// SPDX-License-Identifier: MIT
pragma solidity ^0.8.16;
import {IAuth} from "./IAuth.sol";
/**
* @title Auth Module
*
* @dev The `Auth` contract module provides a basic access control mechanism,
* where a set of addresses are granted access to protected functions.
* These addresses are said to be _auth'ed_.
*
* Initially, the address given as constructor argument is the only address
* auth'ed. Through the `rely(address)` and `deny(address)` functions,
* auth'ed callers are able to grant/renounce auth to/from addresses.
*
* This module is used through inheritance. It will make available the
* modifier `auth`, which can be applied to functions to restrict their
* use to only auth'ed callers.
*/
abstract contract Auth is IAuth {
/// @dev Mapping storing whether address is auth'ed.
/// @custom:invariant Image of mapping is {0, 1}.
/// ∀x ∊ Address: _wards[x] ∊ {0, 1}
/// @custom:invariant Only address given as constructor argument is authenticated after deployment.
/// deploy(initialAuthed) → (∀x ∊ Address: _wards[x] == 1 → x == initialAuthed)
/// @custom:invariant Only functions `rely` and `deny` may mutate the mapping's state.
/// ∀x ∊ Address: preTx(_wards[x]) != postTx(_wards[x])
/// → (msg.sig == "rely" ∨ msg.sig == "deny")
/// @custom:invariant Mapping's state may only be mutated by authenticated caller.
/// ∀x ∊ Address: preTx(_wards[x]) != postTx(_wards[x]) → _wards[msg.sender] = 1
mapping(address => uint) private _wards;
/// @dev List of addresses possibly being auth'ed.
/// @dev May contain duplicates.
/// @dev May contain addresses not being auth'ed anymore.
/// @custom:invariant Every address being auth'ed once is element of the list.
/// ∀x ∊ Address: authed(x) -> x ∊ _wardsTouched
address[] private _wardsTouched;
/// @dev Ensures caller is auth'ed.
modifier auth() {
assembly ("memory-safe") {
// Compute slot of _wards[msg.sender].
mstore(0x00, caller())
mstore(0x20, _wards.slot)
let slot := keccak256(0x00, 0x40)
// Revert if caller not auth'ed.
let isAuthed := sload(slot)
if iszero(isAuthed) {
// Store selector of `NotAuthorized(address)`.
mstore(0x00, 0x4a0bfec1)
// Store msg.sender.
mstore(0x20, caller())
// Revert with (offset, size).
revert(0x1c, 0x24)
}
}
_;
}
constructor(address initialAuthed) {
_wards[initialAuthed] = 1;
_wardsTouched.push(initialAuthed);
// Note to use address(0) as caller to indicate address was auth'ed
// during deployment.
emit AuthGranted(address(0), initialAuthed);
}
/// @inheritdoc IAuth
function rely(address who) external auth {
if (_wards[who] == 1) return;
_wards[who] = 1;
_wardsTouched.push(who);
emit AuthGranted(msg.sender, who);
}
/// @inheritdoc IAuth
function deny(address who) external auth {
if (_wards[who] == 0) return;
_wards[who] = 0;
emit AuthRenounced(msg.sender, who);
}
/// @inheritdoc IAuth
function authed(address who) public view returns (bool) {
return _wards[who] == 1;
}
/// @inheritdoc IAuth
/// @custom:invariant Only contains auth'ed addresses.
/// ∀x ∊ authed(): _wards[x] == 1
/// @custom:invariant Contains all auth'ed addresses.
/// ∀x ∊ Address: _wards[x] == 1 → x ∊ authed()
function authed() public view returns (address[] memory) {
// Initiate array with upper limit length.
address[] memory wardsList = new address[](_wardsTouched.length);
// Iterate through all possible auth'ed addresses.
uint ctr;
for (uint i; i < wardsList.length; i++) {
// Add address only if still auth'ed.
if (_wards[_wardsTouched[i]] == 1) {
wardsList[ctr++] = _wardsTouched[i];
}
}
// Set length of array to number of auth'ed addresses actually included.
assembly ("memory-safe") {
mstore(wardsList, ctr)
}
return wardsList;
}
/// @inheritdoc IAuth
function wards(address who) public view returns (uint) {
return _wards[who];
}
}
// SPDX-License-Identifier: MIT
pragma solidity ^0.8.16;
interface IAuth {
/// @notice Thrown by protected function if caller not auth'ed.
/// @param caller The caller's address.
error NotAuthorized(address caller);
/// @notice Emitted when auth granted to address.
/// @param caller The caller's address.
/// @param who The address auth got granted to.
event AuthGranted(address indexed caller, address indexed who);
/// @notice Emitted when auth renounced from address.
/// @param caller The caller's address.
/// @param who The address auth got renounced from.
event AuthRenounced(address indexed caller, address indexed who);
/// @notice Grants address `who` auth.
/// @dev Only callable by auth'ed address.
/// @param who The address to grant auth.
function rely(address who) external;
/// @notice Renounces address `who`'s auth.
/// @dev Only callable by auth'ed address.
/// @param who The address to renounce auth.
function deny(address who) external;
/// @notice Returns whether address `who` is auth'ed.
/// @param who The address to check.
/// @return True if `who` is auth'ed, false otherwise.
function authed(address who) external view returns (bool);
/// @notice Returns full list of addresses granted auth.
/// @dev May contain duplicates.
/// @return List of addresses granted auth.
function authed() external view returns (address[] memory);
/// @notice Returns whether address `who` is auth'ed.
/// @custom:deprecated Use `authed(address)(bool)` instead.
/// @param who The address to check.
/// @return 1 if `who` is auth'ed, 0 otherwise.
function wards(address who) external view returns (uint);
}
// SPDX-License-Identifier: MIT
pragma solidity ^0.8.16;
/**
* @title IChronicle
*
* @notice Interface for Chronicle Protocol's oracle products
*/
interface IChronicle {
/// @notice Returns the oracle's identifier.
/// @return wat The oracle's identifier.
function wat() external view returns (bytes32 wat);
/// @notice Returns the oracle's current value.
/// @dev Reverts if no value set.
/// @return value The oracle's current value.
function read() external view returns (uint value);
/// @notice Returns the oracle's current value and its age.
/// @dev Reverts if no value set.
/// @return value The oracle's current value.
/// @return age The value's age.
function readWithAge() external view returns (uint value, uint age);
/// @notice Returns the oracle's current value.
/// @return isValid True if value exists, false otherwise.
/// @return value The oracle's current value if it exists, zero otherwise.
function tryRead() external view returns (bool isValid, uint value);
/// @notice Returns the oracle's current value and its age.
/// @return isValid True if value exists, false otherwise.
/// @return value The oracle's current value if it exists, zero otherwise.
/// @return age The value's age if value exists, zero otherwise.
function tryReadWithAge()
external
view
returns (bool isValid, uint value, uint age);
}
// SPDX-License-Identifier: AGPL-3.0
pragma solidity >=0.8.0;
/**
* @dev Interest rate oracle interface from [Spark](https://spark.fi/).
*
* Copied from https://github.com/marsfoundation/sparklend-advanced/blob/277ea9d9ad7faf330b88198c9c6de979a2fad561/src/interfaces/IRateSource.sol.
*/
interface IRateSource {
/// @notice Returns the oracle's current APR value.
/// @return The oracle's current APR value.
function getAPR() external view returns (uint);
}
// SPDX-License-Identifier: MIT
pragma solidity ^0.8.16;
import {IChronicle} from "chronicle-std/IChronicle.sol";
import {LibSecp256k1} from "./libs/LibSecp256k1.sol";
interface IScribe is IChronicle {
/// @dev PokeData encapsulates a value and its age.
struct PokeData {
uint128 val;
uint32 age;
}
/// @dev SchnorrData encapsulates a (aggregated) Schnorr signature.
/// Schnorr signatures are used to prove a PokeData's integrity.
struct SchnorrData {
bytes32 signature;
address commitment;
bytes feedIds;
}
/// @dev ECDSAData encapsulates an ECDSA signature.
struct ECDSAData {
uint8 v;
bytes32 r;
bytes32 s;
}
/// @notice Thrown if a poked value's age is not greater than the oracle's
/// current value's age.
/// @param givenAge The poked value's age.
/// @param currentAge The oracle's current value's age.
error StaleMessage(uint32 givenAge, uint32 currentAge);
/// @notice Thrown if a poked value's age is greater than the current
/// time.
/// @param givenAge The poked value's age.
/// @param currentTimestamp The current time.
error FutureMessage(uint32 givenAge, uint32 currentTimestamp);
/// @notice Thrown if Schnorr signature not signed by exactly bar many
/// signers.
/// @param numberSigners The number of signers for given Schnorr signature.
/// @param bar The bar security parameter.
error BarNotReached(uint8 numberSigners, uint8 bar);
/// @notice Thrown if given feed id invalid.
/// @param feedId The invalid feed id.
error InvalidFeedId(uint8 feedId);
/// @notice Thrown if double signing attempted.
/// @param feedId The id of the feed attempting to double sign.
error DoubleSigningAttempted(uint8 feedId);
/// @notice Thrown if Schnorr signature verification failed.
error SchnorrSignatureInvalid();
/// @notice Emitted when oracle was successfully poked.
/// @param caller The caller's address.
/// @param val The value poked.
/// @param age The age of the value poked.
event Poked(address indexed caller, uint128 val, uint32 age);
/// @notice Emitted when new feed lifted.
/// @param caller The caller's address.
/// @param feed The feed address lifted.
event FeedLifted(address indexed caller, address indexed feed);
/// @notice Emitted when feed dropped.
