0xcracka / DROP20

Lean ERC20 token with gasless streaming to any wallet

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DRIP20

This is an lightweight ERC20 implementation that supports token dripping(streaming). Rather than wallets claiming tokens, tokens will drip into desired wallets at an emission rate accrued per block.

TLDR; Calculates a wallet's balance based on emission rate and the block num a wallet starts accruing at. Token balances of accuring wallets will increase every block.

I foresee this being the most useful in games and certain NFT projects.

Installation / setup

If using Foundry: forge install 0xBeans/DRIP20

Else: git clone this repo.

Contracts

DRIP20.sol - ERC20 implementation that supports dripping.

  • Must define _emissionRatePerBlock which determines how many tokens will be dripped into each wallet per block. This value is immutable after intialization.
  • _startDripping(address) and _stopDripping(address) add and remove wallets respectively.

GIGADRIP20.sol - Modification of DRIP20.sol that allows wallets to receive larger emissions based on a multiplier.

  • Same constructor args as DRIP20.sol

  • _startDripping(address, multiplier) and _stopDripping(address, , multiplier) increase and decrease a wallets emissions respectively.

    • All wallets start off with multiplier == 0 (not receiving any token drips). Example: _startDripping(newWallet, 1) will increase newWallet multiplier to 1, meaning it will receive drips at the _emissionRatePerBlock. A second txn of _startDripping(newWallet, 3) will add 3 to its emission rate, so now newWallet will have 4 * _emissionRatePerBlock dripped into its wallet per block.
    • Same thing happens for _stopDripping(address, multiplier), but it decreases a wallets multiplier until it goes back to 0 (no drips).

For NFT projects, you can override ERC721 transfer() to call _startDripping() and _stopDripping() appropriately.

Example Use Cases

DRIP20.sol - Any project that is currently yielding tokens for their users - but rather than having users claim, it can directly be dripped into their wallets.

GIGADRIP20.sol - NFT projects or games where each NFT yields certain amount of tokens per set time. For example, let's say Project A releases 10k PFPs, and each PFP earns 5 $ATokens per day. If a wallet has 10 PFPs, they would need to earn 5 * 10 ATokens per day. Rather than have the wallet claim $ATokens every so often, these tokens can be dripped into the wallet. For GIGADRIP20, this wallet's multiplier would be 5 (or however many PFPs they own) and the emission rate per block would sum up to 5 tokens a day.

Gas usage

Here is a repo benchmarking OpenZeppelin's ERC20 implementation.

Both DRIP20.sol and GIGADRIP20.sol are very comparable in gas usage, in some scenarios even cheaper.

Check out the report in gas-report.txt

Security

This is an experimental implementation of ERC20 and has not received a professional audit. I promise no security guarantees and will not be liable for any issues.

Testing

I use Foundry.

Caveats

This is the base implementation of ERC20 tokens that support dripping. So, these are things you should know:

Since token dripping per block does not emit any events, token indexers such as Etherscan may not show the correct holder balances. We emit a transfer event when an address begins dripping, however, transfer events to update balances don't get emitted until an explicit transfer happens. Thus, token indexers will show the correct # of holders but balances of each holder will be a lower bound. Other rebasing tokens face this issue as well (maybe this will get fixed once indexers don't solely rely on events).

There is no maxSupply or global stopDripping function. I initially designed this for a game where the game economy continues to grow and inflate. Think about Maplestory or Axie Infinity, their in-game currency doesn't have a maxSupply because that would stunt game growth and worsen playability (nor does it plan to prevent wallets from earning in the future). The economy just continues to grow and inflate as they add users.

Also, because this is a base implementation, I believe the implementing contract should define the logic for maxSupply or the logic for stopping emissions completely. Similarly to OpenZeppelin's base ERC20 implementation, it doesn't specify a maxSupply and it's on the implementing contract to add this logic if desired. Tbh, You could probably write some cool functions to stop wallet streaming (since you get gas refunds on this since you're clearing storage).

Shoutouts

T11s and Solmate for the slim ERC20 implementation. Superfluid and Proof of Humanity for the token dripping inspiration.

Contributions

Feel free to submit a PR for anything

Todo

  • Potentially add EIP-2612.
  • Potentially have mutable emissions - would need to be careful about totalSupply() calculations and ensure proper emission block calculations.
  • Potentially write extensions with maxSupply and emission stoppage functionality.

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Lean ERC20 token with gasless streaming to any wallet


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