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ADR 069: Flexible Node Initialization

Changlog

Status

Proposed.

Context

In an effort to support Go-API-Stability, during the 0.35 development cycle, we have attempted to reduce the the API surface area by moving most of the interface of the node package into unexported functions, as well as moving the reactors to an internal package. Having this coincide with the 0.35 release made a lot of sense because these interfaces were already changing as a result of the p2p refactor, so it made sense to think a bit more about how tendermint exposes this API.

While the interfaces of the P2P layer and most of the node package are already internalized, this precludes some operational patterns that are important to users who use tendermint as a library. Specifically, introspecting the tendermint node service and replacing components is not supported in the latest version of the code, and some of these use cases would require maintaining a vendor copy of the code. Adding these features requires rather extensive (internal/implementation) changes to the node and rpc packages, and this ADR describes a model for changing the way that tendermint nodes initialize, in service of providing this kind of functionality.

We consider node initialization, because the current implemention provides strong connections between all components, as well as between the components of the node and the RPC layer, and being able to think about the interactions of these components will help enable these features and help define the requirements of the node package.

Alternative Approaches

These alternatives are presented to frame the design space and to contextualize the decision in terms of product requirements. These ideas are not inherently bad, and may even be possible or desireable in the (distant) future, and merely provide additional context for how we, in the moment came to our decision(s).

Do Nothing

The current implementation is functional and sufficient for the vast majority of use cases (e.g., all users of the Cosmos-SDK as well as anyone who runs tendermint and the ABCI application in separate processes). In the current implementation, and even previous versions, modifying node initialization or injecting custom components required copying most of the node package, which required such users to maintain a vendored copy of tendermint.

While this is (likely) not tenable in the long term, as users do want more modularity, and the current service implementation is brittle and difficult to maintain, in the short term it may be possible to delay implementation somewhat. Eventually, however, we will need to make the node package easier to maintain and reason about.

Generic Service Pluggability

One possible system design would export interfaces (in the Golang sense) for all components of the system, to permit runtime dependency injection of all components in the system, so that users can compose tendermint nodes of arbitrary user-supplied components.

Although this level of customization would provide benefits, it would be a huge undertaking (particularly with regards to API design work) that we do not have scope for at the moment. Eventually providing support for some kinds of pluggability may be useful, so the current solution does not explicitly foreclose the possibility of this alternative.

Abstract Dependency Based Startup and Shutdown

The main proposal in this document makes tendermint node initialization simpler and more abstract, but the system lacks a number of features which daemon/service initialization could provide, such as a system allowing the authors of services to control initialization and shutdown order of components using dependency relationships.

Such a system could work by allowing services to declare initialization order dependencies to other reactors (by ID, perhaps) so that the node could decide the initialization based on the dependencies declared by services rather than requiring the node to encode this logic directly.

This level of configuration is probably more complicated than is needed. Given that the authors of components in the current implementation of tendermint already do need to know about other components, a dependency-based system would probably be overly-abstract at this stage.

Decisions

  • To the greatest extent possible, factor the code base so that packages are responsible for their own initialization, and minimize the amount of code in the node package itself.

  • As a design goal, reduce direct coupling and dependencies between components in the implementation of node.

  • Begin iterating on a more-flexible internal framework for initializing tendermint nodes to make the initatilization process less hard-coded by the implementation of the node objects.

    • Reactors should not need to expose their interfaces within the implementation of the node type

    • This refactoring should be entirely opaque to users.

    • These node initialization changes should not require a reevaluation of the service.Service or a generic initialization orchestration framework.

  • Do not proactively provide a system for injecting components/services within a tendtermint node, though make it possible to retrofit this kind of plugability in the future if needed.

  • Prioritize implementation of p2p-based statesync reactor to obviate need for users to inject a custom state-sync provider.

Detailed Design

The current nodeImpl includes direct references to the implementations of each of the reactors, which should be replaced by references to service.Service objects. This will require moving construction of the rpc service into the constructor of makeNode. One possible implementation of this would be to eliminate the current ConfigureRPC method on the node package and instead configure it here.

To avoid adding complexity to the node package, we will add a composite service implementation to the service package that implements service.Service and is composed of a sequence of underlying service.Service objects and handles their startup/shutdown in the specified sequential order.

Consensus, blocksync (née fast sync), and statesync all depend on each other, and have significant initialization dependencies that are presently encoded in the node package. As part of this change, a new package/component (likely named blocks located at internal/blocks) will encapsulate the initialization of these block management areas of the code.

Injectable Component Option

This section briefly describes a possible implementation for user-supplied services running within a node. This should not be implemented unless user-supplied components are a hard requirement for a user.

In order to allow components to be replaced, a new public function will be added to the public interface of node with a signature that resembles the following:

func NewWithServices(conf *config.Config,
	logger log.Logger,
	cf proxy.ClientCreator,
	gen *types.GenesisDoc,
	srvs []service.Service,
) (service.Service, error) {

The service.Service objects will be initialized in the order supplied, after all pre-configured/default services have started (and shut down in reverse order). The given services may implement additional interfaces, allowing them to replace specific default services. NewWithServices will validate input service lists with the following rules:

  • None of the services may already be running.
  • The caller may not supply more than one replacement reactor for a given default service type.

If callers violate any of these rules, NewWithServices will return an error. To retract support for this kind of operation in the future, the function can be modified to always return an error.

Consequences

Positive

  • The node package will become easier to maintain.

  • It will become easier to add additional services within tendermint nodes.

  • It will become possible to replace default components in the node package without vendoring the tendermint repo and modifying internal code.

  • The current end-to-end (e2e) test suite will be able to prevent any regressions, and the new functionality can be thoroughly unit tested.

  • The scope of this project is very narrow, which minimizes risk.

Negative

  • This increases our reliance on the service.Service interface which is probably not an interface that we want to fully commit to.

  • This proposal implements a fairly minimal set of functionality and leaves open the possibility for many additional features which are not included in the scope of this proposal.

Neutral

N/A

Open Questions

  • To what extent does this new initialization framework need to accommodate the legacy p2p stack? Would it be possible to delay a great deal of this work to the 0.36 cycle to avoid this complexity?

    • Answer: depends on timing, and the requirement to ship pluggable reactors in 0.35.
  • Where should additional public types be exported for the 0.35 release?

    Related to the general project of API stabilization we want to deprecate the types package, and move its contents into a new pkg hierarchy; however, the design of the pkg interface is currently underspecified. If types is going to remain for the 0.35 release, then we should consider the impact of using multiple organizing modalities for this code within a single release.

Future Work

  • Improve or simplify the service.Service interface. There are some pretty clear limitations with this interface as written (there's no way to timeout slow startup or shut down, the cycle between the service.BaseService and service.Service implementations is troubling, the default panic in OnReset seems troubling.)

  • As part of the refactor of service.Service have all services/nodes respect the lifetime of a context.Context object, and avoid the current practice of creating context.Context objects in p2p and reactor code. This would be required for in-process multi-tenancy.

  • Support explicit dependencies between components and allow for parallel startup, so that different reactors can startup at the same time, where possible.

References

  • this branch contains experimental work in the implementation of the node package to unwind some of the hard dependencies between components.

  • the component graph as a framing for internal service construction.

Appendix

Dependencies

There's a relationship between the blockchain and consensus reactor described by the following dependency graph makes replacing some of these components more difficult relative to other reactors or components.

consensus blockchain dependency graph