/// @param caller The caller's address.
/// @param feed The feed address dropped.
event FeedDropped(address indexed caller, address indexed feed);
/// @notice Emitted when bar updated.
/// @param caller The caller's address.
/// @param oldBar The old bar's value.
/// @param newBar The new bar's value.
event BarUpdated(address indexed caller, uint8 oldBar, uint8 newBar);
/// @notice Returns the feed registration message.
/// @dev This message must be signed by a feed in order to be lifted.
/// @return feedRegistrationMessage Chronicle Protocol's feed registration
/// message.
function feedRegistrationMessage()
external
view
returns (bytes32 feedRegistrationMessage);
/// @notice Returns the bar security parameter.
/// @return bar The bar security parameter.
function bar() external view returns (uint8 bar);
/// @notice Returns the number of decimals of the oracle's value.
/// @dev Provides partial compatibility with Chainlink's
/// IAggregatorV3Interface.
/// @return decimals The oracle value's number of decimals.
function decimals() external view returns (uint8 decimals);
/// @notice Returns the oracle's latest value.
/// @dev Provides partial compatibility with Chainlink's
/// IAggregatorV3Interface.
/// @return roundId 1.
/// @return answer The oracle's latest value.
/// @return startedAt 0.
/// @return updatedAt The timestamp of oracle's latest update.
/// @return answeredInRound 1.
function latestRoundData()
external
view
returns (
uint80 roundId,
int answer,
uint startedAt,
uint updatedAt,
uint80 answeredInRound
);
/// @notice Returns the oracle's latest value.
/// @dev Provides partial compatibility with Chainlink's
/// IAggregatorV3Interface.
/// @custom:deprecated See https://docs.chain.link/data-feeds/api-reference/#latestanswer.
/// @return answer The oracle's latest value.
function latestAnswer() external view returns (int);
/// @notice Pokes the oracle.
/// @dev Expects `pokeData`'s age to be greater than the timestamp of the
/// last successful poke.
/// @dev Expects `pokeData`'s age to not be greater than the current time.
/// @dev Expects `schnorrData` to prove `pokeData`'s integrity.
/// See `isAcceptableSchnorrSignatureNow(bytes32,SchnorrData)(bool)`.
/// @param pokeData The PokeData being poked.
/// @param schnorrData The SchnorrData proving the `pokeData`'s
/// integrity.
function poke(PokeData calldata pokeData, SchnorrData calldata schnorrData)
external;
/// @notice Returns whether the Schnorr signature `schnorrData` is
/// currently acceptable for message `message`.
/// @dev Note that a valid Schnorr signature is only acceptable if the
/// signature was signed by exactly bar many feeds.
/// For more info, see `bar()(uint8)` and `feeds()(address[])`.
/// @dev Note that bar and feeds are configurable, meaning a once acceptable
/// Schnorr signature may become unacceptable in the future.
/// @param message The message expected to be signed via `schnorrData`.
/// @param schnorrData The SchnorrData to verify whether it proves
/// the `message`'s integrity.
/// @return ok True if Schnorr signature is acceptable, false otherwise.
function isAcceptableSchnorrSignatureNow(
bytes32 message,
SchnorrData calldata schnorrData
) external view returns (bool ok);
/// @notice Returns the message expected to be signed via Schnorr for
/// `pokeData`.
/// @dev The message is defined as:
/// H(tag ‖ H(wat ‖ pokeData)), where H() is the keccak256 function.
/// @param pokeData The pokeData to create the message for.
/// @return pokeMessage Message for `pokeData`.
function constructPokeMessage(PokeData calldata pokeData)
external
view
returns (bytes32 pokeMessage);
/// @notice Returns whether address `who` is a feed.
/// @param who The address to check.
/// @return isFeed True if `who` is feed, false otherwise.
function feeds(address who) external view returns (bool isFeed);
/// @notice Returns whether feed id `feedId` is a feed and, if so, the
/// feed's address.
/// @param feedId The feed id to check.
/// @return isFeed True if `feedId` is a feed, false otherwise.
/// @return feed Address of the feed with id `feedId` if `feedId` is a feed,
/// zero-address otherwise.
function feeds(uint8 feedId)
external
view
returns (bool isFeed, address feed);
/// @notice Returns list of feed addresses.
/// @dev Note that this function has a high gas consumption and is not
/// intended to be called onchain.
/// @return feeds List of feed addresses.
function feeds() external view returns (address[] memory feeds);
/// @notice Lifts public key `pubKey` to being a feed.
/// @dev Only callable by auth'ed address.
/// @dev The message expected to be signed by `ecdsaData` is defined via
/// `feedRegistrationMessage()(bytes32)`.
/// @param pubKey The public key of the feed.
/// @param ecdsaData ECDSA signed message by the feed's public key.
/// @return feedId The id of the newly lifted feed.
function lift(LibSecp256k1.Point memory pubKey, ECDSAData memory ecdsaData)
external
returns (uint8 feedId);
/// @notice Lifts public keys `pubKeys` to being feeds.
/// @dev Only callable by auth'ed address.
/// @dev The message expected to be signed by `ecdsaDatas` is defined via
/// `feedRegistrationMessage()(bytes32)`.
/// @param pubKeys The public keys of the feeds.
/// @param ecdsaDatas ECDSA signed message by the feeds' public keys.
/// @return List of feed ids of the newly lifted feeds.
function lift(
LibSecp256k1.Point[] memory pubKeys,
ECDSAData[] memory ecdsaDatas
) external returns (uint8[] memory);
/// @notice Drops feed with id `feedId`.
/// @dev Only callable by auth'ed address.
/// @param feedId The feed id to drop.
function drop(uint8 feedId) external;
/// @notice Drops feeds with ids' `feedIds`.
/// @dev Only callable by auth'ed address.
/// @param feedIds The feed ids to drop.
function drop(uint8[] memory feedIds) external;
/// @notice Updates the bar security parameters to `bar`.
/// @dev Only callable by auth'ed address.
/// @dev Reverts if `bar` is zero.
/// @param bar The value to update bar to.
function setBar(uint8 bar) external;
/// @notice Returns the oracle's current value.
/// @custom:deprecated Use `tryRead()(bool,uint)` instead.
/// @return value The oracle's current value if it exists, zero otherwise.
/// @return isValid True if value exists, false otherwise.
function peek() external view returns (uint value, bool isValid);
/// @notice Returns the oracle's current value.
/// @custom:deprecated Use `tryRead()(bool,uint)` instead.
/// @return value The oracle's current value if it exists, zero otherwise.
/// @return isValid True if value exists, false otherwise.
function peep() external view returns (uint value, bool isValid);
}
// SPDX-License-Identifier: MIT
pragma solidity ^0.8.16;
import {IScribe} from "./IScribe.sol";
interface IScribeOptimistic is IScribe {
/// @notice Thrown if attempted to opPoke while a previous opPoke is still
/// in challenge period.
error InChallengePeriod();
/// @notice Thrown if opChallenge called while no challengeable opPoke exists.
error NoOpPokeToChallenge();
/// @notice Thrown if opChallenge called with SchnorrData not matching
/// opPoke's SchnorrData.
/// @param gotHash The truncated keccak256 hash of the SchnorrData argument.
/// @param wantHash The truncated expected keccak256 hash of the SchnorrData
/// argument.
error SchnorrDataMismatch(uint160 gotHash, uint160 wantHash);
/// @notice Thrown if opPoke called with non-feed ECDSA signature.
/// @param signer The ECDSA signature's signer.
error SignerNotFeed(address signer);
/// @notice Emitted when oracles was successfully opPoked.
/// @param caller The caller's address.
/// @param opFeed The feed that signed the opPoke.
/// @param schnorrData The schnorrData opPoked.
/// @param pokeData The pokeData opPoked.
event OpPoked(
address indexed caller,
address indexed opFeed,
IScribe.SchnorrData schnorrData,
IScribe.PokeData pokeData
);
/// @notice Emitted when successfully challenged an opPoke.
/// @param caller The caller's address.
/// @param schnorrData The schnorrData challenged.
/// @param schnorrErr The abi-encoded custom error returned from the failed
/// Schnorr signature verification.
event OpPokeChallengedSuccessfully(
address indexed caller,
IScribe.SchnorrData schnorrData,
bytes schnorrErr
);
/// @notice Emitted when unsuccessfully challenged an opPoke.
/// @param caller The caller's address.
/// @param schnorrData The schnorrData challenged.
event OpPokeChallengedUnsuccessfully(
address indexed caller, IScribe.SchnorrData schnorrData
);
/// @notice Emitted when ETH reward paid for successfully challenging an
/// opPoke.
/// @param challenger The challenger to which the reward was send.
/// @param schnorrData The schnorrData challenged.
/// @param reward The ETH rewards paid.
event OpChallengeRewardPaid(
address indexed challenger, IScribe.SchnorrData schnorrData, uint reward
);
/// @notice Emitted when an opPoke dropped.
/// @dev opPoke's are dropped if security parameters are updated that could
/// lead to an initially valid opPoke becoming invalid or if an opPoke
/// was successfully challenged.
/// @param caller The caller's address.
/// @param pokeData The pokeData dropped.
event OpPokeDataDropped(address indexed caller, IScribe.PokeData pokeData);
/// @notice Emitted when length of opChallengePeriod updated.
/// @param caller The caller's address.
/// @param oldOpChallengePeriod The old opChallengePeriod's length.
/// @param newOpChallengePeriod The new opChallengePeriod's length.
event OpChallengePeriodUpdated(
address indexed caller,
uint16 oldOpChallengePeriod,
uint16 newOpChallengePeriod
);
/// @notice Emitted when maxChallengeReward updated.
