lemur/docs/production/index.rst

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Production
**********
There are several steps needed to make Lemur production ready. Here we focus on making Lemur more reliable and secure.
Basics
======
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Because of the sensitivity of the information stored and maintained by Lemur it is important that you follow standard host hardening practices:
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- Run Lemur with a limited user
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- Disabled any unneeded services
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- Enable remote logging
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- Restrict access to host
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.. _CredentialManagement:
Credential Management
---------------------
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Lemur often contains credentials such as mutual TLS keys or API tokens that are used to communicate with third party resources and for encrypting stored secrets. Lemur comes with the ability
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to automatically encrypt these keys such that your keys not be in clear text.
The keys are located within lemur/keys and broken down by environment.
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To utilize this ability use the following commands:
``lemur lock``
and
``lemur unlock``
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If you choose to use this feature ensure that the keys are decrypted before Lemur starts as it will have trouble communicating with the database otherwise.
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Entropy
-------
Lemur generates private keys for the certificates it creates. This means that it is vitally important that Lemur has enough entropy to draw from. To generate private keys Lemur uses the python library `Cryptography <https://cryptography.io>`_. In turn Cryptography uses OpenSSL bindings to generate
keys just like you might from the OpenSSL command line. OpenSSL draws its initial entropy from system during startup and uses PRNGs to generate a stream of random bytes (as output by /dev/urandom) whenever it needs to do a cryptographic operation.
What does all this mean? Well in order for the keys
that Lemur generates to be strong, the system needs to interact with the outside world. This is typically accomplished through the systems hardware (thermal, sound, video user-input, etc.) since the physical world is much more "random" than the computer world.
If you are running Lemur on its own server with its own hardware "bare metal" then the entropy of the system is typically "good enough" for generating keys. If however you are using a VM on shared hardware there is a potential that your initial seed data (data that was initially
fed to the PRNG) is not very good. What's more, VMs have been known to be unable to inject more entropy into the system once it has been started. This is because there is typically very little interaction with the server once it has been started.
The amount of effort you wish to expend ensuring that Lemur has good entropy to draw from is up to your specific risk tolerance and how Lemur is configured.
If you wish to generate more entropy for your system we would suggest you take a look at the following resources:
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- `WES-entropy-client <https://github.com/Virginian/WES-entropy-client>`_
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- `haveged <http://www.issihosts.com/haveged/>`_
The original *WES-entropy-client* repository by WhitewoodCrypto was removed, the link now points to a fork of it.
For additional information about OpenSSL entropy issues:
- `Managing and Understanding Entropy Usage <https://www.blackhat.com/docs/us-15/materials/us-15-Potter-Understanding-And-Managing-Entropy-Usage.pdf>`_
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TLS/SSL
=======
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Nginx
-----
Nginx is a very popular choice to serve a Python project:
- It's fast.
- It's lightweight.
- Configuration files are simple.
Nginx doesn't run any Python process, it only serves requests from outside to
the Python server.
Therefore, there are two steps:
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- Run the Python process.
- Run Nginx.
You will benefit from having:
- the possibility to have several projects listening to the port 80;
- your web site processes won't run with admin rights, even if --user doesn't
work on your OS;
- the ability to manage a Python process without touching Nginx or the other
processes. It's very handy for updates.
You must create a Nginx configuration file for Lemur. On GNU/Linux, they usually
go into /etc/nginx/conf.d/. Name it lemur.conf.
`proxy_pass` just passes the external request to the Python process.
The port must match the one used by the Lemur process of course.
