testnet

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Published: Nov 28, 2022 License: MIT Imports: 38 Imported by: 0

README

Using the External Subscription Owner Example

The external subscription owner example contract allows its owner to request random words from VRF V2 if it is added as a consumer for a funded VRF subscription.

This guide covers:

  1. Deploying the contract
  2. Creating, funding, checking balance, and adding a consumer to a VRF V2 subscription
  3. Requesting randomness from the contract

Setup

Before starting, you will need:

  1. An EVM chain endpoint URL
  2. The chain ID corresponding to your chain
  3. The private key of an account funded with LINK, and the chain's native token (to pay transaction fees)
  4. The LINK address, VRF coordinator address, and key hash for your chain.
  5. Go

The endpoint URL can be a locally running node, or an externally hosted one like alchemy. Your chain ID will be a number corresponding to the chain you pick. For example the Rinkeby testnet has chain ID 4. Your private key can be exported from MetaMask.

Note: Be careful with your key. When using testnets, it's best to use a separate account that does not hold real funds.

Run the following command to set up your environment:

export ETH_URL=<YOUR ETH URL>
export ETH_CHAIN_ID=<YOUR CHAIN ID>
export ACCOUNT_KEY=<YOUR PRIVATE KEY>
export LINK=<LINK ADDRESS>
export LINK_ETH_FEED=<ADDRESS OFF LINK/ETH FEED>
export COORDINATOR=<COORDINATOR ADDRESS>
export KEY_HASH=<KEY HASH>
export ORACLE_ADDRESS=<YOUR ORACLE NODE ADDRESS>
export PUB_KEY=<YOUR UNCOMPRESSED PUBLIC KEY>

By default, the script automatically estimates gas limits for operations. Optionally, ETH_GAS_LIMIT_DEFAULT environment variable can be set to override gas limit for operations.

Now "cd" into the VRF V2 testnet scripts directory:

cd <YOUR LOCAL CHAINLINK REPO>/core/scripts/vrfv2/testnet

Deploying a full VRF Universe (BHS, Registered + Funded Coordinator, Consumer)

To deploy a full VRF environment on-chain, run:

go run . deploy-universe --link-address=$LINK --link-eth-feed=$LINK_ETH_FEED --subscription-balance=<SUBSCRIPTION AMOUNT> --uncompressed-pub-key=$PUB_KEY --oracle-address=$ORACLE_ADDRESS

Deploying the Consumer Contract

To deploy the VRFExternalSubOwnerExample contract, run:

go run . eoa-consumer-deploy --coordinator-address=$COORDINATOR --link-address=$LINK

You should get the output:

Consumer address <YOUR CONSUMER ADDRESS> hash <YOUR TX HASH>

Run the command:

export CONSUMER=<YOUR CONSUMER ADDRESS>

Setting up a VRF V2 Subscription

In order for your newly deployed consumer to make VRF requests, it needs to be authorized for a funded subscription.

Creating a Subscription
go run . eoa-create-sub --coordinator-address=$COORDINATOR

You should get the output:

Create sub TX hash <YOUR TX HASH>

In order to get the subscription ID created by your transaction, you should use an online block explorer and input your transaction hash. Once the transaction is confirmed you should see a log (on Etherscan, this is in the "Logs" tab of the transaction details screen) with the created subscription details including the decimal representation of your subscription ID.

Once you have found the ID, run:

export SUB_ID=<YOUR SUBSCRIPTION ID>
Funding a Subscription

In order to fund your subscription with 10 LINK, run:

go run . eoa-fund-sub --coordinator-address $COORDINATOR --link-address=$LINK  --sub-id=$SUB_ID --amount=10000000000000000000 # 10e18 or 10 LINK

You should get the output:

Initial account balance: <YOUR LINK BEFORE FUNDING> <YOUR ADDRESS> Funding amount: 10000000000000000000
Funding sub 61 hash <YOUR FUNDING TX HASH>
(Optional) Checking Subscription Balance

To check the LINK balance of your subscription, run:

go run . sub-balance --coordinator-address $COORDINATOR --sub-id=$SUB_ID

You should get the output:

sub id <YOUR SUB ID> balance: <YOUR SUB BALANCE>
Adding a Consumer to Your Subscription

In order to authorize the consumer contract to use the new subscription, run the command:

go run . eoa-add-sub-consumer --coordinator-address $COORDINATOR --sub-id=$SUB_ID --consumer-address=$CONSUMER
Requesting Randomness

At this point, the consumer is authorized as a consumer of a funded subscription, and is ready to request random words.