/// @param caller The caller's address.
/// @param oldMaxChallengeReward The old maxChallengeReward.
/// @param newMaxChallengeReward The new maxChallengeReward.
event MaxChallengeRewardUpdated(
address indexed caller,
uint oldMaxChallengeReward,
uint newMaxChallengeReward
);
/// @notice Optimistically pokes the oracle.
/// @dev Expects `pokeData`'s age to be greater than the timestamp of the
/// last successful poke.
/// @dev Expects `pokeData`'s age to not be greater than the current time.
/// @dev Expects `ecdsaData` to be a signature from a feed.
/// @dev Expects `ecdsaData` to prove the integrity of the `pokeData` and
/// `schnorrData`.
/// @dev If the `schnorrData` is proven to be invalid via the opChallenge
/// function, the `ecdsaData` signing feed will be dropped.
/// @param pokeData The PokeData being poked.
/// @param schnorrData The SchnorrData optimistically assumed to be
/// proving the `pokeData`'s integrity.
/// @param ecdsaData The ECDSAData proving the integrity of the
/// `pokeData` and `schnorrData`.
function opPoke(
PokeData calldata pokeData,
SchnorrData calldata schnorrData,
ECDSAData calldata ecdsaData
) external;
/// @notice Challenges the current challengeable opPoke.
/// @dev If opPoke is determined to be invalid, the caller receives an ETH
/// bounty. The bounty is defined via the `challengeReward()(uint)`
/// function.
/// @dev If opPoke is determined to be invalid, the corresponding feed is
/// dropped.
/// @param schnorrData The SchnorrData initially provided via
/// opPoke.
/// @return ok True if opPoke declared invalid, false otherwise.
function opChallenge(SchnorrData calldata schnorrData)
external
returns (bool ok);
/// @notice Returns the message expected to be signed via ECDSA for calling
/// opPoke.
/// @dev The message is defined as:
/// H(tag ‖ H(wat ‖ pokeData ‖ schnorrData)), where H() is the keccak256 function.
/// @param pokeData The pokeData being optimistically poked.
/// @param schnorrData The schnorrData proving `pokeData`'s integrity.
/// @return opPokeMessage Message to be signed for an opPoke for `pokeData`
/// and `schnorrData`.
function constructOpPokeMessage(
PokeData calldata pokeData,
SchnorrData calldata schnorrData
) external view returns (bytes32 opPokeMessage);
/// @notice Returns the feed id of the feed last opPoke'd.
/// @return opFeedId Feed id of the feed last opPoke'd.
function opFeedId() external view returns (uint8 opFeedId);
/// @notice Returns the opChallengePeriod security parameter.
/// @return opChallengePeriod The opChallengePeriod security parameter.
function opChallengePeriod()
external
view
returns (uint16 opChallengePeriod);
/// @notice Returns the maxChallengeRewards parameter.
/// @return maxChallengeReward The maxChallengeReward parameter.
function maxChallengeReward()
external
view
returns (uint maxChallengeReward);
/// @notice Returns the ETH rewards being paid for successfully challenging
/// an opPoke.
/// @return challengeReward The ETH reward for successfully challenging an
/// opPoke.
function challengeReward() external view returns (uint challengeReward);
/// @notice Updates the opChallengePeriod security parameter.
/// @dev Only callable by auth'ed address.
/// @dev Reverts if opChallengePeriod is zero.
/// @dev Note that evaluating whether an opPoke is finalized happens via the
/// _current_ opChallengePeriod.
/// This means a finalized opPoke is dropped if opChallengePeriod is
/// decreased to a value less than opPoke's age.
/// @param opChallengePeriod The value to update opChallengePeriod to.
function setOpChallengePeriod(uint16 opChallengePeriod) external;
/// @notice Updates the maxChallengeReward parameter.
/// @dev Only callable by auth'ed address.
/// @param maxChallengeReward The value to update maxChallengeReward to.
function setMaxChallengeReward(uint maxChallengeReward) external;
}
// SPDX-License-Identifier: MIT
pragma solidity ^0.8.16;
import {IScribeOptimistic} from "../IScribeOptimistic.sol";
import {IRateSource} from "./external_/interfaces/IRateSource.sol";
interface IScribeOptimisticLST is IScribeOptimistic, IRateSource {}
// SPDX-License-Identifier: MIT
pragma solidity ^0.8.16;
interface IToll {
/// @notice Thrown by protected function if caller not tolled.
/// @param caller The caller's address.
error NotTolled(address caller);
/// @notice Emitted when toll granted to address.
/// @param caller The caller's address.
/// @param who The address toll got granted to.
event TollGranted(address indexed caller, address indexed who);
/// @notice Emitted when toll renounced from address.
/// @param caller The caller's address.
/// @param who The address toll got renounced from.
event TollRenounced(address indexed caller, address indexed who);
/// @notice Grants address `who` toll.
/// @dev Only callable by auth'ed address.
/// @param who The address to grant toll.
function kiss(address who) external;
/// @notice Renounces address `who`'s toll.
/// @dev Only callable by auth'ed address.
/// @param who The address to renounce toll.
function diss(address who) external;
/// @notice Returns whether address `who` is tolled.
/// @param who The address to check.
/// @return True if `who` is tolled, false otherwise.
function tolled(address who) external view returns (bool);
/// @notice Returns full list of addresses tolled.
/// @dev May contain duplicates.
/// @return List of addresses tolled.
function tolled() external view returns (address[] memory);
/// @notice Returns whether address `who` is tolled.
/// @custom:deprecated Use `tolled(address)(bool)` instead.
/// @param who The address to check.
/// @return 1 if `who` is tolled, 0 otherwise.
function bud(address who) external view returns (uint);
}
// SPDX-License-Identifier: MIT
pragma solidity ^0.8.16;
import {LibSecp256k1} from "./LibSecp256k1.sol";
/**
* @title LibSchnorr
*
* @notice Custom-purpose library for Schnorr signature verification on the
* secp256k1 curve
*/
library LibSchnorr {
using LibSecp256k1 for LibSecp256k1.Point;
/// @dev Returns whether `signature` and `commitment` sign via `pubKey`
/// message `message`.
///
/// @custom:invariant Reverts iff out of gas.
/// @custom:invariant Uses constant amount of gas.
function verifySignature(
LibSecp256k1.Point memory pubKey,
bytes32 message,
bytes32 signature,
address commitment
) internal pure returns (bool) {
// Return false if signature or commitment is zero.
if (signature == 0 || commitment == address(0)) {
return false;
}
// Note to enforce pubKey is valid secp256k1 point.
//
// While the Scribe contract ensures to only verify signatures for valid
// public keys, this check is enabled as an additional defense
// mechanism.
if (!pubKey.isOnCurve()) {
return false;
}
// Note to enforce signature is less than Q to prevent signature
// malleability.
//
// While the Scribe contract only accepts messages with strictly
// monotonically increasing timestamps, circumventing replay attack
// vectors and therefore also signature malleability issues at a higher
// level, this check is enabled as an additional defense mechanism.
if (uint(signature) >= LibSecp256k1.Q()) {
return false;
}
// Construct challenge = H(Pₓ ‖ Pₚ ‖ m ‖ Rₑ) mod Q
uint challenge = uint(
keccak256(
abi.encodePacked(
pubKey.x, uint8(pubKey.yParity()), message, commitment
)
)
) % LibSecp256k1.Q();
// Compute msgHash = -sig * Pₓ (mod Q)
// = Q - (sig * Pₓ) (mod Q)
//
// Unchecked because the only protected operation performed is the
// subtraction from Q where the subtrahend is the result of a (mod Q)
// computation, i.e. the subtrahend is guaranteed to be less than Q.
uint msgHash;
unchecked {
msgHash = LibSecp256k1.Q()
- mulmod(uint(signature), pubKey.x, LibSecp256k1.Q());
}
// Compute v = Pₚ + 27
//
// Unchecked because pubKey.yParity() ∊ {0, 1} which cannot overflow
// by adding 27.
uint v;
unchecked {
v = pubKey.yParity() + 27;
}
// Set r = Pₓ
uint r = pubKey.x;
// Compute s = Q - (e * Pₓ) (mod Q)
//
// Unchecked because the only protected operation performed is the
// subtraction from Q where the subtrahend is the result of a (mod Q)
// computation, i.e. the subtrahend is guaranteed to be less than Q.
uint s;
unchecked {
s = LibSecp256k1.Q() - mulmod(challenge, pubKey.x, LibSecp256k1.Q());
}
// Compute ([s]G - [e]P)ₑ via ecrecover.
address recovered =
ecrecover(bytes32(msgHash), uint8(v), bytes32(r), bytes32(s));
// Verification succeeds iff ([s]G - [e]P)ₑ = Rₑ.
//
// Note that commitment is guaranteed to not be zero.
return commitment == recovered;
}
}
// SPDX-License-Identifier: MIT
pragma solidity ^0.8.16;
/**
* @title LibSecp256k1
*
* @notice Library for secp256k1 elliptic curve computations
*
* @dev This library was developed to efficiently compute aggregated public
* keys for Schnorr signatures based on secp256k1, i.e. it is _not_ a
* general purpose elliptic curve library!
*
* References to the Ethereum Yellow Paper are based on the following
* version: "BERLIN VERSION beacfbd – 2022-10-24".
*/
library LibSecp256k1 {
using LibSecp256k1 for LibSecp256k1.Point;
using LibSecp256k1 for LibSecp256k1.JacobianPoint;
uint private constant ADDRESS_MASK =
0x000000000000000000000000FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF;
// -- Secp256k1 Constants --
//
// Taken from https://www.secg.org/sec2-v2.pdf.