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You can make some adjustments to get a better user experience::
server_tokens off;
add_header X-Frame-Options DENY;
add_header X-Content-Type-Options nosniff;
add_header X-XSS-Protection "1; mode=block";
server {
listen 80;
return 301 https://$host$request_uri;
}
server {
listen 443;
access_log /var/log/nginx/log/lemur.access.log;
error_log /var/log/nginx/log/lemur.error.log;
location /api {
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proxy_pass http://127.0.0.1:8000;
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proxy_next_upstream error timeout invalid_header http_500 http_502 http_503 http_504;
proxy_redirect off;
proxy_buffering off;
proxy_set_header Host $host;
proxy_set_header X-Real-IP $remote_addr;
proxy_set_header X-Forwarded-For $proxy_add_x_forwarded_for;
}
location / {
root /path/to/lemur/static/dist;
include mime.types;
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index index.html;
}
}
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This makes Nginx serve the favicon and static files which it is much better at than python.
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It is highly recommended that you deploy TLS when deploying Lemur. This may be obvious given Lemur's purpose but the
sensitive nature of Lemur and what it controls makes this essential. This is a sample config for Lemur that also terminates TLS::
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server_tokens off;
add_header X-Frame-Options DENY;
add_header X-Content-Type-Options nosniff;
add_header X-XSS-Protection "1; mode=block";
server {
listen 80;
return 301 https://$host$request_uri;
}
server {
listen 443;
access_log /var/log/nginx/log/lemur.access.log;
error_log /var/log/nginx/log/lemur.error.log;
# certs sent to the client in SERVER HELLO are concatenated in ssl_certificate
ssl_certificate /path/to/signed_cert_plus_intermediates;
ssl_certificate_key /path/to/private_key;
ssl_session_timeout 1d;
ssl_session_cache shared:SSL:50m;
# Diffie-Hellman parameter for DHE ciphersuites, recommended 2048 bits
ssl_dhparam /path/to/dhparam.pem;
# modern configuration. tweak to your needs.
ssl_protocols TLSv1.1 TLSv1.2;
ssl_ciphers 'ECDHE-RSA-AES128-GCM-SHA256:ECDHE-ECDSA-AES128-GCM-SHA256:ECDHE-RSA-AES256-GCM-SHA384:ECDHE-ECDSA-AES256-GCM-SHA384:DHE-RSA-AES128-GCM-SHA256:DHE-DSS-AES128-GCM-SHA256:kEDH+AESGCM:ECDHE-RSA-AES128-SHA256:ECDHE-ECDSA-AES128-SHA256:ECDHE-RSA-AES128-SHA:ECDHE-ECDSA-AES128-SHA:ECDHE-RSA-AES256-SHA384:ECDHE-ECDSA-AES256-SHA384:ECDHE-RSA-AES256-SHA:ECDHE-ECDSA-AES256-SHA:DHE-RSA-AES128-SHA256:DHE-RSA-AES128-SHA:DHE-DSS-AES128-SHA256:DHE-RSA-AES256-SHA256:DHE-DSS-AES256-SHA:DHE-RSA-AES256-SHA:!aNULL:!eNULL:!EXPORT:!DES:!RC4:!3DES:!MD5:!PSK';
ssl_prefer_server_ciphers on;
# HSTS (ngx_http_headers_module is required) (15768000 seconds = 6 months)
add_header Strict-Transport-Security max-age=15768000;
# OCSP Stapling ---
# fetch OCSP records from URL in ssl_certificate and cache them
ssl_stapling on;
ssl_stapling_verify on;
## verify chain of trust of OCSP response using Root CA and Intermediate certs
ssl_trusted_certificate /path/to/root_CA_cert_plus_intermediates;
resolver <IP DNS resolver>;
location /api {
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proxy_pass http://127.0.0.1:8000;
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proxy_next_upstream error timeout invalid_header http_500 http_502 http_503 http_504;
proxy_redirect off;
proxy_buffering off;
proxy_set_header Host $host;
proxy_set_header X-Real-IP $remote_addr;
proxy_set_header X-Forwarded-For $proxy_add_x_forwarded_for;
}
location / {
root /path/to/lemur/static/dist;
include mime.types;
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index index.html;
}
}
.. Note:: Some paths will have to be adjusted based on where you have choose to install Lemur.
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Apache
------
An example apache config::
<VirtualHost *:443>
...
