UniswapX
UniswapX is an ERC20 swap settlement protocol that provides swappers with a gasless experience, MEV protection, and access to arbitrary liquidity sources. Swappers generate signed orders which specify the specification of their swap, and fillers compete using arbitrary fill strategies to satisfy these orders.
UniswapX Protocol Architecture
Reactors
Order Reactors settle UniswapX orders. They are responsible for validating orders of a specific type, resolving them into inputs and outputs, and executing them against the filler's strategy, and verifying that the order was successfully fulfilled.
Reactors process orders using the following steps:
- Validate the order
- Resolve the order into inputs and outputs
- Pull input tokens from the swapper to the fillContract using permit2
permitWitnessTransferFromwith the order as witness - Call
reactorCallbackon the fillContract - Transfer output tokens from the fillContract to the output recipients
Reactors implement the IReactor interface which abstracts the specifics of the order specification. This allows for different reactor implementations with different order formats to be used with the same interface, allowing for shared infrastructure and easy extension by fillers.
Current reactor implementations:
- LimitOrderReactor: A reactor that settles simple static limit orders
- DutchOrderReactor: A reactor that settles linear-decay dutch orders
- ExclusiveDutchOrderReactor: A reactor that settles linear-decay dutch orders with a period of exclusivity before decay begins
Fill Contracts
Order fillContracts fill UniswapX orders. They specify the filler's strategy for fulfilling orders and are called by the reactor with reactorCallback when using executeWithCallback or executeBatchWithCallback.
Some sample fillContract implementations are provided in this repository:
- SwapRouter02Executor: A fillContract that uses UniswapV2 and UniswapV3 via the SwapRouter02 router
Direct Fill
If a filler wants to simply fill orders using funds held by an address rather than using a fillContract strategy, they can do so gas efficiently by using execute or executeBatch. These functions cause the reactor to skip the reactorCallback and simply pull tokens from the filler using msg.sender.
Integrating with UniswapX
Jump to the docs for Creating a Filler Integration.
Deployment Addresses
| Contract | Address | Source |
|---|---|---|
| Exclusive Dutch Order Reactor | 0x6000da47483062A0D734Ba3dc7576Ce6A0B645C4 | ExclusiveDutchOrderReactor |
| OrderQuoter | 0x54539967a06Fc0E3C3ED0ee320Eb67362D13C5fF | OrderQuoter |
| Permit2 | 0x000000000022D473030F116dDEE9F6B43aC78BA3 | Permit2 |
Usage
# install dependencies
forge install
# compile contracts
forge build
# run unit tests
forge test
# run integration tests
FOUNDRY_PROFILE=integration forge test
Fee-on-Transfer Disclaimer
Note that UniswapX handles fee-on-transfer tokens by transferring the amount specified to the recipient. This means that the actual amount received by the recipient will be after fees.
Audit
This codebase was audited by ABDK.
Bug Bounty
This repository is subject to the Uniswap Labs Bug Bounty program, per the terms defined here.