// See section 2.4.1 "Recommended Parameters secp256k1".
uint private constant _A = 0;
uint private constant _B = 7;
uint private constant _P =
0xFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFEFFFFFC2F;
/// @dev Returns the order of the group.
function Q() internal pure returns (uint) {
return
0xFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFEBAAEDCE6AF48A03BBFD25E8CD0364141;
}
/// @dev Returns the generator G.
/// Note that the generator is also called base point.
function G() internal pure returns (Point memory) {
return Point({
x: 0x79be667ef9dcbbac55a06295ce870b07029bfcdb2dce28d959f2815b16f81798,
y: 0x483ada7726a3c4655da4fbfc0e1108a8fd17b448a68554199c47d08ffb10d4b8
});
}
/// @dev Returns the zero point.
function ZERO_POINT() internal pure returns (Point memory) {
return Point({x: 0, y: 0});
}
// -- (Affine) Point --
/// @dev Point encapsulates a secp256k1 point in Affine coordinates.
struct Point {
uint x;
uint y;
}
/// @dev Returns the Ethereum address of `self`.
///
/// @dev An Ethereum address is defined as the rightmost 160 bits of the
/// keccak256 hash of the concatenation of the hex-encoded x and y
/// coordinates of the corresponding ECDSA public key.
/// See "Appendix F: Signing Transactions" §134 in the Yellow Paper.
function toAddress(Point memory self) internal pure returns (address) {
address addr;
// Functionally equivalent Solidity code:
// addr = address(uint160(uint(keccak256(abi.encode(self.x, self.y)))));
assembly ("memory-safe") {
addr := and(keccak256(self, 0x40), ADDRESS_MASK)
}
return addr;
}
/// @dev Returns Affine point `self` in Jacobian coordinates.
function toJacobian(Point memory self)
internal
pure
returns (JacobianPoint memory)
{
return JacobianPoint({x: self.x, y: self.y, z: 1});
}
/// @dev Returns whether `self` is the zero point.
function isZeroPoint(Point memory self) internal pure returns (bool) {
return (self.x | self.y) == 0;
}
/// @dev Returns whether `self` is a point on the curve.
///
/// @dev The secp256k1 curve is specified as y² ≡ x³ + ax + b (mod P)
/// where:
/// a = 0
/// b = 7
function isOnCurve(Point memory self) internal pure returns (bool) {
uint left = mulmod(self.y, self.y, _P);
// Note that adding a * x can be waived as ∀x: a * x = 0.
uint right =
addmod(mulmod(self.x, mulmod(self.x, self.x, _P), _P), _B, _P);
return left == right;
}
/// @dev Returns the parity of `self`'s y coordinate.
///
/// @dev The value 0 represents an even y value and 1 represents an odd y
/// value.
/// See "Appendix F: Signing Transactions" in the Yellow Paper.
function yParity(Point memory self) internal pure returns (uint) {
return self.y & 1;
}
// -- Jacobian Point --
/// @dev JacobianPoint encapsulates a secp256k1 point in Jacobian
/// coordinates.
struct JacobianPoint {
uint x;
uint y;
uint z;
}
/// @dev Returns Jacobian point `self` in Affine coordinates.
///
/// @custom:invariant Reverts iff out of gas.
/// @custom:invariant Does not run into an infinite loop.
function toAffine(JacobianPoint memory self)
internal
pure
returns (Point memory)
{
Point memory result;
// Compute z⁻¹, i.e. the modular inverse of self.z.
uint zInv = _invMod(self.z);
// Compute (z⁻¹)² (mod P)
uint zInv_2 = mulmod(zInv, zInv, _P);
// Compute self.x * (z⁻¹)² (mod P), i.e. the x coordinate of given
// Jacobian point in Affine representation.
result.x = mulmod(self.x, zInv_2, _P);
// Compute self.y * (z⁻¹)³ (mod P), i.e. the y coordinate of given
// Jacobian point in Affine representation.
result.y = mulmod(self.y, mulmod(zInv, zInv_2, _P), _P);
return result;
}
/// @dev Adds Affine point `p` to Jacobian point `self`.
///
/// It is the caller's responsibility to ensure given points are on the
/// curve!
///
/// Computation based on: https://www.hyperelliptic.org/EFD/g1p/auto-shortw-jacobian.html#addition-madd-2007-bl.
///
/// Note that the formula assumes z2 = 1, which always holds if z2's
/// point is given in Affine coordinates.
///
/// Note that eventhough the function is marked as pure, to be
/// understood as only being dependent on the input arguments, it
/// nevertheless has side effects by writing the result into the
/// `self` memory variable.
///
/// @custom:invariant Only mutates `self` memory variable.
/// @custom:invariant Reverts iff out of gas.
/// @custom:invariant Uses constant amount of gas.
function addAffinePoint(JacobianPoint memory self, Point memory p)
internal
pure
{
// Addition formula:
// x = r² - j - (2 * v) (mod P)
// y = (r * (v - x)) - (2 * y1 * j) (mod P)
// z = (z1 + h)² - z1² - h² (mod P)
//
// where:
// r = 2 * (s - y1) (mod P)
// j = h * i (mod P)
// v = x1 * i (mod P)
// h = u - x1 (mod P)
// s = y2 * z1³ (mod P) Called s2 in reference
// i = 4 * h² (mod P)
// u = x2 * z1² (mod P) Called u2 in reference
//
// and:
// x1 = self.x
// y1 = self.y
// z1 = self.z
// x2 = p.x
// y2 = p.y
//
// Note that in order to save memory allocations the result is stored
// in the self variable, i.e. the following holds true after the
// functions execution:
// x = self.x
// y = self.y
// z = self.z
// Cache self's coordinates on stack.
uint x1 = self.x;
uint y1 = self.y;
uint z1 = self.z;
// Compute z1_2 = z1² (mod P)
// = z1 * z1 (mod P)
uint z1_2 = mulmod(z1, z1, _P);
// Compute h = u - x1 (mod P)
// = u + (P - x1) (mod P)
// = x2 * z1² + (P - x1) (mod P)
//
// Unchecked because the only protected operation performed is P - x1
// where x1 is guaranteed by the caller to be an x coordinate belonging
// to a point on the curve, i.e. being less than P.
uint h;
unchecked {
h = addmod(mulmod(p.x, z1_2, _P), _P - x1, _P);
}
// Compute h_2 = h² (mod P)
// = h * h (mod P)
uint h_2 = mulmod(h, h, _P);
// Compute i = 4 * h² (mod P)
uint i = mulmod(4, h_2, _P);
// Compute z = (z1 + h)² - z1² - h² (mod P)
// = (z1 + h)² - z1² + (P - h²) (mod P)
// = (z1 + h)² + (P - z1²) + (P - h²) (mod P)
// ╰───────╯ ╰───────╯ ╰──────╯
// left mid right
//
// Unchecked because the only protected operations performed are
// subtractions from P where the subtrahend is the result of a (mod P)
// computation, i.e. the subtrahend being guaranteed to be less than P.
unchecked {
uint left = mulmod(addmod(z1, h, _P), addmod(z1, h, _P), _P);
uint mid = _P - z1_2;
uint right = _P - h_2;
self.z = addmod(left, addmod(mid, right, _P), _P);
}
// Compute v = x1 * i (mod P)
uint v = mulmod(x1, i, _P);
// Compute j = h * i (mod P)
uint j = mulmod(h, i, _P);
// Compute r = 2 * (s - y1) (mod P)
// = 2 * (s + (P - y1)) (mod P)
// = 2 * ((y2 * z1³) + (P - y1)) (mod P)
// = 2 * ((y2 * z1² * z1) + (P - y1)) (mod P)
//
// Unchecked because the only protected operation performed is P - y1
// where y1 is guaranteed by the caller to be an y coordinate belonging
// to a point on the curve, i.e. being less than P.
uint r;
unchecked {
r = mulmod(
2,
addmod(mulmod(p.y, mulmod(z1_2, z1, _P), _P), _P - y1, _P),
_P
);
}
// Compute x = r² - j - (2 * v) (mod P)
// = r² - j + (P - (2 * v)) (mod P)
// = r² + (P - j) + (P - (2 * v)) (mod P)
// ╰─────╯ ╰───────────╯
// mid right
//
// Unchecked because the only protected operations performed are
// subtractions from P where the subtrahend is the result of a (mod P)
// computation, i.e. the subtrahend being guaranteed to be less than P.
unchecked {
uint r_2 = mulmod(r, r, _P);
uint mid = _P - j;
uint right = _P - mulmod(2, v, _P);
self.x = addmod(r_2, addmod(mid, right, _P), _P);
}
// Compute y = (r * (v - x)) - (2 * y1 * j) (mod P)
// = (r * (v - x)) + (P - (2 * y1 * j)) (mod P)
// = (r * (v + (P - x))) + (P - (2 * y1 * j)) (mod P)
// ╰─────────────────╯ ╰────────────────╯
// left right
//
// Unchecked because the only protected operations performed are
// subtractions from P where the subtrahend is the result of a (mod P)
// computation, i.e. the subtrahend being guaranteed to be less than P.
unchecked {
uint left = mulmod(r, addmod(v, _P - self.x, _P), _P);
uint right = _P - mulmod(2, mulmod(y1, j, _P), _P);
self.y = addmod(left, right, _P);
}
}
// -- Private Helpers --
/// @dev Returns the modular inverse of `x` for modulo `_P`.
///
/// It is the caller's responsibility to ensure `x` is less than `_P`!
