* Remove unsafe creation of dalek_ff_group::EdwardsPoint in BP+
* Rename Bulletproofs to Bulletproof, since they are a single Bulletproof
Also bifurcates prove with prove_plus, and adds a few documentation items.
* Make CLSAG signing private
Also adds a bit more documentation and does a bit more tidying.
* Remove the distribution cache
It's a notable bandwidth/performance improvement, yet it's not ready. We need a
dedicated Distribution struct which is managed by the wallet and passed in.
While we can do that now, it's not currently worth the effort.
* Tidy Borromean/MLSAG a tad
* Remove experimental feature from monero-serai
* Move amount_decryption into EncryptedAmount::decrypt
* Various RingCT doc comments
* Begin crate smashing
* Further documentation, start shoring up API boundaries of existing crates
* Document and clean clsag
* Add a dedicated send/recv CLSAG mask struct
Abstracts the types used internally.
Also moves the tests from monero-serai to monero-clsag.
* Smash out monero-bulletproofs
Removes usage of dalek-ff-group/multiexp for curve25519-dalek.
Makes compiling in the generators an optional feature.
Adds a structured batch verifier which should be notably more performant.
Documentation and clean up still necessary.
* Correct no-std builds for monero-clsag and monero-bulletproofs
* Tidy and document monero-bulletproofs
I still don't like the impl of the original Bulletproofs...
* Error if missing documentation
* Smash out MLSAG
* Smash out Borromean
* Tidy up monero-serai as a meta crate
* Smash out RPC, wallet
* Document the RPC
* Improve docs a bit
* Move Protocol to monero-wallet
* Incomplete work on using Option to remove panic cases
* Finish documenting monero-serai
* Remove TODO on reading pseudo_outs for AggregateMlsagBorromean
* Only read transactions with one Input::Gen or all Input::ToKey
Also adds a helper to fetch a transaction's prefix.
* Smash out polyseed
* Smash out seed
* Get the repo to compile again
* Smash out Monero addresses
* Document cargo features
Credit to @hinto-janai for adding such sections to their work on documenting
monero-serai in #568.
* Fix deserializing v2 miner transactions
* Rewrite monero-wallet's send code
I have yet to redo the multisig code and the builder. This should be much
cleaner, albeit slower due to redoing work.
This compiles with clippy --all-features. I have to finish the multisig/builder
for --all-targets to work (and start updating the rest of Serai).
* Add SignableTransaction Read/Write
* Restore Monero multisig TX code
* Correct invalid RPC type def in monero-rpc
* Update monero-wallet tests to compile
Some are _consistently_ failing due to the inputs we attempt to spend being too
young. I'm unsure what's up with that. Most seem to pass _consistently_,
implying it's not a random issue yet some configuration/env aspect.
* Clean and document monero-address
* Sync rest of repo with monero-serai changes
* Represent height/block number as a u32
* Diversify ViewPair/Scanner into ViewPair/GuaranteedViewPair and Scanner/GuaranteedScanner
Also cleans the Scanner impl.
* Remove non-small-order view key bound
Guaranteed addresses are in fact guaranteed even with this due to prefixing key
images causing zeroing the ECDH to not zero the shared key.
* Finish documenting monero-serai
* Correct imports for no-std
* Remove possible panic in monero-serai on systems < 32 bits
This was done by requiring the system's usize can represent a certain number.
* Restore the reserialize chain binary
* fmt, machete, GH CI
* Correct misc TODOs in monero-serai
* Have Monero test runner evaluate an Eventuality for all signed TXs
* Fix a pair of bugs in the decoy tests
Unfortunately, this test is still failing.
* Fix remaining bugs in monero-wallet tests
* Reject torsioned spend keys to ensure we can spend the outputs we scan
* Tidy inlined epee code in the RPC
* Correct the accidental swap of stagenet/testnet address bytes
* Remove unused dep from processor
* Handle Monero fee logic properly in the processor
* Document v2 TX/RCT output relation assumed when scanning
* Adjust how we mine the initial blocks due to some CI test failures
* Fix weight estimation for RctType::ClsagBulletproof TXs
* Again increase the amount of blocks we mine prior to running tests
* Correct the if check about when to mine blocks on start
Finally fixes the lack of decoy candidates failures in CI.
* Run Monero on Debian, even for internal testnets
Change made due to a segfault incurred when locally testing.
https://github.com/monero-project/monero/issues/9141 for the upstream.
* Don't attempt running tests on the verify-chain binary
Adds a minimum XMR fee to the processor and runs fmt.
