diff options
author | Dimitri Staessens <dimitri@ouroboros.rocks> | 2024-11-10 10:38:13 +0100 |
---|---|---|
committer | Dimitri Staessens <dimitri@ouroboros.rocks> | 2024-11-10 10:38:13 +0100 |
commit | 2f8ca12e6ce4e8492761151b519e9c58b40deb67 (patch) | |
tree | 92d3ce8d3136fb738a835076288ce0f93aca813c /content | |
parent | 4face8993b1768fa0951edb5608993cb89b97e0c (diff) | |
download | website-2f8ca12e6ce4e8492761151b519e9c58b40deb67.tar.gz website-2f8ca12e6ce4e8492761151b519e9c58b40deb67.zip |
blog: add authentication blog
Diffstat (limited to 'content')
-rw-r--r-- | content/en/blog/20241110-auth.md | 134 |
1 files changed, 134 insertions, 0 deletions
diff --git a/content/en/blog/20241110-auth.md b/content/en/blog/20241110-auth.md new file mode 100644 index 0000000..e96356c --- /dev/null +++ b/content/en/blog/20241110-auth.md @@ -0,0 +1,134 @@ +--- +date: 2024-11-10 +title: "The other end of the authentication rabbit hole" +linkTitle: "Authentication" +author: Dimitri Staessens +--- + +''' +I know the pieces fit +'Cause I watched them tumble down + -- Tool, Schism (2001) +''' + +Mariah Carey signals it almost Christmas, so it sounds like as good a +time for a blog post. Been a long time since my last one. + +My plan for this year for Ouroboros was to clean up the flow allocator +code, then add implement authentication and clean up and fix packet +loss handling (EFCP) and congestion avoidance, and then leave the +elephant - the naming system - for later. + +As they say, plans never survive contact with the enemy. At least I +got the clean-up of the flow allocator code done. + +So how did the authentication implementation go, you ask? Or maybe +not, but I'm going to tell you anyway. Despite not having an +implementation, the journey has been quite interesting. + +The idea was quite simple, actually. I've been been told ad nauseam +not to "reinvent the wheel", so my approach to authentication was +going to be as boring as one could expect: establish a flow between +the client and server, and then do some well-known public key +cryptography magic to authenticate. It's how SSL does it, nothing +wrong with that, is there? + +After an initial check, I validated I could easily use OpenSSL and +X509 certificates. This authentication implementation was going to be +a walk in the park. + +But here I am, at least 5 months later, and I don't have this +implemented. + +There was one thing I absolutely wanted to avoid: having to configure +the certificates for each application. The library could of course add +some configuration/command line options to each linked application +(e.g. --certificate), but even that is not to my liking: I know this +is roughly how it is with OpenSSL certificates today, but it's a drag, +and the O7s code was very emphatically hinting that it could be +done. + +But how? One way was to map programs to certificates in the IRM +configuration, and when an application starts, the IRMd will pass it +the certificate. As an example, the configuration has an entry +/usr/bin/apache -> apache.crt and when /usr/bin/apache starts, it +would get that certificate loaded). Meh, that would kind of have +worked, but it left another problem open: what if I wanted the same +application to start twice, but with different certificates? In other +words, I'd need to map the certificate to a process, not to a program. +That kept my mind busy for a while, as there seemingly was no obvious +solution to this. I say seemingly, because the solution is as obvious +as it is simple. But it's far off the current state of affairs. + +So, how could I get a process to load a certificate at runtime, but +configure it in a central location before the process is running? +That seems like aa catch 22. Mapping the program, instantiating the +program, then set a new mapping, starting another process, that would +be an error-prone mess riddled with race conditions. + +The answer is simple don't map the process, map the service name. O7s +already has the primitives to map programs and processes to names. And +this method is actually not that far off the current Internet. X509 +certficates are usually tied to Domain Names. One part of the puzzle +solved, and I can still use standard X509 certificates. + +So, why don't I have this yet? Glad you asked. + +Mapping certificates to names and as such indirectly tying them to +processes allows for a significantly different approach for +authentication. Why would we trust the peer with sending us his +certificate? We can get it from the name system, before establishing +any communications with the peer. So, instead of allocating a flow, +and then authenticating and deriving symmetric keys for end-to-end +in-flight encryption - as is done with TLS - we can do something a lot +more secure: encrypt absolutely everything - including the initial +(flow allocation) handshake. + +But this has another impact on my implementation plan: I need the +naming system, as the public certificate needs to be there for this to +work. + +The naming system is a component that has not been written yet. It is +a distributed application/database and it needs IPC with the IRMd. + +And so this has opened another debate in my head: should I start over +with the implementation? + +O7s started in 2016 with the intention to be a RINA implentation, but +as we went on we changed it quite a bit. Some core parts are a thorn +in my eye, most notably the synchronous RPC implementation. I don't +want to build the new component (name system) using that approach, and +ripping it out of the current implementation is going to be messy. + +Starting over would allow using a more "modern" language than C. I've +been looking at rust and golang, but from my initial survey, they +don't seem like a good fit due to the lack of shared memory/robust +mutex support. If C is the only viable language for this thing, +ripping the guts out of the current implementation might be the best +option after all. + +I've not reached a conclusion yet. + +Anyway, as always: Stay Curious. And have a nice end of year. + +Dimitri + + + + + + + + + + + + + + + + + + + + |