Avalanche Manifest File

Avalanche SDK is Deprecated

We are no longer supporting @subql/node-avalanche and all Avalanche users should migrate their projects to use @subql/node-ethereum to recieve the latest updates.

The new @subql/node-ethereum is feature equivalent, and provides some massive performance improvements and support for new features.

The migration effort is easy and should only take a few minutes. You can follow a step by step guide here.

Important

We use Ethereum packages, runtimes, and handlers (e.g. @subql/node-ethereum, ethereum/Runtime, and ethereum/*Handler) for Avalanche. Since Avalanche's C-Chain is EVM-compatible, we can use the core Ethereum framework to index it.

The Manifest project.ts file can be seen as an entry point of your project and it defines most of the details on how SubQuery will index and transform the chain data. It clearly indicates where we are indexing data from, and to what on chain events we are subscribing to.

The Manifest can be in either Typescript, Yaml, or JSON format.

With the number of new features we are adding to SubQuery, and the slight differences between each chain that mostly occur in the manifest, the project manifest is now written by default in Typescript. This means that you get a fully typed project manifest with documentation and examples provided your code editor.

Below is a standard example of a basic project.ts.

import {
  EthereumProject,
  EthereumDatasourceKind,
  EthereumHandlerKind,
} from "@subql/types-ethereum";

// Can expand the Datasource processor types via the generic param
const project: EthereumProject = {
  specVersion: "1.0.0",
  version: "0.0.1",
  name: "avalanche-subql-starter",
  description:
    "This project can be use as a starting point for developing your new Avalanche C-Chain SubQuery project",
  runner: {
    node: {
      name: "@subql/node-ethereum",
      version: ">=3.0.0",
    },
    query: {
      name: "@subql/query",
      version: "*",
    },
  },
  schema: {
    file: "./schema.graphql",
  },
  network: {
    /**
     *  chainId is the EVM Chain ID, for Avalanche-C this is 43113
     *  https://chainlist.org/chain/43113
     */
    chainId: "43114",
    /**
     * These endpoint(s) should be non-pruned archive nodes
     * Public nodes may be rate limited, which can affect indexing speed
     * When developing your project we suggest getting a private API key
     # We suggest providing an array of endpoints for increased speed and reliability
     */
    endpoint: ["https://avalanche.api.onfinality.io/public/ext/bc/C/rpc"],
    dictionary: "https://dict-tyk.subquery.network/query/avalanche",
  },
  dataSources: [
    {
      kind: EthereumDatasourceKind.Runtime,
      // Contract creation of Pangolin Token https://snowtrace.io/tx/0xfab84552e997848a43f05e440998617d641788d355e3195b6882e9006996d8f9
      startBlock: 57360,
      options: {
        // Must be a key of assets
        abi: "erc20",
        // This is the contract address for Wrapped Ether https://testnet.snowtrace.io/token/0x60781C2586D68229fde47564546784ab3fACA982
        address: "0x60781C2586D68229fde47564546784ab3fACA982",
      },
      assets: new Map([["erc20", { file: "./abis/PangolinERC20.json" }]]),
      mapping: {
        file: "./dist/index.js",
        handlers: [
          {
            kind: EthereumHandlerKind.Call,
            handler: "handleTransaction",
            filter: {
              /**
               * The function can either be the function fragment or signature
               * function: '0x095ea7b3'
               * function: '0x7ff36ab500000000000000000000000000000000000000000000000000000000'
               */
              function: "deposit(uint256 amount)",
            },
          },
          {
            kind: EthereumHandlerKind.Event,
            handler: "handleLog",
            filter: {
              /**
               * Follows standard log filters https://docs.ethers.io/v5/concepts/events/
               * address: "0x60781C2586D68229fde47564546784ab3fACA982"
               */
              topics: [
                "Transfer(address indexed from, address indexed to, uint256 amount)",
              ],
            },
          },
        ],
      },
    },
  ],
  repository: "https://github.com/subquery/ethereum-subql-starter",
};

// Must set default to the project instance
export default project;

Below is a standard example of the legacy YAML version (project.yaml).