SSLEngine on
SSLCertificateFile /path/to/signed_certificate
SSLCertificateChainFile /path/to/intermediate_certificate
SSLCertificateKeyFile /path/to/private/key
SSLCACertificateFile /path/to/all_ca_certs
# intermediate configuration, tweak to your needs
SSLProtocol all -SSLv2 -SSLv3
SSLCipherSuite ECDHE-RSA-AES128-GCM-SHA256:ECDHE-ECDSA-AES128-GCM-SHA256:ECDHE-RSA-AES256-GCM-SHA384:ECDHE-ECDSA-AES256-GCM-SHA384:DHE-RSA-AES128-GCM-SHA256:DHE-DSS-AES128-GCM-SHA256:kEDH+AESGCM:ECDHE-RSA-AES128-SHA256:ECDHE-ECDSA-AES128-SHA256:ECDHE-RSA-AES128-SHA:ECDHE-ECDSA-AES128-SHA:ECDHE-RSA-AES256-SHA384:ECDHE-ECDSA-AES256-SHA384:ECDHE-RSA-AES256-SHA:ECDHE-ECDSA-AES256-SHA:DHE-RSA-AES128-SHA256:DHE-RSA-AES128-SHA:DHE-DSS-AES128-SHA256:DHE-RSA-AES256-SHA256:DHE-DSS-AES256-SHA:DHE-RSA-AES256-SHA:AES128-GCM-SHA256:AES256-GCM-SHA384:AES128-SHA256:AES256-SHA256:AES128-SHA:AES256-SHA:AES:CAMELLIA:DES-CBC3-SHA:!aNULL:!eNULL:!EXPORT:!DES:!RC4:!MD5:!PSK:!aECDH:!EDH-DSS-DES-CBC3-SHA:!EDH-RSA-DES-CBC3-SHA:!KRB5-DES-CBC3-SHA
SSLHonorCipherOrder on
# HSTS (mod_headers is required) (15768000 seconds = 6 months)
Header always set Strict-Transport-Security "max-age=15768000"
...
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# Set the lemur DocumentRoot to static/dist
DocumentRoot /www/lemur/lemur/static/dist
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# Uncomment to force http 1.0 connections to proxy
# SetEnv force-proxy-request-1.0 1
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#Don't keep proxy connections alive
SetEnv proxy-nokeepalive 1
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# Only need to do reverse proxy
ProxyRequests Off
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# Proxy requests to the api to the lemur service (and sanitize redirects from it)
ProxyPass "/api" "http://127.0.0.1:8000/api"
ProxyPassReverse "/api" "http://127.0.0.1:8000/api"
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</VirtualHost>
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Also included in the configurations above are several best practices when it comes to deploying TLS. Things like enabling
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HSTS, disabling vulnerable ciphers are all good ideas when it comes to deploying Lemur into a production environment.
.. note::
This is a rather incomplete apache config for running Lemur (needs mod_wsgi etc.), if you have a working apache config please let us know!
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.. seealso::
`Mozilla SSL Configuration Generator <https://mozilla.github.io/server-side-tls/ssl-config-generator/>`_
.. _UsingSupervisor:
Supervisor
==========
Supervisor is a very nice way to manage you Python processes. We won't cover
the setup (which is just apt-get install supervisor or pip install supervisor
most of the time), but here is a quick overview on how to use it.
Create a configuration file named supervisor.ini::
[unix_http_server]
file=/tmp/supervisor.sock
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[supervisorctl]
serverurl=unix:///tmp/supervisor.sock
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[rpcinterface:supervisor]
supervisor.rpcinterface_factory=supervisor.rpcinterface:make_main_rpcinterface
[supervisord]
logfile=/tmp/lemur.log
logfile_maxbytes=50MB
logfile_backups=2
loglevel=trace
pidfile=/tmp/supervisord.pid
nodaemon=false
minfds=1024
minprocs=200
[program:lemur]
command=python /path/to/lemur/manage.py manage.py start
directory=/path/to/lemur/
environment=PYTHONPATH='/path/to/lemur/',LEMUR_CONF='/home/lemur/.lemur/lemur.conf.py'
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user=lemur
autostart=true
autorestart=true
The 4 first entries are just boiler plate to get you started, you can copy
them verbatim.