To make a request, run:

go run . eoa-request --consumer-address=$CONSUMER --sub-id=$SUB_ID --key-hash=$KEY_HASH --num-words 1 

You should get the output:

TX hash: 0x599022228ffca10b0192e0b13bea64ff74f6dab2f0a3002b0825cbe22bd98249

You can put this transaction hash into a block explorer to check its progress. Shortly after it's confirmed, usually only a few minutes, you should see a second incoming transaction to your consumer containing the randomness result.

Debugging Reverted Transactions

A reverted transaction could have number of root causes, for example insufficient funds / LINK, or incorrect contract addresses.

Tenderly can be useful for debugging why a transaction failed. For example this Rinkeby transaction failed because a non-owner tried to request random words from VRFExternalSubOwnerExample.

Using the BatchBlockhashStore Contract

The BatchBlockhashStore contract acts as a proxy to the BlockhashStore contract, allowing callers to store and fetch many blockhashes in a single transaction.

Deploy a BatchBlockhashStore instance
go run . batch-bhs-deploy -bhs-address $BHS_ADDRESS

where $BHS_ADDRESS is an environment variable that points to an existing BlockhashStore contract. If one is not available, you can easily deploy one using this command:

go run . bhs-deploy
Store many blockhashes
go run . batch-bhs-store -batch-bhs-address $BATCH_BHS_ADDRESS -block-numbers 10298742,10298741,10298740,10298739

where $BATCH_BHS_ADDRESS points to the BatchBlockhashStore contract deployed above, and -block-numbers is a comma-separated list of block numbers you want to store in a single transaction.

Please note that these block numbers must not be further than 256 from the latest head, otherwise the store will fail.

Fetch many blockhashes
go run . batch-bhs-get -batch-bhs-address $BATCH_BHS_ADDRESS -block-numbers 10298742,10298741,10298740,10298739

where $BATCH_BHS_ADDRESS points to the BatchBlockhashStore contract deployed above, and -block-numbers is a comma-separated list of block numbers you want to get in a single transaction.

Store many blockhashes, possibly farther back than 256 blocks

In order to store blockhashes farther back than 256 blocks we can make use of the storeVerifyHeader method on the BatchBlockhashStore.

Here's how to use it:

go run . batch-bhs-storeVerify -batch-bhs-address $BATCH_BHS_ADDRESS -num-blocks 25 -start-block 10298739

where $BATCH_BHS_ADDRESS points to the BatchBlockhashStore contract deployed above, -num-blocks is the amount of blocks to store, and -start-block is the block to start storing from, backwards. The block number specified by -start-block MUST be in the blockhash store already, or this will not work.

Batch BHS "Backwards Mode"

There may be a situation where you want to backfill a lot of blockhashes, down to a certain block number.

This is where "Backwrads Mode" comes in - you're going to need the following:

  • A block number that has already been stored in the BHS. The closer it is to the target block range you want to store, the better. You can view the most oldest "Store" transactions on the BHS contract that is still ahead of the block range you are interested in. For example, if you want to store blocks 100 to 200, and 210 and 220 are available, specify -start-block as 210.
  • A destination block number, where you want to stop storing after this one has been stored in the BHS. This number doesn't have to be in the BHS already but must be less than the block specified for --start-block
  • A batch size to use. This is how many stores we will attempt to do in a single transaction. A good value for this is usually 50-75 for big block ranges.
  • The address of the batch BHS to use.

Example:

go run . batch-bhs-backwards -batch-bhs-address $BATCH_BHS_ADDRESS -start-block 25814538 -end-block 25811350 -batch-size 50

This script is simplistic on purpose, where we wait for the transaction to mine before proceeding with the next one. This is to avoid issues where a transaction gets sent and not included on-chain, and subsequent calls to storeVerifyHeader will fail.

Documentation

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