* Use an extended timeout for DKGs specifically
* Add a log statement when message-queue connection fails
* Add a 60 second keep-alive to connections
* Use zalloc for processor/message-queue/coordinator
An additional layer which protects us against edge cases with Zeroizing
(objects which don't support it or don't miss it).
* Add further logs to message-queue
* Further increase re-attempt timeouts in CI
* Remove misplaced continue inmessage-queue client
Fixes observed CI failures.
* Revert "Further increase re-attempt timeouts in CI"
This reverts commit 3723530cf6.
* Use redb and in Dockerfiles
The motivation for redb was to remove the multiple rocksdb compile times from
CI.
* Correct feature flagging of coordinator and message-queue in Dockerfiles
* Correct message-queue DB type alias
* Use consistent table typing in redb
* Correct rebase artifacts
* Correct removal of binaries feature from message-queue
* Correct processor feature flagging
* Replace redb with parity-db
It still has much better compile times yet doesn't block when creating multiple
transactions. It also is actively maintained and doesn't grow our tree. The MPT
aspects are irrelevant.
* Correct stray Redb
* clippy warning
* Correct txn get
* Remove NetworkId from processor-messages
Because intent binds to the sender/receiver, it's not needed for intent.
The processor knows what the network is.
The coordinator knows which to use because it's sending this message to the
processor for that network.
Also removes the unused zeroize.
* ProcessorMessage::Completed use Session instead of key
* Move SubstrateSignId to Session
* Finish replacing key with session
* Move message-queue to a fully binary representation
Additionally adds a timeout to the message queue test.
* coordinator clippy
* Remove contention for the message-queue socket by using per-request sockets
* clippy
* Add SignalsConfig to chain_spec
* Correct multiexp feature flagging for rand_core std
* Remove bincode for borsh
Replaces a non-canonical encoding with a canonical encoding which additionally
should be faster.
Also fixes an issue where we used bincode in transcripts where it cannot be
trusted.
This ended up fixing a myriad of other bugs observed, unfortunately.
Accordingly, it either has to be merged or the bug fixes from it must be ported
to a new PR.
* Make serde optional, minimize usage
* Make borsh an optional dependency of substrate/ crates
* Remove unused dependencies
* Use [u8; 64] where possible in the processor messages
* Correct borsh feature flagging
reqwest was replaced with hyper and hyper-rustls within monero-serai due to
reqwest *solely* offering a connection pool API. In the process, it was
demonstrated how quickly we can achieve equivalent functionality to reqwest for
our use cases with a fraction of the code.
This adds our own reqwest alternative to the tree, applying it to both
bitcoin-serai and message-queue. By doing so, bitcoin-serai decreases its tree
by 21 packages and the processor by 18. Cargo.lock decreases by 8 dependencies,
solely adding simple-request. Notably removed is openssl-sys and openssl.
One noted decrease functionality is the requirement on the system having
installed CA certificates. While we could fallback to the rustls certificates
if the system doesn't have any, that's blocked by
https://github.com/rustls/hyper-rustls/pulls/228.
By default, tokio-spawned worker panics will only kill the task, not the
program. Due to our extensive use of panicking on invariants, we should ensure
the program exits.
Allows running `cargo build` in monero-serai and message-queue without
erroring, since it'd automatically try to build the binaries which require
additional features.
While we could make those features not optional, it'd increase time to build
and disk space required, which is why the features exist for monero-serai and
message-queue in the first place (since both are frequently used as libs).
Duee to signature replaying, it's very annoying to provide meanigful data
access privacy. None of these messages should be private/have sensitive data
anyways though.
Due to each service having multiple distinct clocks, we can't expect a stable
ordering except the ordering an intact message-queue provides. The messages
emitted should be consistent however, solely with unknown order, which is why
we can craft intents based on their contents (already implemented by
processor-messages).
This is intended to be a reliable transport between the processors and
coordinator. Since it'll be intranet only, it's written as never fail.
Primarily needs testing and a proper ID.