///
/// The modular inverse of `x` is x⁻¹ such that x * x⁻¹ ≡ 1 (mod P).
///
/// @dev Modified from Jordi Baylina's [ecsol](https://github.com/jbaylina/ecsol/blob/c2256afad126b7500e6f879a9369b100e47d435d/ec.sol#L51-L67).
///
/// @custom:invariant Reverts iff out of gas.
/// @custom:invariant Does not run into an infinite loop.
function _invMod(uint x) private pure returns (uint) {
uint t;
uint q;
uint newT = 1;
uint r = _P;
assembly ("memory-safe") {
// Implemented in assembly to circumvent division-by-zero
// and over-/underflow protection.
//
// Functionally equivalent Solidity code:
// while (x != 0) {
// q = r / x;
// (t, newT) = (newT, addmod(t, (_P - mulmod(q, newT, _P)), _P));
// (r, x) = (x, r - (q * x));
// }
//
// For the division r / x, x is guaranteed to not be zero via the
// loop condition.
//
// The subtraction of form P - mulmod(_, _, P) is guaranteed to not
// underflow due to the subtrahend being a (mod P) result,
// i.e. the subtrahend being guaranteed to be less than P.
//
// The subterm q * x is guaranteed to not overflow because
// q * x ≤ r due to q = ⎣r / x⎦.
//
// The term r - (q * x) is guaranteed to not underflow because
// q * x ≤ r and therefore r - (q * x) ≥ 0.
for {} x {} {
q := div(r, x)
let tmp := t
t := newT
newT := addmod(tmp, sub(_P, mulmod(q, newT, _P)), _P)
tmp := r
r := x
x := sub(tmp, mul(q, x))
}
}
return t;
}
}
// SPDX-License-Identifier: BUSL-1.1
pragma solidity ^0.8.16;
import {IChronicle} from "chronicle-std/IChronicle.sol";
import {Auth} from "chronicle-std/auth/Auth.sol";
import {Toll} from "chronicle-std/toll/Toll.sol";
import {IScribe} from "./IScribe.sol";
import {LibSchnorr} from "./libs/LibSchnorr.sol";
import {LibSecp256k1} from "./libs/LibSecp256k1.sol";
/**
* @title Scribe
* @custom:version 2.0.0
*
* @notice Efficient Schnorr multi-signature based Oracle
*/
contract Scribe is IScribe, Auth, Toll {
using LibSchnorr for LibSecp256k1.Point;
using LibSecp256k1 for LibSecp256k1.Point;
using LibSecp256k1 for LibSecp256k1.JacobianPoint;
/// @inheritdoc IScribe
uint8 public constant decimals = 18;
/// @inheritdoc IScribe
bytes32 public constant feedRegistrationMessage = keccak256(
abi.encodePacked(
"\x19Ethereum Signed Message:\n32",
keccak256("Chronicle Feed Registration")
)
);
/// @inheritdoc IChronicle
bytes32 public immutable wat;
// -- Storage --
/// @dev Scribe's current value and corresponding age.
PokeData internal _pokeData;
/// @dev Statically allocated array of feeds' public keys.
/// Indexed via the public keys address' highest-order byte.
LibSecp256k1.Point[256] internal _pubKeys;
/// @inheritdoc IScribe
/// @dev Note to have as last in storage to enable downstream contracts to
/// pack the slot.
uint8 public bar;
// -- Constructor --
constructor(address initialAuthed, bytes32 wat_)
payable
Auth(initialAuthed)
{
require(wat_ != 0);
// Set wat immutable.
wat = wat_;
// Let initial bar be 2.
_setBar(2);
}
// -- Poke Functionality --
/// @dev Optimized function selector: 0x00000082.
/// Note that this function is _not_ defined via the IScribe interface
/// and one should _not_ depend on it.
function poke_optimized_7136211(
PokeData calldata pokeData,
SchnorrData calldata schnorrData
) external {
_poke(pokeData, schnorrData);
}
/// @inheritdoc IScribe
function poke(PokeData calldata pokeData, SchnorrData calldata schnorrData)
external
{
_poke(pokeData, schnorrData);
}
function _poke(PokeData calldata pokeData, SchnorrData calldata schnorrData)
internal
virtual
{
// Revert if pokeData stale.
if (pokeData.age <= _pokeData.age) {
revert StaleMessage(pokeData.age, _pokeData.age);
}
// Revert if pokeData from the future.
if (pokeData.age > uint32(block.timestamp)) {
revert FutureMessage(pokeData.age, uint32(block.timestamp));
}
// Revert if schnorrData does not prove integrity of pokeData.
bool ok;
bytes memory err;
// forgefmt: disable-next-item
(ok, err) = _verifySchnorrSignature(
constructPokeMessage(pokeData),
schnorrData
);
if (!ok) {
_revert(err);
}
// Store pokeData's val in _pokeData storage and set its age to now.
_pokeData.val = pokeData.val;
_pokeData.age = uint32(block.timestamp);
emit Poked(msg.sender, pokeData.val, pokeData.age);
}
/// @inheritdoc IScribe
function constructPokeMessage(PokeData memory pokeData)
public
view
returns (bytes32)
{
return keccak256(
abi.encodePacked(
"\x19Ethereum Signed Message:\n32",
keccak256(abi.encodePacked(wat, pokeData.val, pokeData.age))
)
);
}
// -- Schnorr Signature Verification --
/// @inheritdoc IScribe
function isAcceptableSchnorrSignatureNow(
bytes32 message,
SchnorrData calldata schnorrData
) external view returns (bool) {
bool ok;
(ok, /*err*/ ) = _verifySchnorrSignature(message, schnorrData);
return ok;
}
/// @custom:invariant Reverts iff out of gas.
/// @custom:invariant Runtime is O(bar).
function _verifySchnorrSignature(
bytes32 message,
SchnorrData calldata schnorrData
) internal view returns (bool, bytes memory) {
// Let feedPubKey be the currently processed feed's public key.
LibSecp256k1.Point memory feedPubKey;
// Let feedId be the currently processed feed's id.
uint8 feedId;
// Let aggPubKey be the sum of processed feeds' public keys.
// Note that Jacobian coordinates are used.
LibSecp256k1.JacobianPoint memory aggPubKey;
// Let bloom be a bloom filter to check for double signing attempts.
uint bloom;
// Fail if number feeds unequal to bar.
//
// Note that requiring equality constrains the verification's runtime
// from Ω(bar) to Θ(bar).
uint numberFeeds = schnorrData.feedIds.length;
if (numberFeeds != bar) {
return (false, _errorBarNotReached(uint8(numberFeeds), bar));
}
// Initiate feed variables with schnorrData's 0's feed index.
feedId = uint8(schnorrData.feedIds[0]);
feedPubKey = _pubKeys[feedId];
// Fail if feed not lifted.
if (feedPubKey.isZeroPoint()) {
return (false, _errorInvalidFeedId(feedId));
}
// Initiate bloom filter with feedId set.
bloom = 1 << feedId;
// Initiate aggPubKey with value of first feed's public key.
aggPubKey = feedPubKey.toJacobian();
for (uint8 i = 1; i < numberFeeds;) {
// Update feed variables.
feedId = uint8(schnorrData.feedIds[i]);
feedPubKey = _pubKeys[feedId];
// Fail if feed not lifted.
if (feedPubKey.isZeroPoint()) {
return (false, _errorInvalidFeedId(feedId));
}
// Fail if double signing attempted.
if (bloom & (1 << feedId) != 0) {
return (false, _errorDoubleSigningAttempted(feedId));
}
// Update bloom filter.
bloom |= 1 << feedId;
// assert(aggPubKey.x != feedPubKey.x); // Indicates rogue-key attack
// Add feedPubKey to already aggregated public keys.
aggPubKey.addAffinePoint(feedPubKey);
// forgefmt: disable-next-item
unchecked { ++i; }
}
// Fail if signature verification fails.
bool ok = aggPubKey.toAffine().verifySignature(
message, schnorrData.signature, schnorrData.commitment
);
if (!ok) {
return (false, _errorSchnorrSignatureInvalid());
}
// Otherwise Schnorr signature is valid.
return (true, new bytes(0));
}
// -- Toll'ed Read Functionality --
// - IChronicle Functions
/// @inheritdoc IChronicle
/// @dev Only callable by toll'ed address.
function read() external view virtual toll returns (uint) {
uint val = _pokeData.val;
require(val != 0);
return val;
}
/// @inheritdoc IChronicle
/// @dev Only callable by toll'ed address.
function tryRead() external view virtual toll returns (bool, uint) {
uint val = _pokeData.val;
return (val != 0, val);
}
/// @inheritdoc IChronicle
/// @dev Only callable by toll'ed address.
function readWithAge() external view virtual toll returns (uint, uint) {
uint val = _pokeData.val;
uint age = _pokeData.age;
require(val != 0);
return (val, age);
}
/// @inheritdoc IChronicle
/// @dev Only callable by toll'ed address.
function tryReadWithAge()
external
view
virtual
toll
returns (bool, uint, uint)
{
uint val = _pokeData.val;
uint age = _pokeData.age;
return val != 0 ? (true, val, age) : (false, 0, 0);
}
// - MakerDAO Compatibility
/// @inheritdoc IScribe
/// @dev Only callable by toll'ed address.
function peek() external view virtual toll returns (uint, bool) {
uint val = _pokeData.val;
return (val, val != 0);
}
/// @inheritdoc IScribe
/// @dev Only callable by toll'ed address.
function peep() external view virtual toll returns (uint, bool) {
uint val = _pokeData.val;
return (val, val != 0);
}
// - Chainlink Compatibility
/// @inheritdoc IScribe
/// @dev Only callable by toll'ed address.
