
If you already have your own `clouds.yaml` file or have multiple clouds in there, you can specify which one to use in the `openstack/my_os_cloud.yaml` file:
```
# Enter the name of your cloud to use from clouds.yaml
cloud: open-telekom-cloud
```
<a name="remote-user"></a>
## Ansible remote user
You may have to adjust the `remote_user` in the Ansible Playbook under [`openstack/deploy_tpot.yaml`](openstack/deploy_tpot.yaml) depending on your Debian base image (e.g. on Open Telekom Cloud the default Debian user is `linux`).
<a name="number"></a>
## Number of instances to deploy
You can adjust the number of VMs/T-Pots that you want to create in [`openstack/deploy_tpot.yaml`](openstack/deploy_tpot.yaml):
```
loop: "{{ range(0, 1) }}"
```
One instance is set as the default, increase to your liking.
<a name="instance-settings"></a>
## Instance settings
Located at [`openstack/roles/create_vm/vars/main.yaml`](openstack/roles/create_vm/vars/main.yaml).
Here you can customize your virtual machine specifications:
- Choose an availability zone. For Open Telekom Cloud reference see [here](https://docs.otc.t-systems.com/en-us/endpoint/index.html).
- Change the OS image (For T-Pot we need Debian)
- (Optional) Change the volume size
- Specify your key pair (:warning: Mandatory)
- (Optional) Change the instance type (flavor)
`s3.medium.8` corresponds to 1 vCPU and 8GB of RAM and is the minimum required flavor.
A full list of Open Telekom Cloud flavors can be found [here](https://docs.otc.t-systems.com/en-us/usermanual/ecs/en-us_topic_0177512565.html).
```
availability_zone: eu-de-03
image: Standard_Debian_10_latest
volume_size: 128
key_name: your-KeyPair
flavor: s3.medium.8
```
<a name="user-password"></a>
## User password
Located at [`openstack/roles/install/vars/main.yaml`](openstack/roles/install/vars/main.yaml).
Here you can set the password for your Debian user (**you should definitely change that**).
```
user_password: LiNuXuSeRPaSs#
```
<a name="tpot-conf"></a>
## Configure `tpot.conf.dist`
The file is located in [`iso/installer/tpot.conf.dist`](/iso/installer/tpot.conf.dist).
Here you can choose:
- between the various T-Pot editions
- a username for the web interface
- a password for the web interface (**you should definitely change that**)
<a name="ews-cfg"></a>
## Optional: Custom `ews.cfg`
Enable this by uncommenting the role in the [deploy_tpot.yaml](openstack/deploy_tpot.yaml) playbook.
```
# - custom_ews
```
You can use a custom config file for `ewsposter`.
e.g. when you have your own credentials for delivering data to our [Sicherheitstacho](https://sicherheitstacho.eu/start/main).
You can find the `ews.cfg` template file here: [`openstack/roles/custom_ews/templates/ews.cfg`](openstack/roles/custom_ews/templates/ews.cfg) and adapt it for your needs.
For setting custom credentials, these settings would be relevant for you (the rest of the file can stay as is):
```
[MAIN]
...
contact = your_email_address
...
[EWS]
...
username = your_username
token = your_token
...
```
<a name="hpfeeds"></a>
## Optional: Custom HPFEEDS
Enable this by uncommenting the role in the [deploy_tpot.yaml](openstack/deploy_tpot.yaml) playbook.
```
# - custom_hpfeeds
```
You can specify custom HPFEEDS in [`openstack/roles/custom_hpfeeds/files/hpfeeds.cfg`](openstack/roles/custom_hpfeeds/files/hpfeeds.cfg).
That file contains the defaults (turned off) and you can adapt it for your needs, e.g. for SISSDEN:
```
myENABLE=true
myHOST=hpfeeds.sissden.eu
myPORT=10000
myCHANNEL=t-pot.events
myCERT=/opt/ewsposter/sissden.pem
myIDENT=your_user
mySECRET=your_secret
myFORMAT=json
```
<a name="deploy"></a>
# Deploying a T-Pot :honey_pot::honeybee:
Now, after configuring everything, we can finally start deploying T-Pots!
Go to the [`openstack`](openstack) folder and run the Ansible Playbook with:
`ansible-playbook deploy_tpot.yaml`
(Yes, it is as easy as that :smile:)
If you are running on a machine which asks for a sudo password, you can use:
`ansible-playbook --ask-become-pass deploy_tpot.yaml`
The Playbook will first install required packages on the Ansible Master and then deploy one (or more) new server instances.
After that, T-Pot gets installed and configured on them, optionally custom configs are applied and finally it reboots.
Once this is done, you can proceed with connecting/logging in to the T-Pot according to the [documentation](https://github.com/telekom-security/tpotce#ssh-and-web-access).
<a name="documentation"></a>
# Further documentation
- [Ansible Documentation](https://docs.ansible.com/ansible/latest/)
- [openstack.cloud.server Create/Delete Compute Instances from OpenStack](https://docs.ansible.com/ansible/latest/collections/openstack/cloud/server_module.html)
- [Open Telekom Cloud Help Center](https://docs.otc.t-systems.com/)

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[defaults]
host_key_checking = false
[ssh_connection]
scp_if_ssh = true
ssh_args = -o ServerAliveInterval=60

30
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@ -1,30 +0,0 @@
- name: Check host prerequisites
hosts: localhost
become: yes
roles:
- check
- name: Deploy instances
hosts: localhost
vars_files: my_os_cloud.yaml
tasks:
- name: Create security group and network
ansible.builtin.include_role:
name: create_net
- name: Create one or more instances
ansible.builtin.include_role:
name: create_vm
loop: "{{ range(0, 1) }}"
loop_control:
extended: yes
- name: Install T-Pot
hosts: tpot
remote_user: linux
become: yes
gather_facts: no
roles:
- install
# - custom_ews
# - custom_hpfeeds
- reboot

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# Enter the name of your cloud to use from clouds.yaml
cloud: open-telekom-cloud

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@ -1,2 +0,0 @@
collections:
- name: openstack.cloud

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@ -1,19 +0,0 @@
- name: Install dependencies
ansible.builtin.package:
name:
- gcc
- python3-dev
- python3-setuptools
- python3-pip
state: present
- name: Install openstacksdk
ansible.builtin.pip:
name: openstacksdk
executable: pip3
- name: Check if agent forwarding is enabled
ansible.builtin.fail:
msg: Please enable agent forwarding to allow Ansible to connect to the remote host!
ignore_errors: yes
failed_when: lookup('env','SSH_AUTH_SOCK') == ""

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@ -1,33 +0,0 @@
- name: Create security group
openstack.cloud.security_group:
cloud: "{{ cloud }}"
name: sg-tpot-ansible
description: Security Group for T-Pot
- name: Add rules to security group
openstack.cloud.security_group_rule:
cloud: "{{ cloud }}"
security_group: sg-tpot-ansible
remote_ip_prefix: 0.0.0.0/0
- name: Create network
openstack.cloud.network:
cloud: "{{ cloud }}"
name: network-tpot-ansible
- name: Create subnet
openstack.cloud.subnet:
cloud: "{{ cloud }}"
network_name: network-tpot-ansible
name: subnet-tpot-ansible
cidr: 192.168.0.0/24
dns_nameservers:
- 100.125.4.25
- 100.125.129.199
- name: Create router
openstack.cloud.router:
cloud: "{{ cloud }}"
name: router-tpot-ansible
interfaces:
- subnet-tpot-ansible

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@ -1,24 +0,0 @@
- name: Generate T-Pot name
ansible.builtin.set_fact:
tpot_name: "t-pot-ansible-{{ lookup('password', '/dev/null chars=ascii_lowercase,digits length=6') }}"
- name: Create instance {{ ansible_loop.index }} of {{ ansible_loop.length }}
openstack.cloud.server:
cloud: "{{ cloud }}"
name: "{{ tpot_name }}"
availability_zone: "{{ availability_zone }}"
image: "{{ image }}"
boot_from_volume: yes
volume_size: "{{ volume_size }}"
key_name: "{{ key_name }}"
auto_ip: yes
flavor: "{{ flavor }}"
security_groups: sg-tpot-ansible
network: network-tpot-ansible
register: tpot
- name: Add instance to inventory
ansible.builtin.add_host:
hostname: "{{ tpot_name }}"
ansible_host: "{{ tpot.server.public_v4 }}"
groups: tpot

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@ -1,5 +0,0 @@
availability_zone: eu-de-03
image: Standard_Debian_10_latest
volume_size: 128
key_name: your-KeyPair
flavor: s3.medium.8

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@ -1,13 +0,0 @@
- name: Copy ews configuration file
ansible.builtin.template:
src: ews.cfg
dest: /data/ews/conf
owner: root
group: root
mode: 0644
- name: Patching tpot.yml with custom ews configuration file
ansible.builtin.lineinfile:
path: /opt/tpot/etc/tpot.yml
insertafter: "/opt/ewsposter/ews.ip"
line: " - /data/ews/conf/ews.cfg:/opt/ewsposter/ews.cfg"

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[MAIN]
homedir = /opt/ewsposter/
spooldir = /opt/ewsposter/spool/
logdir = /opt/ewsposter/log/
del_malware_after_send = false
send_malware = true
sendlimit = 500
contact = your_email_address
proxy =
ip =
[EWS]
ews = true
username = your_username
token = your_token
rhost_first = https://community.sicherheitstacho.eu/ews-0.1/alert/postSimpleMessage
rhost_second = https://community.sicherheitstacho.eu/ews-0.1/alert/postSimpleMessage
ignorecert = false
[HPFEED]
hpfeed = %(EWS_HPFEEDS_ENABLE)s
host = %(EWS_HPFEEDS_HOST)s
port = %(EWS_HPFEEDS_PORT)s
channels = %(EWS_HPFEEDS_CHANNELS)s
ident = %(EWS_HPFEEDS_IDENT)s
secret= %(EWS_HPFEEDS_SECRET)s
# path/to/certificate for tls broker - or "false" for non-tls broker
tlscert = %(EWS_HPFEEDS_TLSCERT)s
# hpfeeds submission format: "ews" (xml) or "json"
hpfformat = %(EWS_HPFEEDS_FORMAT)s
[EWSJSON]
json = false
jsondir = /data/ews/json/
[GLASTOPFV3]
glastopfv3 = true
nodeid = glastopfv3-{{ ansible_hostname }}
sqlitedb = /data/glastopf/db/glastopf.db
malwaredir = /data/glastopf/data/files/
[GLASTOPFV2]
glastopfv2 = false
nodeid =
mysqlhost =
mysqldb =
mysqluser =
mysqlpw =
malwaredir =
[KIPPO]
kippo = false
nodeid =
mysqlhost =
mysqldb =
mysqluser =
mysqlpw =
malwaredir =
[COWRIE]
cowrie = true
nodeid = cowrie-{{ ansible_hostname }}
logfile = /data/cowrie/log/cowrie.json
[DIONAEA]
dionaea = true
nodeid = dionaea-{{ ansible_hostname }}
malwaredir = /data/dionaea/binaries/
sqlitedb = /data/dionaea/log/dionaea.sqlite
[HONEYTRAP]
honeytrap = true
nodeid = honeytrap-{{ ansible_hostname }}
newversion = true
payloaddir = /data/honeytrap/attacks/
attackerfile = /data/honeytrap/log/attacker.log
[RDPDETECT]
rdpdetect = false
nodeid =
iptableslog =
targetip =
[EMOBILITY]
eMobility = false
nodeid = emobility-{{ ansible_hostname }}
logfile = /data/emobility/log/centralsystemEWS.log
[CONPOT]
conpot = true
nodeid = conpot-{{ ansible_hostname }}
logfile = /data/conpot/log/conpot*.json
[ELASTICPOT]
elasticpot = true
nodeid = elasticpot-{{ ansible_hostname }}
logfile = /data/elasticpot/log/elasticpot.log
[SURICATA]
suricata = true
nodeid = suricata-{{ ansible_hostname }}
logfile = /data/suricata/log/eve.json
[MAILONEY]
mailoney = true
nodeid = mailoney-{{ ansible_hostname }}
logfile = /data/mailoney/log/commands.log
[RDPY]
rdpy = true
nodeid = rdpy-{{ ansible_hostname }}
logfile = /data/rdpy/log/rdpy.log
[VNCLOWPOT]
vnclowpot = true
nodeid = vnclowpot-{{ ansible_hostname }}
logfile = /data/vnclowpot/log/vnclowpot.log
[HERALDING]
heralding = true
nodeid = heralding-{{ ansible_hostname }}
logfile = /data/heralding/log/auth.csv
[CISCOASA]
ciscoasa = true
nodeid = ciscoasa-{{ ansible_hostname }}
logfile = /data/ciscoasa/log/ciscoasa.log
[TANNER]
tanner = true
nodeid = tanner-{{ ansible_hostname }}
logfile = /data/tanner/log/tanner_report.json
[GLUTTON]
glutton = true
nodeid = glutton-{{ ansible_hostname }}
logfile = /data/glutton/log/glutton.log

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@ -1,8 +0,0 @@
myENABLE=false
myHOST=host
myPORT=port
myCHANNEL=channels
myCERT=false
myIDENT=user
mySECRET=secret
myFORMAT=json

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- name: Copy hpfeeds configuration file
ansible.builtin.copy:
src: hpfeeds.cfg
dest: /data/ews/conf
owner: tpot
group: tpot
mode: 0770
register: config
- name: Applying hpfeeds settings
ansible.builtin.command: /opt/tpot/bin/hpfeeds_optin.sh --conf=/data/ews/conf/hpfeeds.cfg
when: config.changed == true

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@ -1,48 +0,0 @@
- name: Waiting for SSH connection
ansible.builtin.wait_for_connection:
- name: Gathering facts
ansible.builtin.setup:
- name: Cloning T-Pot install directory
ansible.builtin.git:
repo: "https://github.com/telekom-security/tpotce.git"
dest: /root/tpot
- name: Prepare to set user password
ansible.builtin.set_fact:
user_name: "{{ ansible_user }}"
user_salt: "s0mew1ck3dTpoT"
no_log: true
- name: Changing password for user {{ user_name }}
ansible.builtin.user:
name: "{{ ansible_user }}"
password: "{{ user_password | password_hash('sha512', user_salt) }}"
state: present
shell: /bin/bash
- name: Copy T-Pot configuration file
ansible.builtin.copy:
src: ../../../../../../iso/installer/tpot.conf.dist
dest: /root/tpot.conf
owner: root
group: root
mode: 0644
- name: Install T-Pot on instance - be patient, this might take 15 to 30 minutes depending on the connection speed.
ansible.builtin.command: /root/tpot/iso/installer/install.sh --type=auto --conf=/root/tpot.conf
- name: Delete T-Pot configuration file
ansible.builtin.file:
path: /root/tpot.conf
state: absent
- name: Change unattended-upgrades to take default action
ansible.builtin.blockinfile:
dest: /etc/apt/apt.conf.d/50unattended-upgrades
block: |
Dpkg::Options {
"--force-confdef";
"--force-confold";
}

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user_password: LiNuXuSeRPaSs#

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@ -1,16 +0,0 @@
- name: Finally rebooting T-Pot
ansible.builtin.command: shutdown -r now
async: 1
poll: 0
- name: Next login options
ansible.builtin.debug:
msg:
- "***** SSH Access:"
- "***** ssh {{ ansible_user }}@{{ ansible_host }} -p 64295"
- ""
- "***** Web UI:"
- "***** https://{{ ansible_host }}:64297"
- ""
- "***** Admin UI:"
- "***** https://{{ ansible_host }}:64294"

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@ -1,129 +0,0 @@
# T-Pot Terraform
This [Terraform](https://www.terraform.io/) configuration can be used to launch a virtual machine, bootstrap any dependencies and install T-Pot in a single step.
Configuration for Amazon Web Services (AWS) and Open Telekom Cloud (OTC) is currently included.
This can easily be extended to support other [Terraform providers](https://registry.terraform.io/browse/providers?category=public-cloud%2Ccloud-automation%2Cinfrastructure).
[Cloud-init](https://cloudinit.readthedocs.io/en/latest/) is used to bootstrap the instance and install T-Pot on startup.
# Table of Contents
- [What get's created](#what-created)
- [Amazon Web Services (AWS)](#what-created-aws)
- [Open Telekom Cloud (OTC)](#what-created-otc)
- [Prerequisites](#pre)
- [Amazon Web Services (AWS)](#pre-aws)
- [Open Telekom Cloud (OTC)](#pre-otc)
- [Terraform Variables](#variables)
- [Common configuration items](#variables-common)
- [Amazon Web Services (AWS)](#variables-aws)
- [Open Telekom Cloud (OTC)](#variables-otc)
- [Initialising](#initialising)
- [Applying the Configuration](#applying)
- [Connecting to the Instance](#connecting)
<a name="what-created"></a>
## What get's created
<a name="what-created-aws"></a>
### Amazon Web Services (AWS)
* EC2 instance:
* t3.large (2 vCPUs, 8 GB RAM)
* 128 GB disk
* Debian 10
* Public IP
* Security Group:
* TCP/UDP ports <= 64000 open to the Internet
* TCP ports 64294, 64295 and 64297 open to a chosen administrative IP
<a name="what-created-otc"></a>
### Open Telekom Cloud (OTC)
* ECS instance:
* s3.medium.8 (1 vCPU, 8 GB RAM)
* 128 GB disk
* Debian 10
* Public EIP
* Security Group
* All TCP/UDP ports are open to the Internet
* Virtual Private Cloud (VPC) and Subnet
<a name="pre"></a>
## Prerequisites
* [Terraform](https://www.terraform.io/) 0.13
<a name="pre-aws"></a>
### Amazon Web Services (AWS)
* AWS Account
* Existing VPC: VPC ID needs to be specified in `aws/variables.tf`
* Existing subnet: Subnet ID needs to be specified in `aws/variables.tf`
* Existing SSH key pair: Key name needs to be specified in `aws/variables.tf`
* AWS Authentication credentials should be [set using environment variables](https://www.terraform.io/docs/providers/aws/index.html#environment-variables)
<a name="pre-otc"></a>
### Open Telekom Cloud (OTC)
* OTC Account
* Existing SSH key pair: Key name needs to be specified in `otc/variables.tf`
* OTC Authentication credentials (Username, Password, Project Name, User Domain Name) can be set in the `otc/clouds.yaml` file
<a name="variables"></a>
## Terraform Variables
<a name="variables-common"></a>
### Common configuration items
These variables exist in `aws/variables.tf` and `otc/variables.tf` respectively.
Settings for cloud-init:
* `timezone` - Set the Server's timezone
* `linux_password`- Set a password for the Linux Operating System user (which is also used on the Admin UI)
Settings for T-Pot:
* `tpot_flavor` - Set the flavor of the T-Pot (Available flavors are listed in the variable's description)
* `web_user` - Set a username for the T-Pot Kibana Dasboard
* `web_password` - Set a password for the T-Pot Kibana Dashboard
<a name="variables-aws"></a>
### Amazon Web Services (AWS)
In `aws/variables.tf`, you can change the additional variables:
* `admin_ip` - source IP address(es) that you will use to administer the system. Connections to TCP ports 64294, 64295 and 64297 will be allowed from this IP only. Multiple IPs or CIDR blocks can be specified in the format: `["127.0.0.1/32", "192.168.0.0/24"]`
* `ec2_vpc_id` - Specify an existing VPC ID
* `ec2_subnet_id` - Specify an existing Subnet ID
* `ec2_region`
* `ec2_ssh_key_name` - Specify an existing SSH key pair
* `ec2_instance_type`
<a name="variables-otc"></a>
### Open Telekom Cloud (OTC)
In `otc/variables.tf`, you can change the additional variables:
* `ecs_flavor`
* `ecs_disk_size`
* `availability_zone`
* `key_pair` - Specify an existing SSH key pair
* `eip_size`
... and some more, but these are the most relevant.
<a name="initialising"></a>
## Initialising
The [`terraform init`](https://www.terraform.io/docs/commands/init.html) command is used to initialize a working directory containing Terraform configuration files.
```
$ cd aws
$ terraform init
```
OR
```
$ cd otc
$ terraform init
```
<a name="applying"></a>
## Applying the Configuration
The [`terraform apply`](https://www.terraform.io/docs/commands/apply.html) command is used to apply the changes required to reach the desired state of the configuration, or the pre-determined set of actions generated by a [`terraform plan`](https://www.terraform.io/docs/commands/plan.html) execution plan.
```
$ terraform apply
```
This will create your infrastructure and start a Cloud Server. On startup, the Server gets bootstrapped with cloud-init and will install T-Pot. Once this is done, the server will reboot.
If you want the remove the built infrastructure, you can run [`terraform destroy`](https://www.terraform.io/docs/commands/destroy.html) to delete it.
<a name="connecting"></a>
## Connecting to the Instance
When the installation is completed, you can proceed with connecting/logging in to the T-Pot according to the [documentation](https://github.com/telekom-security/tpotce#ssh-and-web-access).

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@ -1,20 +0,0 @@
# This file is maintained automatically by "terraform init".
# Manual edits may be lost in future updates.
provider "registry.terraform.io/hashicorp/aws" {
version = "3.26.0"
constraints = "3.26.0"
hashes = [
"h1:0i78FItlPeiomd+4ThZrtm56P5K33k7/6dnEe4ZePI0=",
"zh:26043eed36d070ca032cf04bc980c654a25821a8abc0c85e1e570e3935bbfcbb",
"zh:2fe68f3f78d23830a04d7fac3eda550eef1f627dfc130486f70a65dc5c254300",
"zh:3d66484c608c64678e639db25d63872783ce60363a1246e30317f21c9c23b84b",
"zh:46ffd755cfd4cf94fe66342797b5afdcef010a24e126c67fee141b357d393535",
"zh:5e96f24357e945c9067cf5e032ad1d003609629c956c2f9f642fefe714e74587",
"zh:60c27aca36bb63bf3e865c2193be80ca83b376581d00f9c220af4b013e163c4d",
"zh:896f0f22d19d41e71b22f9240b261714c3915b165ddefeb771e7734d69dc47ea",
"zh:90de9966cb2fd3e2f326df291595e55d2dd2d90e7d6dd085c2c8691dce82bdb4",
"zh:ad05a91a88ceb1d6de5a568f7cc0b0e5bc0a79f3da70bc28c1e7f3750e362d58",
"zh:e8c63f59c6465329e1f3357498face3dd7ef10a033df3c366a33aa9e94b46c01",
]
}

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@ -1,66 +0,0 @@
provider "aws" {
region = var.ec2_region
}
resource "aws_security_group" "tpot" {
name = "T-Pot"
description = "T-Pot Honeypot"
vpc_id = var.ec2_vpc_id
ingress {
from_port = 0
to_port = 64000
protocol = "tcp"
cidr_blocks = ["0.0.0.0/0"]
}
ingress {
from_port = 0
to_port = 64000
protocol = "udp"
cidr_blocks = ["0.0.0.0/0"]
}
ingress {
from_port = 64294
to_port = 64294
protocol = "tcp"
cidr_blocks = var.admin_ip
}
ingress {
from_port = 64295
to_port = 64295
protocol = "tcp"
cidr_blocks = var.admin_ip
}
ingress {
from_port = 64297
to_port = 64297
protocol = "tcp"
cidr_blocks = var.admin_ip
}
egress {
from_port = 0
to_port = 0
protocol = "-1"
cidr_blocks = ["0.0.0.0/0"]
}
tags = {
Name = "T-Pot"
}
}
resource "aws_instance" "tpot" {
ami = var.ec2_ami[var.ec2_region]
instance_type = var.ec2_instance_type
key_name = var.ec2_ssh_key_name
subnet_id = var.ec2_subnet_id
tags = {
Name = "T-Pot Honeypot"
}
root_block_device {
volume_type = "gp2"
volume_size = 128
delete_on_termination = true
}
user_data = templatefile("../cloud-init.yaml", { timezone = var.timezone, password = var.linux_password, tpot_flavor = var.tpot_flavor, web_user = var.web_user, web_password = var.web_password })
vpc_security_group_ids = [aws_security_group.tpot.id]
associate_public_ip_address = true
}

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@ -1,12 +0,0 @@
output "Admin_UI" {
value = "https://${aws_instance.tpot.public_dns}:64294/"
}
output "SSH_Access" {
value = "ssh -i {private_key_file} -p 64295 admin@${aws_instance.tpot.public_dns}"
}
output "Web_UI" {
value = "https://${aws_instance.tpot.public_dns}:64297/"
}

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@ -1,93 +0,0 @@
variable "admin_ip" {
default = ["127.0.0.1/32"]
description = "admin IP addresses in CIDR format"
}
variable "ec2_vpc_id" {
description = "ID of AWS VPC"
default = "vpc-XXX"
}
variable "ec2_subnet_id" {
description = "ID of AWS VPC subnet"
default = "subnet-YYY"
}
variable "ec2_region" {
description = "AWS region to launch servers"
default = "eu-west-1"
}
variable "ec2_ssh_key_name" {
default = "default"
}
# https://aws.amazon.com/ec2/instance-types/
# t3.large = 2 vCPU, 8 GiB RAM
variable "ec2_instance_type" {
default = "t3.large"
}
# Refer to https://wiki.debian.org/Cloud/AmazonEC2Image/Bullseye
variable "ec2_ami" {
type = map(string)
default = {
"af-south-1" = "ami-0c372f041acae6d49"
"ap-east-1" = "ami-079b8d011d4655385"
"ap-northeast-1" = "ami-08dbbf1c0485a4aa8"
"ap-northeast-2" = "ami-0269fe7d013b8e2dd"
"ap-northeast-3" = "ami-0848d1e5fb6e3e3da"
"ap-south-1" = "ami-020d429f17c9f1d0a"
"ap-southeast-1" = "ami-09625a221230d9fe6"
"ap-southeast-2" = "ami-03cbc6cddb06af2c2"
"ca-central-1" = "ami-09125623b02302014"
"eu-central-1" = "ami-00c36c60f07e21791"
"eu-north-1" = "ami-052bea934e2d9dbfe"
"eu-south-1" = "ami-04e2bb16d37324719"
"eu-west-1" = "ami-0f87948fe2cf1b2a4"
"eu-west-2" = "ami-02ed1bc837487d535"
"eu-west-3" = "ami-080efd2add7e29430"
"me-south-1" = "ami-0dbde382c834c4a72"
"sa-east-1" = "ami-0a0792814cb068077"
"us-east-1" = "ami-05dd1b6e7ef6f8378"
"us-east-2" = "ami-04dd0542609808c50"
"us-west-1" = "ami-07af5f877b3db9f73"
"us-west-2" = "ami-0d0d8694ba492c02b"
}
}
## cloud-init configuration ##
variable "timezone" {
default = "UTC"
}
variable "linux_password" {
#default = "LiNuXuSeRPaSs#"
description = "Set a password for the default user"
validation {
condition = length(var.linux_password) > 0
error_message = "Please specify a password for the default user."
}
}
## These will go in the generated tpot.conf file ##
variable "tpot_flavor" {
default = "STANDARD"
description = "Specify your tpot flavor [STANDARD, HIVE, HIVE_SENSOR, INDUSTRIAL, LOG4J, MEDICAL, MINI, SENSOR]"
}
variable "web_user" {
default = "webuser"
description = "Set a username for the web user"
}
variable "web_password" {
#default = "w3b$ecret"
description = "Set a password for the web user"
validation {
condition = length(var.web_password) > 0
error_message = "Please specify a password for the web user."
}
}

