System configuration¶
This document describes basic steps to set up Odoo in production or on an internet-facing server. It follows installation, and is not generally necessary for a development systems that is not exposed on the internet.
Warning
If you are setting up a public server, be sure to check our Security recommendations!
dbfilter¶
Odoo is a multi-tenant system: a single Odoo system may run and serve a number of database instances. It is also highly customizable, with customizations (starting from the modules being loaded) depending on the “current database”.
This is not an issue when working with the backend (web client) as a logged-in company user: the database can be selected when logging in, and customizations loaded afterwards.
However it is an issue for non-logged users (portal, website) which aren’t bound to a database: Odoo needs to know which database should be used to load the website page or perform the operation. If multi-tenancy is not used that is not an issue, there’s only one database to use, but if there are multiple databases accessible Odoo needs a rule to know which one it should use.
That is one of the purposes of --db-filter
:
it specifies how the database should be selected based on the hostname (domain)
that is being requested. The value is a regular expression, possibly
including the dynamically injected hostname (%h
) or the first subdomain
(%d
) through which the system is being accessed.
For servers hosting multiple databases in production, especially if website
is used, dbfilter must be set, otherwise a number of features will not work
correctly.
Configuration samples¶
Show only databases with names beginning with ‘mycompany’
in the configuration file set:
[options]
dbfilter = ^mycompany.*$
Show only databases matching the first subdomain after
www
: for example the database “mycompany” will be shown if the incoming request was sent towww.mycompany.com
ormycompany.co.uk
, but not forwww2.mycompany.com
orhelpdesk.mycompany.com
.
in the configuration file set:
[options]
dbfilter = ^%d$
Note
Setting a proper --db-filter
is an important part
of securing your deployment.
Once it is correctly working and only matching a single database per hostname, it
is strongly recommended to block access to the database manager screens,
and to use the --no-database-list
startup parameter to prevent listing
your databases, and to block access to the database management screens.
See also security.
PostgreSQL¶
By default, PostgreSQL only allows connection over UNIX sockets and loopback connections (from “localhost”, the same machine the PostgreSQL server is installed on).
UNIX socket is fine if you want Odoo and PostgreSQL to execute on the same machine, and is the default when no host is provided, but if you want Odoo and PostgreSQL to execute on different machines 1 it will need to listen to network interfaces 2, either:
Only accept loopback connections and use an SSH tunnel between the machine on which Odoo runs and the one on which PostgreSQL runs, then configure Odoo to connect to its end of the tunnel
Accept connections to the machine on which Odoo is installed, possibly over ssl (see PostgreSQL connection settings for details), then configure Odoo to connect over the network
Configuration sample¶
Allow tcp connection on localhost
Allow tcp connection from 192.168.1.x network
in /etc/postgresql/9.5/main/pg_hba.conf
set:
# IPv4 local connections:
host all all 127.0.0.1/32 md5
host all all 192.168.1.0/24 md5
in /etc/postgresql/9.5/main/postgresql.conf
set:
listen_addresses = 'localhost,192.168.1.2'
port = 5432
max_connections = 80
Configuring Odoo¶
Out of the box, Odoo connects to a local postgres over UNIX socket via port 5432. This can be overridden using the database options when your Postgres deployment is not local and/or does not use the installation defaults.
The packaged installers will automatically
create a new user (odoo
) and set it as the database user.