function latestRoundData()
external
view
virtual
toll
returns (
uint80 roundId,
int answer,
uint startedAt,
uint updatedAt,
uint80 answeredInRound
)
{
roundId = 1;
answer = int(uint(_pokeData.val));
// assert(uint(answer) == uint(_pokeData.val));
startedAt = 0;
updatedAt = _pokeData.age;
answeredInRound = roundId;
}
/// @inheritdoc IScribe
/// @dev Only callable by toll'ed address.
function latestAnswer() external view virtual toll returns (int) {
uint val = _pokeData.val;
return int(val);
}
// -- Public Read Functionality --
/// @inheritdoc IScribe
function feeds(address who) external view returns (bool) {
uint8 feedId = uint8(uint(uint160(who)) >> 152);
LibSecp256k1.Point memory pubKey = _pubKeys[feedId];
return !pubKey.isZeroPoint() && pubKey.toAddress() == who;
}
/// @inheritdoc IScribe
function feeds(uint8 feedId) external view returns (bool, address) {
LibSecp256k1.Point memory pubKey = _pubKeys[feedId];
return pubKey.isZeroPoint()
? (false, address(0))
: (true, pubKey.toAddress());
}
/// @inheritdoc IScribe
function feeds() external view returns (address[] memory) {
address[] memory feeds_ = new address[](256);
LibSecp256k1.Point memory pubKey;
address feed;
uint ctr;
for (uint i; i < 256;) {
pubKey = _pubKeys[uint8(i)];
if (!pubKey.isZeroPoint()) {
feed = pubKey.toAddress();
feeds_[ctr] = feed;
// forgefmt: disable-next-item
unchecked { ++ctr; }
}
// forgefmt: disable-next-item
unchecked { ++i; }
}
assembly ("memory-safe") {
mstore(feeds_, ctr)
}
return feeds_;
}
// -- Auth'ed Functionality --
/// @inheritdoc IScribe
function lift(LibSecp256k1.Point memory pubKey, ECDSAData memory ecdsaData)
external
auth
returns (uint8)
{
return _lift(pubKey, ecdsaData);
}
/// @inheritdoc IScribe
function lift(
LibSecp256k1.Point[] memory pubKeys,
ECDSAData[] memory ecdsaDatas
) external auth returns (uint8[] memory) {
require(pubKeys.length == ecdsaDatas.length);
uint8[] memory feedIds = new uint8[](pubKeys.length);
for (uint i; i < pubKeys.length;) {
feedIds[i] = _lift(pubKeys[i], ecdsaDatas[i]);
// forgefmt: disable-next-item
unchecked { ++i; }
}
return feedIds;
}
function _lift(LibSecp256k1.Point memory pubKey, ECDSAData memory ecdsaData)
internal
returns (uint8)
{
address feed = pubKey.toAddress();
// assert(feed != address(0));
// forgefmt: disable-next-item
address recovered = ecrecover(
feedRegistrationMessage,
ecdsaData.v,
ecdsaData.r,
ecdsaData.s
);
require(feed == recovered);
uint8 feedId = uint8(uint(uint160(feed)) >> 152);
LibSecp256k1.Point memory sPubKey = _pubKeys[feedId];
if (sPubKey.isZeroPoint()) {
_pubKeys[feedId] = pubKey;
emit FeedLifted(msg.sender, feed);
} else {
// Note to be idempotent. However, disallow updating an id's feed
// via lifting without dropping the previous feed.
require(feed == sPubKey.toAddress());
}
return feedId;
}
/// @inheritdoc IScribe
function drop(uint8 feedId) external auth {
_drop(msg.sender, feedId);
}
/// @inheritdoc IScribe
function drop(uint8[] memory feedIds) external auth {
for (uint i; i < feedIds.length;) {
_drop(msg.sender, feedIds[i]);
// forgefmt: disable-next-item
unchecked { ++i; }
}
}
function _drop(address caller, uint8 feedId) internal virtual {
LibSecp256k1.Point memory pubKey = _pubKeys[feedId];
if (!pubKey.isZeroPoint()) {
delete _pubKeys[feedId];
emit FeedDropped(caller, pubKey.toAddress());
}
}
/// @inheritdoc IScribe
function setBar(uint8 bar_) external auth {
_setBar(bar_);
}
function _setBar(uint8 bar_) internal virtual {
require(bar_ != 0);
if (bar != bar_) {
emit BarUpdated(msg.sender, bar, bar_);
bar = bar_;
}
}
// -- Internal Helpers --
function _revert(bytes memory err) internal pure {
// assert(err.length != 0);
assembly ("memory-safe") {
let size := mload(err)
let offset := add(err, 0x20)
revert(offset, size)
}
}
function _errorBarNotReached(uint8 got, uint8 want)
internal
pure
returns (bytes memory)
{
// assert(got != want);
return abi.encodeWithSelector(IScribe.BarNotReached.selector, got, want);
}
function _errorInvalidFeedId(uint8 feedId)
internal
pure
returns (bytes memory)
{
// assert(_pubKeys[feedId].isZeroPoint());
return abi.encodeWithSelector(IScribe.InvalidFeedId.selector, feedId);
}
function _errorDoubleSigningAttempted(uint8 feedId)
internal
pure
returns (bytes memory)
{
return abi.encodeWithSelector(
IScribe.DoubleSigningAttempted.selector, feedId
);
}
function _errorSchnorrSignatureInvalid()
internal
pure
returns (bytes memory)
{
return abi.encodeWithSelector(IScribe.SchnorrSignatureInvalid.selector);
}
// -- Overridden Toll Functions --
/// @dev Defines authorization for IToll's authenticated functions.
function toll_auth() internal override(Toll) auth {}
}
/**
* @dev Contract overwrite to deploy contract instances with specific naming.
*
* For more info, see docs/Deployment.md.
*/
contract Chronicle_BASE_QUOTE_COUNTER is Scribe {
// @todo ^^^^ ^^^^^ ^^^^^^^ Adjust name of Scribe instance.
constructor(address initialAuthed, bytes32 wat_)
Scribe(initialAuthed, wat_)
{}
}
// SPDX-License-Identifier: BUSL-1.1
pragma solidity ^0.8.16;
import {IChronicle} from "chronicle-std/IChronicle.sol";
import {IScribeOptimistic} from "./IScribeOptimistic.sol";
import {IScribe} from "./IScribe.sol";
import {Scribe} from "./Scribe.sol";
import {LibSchnorr} from "./libs/LibSchnorr.sol";
import {LibSecp256k1} from "./libs/LibSecp256k1.sol";
/**
* @title ScribeOptimistic
*
* @notice Scribe based optimistic Oracle with onchain fault resolution
*/
contract ScribeOptimistic is IScribeOptimistic, Scribe {
using LibSchnorr for LibSecp256k1.Point;
using LibSecp256k1 for LibSecp256k1.Point;
using LibSecp256k1 for LibSecp256k1.Point[];
// -- Storage --
/// @inheritdoc IScribeOptimistic
uint16 public opChallengePeriod;
/// @inheritdoc IScribeOptimistic
uint8 public opFeedId;
/// @dev The truncated hash of the schnorrData provided in last opPoke.
/// Binds the opFeed to their schnorrData.
uint160 internal _schnorrDataCommitment;
/// @dev The age of the pokeData provided in last opPoke.
/// Ensures Schnorr signature can be verified after setting pokeData's
/// age to block.timestamp during opPoke.
uint32 internal _originalOpPokeDataAge;
/// @dev opScribe's last opPoke'd value and corresponding age.
PokeData internal _opPokeData;
/// @inheritdoc IScribeOptimistic
uint public maxChallengeReward;
// -- Constructor and Receive Functionality --
constructor(address initialAuthed, bytes32 wat_)
payable
Scribe(initialAuthed, wat_)
{
// Note to have a non-zero challenge period.
_setOpChallengePeriod(20 minutes);
// Set maxChallengeReward to type(uint).max.
_setMaxChallengeRewards(type(uint).max);
}
receive() external payable {}
// -- Poke Functionality --
function _poke(PokeData calldata pokeData, SchnorrData calldata schnorrData)
internal
override(Scribe)
{
// Load current age from storage.
uint32 age = _currentPokeData().age;
// Revert if pokeData stale.
if (pokeData.age <= age) {
revert StaleMessage(pokeData.age, age);
}
// Revert if pokeData from the future.
if (pokeData.age > uint32(block.timestamp)) {
revert FutureMessage(pokeData.age, uint32(block.timestamp));
}
// Revert if schnorrData does not prove integrity of pokeData.
bool ok;
bytes memory err;
// forgefmt: disable-next-item
(ok, err) = _verifySchnorrSignature(
constructPokeMessage(pokeData),
schnorrData
);
if (!ok) {
_revert(err);
}
// Store pokeData's val in _pokeData storage and set its age to now.
_pokeData.val = pokeData.val;
_pokeData.age = uint32(block.timestamp);
emit Poked(msg.sender, pokeData.val, pokeData.age);
}
// -- opPoke Functionality --
/// @dev Optimized function selector: 0x00000000.
/// Note that this function is _not_ defined via the IScribeOptimistic
/// interface and one should _not_ depend on it.
function opPoke_optimized_397084999(
PokeData calldata pokeData,
SchnorrData calldata schnorrData,
ECDSAData calldata ecdsaData
) external payable {
_opPoke(pokeData, schnorrData, ecdsaData);
}
/// @inheritdoc IScribeOptimistic
function opPoke(
PokeData calldata pokeData,
SchnorrData calldata schnorrData,
ECDSAData calldata ecdsaData
) external {
_opPoke(pokeData, schnorrData, ecdsaData);
}
function _opPoke(
PokeData calldata pokeData,
SchnorrData calldata schnorrData,
ECDSAData calldata ecdsaData
) internal {
// Revert if schnorrData.feedIds' length is higher than bar's maximum
// value.