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terraform {
required_version = ">= 0.13"
required_providers {
aws = {
source = "hashicorp/aws"
version = "3.26.0"
}
}
}

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provider "aws" {
alias = "eu-west-2"
region = "eu-west-2"
}
provider "aws" {
alias = "us-west-1"
region = "us-west-1"
}

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module "eu-west-2" {
source = "./modules/multi-region"
ec2_vpc_id = "vpc-xxxxxxxx"
ec2_subnet_id = "subnet-xxxxxxxx"
ec2_region = "eu-west-2"
tpot_name = "T-Pot Honeypot"
linux_password = var.linux_password
web_password = var.web_password
providers = {
aws = aws.eu-west-2
}
}
module "us-west-1" {
source = "./modules/multi-region"
ec2_vpc_id = "vpc-xxxxxxxx"
ec2_subnet_id = "subnet-xxxxxxxx"
ec2_region = "us-west-1"
tpot_name = "T-Pot Honeypot"
linux_password = var.linux_password
web_password = var.web_password
providers = {
aws = aws.us-west-1
}
}

69
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@ -1,69 +0,0 @@
variable "ec2_vpc_id" {}
variable "ec2_subnet_id" {}
variable "ec2_region" {}
variable "linux_password" {}
variable "web_password" {}
variable "tpot_name" {}
resource "aws_security_group" "tpot" {
name = "T-Pot"
description = "T-Pot Honeypot"
vpc_id = var.ec2_vpc_id
ingress {
from_port = 0
to_port = 64000
protocol = "tcp"
cidr_blocks = ["0.0.0.0/0"]
}
ingress {
from_port = 0
to_port = 64000
protocol = "udp"
cidr_blocks = ["0.0.0.0/0"]
}
ingress {
from_port = 64294
to_port = 64294
protocol = "tcp"
cidr_blocks = var.admin_ip
}
ingress {
from_port = 64295
to_port = 64295
protocol = "tcp"
cidr_blocks = var.admin_ip
}
ingress {
from_port = 64297
to_port = 64297
protocol = "tcp"
cidr_blocks = var.admin_ip
}
egress {
from_port = 0
to_port = 0
protocol = "-1"
cidr_blocks = ["0.0.0.0/0"]
}
tags = {
Name = "T-Pot"
}
}
resource "aws_instance" "tpot" {
ami = var.ec2_ami[var.ec2_region]
instance_type = var.ec2_instance_type
key_name = var.ec2_ssh_key_name
subnet_id = var.ec2_subnet_id
tags = {
Name = var.tpot_name
}
root_block_device {
volume_type = "gp2"
volume_size = 128
delete_on_termination = true
}
user_data = templatefile("../cloud-init.yaml", { timezone = var.timezone, password = var.linux_password, tpot_flavor = var.tpot_flavor, web_user = var.web_user, web_password = var.web_password })
vpc_security_group_ids = [aws_security_group.tpot.id]
associate_public_ip_address = true
}

12
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@ -1,12 +0,0 @@
output "Admin_UI" {
value = "https://${aws_instance.tpot.public_dns}:64294/"
}
output "SSH_Access" {
value = "ssh -i {private_key_file} -p 64295 admin@${aws_instance.tpot.public_dns}"
}
output "Web_UI" {
value = "https://${aws_instance.tpot.public_dns}:64297/"
}

57
_deprecated/cloud/terraform/aws_multi_region/modules/multi-region/variables.tf
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variable "admin_ip" {
default = ["127.0.0.1/32"]
description = "admin IP addresses in CIDR format"
}
variable "ec2_ssh_key_name" {
default = "default"
}
# https://aws.amazon.com/ec2/instance-types/
variable "ec2_instance_type" {
default = "t3.xlarge"
}
# Refer to https://wiki.debian.org/Cloud/AmazonEC2Image/Bullseye
variable "ec2_ami" {
type = map(string)
default = {
"af-south-1" = "ami-0c372f041acae6d49"
"ap-east-1" = "ami-079b8d011d4655385"
"ap-northeast-1" = "ami-08dbbf1c0485a4aa8"
"ap-northeast-2" = "ami-0269fe7d013b8e2dd"
"ap-northeast-3" = "ami-0848d1e5fb6e3e3da"
"ap-south-1" = "ami-020d429f17c9f1d0a"
"ap-southeast-1" = "ami-09625a221230d9fe6"
"ap-southeast-2" = "ami-03cbc6cddb06af2c2"
"ca-central-1" = "ami-09125623b02302014"
"eu-central-1" = "ami-00c36c60f07e21791"
"eu-north-1" = "ami-052bea934e2d9dbfe"
"eu-south-1" = "ami-04e2bb16d37324719"
"eu-west-1" = "ami-0f87948fe2cf1b2a4"
"eu-west-2" = "ami-02ed1bc837487d535"
"eu-west-3" = "ami-080efd2add7e29430"
"me-south-1" = "ami-0dbde382c834c4a72"
"sa-east-1" = "ami-0a0792814cb068077"
"us-east-1" = "ami-05dd1b6e7ef6f8378"
"us-east-2" = "ami-04dd0542609808c50"
"us-west-1" = "ami-07af5f877b3db9f73"
"us-west-2" = "ami-0d0d8694ba492c02b"
}
}
## cloud-init configuration ##
variable "timezone" {
default = "UTC"
}
## These will go in the generated tpot.conf file ##
variable "tpot_flavor" {
default = "STANDARD"
description = "Specify your tpot flavor [STANDARD, HIVE, HIVE_SENSOR, INDUSTRIAL, LOG4J, MEDICAL, MINI, SENSOR]"
}
variable "web_user" {
default = "webuser"
description = "Set a username for the web user"
}

9
_deprecated/cloud/terraform/aws_multi_region/modules/multi-region/versions.tf
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@ -1,9 +0,0 @@
terraform {
required_version = ">= 0.13"
required_providers {
aws = {
source = "hashicorp/aws"
version = "3.72.0"
}
}
}

7
_deprecated/cloud/terraform/aws_multi_region/outputs.tf
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@ -1,7 +0,0 @@
output "eu-west-2_Web_UI" {
value = module.eu-west-2.Web_UI
}
output "us-west-1_Web_UI" {
value = module.us-west-1.Web_UI
}

19
_deprecated/cloud/terraform/aws_multi_region/variables.tf
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@ -1,19 +0,0 @@
variable "linux_password" {
#default = "LiNuXuSeRP4Ss!"
description = "Set a password for the default user"
validation {
condition = length(var.linux_password) > 0
error_message = "Please specify a password for the default user."
}
}
variable "web_password" {
#default = "w3b$ecret20"
description = "Set a password for the web user"
validation {
condition = length(var.web_password) > 0
error_message = "Please specify a password for the web user."
}
}

26
_deprecated/cloud/terraform/cloud-init.yaml
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@ -1,26 +0,0 @@
#cloud-config
timezone: ${timezone}
packages:
- git
runcmd:
- curl -sS --retry 5 https://github.com
- git clone https://github.com/telekom-security/tpotce /root/tpot
- /root/tpot/iso/installer/install.sh --type=auto --conf=/root/tpot.conf
- rm /root/tpot.conf
- /sbin/shutdown -r now
password: ${password}
chpasswd:
expire: false
write_files:
- content: |
# tpot configuration file
myCONF_TPOT_FLAVOR='${tpot_flavor}'
myCONF_WEB_USER='${web_user}'
myCONF_WEB_PW='${web_password}'
owner: root:root
path: /root/tpot.conf
permissions: '0600'

38
_deprecated/cloud/terraform/otc/.terraform.lock.hcl generated
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@ -1,38 +0,0 @@
# This file is maintained automatically by "terraform init".
# Manual edits may be lost in future updates.
provider "registry.terraform.io/hashicorp/random" {
version = "3.1.0"
constraints = "~> 3.1.0"
hashes = [
"h1:BZMEPucF+pbu9gsPk0G0BHx7YP04+tKdq2MrRDF1EDM=",
"zh:2bbb3339f0643b5daa07480ef4397bd23a79963cc364cdfbb4e86354cb7725bc",
"zh:3cd456047805bf639fbf2c761b1848880ea703a054f76db51852008b11008626",
"zh:4f251b0eda5bb5e3dc26ea4400dba200018213654b69b4a5f96abee815b4f5ff",
"zh:7011332745ea061e517fe1319bd6c75054a314155cb2c1199a5b01fe1889a7e2",
"zh:738ed82858317ccc246691c8b85995bc125ac3b4143043219bd0437adc56c992",
"zh:7dbe52fac7bb21227acd7529b487511c91f4107db9cc4414f50d04ffc3cab427",
"zh:a3a9251fb15f93e4cfc1789800fc2d7414bbc18944ad4c5c98f466e6477c42bc",
"zh:a543ec1a3a8c20635cf374110bd2f87c07374cf2c50617eee2c669b3ceeeaa9f",
"zh:d9ab41d556a48bd7059f0810cf020500635bfc696c9fc3adab5ea8915c1d886b",
"zh:d9e13427a7d011dbd654e591b0337e6074eef8c3b9bb11b2e39eaaf257044fd7",
"zh:f7605bd1437752114baf601bdf6931debe6dc6bfe3006eb7e9bb9080931dca8a",
]
}
provider "registry.terraform.io/opentelekomcloud/opentelekomcloud" {
version = "1.23.6"
constraints = "~> 1.23.4"
hashes = [
"h1:B/1Md957jWaDgFqsJDzmJc75KwL0eC/PCVuZ8HV5xSc=",
"zh:1aa79010869d082157fb44fc83c3bff4e40938ec0ca916f704d974c7f7ca39e4",
"zh:3155b8366828ce50231f69962b55df1e2261ed63c44bb64e2c950dd68769df1b",
"zh:4a909617aa96a6d8aead14f56996ad94e0a1cae9d28e8df1ddae19c2095ed337",
"zh:4f71046719632b4b90f88d29d8ba88915ee6ad66cd9d7ebe84a7459013e5003a",
"zh:67e4d10b2db79ad78ae2ec8d9dfac53c4721028f97f4436a7aa45e80b1beefd3",
"zh:7f12541fc5a3513e5522ff2bd5fee17d1e67bfe64f9ef59d03863fc7389e12ce",
"zh:86fadabfc8307cf6084a412ffc9c797ec94932d08bc663a3fcebf98101e951f6",
"zh:98744b39c2bfe3e8e6f929f750a689971071b257f3f066f669f93c8e0b76d179",
"zh:c363d41debb060804e2c6bd9cb50b4e8daa37362299e3ea74e187265cd85f2ca",
]
}

68
_deprecated/cloud/terraform/otc/main.tf
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@ -1,68 +0,0 @@
data "opentelekomcloud_images_image_v2" "debian" {
name = "Standard_Debian_10_latest"
}
resource "opentelekomcloud_networking_secgroup_v2" "secgroup_1" {
name = var.secgroup_name
description = var.secgroup_desc
}
resource "opentelekomcloud_networking_secgroup_rule_v2" "secgroup_rule_1" {
direction = "ingress"
ethertype = "IPv4"
remote_ip_prefix = "0.0.0.0/0"
security_group_id = opentelekomcloud_networking_secgroup_v2.secgroup_1.id
}
resource "opentelekomcloud_vpc_v1" "vpc_1" {
name = var.vpc_name
cidr = var.vpc_cidr
}
resource "opentelekomcloud_vpc_subnet_v1" "subnet_1" {
name = var.subnet_name
cidr = var.subnet_cidr
vpc_id = opentelekomcloud_vpc_v1.vpc_1.id
gateway_ip = var.subnet_gateway_ip
dns_list = ["100.125.4.25", "100.125.129.199"]
}
resource "random_id" "tpot" {
byte_length = 6
prefix = var.ecs_prefix
}
resource "opentelekomcloud_ecs_instance_v1" "ecs_1" {
name = random_id.tpot.b64_url
image_id = data.opentelekomcloud_images_image_v2.debian.id
flavor = var.ecs_flavor
vpc_id = opentelekomcloud_vpc_v1.vpc_1.id
nics {
network_id = opentelekomcloud_vpc_subnet_v1.subnet_1.id
}
system_disk_size = var.ecs_disk_size
system_disk_type = "SAS"
security_groups = [opentelekomcloud_networking_secgroup_v2.secgroup_1.id]
availability_zone = var.availability_zone
key_name = var.key_pair
user_data = templatefile("../cloud-init.yaml", { timezone = var.timezone, password = var.linux_password, tpot_flavor = var.tpot_flavor, web_user = var.web_user, web_password = var.web_password })
}
resource "opentelekomcloud_vpc_eip_v1" "eip_1" {
publicip {
type = "5_bgp"
}
bandwidth {
name = "bandwidth-${random_id.tpot.b64_url}"
size = var.eip_size
share_type = "PER"
}
}
resource "opentelekomcloud_compute_floatingip_associate_v2" "fip_1" {
floating_ip = opentelekomcloud_vpc_eip_v1.eip_1.publicip.0.ip_address
instance_id = opentelekomcloud_ecs_instance_v1.ecs_1.id
}

11
_deprecated/cloud/terraform/otc/outputs.tf
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output "Admin_UI" {
value = "https://${opentelekomcloud_vpc_eip_v1.eip_1.publicip.0.ip_address}:64294"
}
output "SSH_Access" {
value = "ssh -p 64295 linux@${opentelekomcloud_vpc_eip_v1.eip_1.publicip.0.ip_address}"
}
output "Web_UI" {
value = "https://${opentelekomcloud_vpc_eip_v1.eip_1.publicip.0.ip_address}:64297"
}

3
_deprecated/cloud/terraform/otc/provider.tf
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provider "opentelekomcloud" {
cloud = "open-telekom-cloud"
}

98
_deprecated/cloud/terraform/otc/variables.tf
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@ -1,98 +0,0 @@
## cloud-init configuration ##
variable "timezone" {
default = "UTC"
}
variable "linux_password" {
#default = "LiNuXuSeRPaSs#"
description = "Set a password for the default user"
validation {
condition = length(var.linux_password) > 0
error_message = "Please specify a password for the default user."
}
}
## Security Group ##
variable "secgroup_name" {
default = "sg-tpot"
}
variable "secgroup_desc" {
default = "Security Group for T-Pot"
}
## Virtual Private Cloud ##
variable "vpc_name" {
default = "vpc-tpot"
}
variable "vpc_cidr" {
default = "192.168.0.0/16"
}
## Subnet ##
variable "subnet_name" {
default = "subnet-tpot"
}
variable "subnet_cidr" {
default = "192.168.0.0/24"
}
variable "subnet_gateway_ip" {
default = "192.168.0.1"
}
## Elastic Cloud Server ##
variable "ecs_prefix" {
default = "tpot-"
}
variable "ecs_flavor" {
default = "s3.medium.8"
}
variable "ecs_disk_size" {
default = "128"
}
variable "availability_zone" {
default = "eu-de-03"
}
variable "key_pair" {
#default = ""
description = "Specify your SSH key pair"
validation {
condition = length(var.key_pair) > 0
error_message = "Please specify a Key Pair."
}
}
## Elastic IP ##
variable "eip_size" {
default = "100"
}
## These will go in the generated tpot.conf file ##
variable "tpot_flavor" {
default = "STANDARD"
description = "Specify your tpot flavor [STANDARD, HIVE, HIVE_SENSOR, INDUSTRIAL, LOG4J, MEDICAL, MINI, SENSOR]"
}
variable "web_user" {
default = "webuser"
description = "Set a username for the web user"
}
variable "web_password" {
#default = "w3b$ecret"
description = "Set a password for the web user"
validation {
condition = length(var.web_password) > 0
error_message = "Please specify a password for the web user."
}
}

13
_deprecated/cloud/terraform/otc/versions.tf
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terraform {
required_version = ">= 0.13"
required_providers {
opentelekomcloud = {
source = "opentelekomcloud/opentelekomcloud"
version = "~> 1.23.4"
}
random = {
source = "hashicorp/random"
version = "~> 3.1.0"
}
}
}

260
_deprecated/etc/compose/collector.yml
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# T-Pot (Collector)
# Do not erase ports sections, these are used by /opt/tpot/bin/rules.sh to setup iptables ACCEPT rules for NFQ (honeytrap / glutton)
version: '2.3'
networks:
heralding_local:
ewsposter_local:
spiderfoot_local:
services:
##################
#### Honeypots
##################
# Heralding service
heralding:
container_name: heralding
restart: always
tmpfs:
- /tmp/heralding:uid=2000,gid=2000
networks:
- heralding_local
ports:
- "21:21"
- "22:22"
- "23:23"
- "25:25"
- "80:80"
- "110:110"
- "143:143"
- "443:443"
- "465:465"
- "993:993"
- "995:995"
- "1080:1080"
- "3306:3306"
- "3389:3389"
- "5432:5432"
- "5900:5900"
image: "dtagdevsec/heralding:2204"
read_only: true
volumes:
- /data/heralding/log:/var/log/heralding
# Honeytrap service
honeytrap:
container_name: honeytrap
restart: always
tmpfs:
- /tmp/honeytrap:uid=2000,gid=2000
network_mode: "host"
cap_add:
- NET_ADMIN
image: "dtagdevsec/honeytrap:2204"
read_only: true
volumes:
- /data/honeytrap/attacks:/opt/honeytrap/var/attacks
- /data/honeytrap/downloads:/opt/honeytrap/var/downloads
- /data/honeytrap/log:/opt/honeytrap/var/log
##################
#### NSM
##################
# Fatt service
fatt:
container_name: fatt
restart: always
network_mode: "host"
cap_add:
- NET_ADMIN
- SYS_NICE
- NET_RAW
image: "dtagdevsec/fatt:2204"
volumes:
- /data/fatt/log:/opt/fatt/log
# P0f service
p0f:
container_name: p0f
restart: always
network_mode: "host"
image: "dtagdevsec/p0f:2204"
read_only: true
volumes:
- /data/p0f/log:/var/log/p0f
# Suricata service
suricata:
container_name: suricata
restart: always
environment:
# For ET Pro ruleset replace "OPEN" with your OINKCODE
- OINKCODE=OPEN
# Loading externel Rules from URL
# - FROMURL="https://username:password@yoururl.com|https://username:password@otherurl.com"
network_mode: "host"
cap_add:
- NET_ADMIN
- SYS_NICE
- NET_RAW
image: "dtagdevsec/suricata:2204"
volumes:
- /data/suricata/log:/var/log/suricata
##################
#### Tools
##################
#### ELK
## Elasticsearch service
elasticsearch:
container_name: elasticsearch
restart: always
environment:
- bootstrap.memory_lock=true
- ES_JAVA_OPTS=-Xms2048m -Xmx2048m
- ES_TMPDIR=/tmp
cap_add:
- IPC_LOCK
ulimits:
memlock:
soft: -1
hard: -1
nofile:
soft: 65536
hard: 65536
mem_limit: 4g
ports:
- "127.0.0.1:64298:9200"
image: "dtagdevsec/elasticsearch:2204"
volumes:
- /data:/data
## Kibana service
kibana:
container_name: kibana
restart: always
depends_on:
elasticsearch:
condition: service_healthy
mem_limit: 1g
ports:
- "127.0.0.1:64296:5601"
image: "dtagdevsec/kibana:2204"
## Logstash service
logstash:
container_name: logstash
restart: always
environment:
- LS_JAVA_OPTS=-Xms1024m -Xmx1024m
depends_on:
elasticsearch:
condition: service_healthy
env_file:
- /opt/tpot/etc/compose/elk_environment
mem_limit: 2g
image: "dtagdevsec/logstash:2204"
volumes:
- /data:/data
## Map Redis Service
map_redis:
container_name: map_redis
restart: always
stop_signal: SIGKILL
tty: true
image: "dtagdevsec/redis:2204"
read_only: true
## Map Web Service
map_web:
container_name: map_web
restart: always
environment:
- MAP_COMMAND=AttackMapServer.py
env_file:
- /opt/tpot/etc/compose/elk_environment
stop_signal: SIGKILL
tty: true
ports:
- "127.0.0.1:64299:64299"
image: "dtagdevsec/map:2204"
## Map Data Service
map_data:
container_name: map_data
restart: always
depends_on:
elasticsearch:
condition: service_healthy
environment:
- MAP_COMMAND=DataServer_v2.py
env_file:
- /opt/tpot/etc/compose/elk_environment
stop_signal: SIGKILL
tty: true
image: "dtagdevsec/map:2204"
#### /ELK
# Ewsposter service
ewsposter:
container_name: ewsposter
restart: always
networks:
- ewsposter_local
environment:
- EWS_HPFEEDS_ENABLE=false
- EWS_HPFEEDS_HOST=host
- EWS_HPFEEDS_PORT=port
- EWS_HPFEEDS_CHANNELS=channels
- EWS_HPFEEDS_IDENT=user
- EWS_HPFEEDS_SECRET=secret
- EWS_HPFEEDS_TLSCERT=false
- EWS_HPFEEDS_FORMAT=json
env_file:
- /opt/tpot/etc/compose/elk_environment
image: "dtagdevsec/ewsposter:2204"
volumes:
- /data:/data
- /data/ews/conf/ews.ip:/opt/ewsposter/ews.ip
# Nginx service
nginx:
container_name: nginx
restart: always
tmpfs:
- /var/tmp/nginx/client_body
- /var/tmp/nginx/proxy
- /var/tmp/nginx/fastcgi
- /var/tmp/nginx/uwsgi
- /var/tmp/nginx/scgi
- /run
- /var/lib/nginx/tmp:uid=100,gid=82
network_mode: "host"
# ports:
# - "64297:64297"
# - "127.0.0.1:64304:64304"
image: "dtagdevsec/nginx:2204"
read_only: true
volumes:
- /data/nginx/cert/:/etc/nginx/cert/:ro
- /data/nginx/conf/nginxpasswd:/etc/nginx/nginxpasswd:ro
- /data/nginx/log/:/var/log/nginx/
# Spiderfoot service
spiderfoot:
container_name: spiderfoot
restart: always
networks:
- spiderfoot_local
ports:
- "127.0.0.1:64303:8080"
image: "dtagdevsec/spiderfoot:2204"
volumes:
- /data/spiderfoot:/home/spiderfoot/.spiderfoot

141
_deprecated/etc/compose/hive.yml
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# T-Pot (Hive)
# Do not erase ports sections, these are used by /opt/tpot/bin/rules.sh to setup iptables ACCEPT rules for NFQ (honeytrap / glutton)
version: '2.3'
networks:
spiderfoot_local:
services:
##################
#### Tools
##################
#### ELK
## Elasticsearch service
elasticsearch:
container_name: elasticsearch
restart: always
environment:
- bootstrap.memory_lock=true
- ES_JAVA_OPTS=-Xms2048m -Xmx2048m
- ES_TMPDIR=/tmp
cap_add:
- IPC_LOCK
ulimits:
memlock:
soft: -1
hard: -1
nofile:
soft: 65536
hard: 65536
# mem_limit: 4g
ports:
- "127.0.0.1:64298:9200"
image: "dtagdevsec/elasticsearch:2204"
volumes:
- /data:/data
## Kibana service
kibana:
container_name: kibana
restart: always
depends_on:
elasticsearch:
condition: service_healthy
# mem_limit: 1g
ports:
- "127.0.0.1:64296:5601"
image: "dtagdevsec/kibana:2204"
## Logstash service
logstash:
container_name: logstash
restart: always
environment:
- LS_JAVA_OPTS=-Xms2048m -Xmx2048m
depends_on:
elasticsearch:
condition: service_healthy
env_file:
- /opt/tpot/etc/compose/elk_environment
ports:
- "127.0.0.1:64305:64305"
# mem_limit: 2g
image: "dtagdevsec/logstash:2204"
volumes:
- /data:/data
## Map Redis Service
map_redis:
container_name: map_redis
restart: always
stop_signal: SIGKILL
tty: true
image: "dtagdevsec/redis:2204"
read_only: true
## Map Web Service
map_web:
container_name: map_web
restart: always
environment:
- MAP_COMMAND=AttackMapServer.py
env_file:
- /opt/tpot/etc/compose/elk_environment
stop_signal: SIGKILL
tty: true
ports:
- "127.0.0.1:64299:64299"
image: "dtagdevsec/map:2204"
## Map Data Service
map_data:
container_name: map_data
restart: always
depends_on:
elasticsearch:
condition: service_healthy
environment:
- MAP_COMMAND=DataServer_v2.py
env_file:
- /opt/tpot/etc/compose/elk_environment
stop_signal: SIGKILL
tty: true
image: "dtagdevsec/map:2204"
#### /ELK
# Nginx service
nginx:
container_name: nginx
restart: always
tmpfs:
- /var/tmp/nginx/client_body
- /var/tmp/nginx/proxy
- /var/tmp/nginx/fastcgi
- /var/tmp/nginx/uwsgi
- /var/tmp/nginx/scgi
- /run
- /var/lib/nginx/tmp:uid=100,gid=82
network_mode: "host"
# ports:
# - "64297:64297"
# - "127.0.0.1:64304:64304"
image: "dtagdevsec/nginx:2204"
read_only: true
volumes:
- /data/nginx/cert/:/etc/nginx/cert/:ro
- /data/nginx/conf/nginxpasswd:/etc/nginx/nginxpasswd:ro
- /data/nginx/log/:/var/log/nginx/
# Spiderfoot service
spiderfoot:
container_name: spiderfoot
restart: always
networks:
- spiderfoot_local
ports:
- "127.0.0.1:64303:8080"
image: "dtagdevsec/spiderfoot:2204"
volumes:
- /data/spiderfoot:/home/spiderfoot/.spiderfoot

