There used to be project roles and repo roles, and they were separate. A while
ago I merged them, and there has been a single role system, used with both
repos and projects. However the table names were still "ProjectRole" and things
like that. This patch renames some tables to just refer to a "Role" because
there's only one kind of role system.
I added a migration that creates an ugly fake OutboxItem for messages that
don't have one. I'll try to turn it into a real one. And then very possibly
remove the whole ugly migration, replacing it with addFielfRefRequiredEmpty,
which should work for empty instances.
- Allow client to specify recipients that don't need to be delivered to
- When fetching recipient, recognize collections and don't try to deliver to
them
- Remember collections in DB, and use that to skip HTTP delivery
It runs checks against all the relevant tables, but ultimately just inserts the
activity into the recipient's inbox and nothing more, leaving the RemoteMessage
creation and inbox forwarding to the project inbox handler.
Inbox post is disabled but in the next patches I'll code and integrate a fixed
complete one, hopefully finally getting ticket comment federation ready for
testing.
I'm making this change because if an actor receives an activity due to being
addressed in bto, ot bcc, or being listed in some remote collection, the server
doesn't have a way to tell which actor(s) are the intended recipients, without
having an individual inbox URL for each actor. I could use a different hack for
this, but it wouldn't be compatible with other AP servers (unless the whole
fediverse agrees on a method).
I wasn't using sharedInbox anyway, and it's an optimization either way.
I wrote a function handleOutboxNote that's supposed to do the whole outbox POST
handler process. There's an outbox item table in the DB now, I adapted things
in various source files. Ticket comment federation work is still in progress.
The custom module provides a parametric wrapper, allowing any specific
FromJSON/ToJSON instance to be used. It's a standalone module though, and not a
wrapper of persistent-postgresql, because persistent-postgresql uses aeson
Value and it prevents using toEncoding to get from the value directly to a
string.
Before, things worked like this:
* Only signatures of Ed25519 keys could be verified
* Key encoding placed the plain binary Ed25519 key in the PEM, instead of the
key's ASN1 encoding
With this patch it now works like this:
* Ed25519 signatures are supported as before
* RSA keys are now supported too, assuming RSA-SHA256 signatures
* Both Ed25519 and RSA keys are encoded and decoded using actual PEM with ASN1
When we verify an HTTP signature,
* If we know the key, check in the DB whether we know the actor lists it. If it
doesn't, and there's room left for keys, HTTP GET the actor and update the DB
accordingly.
* If we know the key but had to update it, do the same, check usage in DB and
update DB if needed
* If we don't know the key, record usage in DB
However,
* If we're GETing a key and discovering it's a shared key, we GET the actor to
verify it lists the key. When we don't know the key at all yet, that's fine
(can be further optimized but it's marginal), but if it's a key we do know,
it means we already know the actor and for now it's enough for us to rely
only on the DB to test usage.