//
// Note that this prevents opPoke's with such big schnorrData that it
// becomes economically unprofitable to challenge them.
if (schnorrData.feedIds.length > type(uint8).max) {
revert BarNotReached(type(uint8).max, bar);
}
// Load _opPokeData from storage.
PokeData memory opPokeData = _opPokeData;
// Decide whether _opPokeData finalized.
bool opPokeDataFinalized =
opPokeData.age + opChallengePeriod <= uint32(block.timestamp);
// Revert if _opPokeData not finalized, i.e. still challengeable.
if (!opPokeDataFinalized) {
revert InChallengePeriod();
}
// Decide current age.
uint32 age =
opPokeData.age > _pokeData.age ? opPokeData.age : _pokeData.age;
// Revert if pokeData stale.
if (pokeData.age <= age) {
revert StaleMessage(pokeData.age, age);
}
// Revert if pokeData from the future.
if (pokeData.age > uint32(block.timestamp)) {
revert FutureMessage(pokeData.age, uint32(block.timestamp));
}
// Recover ECDSA signer.
address signer = ecrecover(
_constructOpPokeMessage(pokeData, schnorrData),
ecdsaData.v,
ecdsaData.r,
ecdsaData.s
);
// Compute feed id of signer.
uint8 feedId = uint8(uint(uint160(signer)) >> 152);
// Revert if signer not feed.
// assert(_pubKeys[feedId].toAddress() != address(0));
if (_pubKeys[feedId].toAddress() != signer) {
revert SignerNotFeed(signer);
}
// Store the feed's id as opFeedId and bind them to their provided
// schnorrData.
opFeedId = feedId;
_schnorrDataCommitment = uint160(
uint(
keccak256(
abi.encodePacked(
schnorrData.signature,
schnorrData.commitment,
schnorrData.feedIds
)
)
)
);
// If _opPokeData provides the current val, move it to the _pokeData
// storage to free _opPokeData storage. If the current val is provided
// by _pokeData, _opPokeData can be overwritten.
if (opPokeData.age == age) {
_pokeData = opPokeData;
}
// Store provided pokeData's val in _opPokeData storage.
_opPokeData.val = pokeData.val;
_opPokeData.age = uint32(block.timestamp);
// Store pokeData's age to allow recreating original pokeMessage.
_originalOpPokeDataAge = pokeData.age;
emit OpPoked(msg.sender, signer, schnorrData, pokeData);
}
/// @inheritdoc IScribeOptimistic
function opChallenge(SchnorrData calldata schnorrData)
external
returns (bool)
{
// Load _opPokeData from storage.
PokeData memory opPokeData = _opPokeData;
// Decide whether _opPokeData is challengeable.
bool opPokeDataChallengeable =
opPokeData.age + opChallengePeriod > uint32(block.timestamp);
// Revert if _opPokeData is not challengeable.
if (!opPokeDataChallengeable) {
revert NoOpPokeToChallenge();
}
// Construct truncated hash from schnorrData.
uint160 schnorrDataHash = uint160(
uint(
keccak256(
abi.encodePacked(
schnorrData.signature,
schnorrData.commitment,
schnorrData.feedIds
)
)
)
);
// Revert if schnorrDataHash does not match _schnorrDataCommitment.
if (schnorrDataHash != _schnorrDataCommitment) {
revert SchnorrDataMismatch(schnorrDataHash, _schnorrDataCommitment);
}
// Decide whether schnorrData verifies opPokeData.
bool ok;
bytes memory err;
(ok, err) = _verifySchnorrSignature(
constructPokeMessage(
PokeData({val: opPokeData.val, age: _originalOpPokeDataAge})
),
schnorrData
);
if (ok) {
// Decide whether _opPokeData stale already.
bool opPokeDataStale = opPokeData.age <= _pokeData.age;
// If _opPokeData not stale, finalize it by moving it to the
// _pokeData storage. Note to also clean the _opPokeData storage to
// not block new opPoke's as _opPokeData's challenge period not over.
if (!opPokeDataStale) {
_pokeData = _opPokeData;
delete _opPokeData;
}
emit OpPokeChallengedUnsuccessfully(msg.sender, schnorrData);
} else {
// Drop opFeed and delete invalid _opPokeData.
// Note to use address(this) as caller to indicate self-governed
// drop of feed.
_drop(address(this), opFeedId);
// Pay ETH reward to challenger.
uint reward = challengeReward();
if (_sendETH(payable(msg.sender), reward)) {
emit OpChallengeRewardPaid(msg.sender, schnorrData, reward);
}
emit OpPokeChallengedSuccessfully(msg.sender, schnorrData, err);
}
// Return whether challenging was successful.
return !ok;
}
/// @inheritdoc IScribeOptimistic
function constructOpPokeMessage(
PokeData calldata pokeData,
SchnorrData calldata schnorrData
) external view returns (bytes32) {
return _constructOpPokeMessage(pokeData, schnorrData);
}
function _constructOpPokeMessage(
PokeData calldata pokeData,
SchnorrData calldata schnorrData
) internal view returns (bytes32) {
return keccak256(
abi.encodePacked(
"\x19Ethereum Signed Message:\n32",
keccak256(
abi.encodePacked(
wat,
pokeData.val,
pokeData.age,
schnorrData.signature,
schnorrData.commitment,
schnorrData.feedIds
)
)
)
);
}
// -- Toll'ed Read Functionality --
// - IChronicle Functions
/// @inheritdoc IChronicle
/// @dev Only callable by toll'ed address.
function read()
external
view
override(IChronicle, Scribe)
toll
returns (uint)
{
uint val = _currentPokeData().val;
require(val != 0);
return val;
}
/// @inheritdoc IChronicle
/// @dev Only callable by toll'ed address.
function tryRead()
external
view
override(IChronicle, Scribe)
toll
returns (bool, uint)
{
uint val = _currentPokeData().val;
return (val != 0, val);
}
/// @inheritdoc IChronicle
/// @dev Only callable by toll'ed address.
function readWithAge()
external
view
override(IChronicle, Scribe)
toll
returns (uint, uint)
{
PokeData memory pokeData = _currentPokeData();
require(pokeData.val != 0);
return (pokeData.val, pokeData.age);
}
/// @inheritdoc IChronicle
/// @dev Only callable by toll'ed address.
function tryReadWithAge()
external
view
override(IChronicle, Scribe)
toll
returns (bool, uint, uint)
{
PokeData memory pokeData = _currentPokeData();
return pokeData.val != 0
? (true, pokeData.val, pokeData.age)
: (false, 0, 0);
}
// - MakerDAO Compatibility
/// @inheritdoc IScribe
/// @dev Only callable by toll'ed address.
function peek()
external
view
override(IScribe, Scribe)
toll
returns (uint, bool)
{
uint val = _currentPokeData().val;
return (val, val != 0);
}
/// @inheritdoc IScribe
/// @dev Only callable by toll'ed address.
function peep()
external
view
override(IScribe, Scribe)
toll
returns (uint, bool)
{
uint val = _currentPokeData().val;
return (val, val != 0);
}
// - Chainlink Compatibility
/// @inheritdoc IScribe
/// @dev Only callable by toll'ed address.
function latestRoundData()
external
view
override(IScribe, Scribe)
toll
returns (
uint80 roundId,
int answer,
uint startedAt,
uint updatedAt,
uint80 answeredInRound
)
{
PokeData memory pokeData = _currentPokeData();
roundId = 1;
answer = int(uint(pokeData.val));
// assert(uint(answer) == uint(pokeData.val));
startedAt = 0;
updatedAt = pokeData.age;
answeredInRound = roundId;
}
/// @inheritdoc IScribe
/// @dev Only callable by toll'ed address.
function latestAnswer()
external
view
virtual
override(IScribe, Scribe)
toll
returns (int)
{
uint val = _currentPokeData().val;
return int(val);
}
function _currentPokeData() internal view returns (PokeData memory) {
// Load pokeData slots from storage.
PokeData memory pokeData = _pokeData;
PokeData memory opPokeData = _opPokeData;
// Decide whether _opPokeData is finalized.
bool opPokeDataFinalized =
opPokeData.age + opChallengePeriod <= uint32(block.timestamp);
// Decide and return current pokeData.
if (opPokeDataFinalized && opPokeData.age > pokeData.age) {
return opPokeData;
} else {
return pokeData;
}
}
// -- Auth'ed Functionality --
/// @inheritdoc IScribeOptimistic
function setOpChallengePeriod(uint16 opChallengePeriod_) external auth {
_setOpChallengePeriod(opChallengePeriod_);
}
function _setOpChallengePeriod(uint16 opChallengePeriod_) internal {
require(opChallengePeriod_ != 0);
if (opChallengePeriod != opChallengePeriod_) {
emit OpChallengePeriodUpdated(
msg.sender, opChallengePeriod, opChallengePeriod_
);
opChallengePeriod = opChallengePeriod_;
}
_afterAuthedAction();
}
function _drop(address caller, uint8 feedId) internal override(Scribe) {
super._drop(caller, feedId);
_afterAuthedAction();
}
function _setBar(uint8 bar_) internal override(Scribe) {
super._setBar(bar_);
_afterAuthedAction();
}
/// @dev Ensures an auth'ed configuration update does not enable
/// successfully challenging a prior to the update valid opPoke.