Legacy YAML Manifest

specVersion: "1.0.0"

name: "avalanche-subql-starter"
version: "0.0.1"
runner:
  node:
    name: "@subql/node-ethereum"
    version: "*"
  query:
    name: "@subql/query"
    version: "*"
description: "This project can be use as a starting point for developing your new Avalanche C-Chain SubQuery project"
repository: "https://github.com/subquery/ethereum-subql-starter"

schema:
  file: "./schema.graphql"

network:
  # chainId is the EVM Chain ID, for Avalanche-C chain is 43114
  # https://chainlist.org/chain/43114
  chainId: "43114"
  # This endpoint must be a public non-pruned archive node
  # We recommend providing more than one endpoint for improved reliability, performance, and uptime
  # Public nodes may be rate limited, which can affect indexing speed
  # When developing your project we suggest getting a private API key
  # You can get them from OnFinality for free https://app.onfinality.io
  # https://documentation.onfinality.io/support/the-enhanced-api-service
  endpoint: ["https://avalanche.api.onfinality.io/public/ext/bc/C/rpc"]
  # Recommended to provide the HTTP endpoint of a full chain dictionary to speed up processing
  dictionary: "https://api.subquery.network/sq/subquery/avalanche-dictionary"

dataSources:
  - kind: ethereum/Runtime # We use ethereum runtime since Avalanche is compatible
    startBlock: 57360 # Contract creation of Pangolin Token https://snowtrace.io/tx/0xfab84552e997848a43f05e440998617d641788d355e3195b6882e9006996d8f9
    options:
      # Must be a key of assets
      abi: erc20
      ## Pangolin token https://snowtrace.io/token/0x60781c2586d68229fde47564546784ab3faca982
      address: "0x60781C2586D68229fde47564546784ab3fACA982"
    assets:
      erc20:
        file: "./abis/PangolinERC20.json"
    mapping:
      file: "./dist/index.js"
      handlers:
        - handler: handleTransaction
          kind: ethereum/TransactionHandler # We use ethereum handlers since Avalanche is compatible
          filter:
            ## The function can either be the function fragment or signature
            # function: '0x095ea7b3'
            # function: '0x7ff36ab500000000000000000000000000000000000000000000000000000000'
            function: deposit(uint256 amount)
        - handler: handleLog
          kind: ethereum/LogHandler # We use ethereum handlers since Avalanche is compatible
          filter:
            topics:
              ## Follows standard log filters https://docs.ethers.io/v5/concepts/events/
              - Transfer(address indexed from, address indexed to, uint256 amount)
              # address: "0x60781C2586D68229fde47564546784ab3fACA982"

Overview

Top Level Spec

Field	Type	Description
specVersion	String	The spec version of the manifest file
name	String	Name of your project
version	String	Version of your project
description	String	Description of your project
runner	Runner Spec	Runner specs info
repository	String	Git repository address of your project
schema	Schema Spec	The location of your GraphQL schema file
network	Network Spec	Detail of the network to be indexed
dataSources	DataSource Spec	The datasource to your project
templates	Templates Spec	Allows creating new datasources from this templates

Schema Spec

Field	Type	Description
file	String	The location of your GraphQL schema file

Network Spec

If you start your project by using the subql init command, you'll generally receive a starter project with the correct network settings. If you are changing the target chain of an existing project, you'll need to edit the Network Spec section of this manifest.

The chainId is the network identifier of the blockchain, for Avalanche this is 43114. See https://chainlist.org/chain/43114

Additionally you will need to update the endpoint. This defines the (HTTP or WSS) endpoint of the blockchain to be indexed - this must be a full archive node. This property can be a string or an array of strings (e.g. endpoint: ['rpc1.endpoint.com', 'rpc2.endpoint.com']). We suggest providing an array of endpoints as it has the following benefits:

• Increased speed - When enabled with worker threads, RPC calls are distributed and parallelised among RPC providers. Historically, RPC latency is often the limiting factor with SubQuery.
• Increased reliability - If an endpoint goes offline, SubQuery will automatically switch to other RPC providers to continue indexing without interruption.
• Reduced load on RPC providers - Indexing is a computationally expensive process on RPC providers, by distributing requests among RPC providers you are lowering the chance that your project will be rate limited.

Public nodes may be rate limited which can affect indexing speed, when developing your project we suggest getting a private API key from a professional RPC provider like OnFinality.

Field	Type	Description
chainId	String	A network identifier for the blockchain
endpoint	String	Defines the endpoint of the blockchain to be indexed - This must be a full archive node.
port	Number	Optional port number on the endpoint to connect to
dictionary	String	It is suggested to provide the HTTP endpoint of a full chain dictionary to speed up processing - read how a SubQuery Dictionary works.
bypassBlocks	Array	Bypasses stated block numbers, the values can be a range(e.g. "10- 50") or integer, see Bypass Blocks

Runner Spec

Field	Type	Description
node	Runner node spec	Describe the node service use for indexing
query	Runner query spec	Describe the query service

Runner Node Spec

Field	Type	Description
name	String	@subql/node-ethereum We use the Ethereum node package for Avalanche since it is compatible with the Ethereum framework
version	String	Version of the indexer Node service, it must follow the SEMVER rules or latest, you can also find available versions in subquery SDK releases
options	Runner Node Options	Runner specific options for how to run your project. These will have an impact on the data your project produces. CLI flags can be used to override these.