The last one defines one (you can have many) process supervisor should manage.
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It means it will run the command::
python manage.py start
In the directory, with the environment and the user you defined.
This command will be ran as a daemon, in the background.
`autostart` and `autorestart` just make it fire and forget: the site will always be
running, even it crashes temporarily or if you restart the machine.
The first time you run supervisor, pass it the configuration file::
supervisord -c /path/to/supervisor.ini
Then you can manage the process by running::
supervisorctl -c /path/to/supervisor.ini
It will start a shell from which you can start/stop/restart the service.
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You can read all errors that might occur from /tmp/lemur.log.
.. _PeriodicTasks:
Periodic Tasks
==============
Lemur contains a few tasks that are run and scheduled basis, currently the recommend way to run these tasks is to create
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celery tasks or cron jobs that run these commands.
The following commands that could/should be run on a periodic basis:
- `notify expirations` `notify authority_expirations`, and `notify security_expiration_summary` (see :ref:`NotificationOptions` for configuration info)
- `check_revoked`
- `sync`
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If you are using LetsEncrypt, you must also run the following:
- `fetch_all_pending_acme_certs`
- `remove_old_acme_certs`
How often you run these commands is largely up to the user. `notify` should be run once a day (more often will result in
duplicate notifications). `check_revoked` is typically run at least once a day.
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`sync` is typically run every 15 minutes. `fetch_all_pending_acme_certs` should be ran frequently (Every minute is fine).
`remove_old_acme_certs` can be ran more rarely, such as once every week.
Example cron entries::
0 22 * * * lemuruser export LEMUR_CONF=/Users/me/.lemur/lemur.conf.py; /www/lemur/bin/lemur notify expirations
0 22 * * * lemuruser export LEMUR_CONF=/Users/me/.lemur/lemur.conf.py; /www/lemur/bin/lemur notify authority_expirations
0 22 * * * lemuruser export LEMUR_CONF=/Users/me/.lemur/lemur.conf.py; /www/lemur/bin/lemur notify security_expiration_summary
*/15 * * * * lemuruser export LEMUR_CONF=/Users/me/.lemur/lemur.conf.py; /www/lemur/bin/lemur source sync -s all
0 22 * * * lemuruser export LEMUR_CONF=/Users/me/.lemur/lemur.conf.py; /www/lemur/bin/lemur certificate check_revoked
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Example Celery configuration (To be placed in your configuration file)::
CELERYBEAT_SCHEDULE = {
'fetch_all_pending_acme_certs': {
'task': 'lemur.common.celery.fetch_all_pending_acme_certs',
'options': {
'expires': 180
},
'schedule': crontab(minute="*"),
},
'remove_old_acme_certs': {
'task': 'lemur.common.celery.remove_old_acme_certs',
'options': {
'expires': 180
},
'schedule': crontab(hour=7, minute=30, day_of_week=1),
},
'clean_all_sources': {
'task': 'lemur.common.celery.clean_all_sources',
'options': {
'expires': 180
},
'schedule': crontab(hour=1, minute=0, day_of_week=1),
},
'sync_all_sources': {
'task': 'lemur.common.celery.sync_all_sources',
'options': {
'expires': 180
},
'schedule': crontab(hour="*/3", minute=5),
},
'sync_source_destination': {
'task': 'lemur.common.celery.sync_source_destination',
'options': {
'expires': 180
},
'schedule': crontab(hour="*"),
},
'notify_expirations': {
'task': 'lemur.common.celery.notify_expirations',
'options': {
'expires': 180
},
'schedule': crontab(hour=22, minute=0),
},
'notify_authority_expirations': {
'task': 'lemur.common.celery.notify_authority_expirations',
'options': {
'expires': 180
},
'schedule': crontab(hour=22, minute=0),
},
'send_security_expiration_summary': {
'task': 'lemur.common.celery.send_security_expiration_summary',
'options': {
'expires': 180
},
'schedule': crontab(hour=22, minute=0),
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}
}
To enable celery support, you must also have configuration values that tell Celery which broker and backend to use.