* Increase minimum Monero fee in processor
I'm truly unsure why this is required right now.
* Distinguish fee from necessary_fee in monero-wallet
If there's no change, the fee is difference of the inputs to the outputs. The
prior code wouldn't check that amount is greater than or equal to the necessary
fee, and returning the would-be change amount as the fee isn't necessarily
helpful.
Now the fee is validated in such cases and the necessary fee is returned,
enabling operating off of that.
* Restore minimum Monero fee from develop
I didn't remove async-recursion when I updated the repo to 1.77 as I forgot we
used it in the tests. I still had to add some Box::pins, which may have been a
valid option, on the prior Rust version, yet at least resolves everything now.
Also updates everything which doesn't introduce further depends.
Exposes flush calls.
Adds safety, at the cost of a panic risk, as multiple TXNs simultaneously
writing to a key will now cause a panic. This should be fine and the safety is
appreciated.
Moves from concatted Dockerfiles to pseudo-templated Dockerfiles via a dedicated Rust program.
Removes the unmaintained kubernetes, not because we shouldn't have/use it, but because it's unmaintained and needs to be reworked before it's present again.
Replaces the compose with the work in the new orchestrator binary which spawns everything as expected. While this arguably re-invents the wheel, it correctly manages secrets and handles the variadic Dockerfiles.
Also adds an unrelated patch for zstd and simplifies running services a bit by greater utilizing the existing infrastructure.
---
* Delete all Dockerfile fragments, add new orchestator to generate Dockerfiles
Enables greater templating.
Also delete the unmaintained kubernetes folder *for now*. This should be
restored in the future.
* Use Dockerfiles from the orchestator
* Ignore Dockerfiles in the git repo
* Remove CI job to check Dockerfiles are as expected now that they're no longer committed
* Remove old Dockerfiles from repo
* Use Debian for monero-wallet-rpc
* Remove replace_cmds for proper usage of entry-dev
Consolidates ports a bit.
Updates serai-docker-tests from "compose" to "build".
* Only write a new dockerfile if it's distinct
Preserves the updated time metadata.
* Update serai-docker-tests
* Correct the path Dockerfiles are built from
* Correct inclusion of orchestration folder in Docker builds
* Correct debug/release flagging in the cargo command
Apparently, --debug isn't an effective NOP yet an error.
* Correct path used to run the Serai node within a Dockerfile
* Correct path in Monero Dockerfile
* Attempt storing monerod in /usr/bin
* Use sudo to move into /usr/bin in CI
* Correct 18.3.0 to 18.3.1
* Escape * with quotes
* Update deny.toml, ADD orchestration in runtime Dockerfile
* Add --detach to the Monero GH CI
* Diversify dockerfiles by network
* Fixes to network-diversified orchestration
* Bitcoin and Monero testnet scripts
* Permissions and tweaks
* Flatten scripts folders
* Add missing folder specification to Monero Dockerfile
* Have monero-wallet-rpc specify the monerod login
* Have the Docker CMD specify env variables inserted at time of Dockerfile generation
They're overrideable with the global enviornment as for tests. This enables
variable generation in orchestrator and output to productionized Docker files
without creating a life-long file within the Docker container.
* Don't add Dockerfiles into Docker containers now that they have secrets
Solely add the source code for them as needed to satisfy the workspace bounds.
* Download arm64 Monero on arm64
* Ensure constant host architecture when reproducibly building the wasm
Host architecture, for some reason, can effect the generated code despite the
target architecture always being foreign to the host architecture.
* Randomly generate infrastructure keys
* Have orchestrator generate a key, be able to create/start containers
* Ensure bash is used over sh
* Clean dated docs
* Change how quoting occurs
* Standardize to sh
* Have Docker test build the dev Dockerfiles
* Only key_gen once
* cargo update
Adds a patch for zstd and reconciles the breaking nightly change which just
occurred.
* Use a dedicated network for Serai
Also fixes SERAI_HOSTNAME passed to coordinator.
* Support providing a key over the env for the Serai node
* Enable and document running daemons for tests via serai-orchestrator
Has running containers under the dev network port forward the RPC ports.
* Use volumes for bitcoin/monero
* Use bitcoin's run.sh in GH CI
* Only use the volume for testnet (not dev)
* 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.
* Move logic for evaluating if a cosign should occur to its own file
Cleans it up and makes it more robust.
* Have expected_next_batch return an error instead of retrying
While convenient to offer an error-free implementation, it potentially caused
very long lived lock acquisitions in handle_processor_message.
* Unify and clean DkgConfirmer and DkgRemoval
Does so via adding a new file for the common code, SigningProtocol.
