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Solidity smart contracts for the Paxos Standard ERC20 stablecoin USDP

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Pax Dollar (USDP)

Paxos-issued USD-collateralized ERC20 stablecoin public smart contract repository.

https://www.paxos.com/standard

The whitepaper can be found here.

ABI, Address, and Verification

The contract abi is in USDP.abi. It is the abi of the implementation contract. Interaction with Pax Dollar is done at the address of the proxy at 0x8e870d67f660d95d5be530380d0ec0bd388289e1. See https://etherscan.io/token/0x8e870d67f660d95d5be530380d0ec0bd388289e1 for live on-chain details, and the section on bytecode verification below. See also our independent security audits by Nomic Labs, ChainSecurity, and Trail of Bits.

Contract Specification

Pax Dollar (USDP) is an ERC20 token that is Centrally Minted and Burned by Paxos, representing the trusted party backing the token with USD.

ERC20 Token

The public interface of Pax Dollar is the ERC20 interface specified by EIP-20.

  • name()
  • symbol()
  • decimals()
  • totalSupply()
  • balanceOf(address who)
  • transfer(address to, uint256 value)
  • approve(address spender, uint256 value)
  • allowance(address owner, address spender)
  • transferFrom(address from, address to, uint256 value)

And the usual events.

  • event Transfer(address indexed from, address indexed to, uint256 value)
  • event Approval(address indexed owner, address indexed spender, uint256 value)

Typical interaction with the contract will use transfer to move the token as payment. Additionally, a pattern involving approve and transferFrom can be used to allow another address to move tokens from your address to a third party without the need for the middleperson to custody the tokens, such as in the 0x protocol.

Warning about ERC20 approve front-running

There is a well known gotcha involving the ERC20 approve method. The problem occurs when the owner decides to change the allowance of a spender that already has an allowance. If the spender sends a transferFrom transaction at a similar time that the owner sends the new approve transaction and the transferFrom by the spender goes through first, then the spender gets to use the original allowance, and also get approved for the intended new allowance.

The recommended mitigation in cases where the owner does not trust the spender is to first set the allowance to zero before setting it to a new amount, checking that the allowance was not spent before sending the new approval transaction. Note, however, that any allowance change is subject to front-running, which is as simple as watching the mempool for certain transactions and then offering a higher gas price to get another transaction mined onto the blockchain more quickly.

Controlling the token supply

The total supply of USDP is backed by fiat held in reserve at Paxos. There is a single supplyController address that can mint and burn the token based on the actual movement of cash in and out of the reserve based on requests for the purchase and redemption of USDP.

The supply control interface includes methods to get the current address of the supply controller, and events to monitor the change in supply of USDP.

  • supplyController()

Supply Control Events

  • SupplyIncreased(address indexed to, uint256 value)
  • SupplyDecreased(address indexed from, uint256 value)
  • SupplyControllerSet(address indexed oldSupplyController, address indexed newSupplyController)

Pausing the contract

In the event of a critical security threat, Paxos has the ability to pause transfers and approvals of the USDP token. The ability to pause is controlled by a single owner role, following OpenZeppelin's Ownable. The simple model for pausing transfers following OpenZeppelin's Pausable.

Asset Protection Role

As required by our regulators, we have introduced a role for asset protection to freeze or seize the assets of a criminal party when required to do so by law, including by court order or other legal process.

The assetProtectionRole can freeze and unfreeze the USDP balance of any address on chain. It can also wipe the balance of an address after it is frozen to allow the appropriate authorities to seize the backing assets.

Freezing is something that Paxos will not do on its own accord, and as such we expect to happen extremely rarely. The list of frozen addresses is available in isFrozen(address who).

BetaDelegateTransfer

In order to allow for gas-less transactions we have implemented a variation of EIP-865. The public function betaDelegatedTransfer and betaDelegatedTransferBatch allow an approved party to transfer BUSD on the end user's behalf given a signed message from said user. Because EIP-865 is not finalized, all methods related to delegated transfers are prefixed by Beta. Only approved parties are allowed to transfer BUSD on a user's behalf because of potential attacks associated with signing messages. To mitigate some attacks, EIP-712 is implemented which provides a structured message to be displayed for verification when signing.

function betaDelegatedTransfer(
   bytes sig, address to, uint256 value, uint256 fee, uint256 seq, uint256 deadline
) public returns (bool) {

Upgradeability Proxy

To facilitate upgradeability on the immutable blockchain we follow a standard two-contract delegation pattern: a proxy contract represents the token, while all calls not involving upgrading the contract are delegated to an implementation contract.

The delegation uses delegatecall, which runs the code of the implementation contract in the context of the proxy storage. This way the implementation pointer can be changed to a different implementation contract while still keeping the same data and USDP contract address, which are really for the proxy contract.

The proxy used here is AdminUpgradeabilityProxy from ZeppelinOS.

Upgrade Process

The implementation contract is only used for the logic of the non-admin methods. A new implementation contract can be set by calling upgradeTo() or upgradeToAndCall() on the proxy, where the latter is used for upgrades requiring a new initialization or data migration so that it can all be done in one transaction. You must first deploy a copy of the new implementation contract, which is automatically paused by its constructor to help avoid accidental calls directly to the proxy contract.

Bytecode verification

The proxy contract and implementation contracts are verified on etherscan at the following links: https://etherscan.io/token/0x8e870d67f660d95d5be530380d0ec0bd388289e1 https://etherscan.io/token/0xb54d4E8BB827f99af764b37249990Fa9D6840E20

Because the implementation address in the proxy is a private variable, verifying that this is the proxy being used requires reading contract storage directly. This can be done using a mainnet node, such as infura, by pasting the network address in truffle-config.js and running

truffle exec ./getImplementationAddress.js --network mainnet

Contract Tests

To run smart contract tests first start

ganache-cli

in another terminal

Then run

make test-contracts

You can also run make test-contracts-coverage to see a coverage report.

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