Here are the Celery configuration variables that should be set::
CELERY_RESULT_BACKEND = 'redis://your_redis_url:6379'
CELERY_BROKER_URL = 'redis://your_redis_url:6379/0'
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CELERY_IMPORTS = ('lemur.common.celery')
CELERY_TIMEZONE = 'UTC'
REDIS_HOST="your_redis_url"
REDIS_PORT=6379
REDIS_DB=0
Out of the box, every Redis instance supports 16 databases. The default database (`REDIS_DB`) is set to 0, however, you can use any of the databases from 0-15. Via `redis.conf` more databases can be supported.
In the `redis://` url, the database number can be added with a slash after the port. (defaults to 0, if omitted)
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Do not forget to import crontab module in your configuration file::
from celery.task.schedules import crontab
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You must start a single Celery scheduler instance and one or more worker instances in order to handle incoming tasks.
The scheduler can be started with::
LEMUR_CONF='/location/to/conf.py' /location/to/lemur/bin/celery -A lemur.common.celery beat
And the worker can be started with desired options such as the following::
LEMUR_CONF='/location/to/conf.py' /location/to/lemur/bin/celery -A lemur.common.celery worker --concurrency 10 -E -n lemurworker1@%%h
supervisor or systemd configurations should be created for these in production environments as appropriate.
Add support for LetsEncrypt/ACME
================================
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LetsEncrypt is a free, limited-feature certificate authority that offers publicly trusted certificates that are valid
for 90 days. LetsEncrypt does not use organizational validation (OV), and instead relies on domain validation (DV).
LetsEncrypt requires that we prove ownership of a domain before we're able to issue a certificate for that domain, each
time we want a certificate.
The most common methods to prove ownership are HTTP validation and DNS validation. Lemur supports DNS validation
through the creation of DNS TXT records as well as HTTP validation, reusing the destination concept.
ACME DNS Challenge
------------------
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In a nutshell, when we send a certificate request to LetsEncrypt, they generate a random token and ask us to put that
token in a DNS text record to prove ownership of a domain. If a certificate request has multiple domains, we must
prove ownership of all of these domains through this method. The token is typically written to a TXT record at
-acme_challenge.domain.com. Once we create the appropriate TXT record(s), Lemur will try to validate propagation
before requesting that LetsEncrypt finalize the certificate request and send us the certificate.
.. figure:: letsencrypt_flow.png
To start issuing certificates through LetsEncrypt, you must enable Celery support within Lemur first. After doing so,
you need to create a LetsEncrypt authority. To do this, visit
Authorities -> Create. Set the applicable attributes and click "More Options".
.. figure:: letsencrypt_authority_1.png
You will need to set "Certificate" to LetsEncrypt's active chain of trust for the authority you want to use. To find
the active chain of trust at the time of writing, please visit `LetsEncrypt
<https://letsencrypt.org/certificates/>`_.
Under Acme_url, enter in the appropriate endpoint URL. Lemur supports LetsEncrypt's V2 API, and we recommend you to use
this. At the time of writing, the staging and production URLs for LetsEncrypt V2 are
https://acme-staging-v02.api.letsencrypt.org/directory and https://acme-v02.api.letsencrypt.org/directory.
.. figure:: letsencrypt_authority_2.png
After creating the authorities, we will need to create a DNS provider. Visit `Admin` -> `DNS Providers` and click
`Create`. Lemur comes with a few provider plugins built in, with different options. Create a DNS provider with the
appropriate choices.
.. figure:: create_dns_provider.png
By default, users will need to select the DNS provider that is authoritative over their domain in order for the
LetsEncrypt flow to function. However, Lemur will attempt to automatically determine the appropriate provider if
possible. To enable this functionality, periodically (or through Cron/Celery) run `lemur dns_providers get_all_zones`.
