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- # ADR 073: Adopt LibP2P
-
- ## Changelog
-
- - 2021-11-02: Initial Draft (@tychoish)
-
- ## Status
-
- Proposed.
-
- ## Context
-
-
- As part of the 0.35 development cycle, the Tendermint team completed
- the first phase of the work described in ADRs 61 and 62, which included a
- large scale refactoring of the reactors and the p2p message
- routing. This replaced the switch and many of the other legacy
- components without breaking protocol or network-level
- interoperability and left the legacy connection/socket handling code.
-
- Following the release, the team has reexamined the state of the code
- and the design, as well as Tendermint's requirements. The notes
- from that process are available in the [P2P Roadmap
- RFC][rfc].
-
- This ADR supersedes the decisions made in ADRs 60 and 61, but
- builds on the completed portions of this work. Previously, the
- boundaries of peer management, message handling, and the higher level
- business logic (e.g., "the reactors") were intermingled, and core
- elements of the p2p system were responsible for the orchestration of
- higher-level business logic. Refactoring the legacy components
- made it more obvious that this entanglement of responsibilities
- had outsized influence on the entire implementation, making
- it difficult to iterate within the current abstractions.
- It would not be viable to maintain interoperability with legacy
- systems while also achieving many of our broader objectives.
-
- LibP2P is a thoroughly-specified implementation of a peer-to-peer
- networking stack, designed specifically for systems such as
- ours. Adopting LibP2P as the basis of Tendermint will allow the
- Tendermint team to focus more of their time on other differentiating
- aspects of the system, and make it possible for the ecosystem as a
- whole to take advantage of tooling and efforts of the LibP2P
- platform.
-
- ## Alternative Approaches
-
- As discussed in the [P2P Roadmap RFC][rfc], the primary alternative would be to
- continue development of Tendermint's home-grown peer-to-peer
- layer. While that would give the Tendermint team maximal control
- over the peer system, the current design is unexceptional on its
- own merits, and the prospective maintenance burden for this system
- exceeds our tolerances for the medium term.
-
- Tendermint can and should differentiate itself not on the basis of
- its networking implementation or peer management tools, but providing
- a consistent operator experience, a battle-tested consensus algorithm,
- and an ergonomic user experience.
-
- ## Decision
-
- Tendermint will adopt libp2p during the 0.37 development cycle,
- replacing the bespoke Tendermint P2P stack. This will remove the
- `Endpoint`, `Transport`, `Connection`, and `PeerManager` abstractions
- and leave the reactors, `p2p.Router` and `p2p.Channel`
- abstractions.
-
- LibP2P may obviate the need for a dedicated peer exchange (PEX)
- reactor, which would also in turn obviate the need for a dedicated
- seed mode. If this is the case, then all of this functionality would
- be removed.
-
- If it turns out (based on the advice of Protocol Labs) that it makes
- sense to maintain separate pubsub or gossipsub topics
- per-message-type, then the `Router` abstraction could also
- be entirely subsumed.
-
- ## Detailed Design
-
- ### Implementation Changes
-
- The seams in the P2P implementation between the higher level
- constructs (reactors), the routing layer (`Router`) and the lower
- level connection and peer management code make this operation
- relatively straightforward to implement. A key
- goal in this design is to minimize the impact on the reactors
- (potentially entirely,) and completely remove the lower level
- components (e.g., `Transport`, `Connection` and `PeerManager`) using the
- separation afforded by the `Router` layer. The current state of the
- code makes these changes relatively surgical, and limited to a small
- number of methods:
-
- - `p2p.Router.OpenChannel` will still return a `Channel` structure
- which will continue to serve as a pipe between the reactors and the
- `Router`. The implementation will no longer need the queue
- implementation, and will instead start goroutines that
- are responsible for routing the messages from the channel to libp2p
- fundamentals, replacing the current `p2p.Router.routeChannel`.
-
- - The current `p2p.Router.dialPeers` and `p2p.Router.acceptPeers`,
- are responsible for establishing outbound and inbound connections,
- respectively. These methods will be removed, along with
- `p2p.Router.openConnection`, and the libp2p connection manager will
- be responsible for maintaining network connectivity.
-
- - The `p2p.Channel` interface will change to replace Go
- channels with a more functional interface for sending messages.
- New methods on this object will take contexts to support safe
- cancellation, and return errors, and will block rather than
- running asynchronously. The `Out` channel through which
- reactors send messages to Peers, will be replaced by a `Send`
- method, and the Error channel will be replaced by an `Error`
- method.