The database management screens are protected by the
admin_passwd
setting. This setting can only be set using configuration files, and is simply checked before performing database alterations. It should be set to a randomly generated value to ensure third parties can not use this interface.All database operations use the database options, including the database management screen. For the database management screen to work requires that the PostgreSQL user have
createdb
right.Users can always drop databases they own. For the database management screen to be completely non-functional, the PostgreSQL user needs to be created with
no-createdb
and the database must be owned by a different PostgreSQL user.Warning
the PostgreSQL user must not be a superuser
Configuration sample¶
connect to a PostgreSQL server on 192.168.1.2
port 5432
using an ‘odoo’ user account,
with ‘pwd’ as a password
filtering only db with a name beginning with ‘mycompany’
in the configuration file set:
[options]
admin_passwd = mysupersecretpassword
db_host = 192.168.1.2
db_port = 5432
db_user = odoo
db_password = pwd
dbfilter = ^mycompany.*$
SSL Between Odoo and PostgreSQL¶
Since Odoo 11.0, you can enforce ssl connection between Odoo and PostgreSQL. in Odoo the db_sslmode control the ssl security of the connection with value chosen out of ‘disable’, ‘allow’, ‘prefer’, ‘require’, ‘verify-ca’ or ‘verify-full’
Builtin server¶
Odoo includes built-in HTTP, cron, and live-chat servers, using either multi-threading or multi-processing.
The multi-threaded server is a simpler server primarily used for development, demonstrations, and its compatibility with various operating systems (including Windows). A new thread is spawned for every new HTTP request, even for long-running requests such as long polling. Extra daemonic cron threads are spawned too. Due to a Python limitation (GIL), it doesn’t make the best use of the hardware.
The multi-threaded server is the default server, also for docker containers. It is selected by
leaving the --workers
option out or setting it to 0
.
The multi-processing server is a full-blown server primarily used for production. It is not liable to the same Python limitation (GIL) on resource usage and hence makes the best use of the hardware. A pool of workers is created upon server startup. New HTTP requests are queued by the OS until there are workers ready to process them. An extra event-driven HTTP worker for the live chat is spawned on an alternative port. Extra cron workers are spawned too. A configurable process reaper monitors resource usage and can kill/restart failed workers.
The multi-processing server is opt-in. It is selected by setting the --workers
option to a non-null integer.
Note
Because it is highly customized for Linux servers, the multi-processing server is not available on Windows.
Worker number calculation¶
Rule of thumb : (#CPU * 2) + 1
Cron workers need CPU
1 worker ~= 6 concurrent users
memory size calculation¶
We consider 20% of the requests are heavy requests, while 80% are simpler ones
A heavy worker, when all computed field are well designed, SQL requests are well designed, … is estimated to consume around 1GB of RAM
A lighter worker, in the same scenario, is estimated to consume around 150MB of RAM
Needed RAM = #worker * ( (light_worker_ratio * light_worker_ram_estimation) + (heavy_worker_ratio * heavy_worker_ram_estimation) )
LiveChat¶
In multi-processing, a dedicated LiveChat worker is automatically started and listens on the
--longpolling-port
. By default, the HTTP requests will keep
accessing the normal HTTP workers instead of the LiveChat one. You must deploy a proxy in front of
Odoo and redirect incoming requests whose path starts with /longpolling
to the LiveChat worker.
You must also start Odoo in --proxy-mode
so it uses the real
client headers (such as hostname, scheme, and IP) instead of the proxy ones.
Configuration sample¶
Server with 4 CPU, 8 Thread
60 concurrent users
60 users / 6 = 10 <- theoretical number of worker needed
(4 * 2) + 1 = 9 <- theoretical maximal number of worker
We’ll use 8 workers + 1 for cron. We’ll also use a monitoring system to measure cpu load, and check if it’s between 7 and 7.5 .