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@ -1,548 +0,0 @@
# T-Pot (Hive_Sensor)
# Do not erase ports sections, these are used by /opt/tpot/bin/rules.sh to setup iptables ACCEPT rules for NFQ (honeytrap / glutton)
version: '2.3'
networks:
adbhoney_local:
ciscoasa_local:
citrixhoneypot_local:
conpot_local_IEC104:
conpot_local_guardian_ast:
conpot_local_ipmi:
conpot_local_kamstrup_382:
cowrie_local:
ddospot_local:
dicompot_local:
dionaea_local:
elasticpot_local:
heralding_local:
ipphoney_local:
mailoney_local:
medpot_local:
redishoneypot_local:
tanner_local:
ewsposter_local:
sentrypeer_local:
spiderfoot_local:
services:
##################
#### Honeypots
##################
# Adbhoney service
adbhoney:
container_name: adbhoney
restart: always
networks:
- adbhoney_local
ports:
- "5555:5555"
image: "dtagdevsec/adbhoney:2204"
read_only: true
volumes:
- /data/adbhoney/log:/opt/adbhoney/log
- /data/adbhoney/downloads:/opt/adbhoney/dl
# Ciscoasa service
ciscoasa:
container_name: ciscoasa
restart: always
tmpfs:
- /tmp/ciscoasa:uid=2000,gid=2000
networks:
- ciscoasa_local
ports:
- "5000:5000/udp"
- "8443:8443"
image: "dtagdevsec/ciscoasa:2204"
read_only: true
volumes:
- /data/ciscoasa/log:/var/log/ciscoasa
# CitrixHoneypot service
citrixhoneypot:
container_name: citrixhoneypot
restart: always
networks:
- citrixhoneypot_local
ports:
- "443:443"
image: "dtagdevsec/citrixhoneypot:2204"
read_only: true
volumes:
- /data/citrixhoneypot/logs:/opt/citrixhoneypot/logs
# Conpot IEC104 service
conpot_IEC104:
container_name: conpot_iec104
restart: always
environment:
- CONPOT_CONFIG=/etc/conpot/conpot.cfg
- CONPOT_JSON_LOG=/var/log/conpot/conpot_IEC104.json
- CONPOT_LOG=/var/log/conpot/conpot_IEC104.log
- CONPOT_TEMPLATE=IEC104
- CONPOT_TMP=/tmp/conpot
tmpfs:
- /tmp/conpot:uid=2000,gid=2000
networks:
- conpot_local_IEC104
ports:
- "161:161/udp"
- "2404:2404"
image: "dtagdevsec/conpot:2204"
read_only: true
volumes:
- /data/conpot/log:/var/log/conpot
# Conpot guardian_ast service
conpot_guardian_ast:
container_name: conpot_guardian_ast
restart: always
environment:
- CONPOT_CONFIG=/etc/conpot/conpot.cfg
- CONPOT_JSON_LOG=/var/log/conpot/conpot_guardian_ast.json
- CONPOT_LOG=/var/log/conpot/conpot_guardian_ast.log
- CONPOT_TEMPLATE=guardian_ast
- CONPOT_TMP=/tmp/conpot
tmpfs:
- /tmp/conpot:uid=2000,gid=2000
networks:
- conpot_local_guardian_ast
ports:
- "10001:10001"
image: "dtagdevsec/conpot:2204"
read_only: true
volumes:
- /data/conpot/log:/var/log/conpot
# Conpot ipmi
conpot_ipmi:
container_name: conpot_ipmi
restart: always
environment:
- CONPOT_CONFIG=/etc/conpot/conpot.cfg
- CONPOT_JSON_LOG=/var/log/conpot/conpot_ipmi.json
- CONPOT_LOG=/var/log/conpot/conpot_ipmi.log
- CONPOT_TEMPLATE=ipmi
- CONPOT_TMP=/tmp/conpot
tmpfs:
- /tmp/conpot:uid=2000,gid=2000
networks:
- conpot_local_ipmi
ports:
- "623:623/udp"
image: "dtagdevsec/conpot:2204"
read_only: true
volumes:
- /data/conpot/log:/var/log/conpot
# Conpot kamstrup_382
conpot_kamstrup_382:
container_name: conpot_kamstrup_382
restart: always
environment:
- CONPOT_CONFIG=/etc/conpot/conpot.cfg
- CONPOT_JSON_LOG=/var/log/conpot/conpot_kamstrup_382.json
- CONPOT_LOG=/var/log/conpot/conpot_kamstrup_382.log
- CONPOT_TEMPLATE=kamstrup_382
- CONPOT_TMP=/tmp/conpot
tmpfs:
- /tmp/conpot:uid=2000,gid=2000
networks:
- conpot_local_kamstrup_382
ports:
- "1025:1025"
- "50100:50100"
image: "dtagdevsec/conpot:2204"
read_only: true
volumes:
- /data/conpot/log:/var/log/conpot
# Cowrie service
cowrie:
container_name: cowrie
restart: always
tmpfs:
- /tmp/cowrie:uid=2000,gid=2000
- /tmp/cowrie/data:uid=2000,gid=2000
networks:
- cowrie_local
ports:
- "22:22"
- "23:23"
image: "dtagdevsec/cowrie:2204"
read_only: true
volumes:
- /data/cowrie/downloads:/home/cowrie/cowrie/dl
- /data/cowrie/keys:/home/cowrie/cowrie/etc
- /data/cowrie/log:/home/cowrie/cowrie/log
- /data/cowrie/log/tty:/home/cowrie/cowrie/log/tty
# Ddospot service
ddospot:
container_name: ddospot
restart: always
networks:
- ddospot_local
ports:
- "19:19/udp"
- "53:53/udp"
- "123:123/udp"
# - "161:161/udp"
- "1900:1900/udp"
image: "dtagdevsec/ddospot:2204"
read_only: true
volumes:
- /data/ddospot/log:/opt/ddospot/ddospot/logs
- /data/ddospot/bl:/opt/ddospot/ddospot/bl
- /data/ddospot/db:/opt/ddospot/ddospot/db
# Dicompot service
# Get the Horos Client for testing: https://horosproject.org/
# Get Dicom images (CC BY 3.0): https://www.cancerimagingarchive.net/collections/
# Put images (which must be in Dicom DCM format or it will not work!) into /data/dicompot/images
dicompot:
container_name: dicompot
restart: always
networks:
- dicompot_local
ports:
- "11112:11112"
image: "dtagdevsec/dicompot:2204"
read_only: true
volumes:
- /data/dicompot/log:/var/log/dicompot
# - /data/dicompot/images:/opt/dicompot/images
# Dionaea service
dionaea:
container_name: dionaea
stdin_open: true
tty: true
restart: always
networks:
- dionaea_local
ports:
- "20:20"
- "21:21"
- "42:42"
- "69:69/udp"
- "81:81"
- "135:135"
# - "443:443"
- "445:445"
- "1433:1433"
- "1723:1723"
- "1883:1883"
- "3306:3306"
# - "5060:5060"
# - "5060:5060/udp"
# - "5061:5061"
- "27017:27017"
image: "dtagdevsec/dionaea:2204"
read_only: true
volumes:
- /data/dionaea/roots/ftp:/opt/dionaea/var/dionaea/roots/ftp
- /data/dionaea/roots/tftp:/opt/dionaea/var/dionaea/roots/tftp
- /data/dionaea/roots/www:/opt/dionaea/var/dionaea/roots/www
- /data/dionaea/roots/upnp:/opt/dionaea/var/dionaea/roots/upnp
- /data/dionaea:/opt/dionaea/var/dionaea
- /data/dionaea/binaries:/opt/dionaea/var/dionaea/binaries
- /data/dionaea/log:/opt/dionaea/var/log
- /data/dionaea/rtp:/opt/dionaea/var/dionaea/rtp
# ElasticPot service
elasticpot:
container_name: elasticpot
restart: always
networks:
- elasticpot_local
ports:
- "9200:9200"
image: "dtagdevsec/elasticpot:2204"
read_only: true
volumes:
- /data/elasticpot/log:/opt/elasticpot/log
# Heralding service
heralding:
container_name: heralding
restart: always
tmpfs:
- /tmp/heralding:uid=2000,gid=2000
networks:
- heralding_local
ports:
# - "21:21"
# - "22:22"
# - "23:23"
# - "25:25"
# - "80:80"
- "110:110"
- "143:143"
# - "443:443"
- "465:465"
- "993:993"
- "995:995"
# - "3306:3306"
# - "3389:3389"
- "1080:1080"
- "5432:5432"
- "5900:5900"
image: "dtagdevsec/heralding:2204"
read_only: true
volumes:
- /data/heralding/log:/var/log/heralding
# Honeytrap service
honeytrap:
container_name: honeytrap
restart: always
tmpfs:
- /tmp/honeytrap:uid=2000,gid=2000
network_mode: "host"
cap_add:
- NET_ADMIN
image: "dtagdevsec/honeytrap:2204"
read_only: true
volumes:
- /data/honeytrap/attacks:/opt/honeytrap/var/attacks
- /data/honeytrap/downloads:/opt/honeytrap/var/downloads
- /data/honeytrap/log:/opt/honeytrap/var/log
# Ipphoney service
ipphoney:
container_name: ipphoney
restart: always
networks:
- ipphoney_local
ports:
- "631:631"
image: "dtagdevsec/ipphoney:2204"
read_only: true
volumes:
- /data/ipphoney/log:/opt/ipphoney/log
# Mailoney service
mailoney:
container_name: mailoney
restart: always
environment:
- HPFEEDS_SERVER=
- HPFEEDS_IDENT=user
- HPFEEDS_SECRET=pass
- HPFEEDS_PORT=20000
- HPFEEDS_CHANNELPREFIX=prefix
networks:
- mailoney_local
ports:
- "25:25"
image: "dtagdevsec/mailoney:2204"
read_only: true
volumes:
- /data/mailoney/log:/opt/mailoney/logs
# Medpot service
medpot:
container_name: medpot
restart: always
networks:
- medpot_local
ports:
- "2575:2575"
image: "dtagdevsec/medpot:2204"
read_only: true
volumes:
- /data/medpot/log/:/var/log/medpot
# Redishoneypot service
redishoneypot:
container_name: redishoneypot
restart: always
networks:
- redishoneypot_local
ports:
- "6379:6379"
image: "dtagdevsec/redishoneypot:2204"
read_only: true
volumes:
- /data/redishoneypot/log:/var/log/redishoneypot
# SentryPeer service
sentrypeer:
container_name: sentrypeer
restart: always
# SentryPeer offers to exchange bad actor data via DHT / P2P mode by setting the ENV to true (1)
# In some cases (i.e. internally deployed T-Pots) this might be confusing as SentryPeer will show
# the bad actors in its logs. Therefore this option is opt-in based.
# environment:
# - SENTRYPEER_PEER_TO_PEER=0
networks:
- sentrypeer_local
ports:
# - "4222:4222/udp"
- "5060:5060/udp"
# - "127.0.0.1:8082:8082"
image: "dtagdevsec/sentrypeer:2204"
read_only: true
volumes:
- /data/sentrypeer/log:/var/log/sentrypeer
#### Snare / Tanner
## Tanner Redis Service
tanner_redis:
container_name: tanner_redis
restart: always
tty: true
networks:
- tanner_local
image: "dtagdevsec/redis:2204"
read_only: true
## PHP Sandbox service
tanner_phpox:
container_name: tanner_phpox
restart: always
tty: true
networks:
- tanner_local
image: "dtagdevsec/phpox:2204"
read_only: true
## Tanner API Service
tanner_api:
container_name: tanner_api
restart: always
tmpfs:
- /tmp/tanner:uid=2000,gid=2000
tty: true
networks:
- tanner_local
image: "dtagdevsec/tanner:2204"
read_only: true
volumes:
- /data/tanner/log:/var/log/tanner
command: tannerapi
depends_on:
- tanner_redis
## Tanner Service
tanner:
container_name: tanner
restart: always
tmpfs:
- /tmp/tanner:uid=2000,gid=2000
tty: true
networks:
- tanner_local
image: "dtagdevsec/tanner:2204"
command: tanner
read_only: true
volumes:
- /data/tanner/log:/var/log/tanner
- /data/tanner/files:/opt/tanner/files
depends_on:
- tanner_api
# - tanner_web
- tanner_phpox
## Snare Service
snare:
container_name: snare
restart: always
tty: true
networks:
- tanner_local
ports:
- "80:80"
image: "dtagdevsec/snare:2204"
depends_on:
- tanner
##################
#### NSM
##################
# Fatt service
fatt:
container_name: fatt
restart: always
network_mode: "host"
cap_add:
- NET_ADMIN
- SYS_NICE
- NET_RAW
image: "dtagdevsec/fatt:2204"
volumes:
- /data/fatt/log:/opt/fatt/log
# P0f service
p0f:
container_name: p0f
restart: always
network_mode: "host"
image: "dtagdevsec/p0f:2204"
read_only: true
volumes:
- /data/p0f/log:/var/log/p0f
# Suricata service
suricata:
container_name: suricata
restart: always
environment:
# For ET Pro ruleset replace "OPEN" with your OINKCODE
- OINKCODE=OPEN
# Loading externel Rules from URL
# - FROMURL="https://username:password@yoururl.com|https://username:password@otherurl.com"
network_mode: "host"
cap_add:
- NET_ADMIN
- SYS_NICE
- NET_RAW
image: "dtagdevsec/suricata:2204"
volumes:
- /data/suricata/log:/var/log/suricata
##################
#### Tools
##################
## Logstash service
logstash:
container_name: logstash
restart: always
environment:
- LS_JAVA_OPTS=-Xms1024m -Xmx1024m
env_file:
- /opt/tpot/etc/compose/elk_environment
mem_limit: 2g
image: "dtagdevsec/logstash:2204"
volumes:
- /data:/data
# Ewsposter service
ewsposter:
container_name: ewsposter
restart: always
networks:
- ewsposter_local
environment:
- EWS_HPFEEDS_ENABLE=false
- EWS_HPFEEDS_HOST=host
- EWS_HPFEEDS_PORT=port
- EWS_HPFEEDS_CHANNELS=channels
- EWS_HPFEEDS_IDENT=user
- EWS_HPFEEDS_SECRET=secret
- EWS_HPFEEDS_TLSCERT=false
- EWS_HPFEEDS_FORMAT=json
env_file:
- /opt/tpot/etc/compose/elk_environment
image: "dtagdevsec/ewsposter:2204"
volumes:
- /data:/data
- /data/ews/conf/ews.ip:/opt/ewsposter/ews.ip

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@ -1,431 +0,0 @@
# T-Pot (Industrial)
# Do not erase ports sections, these are used by /opt/tpot/bin/rules.sh to setup iptables ACCEPT rules for NFQ (honeytrap / glutton)
version: '2.3'
networks:
conpot_local_default:
conpot_local_IEC104:
conpot_local_guardian_ast:
conpot_local_ipmi:
conpot_local_kamstrup_382:
cowrie_local:
dicompot_local:
heralding_local:
medpot_local:
ewsposter_local:
spiderfoot_local:
services:
##################
#### Honeypots
##################
# Conpot default service
conpot_default:
container_name: conpot_default
restart: always
environment:
- CONPOT_CONFIG=/etc/conpot/conpot.cfg
- CONPOT_JSON_LOG=/var/log/conpot/conpot_default.json
- CONPOT_LOG=/var/log/conpot/conpot_default.log
- CONPOT_TEMPLATE=default
- CONPOT_TMP=/tmp/conpot
tmpfs:
- /tmp/conpot:uid=2000,gid=2000
networks:
- conpot_local_default
ports:
- "69:69/udp"
- "80:80"
- "102:102"
- "161:161/udp"
- "502:502"
# - "623:623/udp"
- "21:21"
- "44818:44818"
- "47808:47808/udp"
image: "dtagdevsec/conpot:2204"
read_only: true
volumes:
- /data/conpot/log:/var/log/conpot
# Conpot IEC104 service
conpot_IEC104:
container_name: conpot_iec104
restart: always
environment:
- CONPOT_CONFIG=/etc/conpot/conpot.cfg
- CONPOT_JSON_LOG=/var/log/conpot/conpot_IEC104.json
- CONPOT_LOG=/var/log/conpot/conpot_IEC104.log
- CONPOT_TEMPLATE=IEC104
- CONPOT_TMP=/tmp/conpot
tmpfs:
- /tmp/conpot:uid=2000,gid=2000
networks:
- conpot_local_IEC104
ports:
# - "161:161/udp"
- "2404:2404"
image: "dtagdevsec/conpot:2204"
read_only: true
volumes:
- /data/conpot/log:/var/log/conpot
# Conpot guardian_ast service
conpot_guardian_ast:
container_name: conpot_guardian_ast
restart: always
environment:
- CONPOT_CONFIG=/etc/conpot/conpot.cfg
- CONPOT_JSON_LOG=/var/log/conpot/conpot_guardian_ast.json
- CONPOT_LOG=/var/log/conpot/conpot_guardian_ast.log
- CONPOT_TEMPLATE=guardian_ast
- CONPOT_TMP=/tmp/conpot
tmpfs:
- /tmp/conpot:uid=2000,gid=2000
networks:
- conpot_local_guardian_ast
ports:
- "10001:10001"
image: "dtagdevsec/conpot:2204"
read_only: true
volumes:
- /data/conpot/log:/var/log/conpot
# Conpot ipmi
conpot_ipmi:
container_name: conpot_ipmi
restart: always
environment:
- CONPOT_CONFIG=/etc/conpot/conpot.cfg
- CONPOT_JSON_LOG=/var/log/conpot/conpot_ipmi.json
- CONPOT_LOG=/var/log/conpot/conpot_ipmi.log
- CONPOT_TEMPLATE=ipmi
- CONPOT_TMP=/tmp/conpot
tmpfs:
- /tmp/conpot:uid=2000,gid=2000
networks:
- conpot_local_ipmi
ports:
- "623:623/udp"
image: "dtagdevsec/conpot:2204"
read_only: true
volumes:
- /data/conpot/log:/var/log/conpot
# Conpot kamstrup_382
conpot_kamstrup_382:
container_name: conpot_kamstrup_382
restart: always
environment:
- CONPOT_CONFIG=/etc/conpot/conpot.cfg
- CONPOT_JSON_LOG=/var/log/conpot/conpot_kamstrup_382.json
- CONPOT_LOG=/var/log/conpot/conpot_kamstrup_382.log
- CONPOT_TEMPLATE=kamstrup_382
- CONPOT_TMP=/tmp/conpot
tmpfs:
- /tmp/conpot:uid=2000,gid=2000
networks:
- conpot_local_kamstrup_382
ports:
- "1025:1025"
- "50100:50100"
image: "dtagdevsec/conpot:2204"
read_only: true
volumes:
- /data/conpot/log:/var/log/conpot
# Cowrie service
cowrie:
container_name: cowrie
restart: always
tmpfs:
- /tmp/cowrie:uid=2000,gid=2000
- /tmp/cowrie/data:uid=2000,gid=2000
networks:
- cowrie_local
ports:
- "22:22"
- "23:23"
image: "dtagdevsec/cowrie:2204"
read_only: true
volumes:
- /data/cowrie/downloads:/home/cowrie/cowrie/dl
- /data/cowrie/keys:/home/cowrie/cowrie/etc
- /data/cowrie/log:/home/cowrie/cowrie/log
- /data/cowrie/log/tty:/home/cowrie/cowrie/log/tty
# Dicompot service
# Get the Horos Client for testing: https://horosproject.org/
# Get Dicom images (CC BY 3.0): https://www.cancerimagingarchive.net/collections/
# Put images (which must be in Dicom DCM format or it will not work!) into /data/dicompot/images
dicompot:
container_name: dicompot
restart: always
networks:
- dicompot_local
ports:
- "11112:11112"
image: "dtagdevsec/dicompot:2204"
read_only: true
volumes:
- /data/dicompot/log:/var/log/dicompot
# - /data/dicompot/images:/opt/dicompot/images
# Heralding service
heralding:
container_name: heralding
restart: always
tmpfs:
- /tmp/heralding:uid=2000,gid=2000
networks:
- heralding_local
ports:
# - "21:21"
# - "22:22"
# - "23:23"
# - "25:25"
# - "80:80"
# - "110:110"
# - "143:143"
# - "443:443"
# - "465:465"
# - "993:993"
# - "995:995"
# - "3306:3306"
# - "3389:3389"
# - "5432:5432"
- "5900:5900"
image: "dtagdevsec/heralding:2204"
read_only: true
volumes:
- /data/heralding/log:/var/log/heralding
# Honeytrap service
honeytrap:
container_name: honeytrap
restart: always
tmpfs:
- /tmp/honeytrap:uid=2000,gid=2000
network_mode: "host"
cap_add:
- NET_ADMIN
image: "dtagdevsec/honeytrap:2204"
read_only: true
volumes:
- /data/honeytrap/attacks:/opt/honeytrap/var/attacks
- /data/honeytrap/downloads:/opt/honeytrap/var/downloads
- /data/honeytrap/log:/opt/honeytrap/var/log
# Medpot service
medpot:
container_name: medpot
restart: always
networks:
- medpot_local
ports:
- "2575:2575"
image: "dtagdevsec/medpot:2204"
read_only: true
volumes:
- /data/medpot/log/:/var/log/medpot
##################
#### NSM
##################
# Fatt service
fatt:
container_name: fatt
restart: always
network_mode: "host"
cap_add:
- NET_ADMIN
- SYS_NICE
- NET_RAW
image: "dtagdevsec/fatt:2204"
volumes:
- /data/fatt/log:/opt/fatt/log
# P0f service
p0f:
container_name: p0f
restart: always
network_mode: "host"
image: "dtagdevsec/p0f:2204"
read_only: true
volumes:
- /data/p0f/log:/var/log/p0f
# Suricata service
suricata:
container_name: suricata
restart: always
environment:
# For ET Pro ruleset replace "OPEN" with your OINKCODE
- OINKCODE=OPEN
# Loading externel Rules from URL
# - FROMURL="https://username:password@yoururl.com|https://username:password@otherurl.com"
network_mode: "host"
cap_add:
- NET_ADMIN
- SYS_NICE
- NET_RAW
image: "dtagdevsec/suricata:2204"
volumes:
- /data/suricata/log:/var/log/suricata
##################
#### Tools
##################
#### ELK
## Elasticsearch service
elasticsearch:
container_name: elasticsearch
restart: always
environment:
- bootstrap.memory_lock=true
- ES_JAVA_OPTS=-Xms2048m -Xmx2048m
- ES_TMPDIR=/tmp
cap_add:
- IPC_LOCK
ulimits:
memlock:
soft: -1
hard: -1
nofile:
soft: 65536
hard: 65536
mem_limit: 4g
ports:
- "127.0.0.1:64298:9200"
image: "dtagdevsec/elasticsearch:2204"
volumes:
- /data:/data
## Kibana service
kibana:
container_name: kibana
restart: always
depends_on:
elasticsearch:
condition: service_healthy
mem_limit: 1g
ports:
- "127.0.0.1:64296:5601"
image: "dtagdevsec/kibana:2204"
## Logstash service
logstash:
container_name: logstash
restart: always
environment:
- LS_JAVA_OPTS=-Xms1024m -Xmx1024m
depends_on:
elasticsearch:
condition: service_healthy
env_file:
- /opt/tpot/etc/compose/elk_environment
mem_limit: 2g
image: "dtagdevsec/logstash:2204"
volumes:
- /data:/data
## Map Redis Service
map_redis:
container_name: map_redis
restart: always
stop_signal: SIGKILL
tty: true
image: "dtagdevsec/redis:2204"
read_only: true
## Map Web Service
map_web:
container_name: map_web
restart: always
environment:
- MAP_COMMAND=AttackMapServer.py
env_file:
- /opt/tpot/etc/compose/elk_environment
stop_signal: SIGKILL
tty: true
ports:
- "127.0.0.1:64299:64299"
image: "dtagdevsec/map:2204"
## Map Data Service
map_data:
container_name: map_data
restart: always
depends_on:
elasticsearch:
condition: service_healthy
environment:
- MAP_COMMAND=DataServer_v2.py
env_file:
- /opt/tpot/etc/compose/elk_environment
stop_signal: SIGKILL
tty: true
image: "dtagdevsec/map:2204"
#### /ELK
# Ewsposter service
ewsposter:
container_name: ewsposter
restart: always
networks:
- ewsposter_local
environment:
- EWS_HPFEEDS_ENABLE=false
- EWS_HPFEEDS_HOST=host
- EWS_HPFEEDS_PORT=port
- EWS_HPFEEDS_CHANNELS=channels
- EWS_HPFEEDS_IDENT=user
- EWS_HPFEEDS_SECRET=secret
- EWS_HPFEEDS_TLSCERT=false
- EWS_HPFEEDS_FORMAT=json
env_file:
- /opt/tpot/etc/compose/elk_environment
image: "dtagdevsec/ewsposter:2204"
volumes:
- /data:/data
- /data/ews/conf/ews.ip:/opt/ewsposter/ews.ip
# Nginx service
nginx:
container_name: nginx
restart: always
tmpfs:
- /var/tmp/nginx/client_body
- /var/tmp/nginx/proxy
- /var/tmp/nginx/fastcgi
- /var/tmp/nginx/uwsgi
- /var/tmp/nginx/scgi
- /run
- /var/lib/nginx/tmp:uid=100,gid=82
network_mode: "host"
# ports:
# - "64297:64297"
# - "127.0.0.1:64304:64304"
image: "dtagdevsec/nginx:2204"
read_only: true
volumes:
- /data/nginx/cert/:/etc/nginx/cert/:ro
- /data/nginx/conf/nginxpasswd:/etc/nginx/nginxpasswd:ro
- /data/nginx/log/:/var/log/nginx/
# Spiderfoot service
spiderfoot:
container_name: spiderfoot
restart: always
networks:
- spiderfoot_local
ports:
- "127.0.0.1:64303:8080"
image: "dtagdevsec/spiderfoot:2204"
volumes:
- /data/spiderfoot:/home/spiderfoot/.spiderfoot