-
- - Reactors will be passed an interface that will allow them to
- access Peer information from libp2p. This will supplant the
- `p2p.PeerUpdates` subscription.
-
- - Add some kind of heartbeat message at the application level
- (e.g. with a reactor,) potentially connected to libp2p's DHT to be
- used by reactors for service discovery, message targeting, or other
- features.
-
- - Replace the existing/legacy handshake protocol with [Noise](http://www.noiseprotocol.org/noise.html).
-
- This project will initially use the TCP-based transport protocols within
- libp2p. QUIC is also available as an option that we may implement later.
- We will not support mixed networks in the initial release, but will
- revisit that possibility later if there is a demonstrated need.
-
- ### Upgrade and Compatibility
-
- Because the routers and all current P2P libraries are `internal`
- packages and not part of the public API, the only changes to the public
- API surface area of Tendermint will be different configuration
- file options, replacing the current P2P options with options relevant
- to libp2p.
-
- However, it will not be possible to run a network with both networking
- stacks active at once, so the upgrade to the version of Tendermint
- will need to be coordinated between all nodes of the network. This is
- consistent with the expectations around upgrades for Tendermint moving
- forward, and will help manage both the complexity of the project and
- the implementation timeline.
-
- ## Open Questions
-
- - What is the role of Protocol Labs in the implementation of libp2p in
- tendermint, both during the initial implementation and on an ongoing
- basis thereafter?
-
- - Should all P2P traffic for a given node be pushed to a single topic,
- so that a topic maps to a specific ChainID, or should
- each reactor (or type of message) have its own topic? How many
- topics can a libp2p network support? Is there testing that validates
- the capabilities?
-
- - Tendermint presently provides a very coarse QoS-like functionality
- using priorities based on message-type.
- This intuitively/theoretically ensures that evidence and consensus
- messages don't get starved by blocksync/statesync messages. It's
- unclear if we can or should attempt to replicate this with libp2p.
-
- - What kind of QoS functionality does libp2p provide and what kind of
- metrics does libp2p provide about it's QoS functionality?
-
- - Is it possible to store additional (and potentially arbitrary)
- information into the DHT as part of the heartbeats between nodes,
- such as the latest height, and then access that in the
- reactors. How frequently can the DHT be updated?
-
- - Does it make sense to have reactors continue to consume inbound
- messages from a Channel (`In`) or is there another interface or
- pattern that we should consider?
-
- - We should avoid exposing Go channels when possible, and likely
- some kind of alternate iterator likely makes sense for processing
- messages within the reactors.
-
- - What are the security and protocol implications of tracking
- information from peer heartbeats and exposing that to reactors?
-
- - How much (or how little) configuration can Tendermint provide for
- libp2p, particularly on the first release?
-
- - In general, we should not support byo-functionality for libp2p
- components within Tendermint, and reduce the configuration surface
- area, as much as possible.
-
- - What are the best ways to provide request/response semantics for
- reactors on top of libp2p? Will it be possible to add
- request/response semantics in a future release or is there
- anticipatory work that needs to be done as part of the initial
- release?
-
- ## Consequences
-
- ### Positive
-
- - Reduce the maintenance burden for the Tendermint Core team by
- removing a large swath of legacy code that has proven to be
- difficult to modify safely.
-
- - Remove the responsibility for maintaining and developing the entire
- peer management system (p2p) and stack.
-
- - Provide users with a more stable peer and networking system,
- Tendermint can improve operator experience and network stability.
-
- ### Negative
-
- - By deferring to library implementations for peer management and
- networking, Tendermint loses some flexibility for innovating at the
- peer and networking level. However, Tendermint should be innovating
- primarily at the consensus layer, and libp2p does not preclude
- optimization or development in the peer layer.
-
- - Libp2p is a large dependency and Tendermint would become dependent
- upon Protocol Labs' release cycle and prioritization for bug
- fixes. If this proves onerous, it's possible to maintain a vendor
- fork of relevant components as needed.
-
- ### Neutral
-
- - N/A
-
- ## References
-
- - [ADR 61: P2P Refactor Scope][adr61]
- - [ADR 62: P2P Architecture][adr62]
- - [P2P Roadmap RFC][rfc]
-
- [adr61]: ./adr-061-p2p-refactor-scope.md
- [adr62]: ./adr-062-p2p-architecture.md
- [rfc]: ../rfc/rfc-000-p2p-roadmap.rst
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