Modifies from_cache to return the preprocess with the machine, as there's no
reason not to. Also removes an unused Result around the type.
Clarifies the security around deterministic nonces, removing them for
saved-to-disk cached preprocesses. The cached preprocesses are encrypted as the
DB is not a proper secret store.
Moves arguments always present in the protocol from function arguments into the
struct itself.
Removes the horribly ugly code in DkgRemoval, fixing multiple issues present
with it which would cause it to fail on use.
* Set SeraiBlockNumber in cosign.rs as it's used by the cosigning protocol
* Remove unnecessary Clone from lambdas in coordinator
* Remove the EventDb from Tributary scanner
We used per-Transaction DB TXNs so on error, we don't have to rescan the entire
block yet only the rest of it. We prevented scanning multiple transactions by
tracking which we already had.
This is over-engineered and not worth it.
* Implement borsh for HasEvents, removing the manual encoding
* Merge DkgConfirmer and DkgRemoval into signing_protocol.rs
Fixes a bug in DkgConfirmer which would cause it to improperly handle indexes
if any validator had multiple key shares.
* Strictly type DataSpecification's Label
* Correct threshold_i_map_to_keys_and_musig_i_map
It didn't include the participant's own index and accordingly was offset.
* Create TributaryBlockHandler
This struct contains all variables prior passed to handle_block and stops them
from being passed around again and again.
This also ensures fatal_slash is only called while handling a block, as needed
as it expects to operate under perfect consensus.
* Inline accumulate, store confirmation nonces with shares
Inlining accumulate makes sense due to the amount of data accumulate needed to
be passed.
Storing confirmation nonces with shares ensures that both are available or
neither. Prior, one could be yet the other may not have been (requiring an
assert in runtime to ensure we didn't bungle it somehow).
* Create helper functions for handling DkgRemoval/SubstrateSign/Sign Tributary TXs
* Move Label into SignData
All of our transactions which use SignData end up with the same common usage
pattern for Label, justifying this.
Removes 3 transactions, explicitly de-duplicating their handlers.
* Remove CurrentlyCompletingKeyPair for the non-contextual DkgKeyPair
* Remove the manual read/write for TributarySpec for borsh
This struct doesn't have any optimizations booned by the manual impl. Using
borsh reduces our scope.
* Use temporary variables to further minimize LoC in tributary handler
* Remove usage of tuples for non-trivial Tributary transactions
* Remove serde from dkg
serde could be used to deserialize intenrally inconsistent objects which could
lead to panics or faults.
The BorshDeserialize derives have been replaced with a manual implementation
which won't produce inconsistent objects.
* Abstract Future generics using new trait definitions in coordinator
* Move published_signed_transaction to tributary/mod.rs to reduce the size of main.rs
* Split coordinator/src/tributary/mod.rs into spec.rs and transaction.rs
* 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
* 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
The coordinator already had one of these, albeit implemented much worse than
the one now properly introduced. It had to either be sending or receiving,
whereas the new one can do both at the same time.
This replaces said instance and enables pleasant patterns when implementing the
processor/coordinator.
The prior system spawned a new connection per request to enable parallelism,
yet kept hitting hyper::IncompleteMessages I couldn't track down. This
attempts to resolve those by a long-lived socket.
Halves the amount of requests per-authenticated RPC call, and accordingly is
likely still better overall.
I don't believe this is resolved yet but this is still worth pushing.
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.
* db_macro
* wip: converted prcessor/key_gen to use create_db macro
* wip: converted prcessor/key_gen to use create_db macro
* wip: formatting
* fix: added no_run to doc
* fix: documentation example had extra parenths
* fix: ignore doc test entirely
* Corrections from rebasing
* Misc lint
---------
Co-authored-by: Luke Parker <lukeparker5132@gmail.com>
If a crate has std set, it should enable std for all dependencies in order to
let them properly select which algorithms to use. Some crates fallback to
slower/worse algorithms on no-std.
Also more aggressively sets default-features = false leading to a *10%*
reduction in the amount of crates coordinator builds.
This will effectively add msrv protections to the entire project as almost
everything grabs from these.
Doesn't add msrv to coins as coins/bitcoin is still frozen.
Doesn't add msrv to services since cargo msrv doesn't play nice with anything
importing the runtime.
zstd was recommended for the base layer only, due to its CPU requirements. That
was a misreading on mhy behalf.
lz4 gets ~5% better compression than snappy with ~30% faster performance. zstd
does ~25% better than lz4 yet at ~30% of the performance.