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Substreams Sink

This is a Substreams Sink library. You can use to build any sink application that consumes Substreams in Golang

Features

What you get by using this library:

  • Handles connection and reconnections
  • Throughput Logging (block rates, etc)
  • Best Practices error handling

Usage

The library provides a Sinker class that can be used to connect to the Substreams API. The Sinker class is a wrapper around the substreams library, which is a low-level library that provides a convenient way to connect to the Substreams API.

The user's primary responsibility when creating a custom sink is to pass a BlockScopedDataHandler and a BlockUndoSignalHandler implementation(s) which has the following interface:

impport (
	pbsubstreamsrpc "github.com/streamingfast/substreams/pb/sf/substreams/rpc/v2"
)

type BlockScopedDataHandler = func(ctx context.Context, cursor *Cursor, data *pbsubstreamsrpc.BlockScopedData) error
type BlockUndoSignalHandler = func(ctx context.Context, cursor *Cursor, undoSignal *pbsubstreamsrpc.BlockUndoSignal) error

We invite you to take a look at our:

Note

We highly recommend to use the Advanced Example example for any serious sink implementation!

BlockScopedDataHandler
  • ctx context.Context is the sink.Sinker actual context.Context.
  • cursor *Cursor is the cursor at the given block, this cursor should be saved regularly as a checkpoint in case the process is interrupted.
  • data *pbsubstreamsrpc.BlockScopedData contains the data that was received from the Substreams API, refer to it's definition for proper usage.
BlockUndoSignalHandler
  • ctx context.Context is the sink.Sinker actual context.Context.
  • cursor *Cursor is the cursor to use after the undo, this cursor should be saved regularly as a checkpoint in case the process is interrupted.
  • data *pbsubstreamsrpc.BlockUndoSignal contains the last valid block that is still valid, any data saved after this last saved block should be discarded.

Handlers Flow

The basic pattern for using the Sinker is as follows:

  • Create your data layer which is responsible for decoding the Substreams' data and saving it to the desired storage.
  • Have this object implement handling of *pbsubstreamsrpc.BlockScopedData message.
  • Have this object implement handling of *pbsubstreamsrpc.BlockUndoSignal message.
  • Create a Sinker object using sink.New and pass in the two handlers that calls your implementations.

The BlockScopedDataHandler is called for each block scoped data message that is received from the Substreams API and contains all the data output for the given Substreams module. In your handler, you are responsible for decoding and processing the data, and returning an error if there is a problem. It's there also that you should persist the cursor according to your persistence logic.

The BlockUndoSignalHandler is called when a message *pbsubstreamsrpc.BlockUndoSignal is received from the stream. Those message contains a LastValidBlock which points to the last block should be assumed to be part of the canonical chain as well as LastValidCursor which should be used as the current active cursor.

How is the *pbsubstreamsrpc.BlockUndoSignal is actually is implementation dependent. The correct behavior is to treat every piece of data that is contained in a BlockScopedData whose BlockScopedData.Clock.Number is > LastValidBlock.Number as now invalid. For example, if all written entities have a block number, one handling possibility is to delete every entities where blockNumber > LastValidBlock.Number.

From Viper

Our sink(s) are all using Viper/Cobra and a set of public StreamingFast libraries to deal with flags, logging, environment variables, etc. If you use the same structure as us, you can benefits from sink.AddFlagsToSet and sink.NewFromViper which both performs most of the boilerplate to bootstrap a sinker from flags.

Accepted Block Range

Spec is loosely (assuming a module's start block of 5):

  • <empty> => [5, ∞+
  • -1 => [5, ∞+
  • : => [5, ∞+
  • 10 => [5, 10(
  • +10 => [5, 15(
  • :+10 => [5, 15(
  • +10: => [15, ∞+
  • 10:15 => [10, 15(
  • 10:+10 => [10, 20(
  • +10:+10 => [15, 25(

Launching

The sinker can be launched by calling the Start method on the Sinker object. The Start method will block until the sinker is stopped.

The sinker implements the shutter interface which can be used to handle all shutdown logic (eg: flushing any remaining data to storage, stopping the sink in case of database disconnection, etc.)

Example uses

The following repositories are examples of how the sink library can be used: