AccessControlledOffchainAggregator Deployment: Difference between revisions
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You can try to import the contract from github, but I've had mixed results from that. | You can try to import the contract from github, but I've had mixed results from that. | ||
// SPDX-License-Identifier: MIT | The <code>AccessControlledOffchainAggregator.sol</code> source code is available in the drop down below: | ||
<div class="toccolours mw-collapsible mw-collapsed"> | |||
==== '''AccessControlledOffchainAggregator Source Code''' (Expand option is to the right --->) ==== | |||
<div class="mw-collapsible-content"><pre style="white-space:pre-wrap; width:100%; border:1px solid lightgrey; background:black; color:white;">// SPDX-License-Identifier: MIT | |||
pragma solidity ^0.7.0; | |||
// AccessControllerInterface.sol | |||
interface AccessControllerInterface { | |||
function hasAccess(address user, bytes calldata data) external view returns (bool); | |||
} | |||
// AggregatorValidatorInterface.sol | |||
interface AggregatorValidatorInterface { | |||
function validate( | |||
uint256 previousRoundId, | |||
int256 previousAnswer, | |||
uint256 currentRoundId, | |||
int256 currentAnswer | |||
) external returns (bool); | |||
} | |||
// LinkTokenInterface.sol | |||
interface LinkTokenInterface { | |||
function allowance(address owner, address spender) external view returns (uint256 remaining); | |||
function approve(address spender, uint256 value) external returns (bool success); | |||
function balanceOf(address owner) external view returns (uint256 balance); | |||
function decimals() external view returns (uint8 decimalPlaces); | |||
function decreaseApproval(address spender, uint256 addedValue) external returns (bool success); | |||
function increaseApproval(address spender, uint256 subtractedValue) external; | |||
function name() external view returns (string memory tokenName); | |||
function symbol() external view returns (string memory tokenSymbol); | |||
function totalSupply() external view returns (uint256 totalTokensIssued); | |||
function transfer(address to, uint256 value) external returns (bool success); | |||
function transferAndCall(address to, uint256 value, bytes calldata data) external returns (bool success); | |||
function transferFrom(address from, address to, uint256 value) external returns (bool success); | |||
} | |||
// Owned.sol | |||
/** | |||
* @title The Owned contract | |||
* @notice A contract with helpers for basic contract ownership. | |||
*/ | |||
contract Owned { | |||
address payable public owner; | |||
address private pendingOwner; | |||
event OwnershipTransferRequested( | |||
address indexed from, | |||
address indexed to | |||
); | |||
event OwnershipTransferred( | |||
address indexed from, | |||
address indexed to | |||
); | |||
constructor() { | |||
owner = msg.sender; | |||
} | |||
/** | |||
* @dev Allows an owner to begin transferring ownership to a new address, | |||
* pending. | |||
*/ | |||
function transferOwnership(address _to) | |||
external | |||
onlyOwner() | |||
{ | |||
pendingOwner = _to; | |||
emit OwnershipTransferRequested(owner, _to); | |||
} | |||
/** | |||
* @dev Allows an ownership transfer to be completed by the recipient. | |||
*/ | |||
function acceptOwnership() | |||
external | |||
{ | |||
require(msg.sender == pendingOwner, "Must be proposed owner"); | |||
address oldOwner = owner; | |||
owner = msg.sender; | |||
pendingOwner = address(0); | |||
emit OwnershipTransferred(oldOwner, msg.sender); | |||
} | |||
/** | |||
* @dev Reverts if called by anyone other than the contract owner. | |||
*/ | |||
modifier onlyOwner() { | |||
require(msg.sender == owner, "Only callable by owner"); | |||
_; | |||
} | |||
} | |||
// TypeAndVersionInterface.sol | |||
abstract contract TypeAndVersionInterface{ | |||
function typeAndVersion() | |||
external | |||
pure | |||
virtual | |||
returns (string memory); | |||
} | |||
// AggregatorInterface.sol | |||
interface AggregatorInterface { | |||
function latestAnswer() external view returns (int256); | |||
function latestTimestamp() external view returns (uint256); | |||
function latestRound() external view returns (uint256); | |||
function getAnswer(uint256 roundId) external view returns (int256); | |||
function getTimestamp(uint256 roundId) external view returns (uint256); | |||
event AnswerUpdated(int256 indexed current, uint256 indexed roundId, uint256 updatedAt); | |||
event NewRound(uint256 indexed roundId, address indexed startedBy, uint256 startedAt); | |||
} | |||
// AggregatorV3Interface.sol | |||
interface AggregatorV3Interface { | |||
function decimals() external view returns (uint8); | |||
function description() external view returns (string memory); | |||
function version() external view returns (uint256); | |||
// getRoundData and latestRoundData should both raise "No data present" | |||
// if they do not have data to report, instead of returning unset values | |||
// which could be misinterpreted as actual reported values. | |||
function getRoundData(uint80 _roundId) | |||
external | |||
view | |||
returns ( | |||
uint80 roundId, | |||
int256 answer, | |||
uint256 startedAt, | |||
uint256 updatedAt, | |||
uint80 answeredInRound | |||
); | |||
function latestRoundData() | |||
external | |||
view | |||
returns ( | |||
uint80 roundId, | |||
int256 answer, | |||
uint256 startedAt, | |||
uint256 updatedAt, | |||
uint80 answeredInRound | |||
); | |||
} | |||
// SimpleWriteAccessController.sol | |||
/** | |||
* @title SimpleWriteAccessController | |||
* @notice Gives access to accounts explicitly added to an access list by the | |||
* controller's owner. | |||
* @dev does not make any special permissions for externally, see | |||
* SimpleReadAccessController for that. | |||
*/ | |||
contract SimpleWriteAccessController is AccessControllerInterface, Owned { | |||
bool public checkEnabled; | |||
mapping(address => bool) internal accessList; | |||
event AddedAccess(address user); | |||
event RemovedAccess(address user); | |||
event CheckAccessEnabled(); | |||
event CheckAccessDisabled(); | |||
constructor() | |||
{ | |||
checkEnabled = true; | |||
} | |||
/** | |||
* @notice Returns the access of an address | |||
* @param _user The address to query | |||
*/ | |||
function hasAccess( | |||
address _user, | |||
bytes memory | |||
) | |||
public | |||
view | |||
virtual | |||
override | |||
returns (bool) | |||
{ | |||
return accessList[_user] || !checkEnabled; | |||
} | |||
/** | |||
* @notice Adds an address to the access list | |||
* @param _user The address to add | |||
*/ | |||
function addAccess(address _user) external onlyOwner() { | |||
addAccessInternal(_user); | |||
} | |||
function addAccessInternal(address _user) internal { | |||
if (!accessList[_user]) { | |||
accessList[_user] = true; | |||
emit AddedAccess(_user); | |||
} | |||
} | |||
/** | |||
* @notice Removes an address from the access list | |||
* @param _user The address to remove | |||
*/ | |||
function removeAccess(address _user) | |||
external | |||
onlyOwner() | |||
{ | |||
if (accessList[_user]) { | |||
accessList[_user] = false; | |||
emit RemovedAccess(_user); | |||
} | |||
} | |||
/** | |||
* @notice makes the access check enforced | |||
*/ | |||
function enableAccessCheck() | |||
external | |||
onlyOwner() | |||
{ | |||
if (!checkEnabled) { | |||
checkEnabled = true; | |||
emit CheckAccessEnabled(); | |||
} | |||
} | |||
/** | |||
* @notice makes the access check unenforced | |||
*/ | |||
function disableAccessCheck() | |||
external | |||
onlyOwner() | |||
{ | |||
if (checkEnabled) { | |||
checkEnabled = false; | |||
emit CheckAccessDisabled(); | |||
} | |||
} | |||
/** | |||
* @dev reverts if the caller does not have access | |||
*/ | |||
modifier checkAccess() { | |||
require(hasAccess(msg.sender, msg.data), "No access"); | |||
_; | |||
} | |||
} | |||
// SimpleReadAccessController.sol | |||
/** | |||
* @title SimpleReadAccessController | |||
* @notice Gives access to: | |||
* - any externally owned account (note that offchain actors can always read | |||
* any contract storage regardless of onchain access control measures, so this | |||
* does not weaken the access control while improving usability) | |||
* - accounts explicitly added to an access list | |||
* @dev SimpleReadAccessController is not suitable for access controlling writes | |||
* since it grants any externally owned account access! See | |||
* SimpleWriteAccessController for that. | |||
*/ | |||
contract SimpleReadAccessController is SimpleWriteAccessController { | |||
/** | |||
* @notice Returns the access of an address | |||
* @param _user The address to query | |||
*/ | |||
function hasAccess( | |||
address _user, | |||
bytes memory _calldata | |||
) | |||
public | |||
view | |||
virtual | |||
override | |||
returns (bool) | |||
{ | |||
return super.hasAccess(_user, _calldata) || _user == tx.origin; | |||
} | |||
} | |||
// AggregatorV2V3Interface.sol | |||
interface AggregatorV2V3Interface is AggregatorInterface, AggregatorV3Interface | |||
{ | |||
} | |||
// OffchainAggregatorBilling.sol | |||
/** | |||
* @notice tracks administration of oracle-reward and gas-reimbursement parameters. | |||
* @dev | |||
* If you read or change this, be sure to read or adjust the comments. They | |||
* track the units of the values under consideration, and are crucial to | |||
* the readability of the operations it specifies. | |||
* @notice | |||
* Trust Model: | |||
* Nothing in this contract prevents a billing admin from setting insane | |||
* values for the billing parameters in setBilling. Oracles | |||
* participating in this contract should regularly check that the | |||
* parameters make sense. Similarly, the outstanding obligations of this | |||
* contract to the oracles can exceed the funds held by the contract. | |||
* Oracles participating in this contract should regularly check that it | |||
* holds sufficient funds and stop interacting with it if funding runs | |||
* out. | |||
* This still leaves oracles with some risk due to TOCTOU issues. | |||
* However, since the sums involved are pretty small (Ethereum | |||
* transactions aren't that expensive in the end) and an oracle would | |||
* likely stop participating in a contract it repeatedly lost money on, | |||
* this risk is deemed acceptable. Oracles should also regularly | |||
* withdraw any funds in the contract to prevent issues where the | |||
* contract becomes underfunded at a later time, and different oracles | |||
* are competing for the left-over funds. | |||
* Finally, note that any change to the set of oracles or to the billing | |||
* parameters will trigger payout of all oracles first (using the old | |||
* parameters), a billing admin cannot take away funds that are already | |||
* marked for payment. | |||
*/ | |||
contract OffchainAggregatorBilling is Owned { | |||
// Maximum number of oracles the offchain reporting protocol is designed for | |||
uint256 constant internal maxNumOracles = 31; | |||
// Parameters for oracle payments | |||
struct Billing { | |||
// Highest compensated gas price, in ETH-gwei uints | |||
uint32 maximumGasPrice; | |||
// If gas price is less (in ETH-gwei units), transmitter gets half the savings | |||
uint32 reasonableGasPrice; | |||
// Pay transmitter back this much LINK per unit eth spent on gas | |||
// (1e-6LINK/ETH units) | |||
uint32 microLinkPerEth; | |||
// Fixed LINK reward for each observer, in LINK-gwei units | |||
uint32 linkGweiPerObservation; | |||
// Fixed reward for transmitter, in linkGweiPerObservation units | |||
uint32 linkGweiPerTransmission; | |||
} | |||
Billing internal s_billing; | |||
/** | |||
* @return LINK token contract used for billing | |||
*/ | |||
LinkTokenInterface immutable public LINK; | |||
AccessControllerInterface internal s_billingAccessController; | |||
// ith element is number of observation rewards due to ith process, plus one. | |||
// This is expected to saturate after an oracle has submitted 65,535 | |||
// observations, or about 65535/(3*24*20) = 45 days, given a transmission | |||
// every 3 minutes. | |||
// | |||
// This is always one greater than the actual value, so that when the value is | |||
// reset to zero, we don't end up with a zero value in storage (which would | |||
// result in a higher gas cost, the next time the value is incremented.) | |||
// Calculations using this variable need to take that offset into account. | |||
uint16[maxNumOracles] internal s_oracleObservationsCounts; | |||
// Addresses at which oracles want to receive payments, by transmitter address | |||
mapping (address /* transmitter */ => address /* payment address */) | |||
internal | |||
s_payees; | |||
// Payee addresses which must be approved by the owner | |||
mapping (address /* transmitter */ => address /* payment address */) | |||
internal | |||
s_proposedPayees; | |||
// LINK-wei-denominated reimbursements for gas used by transmitters. | |||
// | |||
// This is always one greater than the actual value, so that when the value is | |||
// reset to zero, we don't end up with a zero value in storage (which would | |||
// result in a higher gas cost, the next time the value is incremented.) | |||
// Calculations using this variable need to take that offset into account. | |||
// | |||
// Argument for overflow safety: | |||
// We have the following maximum intermediate values: | |||
// - 2**40 additions to this variable (epochAndRound is a uint40) | |||
// - 2**32 gas price in ethgwei/gas | |||
// - 1e9 ethwei/ethgwei | |||
// - 2**32 gas since the block gas limit is at ~20 million | |||
// - 2**32 (microlink/eth) | |||
// And we have 2**40 * 2**32 * 1e9 * 2**32 * 2**32 < 2**166 | |||
// (we also divide in some places, but that only makes the value smaller) | |||
// We can thus safely use uint256 intermediate values for the computation | |||
// updating this variable. | |||
uint256[maxNumOracles] internal s_gasReimbursementsLinkWei; | |||
// Used for s_oracles[a].role, where a is an address, to track the purpose | |||
// of the address, or to indicate that the address is unset. | |||
enum Role { | |||
// No oracle role has been set for address a | |||
Unset, | |||
// Signing address for the s_oracles[a].index'th oracle. I.e., report | |||
// signatures from this oracle should ecrecover back to address a. | |||
Signer, | |||
// Transmission address for the s_oracles[a].index'th oracle. I.e., if a | |||
// report is received by OffchainAggregator.transmit in which msg.sender is | |||
// a, it is attributed to the s_oracles[a].index'th oracle. | |||
Transmitter | |||
} | |||
struct Oracle { | |||
uint8 index; // Index of oracle in s_signers/s_transmitters | |||
Role role; // Role of the address which mapped to this struct | |||
} | |||
mapping (address /* signer OR transmitter address */ => Oracle) | |||
internal s_oracles; | |||
// s_signers contains the signing address of each oracle | |||
address[] internal s_signers; | |||
// s_transmitters contains the transmission address of each oracle, | |||
// i.e. the address the oracle actually sends transactions to the contract from | |||
address[] internal s_transmitters; | |||
uint256 constant private maxUint16 = (1 << 16) - 1; | |||
uint256 constant internal maxUint128 = (1 << 128) - 1; | |||
constructor( | |||
uint32 _maximumGasPrice, | |||
uint32 _reasonableGasPrice, | |||
uint32 _microLinkPerEth, | |||
uint32 _linkGweiPerObservation, | |||
uint32 _linkGweiPerTransmission, | |||
address _link, | |||
AccessControllerInterface _billingAccessController | |||
) | |||
{ | |||
setBillingInternal(_maximumGasPrice, _reasonableGasPrice, _microLinkPerEth, | |||
_linkGweiPerObservation, _linkGweiPerTransmission); | |||
setBillingAccessControllerInternal(_billingAccessController); | |||
LINK = LinkTokenInterface(_link); | |||
uint16[maxNumOracles] memory counts; // See s_oracleObservationsCounts docstring | |||
uint256[maxNumOracles] memory gas; // see s_gasReimbursementsLinkWei docstring | |||
for (uint8 i = 0; i < maxNumOracles; i++) { | |||
counts[i] = 1; | |||
gas[i] = 1; | |||
} | |||
s_oracleObservationsCounts = counts; | |||
s_gasReimbursementsLinkWei = gas; | |||
} | |||
/** | |||
* @notice emitted when billing parameters are set | |||
* @param maximumGasPrice highest gas price for which transmitter will be compensated | |||
* @param reasonableGasPrice transmitter will receive reward for gas prices under this value | |||
* @param microLinkPerEth reimbursement per ETH of gas cost, in 1e-6LINK units | |||
* @param linkGweiPerObservation reward to oracle for contributing an observation to a successfully transmitted report, in 1e-9LINK units | |||
* @param linkGweiPerTransmission reward to transmitter of a successful report, in 1e-9LINK units | |||
*/ | |||
event BillingSet( | |||
uint32 maximumGasPrice, | |||
uint32 reasonableGasPrice, | |||
uint32 microLinkPerEth, | |||
uint32 linkGweiPerObservation, | |||
uint32 linkGweiPerTransmission | |||
); | |||
function setBillingInternal( | |||
uint32 _maximumGasPrice, | |||
uint32 _reasonableGasPrice, | |||
uint32 _microLinkPerEth, | |||
uint32 _linkGweiPerObservation, | |||
uint32 _linkGweiPerTransmission | |||
) | |||
internal | |||
{ | |||
s_billing = Billing(_maximumGasPrice, _reasonableGasPrice, _microLinkPerEth, | |||
_linkGweiPerObservation, _linkGweiPerTransmission); | |||
emit BillingSet(_maximumGasPrice, _reasonableGasPrice, _microLinkPerEth, | |||
_linkGweiPerObservation, _linkGweiPerTransmission); | |||
} | |||
/** | |||
* @notice sets billing parameters | |||
* @param _maximumGasPrice highest gas price for which transmitter will be compensated | |||
* @param _reasonableGasPrice transmitter will receive reward for gas prices under this value | |||
* @param _microLinkPerEth reimbursement per ETH of gas cost, in 1e-6LINK units | |||
* @param _linkGweiPerObservation reward to oracle for contributing an observation to a successfully transmitted report, in 1e-9LINK units | |||
* @param _linkGweiPerTransmission reward to transmitter of a successful report, in 1e-9LINK units | |||
* @dev access control provided by billingAccessController | |||
*/ | |||
function setBilling( | |||
uint32 _maximumGasPrice, | |||
uint32 _reasonableGasPrice, | |||
uint32 _microLinkPerEth, | |||
uint32 _linkGweiPerObservation, | |||
uint32 _linkGweiPerTransmission | |||
) | |||
external | |||
{ | |||
AccessControllerInterface access = s_billingAccessController; | |||
require(msg.sender == owner || access.hasAccess(msg.sender, msg.data), | |||
"Only owner&billingAdmin can call"); | |||
payOracles(); | |||
setBillingInternal(_maximumGasPrice, _reasonableGasPrice, _microLinkPerEth, | |||
_linkGweiPerObservation, _linkGweiPerTransmission); | |||
} | |||
/** | |||
* @notice gets billing parameters | |||
* @param maximumGasPrice highest gas price for which transmitter will be compensated | |||
* @param reasonableGasPrice transmitter will receive reward for gas prices under this value | |||
* @param microLinkPerEth reimbursement per ETH of gas cost, in 1e-6LINK units | |||
* @param linkGweiPerObservation reward to oracle for contributing an observation to a successfully transmitted report, in 1e-9LINK units | |||
* @param linkGweiPerTransmission reward to transmitter of a successful report, in 1e-9LINK units | |||
*/ | |||
function getBilling() | |||
external | |||
view | |||
returns ( | |||
uint32 maximumGasPrice, | |||
uint32 reasonableGasPrice, | |||
uint32 microLinkPerEth, | |||
uint32 linkGweiPerObservation, | |||
uint32 linkGweiPerTransmission | |||
) | |||
{ | |||
Billing memory billing = s_billing; | |||
return ( | |||
billing.maximumGasPrice, | |||
billing.reasonableGasPrice, | |||
billing.microLinkPerEth, | |||
billing.linkGweiPerObservation, | |||
billing.linkGweiPerTransmission | |||
); | |||
} | |||
/** | |||
* @notice emitted when a new access-control contract is set | |||
* @param old the address prior to the current setting | |||
* @param current the address of the new access-control contract | |||
*/ | |||
event BillingAccessControllerSet(AccessControllerInterface old, AccessControllerInterface current); | |||
function setBillingAccessControllerInternal(AccessControllerInterface _billingAccessController) | |||
internal | |||
{ | |||
AccessControllerInterface oldController = s_billingAccessController; | |||
if (_billingAccessController != oldController) { | |||
s_billingAccessController = _billingAccessController; | |||
emit BillingAccessControllerSet( | |||
oldController, | |||
_billingAccessController | |||
); | |||
} | |||
} | |||
/** | |||
* @notice sets billingAccessController | |||
* @param _billingAccessController new billingAccessController contract address | |||
* @dev only owner can call this | |||
*/ | |||
function setBillingAccessController(AccessControllerInterface _billingAccessController) | |||
external | |||
onlyOwner | |||
{ | |||
setBillingAccessControllerInternal(_billingAccessController); | |||
} | |||
/** | |||
* @notice gets billingAccessController | |||
* @return address of billingAccessController contract | |||
*/ | |||
function billingAccessController() | |||
external | |||
view | |||
returns (AccessControllerInterface) | |||
{ | |||
return s_billingAccessController; | |||
} | |||
/** | |||
* @notice withdraws an oracle's payment from the contract | |||
* @param _transmitter the transmitter address of the oracle | |||
* @dev must be called by oracle's payee address | |||
*/ | |||
function withdrawPayment(address _transmitter) | |||
external | |||
{ | |||
require(msg.sender == s_payees[_transmitter], "Only payee can withdraw"); | |||
payOracle(_transmitter); | |||
} | |||
/** | |||
* @notice query an oracle's payment amount | |||
* @param _transmitter the transmitter address of the oracle | |||
*/ | |||
function owedPayment(address _transmitter) | |||
public | |||
view | |||
returns (uint256) | |||
{ | |||
Oracle memory oracle = s_oracles[_transmitter]; | |||
if (oracle.role == Role.Unset) { return 0; } | |||
Billing memory billing = s_billing; | |||
uint256 linkWeiAmount = | |||
uint256(s_oracleObservationsCounts[oracle.index] - 1) * | |||
uint256(billing.linkGweiPerObservation) * | |||
(1 gwei); | |||
linkWeiAmount += s_gasReimbursementsLinkWei[oracle.index] - 1; | |||
return linkWeiAmount; | |||
} | |||
/** | |||
* @notice emitted when an oracle has been paid LINK | |||
* @param transmitter address from which the oracle sends reports to the transmit method | |||
* @param payee address to which the payment is sent | |||
* @param amount amount of LINK sent | |||
*/ | |||
event OraclePaid(address transmitter, address payee, uint256 amount); | |||
// payOracle pays out _transmitter's balance to the corresponding payee, and zeros it out | |||
function payOracle(address _transmitter) | |||
internal | |||
{ | |||
Oracle memory oracle = s_oracles[_transmitter]; | |||
uint256 linkWeiAmount = owedPayment(_transmitter); | |||
if (linkWeiAmount > 0) { | |||
address payee = s_payees[_transmitter]; | |||
// Poses no re-entrancy issues, because LINK.transfer does not yield | |||
// control flow. | |||
require(LINK.transfer(payee, linkWeiAmount), "insufficient funds"); | |||
s_oracleObservationsCounts[oracle.index] = 1; // "zero" the counts. see var's docstring | |||
s_gasReimbursementsLinkWei[oracle.index] = 1; // "zero" the counts. see var's docstring | |||
emit OraclePaid(_transmitter, payee, linkWeiAmount); | |||
} | |||
} | |||
// payOracles pays out all transmitters, and zeros out their balances. | |||
// | |||
// It's much more gas-efficient to do this as a single operation, to avoid | |||
// hitting storage too much. | |||
function payOracles() | |||
internal | |||
{ | |||
Billing memory billing = s_billing; | |||
uint16[maxNumOracles] memory observationsCounts = s_oracleObservationsCounts; | |||
uint256[maxNumOracles] memory gasReimbursementsLinkWei = | |||
s_gasReimbursementsLinkWei; | |||
address[] memory transmitters = s_transmitters; | |||
for (uint transmitteridx = 0; transmitteridx < transmitters.length; transmitteridx++) { | |||
uint256 reimbursementAmountLinkWei = gasReimbursementsLinkWei[transmitteridx] - 1; | |||
uint256 obsCount = observationsCounts[transmitteridx] - 1; | |||
uint256 linkWeiAmount = | |||
obsCount * uint256(billing.linkGweiPerObservation) * (1 gwei) + reimbursementAmountLinkWei; | |||
if (linkWeiAmount > 0) { | |||
address payee = s_payees[transmitters[transmitteridx]]; | |||
// Poses no re-entrancy issues, because LINK.transfer does not yield | |||
// control flow. | |||
require(LINK.transfer(payee, linkWeiAmount), "insufficient funds"); | |||
observationsCounts[transmitteridx] = 1; // "zero" the counts. | |||
gasReimbursementsLinkWei[transmitteridx] = 1; // "zero" the counts. | |||
emit OraclePaid(transmitters[transmitteridx], payee, linkWeiAmount); | |||
} | |||
} | |||
// "Zero" the accounting storage variables | |||
s_oracleObservationsCounts = observationsCounts; | |||
s_gasReimbursementsLinkWei = gasReimbursementsLinkWei; | |||
} | |||
function oracleRewards( | |||
bytes memory observers, | |||
uint16[maxNumOracles] memory observations | |||
) | |||
internal | |||
pure | |||
returns (uint16[maxNumOracles] memory) | |||
{ | |||
// reward each observer-participant with the observer reward | |||
for (uint obsIdx = 0; obsIdx < observers.length; obsIdx++) { | |||
uint8 observer = uint8(observers[obsIdx]); | |||
observations[observer] = saturatingAddUint16(observations[observer], 1); | |||
} | |||
return observations; | |||
} | |||
// This value needs to change if maxNumOracles is increased, or the accounting | |||
// calculations at the bottom of reimburseAndRewardOracles change. | |||
// | |||
// To recalculate it, run the profiler as described in | |||
// ../../profile/README.md, and add up the gas-usage values reported for the | |||
// lines in reimburseAndRewardOracles following the "gasLeft = gasleft()" | |||
// line. E.g., you will see output like this: | |||
// | |||
// 7 uint256 gasLeft = gasleft(); | |||
// 29 uint256 gasCostEthWei = transmitterGasCostEthWei( | |||
// 9 uint256(initialGas), | |||
// 3 gasPrice, | |||
// 3 callDataGasCost, | |||
// 3 gasLeft | |||
// . | |||
// . | |||
// . | |||
// 59 uint256 gasCostLinkWei = (gasCostEthWei * billing.microLinkPerEth)/ 1e6; | |||
// . | |||
// . | |||
// . | |||
// 5047 s_gasReimbursementsLinkWei[txOracle.index] = | |||
// 856 s_gasReimbursementsLinkWei[txOracle.index] + gasCostLinkWei + | |||
// 26 uint256(billing.linkGweiPerTransmission) * (1 gwei); | |||
// | |||
// If those were the only lines to be accounted for, you would add up | |||
// 29+9+3+3+3+59+5047+856+26=6035. | |||
uint256 internal constant accountingGasCost = 6035; | |||
// Uncomment the following declaration to compute the remaining gas cost after | |||
// above gasleft(). (This must exist in a base class to OffchainAggregator, so | |||
// it can't go in TestOffchainAggregator.) | |||
// | |||
// uint256 public gasUsedInAccounting; | |||
// Gas price at which the transmitter should be reimbursed, in ETH-gwei/gas | |||
function impliedGasPrice( | |||
uint256 txGasPrice, // ETH-gwei/gas units | |||
uint256 reasonableGasPrice, // ETH-gwei/gas units | |||
uint256 maximumGasPrice // ETH-gwei/gas units | |||
) | |||
internal | |||
pure | |||
returns (uint256) | |||
{ | |||
// Reward the transmitter for choosing an efficient gas price: if they manage | |||
// to come in lower than considered reasonable, give them half the savings. | |||
// | |||
// The following calculations are all in units of gwei/gas, i.e. 1e-9ETH/gas | |||
uint256 gasPrice = txGasPrice; | |||
if (txGasPrice < reasonableGasPrice) { | |||
// Give transmitter half the savings for coming in under the reasonable gas price | |||
gasPrice += (reasonableGasPrice - txGasPrice) / 2; | |||
} | |||
// Don't reimburse a gas price higher than maximumGasPrice | |||
return min(gasPrice, maximumGasPrice); | |||
} | |||
// gas reimbursement due the transmitter, in ETH-wei | |||
// | |||
// If this function is changed, accountingGasCost needs to change, too. See | |||
// its docstring | |||
function transmitterGasCostEthWei( | |||
uint256 initialGas, | |||
uint256 gasPrice, // ETH-gwei/gas units | |||
uint256 callDataCost, // gas units | |||
uint256 gasLeft | |||
) | |||
internal | |||
pure | |||
returns (uint128 gasCostEthWei) | |||
{ | |||
require(initialGas >= gasLeft, "gasLeft cannot exceed initialGas"); | |||
uint256 gasUsed = // gas units | |||
initialGas - gasLeft + // observed gas usage | |||
callDataCost + accountingGasCost; // estimated gas usage | |||
// gasUsed is in gas units, gasPrice is in ETH-gwei/gas units; convert to ETH-wei | |||
uint256 fullGasCostEthWei = gasUsed * gasPrice * (1 gwei); | |||
assert(fullGasCostEthWei < maxUint128); // the entire ETH supply fits in a uint128... | |||
return uint128(fullGasCostEthWei); | |||
} | |||
/** | |||
* @notice withdraw any available funds left in the contract, up to _amount, after accounting for the funds due to participants in past reports | |||
* @param _recipient address to send funds to | |||
* @param _amount maximum amount to withdraw, denominated in LINK-wei. | |||
* @dev access control provided by billingAccessController | |||
*/ | |||
function withdrawFunds(address _recipient, uint256 _amount) | |||
external | |||
{ | |||
require(msg.sender == owner || s_billingAccessController.hasAccess(msg.sender, msg.data), | |||
"Only owner&billingAdmin can call"); | |||
uint256 linkDue = totalLINKDue(); | |||
uint256 linkBalance = LINK.balanceOf(address(this)); | |||
require(linkBalance >= linkDue, "insufficient balance"); | |||
require(LINK.transfer(_recipient, min(linkBalance - linkDue, _amount)), "insufficient funds"); | |||
} | |||
// Total LINK due to participants in past reports. | |||
function totalLINKDue() | |||
internal | |||
view | |||
returns (uint256 linkDue) | |||
{ | |||
// Argument for overflow safety: We do all computations in | |||
// uint256s. The inputs to linkDue are: | |||
// - the <= 31 observation rewards each of which has less than | |||
// 64 bits (32 bits for billing.linkGweiPerObservation, 32 bits | |||
// for wei/gwei conversion). Hence 69 bits are sufficient for this part. | |||
// - the <= 31 gas reimbursements, each of which consists of at most 166 | |||
// bits (see s_gasReimbursementsLinkWei docstring). Hence 171 bits are | |||
// sufficient for this part | |||
// In total, 172 bits are enough. | |||
uint16[maxNumOracles] memory observationCounts = s_oracleObservationsCounts; | |||
for (uint i = 0; i < maxNumOracles; i++) { | |||
linkDue += observationCounts[i] - 1; // Stored value is one greater than actual value | |||
} | |||
Billing memory billing = s_billing; | |||
// Convert linkGweiPerObservation to uint256, or this overflows! | |||
linkDue *= uint256(billing.linkGweiPerObservation) * (1 gwei); | |||
address[] memory transmitters = s_transmitters; | |||
uint256[maxNumOracles] memory gasReimbursementsLinkWei = | |||
s_gasReimbursementsLinkWei; | |||
for (uint i = 0; i < transmitters.length; i++) { | |||
linkDue += uint256(gasReimbursementsLinkWei[i]-1); // Stored value is one greater than actual value | |||
} | |||
} | |||
/** | |||
* @notice allows oracles to check that sufficient LINK balance is available | |||
* @return availableBalance LINK available on this contract, after accounting for outstanding obligations. can become negative | |||
*/ | |||
function linkAvailableForPayment() | |||
external | |||
view | |||
returns (int256 availableBalance) | |||
{ | |||
// there are at most one billion LINK, so this cast is safe | |||
int256 balance = int256(LINK.balanceOf(address(this))); | |||
// according to the argument in the definition of totalLINKDue, | |||
// totalLINKDue is never greater than 2**172, so this cast is safe | |||
int256 due = int256(totalLINKDue()); | |||
// safe from overflow according to above sizes | |||
return int256(balance) - int256(due); | |||
} | |||
/** | |||
* @notice number of observations oracle is due to be reimbursed for | |||
* @param _signerOrTransmitter address used by oracle for signing or transmitting reports | |||
*/ | |||
function oracleObservationCount(address _signerOrTransmitter) | |||
external | |||
view | |||
returns (uint16) | |||
{ | |||
Oracle memory oracle = s_oracles[_signerOrTransmitter]; | |||
if (oracle.role == Role.Unset) { return 0; } | |||
return s_oracleObservationsCounts[oracle.index] - 1; | |||
} | |||
function reimburseAndRewardOracles( | |||
uint32 initialGas, | |||
bytes memory observers | |||
) | |||
internal | |||
{ | |||
Oracle memory txOracle = s_oracles[msg.sender]; | |||
Billing memory billing = s_billing; | |||
// Reward oracles for providing observations. Oracles are not rewarded | |||
// for providing signatures, because signing is essentially free. | |||
s_oracleObservationsCounts = | |||
oracleRewards(observers, s_oracleObservationsCounts); | |||
// Reimburse transmitter of the report for gas usage | |||
require(txOracle.role == Role.Transmitter, | |||
"sent by undesignated transmitter" | |||
); | |||
uint256 gasPrice = impliedGasPrice( | |||
tx.gasprice / (1 gwei), // convert to ETH-gwei units | |||
billing.reasonableGasPrice, | |||
billing.maximumGasPrice | |||
); | |||
// The following is only an upper bound, as it ignores the cheaper cost for | |||
// 0 bytes. Safe from overflow, because calldata just isn't that long. | |||
uint256 callDataGasCost = 16 * msg.data.length; | |||
// If any changes are made to subsequent calculations, accountingGasCost | |||
// needs to change, too. | |||
uint256 gasLeft = gasleft(); | |||
uint256 gasCostEthWei = transmitterGasCostEthWei( | |||
uint256(initialGas), | |||
gasPrice, | |||
callDataGasCost, | |||
gasLeft | |||
); | |||
// microLinkPerEth is 1e-6LINK/ETH units, gasCostEthWei is 1e-18ETH units | |||
// (ETH-wei), product is 1e-24LINK-wei units, dividing by 1e6 gives | |||
// 1e-18LINK units, i.e. LINK-wei units | |||
// Safe from over/underflow, since all components are non-negative, | |||
// gasCostEthWei will always fit into uint128 and microLinkPerEth is a | |||
// uint32 (128+32 < 256!). | |||
uint256 gasCostLinkWei = (gasCostEthWei * billing.microLinkPerEth)/ 1e6; | |||
// Safe from overflow, because gasCostLinkWei < 2**160 and | |||
// billing.linkGweiPerTransmission * (1 gwei) < 2**64 and we increment | |||
// s_gasReimbursementsLinkWei[txOracle.index] at most 2**40 times. | |||
s_gasReimbursementsLinkWei[txOracle.index] = | |||
s_gasReimbursementsLinkWei[txOracle.index] + gasCostLinkWei + | |||
uint256(billing.linkGweiPerTransmission) * (1 gwei); // convert from linkGwei to linkWei | |||
// Uncomment next line to compute the remaining gas cost after above gasleft(). | |||
// See OffchainAggregatorBilling.accountingGasCost docstring for more information. | |||
// | |||
// gasUsedInAccounting = gasLeft - gasleft(); | |||
} | |||
/* | |||
* Payee management | |||
*/ | |||
/** | |||
* @notice emitted when a transfer of an oracle's payee address has been initiated | |||
* @param transmitter address from which the oracle sends reports to the transmit method | |||
* @param current the payeee address for the oracle, prior to this setting | |||
* @param proposed the proposed new payee address for the oracle | |||
*/ | |||
event PayeeshipTransferRequested( | |||
address indexed transmitter, | |||
address indexed current, | |||
address indexed proposed | |||
); | |||
/** | |||
* @notice emitted when a transfer of an oracle's payee address has been completed | |||
* @param transmitter address from which the oracle sends reports to the transmit method | |||
* @param current the payeee address for the oracle, prior to this setting | |||
*/ | |||
event PayeeshipTransferred( | |||
address indexed transmitter, | |||
address indexed previous, | |||
address indexed current | |||
); | |||
/** | |||
* @notice sets the payees for transmitting addresses | |||
* @param _transmitters addresses oracles use to transmit the reports | |||
* @param _payees addresses of payees corresponding to list of transmitters | |||
* @dev must be called by owner | |||
* @dev cannot be used to change payee addresses, only to initially populate them | |||
*/ | |||
function setPayees( | |||
address[] calldata _transmitters, | |||
address[] calldata _payees | |||
) | |||
external | |||
onlyOwner() | |||
{ | |||
require(_transmitters.length == _payees.length, "transmitters.size != payees.size"); | |||
for (uint i = 0; i < _transmitters.length; i++) { | |||
address transmitter = _transmitters[i]; | |||
address payee = _payees[i]; | |||
address currentPayee = s_payees[transmitter]; | |||
bool zeroedOut = currentPayee == address(0); | |||
require(zeroedOut || currentPayee == payee, "payee already set"); | |||
s_payees[transmitter] = payee; | |||
if (currentPayee != payee) { | |||
emit PayeeshipTransferred(transmitter, currentPayee, payee); | |||
} | |||
} | |||
} | |||
/** | |||
* @notice first step of payeeship transfer (safe transfer pattern) | |||
* @param _transmitter transmitter address of oracle whose payee is changing | |||
* @param _proposed new payee address | |||
* @dev can only be called by payee address | |||
*/ | |||
function transferPayeeship( | |||
address _transmitter, | |||
address _proposed | |||
) | |||
external | |||
{ | |||
require(msg.sender == s_payees[_transmitter], "only current payee can update"); | |||
require(msg.sender != _proposed, "cannot transfer to self"); | |||
address previousProposed = s_proposedPayees[_transmitter]; | |||
s_proposedPayees[_transmitter] = _proposed; | |||
if (previousProposed != _proposed) { | |||
emit PayeeshipTransferRequested(_transmitter, msg.sender, _proposed); | |||
} | |||
} | |||
/** | |||
* @notice second step of payeeship transfer (safe transfer pattern) | |||
* @param _transmitter transmitter address of oracle whose payee is changing | |||
* @dev can only be called by proposed new payee address | |||
*/ | |||
function acceptPayeeship( | |||
address _transmitter | |||
) | |||
external | |||
{ | |||
require(msg.sender == s_proposedPayees[_transmitter], "only proposed payees can accept"); | |||
address currentPayee = s_payees[_transmitter]; | |||
s_payees[_transmitter] = msg.sender; | |||
s_proposedPayees[_transmitter] = address(0); | |||
emit PayeeshipTransferred(_transmitter, currentPayee, msg.sender); | |||
} | |||
/* | |||
* Helper functions | |||
*/ | |||
function saturatingAddUint16(uint16 _x, uint16 _y) | |||
internal | |||
pure | |||
returns (uint16) | |||
{ | |||
return uint16(min(uint256(_x)+uint256(_y), maxUint16)); | |||
} | |||
function min(uint256 a, uint256 b) | |||
internal | |||
pure | |||
returns (uint256) | |||
{ | |||
if (a < b) { return a; } | |||
return b; | |||
} | |||
} | |||
// OffchainAggregator.sol | |||
/** | |||
* @notice Onchain verification of reports from the offchain reporting protocol | |||
* @dev For details on its operation, see the offchain reporting protocol design | |||
* @dev doc, which refers to this contract as simply the "contract". | |||
*/ | |||
contract OffchainAggregator is Owned, OffchainAggregatorBilling, AggregatorV2V3Interface, TypeAndVersionInterface { | |||
uint256 constant private maxUint32 = (1 << 32) - 1; | |||
// Storing these fields used on the hot path in a HotVars variable reduces the | |||
// retrieval of all of them to a single SLOAD. If any further fields are | |||
// added, make sure that storage of the struct still takes at most 32 bytes. | |||
struct HotVars { | |||
// Provides 128 bits of security against 2nd pre-image attacks, but only | |||
// 64 bits against collisions. This is acceptable, since a malicious owner has | |||
// easier way of messing up the protocol than to find hash collisions. | |||
bytes16 latestConfigDigest; | |||
uint40 latestEpochAndRound; // 32 most sig bits for epoch, 8 least sig bits for round | |||
// Current bound assumed on number of faulty/dishonest oracles participating | |||
// in the protocol, this value is referred to as f in the design | |||
uint8 threshold; | |||
// Chainlink Aggregators expose a roundId to consumers. The offchain reporting | |||
// protocol does not use this id anywhere. We increment it whenever a new | |||
// transmission is made to provide callers with contiguous ids for successive | |||
// reports. | |||
uint32 latestAggregatorRoundId; | |||
} | |||
HotVars internal s_hotVars; | |||
// Transmission records the median answer from the transmit transaction at | |||
// time timestamp | |||
struct Transmission { | |||
int192 answer; // 192 bits ought to be enough for anyone | |||
uint64 timestamp; | |||
} | |||
mapping(uint32 /* aggregator round ID */ => Transmission) internal s_transmissions; | |||
// incremented each time a new config is posted. This count is incorporated | |||
// into the config digest, to prevent replay attacks. | |||
uint32 internal s_configCount; | |||
uint32 internal s_latestConfigBlockNumber; // makes it easier for offchain systems | |||
// to extract config from logs. | |||
// Lowest answer the system is allowed to report in response to transmissions | |||
int192 immutable public minAnswer; | |||
// Highest answer the system is allowed to report in response to transmissions | |||
int192 immutable public maxAnswer; | |||
/* | |||
* @param _maximumGasPrice highest gas price for which transmitter will be compensated | |||
* @param _reasonableGasPrice transmitter will receive reward for gas prices under this value | |||
* @param _microLinkPerEth reimbursement per ETH of gas cost, in 1e-6LINK units | |||
* @param _linkGweiPerObservation reward to oracle for contributing an observation to a successfully transmitted report, in 1e-9LINK units | |||
* @param _linkGweiPerTransmission reward to transmitter of a successful report, in 1e-9LINK units | |||
* @param _link address of the LINK contract | |||
* @param _minAnswer lowest answer the median of a report is allowed to be | |||
* @param _maxAnswer highest answer the median of a report is allowed to be | |||
* @param _billingAccessController access controller for billing admin functions | |||
* @param _requesterAccessController access controller for requesting new rounds | |||
* @param _decimals answers are stored in fixed-point format, with this many digits of precision | |||
* @param _description short human-readable description of observable this contract's answers pertain to | |||
*/ | |||
constructor( | |||
uint32 _maximumGasPrice, | |||
uint32 _reasonableGasPrice, | |||
uint32 _microLinkPerEth, | |||
uint32 _linkGweiPerObservation, | |||
uint32 _linkGweiPerTransmission, | |||
address _link, | |||
int192 _minAnswer, | |||
int192 _maxAnswer, | |||
AccessControllerInterface _billingAccessController, | |||
AccessControllerInterface _requesterAccessController, | |||
uint8 _decimals, | |||
string memory _description | |||
) | |||
OffchainAggregatorBilling(_maximumGasPrice, _reasonableGasPrice, _microLinkPerEth, | |||
_linkGweiPerObservation, _linkGweiPerTransmission, _link, | |||
_billingAccessController | |||
) | |||
{ | |||
decimals = _decimals; | |||
s_description = _description; | |||
setRequesterAccessController(_requesterAccessController); | |||
setValidatorConfig(AggregatorValidatorInterface(0x0), 0); | |||
minAnswer = _minAnswer; | |||
maxAnswer = _maxAnswer; | |||
} | |||
/* | |||
* Versioning | |||
*/ | |||
function typeAndVersion() | |||
external | |||
override | |||
pure | |||
virtual | |||
returns (string memory) | |||
{ | |||
return "OffchainAggregator 2.0.0"; | |||
} | |||
/* | |||
* Config logic | |||
*/ | |||
/** | |||
* @notice triggers a new run of the offchain reporting protocol | |||
* @param previousConfigBlockNumber block in which the previous config was set, to simplify historic analysis | |||
* @param configCount ordinal number of this config setting among all config settings over the life of this contract | |||
* @param signers ith element is address ith oracle uses to sign a report | |||
* @param transmitters ith element is address ith oracle uses to transmit a report via the transmit method | |||
* @param threshold maximum number of faulty/dishonest oracles the protocol can tolerate while still working correctly | |||
* @param encodedConfigVersion version of the serialization format used for "encoded" parameter | |||
* @param encoded serialized data used by oracles to configure their offchain operation | |||
*/ | |||
event ConfigSet( | |||
uint32 previousConfigBlockNumber, | |||
uint64 configCount, | |||
address[] signers, | |||
address[] transmitters, | |||
uint8 threshold, | |||
uint64 encodedConfigVersion, | |||
bytes encoded | |||
); | |||
// Reverts transaction if config args are invalid | |||
modifier checkConfigValid ( | |||
uint256 _numSigners, uint256 _numTransmitters, uint256 _threshold | |||
) { | |||
require(_numSigners <= maxNumOracles, "too many signers"); | |||
require(_threshold > 0, "threshold must be positive"); | |||
require( | |||
_numSigners == _numTransmitters, | |||
"oracle addresses out of registration" | |||
); | |||
require(_numSigners > 3*_threshold, "faulty-oracle threshold too high"); | |||
_; | |||
} | |||
/** | |||
* @notice sets offchain reporting protocol configuration incl. participating oracles | |||
* @param _signers addresses with which oracles sign the reports | |||
* @param _transmitters addresses oracles use to transmit the reports | |||
* @param _threshold number of faulty oracles the system can tolerate | |||
* @param _encodedConfigVersion version number for offchainEncoding schema | |||
* @param _encoded encoded off-chain oracle configuration | |||
*/ | |||
function setConfig( | |||
address[] calldata _signers, | |||
address[] calldata _transmitters, | |||
uint8 _threshold, | |||
uint64 _encodedConfigVersion, | |||
bytes calldata _encoded | |||
) | |||
external | |||
checkConfigValid(_signers.length, _transmitters.length, _threshold) | |||
onlyOwner() | |||
{ | |||
while (s_signers.length != 0) { // remove any old signer/transmitter addresses | |||
uint lastIdx = s_signers.length - 1; | |||
address signer = s_signers[lastIdx]; | |||
address transmitter = s_transmitters[lastIdx]; | |||
payOracle(transmitter); | |||
delete s_oracles[signer]; | |||
delete s_oracles[transmitter]; | |||
s_signers.pop(); | |||
s_transmitters.pop(); | |||
} | |||
for (uint i = 0; i < _signers.length; i++) { // add new signer/transmitter addresses | |||
require( | |||
s_oracles[_signers[i]].role == Role.Unset, | |||
"repeated signer address" | |||
); | |||
s_oracles[_signers[i]] = Oracle(uint8(i), Role.Signer); | |||
require(s_payees[_transmitters[i]] != address(0), "payee must be set"); | |||
require( | |||
s_oracles[_transmitters[i]].role == Role.Unset, | |||
"repeated transmitter address" | |||
); | |||
s_oracles[_transmitters[i]] = Oracle(uint8(i), Role.Transmitter); | |||
s_signers.push(_signers[i]); | |||
s_transmitters.push(_transmitters[i]); | |||
} | |||
s_hotVars.threshold = _threshold; | |||
uint32 previousConfigBlockNumber = s_latestConfigBlockNumber; | |||
s_latestConfigBlockNumber = uint32(block.number); | |||
s_configCount += 1; | |||
uint64 configCount = s_configCount; | |||
{ | |||
s_hotVars.latestConfigDigest = configDigestFromConfigData( | |||
address(this), | |||
configCount, | |||
_signers, | |||
_transmitters, | |||
_threshold, | |||
_encodedConfigVersion, | |||
_encoded | |||
); | |||
s_hotVars.latestEpochAndRound = 0; | |||
} | |||
emit ConfigSet( | |||
previousConfigBlockNumber, | |||
configCount, | |||
_signers, | |||
_transmitters, | |||
_threshold, | |||
_encodedConfigVersion, | |||
_encoded | |||
); | |||
} | |||
function configDigestFromConfigData( | |||
address _contractAddress, | |||
uint64 _configCount, | |||
address[] calldata _signers, | |||
address[] calldata _transmitters, | |||
uint8 _threshold, | |||
uint64 _encodedConfigVersion, | |||
bytes calldata _encodedConfig | |||
) internal pure returns (bytes16) { | |||
return bytes16(keccak256(abi.encode(_contractAddress, _configCount, | |||
_signers, _transmitters, _threshold, _encodedConfigVersion, _encodedConfig | |||
))); | |||
} | |||
/** | |||
* @notice information about current offchain reporting protocol configuration | |||
* @return configCount ordinal number of current config, out of all configs applied to this contract so far | |||
* @return blockNumber block at which this config was set | |||
* @return configDigest domain-separation tag for current config (see configDigestFromConfigData) | |||
*/ | |||
function latestConfigDetails() | |||
external | |||
view | |||
returns ( | |||
uint32 configCount, | |||
uint32 blockNumber, | |||
bytes16 configDigest | |||
) | |||
{ | |||
return (s_configCount, s_latestConfigBlockNumber, s_hotVars.latestConfigDigest); | |||
} | |||
/** | |||
* @return list of addresses permitted to transmit reports to this contract | |||
* @dev The list will match the order used to specify the transmitter during setConfig | |||
*/ | |||
function transmitters() | |||
external | |||
view | |||
returns(address[] memory) | |||
{ | |||
return s_transmitters; | |||
} | |||
/* | |||
* On-chain validation logc | |||
*/ | |||
// Configuration for validator | |||
struct ValidatorConfig { | |||
AggregatorValidatorInterface validator; | |||
uint32 gasLimit; | |||
} | |||
ValidatorConfig private s_validatorConfig; | |||
/** | |||
* @notice indicates that the validator configuration has been set | |||
* @param previousValidator previous validator contract | |||
* @param previousGasLimit previous gas limit for validate calls | |||
* @param currentValidator current validator contract | |||
* @param currentGasLimit current gas limit for validate calls | |||
*/ | |||
event ValidatorConfigSet( | |||
AggregatorValidatorInterface indexed previousValidator, | |||
uint32 previousGasLimit, | |||
AggregatorValidatorInterface indexed currentValidator, | |||
uint32 currentGasLimit | |||
); | |||
/** | |||
* @notice validator configuration | |||
* @return validator validator contract | |||
* @return gasLimit gas limit for validate calls | |||
*/ | |||
function validatorConfig() | |||
external | |||
view | |||
returns (AggregatorValidatorInterface validator, uint32 gasLimit) | |||
{ | |||
ValidatorConfig memory vc = s_validatorConfig; | |||
return (vc.validator, vc.gasLimit); | |||
} | |||
/** | |||
* @notice sets validator configuration | |||
* @dev set _newValidator to 0x0 to disable validate calls | |||
* @param _newValidator address of the new validator contract | |||
* @param _newGasLimit new gas limit for validate calls | |||
*/ | |||
function setValidatorConfig(AggregatorValidatorInterface _newValidator, uint32 _newGasLimit) | |||
public | |||
onlyOwner() | |||
{ | |||
ValidatorConfig memory previous = s_validatorConfig; | |||
if (previous.validator != _newValidator || previous.gasLimit != _newGasLimit) { | |||
s_validatorConfig = ValidatorConfig({ | |||
validator: _newValidator, | |||
gasLimit: _newGasLimit | |||
}); | |||
emit ValidatorConfigSet(previous.validator, previous.gasLimit, _newValidator, _newGasLimit); | |||
} | |||
} | |||
function validateAnswer( | |||
uint32 _aggregatorRoundId, | |||
int256 _answer | |||
) | |||
private | |||
{ | |||
ValidatorConfig memory vc = s_validatorConfig; | |||
if (address(vc.validator) == address(0)) { | |||
return; | |||
} | |||
uint32 prevAggregatorRoundId = _aggregatorRoundId - 1; | |||
int256 prevAggregatorRoundAnswer = s_transmissions[prevAggregatorRoundId].answer; | |||
// We do not want the validator to ever prevent reporting, so we limit its | |||
// gas usage and catch any errors that may arise. | |||
try vc.validator.validate{gas: vc.gasLimit}( | |||
prevAggregatorRoundId, | |||
prevAggregatorRoundAnswer, | |||
_aggregatorRoundId, | |||
_answer | |||
) {} catch {} | |||
} | |||
/* | |||
* requestNewRound logic | |||
*/ | |||
AccessControllerInterface internal s_requesterAccessController; | |||
/** | |||
* @notice emitted when a new requester access controller contract is set | |||
* @param old the address prior to the current setting | |||
* @param current the address of the new access controller contract | |||
*/ | |||
event RequesterAccessControllerSet(AccessControllerInterface old, AccessControllerInterface current); | |||
/** | |||
* @notice emitted to immediately request a new round | |||
* @param requester the address of the requester | |||
* @param configDigest the latest transmission's configDigest | |||
* @param epoch the latest transmission's epoch | |||
* @param round the latest transmission's round | |||
*/ | |||
event RoundRequested(address indexed requester, bytes16 configDigest, uint32 epoch, uint8 round); | |||
/** | |||
* @notice address of the requester access controller contract | |||
* @return requester access controller address | |||
*/ | |||
function requesterAccessController() | |||
external | |||
view | |||
returns (AccessControllerInterface) | |||
{ | |||
return s_requesterAccessController; | |||
} | |||
/** | |||
* @notice sets the requester access controller | |||
* @param _requesterAccessController designates the address of the new requester access controller | |||
*/ | |||
function setRequesterAccessController(AccessControllerInterface _requesterAccessController) | |||
public | |||
onlyOwner() | |||
{ | |||
AccessControllerInterface oldController = s_requesterAccessController; | |||
if (_requesterAccessController != oldController) { | |||
s_requesterAccessController = AccessControllerInterface(_requesterAccessController); | |||
emit RequesterAccessControllerSet(oldController, _requesterAccessController); | |||
} | |||
} | |||
/** | |||
* @notice immediately requests a new round | |||
* @return the aggregatorRoundId of the next round. Note: The report for this round may have been | |||
* transmitted (but not yet mined) *before* requestNewRound() was even called. There is *no* | |||
* guarantee of causality between the request and the report at aggregatorRoundId. | |||
*/ | |||
function requestNewRound() external returns (uint80) { | |||
require(msg.sender == owner || s_requesterAccessController.hasAccess(msg.sender, msg.data), | |||
"Only owner&requester can call"); | |||
HotVars memory hotVars = s_hotVars; | |||
emit RoundRequested( | |||
msg.sender, | |||
hotVars.latestConfigDigest, | |||
uint32(s_hotVars.latestEpochAndRound >> 8), | |||
uint8(s_hotVars.latestEpochAndRound) | |||
); | |||
return hotVars.latestAggregatorRoundId + 1; | |||
} | |||
/* | |||
* Transmission logic | |||
*/ | |||
/** | |||
* @notice indicates that a new report was transmitted | |||
* @param aggregatorRoundId the round to which this report was assigned | |||
* @param answer median of the observations attached this report | |||
* @param transmitter address from which the report was transmitted | |||
* @param observations observations transmitted with this report | |||
* @param rawReportContext signature-replay-prevention domain-separation tag | |||
*/ | |||
event NewTransmission( | |||
uint32 indexed aggregatorRoundId, | |||
int192 answer, | |||
address transmitter, | |||
int192[] observations, | |||
bytes observers, | |||
bytes32 rawReportContext | |||
); | |||
// decodeReport is used to check that the solidity and go code are using the | |||
// same format. See TestOffchainAggregator.testDecodeReport and TestReportParsing | |||
function decodeReport(bytes memory _report) | |||
internal | |||
pure | |||
returns ( | |||
bytes32 rawReportContext, | |||
bytes32 rawObservers, | |||
int192[] memory observations | |||
) | |||
{ | |||
(rawReportContext, rawObservers, observations) = abi.decode(_report, | |||
(bytes32, bytes32, int192[])); | |||
} | |||
// Used to relieve stack pressure in transmit | |||
struct ReportData { | |||
HotVars hotVars; // Only read from storage once | |||
bytes observers; // ith element is the index of the ith observer | |||
int192[] observations; // ith element is the ith observation | |||
bytes vs; // jth element is the v component of the jth signature | |||
bytes32 rawReportContext; | |||
} | |||
/* | |||
* @notice details about the most recent report | |||
* @return configDigest domain separation tag for the latest report | |||
* @return epoch epoch in which the latest report was generated | |||
* @return round OCR round in which the latest report was generated | |||
* @return latestAnswer median value from latest report | |||
* @return latestTimestamp when the latest report was transmitted | |||
*/ | |||
function latestTransmissionDetails() | |||
external | |||
view | |||
returns ( | |||
bytes16 configDigest, | |||
uint32 epoch, | |||
uint8 round, | |||
int192 latestAnswer, | |||
uint64 latestTimestamp | |||
) | |||
{ | |||
require(msg.sender == tx.origin, "Only callable by EOA"); | |||
return ( | |||
s_hotVars.latestConfigDigest, | |||
uint32(s_hotVars.latestEpochAndRound >> 8), | |||
uint8(s_hotVars.latestEpochAndRound), | |||
s_transmissions[s_hotVars.latestAggregatorRoundId].answer, | |||
s_transmissions[s_hotVars.latestAggregatorRoundId].timestamp | |||
); | |||
} | |||
// The constant-length components of the msg.data sent to transmit. | |||
// See the "If we wanted to call sam" example on for example reasoning | |||
// https://solidity.readthedocs.io/en/v0.7.2/abi-spec.html | |||
uint16 private constant TRANSMIT_MSGDATA_CONSTANT_LENGTH_COMPONENT = | |||
4 + // function selector | |||
32 + // word containing start location of abiencoded _report value | |||
32 + // word containing location start of abiencoded _rs value | |||
32 + // word containing start location of abiencoded _ss value | |||
32 + // _rawVs value | |||
32 + // word containing length of _report | |||
32 + // word containing length _rs | |||
32 + // word containing length of _ss | |||
0; // placeholder | |||
function expectedMsgDataLength( | |||
bytes calldata _report, bytes32[] calldata _rs, bytes32[] calldata _ss | |||
) private pure returns (uint256 length) | |||
{ | |||
// calldata will never be big enough to make this overflow | |||
return uint256(TRANSMIT_MSGDATA_CONSTANT_LENGTH_COMPONENT) + | |||
_report.length + // one byte pure entry in _report | |||
_rs.length * 32 + // 32 bytes per entry in _rs | |||
_ss.length * 32 + // 32 bytes per entry in _ss | |||
0; // placeholder | |||
} | |||
/** | |||
* @notice transmit is called to post a new report to the contract | |||
* @param _report serialized report, which the signatures are signing. See parsing code below for format. The ith element of the observers component must be the index in s_signers of the address for the ith signature | |||
* @param _rs ith element is the R components of the ith signature on report. Must have at most maxNumOracles entries | |||
* @param _ss ith element is the S components of the ith signature on report. Must have at most maxNumOracles entries | |||
* @param _rawVs ith element is the the V component of the ith signature | |||
*/ | |||
function transmit( | |||
// NOTE: If these parameters are changed, expectedMsgDataLength and/or | |||
// TRANSMIT_MSGDATA_CONSTANT_LENGTH_COMPONENT need to be changed accordingly | |||
bytes calldata _report, | |||
bytes32[] calldata _rs, bytes32[] calldata _ss, bytes32 _rawVs // signatures | |||
) | |||
external | |||
{ | |||
uint256 initialGas = gasleft(); // This line must come first | |||
// Make sure the transmit message-length matches the inputs. Otherwise, the | |||
// transmitter could append an arbitrarily long (up to gas-block limit) | |||
// string of 0 bytes, which we would reimburse at a rate of 16 gas/byte, but | |||
// which would only cost the transmitter 4 gas/byte. (Appendix G of the | |||
// yellow paper, p. 25, for G_txdatazero and EIP 2028 for G_txdatanonzero.) | |||
// This could amount to reimbursement profit of 36 million gas, given a 3MB | |||
// zero tail. | |||
require(msg.data.length == expectedMsgDataLength(_report, _rs, _ss), | |||
"transmit message too long"); | |||
ReportData memory r; // Relieves stack pressure | |||
{ | |||
r.hotVars = s_hotVars; // cache read from storage | |||
bytes32 rawObservers; | |||
(r.rawReportContext, rawObservers, r.observations) = abi.decode( | |||
_report, (bytes32, bytes32, int192[]) | |||
); | |||
// rawReportContext consists of: | |||
// 11-byte zero padding | |||
// 16-byte configDigest | |||
// 4-byte epoch | |||
// 1-byte round | |||
bytes16 configDigest = bytes16(r.rawReportContext << 88); | |||
require( | |||
r.hotVars.latestConfigDigest == configDigest, | |||
"configDigest mismatch" | |||
); | |||
uint40 epochAndRound = uint40(uint256(r.rawReportContext)); | |||
// direct numerical comparison works here, because | |||
// | |||
// ((e,r) <= (e',r')) implies (epochAndRound <= epochAndRound') | |||
// | |||
// because alphabetic ordering implies e <= e', and if e = e', then r<=r', | |||
// so e*256+r <= e'*256+r', because r, r' < 256 | |||
require(r.hotVars.latestEpochAndRound < epochAndRound, "stale report"); | |||
require(_rs.length > r.hotVars.threshold, "not enough signatures"); | |||
require(_rs.length <= maxNumOracles, "too many signatures"); | |||
require(_ss.length == _rs.length, "signatures out of registration"); | |||
require(r.observations.length <= maxNumOracles, | |||
"num observations out of bounds"); | |||
require(r.observations.length > 2 * r.hotVars.threshold, | |||
"too few values to trust median"); | |||
// Copy signature parities in bytes32 _rawVs to bytes r.v | |||
r.vs = new bytes(_rs.length); | |||
for (uint8 i = 0; i < _rs.length; i++) { | |||
r.vs[i] = _rawVs[i]; | |||
} | |||
// Copy observer identities in bytes32 rawObservers to bytes r.observers | |||
r.observers = new bytes(r.observations.length); | |||
bool[maxNumOracles] memory seen; | |||
for (uint8 i = 0; i < r.observations.length; i++) { | |||
uint8 observerIdx = uint8(rawObservers[i]); | |||
require(!seen[observerIdx], "observer index repeated"); | |||
seen[observerIdx] = true; | |||
r.observers[i] = rawObservers[i]; | |||
} | |||
Oracle memory transmitter = s_oracles[msg.sender]; | |||
require( // Check that sender is authorized to report | |||
transmitter.role == Role.Transmitter && | |||
msg.sender == s_transmitters[transmitter.index], | |||
"unauthorized transmitter" | |||
); | |||
// record epochAndRound here, so that we don't have to carry the local | |||
// variable in transmit. The change is reverted if something fails later. | |||
r.hotVars.latestEpochAndRound = epochAndRound; | |||
} | |||
{ // Verify signatures attached to report | |||
bytes32 h = keccak256(_report); | |||
bool[maxNumOracles] memory signed; | |||
Oracle memory o; | |||
for (uint i = 0; i < _rs.length; i++) { | |||
address signer = ecrecover(h, uint8(r.vs[i])+27, _rs[i], _ss[i]); | |||
o = s_oracles[signer]; | |||
require(o.role == Role.Signer, "address not authorized to sign"); | |||
require(!signed[o.index], "non-unique signature"); | |||
signed[o.index] = true; | |||
} | |||
} | |||
{ // Check the report contents, and record the result | |||
for (uint i = 0; i < r.observations.length - 1; i++) { | |||
bool inOrder = r.observations[i] <= r.observations[i+1]; | |||
require(inOrder, "observations not sorted"); | |||
} | |||
int192 median = r.observations[r.observations.length/2]; | |||
require(minAnswer <= median && median <= maxAnswer, "median is out of min-max range"); | |||
r.hotVars.latestAggregatorRoundId++; | |||
s_transmissions[r.hotVars.latestAggregatorRoundId] = | |||
Transmission(median, uint64(block.timestamp)); | |||
emit NewTransmission( | |||
r.hotVars.latestAggregatorRoundId, | |||
median, | |||
msg.sender, | |||
r.observations, | |||
r.observers, | |||
r.rawReportContext | |||
); | |||
// Emit these for backwards compatability with offchain consumers | |||
// that only support legacy events | |||
emit NewRound( | |||
r.hotVars.latestAggregatorRoundId, | |||
address(0x0), // use zero address since we don't have anybody "starting" the round here | |||
block.timestamp | |||
); | |||
emit AnswerUpdated( | |||
median, | |||
r.hotVars.latestAggregatorRoundId, | |||
block.timestamp | |||
); | |||
validateAnswer(r.hotVars.latestAggregatorRoundId, median); | |||
} | |||
s_hotVars = r.hotVars; | |||
assert(initialGas < maxUint32); | |||
reimburseAndRewardOracles(uint32(initialGas), r.observers); | |||
} | |||
/* | |||
* v2 Aggregator interface | |||
*/ | |||
/** | |||
* @notice median from the most recent report | |||
*/ | |||
function latestAnswer() | |||
public | |||
override | |||
view | |||
virtual | |||
returns (int256) | |||
{ | |||
return s_transmissions[s_hotVars.latestAggregatorRoundId].answer; | |||
} | |||
/** | |||
* @notice timestamp of block in which last report was transmitted | |||
*/ | |||
function latestTimestamp() | |||
public | |||
override | |||
view | |||
virtual | |||
returns (uint256) | |||
{ | |||
return s_transmissions[s_hotVars.latestAggregatorRoundId].timestamp; | |||
} | |||
/** | |||
* @notice Aggregator round (NOT OCR round) in which last report was transmitted | |||
*/ | |||
function latestRound() | |||
public | |||
override | |||
view | |||
virtual | |||
returns (uint256) | |||
{ | |||
return s_hotVars.latestAggregatorRoundId; | |||
} | |||
/** | |||
* @notice median of report from given aggregator round (NOT OCR round) | |||
* @param _roundId the aggregator round of the target report | |||
*/ | |||
function getAnswer(uint256 _roundId) | |||
public | |||
override | |||
view | |||
virtual | |||
returns (int256) | |||
{ | |||
if (_roundId > 0xFFFFFFFF) { return 0; } | |||
return s_transmissions[uint32(_roundId)].answer; | |||
} | |||
/** | |||
* @notice timestamp of block in which report from given aggregator round was transmitted | |||
* @param _roundId aggregator round (NOT OCR round) of target report | |||
*/ | |||
function getTimestamp(uint256 _roundId) | |||
public | |||
override | |||
view | |||
virtual | |||
returns (uint256) | |||
{ | |||
if (_roundId > 0xFFFFFFFF) { return 0; } | |||