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@ -1,250 +0,0 @@
# T-Pot (Log4j)
# Do not erase ports sections, these are used by /opt/tpot/bin/rules.sh to setup iptables ACCEPT rules for NFQ (honeytrap / glutton)
version: '2.3'
networks:
log4pot_local:
ewsposter_local:
spiderfoot_local:
services:
##################
#### Honeypots
##################
# Log4pot service
log4pot:
container_name: log4pot
restart: always
tmpfs:
- /tmp:uid=2000,gid=2000
networks:
- log4pot_local
ports:
- "80:8080"
- "443:8080"
- "8080:8080"
- "9200:8080"
- "25565:8080"
image: "dtagdevsec/log4pot:2204"
read_only: true
volumes:
- /data/log4pot/log:/var/log/log4pot/log
- /data/log4pot/payloads:/var/log/log4pot/payloads
# Honeytrap service
honeytrap:
container_name: honeytrap
restart: always
tmpfs:
- /tmp/honeytrap:uid=2000,gid=2000
network_mode: "host"
cap_add:
- NET_ADMIN
image: "dtagdevsec/honeytrap:2204"
read_only: true
volumes:
- /data/honeytrap/attacks:/opt/honeytrap/var/attacks
- /data/honeytrap/downloads:/opt/honeytrap/var/downloads
- /data/honeytrap/log:/opt/honeytrap/var/log
##################
#### NSM
##################
# Fatt service
fatt:
container_name: fatt
restart: always
network_mode: "host"
cap_add:
- NET_ADMIN
- SYS_NICE
- NET_RAW
image: "dtagdevsec/fatt:2204"
volumes:
- /data/fatt/log:/opt/fatt/log
# P0f service
p0f:
container_name: p0f
restart: always
network_mode: "host"
image: "dtagdevsec/p0f:2204"
read_only: true
volumes:
- /data/p0f/log:/var/log/p0f
# Suricata service
suricata:
container_name: suricata
restart: always
environment:
# For ET Pro ruleset replace "OPEN" with your OINKCODE
- OINKCODE=OPEN
# Loading externel Rules from URL
# - FROMURL="https://username:password@yoururl.com|https://username:password@otherurl.com"
network_mode: "host"
cap_add:
- NET_ADMIN
- SYS_NICE
- NET_RAW
image: "dtagdevsec/suricata:2204"
volumes:
- /data/suricata/log:/var/log/suricata
##################
#### Tools
##################
#### ELK
## Elasticsearch service
elasticsearch:
container_name: elasticsearch
restart: always
environment:
- bootstrap.memory_lock=true
- ES_JAVA_OPTS=-Xms2048m -Xmx2048m
- ES_TMPDIR=/tmp
cap_add:
- IPC_LOCK
ulimits:
memlock:
soft: -1
hard: -1
nofile:
soft: 65536
hard: 65536
mem_limit: 4g
ports:
- "127.0.0.1:64298:9200"
image: "dtagdevsec/elasticsearch:2204"
volumes:
- /data:/data
## Kibana service
kibana:
container_name: kibana
restart: always
depends_on:
elasticsearch:
condition: service_healthy
mem_limit: 1g
ports:
- "127.0.0.1:64296:5601"
image: "dtagdevsec/kibana:2204"
## Logstash service
logstash:
container_name: logstash
restart: always
environment:
- LS_JAVA_OPTS=-Xms1024m -Xmx1024m
depends_on:
elasticsearch:
condition: service_healthy
env_file:
- /opt/tpot/etc/compose/elk_environment
mem_limit: 2g
image: "dtagdevsec/logstash:2204"
volumes:
- /data:/data
## Map Redis Service
map_redis:
container_name: map_redis
restart: always
stop_signal: SIGKILL
tty: true
image: "dtagdevsec/redis:2204"
read_only: true
## Map Web Service
map_web:
container_name: map_web
restart: always
environment:
- MAP_COMMAND=AttackMapServer.py
env_file:
- /opt/tpot/etc/compose/elk_environment
stop_signal: SIGKILL
tty: true
ports:
- "127.0.0.1:64299:64299"
image: "dtagdevsec/map:2204"
## Map Data Service
map_data:
container_name: map_data
restart: always
depends_on:
elasticsearch:
condition: service_healthy
environment:
- MAP_COMMAND=DataServer_v2.py
env_file:
- /opt/tpot/etc/compose/elk_environment
stop_signal: SIGKILL
tty: true
image: "dtagdevsec/map:2204"
#### /ELK
# Ewsposter service
ewsposter:
container_name: ewsposter
restart: always
networks:
- ewsposter_local
environment:
- EWS_HPFEEDS_ENABLE=false
- EWS_HPFEEDS_HOST=host
- EWS_HPFEEDS_PORT=port
- EWS_HPFEEDS_CHANNELS=channels
- EWS_HPFEEDS_IDENT=user
- EWS_HPFEEDS_SECRET=secret
- EWS_HPFEEDS_TLSCERT=false
- EWS_HPFEEDS_FORMAT=json
env_file:
- /opt/tpot/etc/compose/elk_environment
image: "dtagdevsec/ewsposter:2204"
volumes:
- /data:/data
- /data/ews/conf/ews.ip:/opt/ewsposter/ews.ip
# Nginx service
nginx:
container_name: nginx
restart: always
tmpfs:
- /var/tmp/nginx/client_body
- /var/tmp/nginx/proxy
- /var/tmp/nginx/fastcgi
- /var/tmp/nginx/uwsgi
- /var/tmp/nginx/scgi
- /run
- /var/lib/nginx/tmp:uid=100,gid=82
network_mode: "host"
# ports:
# - "64297:64297"
# - "127.0.0.1:64304:64304"
image: "dtagdevsec/nginx:2204"
read_only: true
volumes:
- /data/nginx/cert/:/etc/nginx/cert/:ro
- /data/nginx/conf/nginxpasswd:/etc/nginx/nginxpasswd:ro
- /data/nginx/log/:/var/log/nginx/
# Spiderfoot service
spiderfoot:
container_name: spiderfoot
restart: always
networks:
- spiderfoot_local
ports:
- "127.0.0.1:64303:8080"
image: "dtagdevsec/spiderfoot:2204"
volumes:
- /data/spiderfoot:/home/spiderfoot/.spiderfoot

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@ -1,244 +0,0 @@
# T-Pot (Medical)
# Do not erase ports sections, these are used by /opt/tpot/bin/rules.sh to setup iptables ACCEPT rules for NFQ (honeytrap / glutton)
version: '2.3'
networks:
dicompot_local:
medpot_local:
ewsposter_local:
spiderfoot_local:
services:
##################
#### Honeypots
##################
# Dicompot service
# Get the Horos Client for testing: https://horosproject.org/
# Get Dicom images (CC BY 3.0): https://www.cancerimagingarchive.net/collections/
# Put images (which must be in Dicom DCM format or it will not work!) into /data/dicompot/images
dicompot:
container_name: dicompot
restart: always
networks:
- dicompot_local
ports:
- "11112:11112"
image: "dtagdevsec/dicompot:2204"
read_only: true
volumes:
- /data/dicompot/log:/var/log/dicompot
# - /data/dicompot/images:/opt/dicompot/images
# Medpot service
medpot:
container_name: medpot
restart: always
networks:
- medpot_local
ports:
- "2575:2575"
image: "dtagdevsec/medpot:2204"
read_only: true
volumes:
- /data/medpot/log/:/var/log/medpot
##################
#### NSM
##################
# Fatt service
fatt:
container_name: fatt
restart: always
network_mode: "host"
cap_add:
- NET_ADMIN
- SYS_NICE
- NET_RAW
image: "dtagdevsec/fatt:2204"
volumes:
- /data/fatt/log:/opt/fatt/log
# P0f service
p0f:
container_name: p0f
restart: always
network_mode: "host"
image: "dtagdevsec/p0f:2204"
read_only: true
volumes:
- /data/p0f/log:/var/log/p0f
# Suricata service
suricata:
container_name: suricata
restart: always
environment:
# For ET Pro ruleset replace "OPEN" with your OINKCODE
- OINKCODE=OPEN
# Loading externel Rules from URL
# - FROMURL="https://username:password@yoururl.com|https://username:password@otherurl.com"
network_mode: "host"
cap_add:
- NET_ADMIN
- SYS_NICE
- NET_RAW
image: "dtagdevsec/suricata:2204"
volumes:
- /data/suricata/log:/var/log/suricata
##################
#### Tools
##################
#### ELK
## Elasticsearch service
elasticsearch:
container_name: elasticsearch
restart: always
environment:
- bootstrap.memory_lock=true
- ES_JAVA_OPTS=-Xms2048m -Xmx2048m
- ES_TMPDIR=/tmp
cap_add:
- IPC_LOCK
ulimits:
memlock:
soft: -1
hard: -1
nofile:
soft: 65536
hard: 65536
mem_limit: 4g
ports:
- "127.0.0.1:64298:9200"
image: "dtagdevsec/elasticsearch:2204"
volumes:
- /data:/data
## Kibana service
kibana:
container_name: kibana
restart: always
depends_on:
elasticsearch:
condition: service_healthy
mem_limit: 1g
ports:
- "127.0.0.1:64296:5601"
image: "dtagdevsec/kibana:2204"
## Logstash service
logstash:
container_name: logstash
restart: always
environment:
- LS_JAVA_OPTS=-Xms1024m -Xmx1024m
depends_on:
elasticsearch:
condition: service_healthy
env_file:
- /opt/tpot/etc/compose/elk_environment
mem_limit: 2g
image: "dtagdevsec/logstash:2204"
volumes:
- /data:/data
## Map Redis Service
map_redis:
container_name: map_redis
restart: always
stop_signal: SIGKILL
tty: true
image: "dtagdevsec/redis:2204"
read_only: true
## Map Web Service
map_web:
container_name: map_web
restart: always
environment:
- MAP_COMMAND=AttackMapServer.py
env_file:
- /opt/tpot/etc/compose/elk_environment
stop_signal: SIGKILL
tty: true
ports:
- "127.0.0.1:64299:64299"
image: "dtagdevsec/map:2204"
## Map Data Service
map_data:
container_name: map_data
restart: always
depends_on:
elasticsearch:
condition: service_healthy
environment:
- MAP_COMMAND=DataServer_v2.py
env_file:
- /opt/tpot/etc/compose/elk_environment
stop_signal: SIGKILL
tty: true
image: "dtagdevsec/map:2204"
#### /ELK
# Ewsposter service
ewsposter:
container_name: ewsposter
restart: always
networks:
- ewsposter_local
environment:
- EWS_HPFEEDS_ENABLE=false
- EWS_HPFEEDS_HOST=host
- EWS_HPFEEDS_PORT=port
- EWS_HPFEEDS_CHANNELS=channels
- EWS_HPFEEDS_IDENT=user
- EWS_HPFEEDS_SECRET=secret
- EWS_HPFEEDS_TLSCERT=false
- EWS_HPFEEDS_FORMAT=json
env_file:
- /opt/tpot/etc/compose/elk_environment
image: "dtagdevsec/ewsposter:2204"
volumes:
- /data:/data
- /data/ews/conf/ews.ip:/opt/ewsposter/ews.ip
# Nginx service
nginx:
container_name: nginx
restart: always
tmpfs:
- /var/tmp/nginx/client_body
- /var/tmp/nginx/proxy
- /var/tmp/nginx/fastcgi
- /var/tmp/nginx/uwsgi
- /var/tmp/nginx/scgi
- /run
- /var/lib/nginx/tmp:uid=100,gid=82
network_mode: "host"
# ports:
# - "64297:64297"
# - "127.0.0.1:64304:64304"
image: "dtagdevsec/nginx:2204"
read_only: true
volumes:
- /data/nginx/cert/:/etc/nginx/cert/:ro
- /data/nginx/conf/nginxpasswd:/etc/nginx/nginxpasswd:ro
- /data/nginx/log/:/var/log/nginx/
# Spiderfoot service
spiderfoot:
container_name: spiderfoot
restart: always
networks:
- spiderfoot_local
ports:
- "127.0.0.1:64303:8080"
image: "dtagdevsec/spiderfoot:2204"
volumes:
- /data/spiderfoot:/home/spiderfoot/.spiderfoot

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# T-Pot (Mini)
# Do not erase ports sections, these are used by /opt/tpot/bin/rules.sh to setup iptables ACCEPT rules for NFQ (honeytrap / glutton)
version: '2.3'
networks:
honeypots_local:
ewsposter_local:
spiderfoot_local:
services:
##################
#### Honeypots
##################
# qHoneypots service
honeypots:
container_name: honeypots
stdin_open: true
tty: true
restart: always
tmpfs:
- /tmp:uid=2000,gid=2000
networks:
- honeypots_local
ports:
- "21:21"
- "22:22"
- "23:23"
- "25:25"
- "53:53/udp"
- "80:80"
- "110:110"
- "123:123"
- "143:143"
- "161:161"
- "389:389"
- "443:443"
- "445:445"
- "1080:1080"
- "1433:1433"
- "1521:1521"
- "3306:3306"
- "5060:5060"
- "5432:5432"
- "5900:5900"
- "6379:6379"
- "6667:6667"
- "8080:8080"
- "9200:9200"
- "11211:11211"
image: "dtagdevsec/honeypots:2204"
read_only: true
volumes:
- /data/honeypots/log:/var/log/honeypots
# Honeytrap service
honeytrap:
container_name: honeytrap
restart: always
tmpfs:
- /tmp/honeytrap:uid=2000,gid=2000
network_mode: "host"
cap_add:
- NET_ADMIN
image: "dtagdevsec/honeytrap:2204"
read_only: true
volumes:
- /data/honeytrap/attacks:/opt/honeytrap/var/attacks
- /data/honeytrap/downloads:/opt/honeytrap/var/downloads
- /data/honeytrap/log:/opt/honeytrap/var/log
##################
#### NSM
##################
# Fatt service
fatt:
container_name: fatt
restart: always
network_mode: "host"
cap_add:
- NET_ADMIN
- SYS_NICE
- NET_RAW
image: "dtagdevsec/fatt:2204"
volumes:
- /data/fatt/log:/opt/fatt/log
# P0f service
p0f:
container_name: p0f
restart: always
network_mode: "host"
image: "dtagdevsec/p0f:2204"
read_only: true
volumes:
- /data/p0f/log:/var/log/p0f
# Suricata service
suricata:
container_name: suricata
restart: always
environment:
# For ET Pro ruleset replace "OPEN" with your OINKCODE
- OINKCODE=OPEN
# Loading externel Rules from URL
# - FROMURL="https://username:password@yoururl.com|https://username:password@otherurl.com"
network_mode: "host"
cap_add:
- NET_ADMIN
- SYS_NICE
- NET_RAW
image: "dtagdevsec/suricata:2204"
volumes:
- /data/suricata/log:/var/log/suricata
##################
#### Tools
##################
#### ELK
## Elasticsearch service
elasticsearch:
container_name: elasticsearch
restart: always
environment:
- bootstrap.memory_lock=true
- ES_JAVA_OPTS=-Xms2048m -Xmx2048m
- ES_TMPDIR=/tmp
cap_add:
- IPC_LOCK
ulimits:
memlock:
soft: -1
hard: -1
nofile:
soft: 65536
hard: 65536
mem_limit: 4g
ports:
- "127.0.0.1:64298:9200"
image: "dtagdevsec/elasticsearch:2204"
volumes:
- /data:/data
## Kibana service
kibana:
container_name: kibana
restart: always
depends_on:
elasticsearch:
condition: service_healthy
mem_limit: 1g
ports:
- "127.0.0.1:64296:5601"
image: "dtagdevsec/kibana:2204"
## Logstash service
logstash:
container_name: logstash
restart: always
environment:
- LS_JAVA_OPTS=-Xms1024m -Xmx1024m
depends_on:
elasticsearch:
condition: service_healthy
env_file:
- /opt/tpot/etc/compose/elk_environment
mem_limit: 2g
image: "dtagdevsec/logstash:2204"
volumes:
- /data:/data
## Map Redis Service
map_redis:
container_name: map_redis
restart: always
stop_signal: SIGKILL
tty: true
image: "dtagdevsec/redis:2204"
read_only: true
## Map Web Service
map_web:
container_name: map_web
restart: always
environment:
- MAP_COMMAND=AttackMapServer.py
env_file:
- /opt/tpot/etc/compose/elk_environment
stop_signal: SIGKILL
tty: true
ports:
- "127.0.0.1:64299:64299"
image: "dtagdevsec/map:2204"
## Map Data Service
map_data:
container_name: map_data
restart: always
depends_on:
elasticsearch:
condition: service_healthy
environment:
- MAP_COMMAND=DataServer_v2.py
env_file:
- /opt/tpot/etc/compose/elk_environment
stop_signal: SIGKILL
tty: true
image: "dtagdevsec/map:2204"
#### /ELK
# Ewsposter service
ewsposter:
container_name: ewsposter
restart: always
networks:
- ewsposter_local
environment:
- EWS_HPFEEDS_ENABLE=false
- EWS_HPFEEDS_HOST=host
- EWS_HPFEEDS_PORT=port
- EWS_HPFEEDS_CHANNELS=channels
- EWS_HPFEEDS_IDENT=user
- EWS_HPFEEDS_SECRET=secret
- EWS_HPFEEDS_TLSCERT=false
- EWS_HPFEEDS_FORMAT=json
env_file:
- /opt/tpot/etc/compose/elk_environment
image: "dtagdevsec/ewsposter:2204"
volumes:
- /data:/data
- /data/ews/conf/ews.ip:/opt/ewsposter/ews.ip
# Nginx service
nginx:
container_name: nginx
restart: always
tmpfs:
- /var/tmp/nginx/client_body
- /var/tmp/nginx/proxy
- /var/tmp/nginx/fastcgi
- /var/tmp/nginx/uwsgi
- /var/tmp/nginx/scgi
- /run
- /var/lib/nginx/tmp:uid=100,gid=82
network_mode: "host"
# ports:
# - "64297:64297"
# - "127.0.0.1:64304:64304"
image: "dtagdevsec/nginx:2204"
read_only: true
volumes:
- /data/nginx/cert/:/etc/nginx/cert/:ro
- /data/nginx/conf/nginxpasswd:/etc/nginx/nginxpasswd:ro
- /data/nginx/log/:/var/log/nginx/
# Spiderfoot service
spiderfoot:
container_name: spiderfoot
restart: always
networks:
- spiderfoot_local
ports:
- "127.0.0.1:64303:8080"
image: "dtagdevsec/spiderfoot:2204"
volumes:
- /data/spiderfoot:/home/spiderfoot/.spiderfoot

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@ -1,575 +0,0 @@
# T-Pot (NextGen)
# Do not erase ports sections, these are used by /opt/tpot/bin/rules.sh to setup iptables ACCEPT rules for NFQ (honeytrap / glutton)
version: '2.3'
networks:
adbhoney_local:
ciscoasa_local:
citrixhoneypot_local:
conpot_local_IEC104:
conpot_local_guardian_ast:
conpot_local_ipmi:
conpot_local_kamstrup_382:
ddospot_local:
dicompot_local:
dionaea_local:
elasticpot_local:
endlessh_local:
hellpot_local:
heralding_local:
ipphoney_local:
mailoney_local:
medpot_local:
redishoneypot_local:
ewsposter_local:
spiderfoot_local:
services:
##################
#### Honeypots
##################
# Adbhoney service
adbhoney:
container_name: adbhoney
restart: always
networks:
- adbhoney_local
ports:
- "5555:5555"
image: "dtagdevsec/adbhoney:2204"
read_only: true
volumes:
- /data/adbhoney/log:/opt/adbhoney/log
- /data/adbhoney/downloads:/opt/adbhoney/dl
# Ciscoasa service
ciscoasa:
container_name: ciscoasa
restart: always
tmpfs:
- /tmp/ciscoasa:uid=2000,gid=2000
networks:
- ciscoasa_local
ports:
- "5000:5000/udp"
- "8443:8443"
image: "dtagdevsec/ciscoasa:2204"
read_only: true
volumes:
- /data/ciscoasa/log:/var/log/ciscoasa
# CitrixHoneypot service
citrixhoneypot:
container_name: citrixhoneypot
restart: always
networks:
- citrixhoneypot_local
ports:
- "443:443"
image: "dtagdevsec/citrixhoneypot:2204"
read_only: true
volumes:
- /data/citrixhoneypot/logs:/opt/citrixhoneypot/logs
# Conpot IEC104 service
conpot_IEC104:
container_name: conpot_iec104
restart: always
environment:
- CONPOT_CONFIG=/etc/conpot/conpot.cfg
- CONPOT_JSON_LOG=/var/log/conpot/conpot_IEC104.json
- CONPOT_LOG=/var/log/conpot/conpot_IEC104.log
- CONPOT_TEMPLATE=IEC104
- CONPOT_TMP=/tmp/conpot
tmpfs:
- /tmp/conpot:uid=2000,gid=2000
networks:
- conpot_local_IEC104
ports:
- "161:161/udp"
- "2404:2404"
image: "dtagdevsec/conpot:2204"
read_only: true
volumes:
- /data/conpot/log:/var/log/conpot
# Conpot guardian_ast service
conpot_guardian_ast:
container_name: conpot_guardian_ast
restart: always
environment:
- CONPOT_CONFIG=/etc/conpot/conpot.cfg
- CONPOT_JSON_LOG=/var/log/conpot/conpot_guardian_ast.json
- CONPOT_LOG=/var/log/conpot/conpot_guardian_ast.log
- CONPOT_TEMPLATE=guardian_ast
- CONPOT_TMP=/tmp/conpot
tmpfs:
- /tmp/conpot:uid=2000,gid=2000
networks:
- conpot_local_guardian_ast
ports:
- "10001:10001"
image: "dtagdevsec/conpot:2204"
read_only: true
volumes:
- /data/conpot/log:/var/log/conpot
# Conpot ipmi
conpot_ipmi:
container_name: conpot_ipmi
restart: always
environment:
- CONPOT_CONFIG=/etc/conpot/conpot.cfg
- CONPOT_JSON_LOG=/var/log/conpot/conpot_ipmi.json
- CONPOT_LOG=/var/log/conpot/conpot_ipmi.log
- CONPOT_TEMPLATE=ipmi
- CONPOT_TMP=/tmp/conpot
tmpfs:
- /tmp/conpot:uid=2000,gid=2000
networks:
- conpot_local_ipmi
ports:
- "623:623/udp"
image: "dtagdevsec/conpot:2204"
read_only: true
volumes:
- /data/conpot/log:/var/log/conpot
# Conpot kamstrup_382
conpot_kamstrup_382:
container_name: conpot_kamstrup_382
restart: always
environment:
- CONPOT_CONFIG=/etc/conpot/conpot.cfg
- CONPOT_JSON_LOG=/var/log/conpot/conpot_kamstrup_382.json
- CONPOT_LOG=/var/log/conpot/conpot_kamstrup_382.log
- CONPOT_TEMPLATE=kamstrup_382
- CONPOT_TMP=/tmp/conpot
tmpfs:
- /tmp/conpot:uid=2000,gid=2000
networks:
- conpot_local_kamstrup_382
ports:
- "1025:1025"
- "50100:50100"
image: "dtagdevsec/conpot:2204"
read_only: true
volumes:
- /data/conpot/log:/var/log/conpot
# Ddospot service
ddospot:
container_name: ddospot
restart: always
networks:
- ddospot_local
ports:
- "19:19/udp"
- "53:53/udp"
- "123:123/udp"
# - "161:161/udp"
- "1900:1900/udp"
image: "dtagdevsec/ddospot:2204"
read_only: true
volumes:
- /data/ddospot/log:/opt/ddospot/ddospot/logs
- /data/ddospot/bl:/opt/ddospot/ddospot/bl
- /data/ddospot/db:/opt/ddospot/ddospot/db
# Dicompot service
# Get the Horos Client for testing: https://horosproject.org/
# Get Dicom images (CC BY 3.0): https://www.cancerimagingarchive.net/collections/
# Put images (which must be in Dicom DCM format or it will not work!) into /data/dicompot/images
dicompot:
container_name: dicompot
restart: always
networks:
- dicompot_local
ports:
- "11112:11112"
image: "dtagdevsec/dicompot:2204"
read_only: true
volumes:
- /data/dicompot/log:/var/log/dicompot
# - /data/dicompot/images:/opt/dicompot/images
# Dionaea service
dionaea:
container_name: dionaea
stdin_open: true
tty: true
restart: always
networks:
- dionaea_local
ports:
- "20:20"
- "21:21"
- "42:42"
- "69:69/udp"
- "81:81"
- "135:135"
# - "443:443"
- "445:445"
- "1433:1433"
- "1723:1723"
- "1883:1883"
- "3306:3306"
# - "5060:5060"
# - "5060:5060/udp"
# - "5061:5061"
- "27017:27017"
image: "dtagdevsec/dionaea:2204"
read_only: true
volumes:
- /data/dionaea/roots/ftp:/opt/dionaea/var/dionaea/roots/ftp
- /data/dionaea/roots/tftp:/opt/dionaea/var/dionaea/roots/tftp
- /data/dionaea/roots/www:/opt/dionaea/var/dionaea/roots/www
- /data/dionaea/roots/upnp:/opt/dionaea/var/dionaea/roots/upnp
- /data/dionaea:/opt/dionaea/var/dionaea
- /data/dionaea/binaries:/opt/dionaea/var/dionaea/binaries
- /data/dionaea/log:/opt/dionaea/var/log
- /data/dionaea/rtp:/opt/dionaea/var/dionaea/rtp
# ElasticPot service
elasticpot:
container_name: elasticpot
restart: always
networks:
- elasticpot_local
ports:
- "9200:9200"
image: "dtagdevsec/elasticpot:2204"
read_only: true
volumes:
- /data/elasticpot/log:/opt/elasticpot/log
# Endlessh service
endlessh:
container_name: endlessh
restart: always
networks:
- endlessh_local
ports:
- "22:2222"
image: "dtagdevsec/endlessh:2204"
read_only: true
volumes:
- /data/endlessh/log:/var/log/endlessh
# Glutton service
glutton:
container_name: glutton
restart: always
tmpfs:
- /var/lib/glutton:uid=2000,gid=2000
- /run:uid=2000,gid=2000
network_mode: "host"
cap_add:
- NET_ADMIN
image: "dtagdevsec/glutton:2204"
read_only: true
volumes:
- /data/glutton/log:/var/log/glutton
# - /root/tpotce/docker/glutton/dist/rules.yaml:/opt/glutton/rules/rules.yaml
# Heralding service
heralding:
container_name: heralding
restart: always
tmpfs:
- /tmp/heralding:uid=2000,gid=2000
networks:
- heralding_local
ports:
# - "21:21"
# - "22:22"
# - "23:23"
# - "25:25"
# - "80:80"
- "110:110"
- "143:143"
# - "443:443"
- "465:465"
- "993:993"
- "995:995"
# - "3306:3306"
# - "3389:3389"
- "1080:1080"
- "5432:5432"
- "5900:5900"
image: "dtagdevsec/heralding:2204"
read_only: true
volumes:
- /data/heralding/log:/var/log/heralding
# Ipphoney service
ipphoney:
container_name: ipphoney
restart: always
networks:
- ipphoney_local
ports:
- "631:631"
image: "dtagdevsec/ipphoney:2204"
read_only: true
volumes:
- /data/ipphoney/log:/opt/ipphoney/log
# Mailoney service
mailoney:
container_name: mailoney
restart: always
environment:
- HPFEEDS_SERVER=
- HPFEEDS_IDENT=user
- HPFEEDS_SECRET=pass
- HPFEEDS_PORT=20000
- HPFEEDS_CHANNELPREFIX=prefix
networks:
- mailoney_local
ports:
- "25:25"
image: "dtagdevsec/mailoney:2204"
read_only: true
volumes:
- /data/mailoney/log:/opt/mailoney/logs
# Medpot service
medpot:
container_name: medpot
restart: always
networks:
- medpot_local
ports:
- "2575:2575"
image: "dtagdevsec/medpot:2204"
read_only: true
volumes:
- /data/medpot/log/:/var/log/medpot
# Redishoneypot service
redishoneypot:
container_name: redishoneypot
restart: always
networks:
- redishoneypot_local
ports:
- "6379:6379"
image: "dtagdevsec/redishoneypot:2204"
read_only: true
volumes:
- /data/redishoneypot/log:/var/log/redishoneypot
# Hellpot service
hellpot:
container_name: hellpot
restart: always
networks:
- hellpot_local
ports:
- "80:8080"
image: "dtagdevsec/hellpot:2204"
read_only: true
volumes:
- /data/hellpot/log:/var/log/hellpot
##################
#### NSM
##################
# Fatt service
fatt:
container_name: fatt
restart: always
network_mode: "host"
cap_add:
- NET_ADMIN
- SYS_NICE
- NET_RAW
image: "dtagdevsec/fatt:2204"
volumes:
- /data/fatt/log:/opt/fatt/log
# P0f service
p0f:
container_name: p0f
restart: always
network_mode: "host"
image: "dtagdevsec/p0f:2204"
read_only: true
volumes:
- /data/p0f/log:/var/log/p0f
# Suricata service
suricata:
container_name: suricata
restart: always
environment:
# For ET Pro ruleset replace "OPEN" with your OINKCODE
- OINKCODE=OPEN
# Loading externel Rules from URL
# - FROMURL="https://username:password@yoururl.com|https://username:password@otherurl.com"
network_mode: "host"
cap_add:
- NET_ADMIN
- SYS_NICE
- NET_RAW
image: "dtagdevsec/suricata:2204"
volumes:
- /data/suricata/log:/var/log/suricata
##################
#### Tools
##################
#### ELK
## Elasticsearch service
elasticsearch:
container_name: elasticsearch
restart: always
environment:
- bootstrap.memory_lock=true
- ES_JAVA_OPTS=-Xms2048m -Xmx2048m
- ES_TMPDIR=/tmp
cap_add:
- IPC_LOCK
ulimits:
memlock:
soft: -1
hard: -1
nofile:
soft: 65536
hard: 65536
mem_limit: 4g
ports:
- "127.0.0.1:64298:9200"
image: "dtagdevsec/elasticsearch:2204"
volumes:
- /data:/data
## Kibana service
kibana:
container_name: kibana
restart: always
depends_on:
elasticsearch:
condition: service_healthy
mem_limit: 1g
ports:
- "127.0.0.1:64296:5601"
image: "dtagdevsec/kibana:2204"
## Logstash service
logstash:
container_name: logstash
restart: always
environment:
- LS_JAVA_OPTS=-Xms1024m -Xmx1024m
depends_on:
elasticsearch:
condition: service_healthy
env_file:
- /opt/tpot/etc/compose/elk_environment
mem_limit: 2g
image: "dtagdevsec/logstash:2204"
volumes:
- /data:/data
## Map Redis Service
map_redis:
container_name: map_redis
restart: always
stop_signal: SIGKILL
tty: true
image: "dtagdevsec/redis:2204"
read_only: true
## Map Web Service
map_web:
container_name: map_web
restart: always
environment:
- MAP_COMMAND=AttackMapServer.py
env_file:
- /opt/tpot/etc/compose/elk_environment
stop_signal: SIGKILL
tty: true
ports:
- "127.0.0.1:64299:64299"
image: "dtagdevsec/map:2204"
## Map Data Service
map_data:
container_name: map_data
restart: always
depends_on:
elasticsearch:
condition: service_healthy
environment:
- MAP_COMMAND=DataServer_v2.py
env_file:
- /opt/tpot/etc/compose/elk_environment
stop_signal: SIGKILL
tty: true
image: "dtagdevsec/map:2204"
#### /ELK
# Ewsposter service
ewsposter:
container_name: ewsposter
restart: always
networks:
- ewsposter_local
environment:
- EWS_HPFEEDS_ENABLE=false
- EWS_HPFEEDS_HOST=host
- EWS_HPFEEDS_PORT=port
- EWS_HPFEEDS_CHANNELS=channels
- EWS_HPFEEDS_IDENT=user
- EWS_HPFEEDS_SECRET=secret
- EWS_HPFEEDS_TLSCERT=false
- EWS_HPFEEDS_FORMAT=json
env_file:
- /opt/tpot/etc/compose/elk_environment
image: "dtagdevsec/ewsposter:2204"
volumes:
- /data:/data
- /data/ews/conf/ews.ip:/opt/ewsposter/ews.ip
# Nginx service
nginx:
container_name: nginx
restart: always
tmpfs:
- /var/tmp/nginx/client_body
- /var/tmp/nginx/proxy
- /var/tmp/nginx/fastcgi
- /var/tmp/nginx/uwsgi
- /var/tmp/nginx/scgi
- /run
- /var/lib/nginx/tmp:uid=100,gid=82
network_mode: "host"
# ports:
# - "64297:64297"
# - "127.0.0.1:64304:64304"
image: "dtagdevsec/nginx:2204"
read_only: true
volumes:
- /data/nginx/cert/:/etc/nginx/cert/:ro
- /data/nginx/conf/nginxpasswd:/etc/nginx/nginxpasswd:ro
- /data/nginx/log/:/var/log/nginx/
# Spiderfoot service
spiderfoot:
container_name: spiderfoot
restart: always
networks:
- spiderfoot_local
ports:
- "127.0.0.1:64303:8080"
image: "dtagdevsec/spiderfoot:2204"
volumes:
- /data/spiderfoot:/home/spiderfoot/.spiderfoot