RAM = 9 * ((0.8*150) + (0.2*1024)) ~= 3Go RAM for Odoo
[options]
limit_memory_hard = 1677721600
limit_memory_soft = 629145600
limit_request = 8192
limit_time_cpu = 600
limit_time_real = 1200
max_cron_threads = 1
workers = 8
HTTPS¶
Whether it’s accessed via website/web client or web service, Odoo transmits authentication information in cleartext. This means a secure deployment of Odoo must use HTTPS3. SSL termination can be implemented via just about any SSL termination proxy, but requires the following setup:
Enable Odoo’s
proxy mode
. This should only be enabled when Odoo is behind a reverse proxySet up the SSL termination proxy (Nginx termination example)
Set up the proxying itself (Nginx proxying example)
Your SSL termination proxy should also automatically redirect non-secure connections to the secure port
Configuration sample¶
Redirect http requests to https
Proxy requests to odoo
in the configuration file set:
proxy_mode = True
in /etc/nginx/sites-enabled/odoo.conf
set:
#odoo server
upstream odoo {
server 127.0.0.1:8069;
}
upstream odoochat {
server 127.0.0.1:8072;
}
# http -> https
server {
listen 80;
server_name odoo.mycompany.com;
rewrite ^(.*) https://$host$1 permanent;
}
server {
listen 443 ssl;
server_name odoo.mycompany.com;
proxy_read_timeout 720s;
proxy_connect_timeout 720s;
proxy_send_timeout 720s;
# Add Headers for odoo proxy mode
proxy_set_header X-Forwarded-Host $http_host;
proxy_set_header X-Forwarded-For $proxy_add_x_forwarded_for;
proxy_set_header X-Forwarded-Proto $scheme;
proxy_set_header X-Real-IP $remote_addr;
# SSL parameters
ssl_certificate /etc/ssl/nginx/server.crt;
ssl_certificate_key /etc/ssl/nginx/server.key;
ssl_session_timeout 30m;
ssl_protocols TLSv1.2;
ssl_ciphers ECDHE-ECDSA-AES128-GCM-SHA256:ECDHE-RSA-AES128-GCM-SHA256:ECDHE-ECDSA-AES256-GCM-SHA384:ECDHE-RSA-AES256-GCM-SHA384:ECDHE-ECDSA-CHACHA20-POLY1305:ECDHE-RSA-CHACHA20-POLY1305:DHE-RSA-AES128-GCM-SHA256:DHE-RSA-AES256-GCM-SHA384;
ssl_prefer_server_ciphers off;
# log
access_log /var/log/nginx/odoo.access.log;
error_log /var/log/nginx/odoo.error.log;
# Redirect longpoll requests to odoo longpolling port
location /longpolling {
proxy_pass http://odoochat;
}
# Redirect requests to odoo backend server
location / {
proxy_redirect off;
proxy_pass http://odoo;
}
# common gzip
gzip_types text/css text/scss text/plain text/xml application/xml application/json application/javascript;
gzip on;
}
Odoo as a WSGI Application¶
It is also possible to mount Odoo as a standard WSGI application. Odoo
provides the base for a WSGI launcher script as odoo-wsgi.example.py
. That
script should be customized (possibly after copying it from the setup directory) to correctly set the
configuration directly in odoo.tools.config
rather than through the
command-line or a configuration file.
However the WSGI server will only expose the main HTTP endpoint for the web client, website and webservice API. Because Odoo does not control the creation of workers anymore it can not setup cron or livechat workers
Cron Workers¶
Starting one of the built-in Odoo servers next to the WSGI server is required to process cron jobs.
That server must be configured to only process crons and not HTTP requests using the
--no-http
cli option or the http_enable = False
configuration
file setting.
On Linux-like systems, using the multi-processing server over the multi-threading one is recommended
to benefit from better hardware usage and increased stability, i.e., using
the --workers=-1
and --max-cron-threads=n
cli options.
LiveChat¶
Using a gevent-compatible WSGI server is required for the correct operation of the live chat
feature. That server should be able to handle many simultaneous long-lived HTTP requests but
doesn’t need a lot of processing power. All requests whose path starts with /longpolling
should
be directed to that server. A regular (thread/process-based) WSGI server should be used for all
other requests.
The Odoo cron server can also be used to serve the live chat requests. Just drop
the --no-http
cli option from the cron server and make sure requests
whose path starts with /longpolling
are directed to this server, either on
the --http-port
(multi-threading server) or on
the --longpolling-port
(multi-processing server).
Serving Static Files¶
For development convenience, Odoo directly serves all static files in its modules. This may not be ideal when it comes to performances, and static files should generally be served by a static HTTP server.
Odoo static files live in each module’s static/
folder, so static files
can be served by intercepting all requests to /MODULE/static/FILE
,
and looking up the right module (and file) in the various addons paths.