return s_transmissions[uint32(_roundId)].timestamp; | |||
} | |||
/* | |||
* v3 Aggregator interface | |||
*/ | |||
string constant private V3_NO_DATA_ERROR = "No data present"; | |||
/** | |||
* @return answers are stored in fixed-point format, with this many digits of precision | |||
*/ | |||
uint8 immutable public override decimals; | |||
/** | |||
* @notice aggregator contract version | |||
*/ | |||
uint256 constant public override version = 4; | |||
string internal s_description; | |||
/** | |||
* @notice human-readable description of observable this contract is reporting on | |||
*/ | |||
function description() | |||
public | |||
override | |||
view | |||
virtual | |||
returns (string memory) | |||
{ | |||
return s_description; | |||
} | |||
/** | |||
* @notice details for the given aggregator round | |||
* @param _roundId target aggregator round (NOT OCR round). Must fit in uint32 | |||
* @return roundId _roundId | |||
* @return answer median of report from given _roundId | |||
* @return startedAt timestamp of block in which report from given _roundId was transmitted | |||
* @return updatedAt timestamp of block in which report from given _roundId was transmitted | |||
* @return answeredInRound _roundId | |||
*/ | |||
function getRoundData(uint80 _roundId) | |||
public | |||
override | |||
view | |||
virtual | |||
returns ( | |||
uint80 roundId, | |||
int256 answer, | |||
uint256 startedAt, | |||
uint256 updatedAt, | |||
uint80 answeredInRound | |||
) | |||
{ | |||
require(_roundId <= 0xFFFFFFFF, V3_NO_DATA_ERROR); | |||
Transmission memory transmission = s_transmissions[uint32(_roundId)]; | |||
return ( | |||
_roundId, | |||
transmission.answer, | |||
transmission.timestamp, | |||
transmission.timestamp, | |||
_roundId | |||
); | |||
} | |||
/** | |||
* @notice aggregator details for the most recently transmitted report | |||
* @return roundId aggregator round of latest report (NOT OCR round) | |||
* @return answer median of latest report | |||
* @return startedAt timestamp of block containing latest report | |||
* @return updatedAt timestamp of block containing latest report | |||
* @return answeredInRound aggregator round of latest report | |||
*/ | |||
function latestRoundData() | |||
public | |||
override | |||
view | |||
virtual | |||
returns ( | |||
uint80 roundId, | |||
int256 answer, | |||
uint256 startedAt, | |||
uint256 updatedAt, | |||
uint80 answeredInRound | |||
) | |||
{ | |||
roundId = s_hotVars.latestAggregatorRoundId; | |||
// Skipped for compatability with existing FluxAggregator in which latestRoundData never reverts. | |||
// require(roundId != 0, V3_NO_DATA_ERROR); | |||
Transmission memory transmission = s_transmissions[uint32(roundId)]; | |||
return ( | |||
roundId, | |||
transmission.answer, | |||
transmission.timestamp, | |||
transmission.timestamp, | |||
roundId | |||
); | |||
} | |||
} | |||
// AccessControlledOffchainAggregator.sol | |||
/** | |||
* @notice Wrapper of OffchainAggregator which checks read access on Aggregator-interface methods | |||
*/ | |||
contract AccessControlledOffchainAggregator is OffchainAggregator, SimpleReadAccessController { | |||
constructor( | |||
uint32 _maximumGasPrice, | |||
uint32 _reasonableGasPrice, | |||
uint32 _microLinkPerEth, | |||
uint32 _linkGweiPerObservation, | |||
uint32 _linkGweiPerTransmission, | |||
address _link, | |||
int192 _minAnswer, | |||
int192 _maxAnswer, | |||
AccessControllerInterface _billingAccessController, | |||
AccessControllerInterface _requesterAccessController, | |||
uint8 _decimals, | |||
string memory description | |||
) | |||
OffchainAggregator( | |||
_maximumGasPrice, | |||
_reasonableGasPrice, | |||
_microLinkPerEth, | |||
_linkGweiPerObservation, | |||
_linkGweiPerTransmission, | |||
_link, | |||
_minAnswer, | |||
_maxAnswer, | |||
_billingAccessController, | |||
_requesterAccessController, | |||
_decimals, | |||
description | |||
) { | |||
} | |||
/* | |||
* Versioning | |||
*/ | |||
function typeAndVersion() | |||
external | |||
override | |||
pure | |||
virtual | |||
returns (string memory) | |||
{ | |||
return "AccessControlledOffchainAggregator 2.0.0"; | |||
} | |||
/* | |||
* v2 Aggregator interface | |||
*/ | |||
/// @inheritdoc OffchainAggregator | |||
function latestAnswer() | |||
public | |||
override | |||
view | |||
checkAccess() | |||
returns (int256) | |||
{ | |||
return super.latestAnswer(); | |||
} | |||
/// @inheritdoc OffchainAggregator | |||
function latestTimestamp() | |||
public | |||
override | |||
view | |||
checkAccess() | |||
returns (uint256) | |||
{ | |||
return super.latestTimestamp(); | |||
} | |||
/// @inheritdoc OffchainAggregator | |||
function latestRound() | |||
public | |||
override | |||
view | |||
checkAccess() | |||
returns (uint256) | |||
{ | |||
return super.latestRound(); | |||
} | |||
/// @inheritdoc OffchainAggregator | |||
function getAnswer(uint256 _roundId) | |||
public | |||
override | |||
view | |||
checkAccess() | |||
returns (int256) | |||
{ | |||
return super.getAnswer(_roundId); | |||
} | |||
/// @inheritdoc OffchainAggregator | |||
function getTimestamp(uint256 _roundId) | |||
public | |||
override | |||
view | |||
checkAccess() | |||
returns (uint256) | |||
{ | |||
return super.getTimestamp(_roundId); | |||
} | |||
/* | |||
* v3 Aggregator interface | |||
*/ | |||
/// @inheritdoc OffchainAggregator | |||
function description() | |||
public | |||
override | |||
view | |||
checkAccess() | |||
returns (string memory) | |||
{ | |||
return super.description(); | |||
} | |||
/// @inheritdoc OffchainAggregator | |||
function getRoundData(uint80 _roundId) | |||
public | |||
override | |||
view | |||
checkAccess() | |||
returns ( | |||
uint80 roundId, | |||
int256 answer, | |||
uint256 startedAt, | |||
uint256 updatedAt, | |||
uint80 answeredInRound | |||
) | |||
{ | |||
return super.getRoundData(_roundId); | |||
} | |||
/// @inheritdoc OffchainAggregator | |||
function latestRoundData() | |||
public | |||
override | |||
view | |||
checkAccess() | |||
returns ( | |||
uint80 roundId, | |||
int256 answer, | |||
uint256 startedAt, | |||
uint256 updatedAt, | |||
uint80 answeredInRound | |||
) | |||
{ | |||
return super.latestRoundData(); | |||
} | |||
} | |||
// ExposedOffchainAggregator.sol | |||
// ExposedOffchainAggregator exposes certain internal OffchainAggregator | |||
// methods/structures so that golang code can access them, and we get | |||
// reliable type checking on their usage | |||
contract ExposedOffchainAggregator is OffchainAggregator { | |||
constructor() | |||
OffchainAggregator( | |||
0, 0, 0, 0, 0, address(0), 0, 0, AccessControllerInterface(address(0)), AccessControllerInterface(address(0)), 0, "" | |||
) | |||
{} | |||
function exposedConfigDigestFromConfigData( | |||
address _contractAddress, | |||
uint64 _configCount, | |||
address[] calldata _signers, | |||
address[] calldata _transmitters, | |||
uint8 _threshold, | |||
uint64 _encodedConfigVersion, | |||
bytes calldata _encodedConfig | |||
) external pure returns (bytes16) { | |||
return configDigestFromConfigData(_contractAddress, _configCount, | |||
_signers, _transmitters, _threshold, _encodedConfigVersion, | |||
_encodedConfig); | |||
} | |||
} | |||
// TestValidator.sol | |||
contract TestValidator is AggregatorValidatorInterface { | |||
uint32 s_minGasUse; | |||
uint256 s_latestRoundId; | |||
event Validated( | |||
uint256 previousRoundId, | |||
int256 previousAnswer, | |||
uint256 currentRoundId, | |||
int256 currentAnswer, | |||
uint256 initialGas | |||
); | |||
function validate( | |||
uint256 previousRoundId, | |||
int256 previousAnswer, | |||
uint256 currentRoundId, | |||
int256 currentAnswer | |||
) external override returns (bool) { | |||
uint256 initialGas = gasleft(); | |||
emit Validated( | |||
previousRoundId, | |||
previousAnswer, | |||
currentRoundId, | |||
currentAnswer, | |||
initialGas | |||
); | |||
s_latestRoundId = currentRoundId; | |||
uint256 minGasUse = s_minGasUse; | |||
while (initialGas - gasleft() < minGasUse) {} | |||
return true; | |||
} | |||
function setMinGasUse(uint32 minGasUse) external { | |||
s_minGasUse = minGasUse; | |||
} | |||
function latestRoundId() external view returns (uint256) { | |||
return s_latestRoundId; | |||
} | |||
} | |||
// AccessControlTestHelper.sol | |||
contract AccessControlTestHelper { | |||
event Dummy(); // Used to silence warning that these methods are pure | |||
function readGetRoundData(address _aggregator, uint80 _roundID) | |||
external | |||
{ | |||
AccessControlledOffchainAggregator(_aggregator).getRoundData(_roundID); | |||
emit Dummy(); | |||
} | |||
function readLatestRoundData(address _aggregator) | |||
external | |||
{ | |||
AccessControlledOffchainAggregator(_aggregator).latestRoundData(); | |||
emit Dummy(); | |||
} | |||
function readLatestAnswer(address _aggregator) | |||
external | |||
{ | |||
AccessControlledOffchainAggregator(_aggregator).latestAnswer(); | |||
emit Dummy(); | |||
} | |||
function readLatestTimestamp(address _aggregator) | |||
external | |||
{ | |||
AccessControlledOffchainAggregator(_aggregator).latestTimestamp(); | |||
emit Dummy(); | |||
} | |||
function readLatestRound(address _aggregator) | |||
external | |||
{ | |||
AccessControlledOffchainAggregator(_aggregator).latestRound(); | |||
emit Dummy(); | |||
} | |||
function readGetAnswer(address _aggregator, uint256 _roundID) | |||
external | |||
{ | |||
AccessControlledOffchainAggregator(_aggregator).getAnswer(_roundID); | |||
emit Dummy(); | |||
} | |||
function readGetTimestamp(address _aggregator, uint256 _roundID) | |||
external | |||
{ | |||
AccessControlledOffchainAggregator(_aggregator).getTimestamp(_roundID); | |||
emit Dummy(); | |||
} | |||
function testLatestTransmissionDetails(address _aggregator) external view { | |||
OffchainAggregator(_aggregator).latestTransmissionDetails(); | |||
} | |||
} | |||
// TestOffchainAggregator.sol | |||
contract TestOffchainAggregator is AccessControlledOffchainAggregator { | |||
function testDecodeReport( | |||
bytes memory report | |||
) public pure returns (bytes32, bytes32, int192[] memory) | |||
{ | |||
return decodeReport(report); | |||
} | |||
constructor( | |||
uint32 _maximumGasPrice, | |||
uint32 _reasonableGasPrice, | |||
uint32 _microLinkPerEth, | |||
uint32 _linkGweiPerObservation, | |||
uint32 _linkGweiPerTransmission, | |||
address _link, | |||
int192 _minAnswer, int192 _maxAnswer, | |||
AccessControllerInterface _billingAccessController, | |||
AccessControllerInterface _requesterAdminAccessController | |||
) | |||
AccessControlledOffchainAggregator(_maximumGasPrice, _reasonableGasPrice, _microLinkPerEth, | |||
_linkGweiPerObservation, _linkGweiPerTransmission, _link, | |||
_minAnswer, _maxAnswer, _billingAccessController, _requesterAdminAccessController, 0, "TEST" | |||
) | |||
{} | |||
function testPayee( | |||
address _transmitter | |||
) | |||
external | |||
view | |||
returns (address) | |||
{ | |||
return s_payees[_transmitter]; | |||
} | |||
function getConfigDigest() public view returns (bytes16) { | |||
return s_hotVars.latestConfigDigest; | |||
} | |||
function testSaturatingAddUint16(uint16 _x, uint16 _y) | |||
external pure returns (uint16) | |||
{ | |||
return saturatingAddUint16(_x, _y); | |||
} | |||
function testImpliedGasPrice(uint256 txGasPrice, uint256 reasonableGasPrice, | |||
uint256 maximumGasPrice | |||
) external pure returns (uint256) { | |||
return impliedGasPrice(txGasPrice, reasonableGasPrice, maximumGasPrice); | |||
} | |||
function testTransmitterGasCostEthWei(uint256 initialGas, uint256 gasPrice, | |||
uint256 callDataCost, uint256 gasLeft | |||
) external pure returns (uint128) { | |||
return transmitterGasCostEthWei( | |||
initialGas, gasPrice, callDataCost, gasLeft | |||
); | |||
} | |||
function testSetOracleObservationCount(address _oracle, uint16 _amount) external { | |||
s_oracleObservationsCounts[s_oracles[_oracle].index] = _amount + 1; | |||
} | |||
function testTotalLinkDue() | |||
external view returns (uint256 linkDue) | |||
{ | |||
return totalLINKDue(); | |||
} | |||
function billingData() external view returns ( | |||
uint16[maxNumOracles] memory observationsCounts, | |||
uint256[maxNumOracles] memory gasReimbursements, | |||
uint32 maximumGasPrice, | |||
uint32 reasonableGasPrice, | |||
uint32 microLinkPerEth, | |||
uint32 linkGweiPerObservation, | |||
uint32 linkGweiPerTransmission | |||
) { | |||
Billing memory b = s_billing; | |||
return (s_oracleObservationsCounts, s_gasReimbursementsLinkWei, | |||
b.maximumGasPrice, b.reasonableGasPrice, b.microLinkPerEth, | |||
b.linkGweiPerObservation, b.linkGweiPerTransmission); | |||
} | |||
function testSetGasReimbursements(address _transmitterOrSigner, uint256 _amountLinkWei) | |||
external | |||
{ | |||
require(s_oracles[_transmitterOrSigner].role != Role.Unset, "address unknown"); | |||
s_gasReimbursementsLinkWei[s_oracles[_transmitterOrSigner].index] = _amountLinkWei + 1; | |||
} | |||
function testAccountingGasCost() public pure returns (uint256) { | |||
return accountingGasCost; | |||
} | |||
function testBurnLINK(uint256 amount) public { | |||
LINK.transfer(address(1), amount); | |||
} | |||
}</pre></div> | |||