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# T-Pot (Sensor)
# Do not erase ports sections, these are used by /opt/tpot/bin/rules.sh to setup iptables ACCEPT rules for NFQ (honeytrap / glutton)
version: '2.3'
networks:
adbhoney_local:
ciscoasa_local:
citrixhoneypot_local:
conpot_local_IEC104:
conpot_local_guardian_ast:
conpot_local_ipmi:
conpot_local_kamstrup_382:
cowrie_local:
ddospot_local:
dicompot_local:
dionaea_local:
elasticpot_local:
heralding_local:
ipphoney_local:
mailoney_local:
medpot_local:
redishoneypot_local:
tanner_local:
ewsposter_local:
sentrypeer_local:
spiderfoot_local:
services:
##################
#### Honeypots
##################
# Adbhoney service
adbhoney:
container_name: adbhoney
restart: always
networks:
- adbhoney_local
ports:
- "5555:5555"
image: "dtagdevsec/adbhoney:2204"
read_only: true
volumes:
- /data/adbhoney/log:/opt/adbhoney/log
- /data/adbhoney/downloads:/opt/adbhoney/dl
# Ciscoasa service
ciscoasa:
container_name: ciscoasa
restart: always
tmpfs:
- /tmp/ciscoasa:uid=2000,gid=2000
networks:
- ciscoasa_local
ports:
- "5000:5000/udp"
- "8443:8443"
image: "dtagdevsec/ciscoasa:2204"
read_only: true
volumes:
- /data/ciscoasa/log:/var/log/ciscoasa
# CitrixHoneypot service
citrixhoneypot:
container_name: citrixhoneypot
restart: always
networks:
- citrixhoneypot_local
ports:
- "443:443"
image: "dtagdevsec/citrixhoneypot:2204"
read_only: true
volumes:
- /data/citrixhoneypot/logs:/opt/citrixhoneypot/logs
# Conpot IEC104 service
conpot_IEC104:
container_name: conpot_iec104
restart: always
environment:
- CONPOT_CONFIG=/etc/conpot/conpot.cfg
- CONPOT_JSON_LOG=/var/log/conpot/conpot_IEC104.json
- CONPOT_LOG=/var/log/conpot/conpot_IEC104.log
- CONPOT_TEMPLATE=IEC104
- CONPOT_TMP=/tmp/conpot
tmpfs:
- /tmp/conpot:uid=2000,gid=2000
networks:
- conpot_local_IEC104
ports:
- "161:161/udp"
- "2404:2404"
image: "dtagdevsec/conpot:2204"
read_only: true
volumes:
- /data/conpot/log:/var/log/conpot
# Conpot guardian_ast service
conpot_guardian_ast:
container_name: conpot_guardian_ast
restart: always
environment:
- CONPOT_CONFIG=/etc/conpot/conpot.cfg
- CONPOT_JSON_LOG=/var/log/conpot/conpot_guardian_ast.json
- CONPOT_LOG=/var/log/conpot/conpot_guardian_ast.log
- CONPOT_TEMPLATE=guardian_ast
- CONPOT_TMP=/tmp/conpot
tmpfs:
- /tmp/conpot:uid=2000,gid=2000
networks:
- conpot_local_guardian_ast
ports:
- "10001:10001"
image: "dtagdevsec/conpot:2204"
read_only: true
volumes:
- /data/conpot/log:/var/log/conpot
# Conpot ipmi
conpot_ipmi:
container_name: conpot_ipmi
restart: always
environment:
- CONPOT_CONFIG=/etc/conpot/conpot.cfg
- CONPOT_JSON_LOG=/var/log/conpot/conpot_ipmi.json
- CONPOT_LOG=/var/log/conpot/conpot_ipmi.log
- CONPOT_TEMPLATE=ipmi
- CONPOT_TMP=/tmp/conpot
tmpfs:
- /tmp/conpot:uid=2000,gid=2000
networks:
- conpot_local_ipmi
ports:
- "623:623/udp"
image: "dtagdevsec/conpot:2204"
read_only: true
volumes:
- /data/conpot/log:/var/log/conpot
# Conpot kamstrup_382
conpot_kamstrup_382:
container_name: conpot_kamstrup_382
restart: always
environment:
- CONPOT_CONFIG=/etc/conpot/conpot.cfg
- CONPOT_JSON_LOG=/var/log/conpot/conpot_kamstrup_382.json
- CONPOT_LOG=/var/log/conpot/conpot_kamstrup_382.log
- CONPOT_TEMPLATE=kamstrup_382
- CONPOT_TMP=/tmp/conpot
tmpfs:
- /tmp/conpot:uid=2000,gid=2000
networks:
- conpot_local_kamstrup_382
ports:
- "1025:1025"
- "50100:50100"
image: "dtagdevsec/conpot:2204"
read_only: true
volumes:
- /data/conpot/log:/var/log/conpot
# Cowrie service
cowrie:
container_name: cowrie
restart: always
tmpfs:
- /tmp/cowrie:uid=2000,gid=2000
- /tmp/cowrie/data:uid=2000,gid=2000
networks:
- cowrie_local
ports:
- "22:22"
- "23:23"
image: "dtagdevsec/cowrie:2204"
read_only: true
volumes:
- /data/cowrie/downloads:/home/cowrie/cowrie/dl
- /data/cowrie/keys:/home/cowrie/cowrie/etc
- /data/cowrie/log:/home/cowrie/cowrie/log
- /data/cowrie/log/tty:/home/cowrie/cowrie/log/tty
# Ddospot service
ddospot:
container_name: ddospot
restart: always
networks:
- ddospot_local
ports:
- "19:19/udp"
- "53:53/udp"
- "123:123/udp"
# - "161:161/udp"
- "1900:1900/udp"
image: "dtagdevsec/ddospot:2204"
read_only: true
volumes:
- /data/ddospot/log:/opt/ddospot/ddospot/logs
- /data/ddospot/bl:/opt/ddospot/ddospot/bl
- /data/ddospot/db:/opt/ddospot/ddospot/db
# Dicompot service
# Get the Horos Client for testing: https://horosproject.org/
# Get Dicom images (CC BY 3.0): https://www.cancerimagingarchive.net/collections/
# Put images (which must be in Dicom DCM format or it will not work!) into /data/dicompot/images
dicompot:
container_name: dicompot
restart: always
networks:
- dicompot_local
ports:
- "11112:11112"
image: "dtagdevsec/dicompot:2204"
read_only: true
volumes:
- /data/dicompot/log:/var/log/dicompot
# - /data/dicompot/images:/opt/dicompot/images
# Dionaea service
dionaea:
container_name: dionaea
stdin_open: true
tty: true
restart: always
networks:
- dionaea_local
ports:
- "20:20"
- "21:21"
- "42:42"
- "69:69/udp"
- "81:81"
- "135:135"
# - "443:443"
- "445:445"
- "1433:1433"
- "1723:1723"
- "1883:1883"
- "3306:3306"
# - "5060:5060"
# - "5060:5060/udp"
# - "5061:5061"
- "27017:27017"
image: "dtagdevsec/dionaea:2204"
read_only: true
volumes:
- /data/dionaea/roots/ftp:/opt/dionaea/var/dionaea/roots/ftp
- /data/dionaea/roots/tftp:/opt/dionaea/var/dionaea/roots/tftp
- /data/dionaea/roots/www:/opt/dionaea/var/dionaea/roots/www
- /data/dionaea/roots/upnp:/opt/dionaea/var/dionaea/roots/upnp
- /data/dionaea:/opt/dionaea/var/dionaea
- /data/dionaea/binaries:/opt/dionaea/var/dionaea/binaries
- /data/dionaea/log:/opt/dionaea/var/log
- /data/dionaea/rtp:/opt/dionaea/var/dionaea/rtp
# ElasticPot service
elasticpot:
container_name: elasticpot
restart: always
networks:
- elasticpot_local
ports:
- "9200:9200"
image: "dtagdevsec/elasticpot:2204"
read_only: true
volumes:
- /data/elasticpot/log:/opt/elasticpot/log
# Heralding service
heralding:
container_name: heralding
restart: always
tmpfs:
- /tmp/heralding:uid=2000,gid=2000
networks:
- heralding_local
ports:
# - "21:21"
# - "22:22"
# - "23:23"
# - "25:25"
# - "80:80"
- "110:110"
- "143:143"
# - "443:443"
- "465:465"
- "993:993"
- "995:995"
# - "3306:3306"
# - "3389:3389"
- "1080:1080"
- "5432:5432"
- "5900:5900"
image: "dtagdevsec/heralding:2204"
read_only: true
volumes:
- /data/heralding/log:/var/log/heralding
# Honeytrap service
honeytrap:
container_name: honeytrap
restart: always
tmpfs:
- /tmp/honeytrap:uid=2000,gid=2000
network_mode: "host"
cap_add:
- NET_ADMIN
image: "dtagdevsec/honeytrap:2204"
read_only: true
volumes:
- /data/honeytrap/attacks:/opt/honeytrap/var/attacks
- /data/honeytrap/downloads:/opt/honeytrap/var/downloads
- /data/honeytrap/log:/opt/honeytrap/var/log
# Ipphoney service
ipphoney:
container_name: ipphoney
restart: always
networks:
- ipphoney_local
ports:
- "631:631"
image: "dtagdevsec/ipphoney:2204"
read_only: true
volumes:
- /data/ipphoney/log:/opt/ipphoney/log
# Mailoney service
mailoney:
container_name: mailoney
restart: always
environment:
- HPFEEDS_SERVER=
- HPFEEDS_IDENT=user
- HPFEEDS_SECRET=pass
- HPFEEDS_PORT=20000
- HPFEEDS_CHANNELPREFIX=prefix
networks:
- mailoney_local
ports:
- "25:25"
image: "dtagdevsec/mailoney:2204"
read_only: true
volumes:
- /data/mailoney/log:/opt/mailoney/logs
# Medpot service
medpot:
container_name: medpot
restart: always
networks:
- medpot_local
ports:
- "2575:2575"
image: "dtagdevsec/medpot:2204"
read_only: true
volumes:
- /data/medpot/log/:/var/log/medpot
# Redishoneypot service
redishoneypot:
container_name: redishoneypot
restart: always
networks:
- redishoneypot_local
ports:
- "6379:6379"
image: "dtagdevsec/redishoneypot:2204"
read_only: true
volumes:
- /data/redishoneypot/log:/var/log/redishoneypot
# SentryPeer service
sentrypeer:
container_name: sentrypeer
restart: always
# SentryPeer offers to exchange bad actor data via DHT / P2P mode by setting the ENV to true (1)
# In some cases (i.e. internally deployed T-Pots) this might be confusing as SentryPeer will show
# the bad actors in its logs. Therefore this option is opt-in based.
# environment:
# - SENTRYPEER_PEER_TO_PEER=0
networks:
- sentrypeer_local
ports:
# - "4222:4222/udp"
- "5060:5060/udp"
# - "127.0.0.1:8082:8082"
image: "dtagdevsec/sentrypeer:2204"
read_only: true
volumes:
- /data/sentrypeer/log:/var/log/sentrypeer
#### Snare / Tanner
## Tanner Redis Service
tanner_redis:
container_name: tanner_redis
restart: always
tty: true
networks:
- tanner_local
image: "dtagdevsec/redis:2204"
read_only: true
## PHP Sandbox service
tanner_phpox:
container_name: tanner_phpox
restart: always
tty: true
networks:
- tanner_local
image: "dtagdevsec/phpox:2204"
read_only: true
## Tanner API Service
tanner_api:
container_name: tanner_api
restart: always
tmpfs:
- /tmp/tanner:uid=2000,gid=2000
tty: true
networks:
- tanner_local
image: "dtagdevsec/tanner:2204"
read_only: true
volumes:
- /data/tanner/log:/var/log/tanner
command: tannerapi
depends_on:
- tanner_redis
## Tanner Service
tanner:
container_name: tanner
restart: always
tmpfs:
- /tmp/tanner:uid=2000,gid=2000
tty: true
networks:
- tanner_local
image: "dtagdevsec/tanner:2204"
command: tanner
read_only: true
volumes:
- /data/tanner/log:/var/log/tanner
- /data/tanner/files:/opt/tanner/files
depends_on:
- tanner_api
# - tanner_web
- tanner_phpox
## Snare Service
snare:
container_name: snare
restart: always
tty: true
networks:
- tanner_local
ports:
- "80:80"
image: "dtagdevsec/snare:2204"
depends_on:
- tanner
##################
#### NSM
##################
# Fatt service
fatt:
container_name: fatt
restart: always
network_mode: "host"
cap_add:
- NET_ADMIN
- SYS_NICE
- NET_RAW
image: "dtagdevsec/fatt:2204"
volumes:
- /data/fatt/log:/opt/fatt/log
# P0f service
p0f:
container_name: p0f
restart: always
network_mode: "host"
image: "dtagdevsec/p0f:2204"
read_only: true
volumes:
- /data/p0f/log:/var/log/p0f
# Suricata service
suricata:
container_name: suricata
restart: always
environment:
# For ET Pro ruleset replace "OPEN" with your OINKCODE
- OINKCODE=OPEN
# Loading externel Rules from URL
# - FROMURL="https://username:password@yoururl.com|https://username:password@otherurl.com"
network_mode: "host"
cap_add:
- NET_ADMIN
- SYS_NICE
- NET_RAW
image: "dtagdevsec/suricata:2204"
volumes:
- /data/suricata/log:/var/log/suricata
##################
#### Tools
##################
# Ewsposter service
ewsposter:
container_name: ewsposter
restart: always
networks:
- ewsposter_local
environment:
- EWS_HPFEEDS_ENABLE=false
- EWS_HPFEEDS_HOST=host
- EWS_HPFEEDS_PORT=port
- EWS_HPFEEDS_CHANNELS=channels
- EWS_HPFEEDS_IDENT=user
- EWS_HPFEEDS_SECRET=secret
- EWS_HPFEEDS_TLSCERT=false
- EWS_HPFEEDS_FORMAT=json
env_file:
- /opt/tpot/etc/compose/elk_environment
image: "dtagdevsec/ewsposter:2204"
volumes:
- /data:/data
- /data/ews/conf/ews.ip:/opt/ewsposter/ews.ip

