Using TLS-Encrypted Communications with Fossil
If you are storing sensitive information in a repository accessible over a network whose integrity you do not fully trust, you should use TLS to encrypt all communications with it. This is most true for repositories accessed over the Internet, especially if they will be accessed from edge networks you do not control, since that admits of various forms of man in the middle attack.
TLS protects the credentials used to access the server, prevents eavesdropping, prevents in-flight data modification, prevents server identify spoofing, and more.
There are two major aspects to this, both of which have to be addressed in different ways. Those are the subjects of the next two major sections.
Client-Side TLS Configuration
Fossil itself has built-in support for TLS on the client side only. That is to say, you can build it against the OpenSSL library, which will allow it to clone and sync with a remote Fossil repository via https URIs.
The configure script will attempt to find OpenSSL on your system automatically, but if necessary, you can specify the location with the --with-openssl option. Type ./configure --help for details.
Even if the Fossil build system does manage to find a workable version of OpenSSL, a common situation is that the platform version is outdated in some key way, enough so that you do not want to use it with Fossil. For example, the platform version of OpenSSL might not support any of the cipher suites the remote Fossil repository's HTTPS proxy is willing to offer, so that even though both sides are speaking TLS/SSL, they can't come to an agreement on the cryptography. In such cases, you may want to link Fossil to a newer version of OpenSSL than the one provided with your client operating system. You can do this like so:
cd compat tar xf /path/to/openssl-*.tar.gz ln -fs openssl-x.y.z openssl ./config # or, e.g. ./Configure darwin64-x86_64-cc make -j11 cd ../.. ./configure --with-openssl=tree make -j11
That will get you a Fossil binary statically linked to this in-tree version of OpenSSL.
To verify the identify of a server, TLS uses X.509 certificates.
If you are using a self-signed certificate, you'll be asked if you want to accept the certificate the first time you communicate with the server. Verify the certificate fingerprint is correct, then answer "always" to remember your decision.
If you are cloning from or syncing to Fossil servers that use a certificate signed by a certificate authority (CA), Fossil needs to know which CAs you trust to sign those certificates. Fossil relies on the OpenSSL library to have some way to check a trusted list of CA signing keys.
There are two common ways this fails:
The OpenSSL library Fossil is linked to doesn't have a CA signing key set at all, so that it initially trusts no certificates at all.
The OpenSSL library does have a CA cert set, but your Fossil server's TLS certificate was signed by a CA that isn't in that set.
A common reason to fall into the second trap is that you're using certificates signed by a local private CA, as often happens in large enterprises. You can solve this sort of problem by getting your local CA's signing certificate in PEM format and pointing OpenSSL at it:
fossil set --global ssl-ca-location /path/to/local-ca.pem
The use of --global with this option is common, since you may have multiple reposotories served under certificates signed by that same CA.
A common way to run into the broader first problem is that you're on FreeBSD, which does not install a CA certificate set by default, even as a dependency of the OpenSSL library. If you're using a certificate signed by one of the major public CAs, you can solve this by installing the ca_root_nss package. That package contains the Mozilla NSS certificate bundle, which gets installed in a location that OpenSSL checks by default, so you don't need to change any Fossil settings. (This is the same certificate set that ships with Firefox, by the way.)
The same sort of thing happens with the Windows build of OpenSSL, but for a different core reason: Windows does ship with a stock CA certificate set, but it's not in a format that OpenSSL understands how to use. Rather than try to find a way to convert the data format, you may find it acceptable to use the same Mozilla NSS cert set. I do not know of a way to easily get this from Mozilla themselves, but I did find a third party source for the cacert.pem file. Install it somewhere on your system, then point Fossil at it like so:
fossil set --global ssl-ca-location /path/to/cacert.pem
Linux platforms tend to provide such a root cert store along with the platform OpenSSL package, either built-in or as a hard dependency.
You can also use client side certificates to add an extra layer of authentication, over and above Fossil's built in user management. If you are particularly paranoid, you'll want to use this to remove the ability of anyone on the internet from making any request to Fossil. Without presenting a valid client side certificate, the web server won't invoke the Fossil CGI handler.
Configure your server to request a client side certificate, and set up a certificate authority to sign your client certificates. For each person who needs to access the repository, create a private key and certificate signed with that CA.