This command will traverse all DNS providers, determine which zones they control, and upload this list of zones to
Lemur's database (in the dns_providers table). Alternatively, you can manually input this data.
ACME HTTP Challenge
-------------------
The flow for requesting a certificate using the HTTP challenge is not that different from the one described for the DNS
challenge. The only difference is, that instead of creating a DNS TXT record, a file is uploaded to a Webserver which
serves the file at `http://<domain>/.well-known/acme-challenge/<token>`
Currently the HTTP challenge also works without Celery, since it's done while creating the certificate, and doesn't
rely on celery to create the DNS record. This will change when we implement mix & match of acme challenge types.
To create a HTTP compatible Authority, you first need to create a new destination that will be used to deploy the
challenge token. Visit `Admin` -> `Destination` and click `Create`. The path you provide for the destination needs to
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be the exact path that is called when the ACME providers calls `http://<domain>/.well-known/acme-challenge/`. The
token part will be added dynamically by the acme_upload.
Currently only the SFTP and S3 Bucket destination support the ACME HTTP challenge.
Afterwards you can create a new certificate authority as described in the DNS challenge, but need to choose
`Acme HTTP-01` as the plugin type, and then the destination you created beforehand.
LetsEncrypt: pinning to cross-signed ICA
----------------------------------------
Let's Encrypt has been using a `cross-signed <https://letsencrypt.org/certificates/>`_ intermediate CA by DST Root CA X3,
which is included in many older devices' TrustStore.
Let's Encrypt is `transitioning <https://letsencrypt.org/2019/04/15/transitioning-to-isrg-root.html>`_ to use
the intermediate CA issued by their own root (ISRG X1) starting from September 29th 2020.
This is in preparation of concluding the initial bootstrapping of their CA, by having it cross-signed by an older CA.
Lemur can temporarily pin to the cross-signed intermediate CA (same public/private key pair as the ICA signed by ISRG X1).
This will prolong support for incompatible devices.
The following must be added to the config file to activate the pinning (the pinning will be removed by September 2021)::
# remove or update after Mar 17 16:40:46 2021 GMT
IDENTRUST_CROSS_SIGNED_LE_ICA_EXPIRATION_DATE = "17/03/21"
IDENTRUST_CROSS_SIGNED_LE_ICA = """
-----BEGIN CERTIFICATE-----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-----END CERTIFICATE-----
"""
.. _AcmeAccountReuse:
LetsEncrypt: Using a pre-existing ACME account
-----------------------------------------------
Let's Encrypt allows reusing an existing ACME account, to create and especially revoke certificates. The current
implementation in the acme plugin, only allows for a single account for all ACME authorities, which might be an issue,
when you try to use Let's Encrypt together with another certificate authority that uses the ACME protocol.
To use an existing account, you need to configure the `ACME_PRIVATE_KEY` and `ACME_REGR` variables in the lemur
configuration.
`ACME_PRIVATE_KEY` needs to be in the JWK format::
{
"kty": "RSA",
"n": "yr1qBwHizA7ME_iV32bY10ILp.....",
"e": "AQAB",
"d": "llBlYhil3I.....",
"p": "-5LW2Lewogo.........",
"q": "zk6dHqHfHksd.........",
"dp": "qfe9fFIu3mu.......",
"dq": "cXFO-loeOyU.......",
"qi": "AfK1sh0_8sLTb..........."
}
2020-09-23 19:14:09 +02:00
Using `python-jwt` converting an existing private key in PEM format is quite easy::
import python_jwt as jwt, jwcrypto.jwk as jwk
priv_key = jwk.JWK.from_pem(b"""-----BEGIN RSA PRIVATE KEY-----
...