Security¶
For starters, keep in mind that securing an information system is a continuous process, not a one-shot operation. At any moment, you will only be as secure as the weakest link in your environment.
So please do not take this section as the ultimate list of measures that will prevent all security problems. It’s only intended as a summary of the first important things you should be sure to include in your security action plan. The rest will come from best security practices for your operating system and distribution, best practices in terms of users, passwords, and access control management, etc.
When deploying an internet-facing server, please be sure to consider the following security-related topics:
Always set a strong super-admin admin password, and restrict access to the database management pages as soon as the system is set up. See Database Manager Security.
Choose unique logins and strong passwords for all administrator accounts on all databases. Do not use ‘admin’ as the login. Do not use those logins for day-to-day operations, only for controlling/managing the installation. Never use any default passwords like admin/admin, even for test/staging databases.
Do not install demo data on internet-facing servers. Databases with demo data contain default logins and passwords that can be used to get into your systems and cause significant trouble, even on staging/dev systems.
Use appropriate database filters (
--db-filter
) to restrict the visibility of your databases according to the hostname. See dbfilter. You may also use-d
to provide your own (comma-separated) list of available databases to filter from, instead of letting the system fetch them all from the database backend.Once your
db_name
anddb_filter
are configured and only match a single database per hostname, you should setlist_db
configuration option toFalse
, to prevent listing databases entirely, and to block access to the database management screens (this is also exposed as the--no-database-list
command-line option)Make sure the PostgreSQL user (
--db_user
) is not a super-user, and that your databases are owned by a different user. For example they could be owned by thepostgres
super-user if you are using a dedicated non-privilegeddb_user
. See also Configuring Odoo.Keep installations updated by regularly installing the latest builds, either via GitHub or by downloading the latest version from https://www.odoo.com/page/download or http://nightly.odoo.com
Configure your server in multi-process mode with proper limits matching your typical usage (memory/CPU/timeouts). See also Builtin server.
Run Odoo behind a web server providing HTTPS termination with a valid SSL certificate, in order to prevent eavesdropping on cleartext communications. SSL certificates are cheap, and many free options exist. Configure the web proxy to limit the size of requests, set appropriate timeouts, and then enable the
proxy mode
option. See also HTTPS.If you need to allow remote SSH access to your servers, make sure to set a strong password for all accounts, not just
root
. It is strongly recommended to entirely disable password-based authentication, and only allow public key authentication. Also consider restricting access via a VPN, allowing only trusted IPs in the firewall, and/or running a brute-force detection system such asfail2ban
or equivalent.Consider installing appropriate rate-limiting on your proxy or firewall, to prevent brute-force attacks and denial of service attacks. See also Blocking Brute Force Attacks for specific measures.
Many network providers provide automatic mitigation for Distributed Denial of Service attacks (DDOS), but this is often an optional service, so you should consult with them.
Whenever possible, host your public-facing demo/test/staging instances on different machines than the production ones. And apply the same security precautions as for production.
If your public-facing Odoo server has access to sensitive internal network resources or services (e.g. via a private VLAN), implement appropriate firewall rules to protect those internal resources. This will ensure that the Odoo server cannot be used accidentally (or as a result of malicious user actions) to access or disrupt those internal resources. Typically this can be done by applying an outbound default DENY rule on the firewall, then only explicitly authorizing access to internal resources that the Odoo server needs to access. Systemd IP traffic access control may also be useful to implement per-process network access control.
If your public-facing Odoo server is behind a Web Application Firewall, a load-balancer, a transparent DDoS protection service (like CloudFlare) or a similar network-level device, you may wish to avoid direct access to the Odoo system. It is generally difficult to keep the endpoint IP addresses of your Odoo servers secret. For example they can appear in web server logs when querying public systems, or in the headers of emails posted from Odoo. In such a situation you may want to configure your firewall so that the endpoints are not accessible publicly except from the specific IP addresses of your WAF, load-balancer or proxy service. Service providers like CloudFlare usually maintain a public list of their IP address ranges for this purpose.
If you are hosting multiple customers, isolate customer data and files from each other using containers or appropriate “jail” techniques.
