Hey fellow nerds, I have an idea that Iād like to discuss with you. All feedback ā positive or negative ā is welcome. Consider this a baby RFC (Request for Comments).
So. Iāve been having a think on how to implement the right to be forgotten (one of the cornerstones of eg. the GDPR) in the context of federated services. Currently, itās not possible to remove your comments, posts, etc., from the Fediverse and not just your āhome instanceā without manually contacting every node in the network. in my opinion, this is a fairly pressing problem, and there would already be a GDPR case here if someone were to bring the āeye of Sauronā (ie. a national data protection authority) upon us.
Please note that this is very much a draft and it does have some issues and downsides, some of which Iāve outlined towards the end.
The problem
In a nutshell, the problem Iām trying to solve is how to guarantee that āwell-behavedā instances, which support this proposal, will delete user content even in the most common exceptional cases, such as changes in network topology, network errors, and server downtime. These are situations where youād typically expect messages about content or user deletion to be lost. Itās important to note that Iāve specifically approached this from the āright to be forgottenā perspective, so the current version of the proposal solely deals with āmass deletionā when user accounts are deleted. It doesnāt currently integrate or work with the normal content deletion flow (Iāll further discuss this below).
While I understand that in a federated or decentralized network itās impossible to guarantee that your content will be deleted, but we canāt let āperfect be the enemy of good enoughā. Making a concerted effort to ensure that in most cases user content is deleted (initially this could even just be a Lemmy thing and not a wider Fediverse thing) when the user so wishes would already be a big step in the right direction.
I havenāt yet looked into āprior artā except some very cursory searches and I had banged the outline of this proposal out before I even went looking, but I now know that eg. Mastodon has the ability to set TTLs on posts. This proposal is sort of adjacent and could be massaged a bit to support this on Lemmy (or whatever else service) too.
1. The proposal: TTLs on user content
- Every comment, post etc. (content) must have an associated TTL (eg. a
live_until
timestamp). This TTL can be fairly long, on the order of weeks or even a couple of months - well before the contentās TTL runs out (eg. even halfway through the TTL, with some random jitter to prevent āthundering herdsā), an instance asks the āhome instanceā of the user who created the content whether the user account is still live. If it is, great, update the TTL and go on with life
- in cases where the āhome instanceā of a content creator canāt be reached due to eg. network problems, this āliveness checkā must be repeated at random long-ish intervals (eg. every 20 ā 30h) until an answer is gotten or the TTL runs out
- information about user liveness should be cached, but with a much shorter TTL than content
- in cases where the userās home instance isnāt in an instanceās linked instance list or is in their blocked instance list, this liveness check may be skipped
- when content TTL runs out and a user liveness check hasnāt succeeded, or when a user liveness check specifically comes back as negative, the content must be deleted
- when a liveness check comes back as negative and the user has been removed, instances must delete the rest of that userās content and not just the one whose TTL ran out
- when a liveness check fails (eg. the userās home instance doesnāt respond), instances may delete the rest of that userās content. Or I guess they probably should?
- user accounts must have a TTL, on the order of several years
- when a user performs any activity on the instance, this TTL must be updated
- when this TTL runs out, the account and all of its related content on the instance must be deleted
- instances may eg. ping users via email to remind them about their account expiring before the TTL runs out
2. Advantages of this proposal
- guarantees that user content is deleted from āwell behavedā instances, even in the face of changing network topologies when instances defederate or disappear, hiccups in message delivery, server uptime and so on
- would allow supporting Mastodon-like general content TTLs with a little modification, hence why it has TTLs per content and not just per user. Maybe something like a
refresh_liveness
boolean field on content that says whether an instance should do user liveness checks and refresh the contentās TTL based on it or not? - with some modification this probably could (and should) be made to work with and support the regular content deletion flow. Something for draft v0.2 in case this gets any traction?
3. Disadvantages of this proposal
- more network traffic, DB activity, and CPU usage, even during ānormalā operation and not just when something gets deleted. Not a huge amount but the impact should probably be estimated so weād have at least an idea of what itād mean
- however, considering the nature of the problem, some extra work is to be expected
- as noted, the current form of this proposal does not support or work with the regular deletion flow for individual comments or posts, and only addresses the more drastic scenario when a user account is deleted or disappears
- spurious deletions of content are theoretically possible, although with long TTLs and persistent liveness check retries they shouldnāt happen except in rare cases. Whether this is actually a problem requires more thinkifying
- requires buy-in from the rest of the Fediverse as long as itās not a protocol-level feature (and thereās more protocols than just ActivityPub). This same disadvantage would naturally apply to all proposals that arenāt protocol-level. The end goal would definitely be to have this feature be a protocol thing and not just a Lemmy thing, but one step at a time
3.1 āItās a feature, not a bugā
- when an instance defederates or otherwise leaves the network, content from users on that instance will eventually disappear from instances no longer connected to its network. This is a feature: when you lose contact with an instance for a long time, you have to assume that itās been ālost at seaā to make sure that the usersā right to forgotten is respected. As a side note, this would also help prune content from long gone instances
- content canāt be assumed to be forever. This is by design: in my opinon Lemmy shouldnāt try to be a permanent archive of all content, like the Wayback Machine
- this solution is more complex than simply actually deleting content when the user so wishes, instead of just hiding it from view like itās done now in Lemmy. While ātrue deletionā definitely needs to also be implemented, itās not enough to guarantee eventual content deletion in cases like defederation, or network and server errors leading to an instance not getting the message about content or a user being deleted
A simpler solution would be to ship Lemmy so when something is deleted, it is not simply flagged as being deleted, it is actually deleted from the database. In order to circumvent this, bad actors would have to alter the source code and recompile their own version. For some reason, the Lemmy devs chose not to implement deletion in this way, and I agree this is concerning.
While actual deletion of content is definitely something that needs to be implemented, it canāt be relied on for data protection / right to be forgotten needs: you canāt guarantee that a message about content or user account deletion makes it to every instance in the network, including instances a userās home instance is no longer federated with.
The proposal is more complex exactly because we canāt make assumptions about network topology or all instances in the network being reachable when content or a user is deleted. This is the fun part about distributed systems.
Edit: Iāll add this to the āitās a feature, not a bugā list since while you do have a valid point, this is specifically something that wonāt work in this context