-----END RSA PRIVATE KEY-----""")
print(priv_key.export())
`ACME_REGR` needs to be a valid JSON with a `body` and a `uri` attribute, similar to this::
{"body": {}, "uri": "https://acme-staging-v02.api.letsencrypt.org/acme/acct/<ACCOUNT_NUMBER>"}
2021-05-08 08:17:11 +02:00
The URI can be retrieved from the ACME create account endpoint when creating a new account, using the existing key.
OpenSSH
=======
OpenSSH (also known as OpenBSD Secure Shell) is a suite of secure networking utilities based on the Secure Shell (SSH) protocol, which provides a secure channel over an unsecured network in a clientserver architecture.
Using a PKI with OpenSSH means you can sign a key for a user and it can log into any server that trust the CA.
Using a CA avoids TOFU or synchronize a list of server public keys to `known_hosts` files.
This is useful when you're managing large number of machines or for an immutable infrastructure.
Add first OpenSSH authority
---------------------------
To start issuing OpenSSH, you need to create an OpenSSH authority. To do this, visit
Authorities -> Create. Set the applicable attributes:
- Name : OpenSSH
- Common Name: example.net
Then click "More Options" and change the plugin value to "OpenSSH".
Just click to "Create" button to add this authority.
.. note:: OpenSSH do not support sub CA feature.
Add a server certificate
-------------------------
Now visit Certificates -> Create to add a server certificate. Set the applicable attributes:
- Common Name: server.example.net
Then click "More Options" and set the Certificate Template to "Server Certificate".
This step is important, a certificat for a server and for a client is not exactly the same thing.
In this case "Common Name" and all Subject Alternate Names with type DNSName will be added in the certificate.
Finally click on "Create" button.
Add a client certificate
------------------------
Now visit Certificates -> Create to add a client certificate. Set the applicable attributes:
- Common Name: example.net
Then click "More Options" and set the Certificate Template to "Client Certificate".
In this case the name of the creator is used as principal (in this documentation we assume that this certificate is created by the user "lemur").
Finally click on "Create" button.
Configure OpenSSH server
------------------------
Connect to the server.example.net server to correctly configure the OpenSSH server with the CA created previously.
First of all add the CA chain, private and public certificates:
- Create file `/etc/ssh/ca.pub` and copy the "CHAIN" content of the *server certificate* (everything in one line).
- Create file `/etc/ssh/ssh_host_key` and copy "PRIVATE KEY" content.
- Create file `/etc/ssh/ssh_host_key.pub` and copy "PUBLIC CERTIFICATE" content (everything in one line).
Set the appropriate right:
.. code-block:: bash
chmod 600 /etc/ssh/ca.pub /etc/ssh/ssh_host_key
chmod 644 /etc/ssh/ssh_host_key.pub
chown root: /etc/ssh/ca.pub /etc/ssh/ssh_host_key /etc/ssh/ssh_host_key.pub
Then change OpenSSH server configuration to use these files. Edit `/etc/ssh/sshd_config` and add::
TrustedUserCAKeys /etc/ssh/ca.pub
HostKey /etc/ssh/ssh_host_key
HostCertificate /etc/ssh/ssh_host_key.pub
You can remove all other `HostKey` lines.
Finally restart OpenSSH.
Configure the OpenSSH client
----------------------------
Now you can configure the user's computer.
First of all add private and public certificates:
- Create file `~/.ssh/key` and copy "PRIVATE KEY" content.
- Create file `~/.ssh/key.pub` and copy "PUBLIC CERTIFICATE" content of the *client certicate* (everything in one line).
Set the appropriate right:
.. code-block:: bash
chmod 600 ~/.ssh/key.pub ~/.ssh/key
To avoid TOFU, edite the `~/.ssh/known_hosts` file and add a new line (all in one line):
- @cert-authority \*example.net
- the "CHAIN" content
Now you can connect to server with (here 'lemur' is the principal name and must exists on the server):
.. code-block:: bash
ssh lemur@server.example.net -i ~/.ssh/key
With this configuration you don't have any line like::
Warning: Permanently added 'server.example.net,192.168.0.1' (RSA) to the list of known hosts.
And you don't have to enter any password.