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_deprecated/etc/compose/standard.yml
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@ -1,662 +0,0 @@
# T-Pot (Standard)
# Do not erase ports sections, these are used by /opt/tpot/bin/rules.sh to setup iptables ACCEPT rules for NFQ (honeytrap / glutton)
version: '2.3'
networks:
adbhoney_local:
ciscoasa_local:
citrixhoneypot_local:
conpot_local_IEC104:
conpot_local_guardian_ast:
conpot_local_ipmi:
conpot_local_kamstrup_382:
cowrie_local:
ddospot_local:
dicompot_local:
dionaea_local:
elasticpot_local:
heralding_local:
ipphoney_local:
mailoney_local:
medpot_local:
redishoneypot_local:
tanner_local:
ewsposter_local:
sentrypeer_local:
spiderfoot_local:
services:
##################
#### Honeypots
##################
# Adbhoney service
adbhoney:
container_name: adbhoney
restart: always
networks:
- adbhoney_local
ports:
- "5555:5555"
image: "dtagdevsec/adbhoney:2204"
read_only: true
volumes:
- /data/adbhoney/log:/opt/adbhoney/log
- /data/adbhoney/downloads:/opt/adbhoney/dl
# Ciscoasa service
ciscoasa:
container_name: ciscoasa
restart: always
tmpfs:
- /tmp/ciscoasa:uid=2000,gid=2000
networks:
- ciscoasa_local
ports:
- "5000:5000/udp"
- "8443:8443"
image: "dtagdevsec/ciscoasa:2204"
read_only: true
volumes:
- /data/ciscoasa/log:/var/log/ciscoasa
# CitrixHoneypot service
citrixhoneypot:
container_name: citrixhoneypot
restart: always
networks:
- citrixhoneypot_local
ports:
- "443:443"
image: "dtagdevsec/citrixhoneypot:2204"
read_only: true
volumes:
- /data/citrixhoneypot/logs:/opt/citrixhoneypot/logs
# Conpot IEC104 service
conpot_IEC104:
container_name: conpot_iec104
restart: always
environment:
- CONPOT_CONFIG=/etc/conpot/conpot.cfg
- CONPOT_JSON_LOG=/var/log/conpot/conpot_IEC104.json
- CONPOT_LOG=/var/log/conpot/conpot_IEC104.log
- CONPOT_TEMPLATE=IEC104
- CONPOT_TMP=/tmp/conpot
tmpfs:
- /tmp/conpot:uid=2000,gid=2000
networks:
- conpot_local_IEC104
ports:
- "161:161/udp"
- "2404:2404"
image: "dtagdevsec/conpot:2204"
read_only: true
volumes:
- /data/conpot/log:/var/log/conpot
# Conpot guardian_ast service
conpot_guardian_ast:
container_name: conpot_guardian_ast
restart: always
environment:
- CONPOT_CONFIG=/etc/conpot/conpot.cfg
- CONPOT_JSON_LOG=/var/log/conpot/conpot_guardian_ast.json
- CONPOT_LOG=/var/log/conpot/conpot_guardian_ast.log
- CONPOT_TEMPLATE=guardian_ast
- CONPOT_TMP=/tmp/conpot
tmpfs:
- /tmp/conpot:uid=2000,gid=2000
networks:
- conpot_local_guardian_ast
ports:
- "10001:10001"
image: "dtagdevsec/conpot:2204"
read_only: true
volumes:
- /data/conpot/log:/var/log/conpot
# Conpot ipmi
conpot_ipmi:
container_name: conpot_ipmi
restart: always
environment:
- CONPOT_CONFIG=/etc/conpot/conpot.cfg
- CONPOT_JSON_LOG=/var/log/conpot/conpot_ipmi.json
- CONPOT_LOG=/var/log/conpot/conpot_ipmi.log
- CONPOT_TEMPLATE=ipmi
- CONPOT_TMP=/tmp/conpot
tmpfs:
- /tmp/conpot:uid=2000,gid=2000
networks:
- conpot_local_ipmi
ports:
- "623:623/udp"
image: "dtagdevsec/conpot:2204"
read_only: true
volumes:
- /data/conpot/log:/var/log/conpot
# Conpot kamstrup_382
conpot_kamstrup_382:
container_name: conpot_kamstrup_382
restart: always
environment:
- CONPOT_CONFIG=/etc/conpot/conpot.cfg
- CONPOT_JSON_LOG=/var/log/conpot/conpot_kamstrup_382.json
- CONPOT_LOG=/var/log/conpot/conpot_kamstrup_382.log
- CONPOT_TEMPLATE=kamstrup_382
- CONPOT_TMP=/tmp/conpot
tmpfs:
- /tmp/conpot:uid=2000,gid=2000
networks:
- conpot_local_kamstrup_382
ports:
- "1025:1025"
- "50100:50100"
image: "dtagdevsec/conpot:2204"
read_only: true
volumes:
- /data/conpot/log:/var/log/conpot
# Cowrie service
cowrie:
container_name: cowrie
restart: always
tmpfs:
- /tmp/cowrie:uid=2000,gid=2000
- /tmp/cowrie/data:uid=2000,gid=2000
networks:
- cowrie_local
ports:
- "22:22"
- "23:23"
image: "dtagdevsec/cowrie:2204"
read_only: true
volumes:
- /data/cowrie/downloads:/home/cowrie/cowrie/dl
- /data/cowrie/keys:/home/cowrie/cowrie/etc
- /data/cowrie/log:/home/cowrie/cowrie/log
- /data/cowrie/log/tty:/home/cowrie/cowrie/log/tty
# Ddospot service
ddospot:
container_name: ddospot
restart: always
networks:
- ddospot_local
ports:
- "19:19/udp"
- "53:53/udp"
- "123:123/udp"
# - "161:161/udp"
- "1900:1900/udp"
image: "dtagdevsec/ddospot:2204"
read_only: true
volumes:
- /data/ddospot/log:/opt/ddospot/ddospot/logs
- /data/ddospot/bl:/opt/ddospot/ddospot/bl
- /data/ddospot/db:/opt/ddospot/ddospot/db
# Dicompot service
# Get the Horos Client for testing: https://horosproject.org/
# Get Dicom images (CC BY 3.0): https://www.cancerimagingarchive.net/collections/
# Put images (which must be in Dicom DCM format or it will not work!) into /data/dicompot/images
dicompot:
container_name: dicompot
restart: always
networks:
- dicompot_local
ports:
- "11112:11112"
image: "dtagdevsec/dicompot:2204"
read_only: true
volumes:
- /data/dicompot/log:/var/log/dicompot
# - /data/dicompot/images:/opt/dicompot/images
# Dionaea service
dionaea:
container_name: dionaea
stdin_open: true
tty: true
restart: always
networks:
- dionaea_local
ports:
- "20:20"
- "21:21"
- "42:42"
- "69:69/udp"
- "81:81"
- "135:135"
# - "443:443"
- "445:445"
- "1433:1433"
- "1723:1723"
- "1883:1883"
- "3306:3306"
# - "5060:5060"
# - "5060:5060/udp"
# - "5061:5061"
- "27017:27017"
image: "dtagdevsec/dionaea:2204"
read_only: true
volumes:
- /data/dionaea/roots/ftp:/opt/dionaea/var/dionaea/roots/ftp
- /data/dionaea/roots/tftp:/opt/dionaea/var/dionaea/roots/tftp
- /data/dionaea/roots/www:/opt/dionaea/var/dionaea/roots/www
- /data/dionaea/roots/upnp:/opt/dionaea/var/dionaea/roots/upnp
- /data/dionaea:/opt/dionaea/var/dionaea
- /data/dionaea/binaries:/opt/dionaea/var/dionaea/binaries
- /data/dionaea/log:/opt/dionaea/var/log
- /data/dionaea/rtp:/opt/dionaea/var/dionaea/rtp
# ElasticPot service
elasticpot:
container_name: elasticpot
restart: always
networks:
- elasticpot_local
ports:
- "9200:9200"
image: "dtagdevsec/elasticpot:2204"
read_only: true
volumes:
- /data/elasticpot/log:/opt/elasticpot/log
# Heralding service
heralding:
container_name: heralding
restart: always
tmpfs:
- /tmp/heralding:uid=2000,gid=2000
networks:
- heralding_local
ports:
# - "21:21"
# - "22:22"
# - "23:23"
# - "25:25"
# - "80:80"
- "110:110"
- "143:143"
# - "443:443"
- "465:465"
- "993:993"
- "995:995"
# - "3306:3306"
# - "3389:3389"
- "1080:1080"
- "5432:5432"
- "5900:5900"
image: "dtagdevsec/heralding:2204"
read_only: true
volumes:
- /data/heralding/log:/var/log/heralding
# Honeytrap service
honeytrap:
container_name: honeytrap
restart: always
tmpfs:
- /tmp/honeytrap:uid=2000,gid=2000
network_mode: "host"
cap_add:
- NET_ADMIN
image: "dtagdevsec/honeytrap:2204"
read_only: true
volumes:
- /data/honeytrap/attacks:/opt/honeytrap/var/attacks
- /data/honeytrap/downloads:/opt/honeytrap/var/downloads
- /data/honeytrap/log:/opt/honeytrap/var/log
# Ipphoney service
ipphoney:
container_name: ipphoney
restart: always
networks:
- ipphoney_local
ports:
- "631:631"
image: "dtagdevsec/ipphoney:2204"
read_only: true
volumes:
- /data/ipphoney/log:/opt/ipphoney/log
# Mailoney service
mailoney:
container_name: mailoney
restart: always
environment:
- HPFEEDS_SERVER=
- HPFEEDS_IDENT=user
- HPFEEDS_SECRET=pass
- HPFEEDS_PORT=20000
- HPFEEDS_CHANNELPREFIX=prefix
networks:
- mailoney_local
ports:
- "25:25"
image: "dtagdevsec/mailoney:2204"
read_only: true
volumes:
- /data/mailoney/log:/opt/mailoney/logs
# Medpot service
medpot:
container_name: medpot
restart: always
networks:
- medpot_local
ports:
- "2575:2575"
image: "dtagdevsec/medpot:2204"
read_only: true
volumes:
- /data/medpot/log/:/var/log/medpot
# Redishoneypot service
redishoneypot:
container_name: redishoneypot
restart: always
networks:
- redishoneypot_local
ports:
- "6379:6379"
image: "dtagdevsec/redishoneypot:2204"
read_only: true
volumes:
- /data/redishoneypot/log:/var/log/redishoneypot
# SentryPeer service
sentrypeer:
container_name: sentrypeer
restart: always
# SentryPeer offers to exchange bad actor data via DHT / P2P mode by setting the ENV to true (1)
# In some cases (i.e. internally deployed T-Pots) this might be confusing as SentryPeer will show
# the bad actors in its logs. Therefore this option is opt-in based.
# environment:
# - SENTRYPEER_PEER_TO_PEER=0
networks:
- sentrypeer_local
ports:
# - "4222:4222/udp"
- "5060:5060/udp"
# - "127.0.0.1:8082:8082"
image: "dtagdevsec/sentrypeer:2204"
read_only: true
volumes:
- /data/sentrypeer/log:/var/log/sentrypeer
#### Snare / Tanner
## Tanner Redis Service
tanner_redis:
container_name: tanner_redis
restart: always
tty: true
networks:
- tanner_local
image: "dtagdevsec/redis:2204"
read_only: true
## PHP Sandbox service
tanner_phpox:
container_name: tanner_phpox
restart: always
tty: true
networks:
- tanner_local
image: "dtagdevsec/phpox:2204"
read_only: true
## Tanner API Service
tanner_api:
container_name: tanner_api
restart: always
tmpfs:
- /tmp/tanner:uid=2000,gid=2000
tty: true
networks:
- tanner_local
image: "dtagdevsec/tanner:2204"
read_only: true
volumes:
- /data/tanner/log:/var/log/tanner
command: tannerapi
depends_on:
- tanner_redis
## Tanner Service
tanner:
container_name: tanner
restart: always
tmpfs:
- /tmp/tanner:uid=2000,gid=2000
tty: true
networks:
- tanner_local
image: "dtagdevsec/tanner:2204"
command: tanner
read_only: true
volumes:
- /data/tanner/log:/var/log/tanner
- /data/tanner/files:/opt/tanner/files
depends_on:
- tanner_api
# - tanner_web
- tanner_phpox
## Snare Service
snare:
container_name: snare
restart: always
tty: true
networks:
- tanner_local
ports:
- "80:80"
image: "dtagdevsec/snare:2204"
depends_on:
- tanner
##################
#### NSM
##################
# Fatt service
fatt:
container_name: fatt
restart: always
network_mode: "host"
cap_add:
- NET_ADMIN
- SYS_NICE
- NET_RAW
image: "dtagdevsec/fatt:2204"
volumes:
- /data/fatt/log:/opt/fatt/log
# P0f service
p0f:
container_name: p0f
restart: always
network_mode: "host"
image: "dtagdevsec/p0f:2204"
read_only: true
volumes:
- /data/p0f/log:/var/log/p0f
# Suricata service
suricata:
container_name: suricata
restart: always
environment:
# For ET Pro ruleset replace "OPEN" with your OINKCODE
- OINKCODE=OPEN
# Loading externel Rules from URL
# - FROMURL="https://username:password@yoururl.com|https://username:password@otherurl.com"
network_mode: "host"
cap_add:
- NET_ADMIN
- SYS_NICE
- NET_RAW
image: "dtagdevsec/suricata:2204"
volumes:
- /data/suricata/log:/var/log/suricata
##################
#### Tools
##################
#### ELK
## Elasticsearch service
elasticsearch:
container_name: elasticsearch
restart: always
environment:
- bootstrap.memory_lock=true
- ES_JAVA_OPTS=-Xms2048m -Xmx2048m
- ES_TMPDIR=/tmp
cap_add:
- IPC_LOCK
ulimits:
memlock:
soft: -1
hard: -1
nofile:
soft: 65536
hard: 65536
mem_limit: 4g
ports:
- "127.0.0.1:64298:9200"
image: "dtagdevsec/elasticsearch:2204"
volumes:
- /data:/data
## Kibana service
kibana:
container_name: kibana
restart: always
depends_on:
elasticsearch:
condition: service_healthy
mem_limit: 1g
ports:
- "127.0.0.1:64296:5601"
image: "dtagdevsec/kibana:2204"
## Logstash service
logstash:
container_name: logstash
restart: always
environment:
- LS_JAVA_OPTS=-Xms1024m -Xmx1024m
depends_on:
elasticsearch:
condition: service_healthy
env_file:
- /opt/tpot/etc/compose/elk_environment
mem_limit: 2g
image: "dtagdevsec/logstash:2204"
volumes:
- /data:/data
## Map Redis Service
map_redis:
container_name: map_redis
restart: always
stop_signal: SIGKILL
tty: true
image: "dtagdevsec/redis:2204"
read_only: true
## Map Web Service
map_web:
container_name: map_web
restart: always
environment:
- MAP_COMMAND=AttackMapServer.py
env_file:
- /opt/tpot/etc/compose/elk_environment
stop_signal: SIGKILL
tty: true
ports:
- "127.0.0.1:64299:64299"
image: "dtagdevsec/map:2204"
## Map Data Service
map_data:
container_name: map_data
restart: always
depends_on:
elasticsearch:
condition: service_healthy
environment:
- MAP_COMMAND=DataServer_v2.py
env_file:
- /opt/tpot/etc/compose/elk_environment
stop_signal: SIGKILL
tty: true
image: "dtagdevsec/map:2204"
#### /ELK
# Ewsposter service
ewsposter:
container_name: ewsposter
restart: always
networks:
- ewsposter_local
environment:
- EWS_HPFEEDS_ENABLE=false
- EWS_HPFEEDS_HOST=host
- EWS_HPFEEDS_PORT=port
- EWS_HPFEEDS_CHANNELS=channels
- EWS_HPFEEDS_IDENT=user
- EWS_HPFEEDS_SECRET=secret
- EWS_HPFEEDS_TLSCERT=false
- EWS_HPFEEDS_FORMAT=json
env_file:
- /opt/tpot/etc/compose/elk_environment
image: "dtagdevsec/ewsposter:2204"
volumes:
- /data:/data
- /data/ews/conf/ews.ip:/opt/ewsposter/ews.ip
# Nginx service
nginx:
container_name: nginx
restart: always
tmpfs:
- /var/tmp/nginx/client_body
- /var/tmp/nginx/proxy
- /var/tmp/nginx/fastcgi
- /var/tmp/nginx/uwsgi
- /var/tmp/nginx/scgi
- /run
- /var/lib/nginx/tmp:uid=100,gid=82
network_mode: "host"
# ports:
# - "64297:64297"
# - "127.0.0.1:64304:64304"
image: "dtagdevsec/nginx:2204"
read_only: true
volumes:
- /data/nginx/cert/:/etc/nginx/cert/:ro
- /data/nginx/conf/nginxpasswd:/etc/nginx/nginxpasswd:ro
- /data/nginx/log/:/var/log/nginx/
# Spiderfoot service
spiderfoot:
container_name: spiderfoot
restart: always
networks:
- spiderfoot_local
ports:
- "127.0.0.1:64303:8080"
image: "dtagdevsec/spiderfoot:2204"
volumes:
- /data/spiderfoot:/home/spiderfoot/.spiderfoot

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_deprecated/etc/compose/tarpit.yml
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@ -1,287 +0,0 @@
# T-Pot (Tarpit)
# Do not erase ports sections, these are used by /opt/tpot/bin/rules.sh to setup iptables ACCEPT rules for NFQ (honeytrap / glutton)
version: '2.3'
networks:
endlessh_local:
hellpot_local:
heralding_local:
ewsposter_local:
spiderfoot_local:
services:
##################
#### Honeypots
##################
# Endlessh service
endlessh:
container_name: endlessh
restart: always
networks:
- endlessh_local
ports:
- "22:2222"
image: "dtagdevsec/endlessh:2204"
read_only: true
volumes:
- /data/endlessh/log:/var/log/endlessh
# Heralding service
heralding:
container_name: heralding
restart: always
tmpfs:
- /tmp/heralding:uid=2000,gid=2000
networks:
- heralding_local
ports:
# - "21:21"
# - "22:22"
# - "23:23"
# - "25:25"
# - "80:80"
- "110:110"
- "143:143"
# - "443:443"
- "465:465"
- "993:993"
- "995:995"
# - "3306:3306"
# - "3389:3389"
- "1080:1080"
- "5432:5432"
- "5900:5900"
image: "dtagdevsec/heralding:2204"
read_only: true
volumes:
- /data/heralding/log:/var/log/heralding
# Honeytrap service
honeytrap:
container_name: honeytrap
restart: always
tmpfs:
- /tmp/honeytrap:uid=2000,gid=2000
network_mode: "host"
cap_add:
- NET_ADMIN
image: "dtagdevsec/honeytrap:2204"
read_only: true
volumes:
- /data/honeytrap/attacks:/opt/honeytrap/var/attacks
- /data/honeytrap/downloads:/opt/honeytrap/var/downloads
- /data/honeytrap/log:/opt/honeytrap/var/log
# Hellpot service
hellpot:
container_name: hellpot
restart: always
networks:
- hellpot_local
ports:
- "80:8080"
image: "dtagdevsec/hellpot:2204"
read_only: true
volumes:
- /data/hellpot/log:/var/log/hellpot
##################
#### NSM
##################
# Fatt service
fatt:
container_name: fatt
restart: always
network_mode: "host"
cap_add:
- NET_ADMIN
- SYS_NICE
- NET_RAW
image: "dtagdevsec/fatt:2204"
volumes:
- /data/fatt/log:/opt/fatt/log
# P0f service
p0f:
container_name: p0f
restart: always
network_mode: "host"
image: "dtagdevsec/p0f:2204"
read_only: true
volumes:
- /data/p0f/log:/var/log/p0f
# Suricata service
suricata:
container_name: suricata
restart: always
environment:
# For ET Pro ruleset replace "OPEN" with your OINKCODE
- OINKCODE=OPEN
# Loading externel Rules from URL
# - FROMURL="https://username:password@yoururl.com|https://username:password@otherurl.com"
network_mode: "host"
cap_add:
- NET_ADMIN
- SYS_NICE
- NET_RAW
image: "dtagdevsec/suricata:2204"
volumes:
- /data/suricata/log:/var/log/suricata
##################
#### Tools
##################
#### ELK
## Elasticsearch service
elasticsearch:
container_name: elasticsearch
restart: always
environment:
- bootstrap.memory_lock=true
- ES_JAVA_OPTS=-Xms2048m -Xmx2048m
- ES_TMPDIR=/tmp
cap_add:
- IPC_LOCK
ulimits:
memlock:
soft: -1
hard: -1
nofile:
soft: 65536
hard: 65536
mem_limit: 4g
ports:
- "127.0.0.1:64298:9200"
image: "dtagdevsec/elasticsearch:2204"
volumes:
- /data:/data
## Kibana service
kibana:
container_name: kibana
restart: always
depends_on:
elasticsearch:
condition: service_healthy
mem_limit: 1g
ports:
- "127.0.0.1:64296:5601"
image: "dtagdevsec/kibana:2204"
## Logstash service
logstash:
container_name: logstash
restart: always
environment:
- LS_JAVA_OPTS=-Xms1024m -Xmx1024m
depends_on:
elasticsearch:
condition: service_healthy
env_file:
- /opt/tpot/etc/compose/elk_environment
mem_limit: 2g
image: "dtagdevsec/logstash:2204"
volumes:
- /data:/data
## Map Redis Service
map_redis:
container_name: map_redis
restart: always
stop_signal: SIGKILL
tty: true
image: "dtagdevsec/redis:2204"
read_only: true
## Map Web Service
map_web:
container_name: map_web
restart: always
environment:
- MAP_COMMAND=AttackMapServer.py
env_file:
- /opt/tpot/etc/compose/elk_environment
stop_signal: SIGKILL
tty: true
ports:
- "127.0.0.1:64299:64299"
image: "dtagdevsec/map:2204"
## Map Data Service
map_data:
container_name: map_data
restart: always
depends_on:
elasticsearch:
condition: service_healthy
environment:
- MAP_COMMAND=DataServer_v2.py
env_file:
- /opt/tpot/etc/compose/elk_environment
stop_signal: SIGKILL
tty: true
image: "dtagdevsec/map:2204"
#### /ELK
# Ewsposter service
ewsposter:
container_name: ewsposter
restart: always
networks:
- ewsposter_local
environment:
- EWS_HPFEEDS_ENABLE=false
- EWS_HPFEEDS_HOST=host
- EWS_HPFEEDS_PORT=port
- EWS_HPFEEDS_CHANNELS=channels
- EWS_HPFEEDS_IDENT=user
- EWS_HPFEEDS_SECRET=secret
- EWS_HPFEEDS_TLSCERT=false
- EWS_HPFEEDS_FORMAT=json
env_file:
- /opt/tpot/etc/compose/elk_environment
image: "dtagdevsec/ewsposter:2204"
volumes:
- /data:/data
- /data/ews/conf/ews.ip:/opt/ewsposter/ews.ip
# Nginx service
nginx:
container_name: nginx
restart: always
tmpfs:
- /var/tmp/nginx/client_body
- /var/tmp/nginx/proxy
- /var/tmp/nginx/fastcgi
- /var/tmp/nginx/uwsgi
- /var/tmp/nginx/scgi
- /run
- /var/lib/nginx/tmp:uid=100,gid=82
network_mode: "host"
# ports:
# - "64297:64297"
# - "127.0.0.1:64304:64304"
image: "dtagdevsec/nginx:2204"
read_only: true
volumes:
- /data/nginx/cert/:/etc/nginx/cert/:ro
- /data/nginx/conf/nginxpasswd:/etc/nginx/nginxpasswd:ro
- /data/nginx/log/:/var/log/nginx/
# Spiderfoot service
spiderfoot:
container_name: spiderfoot
restart: always
networks:
- spiderfoot_local
ports:
- "127.0.0.1:64303:8080"
image: "dtagdevsec/spiderfoot:2204"
volumes:
- /data/spiderfoot:/home/spiderfoot/.spiderfoot

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_deprecated/etc/logrotate/logrotate.conf
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@ -1,69 +0,0 @@
/data/adbhoney/log/*.json
/data/adbhoney/log/*.log
/data/ciscoasa/log/ciscoasa.log
/data/citrixhoneypot/logs/server.log
/data/conpot/log/conpot*.json
/data/conpot/log/conpot*.log
/data/cowrie/log/cowrie.json
/data/cowrie/log/cowrie-textlog.log
/data/cowrie/log/lastlog.txt
/data/ddospot/log/*.log
/data/dicompot/log/dicompot.log
/data/dionaea/log/dionaea.json
/data/dionaea/log/dionaea.sqlite
/data/dionaea/dionaea-errors.log
/data/elasticpot/log/elasticpot.log
/data/elasticpot/log/elasticpot.json
/data/elk/log/*.log
/data/endlessh/log/*.log
/data/fatt/log/fatt.log
/data/glutton/log/*.log
/data/glutton/log/*.err
/data/hellpot/log/*.log
/data/heralding/log/*.log
/data/heralding/log/*.csv
/data/heralding/log/*.json
/data/honeypots/log/*.log
/data/honeysap/log/*.log
/data/honeytrap/log/*.log
/data/honeytrap/log/*.json
/data/ipphoney/log/*.json
/data/log4pot/log/*.log
/data/mailoney/log/*.log
/data/medpot/log/*.log
/data/nginx/log/*.log
/data/p0f/log/p0f.json
/data/rdpy/log/rdpy.log
/data/redishoneypot/log/*.log
/data/sentrypeer/log/*.json
/data/suricata/log/*.log
/data/suricata/log/*.json
/data/tanner/log/*.json
{
su tpot tpot
copytruncate
create 770 tpot tpot
daily
missingok
notifempty
rotate 30
compress
compresscmd /usr/bin/pigz
}
/data/adbhoney/downloads.tgz
/data/cowrie/log/ttylogs.tgz
/data/cowrie/downloads.tgz
/data/dionaea/bistreams.tgz
/data/dionaea/binaries.tgz
/data/honeytrap/attacks.tgz
/data/honeytrap/downloads.tgz
{
su tpot tpot
copytruncate
create 770 tpot tpot
daily
missingok
notifempty
rotate 30
}

BIN
_deprecated/etc/objects/elkbase.tgz
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BIN
_deprecated/etc/objects/kibana_export.ndjson.zip
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3
_deprecated/host/etc/rc.local
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@ -1,3 +0,0 @@
#!/bin/bash
/opt/tpot/bin/updateip.sh
exit 0

42
_deprecated/host/etc/systemd/tpot.service
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@ -1,42 +0,0 @@
[Unit]
Description=tpot
Requires=docker.service
After=docker.service
[Service]
Restart=always
RestartSec=5
TimeoutSec=infinity
# Get and set internal, external IP infos, but ignore errors
ExecStartPre=-/opt/tpot/bin/updateip.sh
# Clear state or if persistence is enabled rotate and compress logs from /data
ExecStartPre=-/bin/bash -c '/opt/tpot/bin/clean.sh on'
# Remove old containers, images and volumes
ExecStartPre=/opt/tpot/bin/tpdclean.sh -y
# Get IF, disable offloading, enable promiscious mode for p0f and suricata
ExecStartPre=-/bin/bash -c '/sbin/ethtool --offload $(/sbin/ip address | grep "^2: " | awk \'{ print $2 }\' | tr -d [:punct:]) rx off tx off'
ExecStartPre=/bin/bash -c '/sbin/ethtool -K $(/sbin/ip address | grep "^2: " | awk \'{ print $2 }\' | tr -d [:punct:]) gso off gro off'
ExecStartPre=/bin/bash -c '/sbin/ip link set $(/sbin/ip address | grep "^2: " | awk \'{ print $2 }\' | tr -d [:punct:]) promisc on'
# Set iptables accept rules to avoid forwarding to honeytrap / NFQUEUE
# Forward all other connections to honeytrap / NFQUEUE
ExecStartPre=/opt/tpot/bin/rules.sh /opt/tpot/etc/tpot.yml set
# Compose T-Pot up
ExecStart=/usr/bin/docker-compose -f /opt/tpot/etc/tpot.yml up --no-color
# We want to see true source for UDP packets in container (https://github.com/moby/libnetwork/issues/1994)
ExecStartPost=/bin/bash -c '/usr/bin/sleep 30 && /usr/sbin/conntrack -D -p udp'
# Compose T-Pot down, remove containers and volumes
ExecStop=/usr/bin/docker-compose -f /opt/tpot/etc/tpot.yml down -v
# Remove only previously set iptables rules
ExecStopPost=/opt/tpot/bin/rules.sh /opt/tpot/etc/tpot.yml unset
[Install]
WantedBy=multi-user.target

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_deprecated/host/usr/share/dict/n.txt
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_deprecated/host/usr/share/dict/names
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_deprecated/install.sh
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@ -1,3 +0,0 @@
#!/bin/bash
cd iso/installer
./install.sh "$@"

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_deprecated/installer/debian/install.sh
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@ -1,77 +0,0 @@
#!/bin/bash
# Needs to run as non-root
myWHOAMI=$(whoami)
if [ "$myWHOAMI" == "root" ]
then
echo "Need to run as user ..."
exit
fi
# Check if running on Debian
if ! grep -q 'ID=debian' /etc/os-release; then
echo "This script is designed to run on Debian. Aborting."
exit 1
fi
if [ -f /var/log/debian-install-lock ]; then
echo "Error: The installer has already been run on this system. If you wish to run it again, please run the uninstall.sh first."
exit 1
fi
# Create installer lock file
sudo touch /var/log/debian-install-lock
# Update SSH config
echo "Updating SSH config..."
sudo bash -c 'echo "Port 64295" >> /etc/ssh/sshd_config'
# Install recommended packages
echo "Installing recommended packages..."
sudo apt-get -y update
sudo apt-get -y install bash-completion git grc neovim net-tools
# Remove old Docker
echo "Removing old docker packages..."
sudo apt-get -y remove docker docker-engine docker.io containerd runc
# Add Docker to repositories, install latest docker
echo "Adding Docker to repositories and installing..."
sudo apt-get -y update
sudo apt-get -y install ca-certificates curl gnupg
sudo install -m 0755 -d /etc/apt/keyrings
curl -fsSL https://download.docker.com/linux/debian/gpg | sudo gpg --dearmor -o /etc/apt/keyrings/docker.gpg
sudo chmod a+r /etc/apt/keyrings/docker.gpg
echo \
"deb [arch="$(dpkg --print-architecture)" signed-by=/etc/apt/keyrings/docker.gpg] https://download.docker.com/linux/debian \
"$(. /etc/os-release && echo "$VERSION_CODENAME")" stable" | \
sudo tee /etc/apt/sources.list.d/docker.list > /dev/null
sudo apt-get -y update
sudo apt-get -y install docker-ce docker-ce-cli containerd.io docker-buildx-plugin docker-compose-plugin
sudo systemctl enable docker
sudo systemctl stop docker
sudo systemctl start docker
# Add T-Pot user and group to avoid any permission denied on the data folder while keeping permissions 770
echo "Creating T-Pot group and user ..."
addgroup --gid 2000 tpot
adduser --system --no-create-home --uid 2000 --disabled-password --disabled-login --gid 2000 tpot
# Add user to Docker, T-Pot group
echo "Adding $(whoami) to Docker group..."
sudo usermod -aG docker $(whoami)
echo "Adding $(whoami) to T-Pot group..."
sudo usermod -aG tpot $(whoami)
# Add aliases
echo "Adding aliases..."
echo "alias dps='grc docker ps -a'" >> ~/.bashrc
echo "alias dpsw='watch -c \"grc --colour=on docker ps -a\"'" >> ~/.bashrc
# Show running services
sudo grc netstat -tulpen
echo "Please review for possible honeypot port conflicts."
echo "While SSH is taken care of, other services such as"
echo "SMTP, HTTP, etc. might prevent T-Pot from starting."
echo "Done. Please reboot and re-connect via SSH on tcp/64295."