///
/// @custom:invariant Val is provided if _pokeData prior to the tx is
/// non-empty. Note that this is the case if there were
/// at least two valid calls ∊ {poke, opPoke}.
/// preTx(_pokeData) != (0, 0)
/// → (true, _) = postTx(tryRead())
/// @custom:invariant Val is provided via _pokeData after the tx.
/// postTx(readWithAge()) = postTx(_pokeData)
/// @custom:invariant _opPokeData is empty after the tx.
/// (0, 0) = postTx(_opPokeData)
function _afterAuthedAction() internal {
// Do nothing during deployment.
if (address(this).code.length == 0) return;
// Load _opPokeData from storage.
PokeData memory opPokeData = _opPokeData;
// Decide whether _opPokeData is finalized.
//
// Note that the decision is based on the possibly updated
// opChallengePeriod! This means a once finalized opPoke may be dropped
// if the opChallengePeriod was increased.
bool opPokeDataFinalized =
opPokeData.age + opChallengePeriod <= uint32(block.timestamp);
// Note that _opPokeData is in one of the following three states:
// 1. finalized and newer than _pokeData
// 2. finalized but older than _pokeData
// 3. non-finalized
//
// Note that for state 1 _opPokeData can be moved to _pokeData and
// afterwards deleted.
// Note that for state 2 and 3 _opPokeData can be directly deleted.
// If _opPokeData is in state 1, move it to the _pokeData storage.
//
// Note that this ensures the current value is provided via _pokeData.
if (opPokeDataFinalized && opPokeData.age > _pokeData.age) {
_pokeData = opPokeData;
}
// If _opPokeData is in state 3, emit event to indicate a possibly valid
// opPoke was dropped.
if (!opPokeDataFinalized) {
emit OpPokeDataDropped(msg.sender, opPokeData);
}
// Now it is safe to delete _opPokeData.
delete _opPokeData;
// Note that the current value is now provided via _pokeData.
// assert(_currentPokeData().val == _pokeData.val);
// assert(_currentPokeData().age == _pokeData.age);
// Set the age of contract's current value to block.timestamp.
//
// Note that this ensures an already signed, but now possibly invalid
// with regards to contract configurations, opPoke payload cannot be
// opPoke'd anymore.
_pokeData.age = uint32(block.timestamp);
}
// -- Searcher Incentivization Logic --
/// @inheritdoc IScribeOptimistic
function challengeReward() public view returns (uint) {
uint balance = address(this).balance;
return balance > maxChallengeReward ? maxChallengeReward : balance;
}
/// @inheritdoc IScribeOptimistic
function setMaxChallengeReward(uint maxChallengeReward_) external auth {
_setMaxChallengeRewards(maxChallengeReward_);
}
function _setMaxChallengeRewards(uint maxChallengeReward_) internal {
if (maxChallengeReward != maxChallengeReward_) {
emit MaxChallengeRewardUpdated(
msg.sender, maxChallengeReward, maxChallengeReward_
);
maxChallengeReward = maxChallengeReward_;
}
}
function _sendETH(address payable to, uint amount)
internal
returns (bool)
{
(bool ok,) = to.call{value: amount}("");
return ok;
}
}
/**
* @dev Contract overwrite to deploy contract instances with specific naming.
*
* For more info, see docs/Deployment.md.
*/
contract Chronicle_BASE_QUOTE_COUNTER is ScribeOptimistic {
// @todo ^^^^ ^^^^^ ^^^^^^^ Adjust name of Scribe instance.
constructor(address initialAuthed, bytes32 wat_)
ScribeOptimistic(initialAuthed, wat_)
{}
}
// SPDX-License-Identifier: BUSL-1.1
pragma solidity ^0.8.16;
import {IScribeOptimisticLST} from "./IScribeOptimisticLST.sol";
import {IRateSource} from "./external_/interfaces/IRateSource.sol";
import {ScribeOptimistic} from "../ScribeOptimistic.sol";
/**
* @title ScribeOptimisticLST
*
* @notice Schnorr based optimistic Oracle with onchain fault resolution for
* Liquid Staking Token APRs.
*/
contract ScribeOptimisticLST is IScribeOptimisticLST, ScribeOptimistic {
constructor(address initialAuthed_, bytes32 wat_)
ScribeOptimistic(initialAuthed_, wat_)
{}
/// @inheritdoc IRateSource
/// @dev Only callable by toll'ed address.
function getAPR() external view toll returns (uint) {
// Note that function does not revert if val is zero.
return _currentPokeData().val;
}
}
/**
* @dev Contract overwrite to deploy contract instances with specific naming.
*
* For more info, see docs/Deployment.md.
*/
contract Chronicle_LIDO_LST_2DAYS_1 is ScribeOptimisticLST {
constructor(address initialAuthed, bytes32 wat_)
ScribeOptimisticLST(initialAuthed, wat_)
{}
}
// SPDX-License-Identifier: MIT
pragma solidity ^0.8.16;
import {IToll} from "./IToll.sol";
/**
* @title Toll Module
*
* @notice "Toll paid, we kiss - but dissension looms, maybe diss?"
*
* @dev The `Toll` contract module provides a basic access control mechanism,
* where a set of addresses are granted access to protected functions.
* These addresses are said the be _tolled_.
*
* Initially, no address is tolled. Through the `kiss(address)` and
* `diss(address)` functions, auth'ed callers are able to toll/de-toll
* addresses. Authentication for these functions is defined via the
* downstream implemented `toll_auth()` function.
*
* This module is used through inheritance. It will make available the
* modifier `toll`, which can be applied to functions to restrict their
* use to only tolled callers.
*/
abstract contract Toll is IToll {
/// @dev Mapping storing whether address is tolled.
/// @custom:invariant Image of mapping is {0, 1}.
/// ∀x ∊ Address: _buds[x] ∊ {0, 1}
/// @custom:invariant Only functions `kiss` and `diss` may mutate the mapping's state.
/// ∀x ∊ Address: preTx(_buds[x]) != postTx(_buds[x])
/// → (msg.sig == "kiss" ∨ msg.sig == "diss")
/// @custom:invariant Mapping's state may only be mutated by authenticated caller.
/// ∀x ∊ Address: preTx(_buds[x]) != postTx(_buds[x])
/// → toll_auth()
mapping(address => uint) private _buds;
/// @dev List of addresses possibly being tolled.
/// @dev May contain duplicates.
/// @dev May contain addresses not being tolled anymore.
/// @custom:invariant Every address being tolled once is element of the list.
/// ∀x ∊ Address: tolled(x) → x ∊ _budsTouched
address[] private _budsTouched;
/// @dev Ensures caller is tolled.
modifier toll() {
assembly ("memory-safe") {
// Compute slot of _buds[msg.sender].
mstore(0x00, caller())
mstore(0x20, _buds.slot)
let slot := keccak256(0x00, 0x40)
// Revert if caller not tolled.
let isTolled := sload(slot)
if iszero(isTolled) {
// Store selector of `NotTolled(address)`.
mstore(0x00, 0xd957b595)
// Store msg.sender.
mstore(0x20, caller())
// Revert with (offset, size).
revert(0x1c, 0x24)
}
}
_;
}
/// @dev Reverts if caller not allowed to access protected function.
/// @dev Must be implemented in downstream contract.
function toll_auth() internal virtual;
/// @inheritdoc IToll
function kiss(address who) external {
toll_auth();
if (_buds[who] == 1) return;
_buds[who] = 1;
_budsTouched.push(who);
emit TollGranted(msg.sender, who);
}
/// @inheritdoc IToll
function diss(address who) external {
toll_auth();
if (_buds[who] == 0) return;
_buds[who] = 0;
emit TollRenounced(msg.sender, who);
}
/// @inheritdoc IToll
function tolled(address who) public view returns (bool) {
return _buds[who] == 1;
}
/// @inheritdoc IToll
/// @custom:invariant Only contains tolled addresses.
/// ∀x ∊ tolled(): _tolled[x]
/// @custom:invariant Contains all tolled addresses.
/// ∀x ∊ Address: _tolled[x] == 1 → x ∊ tolled()
function tolled() public view returns (address[] memory) {
// Initiate array with upper limit length.
address[] memory budsList = new address[](_budsTouched.length);
// Iterate through all possible tolled addresses.
uint ctr;
for (uint i; i < budsList.length; i++) {
// Add address only if still tolled.
if (_buds[_budsTouched[i]] == 1) {
budsList[ctr++] = _budsTouched[i];
}
}
// Set length of array to number of tolled addresses actually included.
assembly ("memory-safe") {
mstore(budsList, ctr)
}
return budsList;
}
/// @inheritdoc IToll
function bud(address who) public view returns (uint) {
return _buds[who];
}
}
{
"compilationTarget": {
"src/extensions/ScribeOptimisticLST.sol": "Chronicle_LIDO_LST_2DAYS_1"
},
"evmVersion": "london",
"libraries": {},
"metadata": {
"bytecodeHash": "ipfs"
},
"optimizer": {
"enabled": true,
"runs": 10000
},
"remappings": [
":@script/chronicle-std/=lib/greenhouse/lib/chronicle-std/script/",
":chronicle-std/=lib/chronicle-std/src/",
":ds-test/=lib/forge-std/lib/ds-test/src/",
":forge-std/=lib/forge-std/src/",
":greenhouse/=lib/greenhouse/src/",
"lib/chronicle-std:ds-test/=lib/chronicle-std/lib/forge-std/lib/ds-test/src/",
"lib/chronicle-std:forge-std/=lib/chronicle-std/lib/forge-std/src/",
"lib/chronicle-std:src/=lib/chronicle-std/src/"
],
"viaIR": true
}
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