</div> | |||
Due to the mixed experience I've had, this guide will assume that you have simply copy and pasted the flattened contract from the below link. | Due to the mixed experience I've had, this guide will assume that you have simply copy and pasted the flattened contract from the below link. | ||
Line 74: | Line 2,335: | ||
* <code>'''_LINKGWEIPEROBSERVATION'''</code> : This is the fourth billing value; It sets the amount of LINK (in gwei) to pay to all Chainlink Nodes that participate in reaching an agreed upon value of the asset. | * <code>'''_LINKGWEIPEROBSERVATION'''</code> : This is the fourth billing value; It sets the amount of LINK (in gwei) to pay to all Chainlink Nodes that participate in reaching an agreed upon value of the asset. | ||
* <code>'''_LINKGWEIPERTRANSMISSION'''</code> : This is the final billing value. It sets the transmission "bonus" that he transmitter receives for getting the collection of observations written on-chain. | * <code>'''_LINKGWEIPERTRANSMISSION'''</code> : This is the final billing value. It sets the transmission "bonus" that he transmitter receives for getting the collection of observations written on-chain. | ||
* <code>_LINK</code> : This is the LINK token contract address for the chain that the feed runs on. | * <code>_LINK</code> : This is the LINK token contract address for the chain that the feed runs on. [[LINK Token Address Index|Full list of supported LINK contract addresses available here]]. | ||
* <code>_MINANSWER</code> : This is the minimum value that the contract will accept. This value is dependent upon the <code>_decimals</code> variable. If you have it set to <code>1000000</code> with <code>8</code> decimals, the lowest value it will accept is <code>0.01</code> | * <code>_MINANSWER</code> : This is the minimum value that the contract will accept. This value is dependent upon the <code>_decimals</code> variable. If you have it set to <code>1000000</code> with <code>8</code> decimals, the lowest value it will accept is <code>0.01</code> | ||
* <code>_MAXANSWER</code> : This is the maximum value that the contract will accept. This value is dependent upon the <code>_decimals</code> variable. If you have it set to <code>100000000000</code> with <code>8</code> decimals, the largest value it will accept is <code>1000.00</code> | * <code>_MAXANSWER</code> : This is the maximum value that the contract will accept. This value is dependent upon the <code>_decimals</code> variable. If you have it set to <code>100000000000</code> with <code>8</code> decimals, the largest value it will accept is <code>1000.00</code> |
Latest revision as of 21:04, 30 May 2022
The purpose of this page is to provide highly detailed instructions on how to deploy the AccessControlledOffchainAggregator.sol
contract
Deploying the AccessControlledOffchainAggregator Via Remix
Import the Contract into Remix
Navigate to remix.ethereum.org
Once there, create a new doc by clicking on the little page icon
You can try to import the contract from github, but I've had mixed results from that.
The AccessControlledOffchainAggregator.sol
source code is available in the drop down below:
AccessControlledOffchainAggregator Source Code (Expand option is to the right --->)
// SPDX-License-Identifier: MIT pragma solidity ^0.7.0; // AccessControllerInterface.sol interface AccessControllerInterface { function hasAccess(address user, bytes calldata data) external view returns (bool); } // AggregatorValidatorInterface.sol interface AggregatorValidatorInterface { function validate( uint256 previousRoundId, int256 previousAnswer, uint256 currentRoundId, int256 currentAnswer ) external returns (bool); } // LinkTokenInterface.sol interface LinkTokenInterface { function allowance(address owner, address spender) external view returns (uint256 remaining); function approve(address spender, uint256 value) external returns (bool success); function balanceOf(address owner) external view returns (uint256 balance); function decimals() external view returns (uint8 decimalPlaces); function decreaseApproval(address spender, uint256 addedValue) external returns (bool success); function increaseApproval(address spender, uint256 subtractedValue) external; function name() external view returns (string memory tokenName); function symbol() external view returns (string memory tokenSymbol); function totalSupply() external view returns (uint256 totalTokensIssued); function transfer(address to, uint256 value) external returns (bool success); function transferAndCall(address to, uint256 value, bytes calldata data) external returns (bool success); function transferFrom(address from, address to, uint256 value) external returns (bool success); } // Owned.sol /** * @title The Owned contract * @notice A contract with helpers for basic contract ownership. */ contract Owned { address payable public owner; address private pendingOwner; event OwnershipTransferRequested( address indexed from, address indexed to ); event OwnershipTransferred( address indexed from, address indexed to ); constructor() { owner = msg.sender; } /** * @dev Allows an owner to begin transferring ownership to a new address, * pending. */ function transferOwnership(address _to) external onlyOwner() { pendingOwner = _to; emit OwnershipTransferRequested(owner, _to); } /** * @dev Allows an ownership transfer to be completed by the recipient. */ function acceptOwnership() external { require(msg.sender == pendingOwner, "Must be proposed owner"); address oldOwner = owner; owner = msg.sender; pendingOwner = address(0); emit OwnershipTransferred(oldOwner, msg.sender); } /** * @dev Reverts if called by anyone other than the contract owner. */ modifier onlyOwner() { require(msg.sender == owner, "Only callable by owner"); _; } } // TypeAndVersionInterface.sol abstract contract TypeAndVersionInterface{ function typeAndVersion() external pure virtual returns (string memory); } // AggregatorInterface.sol interface AggregatorInterface { function latestAnswer() external view returns (int256); function latestTimestamp() external view returns (uint256); function latestRound() external view returns (uint256); function getAnswer(uint256 roundId) external view returns (int256); function getTimestamp(uint256 roundId) external view returns (uint256); event AnswerUpdated(int256 indexed current, uint256 indexed roundId, uint256 updatedAt); event NewRound(uint256 indexed roundId, address indexed startedBy, uint256 startedAt); } // AggregatorV3Interface.sol interface AggregatorV3Interface { function decimals() external view returns (uint8); function description() external view returns (string memory); function version() external view returns (uint256); // getRoundData and latestRoundData should both raise "No data present" // if they do not have data to report, instead of returning unset values // which could be misinterpreted as actual reported values. function getRoundData(uint80 _roundId) external view returns ( uint80 roundId, int256 answer, uint256 startedAt, uint256 updatedAt, uint80 answeredInRound ); function latestRoundData() external view returns ( uint80 roundId, int256 answer, uint256 startedAt, uint256 updatedAt, uint80 answeredInRound ); } // SimpleWriteAccessController.sol /** * @title SimpleWriteAccessController * @notice Gives access to accounts explicitly added to an access list by the * controller's owner. * @dev does not make any special permissions for externally, see * SimpleReadAccessController for that. */ contract SimpleWriteAccessController is AccessControllerInterface, Owned { bool public checkEnabled; mapping(address => bool) internal accessList; event AddedAccess(address user); event RemovedAccess(address user); event CheckAccessEnabled(); event CheckAccessDisabled(); constructor() { checkEnabled = true; } /** * @notice Returns the access of an address * @param _user The address to query */ function hasAccess( address _user, bytes memory ) public view virtual override returns (bool) { return accessList[_user] || !checkEnabled; } /** * @notice Adds an address to the access list * @param _user The address to add */ function addAccess(address _user) external onlyOwner() { addAccessInternal(_user); } function addAccessInternal(address _user) internal { if (!accessList[_user]) { accessList[_user] = true; emit AddedAccess(_user); } } /** * @notice Removes an address from the access list * @param _user The address to remove */ function removeAccess(address _user) external onlyOwner() { if (accessList[_user]) { accessList[_user] = false; emit RemovedAccess(_user); } } /** * @notice makes the access check enforced */ function enableAccessCheck() external onlyOwner() { if (!checkEnabled) { checkEnabled = true; emit CheckAccessEnabled(); } } /** * @notice makes the access check unenforced */ function disableAccessCheck() external onlyOwner() { if (checkEnabled) { checkEnabled = false; emit CheckAccessDisabled(); } } /** * @dev reverts if the caller does not have access */ modifier checkAccess() { require(hasAccess(msg.sender, msg.data), "No access"); _; } } // SimpleReadAccessController.sol /** * @title SimpleReadAccessController * @notice Gives access to: * - any externally owned account (note that offchain actors can always read * any contract storage regardless of onchain access control measures, so this * does not weaken the access control while improving usability) * - accounts explicitly added to an access list * @dev SimpleReadAccessController is not suitable for access controlling writes * since it grants any externally owned account access! See * SimpleWriteAccessController for that. */ contract SimpleReadAccessController is SimpleWriteAccessController { /** * @notice Returns the access of an address * @param _user The address to query */ function hasAccess( address _user, bytes memory _calldata ) public view virtual override returns (bool) { return super.hasAccess(_user, _calldata) || _user == tx.origin; } } // AggregatorV2V3Interface.sol interface AggregatorV2V3Interface is AggregatorInterface, AggregatorV3Interface { } // OffchainAggregatorBilling.sol /** * @notice tracks administration of oracle-reward and gas-reimbursement parameters. * @dev * If you read or change this, be sure to read or adjust the comments. They * track the units of the values under consideration, and are crucial to * the readability of the operations it specifies. * @notice * Trust Model: * Nothing in this contract prevents a billing admin from setting insane * values for the billing parameters in setBilling. Oracles * participating in this contract should regularly check that the * parameters make sense. Similarly, the outstanding obligations of this * contract to the oracles can exceed the funds held by the contract. * Oracles participating in this contract should regularly check that it * holds sufficient funds and stop interacting with it if funding runs * out. * This still leaves oracles with some risk due to TOCTOU issues. * However, since the sums involved are pretty small (Ethereum * transactions aren't that expensive in the end) and an oracle would * likely stop participating in a contract it repeatedly lost money on, * this risk is deemed acceptable. Oracles should also regularly * withdraw any funds in the contract to prevent issues where the * contract becomes underfunded at a later time, and different oracles * are competing for the left-over funds. * Finally, note that any change to the set of oracles or to the billing * parameters will trigger payout of all oracles first (using the old * parameters), a billing admin cannot take away funds that are already * marked for payment. */ contract OffchainAggregatorBilling is Owned { // Maximum number of oracles the offchain reporting protocol is designed for uint256 constant internal maxNumOracles = 31; // Parameters for oracle payments struct Billing { // Highest compensated gas price, in ETH-gwei uints uint32 maximumGasPrice; // If gas price is less (in ETH-gwei units), transmitter gets half the savings uint32 reasonableGasPrice; // Pay transmitter back this much LINK per unit eth spent on gas // (1e-6LINK/ETH units) uint32 microLinkPerEth; // Fixed LINK reward for each observer, in LINK-gwei units uint32 linkGweiPerObservation; // Fixed reward for transmitter, in linkGweiPerObservation units uint32 linkGweiPerTransmission; } Billing internal s_billing; /** * @return LINK token contract used for billing */ LinkTokenInterface immutable public LINK; AccessControllerInterface internal s_billingAccessController; // ith element is number of observation rewards due to ith process, plus one. // This is expected to saturate after an oracle has submitted 65,535 // observations, or about 65535/(3*24*20) = 45 days, given a transmission // every 3 minutes. // // This is always one greater than the actual value, so that when the value is // reset to zero, we don't end up with a zero value in storage (which would // result in a higher gas cost, the next time the value is incremented.) // Calculations using this variable need to take that offset into account. uint16[maxNumOracles] internal s_oracleObservationsCounts; // Addresses at which oracles want to