10
_deprecated/installer/debian/sudo-install.sh
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@ -1,10 +0,0 @@
#!/bin/bash
if ! command -v sudo &> /dev/null
then
echo "sudo is not installed. Installing now..."
su -c "apt-get -y update && apt-get -y install sudo"
su -c "/usr/sbin/usermod -aG sudo $(whoami)"
else
echo "sudo is already installed."
fi

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_deprecated/installer/debian/uninstall.sh
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@ -1,59 +0,0 @@
#!/bin/bash
# Needs to run as non-root
myWHOAMI=$(whoami)
if [ "$myWHOAMI" == "root" ]
then
echo "Need to run as user ..."
exit
fi
# Check if running on Debian
if ! grep -q 'ID=debian' /etc/os-release; then
echo "This script is designed to run on Debian. Aborting."
exit 1
fi
# Check if installer lock file exists
if [ ! -f /var/log/debian-install-lock ]; then
echo "Error: The installer has not been run on this system. Aborting."
exit 1
fi
# Remove SSH config changes
echo "Removing SSH config changes..."
sudo sed -i '/Port 64295/d' /etc/ssh/sshd_config
# Uninstall Docker
echo "Stopping and removing all containers ..."
docker stop $(docker ps -aq)
docker rm $(docker ps -aq)
echo "Uninstalling Docker..."
sudo systemctl stop docker
sudo systemctl disable docker
sudo apt-get -y remove docker-ce docker-ce-cli containerd.io docker-buildx-plugin docker-compose-plugin
sudo apt-get -y autoremove
sudo rm -rf /etc/apt/sources.list.d/docker.list
sudo rm -rf /etc/apt/keyrings/docker.gpg
# Remove user from Docker, T-Pot group
echo "Removing $(whoami) from T-Pot group..."
sudo deluser $(whoami) tpot
echo "Removing $(whoami) from Docker group..."
sudo deluser $(whoami) docker
# Remove T-Pot user and group
echo "Removing T-Pot user..."
sudo deluser tpot
echo "Removing T-Pot group..."
sudo delgroup tpot
# Remove aliases
echo "Removing aliases..."
sed -i '/alias dps=/d' ~/.bashrc
sed -i '/alias dpsw=/d' ~/.bashrc
# Remove installer lock file
sudo rm -f /var/log/debian-install-lock
echo "Done. Please reboot and re-connect via SSH on tcp/22"

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_deprecated/installer/fedora/install.sh
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@ -1,85 +0,0 @@
#!/bin/bash
# Needs to run as non-root
myWHOAMI=$(whoami)
if [ "$myWHOAMI" == "root" ]
then
echo "Need to run as user ..."
exit
fi
# Check if running on Fedora
if ! grep -q 'ID=fedora' /etc/os-release; then
echo "This script is designed to run on Fedora. Aborting."
exit 1
fi
if [ -f /var/log/fedora-install-lock ]; then
echo "Error: The installer has already been run on this system. If you wish to run it again, please run the uninstall.sh first."
exit 1
fi
# Create installer lock file
sudo touch /var/log/fedora-install-lock
# Update SSH config
echo "Updating SSH config..."
sudo bash -c 'echo "Port 64295" >> /etc/ssh/sshd_config'
# Update DNS config
echo "Updating DNS config..."
sudo bash -c "sed -i 's/^.*DNSStubListener=.*/DNSStubListener=no/' /etc/systemd/resolved.conf"
sudo systemctl restart systemd-resolved.service
# Update SELinux config
echo "Updating SELinux config..."
sudo sed -i s/SELINUX=enforcing/SELINUX=permissive/g /etc/selinux/config
# Update Firewall rules
echo "Updating Firewall rules..."
sudo firewall-cmd --permanent --add-port=64295/tcp
sudo firewall-cmd --permanent --zone=public --set-target=ACCEPT
#sudo firewall-cmd --reload
sudo firewall-cmd --list-all
# Load kernel modules
echo "Loading kernel modules..."
sudo modprobe -v iptable_filter
echo "iptable_filter" | sudo tee /etc/modules-load.d/iptables.conf
# Add Docker to repositories, install latest docker
echo "Adding Docker to repositories and installing..."
sudo dnf -y update
sudo dnf -y install dnf-plugins-core
sudo dnf -y config-manager --add-repo https://download.docker.com/linux/fedora/docker-ce.repo
sudo dnf -y install docker-ce docker-ce-cli containerd.io docker-buildx-plugin docker-compose-plugin
sudo systemctl enable docker
sudo systemctl start docker
# Install recommended packages
echo "Installing recommended packages..."
sudo dnf -y install bash-completion git grc net-tools
# Add T-Pot user and group to avoid any permission denied on the data folder while keeping permissions 770
echo "Creating T-Pot group and user..."
sudo groupadd -g 2000 tpot
sudo useradd -r -u 2000 -g 2000 -M -s /sbin/nologin tpot
# Add user to Docker, T-Pot group
echo "Adding $(whoami) to Docker group..."
sudo usermod -aG docker $(whoami)
echo "Adding $(whoami) to T-Pot group..."
sudo usermod -aG tpot $(whoami)
# Add aliases
echo "Adding aliases..."
echo "alias dps='grc docker ps -a'" >> ~/.bashrc
echo "alias dpsw='watch -c \"grc --colour=on docker ps -a\"'" >> ~/.bashrc
# Show running services
sudo grc netstat -tulpen
echo "Please review for possible honeypot port conflicts."
echo "While SSH is taken care of, other services such as"
echo "SMTP, HTTP, etc. might prevent T-Pot from starting."
echo "Done. Please reboot and re-connect via SSH on tcp/64295."

78
_deprecated/installer/fedora/uninstall.sh
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@ -1,78 +0,0 @@
#!/bin/bash
# Needs to run as non-root
myWHOAMI=$(whoami)
if [ "$myWHOAMI" == "root" ]
then
echo "Need to run as user ..."
exit
fi
# Check if running on Fedora
if ! grep -q 'ID=fedora' /etc/os-release; then
echo "This script is designed to run on Fedora. Aborting."
exit 1
fi
if [ ! -f /var/log/fedora-install-lock ]; then
echo "Error: The installer has not been run on this system. Aborting uninstallation."
exit 1
fi
# Remove SSH config changes
echo "Removing SSH config changes..."
sudo sed -i '/Port 64295/d' /etc/ssh/sshd_config
# Remove DNS config changes
echo "Updating DNS config..."
sudo bash -c "sed -i 's/^.*DNSStubListener=.*/#DNSStubListener=yes/' /etc/systemd/resolved.conf"
sudo systemctl restart systemd-resolved.service
# Restore SELinux config
echo "Restoring SELinux config..."
sudo sed -i s/SELINUX=permissive/SELINUX=enforcing/g /etc/selinux/config
# Remove Firewall rules
echo "Removing Firewall rules..."
sudo firewall-cmd --permanent --remove-port=64295/tcp
sudo firewall-cmd --permanent --zone=public --set-target=default
#sudo firewall-cmd --reload
sudo firewall-cmd --list-all
# Unload kernel modules
echo "Unloading kernel modules..."
sudo modprobe -rv iptable_filter
sudo rm /etc/modules-load.d/iptables.conf
# Uninstall Docker
echo "Stopping and removing all containers ..."
docker stop $(docker ps -aq)
docker rm $(docker ps -aq)
echo "Uninstalling Docker..."
sudo systemctl stop docker
sudo systemctl disable docker
sudo dnf -y remove docker-ce docker-ce-cli containerd.io docker-buildx-plugin docker-compose-plugin
sudo dnf config-manager --disable docker-ce-stable
sudo rm /etc/yum.repos.d/docker-ce.repo
# Remove user from Docker, T-Pot group
echo "Removing $(whoami) from T-Pot group..."
sudo gpasswd -d $(whoami) tpot
echo "Removing $(whoami) from Docker group..."
sudo gpasswd -d $(whoami) docker
# Remove T-Pot user and group
echo "Removing T-Pot user..."
sudo userdel tpot
echo "Removing T-Pot group..."
sudo groupdel tpot
# Remove aliases
echo "Removing aliases..."
sed -i '/alias dps=/d' ~/.bashrc
sed -i '/alias dpsw=/d' ~/.bashrc
# Remove installer lock file
sudo rm /var/log/fedora-install-lock
echo "Done. Please reboot and re-connect via SSH on tcp/22"

70
_deprecated/installer/suse/install.sh
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#!/bin/bash
# Needs to run as non-root
myWHOAMI=$(whoami)
if [ "$myWHOAMI" == "root" ]
then
echo "Need to run as user ..."
exit
fi
# Check if running on OpenSuse Tumbleweed
if ! grep -q 'ID="opensuse-tumbleweed"' /etc/os-release; then
echo "This script is designed to run on OpenSuse Tumbleweed. Aborting."
exit 1
fi
if [ -f /var/log/suse-install-lock ]; then
echo "Error: The installer has already been run on this system. If you wish to run it again, please run the uninstall.sh first."
exit 1
fi
# Create installer lock file
sudo touch /var/log/suse-install-lock
# Update SSH config
echo "Updating SSH config..."
sudo bash -c 'echo "Port 64295" >> /etc/ssh/sshd_config.d/port.conf'
# Update Firewall rules
echo "Updating Firewall rules..."
sudo firewall-cmd --permanent --add-port=64295/tcp
sudo firewall-cmd --permanent --zone=public --set-target=ACCEPT
#sudo firewall-cmd --reload
sudo firewall-cmd --list-all
# Install docker and recommended packages
echo "Installing recommended packages..."
sudo zypper -n update
sudo zypper -n remove cups net-tools postfix yast2-auth-client yast2-auth-server
sudo zypper -n install bash-completion docker docker-compose git grc busybox-net-tools
# Enable and start docker
echo "Enabling and starting docker..."
systemctl enable docker
systemctl start docker
# Add T-Pot user and group to avoid any permission denied on the data folder while keeping permissions 770
echo "Creating T-Pot group and user ..."
sudo groupadd -g 2000 tpot
sudo useradd -r -u 2000 -g 2000 -s /sbin/nologin tpot
# Add user to Docker, T-Pot group
echo "Adding $(whoami) to Docker group..."
sudo usermod -a -G docker $(whoami)
echo "Adding $(whoami) to T-Pot group..."
sudo usermod -a -G tpot $(whoami)
# Add aliases
echo "Adding aliases..."
echo "alias dps='grc docker ps -a'" >> ~/.bashrc
echo "alias dpsw='watch -c \"grc --colour=on docker ps -a\"'" >> ~/.bashrc
# Show running services
sudo grc netstat -tulpen
echo "Please review for possible honeypot port conflicts."
echo "While SSH is taken care of, other services such as"
echo "SMTP, HTTP, etc. might prevent T-Pot from starting."
echo "Done. Please reboot and re-connect via SSH on tcp/64295."

63
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#!/bin/bash
# Needs to run as non-root
myWHOAMI=$(whoami)
if [ "$myWHOAMI" == "root" ]
then
echo "Need to run as user ..."
exit
fi
# Check if running on OpenSuse Tumbleweed
if ! grep -q 'ID="opensuse-tumbleweed"' /etc/os-release; then
echo "This script is designed to run on OpenSuse Tumbleweed. Aborting."
exit 1
fi
if [ ! -f /var/log/suse-install-lock ]; then
echo "Error: The installer has not been run on this system. Aborting uninstallation."
exit 1
fi
# Remove SSH config changes
echo "Removing SSH config changes..."
sudo sed -i '/Port 64295/d' /etc/ssh/sshd_config.d/port.conf
# Remove Firewall rules
echo "Removing Firewall rules..."
sudo firewall-cmd --permanent --remove-port=64295/tcp
sudo firewall-cmd --permanent --zone=public --set-target=default
#sudo firewall-cmd --reload
sudo firewall-cmd --list-all
# Uninstall Docker
echo "Stopping and removing all containers ..."
docker stop $(docker ps -aq)
docker rm $(docker ps -aq)
echo "Uninstalling Docker..."
sudo systemctl stop docker
sudo systemctl disable docker
sudo zypper -n remove docker docker-compose
sudo zypper -n install cups postfix
# Remove user from Docker, T-Pot group
echo "Removing $(whoami) from T-Pot group..."
sudo gpasswd -d $(whoami) tpot
echo "Removing $(whoami) from Docker group..."
sudo gpasswd -d $(whoami) docker
# Remove T-Pot user and group
echo "Removing T-Pot user..."
sudo userdel tpot
echo "Removing T-Pot group..."
sudo groupdel tpot
# Remove aliases
echo "Removing aliases..."
sed -i '/alias dps=/d' ~/.bashrc
sed -i '/alias dpsw=/d' ~/.bashrc
# Remove installer lock file
sudo rm /var/log/suse-install-lock
echo "Done. Please reboot and re-connect via SSH on tcp/22"

85
_deprecated/installer/ubuntu/install.sh
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@ -1,85 +0,0 @@
#!/bin/bash
# Needs to run as non-root
myWHOAMI=$(whoami)
if [ "$myWHOAMI" == "root" ]
then
echo "Need to run as user ..."
exit
fi
# Check if running on Ubuntu
if ! grep -q 'ID=ubuntu' /etc/os-release; then
echo "This script is designed to run on Ubuntu. Aborting."
exit 1
fi
if [ -f /var/log/ubuntu-install-lock ]; then
echo "Error: The installer has already been run on this system. If you wish to run it again, please run the uninstall.sh first."
exit 1
fi
# Create installer lock file
sudo touch /var/log/ubuntu-install-lock
# Update SSH config
echo "Updating SSH config..."
sudo bash -c 'echo "Port 64295" >> /etc/ssh/sshd_config'
sudo systemctl disable ssh.socket
sudo rm /etc/systemd/system/ssh.service.d/00-socket.conf
sudo systemctl enable ssh.service
# Update DNS config
echo "Updating DNS config..."
sudo bash -c "sed -i 's/^.*DNSStubListener=.*/DNSStubListener=no/' /etc/systemd/resolved.conf"
sudo systemctl restart systemd-resolved.service
# Install recommended packages
echo "Installing recommended packages..."
sudo apt-get -y update
sudo apt-get -y install bash-completion git grc net-tools vim
# Remove old Docker
echo "Removing old docker packages..."
sudo apt-get -y remove docker docker-engine docker.io containerd runc
# Add Docker to repositories, install latest docker
echo "Adding Docker to repositories and installing..."
sudo apt-get -y update
sudo apt-get -y install ca-certificates curl gnupg
sudo install -m 0755 -d /etc/apt/keyrings
curl -fsSL https://download.docker.com/linux/ubuntu/gpg | sudo gpg --dearmor -o /etc/apt/keyrings/docker.gpg
sudo chmod a+r /etc/apt/keyrings/docker.gpg
echo \
"deb [arch="$(dpkg --print-architecture)" signed-by=/etc/apt/keyrings/docker.gpg] https://download.docker.com/linux/ubuntu \
"$(. /etc/os-release && echo "$VERSION_CODENAME")" stable" | \
sudo tee /etc/apt/sources.list.d/docker.list > /dev/null
sudo apt-get -y update
sudo apt-get -y install docker-ce docker-ce-cli containerd.io docker-buildx-plugin docker-compose-plugin
sudo systemctl enable docker
sudo systemctl stop docker
sudo systemctl start docker
# Add T-Pot user and group to avoid any permission denied on the data folder while keeping permissions 770
echo "Creating T-Pot group and user ..."
addgroup --gid 2000 tpot
adduser --system --no-create-home --uid 2000 --disabled-password --disabled-login --gid 2000 tpot
# Add user to Docker, T-Pot group
echo "Adding $(whoami) to Docker group..."
sudo usermod -aG docker $(whoami)
echo "Adding $(whoami) to T-Pot group..."
sudo usermod -aG tpot $(whoami)
# Add aliases
echo "Adding aliases..."
echo "alias dps='grc docker ps -a'" >> ~/.bashrc
echo "alias dpsw='watch -c \"grc --colour=on docker ps -a\"'" >> ~/.bashrc
# Show running services
sudo grc netstat -tulpen
echo "Please review for possible honeypot port conflicts."
echo "While SSH is taken care of, other services such as"
echo "SMTP, HTTP, etc. might prevent T-Pot from starting."
echo "Done. Please reboot and re-connect via SSH on tcp/64295."

66
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@ -1,66 +0,0 @@
#!/bin/bash
# Needs to run as non-root
myWHOAMI=$(whoami)
if [ "$myWHOAMI" == "root" ]
then
echo "Need to run as user ..."
exit
fi
# Check if running on Ubuntu
if ! grep -q 'ID=ubuntu' /etc/os-release; then
echo "This script is designed to run on Ubuntu. Aborting."
exit 1
fi
# Check if installer lock file exists
if [ ! -f /var/log/ubuntu-install-lock ]; then
echo "Error: The installer has not been run on this system. Aborting."
exit 1
fi
# Remove SSH config changes
echo "Removing SSH config changes..."
sudo sed -i '/Port 64295/d' /etc/ssh/sshd_config
sudo systemctl disable ssh.service
sudo systemctl enable ssh.socket
# Remove DNS config changes
echo "Updating DNS config..."
sudo bash -c "sed -i 's/^.*DNSStubListener=.*/#DNSStubListener=yes/' /etc/systemd/resolved.conf"
sudo systemctl restart systemd-resolved.service
# Uninstall Docker
echo "Stopping and removing all containers ..."
docker stop $(docker ps -aq)
docker rm $(docker ps -aq)
echo "Uninstalling Docker..."
sudo systemctl stop docker
sudo systemctl disable docker
sudo apt-get -y remove docker-ce docker-ce-cli containerd.io docker-buildx-plugin docker-compose-plugin
sudo apt-get -y autoremove
sudo rm -rf /etc/apt/sources.list.d/docker.list
sudo rm -rf /etc/apt/keyrings/docker.gpg
# Remove user from Docker, T-Pot group
echo "Removing $(whoami) from T-Pot group..."
sudo deluser $(whoami) tpot
echo "Removing $(whoami) from Docker group..."
sudo deluser $(whoami) docker
# Remove T-Pot user and group
echo "Removing T-Pot user..."
sudo deluser tpot
echo "Removing T-Pot group..."
sudo delgroup tpot
# Remove aliases
echo "Removing aliases..."
sed -i '/alias dps=/d' ~/.bashrc
sed -i '/alias dpsw=/d' ~/.bashrc
# Remove installer lock file
sudo rm -f /var/log/ubuntu-install-lock
echo "Done. Please reboot and re-connect via SSH on tcp/22"

