Contracts to manage account abstractions and features on top of Synthetix Perps V2.
See ./deploy-addresses/ for deployed contract addresses
The Smart Margin codebase consists of the Factory
and Account
contracts, and all of the associated dependencies. The purpose of the Factory
is to create/deploy trading accounts (Account
contracts) for users that support features ranging from cross-margin, conditional orders, copy trading, etc.. Once a smart margin account has been created, the main point of entry is the Account.execute
function. Account.execute
allows users to execute a set of commands describing the actions/trades they want executed by their account.
Calls to Account.execute
, the entrypoint to the smart margin account, require 2 main parameters:
IAccount.Command commands
: An array of enum
. Each enum represents 1 command that the transaction will execute.
bytes[] inputs
: An array of bytes
strings. Each element in the array is the encoded parameters for a command.
commands[i]
is the command that will use inputs[i]
as its encoded input parameters.
The supported commands can be found in the wiki and code.
Each input bytes string is merely the abi encoding of a set of parameters. Depending on the command chosen, the input bytes string will be different. For example:
The inputs for PERPS_V2_SUBMIT_OFFCHAIN_DELAYED_ORDER
is the encoding of 3 parameters:
address
: The Synthetix PerpsV2 Market address
int256
: The size delta of the order to be submitted
uint256
: The desired fill price of the order
Whereas in contrast PERPS_V2_CANCEL_DELAYED_ORDER
has just 1 parameter encoded:
address
: The Synthetix PerpsV2 Market address which has an active delayed order submitted by this account
Encoding parameters in a bytes string in this way gives us maximum flexiblity to be able to support many commands which require different datatypes in a gas-efficient way.
For a more detailed breakdown of which parameters you should provide for each command take a look at the Account.dispatch
function.
Developer documentation to give a detailed explanation of the inputs for every command can also be found in the wiki
The command execution design was inspired by Uniswap's Universal Router.
Certain actions performed by the smart margin account emit events (such as depositing margin, or placing a conditional order). These events can be used to track the state of the account and to monitor the account's activity. To avoid monitoring a large number of accounts for events, we consolidate all events into a single Events' contract
. Smart margin accounts make external calls to the Events
contract to emit events. This costs more gas, but significantly reduces the load on our event monitoring infrastructure.
The term "order" is used often in this codebase. Smart margin accounts natively define conditional orders, which include limit orders, stop-loss orders, and redcue-only flavors of the former two. It also supports a variety of other Synthetix PerpsV2 orders which are explicity defined by IAccount.Command commands
.
Smart margin accounts are upgradable. This is achieved by using a proxy pattern, where the Account
contract is the implementation and the AccountProxy
contract is the proxy. The AccountProxy
contract is the contract that is deployed by the Factory
and is the contract that users interact with. The AccountProxy
contract delegates all calls to the Account
contract. The Account
contract can be upgraded by the Factory
contract due to the Factory
acting as a Beacon contract for the proxy. See further details on Beacons here. One important difference between the standard Beacon implementation and our own, is that the Beacon (i.e. the Factory
) is not upgradeable. This is to prevent the Beacon from being upgraded and the proxy implementation being changed to a malicious contract.
Finally, all associated functionality related to upgradability can be disabled by the Factory
contract owner.
to run:
tree src/
src/
βββ Account.sol
βββ AccountProxy.sol
βββ Events.sol
βββ Factory.sol
βββ Settings.sol
βββ interfaces
β βββ IAccount.sol
β βββ IAccountProxy.sol
β βββ IERC20.sol
β βββ IEvents.sol
β βββ IFactory.sol
β βββ ISettings.sol
β βββ gelato
β β βββ IOps.sol
β βββ synthetix
β β βββ IFuturesMarketManager.sol
β β βββ IPerpsV2ExchangeRate.sol
β β βββ IPerpsV2MarketConsolidated.sol
β β βββ ISystemStatus.sol
β βββ token
β β βββ IERC20.sol
β βββ uniswap
β βββ IPermit2.sol
β βββ IUniversalRouter.sol
βββ utils
βββ Auth.sol
βββ Owned.sol
βββ executors
β βββ OrderExecution.sol
βββ gelato
β βββ OpsReady.sol
βββ uniswap
βββ BytesLib.sol
βββ Constants.sol
βββ SafeCast160.sol
βββ V3Path.sol
-
Make sure to create an
.env
file following the example given in.env.example
-
Install Slither
-
Build project
npm run compile
- Execute both unit and integration tests (both run in forked environments)
npm run test
- Run specific test
forge test --fork-url $(grep ARCHIVE_NODE_URL_L2 .env | cut -d '=' -f2) --match-test TEST_NAME -vvv
tests will fail if you have not set up your .env (see .env.example)
Upgrades can be dangerous. Please ensure you have a good understanding of the implications of upgrading your contracts before proceeding. Storage collisions, Function signature collisions, and other issues can occur.
note that updates to
Account
are reflected in all smart margin accounts, regardless of whether they were created before or after theAccount
upgrade.
- Update
Account.sol
contract
Make sure to update version number in
Account.sol
contract
- Add new directory to
./script/upgrades/
with the version number as the directory name (i.e. v2.6.9) - Create new
Upgrade.s.sol
for the new version in that directory - Add new directory to
./test/upgrades/
with the version number as the directory name (i.e. v2.6.9) - Create new
Upgrade.t.sol
for the new version in that directory - Test upgrade using new script (example:
./test/upgrades/v2.0.1/Upgrade.t.sol
) - Run script and deploy to Testnet
- Call
Factory.upgradeAccountImplementation
with newAccount
address (can be done on etherscan)
Only factory owner can do this
- Update
./deploy-addresses/optimism-goerli.json
with newAccount
address - Ensure testnet accounts are updated and functional (ensure state is correct)
- Run script and deploy to Mainnet
- Call
Factory.upgradeAccountImplementation
with newAccount
address (can be done on etherscan)
Only factory owner can do this (pDAO)
- Update
./deploy-addresses/optimism.json
with newAccount
address - Ensure mainnet accounts are updated and functional (ensure state is correct)
As of SM v2.1.0, public actors can execute conditional orders and receive a fee for doing so
- Navigate to
src/utils/executors/OrderExecution.sol
OrderExecution
is a simplified contract which defines: (1) basic batch conditional order execution functionality, (2) a method to update onchain Pyth oracle price feed(s), (3) combined price feed update(s) and then conditional order execution functionality
OrderExecution
is meant to serve as a starting point for developers to build their own conditional order executors and IS NOT production ready nor has it been audited
- See https://docs.pyth.network/evm/update-price-feeds for more information on updating Pyth oracle price feeds
- See
IAccount.executeConditionalOrder
for more information on conditional order execution - Currently there are no scripts in this repository which deploy the
OrderExecution
contract - See https://github.com/JaredBorders/KwentaOrderExecutor for a conditional order executor that includes deployment scripts
npm run analysis:slither
npm run analysis:solsat
- Project uses Foundry's formatter:
npm run format
- Project uses Foundry's code coverage tool:
npm run coverage
Snapshots should be updated after every contract change
- Project uses Foundry's gas snapshot tool:
npm run gas-snapshot
- To view the gas snapshot, navigate to
./gas-snapshot