Setup daily backups of your databases and filestore data, and copy them to a remote archiving server that is not accessible from the server itself.
Deploying Odoo on Linux is strongly recommended over Windows. Should you choose nevertheless to deploy on a Windows platform, a thorough security hardening review of the server should be conducted and is outside of the scope of this guide.
Blocking Brute Force Attacks¶
For internet-facing deployments, brute force attacks on user passwords are very common, and this threat should not be neglected for Odoo servers. Odoo emits a log entry whenever a login attempt is performed, and reports the result: success or failure, along with the target login and source IP.
The log entries will have the following form.
Failed login:
2018-07-05 14:56:31,506 24849 INFO db_name odoo.addons.base.res.res_users: Login failed for db:db_name login:admin from 127.0.0.1
Successful login:
2018-07-05 14:56:31,506 24849 INFO db_name odoo.addons.base.res.res_users: Login successful for db:db_name login:admin from 127.0.0.1
These logs can be easily analyzed by an intrusion prevention system such as fail2ban
.
For example, the following fail2ban filter definition should match a failed login:
[Definition]
failregex = ^ \d+ INFO \S+ \S+ Login failed for db:\S+ login:\S+ from <HOST>
ignoreregex =
This could be used with a jail definition to block the attacking IP on HTTP(S).
Here is what it could look like for blocking the IP for 15 minutes when 10 failed login attempts are detected from the same IP within 1 minute:
[odoo-login]
enabled = true
port = http,https
bantime = 900 ; 15 min ban
maxretry = 10 ; if 10 attempts
findtime = 60 ; within 1 min /!\ Should be adjusted with the TZ offset
logpath = /var/log/odoo.log ; set the actual odoo log path here
Database Manager Security¶
Configuring Odoo mentioned admin_passwd
in passing.
This setting is used on all database management screens (to create, delete, dump or restore databases).
If the management screens must not be accessible at all, you should set list_db
configuration option to False
, to block access to all the database selection and
management screens.
Warning
It is strongly recommended to disable the Database Manager for any internet-facing system! It is meant as a development/demo tool, to make it easy to quickly create and manage databases. It is not designed for use in production, and may even expose dangerous features to attackers. It is also not designed to handle large databases, and may trigger memory limits.
On production systems, database management operations should always be performed by the system administrator, including provisioning of new databases and automated backups.
Be sure to setup an appropriate db_name
parameter
(and optionally, db_filter
too) so that the system can determine the target database
for each request, otherwise users will be blocked as they won’t be allowed to choose the
database themselves.
If the management screens must only be accessible from a selected set of machines,
use the proxy server’s features to block access to all routes starting with /web/database
except (maybe) /web/database/selector
which displays the database-selection screen.
If the database-management screen should be left accessible, the
admin_passwd
setting must be changed from its admin
default: this
password is checked before allowing database-alteration operations.
It should be stored securely, and should be generated randomly e.g.
$ python3 -c 'import base64, os; print(base64.b64encode(os.urandom(24)))'
which will generate a 32 characters pseudorandom printable string.
Supported Browsers¶
Odoo supports all the major desktop and mobile browsers available on the market, as long as they are supported by their publishers.
Here are the supported browsers:
Google Chrome
Mozilla Firefox
Microsoft Edge
Apple Safari
Warning
Please make sure your browser is up-to-date and still supported by its publisher before filing a bug report.
Note
Since Odoo 13.0, ES6 is supported. Therefore, IE support is dropped.
- 1
to have multiple Odoo installations use the same PostgreSQL database, or to provide more computing resources to both software.
- 2
technically a tool like socat can be used to proxy UNIX sockets across networks, but that is mostly for software which can only be used over UNIX sockets
- 3
or be accessible only over an internal packet-switched network, but that requires secured switches, protections against ARP spoofing and precludes usage of WiFi. Even over secure packet-switched networks, deployment over HTTPS is recommended, and possible costs are lowered as “self-signed” certificates are easier to deploy on a controlled environment than over the internet.