The PEM encoded private key and certificate should be stored in a single file, simply by concatenating the key and certificate files. Specify the location of this file with the ssl-identity setting, or the --ssl-identity option to the clone command.
If you've password protected the private key, the password will be requested every time you connect to the server. This password is not stored by fossil, as doing so would defeat the purpose of having a password.
If you attempt to connect to a server which requests a client certificate, but don't provide one, fossil will show an error message which explains what to do to authenticate with the server.
Server-Side TLS Configuration
Fossil's built-in HTTP server feature does not currently have a built-in way to serve via HTTP over TLS, a.k.a. HTTPS, even when you've linked Fossil to OpenSSL. To serve a Fossil repository via HTTPS, you must put it behind some kind of HTTPS proxy.
Conceptually, the simplest option is to set up stunnel. A typical configuration is to run Fossil as an HTTP server bound to localhost only, then export access to it via HTTPS with stunnel encrypting access to Fossil instance hiding behind it.
The difficulty comes in configuring it, which really wants a guide that no one has written for us yet. Until that appears, you'll have to read the stunnel documentation and that of your TLS certificate provider to work out how to set this up.
stunnel + althttpd
The public SQLite and Fossil web sites can't just use stunnel + Fossil because parts of the web site are static, served by a separate web server called althttpd, written by the primary author of both SQLite and Fossil. It is a lightweight HTTP-only web server. It handles the static HTTP hits on sqlite.org and fossil-scm.org, delegating HTTPS and dynamic Fossil content hits to stunnel and Fossil.
The only documentation for althttpd currently is in its header comment. As is typical for drh software, althttpd is a single-file C program, so that at worst, you just have to read its code to understand it.
If your needs are more complex than althttpd can handle or you'd prefer to use only software available in your server operating system's package repository, we recommend that you step up to nginx. Setting this up is complex enough that we cover it in a separate document.
Enforcing TLS Access
To use TLS encryption in cloning and syncing to a remote Fossil repository, be sure to use the https: URI scheme in clone and sync commands. If your server is configured to serve the repository via both HTTP and HTTPS, it's easy to accidentally use unencrypted HTTP if you forget the all-important 's'.
As of Fossil 2.8, there is a setting in the Fossil UI under Admin → Access called "Redirect to HTTPS," which is set to "Off" by default. Changing this only affects web UI access to the Fossil repository. It doesn't affect clones and syncs done via the http URI scheme.
In Fossil 2.7 and earlier, there was a much weaker form of this setting affecting the /login page only. If you're using this setting, you should migrate to the new setting as soon as possible, because the old setting allows multiple ways of defeating it.
WARNING: Enabling HTTPS redirects at the Fossil repo level while running Fossil behind an HTTPS proxy can result in an infinite redirect loop. It happens when the proxy mechanism presents "http" URIs to Fossil, so Fossil issues a redirect, so the browser fetches the page again, causing Fossil to see an "http" URI again, so it issues a redirect...'round and 'round it goes until the web browser detects it's in a redirect loop and gives up. This problem prevents you from getting back into the Admin UI to fix it, but there are several ways to fix it:
Reset via CLI. You can turn the setting back off from the CLI with the command "fossil -R /path/to/repo.fossil set redirect-to-https 0". (Currently doesn't work.)
Backup first. This setting is stored in the Fossil repository, so if you make a backup first on the server, you can restore the repo file if enabling this feature creates a redirect loop.
Download, fix, and restore. You can copy the remote repository file down to a local machine, use fossil ui to fix the setting, and then upload it to the repository server again.
It's best to enforce TLS-only access at the front-end proxy level anyway. It not only avoids the problem entirely, it can be significantly more secure. The nginx TLS proxy guide shows one way to achieve this.
This document is called ssl.wiki for historical reasons. The TLS protocol was originally called SSL, and it went through several revisions before being replaced by TLS. Years before this writing, SSL finally became entirely obsolete due to weaknesses in the protocol fixed in the later TLS series of protocols.
Some people still use the term "SSL" when they actually mean "TLS," but in the Fossil project, we always use "TLS" except when we must preserve some sort of historical compatibility, as with this document's name in order to avoid broken external URLs. The Fossil TLS-related settings also often use "ssl" in their names, for the same reason.
This series of protocols is also called "HTTPS" after the URI scheme used to specify "HTTP over TLS."