922
_deprecated/iso/installer/install.sh
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@ -1,922 +0,0 @@
#!/bin/bash
# T-Pot Universal Installer
# Installer can only be executed once.
myTPOT_INSTALL_LOG="/install.log"
if [ -s "$myTPOT_INSTALL_LOG" ];
then
echo "Aborting. Installer can only be executed once."
exit
fi
##################
# I. Global vars #
##################
myBACKTITLE="T-Pot-Installer"
myCONF_FILE="/root/installer/iso.conf"
myPROGRESSBOXCONF=" --backtitle "$myBACKTITLE" --progressbox 24 80"
mySITES="https://ghcr.io https://github.com https://pypi.python.org https://debian.org"
myTPOTCOMPOSE="/opt/tpot/etc/tpot.yml"
myLSB_STABLE_SUPPORTED="bullseye"
myLSB_TESTING_SUPPORTED="stable"
myREMOTESITES="https://hub.docker.com https://github.com https://pypi.python.org https://debian.org https://listbot.sicherheitstacho.eu"
myPREINSTALLPACKAGES="aria2 apache2-utils cracklib-runtime curl dialog figlet fuse grc libcrack2 libpq-dev lsb-release net-tools software-properties-common toilet"
if [ -f "../../packages.txt" ];
then myINSTALLPACKAGESFILE="../../packages.txt"
elif [ -f "/opt/tpot/packages.txt" ];
then myINSTALLPACKAGESFILE="/opt/tpot/packages.txt"
elif [ -f "/root/tpot/packages.txt" ];
then myINSTALLPACKAGESFILE="/root/tpot/packages.txt"
else
echo "packages.txt NOT FOUND."
exit 1
fi
myINSTALLPACKAGES=$(cat $myINSTALLPACKAGESFILE)
myINFO="\
###########################################
### T-Pot Installer for Debian (Stable) ###
###########################################
Disclaimer:
This script will install T-Pot on this system.
By running the script you know what you are doing:
1. SSH will be reconfigured to tcp/64295.
2. Please ensure other means of access to this system in case something goes wrong.
3. At best this script will be executed on the console instead through a SSH session.
########################################
Usage:
$0 --help - Help.
Example:
$0 --type=user - Best option for most users."
myNETWORK_INTERFACES="
wpa-driver wired
wpa-conf /etc/wpa_supplicant/wired8021x.conf
### Example wireless config for 802.1x
### This configuration was tested with the IntelNUC series
### If problems occur you can try and change wpa-driver to \"iwlwifi\"
### Do not forget to enter a ssid in /etc/wpa_supplicant/wireless8021x.conf
### The Intel NUC uses wlpXsY notation instead of wlanX
#
#auto wlp2s0
#iface wlp2s0 inet dhcp
# wpa-driver wext
# wpa-conf /etc/wpa_supplicant/wireless8021x.conf
"
myNETWORK_WIRED8021x="ctrl_interface=/var/run/wpa_supplicant
ctrl_interface_group=root
eapol_version=1
ap_scan=1
network={
key_mgmt=IEEE8021X
eap=TLS
identity=\"host/$myCONF_PFX_HOST_ID\"
private_key=\"/etc/wpa_supplicant/8021x.pfx\"
private_key_passwd=\"$myCONF_PFX_PW\"
}
"
myNETWORK_WLAN8021x="ctrl_interface=/var/run/wpa_supplicant
ctrl_interface_group=root
eapol_version=1
ap_scan=1
network={
ssid=\"<your_ssid_here_without_brackets>\"
key_mgmt=WPA-EAP
pairwise=CCMP
group=CCMP
eap=TLS
identity=\"host/$myCONF_PFX_HOST_ID\"
private_key=\"/etc/wpa_supplicant/8021x.pfx\"
private_key_passwd=\"$myCONF_PFX_PW\"
}
"
myNETWORK_WLANEXAMPLE="
### Example static ip config
### Replace <eth0> with the name of your physical interface name
#
#auto eth0
#iface eth0 inet static
# address 192.168.1.1
# netmask 255.255.255.0
# network 192.168.1.0
# broadcast 192.168.1.255
# gateway 192.168.1.1
# dns-nameservers 192.168.1.1
### Example wireless config without 802.1x
### This configuration was tested with the IntelNUC series
### If problems occur you can try and change wpa-driver to \"iwlwifi\"
#
#auto wlan0
#iface wlan0 inet dhcp
# wpa-driver wext
# wpa-ssid <your_ssid_here_without_brackets>
# wpa-ap-scan 1
# wpa-proto RSN
# wpa-pairwise CCMP
# wpa-group CCMP
# wpa-key-mgmt WPA-PSK
# wpa-psk \"<your_password_here_without_brackets>\"
"
myUPDATECHECK="APT::Periodic::Update-Package-Lists \"1\";
APT::Periodic::Download-Upgradeable-Packages \"0\";
APT::Periodic::AutocleanInterval \"7\";
"
mySYSCTLCONF="
# Reboot after kernel panic, check via /proc/sys/kernel/panic[_on_oops]
# Set required map count for ELK
kernel.panic = 1
kernel.panic_on_oops = 1
vm.max_map_count = 262144
"
myFAIL2BANCONF="[DEFAULT]
ignoreip = 127.0.0.1/8
bantime = 3600
findtime = 600
maxretry = 5
[nginx-http-auth]
enabled = true
filter = nginx-http-auth
port = 64297
logpath = /data/nginx/log/error.log
[pam-generic]
enabled = true
port = 64294
filter = pam-generic
logpath = /var/log/auth.log
[sshd]
enabled = true
port = 64295
filter = sshd
logpath = /var/log/auth.log
"
mySYSTEMDFIX="[Link]
NamePolicy=kernel database onboard slot path
MACAddressPolicy=none
"
myCOCKPIT_SOCKET="[Socket]
ListenStream=
ListenStream=64294
"
mySSHSETTINGS="
Port 64295
Match Group tpotlogs
PermitOpen 127.0.0.1:64305
ForceCommand /usr/bin/false
"
myRANDOM_HOUR=$(shuf -i 2-22 -n 1)
myRANDOM_MINUTE=$(shuf -i 0-59 -n 1)
myDEL_HOUR=$(($myRANDOM_HOUR+1))
myPULL_HOUR=$(($myRANDOM_HOUR-2))
myCRONJOBS="
# Check if updated images are available and download them
$myRANDOM_MINUTE $myPULL_HOUR * * * root docker-compose -f /opt/tpot/etc/tpot.yml pull
# Uploaded binaries are not supposed to be downloaded
*/1 * * * * root mv --backup=numbered /data/dionaea/roots/ftp/* /data/dionaea/binaries/
# Daily reboot
$myRANDOM_MINUTE $myRANDOM_HOUR * * 1-6 root systemctl stop tpot && docker stop \$(docker ps -aq) && docker rm \$(docker ps -aq); reboot
# Check for updated packages every sunday, upgrade and reboot
$myRANDOM_MINUTE $myRANDOM_HOUR * * 0 root apt-fast autoclean -y && apt-fast autoremove -y && apt-fast update -y && apt-fast upgrade -y && sleep 10 && reboot
"
mySHELLCHECK='[[ $- == *i* ]] || return'
myROOTPROMPT='PS1="\[\033[38;5;8m\][\[$(tput sgr0)\]\[\033[38;5;1m\]\u\[$(tput sgr0)\]\[\033[38;5;6m\]@\[$(tput sgr0)\]\[\033[38;5;4m\]\h\[$(tput sgr0)\]\[\033[38;5;6m\]:\[$(tput sgr0)\]\[\033[38;5;5m\]\w\[$(tput sgr0)\]\[\033[38;5;8m\]]\[$(tput sgr0)\]\[\033[38;5;1m\]\\$\[$(tput sgr0)\]\[\033[38;5;15m\] \[$(tput sgr0)\]"'
myUSERPROMPT='PS1="\[\033[38;5;8m\][\[$(tput sgr0)\]\[\033[38;5;2m\]\u\[$(tput sgr0)\]\[\033[38;5;6m\]@\[$(tput sgr0)\]\[\033[38;5;4m\]\h\[$(tput sgr0)\]\[\033[38;5;6m\]:\[$(tput sgr0)\]\[\033[38;5;5m\]\w\[$(tput sgr0)\]\[\033[38;5;8m\]]\[$(tput sgr0)\]\[\033[38;5;2m\]\\$\[$(tput sgr0)\]\[\033[38;5;15m\] \[$(tput sgr0)\]"'
myROOTCOLORS="export LS_OPTIONS='--color=auto'
eval \"\`dircolors\`\"
alias ls='ls \$LS_OPTIONS'
alias ll='ls \$LS_OPTIONS -l'
alias l='ls \$LS_OPTIONS -lA'"
#################
# II. Functions #
#################
# Create banners
function fuBANNER {
toilet -f ivrit "$1"
}
# Create funny words for hostnames
function fuRANDOMWORD {
local myWORDFILE="$1"
local myLINES=$(cat $myWORDFILE | wc -l)
local myRANDOM=$((RANDOM % $myLINES))
local myNUM=$((myRANDOM * myRANDOM % $myLINES + 1))
echo -n $(sed -n "$myNUM p" $myWORDFILE | tr -d \' | tr A-Z a-z)
}
# Do we have root?
function fuGOT_ROOT {
echo
echo -n "### Checking for root: "
if [ "$(whoami)" != "root" ];
then
echo "[ NOT OK ]"
echo "### Please run as root."
echo "### Example: sudo $0"
exit
else
echo "[ OK ]"
fi
}
# Check for pre-installer package requirements.
# If not present install them
function fuCHECKPACKAGES {
export DEBIAN_FRONTEND=noninteractive
# Make sure dependencies for apt-fast are installed
myCURL=$(which curl)
myWGET=$(which wget)
mySUDO=$(which sudo)
if [ "$myCURL" == "" ] || [ "$myWGET" == "" ] || [ "$mySUDO" == "" ]
then
echo "### Installing deps for apt-fast"
apt-get -y update
apt-get -y install curl wget sudo
fi
echo "### Installing apt-fast"
/bin/bash -c "$(curl -sL https://raw.githubusercontent.com/ilikenwf/apt-fast/master/quick-install.sh)"
echo -n "### Checking for installer dependencies: "
local myPACKAGES="$1"
for myDEPS in $myPACKAGES;
do
myOK=$(dpkg -s $myDEPS 2>&1 | grep -w ok | awk '{ print $3 }' | head -n 1)
if [ "$myOK" != "ok" ];
then
echo "[ NOW INSTALLING ]"
apt-fast update -y
apt-fast install -y $myPACKAGES
break
fi
done
if [ "$myOK" = "ok" ];
then
echo "[ OK ]"
fi
}
# Check if remote sites are available
function fuCHECKNET {
if [ "$myTPOT_DEPLOYMENT_TYPE" == "iso" ] || [ "$myTPOT_DEPLOYMENT_TYPE" == "user" ];
then
local mySITES="$1"
mySITESCOUNT=$(echo $mySITES | wc -w)
j=0
for i in $mySITES;
do
echo $(expr 100 \* $j / $mySITESCOUNT) | dialog --title "[ Availability check ]" --backtitle "$myBACKTITLE" --gauge "\n Now checking: $i\n" 8 80
curl --connect-timeout 30 -IsS $i 2>&1>/dev/null
if [ $? -ne 0 ];
then
dialog --keep-window --backtitle "$myBACKTITLE" --title "[ Continue? ]" --yesno "\nAvailability check failed. You can continue, but the installation might fail." 10 50
if [ $? = 1 ];
then
dialog --keep-window --backtitle "$myBACKTITLE" --title "[ Abort ]" --msgbox "\nInstallation aborted. Exiting the installer." 7 50
exit
else
break;
fi;
fi;
let j+=1
echo $(expr 100 \* $j / $mySITESCOUNT) | dialog --keep-window --title "[ Availability check ]" --backtitle "$myBACKTITLE" --gauge "\n Now checking: $i\n" 8 80
done;
fi
}
# Install T-Pot dependencies
function fuGET_DEPS {
export DEBIAN_FRONTEND=noninteractive
echo
echo "### Getting update information."
echo
apt-fast -y update
echo
echo "### Upgrading packages."
echo
# Downlaod and upgrade packages, but silently keep existing configs
echo "docker.io docker.io/restart boolean true" | debconf-set-selections -v
echo "debconf debconf/frontend select noninteractive" | debconf-set-selections -v
apt-fast -y dist-upgrade -o Dpkg::Options::="--force-confdef" -o Dpkg::Options::="--force-confold" --force-yes
echo
echo "### Installing T-Pot dependencies."
echo
apt-fast -y install $myINSTALLPACKAGES
# Remove exim4
echo "### Removing and holding back problematic packages ..."
apt-fast -y purge exim4-base mailutils pcp cockpit-pcp elasticsearch-curator
apt-fast -y autoremove
apt-mark hold exim4-base mailutils pcp cockpit-pcp
}
# Check for other services
function fuCHECK_PORTS {
if [ "$myTPOT_DEPLOYMENT_TYPE" == "user" ];
then
echo
echo "### Checking for active services."
echo
grc netstat -tulpen
echo
echo "### Please review your running services."
echo "### We will take care of SSH (22), but other services i.e. FTP (21), TELNET (23), SMTP (25), HTTP (80), HTTPS (443), etc."
echo "### might collide with T-Pot's honeypots and prevent T-Pot from starting successfully."
echo
while [ 1 != 2 ]
do
read -s -n 1 -p "Continue [y/n]? " mySELECT
echo
case "$mySELECT" in
[y,Y])
break
;;
[n,N])
exit
;;
esac
done
fi
}
############################
# III. Pre-Installer phase #
############################
fuGOT_ROOT
fuCHECKPACKAGES "$myPREINSTALLPACKAGES"
#####################################
# IV. Prepare installer environment #
#####################################
# Check for Debian release and extract command line arguments
myLSB=$(lsb_release -c | awk '{ print $2 }')
myVERSIONS="$myLSB_STABLE_SUPPORTED $myLSB_TESTING_SUPPORTED"
mySUPPORT="FALSE"
for i in $myVERSIONS
do
if [ "$myLSB" = "$i" ];
then
mySUPPORT="TRUE"
fi
done
if [ "$mySUPPORT" = "FALSE" ];
then
echo "Aborting. Debian $myLSB is not supported."
exit
fi
if [ "$1" == "" ];
then
echo "$myINFO"
exit
fi
for i in "$@"
do
case $i in
--conf=*)
myTPOT_CONF_FILE="${i#*=}"
shift
;;
--type=user)
myTPOT_DEPLOYMENT_TYPE="${i#*=}"
shift
;;
--type=auto)
myTPOT_DEPLOYMENT_TYPE="${i#*=}"
shift
;;
--type=iso)
myTPOT_DEPLOYMENT_TYPE="${i#*=}"
shift
;;
--help)
echo "Usage: $0 <options>"
echo
echo "--conf=<Path to \"tpot.conf\">"
echo " Use this if you want to automatically deploy a T-Pot instance (--type=auto implied)."
echo " A configuration example is available in \"tpotce/iso/installer/tpot.conf.dist\"."
echo
echo "--type=<[user, auto, iso]>"
echo " user, use this if you want to manually install a T-Pot on a Debian (Stable) machine."
echo " auto, implied if a configuration file is passed as an argument for automatic deployment."
echo " iso, use this if you are a T-Pot developer and want to install a T-Pot from a pre-compiled iso."
echo
exit
;;
*)
echo "$myINFO"
exit
;;
esac
done
# Validate command line arguments and load config
# If a valid config file exists, set deployment type to "auto" and load the configuration
if [ "$myTPOT_DEPLOYMENT_TYPE" == "auto" ] && [ "$myTPOT_CONF_FILE" == "" ];
then
echo "Aborting. No configuration file given."
exit
fi
if [ -s "$myTPOT_CONF_FILE" ] && [ "$myTPOT_CONF_FILE" != "" ];
then
myTPOT_DEPLOYMENT_TYPE="auto"
if [ "$(head -n 1 $myTPOT_CONF_FILE | grep -c "# tpot")" == "1" ];
then
source "$myTPOT_CONF_FILE"
else
echo "Aborting. Config file \"$myTPOT_CONF_FILE\" not a T-Pot configuration file."
exit
fi
elif ! [ -s "$myTPOT_CONF_FILE" ] && [ "$myTPOT_CONF_FILE" != "" ];
then
echo "Aborting. Config file \"$myTPOT_CONF_FILE\" not found."
exit
fi
# Prepare running the installer
myUSERCHECK=$(grep "tpot" /etc/passwd | wc -l)
if [ "$myUSERCHECK" -gt "0" ];
then
echo "### The user name \"tpot\" already exists. The tpot username and group may not previously exist or T-Pot will not work."
echo "### We recommend a fresh install according to the T-Pot Readme Post-Install method."
echo
echo "Aborting."
echo
exit 0
fi
echo "$myINFO" | head -n 3
fuCHECK_PORTS
#######################################
# V. Installer user interaction phase #
#######################################
# Set TERM
export TERM=linux
# If this is a ISO installation we need to wait a few seconds to avoid interference with service messages
if [ "$myTPOT_DEPLOYMENT_TYPE" == "iso" ];
then
sleep 5
dialog --keep-window --no-ok --no-cancel --backtitle "$myBACKTITLE" --title "[ Wait to avoid interference with service messages ]" --pause "" 7 80 7
fi
# Check if remote sites are available
fuCHECKNET "$myREMOTESITES"
# Let' s load the iso config file if there is one
if [ -f $myCONF_FILE ];
then
dialog --keep-window --backtitle "$myBACKTITLE" --title "[ Found personalized iso.config ]" --msgbox "\nYour personalized settings will be applied!" 7 47
source $myCONF_FILE
else
# dialog logic considers 1=false, 0=true
myCONF_PROXY_USE="1"
myCONF_PFX_USE="1"
myCONF_NTP_USE="1"
fi
### <--- Begin proxy setup
# If a proxy is set in iso.conf it needs to be setup.
# However, none of the other installation types will automatically take care of a proxy.
# Please open a feature request if you think this is something worth considering.
myPROXY="http://$myCONF_PROXY_IP:$myCONF_PROXY_PORT"
myPROXY_ENV="export http_proxy=$myPROXY
export https_proxy=$myPROXY
export HTTP_PROXY=$myPROXY
export HTTPS_PROXY=$myPROXY
export no_proxy=localhost,127.0.0.1,.sock
"
myPROXY_APT="Acquire::http::Proxy \"$myPROXY\";
Acquire::https::Proxy \"$myPROXY\";
"
myPROXY_DOCKER="http_proxy=$myPROXY
https_proxy=$myPROXY
HTTP_PROXY=$myPROXY
HTTPS_PROXY=$myPROXY
no_proxy=localhost,127.0.0.1,.sock
"
if [ "$myCONF_PROXY_USE" == "0" ];
then
# Let's setup proxy for the environment
echo "$myPROXY_ENV" 2>&1 | tee -a /etc/environment | dialog --keep-window --title "[ Setting up the proxy ]" $myPROGRESSBOXCONF
source /etc/environment
# Let's setup the proxy for apt
echo "$myPROXY_APT" 2>&1 | tee /etc/apt/apt.conf | dialog --keep-window --title "[ Setting up the proxy ]" $myPROGRESSBOXCONF
# Let's add proxy settings to docker defaults
echo "$myPROXY_DOCKER" 2>&1 | tee -a /etc/default/docker | dialog --keep-window --title "[ Setting up the proxy ]" $myPROGRESSBOXCONF
# Let's restart docker for proxy changes to take effect
systemctl stop docker 2>&1 | dialog --keep-window --title "[ Stop docker service ]" $myPROGRESSBOXCONF
systemctl start docker 2>&1 | dialog --keep-window --title "[ Start docker service ]" $myPROGRESSBOXCONF
fi
### ---> End proxy setup
# Let's ask the user for install flavor
if [ "$myTPOT_DEPLOYMENT_TYPE" == "iso" ] || [ "$myTPOT_DEPLOYMENT_TYPE" == "user" ];
then
myCONF_TPOT_FLAVOR=$(dialog --keep-window --no-cancel --backtitle "$myBACKTITLE" --title "[ Choose Your T-Pot Edition ]" --menu \
"\nRequired: 8-16GB RAM, 128GB SSD\nRecommended: 16GB RAM, 256GB SSD" 17 70 1 \
"STANDARD" "T-Pot Standalone with everything you need" \
"HIVE" "T-Pot Hive: ELK & Tools" \
"HIVE_SENSOR" "T-Pot Hive Sensor: Honeypots & NSM" \
"INDUSTRIAL" "Same as Standard with focus on Conpot" \
"LOG4J" "Log4Pot, ELK, NSM & Tools" \
"MEDICAL" "Dicompot, Medpot, ELK, NSM & Tools" \
"MINI" "Same as Standard with focus on qHoneypots" \
"SENSOR" "Just Honeypots & NSM" 3>&1 1>&2 2>&3 3>&-)
fi
# Let's ask for a secure tsec password if installation type is iso
if [ "$myTPOT_DEPLOYMENT_TYPE" == "iso" ];
then
myCONF_TPOT_USER="tsec"
myPASS1="pass1"
myPASS2="pass2"
mySECURE="0"
while [ "$myPASS1" != "$myPASS2" ] && [ "$mySECURE" == "0" ]
do
while [ "$myPASS1" == "pass1" ] || [ "$myPASS1" == "" ]
do
myPASS1=$(dialog --keep-window --insecure --backtitle "$myBACKTITLE" \
--title "[ Enter password for console user (tsec) ]" \
--passwordbox "\nPassword" 9 60 3>&1 1>&2 2>&3 3>&-)
done
myPASS2=$(dialog --keep-window --insecure --backtitle "$myBACKTITLE" \
--title "[ Repeat password for console user (tsec) ]" \
--passwordbox "\nPassword" 9 60 3>&1 1>&2 2>&3 3>&-)
if [ "$myPASS1" != "$myPASS2" ];
then
dialog --keep-window --backtitle "$myBACKTITLE" --title "[ Passwords do not match. ]" \
--msgbox "\nPlease re-enter your password." 7 60
myPASS1="pass1"
myPASS2="pass2"
fi
mySECURE=$(printf "%s" "$myPASS1" | cracklib-check | grep -c "OK")
if [ "$mySECURE" == "0" ] && [ "$myPASS1" == "$myPASS2" ];
then
dialog --keep-window --backtitle "$myBACKTITLE" --title "[ Password is not secure ]" --defaultno --yesno "\nKeep insecure password?" 7 50
myOK=$?
if [ "$myOK" == "1" ];
then
myPASS1="pass1"
myPASS2="pass2"
fi
fi
done
printf "%s" "$myCONF_TPOT_USER:$myPASS1" | chpasswd
fi
# Let's ask for web user credentials if deployment type is iso or user
# In case of auto, credentials are created from config values
# Skip this step entirely if SENSOR flavor
if [ "$myTPOT_DEPLOYMENT_TYPE" == "iso" ] || [ "$myTPOT_DEPLOYMENT_TYPE" == "user" ];
then
myOK="1"
myCONF_WEB_USER="webuser"
myCONF_WEB_PW="pass1"
myCONF_WEB_PW2="pass2"
mySECURE="0"
while [ 1 != 2 ]
do
myCONF_WEB_USER=$(dialog --keep-window --backtitle "$myBACKTITLE" --title "[ Enter your web user name ]" --inputbox "\nUsername (tsec not allowed)" 9 50 3>&1 1>&2 2>&3 3>&-)
myCONF_WEB_USER=$(echo $myCONF_WEB_USER | tr -cd "[:alnum:]_.-")
dialog --keep-window --backtitle "$myBACKTITLE" --title "[ Your username is ]" --yesno "\n$myCONF_WEB_USER" 7 50
myOK=$?
if [ "$myOK" = "0" ] && [ "$myCONF_WEB_USER" != "tsec" ] && [ "$myCONF_WEB_USER" != "" ];
then
break
fi
done
while [ "$myCONF_WEB_PW" != "$myCONF_WEB_PW2" ] && [ "$mySECURE" == "0" ]
do
while [ "$myCONF_WEB_PW" == "pass1" ] || [ "$myCONF_WEB_PW" == "" ]
do
myCONF_WEB_PW=$(dialog --keep-window --insecure --backtitle "$myBACKTITLE" \
--title "[ Enter password for your web user ]" \
--passwordbox "\nPassword" 9 60 3>&1 1>&2 2>&3 3>&-)
done
myCONF_WEB_PW2=$(dialog --keep-window --insecure --backtitle "$myBACKTITLE" \
--title "[ Repeat password for your web user ]" \
--passwordbox "\nPassword" 9 60 3>&1 1>&2 2>&3 3>&-)
if [ "$myCONF_WEB_PW" != "$myCONF_WEB_PW2" ];
then
dialog --keep-window --backtitle "$myBACKTITLE" --title "[ Passwords do not match. ]" \
--msgbox "\nPlease re-enter your password." 7 60
myCONF_WEB_PW="pass1"
myCONF_WEB_PW2="pass2"
fi
mySECURE=$(printf "%s" "$myCONF_WEB_PW" | cracklib-check | grep -c "OK")
if [ "$mySECURE" == "0" ] && [ "$myCONF_WEB_PW" == "$myCONF_WEB_PW2" ];
then
dialog --keep-window --backtitle "$myBACKTITLE" --title "[ Password is not secure ]" --defaultno --yesno "\nKeep insecure password?" 7 50
myOK=$?
if [ "$myOK" == "1" ];
then
myCONF_WEB_PW="pass1"
myCONF_WEB_PW2="pass2"
fi
fi
done
fi
dialog --clear
##########################
# VI. Installation phase #
##########################
exec 2> >(tee "/install.err")
exec > >(tee "/install.log")
fuBANNER "Installing ..."
fuGET_DEPS
# If flavor is SENSOR do not write credentials
if ! [ "$myCONF_TPOT_FLAVOR" == "SENSOR" ];
then
fuBANNER "Webuser creds"
mkdir -p /data/nginx/conf
htpasswd -b -c /data/nginx/conf/nginxpasswd "$myCONF_WEB_USER" "$myCONF_WEB_PW"
echo
fi
# Let's generate a SSL self-signed certificate without interaction (browsers will see it invalid anyway)
if ! [ "$myCONF_TPOT_FLAVOR" == "SENSOR" ];
then
fuBANNER "NGINX Certificate"
myINTIP=$(hostname -I | awk '{ print $1 }')
mkdir -p /data/nginx/cert
openssl req \
-nodes \
-x509 \
-sha512 \
-newkey rsa:8192 \
-keyout "/data/nginx/cert/nginx.key" \
-out "/data/nginx/cert/nginx.crt" \
-days 3650 \
-subj '/C=AU/ST=Some-State/O=Internet Widgits Pty Ltd' \
-addext "subjectAltName = IP:$myINTIP"
fi
# Let's setup the ntp server
if [ "$myCONF_NTP_USE" == "0" ];
then
fuBANNER "Setup NTP"
cp $myCONF_NTP_CONF_FILE /etc/systemd/timesyncd.conf
fi
# Let's setup 802.1x networking
if [ "myCONF_PFX_USE" == "0" ];
then
fuBANNER "Setup 802.1x"
cp $myCONF_PFX_FILE /etc/wpa_supplicant/
echo "$myNETWORK_INTERFACES" | tee -a /etc/network/interfaces
echo "$myNETWORK_WIRED8021x" | tee /etc/wpa_supplicant/wired8021x.conf
echo "$myNETWORK_WLAN8021x" | tee /etc/wpa_supplicant/wireless8021x.conf
fi
# Let's provide a wireless example config ...
fuBANNER "Example config"
echo "$myNETWORK_WLANEXAMPLE" | tee -a /etc/network/interfaces
# Let's make sure SSH roaming is turned off (CVE-2016-0777, CVE-2016-0778)
fuBANNER "SSH roaming off"
echo "UseRoaming no" | tee -a /etc/ssh/ssh_config
# Installing elasticdump, yq
fuBANNER "Installing pkgs"
npm install elasticdump -g
pip3 install glances[docker] yq
hash -r
# Cloning T-Pot from GitHub
if ! [ "$myTPOT_DEPLOYMENT_TYPE" == "iso" ];
then
fuBANNER "Cloning T-Pot"
### DEV
git clone https://github.com/telekom-security/tpotce /opt/tpot
fi
# Let's create the T-Pot user
fuBANNER "Create groups"
addgroup --gid 2000 tpot
addgroup tpotlogs
fuBANNER "Create user"
adduser --system --no-create-home --uid 2000 --disabled-password --disabled-login --gid 2000 tpot
# Let's set the hostname
a=$(fuRANDOMWORD /opt/tpot/host/usr/share/dict/a.txt)
n=$(fuRANDOMWORD /opt/tpot/host/usr/share/dict/n.txt)
myHOST=$a$n
fuBANNER "Set hostname"
hostnamectl set-hostname $myHOST
sed -i 's#127.0.1.1.*#127.0.1.1\t'"$myHOST"'#g' /etc/hosts
# Prevent cloud-init from overwriting our new hostname
if [ -f '/etc/cloud/cloud.cfg' ]; then
sed -i 's/preserve_hostname.*/preserve_hostname: true/g' /etc/cloud/cloud.cfg
fi
# Let's patch cockpit.socket, sshd_config
fuBANNER "Adjust ports"
mkdir -p /etc/systemd/system/cockpit.socket.d
echo "$myCOCKPIT_SOCKET" | tee /etc/systemd/system/cockpit.socket.d/listen.conf
sed -i '/^port/Id' /etc/ssh/sshd_config
echo "$mySSHSETTINGS" | tee -a /etc/ssh/sshd_config
# Do not allow root login for cockpit
sed -i '2i\auth requisite pam_succeed_if.so uid >= 1000' /etc/pam.d/cockpit
# Let's make sure only myCONF_TPOT_FLAVOR images will be downloaded and started
case $myCONF_TPOT_FLAVOR in
STANDARD)
fuBANNER "STANDARD"
ln -s /opt/tpot/etc/compose/standard.yml $myTPOTCOMPOSE
;;
HIVE)
fuBANNER "HIVE"
ln -s /opt/tpot/etc/compose/hive.yml $myTPOTCOMPOSE
;;
HIVE_SENSOR)
fuBANNER "HIVE_SENSOR"
ln -s /opt/tpot/etc/compose/hive_sensor.yml $myTPOTCOMPOSE
;;
INDUSTRIAL)
fuBANNER "INDUSTRIAL"
ln -s /opt/tpot/etc/compose/industrial.yml $myTPOTCOMPOSE
;;
LOG4J)
fuBANNER "LOG4J"
ln -s /opt/tpot/etc/compose/log4j.yml $myTPOTCOMPOSE
;;
MEDICAL)
fuBANNER "MEDICAL"
ln -s /opt/tpot/etc/compose/medical.yml $myTPOTCOMPOSE
;;
MINI)
fuBANNER "MINI"
ln -s /opt/tpot/etc/compose/mini.yml $myTPOTCOMPOSE
;;
SENSOR)
fuBANNER "SENSOR"
ln -s /opt/tpot/etc/compose/sensor.yml $myTPOTCOMPOSE
;;
esac
# Let's load docker images
function fuPULLIMAGES {
for name in $(cat $myTPOTCOMPOSE | grep -v '#' | grep image | cut -d'"' -f2 | uniq)
do
docker pull $name
done
}
fuBANNER "Pull images"
fuPULLIMAGES
# Let's add the daily update check with a weekly clean interval
fuBANNER "Modify checks"
echo "$myUPDATECHECK" | tee /etc/apt/apt.conf.d/10periodic
# Let's make sure to reboot the system after a kernel panic
fuBANNER "Tweak sysctl"
echo "$mySYSCTLCONF" | tee -a /etc/sysctl.conf
# Let's setup fail2ban config
fuBANNER "Setup fail2ban"
echo "$myFAIL2BANCONF" | tee /etc/fail2ban/jail.d/tpot.conf
# Fix systemd error https://github.com/systemd/systemd/issues/3374
fuBANNER "Systemd fix"
echo "$mySYSTEMDFIX" | tee /etc/systemd/network/99-default.link
# Let's add some cronjobs
fuBANNER "Add cronjobs"
echo "$myCRONJOBS" | tee -a /etc/crontab
# Let's create some files and folders
fuBANNER "Files & folders"
mkdir -vp /data/adbhoney/{downloads,log} \
/data/ciscoasa/log \
/data/conpot/log \
/data/citrixhoneypot/logs \
/data/cowrie/{downloads,keys,misc,log,log/tty} \
/data/ddospot/{bl,db,log} \
/data/dicompot/{images,log} \
/data/dionaea/{log,bistreams,binaries,rtp,roots,roots/ftp,roots/tftp,roots/www,roots/upnp} \
/data/elasticpot/log \
/data/elk/{data,log} \
/data/endlessh/log \
/data/ews/conf \
/data/fatt/log \
/data/glutton/log \
/data/hellpot/log \
/data/heralding/log \
/data/honeypots/log \
/data/honeysap/log \
/data/honeytrap/{log,attacks,downloads} \
/data/ipphoney/log \
/data/log4pot/{log,payloads} \
/data/mailoney/log \
/data/medpot/log \
/data/nginx/{log,heimdall} \
/data/p0f/log \
/data/redishoneypot/log \
/data/sentrypeer/log \
/data/spiderfoot \
/data/suricata/log \
/data/tanner/{log,files} \
/home/tsec/.ssh/
touch /data/nginx/log/error.log
# Let's copy some files
fuBANNER "Copy configs"
tar xvfz /opt/tpot/etc/objects/elkbase.tgz -C /
cp /opt/tpot/host/etc/systemd/* /etc/systemd/system/
systemctl enable tpot
# Let's take care of some files and permissions
fuBANNER "Permissions"
chmod 770 -R /data
if [ "$myTPOT_DEPLOYMENT_TYPE" == "iso" ];
then
usermod -a -G tpot tsec
chown tsec:tsec -R /home/tsec/.ssh
else
usermod -a -G tpot $(who am i | awk '{ print $1 }')
fi
chown tpot:tpot -R /data
chmod 644 -R /data/nginx/conf
chmod 644 -R /data/nginx/cert
# Let's replace "quiet splash" options, set a console font for more screen canvas and update grub
fuBANNER "Options"
sed -i 's#GRUB_CMDLINE_LINUX_DEFAULT="quiet"#GRUB_CMDLINE_LINUX_DEFAULT="quiet consoleblank=0"#' /etc/default/grub
sed -i 's#GRUB_CMDLINE_LINUX=""#GRUB_CMDLINE_LINUX="cgroup_enable=memory swapaccount=1"#' /etc/default/grub
update-grub
fuBANNER "Setup console"
cp /usr/share/consolefonts/Uni2-Terminus12x6.psf.gz /etc/console-setup/
gunzip /etc/console-setup/Uni2-Terminus12x6.psf.gz
sed -i 's#FONTFACE=".*#FONTFACE="Terminus"#' /etc/default/console-setup
sed -i 's#FONTSIZE=".*#FONTSIZE="12x6"#' /etc/default/console-setup
update-initramfs -u
sed -i 's#After=.*#After=systemd-tmpfiles-setup.service console-screen.service kbd.service local-fs.target#' /etc/systemd/system/multi-user.target.wants/console-setup.service
# Let's enable a color prompt and add /opt/tpot/bin to path
fuBANNER "Setup prompt"
tee -a /root/.bashrc <<EOF
$mySHELLCHECK
$myROOTPROMPT
$myROOTCOLORS
PATH="\$PATH:/opt/tpot/bin"
EOF
for i in $(ls -d /home/*/)
do
tee -a $i.bashrc <<EOF
$mySHELLCHECK
$myUSERPROMPT
PATH="\$PATH:/opt/tpot/bin"
EOF
done
# Let's create ews.ip before reboot and prevent race condition for first start
fuBANNER "Update IP"
/opt/tpot/bin/updateip.sh
# Let's clean up apt
fuBANNER "Clean up"
apt-fast autoclean -y
apt-fast autoremove -y
# Final steps
cp /opt/tpot/host/etc/rc.local /etc/rc.local && \
rm -rf /root/installer && \
rm -rf /etc/issue.d/cockpit.issue && \
rm -rf /etc/motd.d/cockpit && \
rm -rf /etc/issue.net && \
rm -rf /etc/motd && \
systemctl restart console-setup.service
if [ "$myTPOT_DEPLOYMENT_TYPE" == "auto" ];
then
echo "Done. Please reboot."
else
fuBANNER "Rebooting ..."
sleep 2
reboot
fi

12
_deprecated/iso/installer/iso.conf.dist
View File

@ -1,12 +0,0 @@
# makeiso configuration file
myCONF_PROXY_USE='0'
myCONF_PROXY_IP='1.2.3.4'
myCONF_PROXY_PORT='3128'
myCONF_PFX_USE='0'
myCONF_PFX_FILE='/'
myCONF_PFX_PW_USE='0'
myCONF_PFX_PW='<SECRET>'
myCONF_PFX_HOST_ID='<HOSTNAME>.<DOMAIN>'
myCONF_NTP_USE='0'
myCONF_NTP_IP='1.2.3.4'
myCONF_NTP_CONF_FILE='/'

4
_deprecated/iso/installer/rc.local.install
View File

@ -1,4 +0,0 @@
#!/bin/bash
# Ensure client will receive a DHCP lease
dhclient
openvt -f -w -s /root/installer/wrapper.sh

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