Runner Query Spec

Field	Type	Description
name	String	@subql/query
version	String	Version of the Query service, available versions can be found here, it also must follow the SEMVER rules or latest.

Runner Node Options

Field	v1.0.0 (default)	Description
historical	Boolean (true)	Historical indexing allows you to query the state at a specific block height. e.g A users balance in the past.
unfinalizedBlocks	Boolean (false)	If enabled unfinalized blocks will be indexed, when a fork is detected the project will be reindexed from the fork. Requires historical.
unsafe	Boolean (false)	Removes all sandbox restrictions and allows access to all inbuilt node packages as well as being able to make network requests. WARNING: this can make your project non-deterministic.
skipTransactions	Boolean (false)	If your project contains only event handlers and you don't access any other block data except for the block header you can speed your project up. Handlers should be updated to use LightEthereumLog instead of EthereumLog to ensure you are not accessing data that is unavailable.

Datasource Spec

Defines the data that will be filtered and extracted and the location of the mapping function handler for the data transformation to be applied.

Field	Type	Description
kind	string	ethereum/Runtime We use the Ethereum runtime for Avalanche since it is compatible with the Ethereum framework
startBlock	Integer	This changes your indexing start block for this datasource, set this as high as possible to skip initial blocks with no relevant data
endBlock	Integer	This sets a end block for processing on the datasource. After this block is processed, this datasource will no longer index your data. Useful when your contracts change at a certain block height, or when you want to insert data at genesis. For example, setting both the startBlock and endBlock to 320, will mean this datasource only operates on block 320
mapping	Mapping Spec

Mapping Spec

Field	Type	Description
handlers & filters	Default handlers and filters	List all the mapping functions and their corresponding handler types, with additional mapping filters.

Data Sources and Mapping

In this section, we will talk about the default Avalanche runtime and its mapping. Here is an example:

{
  dataSources: [
    {
      kind: EthereumDatasourceKind.Runtime, // Indicates that this is default runtime
      startBlock: 1, // This changes your indexing start block, set this higher to skip initial blocks with less data
      options: {
        // Must be a Record of assets
        abi: "erc20",
        // # this is the contract address for your target contract
        address: "0xC02aaA39b223FE8D0A0e5C4F27eAD9083C756Cc2",
      },
      assets: new Map([["erc20", { file: "./abis/erc20.abi.json" }]]),
      mapping: {
        file: "./dist/index.js", // Entry path for this mapping
        handlers: [
          /* Enter handers here */
        ],
      },
    },
  ];
}

Mapping Handlers and Filters

The following table explains filters supported by different handlers.

Your SubQuery project will be much more efficient when you only use TransactionHandler or LogHandler handlers with appropriate mapping filters (e.g. NOT a BlockHandler).

Handler	Supported filter
ethereum/BlockHandler	modulo, timestamp
ethereum/TransactionHandler	function filters (either be the function fragment or signature), from (address), to (address)
ethereum/LogHandler	topics filters, and address

Default runtime mapping filters are an extremely useful feature to decide what block, event, or extrinsic will trigger a mapping handler.

Only incoming data that satisfies the filter conditions will be processed by the mapping functions. Mapping filters are optional but are highly recommended as they significantly reduce the amount of data processed by your SubQuery project and will improve indexing performance.

The modulo filter allows handling every N blocks, which is useful if you want to group or calculate data at a set interval. The following example shows how to use this filter.

filter:
  modulo: 50 # Index every 50 blocks: 0, 50, 100, 150....

Real-time indexing (Block Confirmations)

As indexers are an additional layer in your data processing pipeline, they can introduce a massive delay between when an on-chain event occurs and when the data is processed and able to be queried from the indexer.

SubQuery provides real time indexing of unconfirmed data directly from the RPC endpoint that solves this problem. SubQuery takes the most probabilistic data before it is confirmed to provide to the app. In the unlikely event that the data isn’t confirmed and a reorg occurs, SubQuery will automatically roll back and correct its mistakes quickly and efficiently - resulting in an insanely quick user experience for your customers.

To control this feature, please adjust the --block-confirmations command to fine tune your project and also ensure that historic indexing is enabled (enabled by default)

Bypass Blocks

Bypass Blocks allows you to skip the stated blocks, this is useful when there are erroneous blocks in the chain or when a chain skips a block after an outage or a hard fork. It accepts both a range or single integer entry in the array.

When declaring a range use an string in the format of "start - end". Both start and end are inclusive, e.g. a range of "100-102" will skip blocks 100, 101, and 102.

{
  network: {
    bypassBlocks: [1, 2, 3, "105-200", 290];
  }
}