TAP Migration Guide

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Learn about The Graph’s new payment system, Timeline Aggregation Protocol, TAP. This system provides fast, efficient microtransactions with minimized trust.

Overview

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TAP is a drop-in replacement to the Scalar payment system currently in place. It provides the following key features:

  • Efficiently handles micropayments.
  • Adds a layer of consolidations to on-chain transactions and costs.
  • Allows Indexers control of receipts and payments, guaranteeing payment for queries.
  • It enables decentralized, trustless gateways and improves indexer-service performance for multiple senders.

TAP allows a sender to make multiple payments to a receiver, TAP Receipts, which aggregates these payments into a single payment, a Receipt Aggregate Voucher, also known as a RAV. This aggregated payment can then be verified on the blockchain, reducing the number of transactions and simplifying the payment process.

For each query, the gateway will send you a signed receipt that is stored on your database. Then, these queries will be aggregated by a tap-agent through a request. Afterwards, you’ll receive a RAV. You can update a RAV by sending it with newer receipts and this will generate a new RAV with an increased value.

  • It’s money that is waiting to be sent to the blockchain.

  • It will continue to send requests to aggregate and ensure that the total value of non-aggregated receipts does not exceed the amount willing to lose.

  • Each RAV can be redeemed once in the contracts, which is why they are sent after the allocation is closed.

As long as you run tap-agent and indexer-agent, everything will be executed automatically. The following provides a detailed breakdown of the process:

  1. An Indexer closes allocation.

  2. <recently-closed-allocation-buffer> period, tap-agent takes all pending receipts for that specific allocation and requests an aggregation into a RAV, marking it as last.

  3. indexer-agent takes all the last RAVS and sends redeem requests to the blockchain, which will update the value of redeem_at.

  4. During the <finality-time> period, indexer-agent monitors if the blockchain has any reorganizations that revert the transaction.

    • If it was reverted, the RAV is resent to the blockchain. If it was not reverted, it gets marked as final.
ContractArbitrum Sepolia (421614)Arbitrum Mainnet (42161)
TAP Verifier0xfC24cE7a4428A6B89B52645243662A02BA734ECF0x33f9E93266ce0E108fc85DdE2f71dab555A0F05a
AllocationIDTracker0xAaC28a10d707bbc6e02029f1bfDAEB5084b2aD110x5B2F33d7Ca6Ec88f5586f2528f58c20843D9FE7c
Escrow0x1e4dC4f9F95E102635D8F7ED71c5CdbFa20e2d020x8f477709eF277d4A880801D01A140a9CF88bA0d3
ComponentEdge and Node Mainnet (Arbitrum Sepolia)Edge and Node Testnet (Aribtrum Mainnet)
Sender0xDDE4cfFd3D9052A9cb618fC05a1Cd02be1f2F4670xC3dDf37906724732FfD748057FEBe23379b0710D
Signers0xfF4B7A5EfD00Ff2EC3518D4F250A27e4c29A22110xFb142dE83E261e43a81e9ACEADd1c66A0DB121FE
Aggregatorhttps://tap-aggregator.network.thegraph.comhttps://tap-aggregator.testnet.thegraph.com

In addition to the typical requirements to run an indexer, you’ll need a tap-escrow-subgraph endpoint to query TAP updates. You can use The Graph Network to query or host yourself on your graph-node.

Note: indexer-agent does not currently handle the indexing of this subgraph like it does for the network subgraph deployement. As a result, you have to index it manually.

The required software version can be found here.

  1. Indexer Agent

    • Follow the same process.
    • Give the new argument --tap-subgraph-endpoint to activate the new TAP codepaths and enable redeeming of TAP RAVs.
  2. Indexer Service

    • Fully replace your current configuration with the new Indexer Service rs. It's recommend that you use the container image.
    • Like the older version, you can scale Indexer Service horizontally easily. It is still stateless.
  3. TAP Agent

  4. Configure Indexer Service and TAP Agent

    Configuration is a TOML file shared between indexer-service and tap-agent, supplied with the argument --config /path/to/config.toml.

    Check out the full configuration and the default values

For minimal configuration, use the following template:

# You will have to change *all* the values below to match your setup.
#
# Some of the config below are global graph network values, which you can find here:
# <https://github.com/graphprotocol/indexer/tree/main/docs/networks>
#
# Pro tip: if you need to load some values from the environment into this config, you
# can overwrite with environment variables. For example, the following can be replaced
# by [PREFIX]_DATABASE_POSTGRESURL, where PREFIX can be `INDEXER_SERVICE` or `TAP_AGENT`:
#
# [database]
# postgres_url = "postgresql://indexer:${POSTGRES_PASSWORD}@postgres:5432/indexer_components_0"
[indexer]
indexer_address = "0x1111111111111111111111111111111111111111"
operator_mnemonic = "celery smart tip orange scare van steel radio dragon joy alarm crane"
[database]
# The URL of the Postgres database used for the indexer components. The same database
# that is used by the `indexer-agent`. It is expected that `indexer-agent` will create
# the necessary tables.
postgres_url = "postgres://postgres@postgres:5432/postgres"
[graph_node]
# URL to your graph-node's query endpoint
query_url = "<http://graph-node:8000>"
# URL to your graph-node's status endpoint
status_url = "<http://graph-node:8000/graphql>"
[subgraphs.network]
# Query URL for the Graph Network subgraph.
query_url = "<http://example.com/network-subgraph>"
# Optional, deployment to look for in the local `graph-node`, if locally indexed.
# Locally indexing the subgraph is recommended.
# NOTE: Use `query_url` or `deployment_id` only
deployment_id = "Qmaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa"
[subgraphs.escrow]
# Query URL for the Escrow subgraph.
query_url = "<http://example.com/network-subgraph>"
# Optional, deployment to look for in the local `graph-node`, if locally indexed.
# Locally indexing the subgraph is recommended.
# NOTE: Use `query_url` or `deployment_id` only
deployment_id = "Qmaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa"
[blockchain]
# The chain ID of the network that the graph network is running on
chain_id = 1337
# Contract address of TAP's receipt aggregate voucher (RAV) verifier.
receipts_verifier_address = "0x2222222222222222222222222222222222222222"
########################################
# Specific configurations to tap-agent #
########################################
[tap]
# This is the amount of fees you are willing to risk at any given time. For ex.
# if the sender stops supplying RAVs for long enough and the fees exceed this
# amount, the indexer-service will stop accepting queries from the sender
# until the fees are aggregated.
# NOTE: Use strings for decimal values to prevent rounding errors
# e.g:
# max_amount_willing_to_lose_grt = "0.1"
max_amount_willing_to_lose_grt = 20
[tap.sender_aggregator_endpoints]
# Key-Value of all senders and their aggregator endpoints
# This one below is for the E&N testnet gateway for example.
0xDDE4cfFd3D9052A9cb618fC05a1Cd02be1f2F467 = "https://tap-aggregator.network.thegraph.com"

Notes:

  • Values for tap.sender_aggregator_endpoints can be found in the gateway section.
  • Values for blockchain.receipts_verifier_address must be used accordingly to the Blockchain addresses section using the appropriate chain id.

Log Level

  • You can set the log level by using the RUST_LOG environment variable.
  • It’s recommended that you set it to RUST_LOG=indexer_tap_agent=debug,info.

All components expose the port 7300 to be queried by prometheus.

You can download Grafana Dashboard and import.

Currently, there is a WIP version of indexer-rs and tap-agent that can be found here

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Предыдущий
Эксплуатация Graph Node
Следующий
Supported Network Requirements
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