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Version: Old ArrowSquid docs

Multichain indexing

Squids can extract data from multiple chains into a shared data sink. If the data is stored to Postgres it can then be served as a unified multichain GraphQL API.

To do this, run one processor per source network:

  1. Make a separate entry point (main.ts or equivalent) for each processor. The resulting folder structure may look like this:
├── src
│   ├── bsc
│   │   ├── main.ts
│   │   └── processor.ts
│   ├── eth
│   │   ├── main.ts
│ │   └── processor.ts

Alternatively, parameterize your processor using environment variables: you can set these on a per-processor basis if you use a deployment manifest to run your squid.

  1. Arrange for running the processors alongside each other conveniently:
    • If you are going to use sqd run for local runs or deploy your squid to Subsquid Cloud, list your processors at the deploy.processor section of your deployment manifest:
      - name: eth-processor
      cmd: [ "node", "lib/eth/main" ]
      - name: bsc-processor
      cmd: [ "node", "lib/bsc/main" ]
      Make sure to give each processor a unique name!
    • Optionally, add sqd commands for running each processor to commands.json. Example

On Postgres

Also ensure that

  1. State schema name for each processor is unique
new TypeormDatabase({
stateSchema: 'bsc_processor'
async ctx => { // ...
new TypeormDatabase({
stateSchema: 'eth_processor'
async (ctx) => { // ...
  1. Schema and GraphQL API are shared among the processors.

Handling concurrency

  • The default isolation level used by TypeormDatabase is SERIALIZABLE, the most secure and the most restrictive one. Another isolation level commonly used in multichain squids is READ COMMITTED, which guarantees that the execution is deterministic for as long as the sets of records that different processors read/write do not overlap.
  • To avoid overlaps, use per-chain records for volatile data. E.g. if you track account balances across multiple chains you can avoid overlaps by storing the balance for each chain in a different table row.
  • When you need to combine the records (e.g. get a total of all balaces across chains) use custom resolvers to do it on the GraphQL server side.
  • It is OK to use cross-chain entities to simplify aggregation. Just don't store any data in them:
    type Account @entity {
    id: ID! # evm address
    balances: [Balance!]! @derivedFrom("field": "account")

    type Balance @entity {
    id: ID! # chainId + evm address
    account: Account!
    value: BigInt!

On file-store

Ensure that you use a unique target folder for each processor.


A complete example is available here.