receive payments, by transmitter address mapping (address /* transmitter */ => address /* payment address */) internal s_payees; // Payee addresses which must be approved by the owner mapping (address /* transmitter */ => address /* payment address */) internal s_proposedPayees; // LINK-wei-denominated reimbursements for gas used by transmitters. // // This is always one greater than the actual value, so that when the value is // reset to zero, we don't end up with a zero value in storage (which would // result in a higher gas cost, the next time the value is incremented.) // Calculations using this variable need to take that offset into account. // // Argument for overflow safety: // We have the following maximum intermediate values: // - 2**40 additions to this variable (epochAndRound is a uint40) // - 2**32 gas price in ethgwei/gas // - 1e9 ethwei/ethgwei // - 2**32 gas since the block gas limit is at ~20 million // - 2**32 (microlink/eth) // And we have 2**40 * 2**32 * 1e9 * 2**32 * 2**32 < 2**166 // (we also divide in some places, but that only makes the value smaller) // We can thus safely use uint256 intermediate values for the computation // updating this variable. uint256[maxNumOracles] internal s_gasReimbursementsLinkWei; // Used for s_oracles[a].role, where a is an address, to track the purpose // of the address, or to indicate that the address is unset. enum Role { // No oracle role has been set for address a Unset, // Signing address for the s_oracles[a].index'th oracle. I.e., report // signatures from this oracle should ecrecover back to address a. Signer, // Transmission address for the s_oracles[a].index'th oracle. I.e., if a // report is received by OffchainAggregator.transmit in which msg.sender is // a, it is attributed to the s_oracles[a].index'th oracle. Transmitter } struct Oracle { uint8 index; // Index of oracle in s_signers/s_transmitters Role role; // Role of the address which mapped to this struct } mapping (address /* signer OR transmitter address */ => Oracle) internal s_oracles; // s_signers contains the signing address of each oracle address[] internal s_signers; // s_transmitters contains the transmission address of each oracle, // i.e. the address the oracle actually sends transactions to the contract from address[] internal s_transmitters; uint256 constant private maxUint16 = (1 << 16) - 1; uint256 constant internal maxUint128 = (1 << 128) - 1; constructor( uint32 _maximumGasPrice, uint32 _reasonableGasPrice, uint32 _microLinkPerEth, uint32 _linkGweiPerObservation, uint32 _linkGweiPerTransmission, address _link, AccessControllerInterface _billingAccessController ) { setBillingInternal(_maximumGasPrice, _reasonableGasPrice, _microLinkPerEth, _linkGweiPerObservation, _linkGweiPerTransmission); setBillingAccessControllerInternal(_billingAccessController); LINK = LinkTokenInterface(_link); uint16[maxNumOracles] memory counts; // See s_oracleObservationsCounts docstring uint256[maxNumOracles] memory gas; // see s_gasReimbursementsLinkWei docstring for (uint8 i = 0; i < maxNumOracles; i++) { counts[i] = 1; gas[i] = 1; } s_oracleObservationsCounts = counts; s_gasReimbursementsLinkWei = gas; } /** * @notice emitted when billing parameters are set * @param maximumGasPrice highest gas price for which transmitter will be compensated * @param reasonableGasPrice transmitter will receive reward for gas prices under this value * @param microLinkPerEth reimbursement per ETH of gas cost, in 1e-6LINK units * @param linkGweiPerObservation reward to oracle for contributing an observation to a successfully transmitted report, in 1e-9LINK units * @param linkGweiPerTransmission reward to transmitter of a successful report, in 1e-9LINK units */ event BillingSet( uint32 maximumGasPrice, uint32 reasonableGasPrice, uint32 microLinkPerEth, uint32 linkGweiPerObservation, uint32 linkGweiPerTransmission ); function setBillingInternal( uint32 _maximumGasPrice, uint32 _reasonableGasPrice, uint32 _microLinkPerEth, uint32 _linkGweiPerObservation, uint32 _linkGweiPerTransmission ) internal { s_billing = Billing(_maximumGasPrice, _reasonableGasPrice, _microLinkPerEth, _linkGweiPerObservation, _linkGweiPerTransmission); emit BillingSet(_maximumGasPrice, _reasonableGasPrice, _microLinkPerEth, _linkGweiPerObservation, _linkGweiPerTransmission); } /** * @notice sets billing parameters * @param _maximumGasPrice highest gas price for which transmitter will be compensated * @param _reasonableGasPrice transmitter will receive reward for gas prices under this value * @param _microLinkPerEth reimbursement per ETH of gas cost, in 1e-6LINK units * @param _linkGweiPerObservation reward to oracle for contributing an observation to a successfully transmitted report, in 1e-9LINK units * @param _linkGweiPerTransmission reward to transmitter of a successful report, in 1e-9LINK units * @dev access control provided by billingAccessController */ function setBilling( uint32 _maximumGasPrice, uint32 _reasonableGasPrice, uint32 _microLinkPerEth, uint32 _linkGweiPerObservation, uint32 _linkGweiPerTransmission ) external { AccessControllerInterface access = s_billingAccessController; require(msg.sender == owner || access.hasAccess(msg.sender, msg.data), "Only owner&billingAdmin can call"); payOracles(); setBillingInternal(_maximumGasPrice, _reasonableGasPrice, _microLinkPerEth, _linkGweiPerObservation, _linkGweiPerTransmission); } /** * @notice gets billing parameters * @param maximumGasPrice highest gas price for which transmitter will be compensated * @param reasonableGasPrice transmitter will receive reward for gas prices under this value * @param microLinkPerEth reimbursement per ETH of gas cost, in 1e-6LINK units * @param linkGweiPerObservation reward to oracle for contributing an observation to a successfully transmitted report, in 1e-9LINK units * @param linkGweiPerTransmission reward to transmitter of a successful report, in 1e-9LINK units */ function getBilling() external view returns ( uint32 maximumGasPrice, uint32 reasonableGasPrice, uint32 microLinkPerEth, uint32 linkGweiPerObservation, uint32 linkGweiPerTransmission ) { Billing memory billing = s_billing; return ( billing.maximumGasPrice, billing.reasonableGasPrice, billing.microLinkPerEth, billing.linkGweiPerObservation, billing.linkGweiPerTransmission ); } /** * @notice emitted when a new access-control contract is set * @param old the address prior to the current setting * @param current the address of the new access-control contract */ event BillingAccessControllerSet(AccessControllerInterface old, AccessControllerInterface current); function setBillingAccessControllerInternal(AccessControllerInterface _billingAccessController) internal { AccessControllerInterface oldController = s_billingAccessController; if (_billingAccessController != oldController) { s_billingAccessController = _billingAccessController; emit BillingAccessControllerSet( oldController, _billingAccessController ); } } /** * @notice sets billingAccessController * @param _billingAccessController new billingAccessController contract address * @dev only owner can call this */ function setBillingAccessController(AccessControllerInterface _billingAccessController) external onlyOwner { setBillingAccessControllerInternal(_billingAccessController); } /** * @notice gets billingAccessController * @return address of billingAccessController contract */ function billingAccessController() external view returns (AccessControllerInterface) { return s_billingAccessController; } /** * @notice withdraws an oracle's payment from the contract * @param _transmitter the transmitter address of the oracle * @dev must be called by oracle's payee address */ function withdrawPayment(address _transmitter) external { require(msg.sender == s_payees[_transmitter], "Only payee can withdraw"); payOracle(_transmitter); } /** * @notice query an oracle's payment amount * @param _transmitter the transmitter address of the oracle */ function owedPayment(address _transmitter) public view returns (uint256) { Oracle memory oracle = s_oracles[_transmitter]; if (oracle.role == Role.Unset) { return 0; } Billing memory billing = s_billing; uint256 linkWeiAmount = uint256(s_oracleObservationsCounts[oracle.index] - 1) * uint256(billing.linkGweiPerObservation) * (1 gwei); linkWeiAmount += s_gasReimbursementsLinkWei[oracle.index] - 1; return linkWeiAmount; } /** * @notice emitted when an oracle has been paid LINK * @param transmitter address from which the oracle sends reports to the transmit method * @param payee address to which the payment is sent * @param amount amount of LINK sent */ event OraclePaid(address transmitter, address payee, uint256 amount); // payOracle pays out _transmitter's balance to the corresponding payee, and zeros it out function payOracle(address _transmitter) internal { Oracle memory oracle = s_oracles[_transmitter]; uint256 linkWeiAmount = owedPayment(_transmitter); if (linkWeiAmount > 0) { address payee = s_payees[_transmitter]; // Poses no re-entrancy issues, because LINK.transfer does not yield // control flow. require(LINK.transfer(payee, linkWeiAmount), "insufficient funds"); s_oracleObservationsCounts[oracle.index] = 1; // "zero" the counts. see var's docstring s_gasReimbursementsLinkWei[oracle.index] = 1; // "zero" the counts. see var's docstring emit OraclePaid(_transmitter, payee, linkWeiAmount); } } // payOracles pays out all transmitters, and zeros out their balances. // // It's much more gas-efficient to do this as a single operation, to avoid // hitting storage too much. function payOracles() internal { Billing memory billing = s_billing; uint16[maxNumOracles] memory observationsCounts = s_oracleObservationsCounts; uint256[maxNumOracles] memory gasReimbursementsLinkWei = s_gasReimbursementsLinkWei; address[] memory transmitters = s_transmitters; for (uint transmitteridx = 0; transmitteridx < transmitters.length; transmitteridx++) { uint256 reimbursementAmountLinkWei = gasReimbursementsLinkWei[transmitteridx] - 1; uint256 obsCount = observationsCounts[transmitteridx] - 1; uint256 linkWeiAmount = obsCount * uint256(billing.linkGweiPerObservation) * (1 gwei) + reimbursementAmountLinkWei; if (linkWeiAmount > 0) { address payee = s_payees[transmitters[transmitteridx]]; // Poses no re-entrancy issues, because LINK.transfer does not yield // control flow. require(LINK.transfer(payee, linkWeiAmount), "insufficient funds"); observationsCounts[transmitteridx] = 1; // "zero" the counts. gasReimbursementsLinkWei[transmitteridx] = 1; // "zero" the counts. emit OraclePaid(transmitters[transmitteridx], payee, linkWeiAmount); } } // "Zero" the accounting storage variables s_oracleObservationsCounts = observationsCounts; s_gasReimbursementsLinkWei = gasReimbursementsLinkWei; } function oracleRewards( bytes memory observers, uint16[maxNumOracles] memory observations ) internal pure returns (uint16[maxNumOracles] memory) { // reward each observer-participant with the observer reward for (uint obsIdx = 0; obsIdx < observers.length; obsIdx++) { uint8 observer = uint8(observers[obsIdx]); observations[observer] = saturatingAddUint16(observations[observer], 1); } return observations; } // This value needs to change if maxNumOracles is increased, or the accounting // calculations at the bottom of reimburseAndRewardOracles change. // // To recalculate it, run the profiler as described in // ../../profile/README.md, and add up the gas-usage values reported for the // lines in reimburseAndRewardOracles following the "gasLeft = gasleft()" // line. E.g., you will see output like this: // // 7 uint256 gasLeft = gasleft(); // 29 uint256 gasCostEthWei = transmitterGasCostEthWei( // 9 uint256(initialGas), // 3 gasPrice, // 3 callDataGasCost, // 3 gasLeft // . // . // . // 59 uint256 gasCostLinkWei = (gasCostEthWei * billing.microLinkPerEth)/ 1e6; // . // . // . // 5047 s_gasReimbursementsLinkWei[txOracle.index] = // 856 s_gasReimbursementsLinkWei[txOracle.index] + gasCostLinkWei + // 26 uint256(billing.linkGweiPerTransmission) * (1 gwei); // // If those were the only lines to be accounted for, you would add up // 29+9+3+3+3+59+5047+856+26=6035. uint256 internal constant accountingGasCost = 6035; // Uncomment the following declaration to compute the remaining gas cost after // above gasleft(). (This must exist in a base class to OffchainAggregator, so // it can't go in TestOffchainAggregator.) // // uint256 public gasUsedInAccounting; // Gas price at which the transmitter should be reimbursed, in ETH-gwei/gas function impliedGasPrice( uint256 txGasPrice, // ETH-gwei/gas units uint256 reasonableGasPrice, // ETH-gwei/gas units uint256 maximumGasPrice // ETH-gwei/gas units ) internal pure returns (uint256) { // Reward the transmitter for choosing an efficient gas price: if they manage // to come in lower than considered reasonable, give them half the savings. // // The following calculations are all in units of gwei/gas, i.e. 1e-9ETH/gas uint256 gasPrice = txGasPrice; if (txGasPrice < reasonableGasPrice) { // Give transmitter half the savings for coming in under the reasonable gas price gasPrice += (reasonableGasPrice - txGasPrice) / 2; } // Don't reimburse a gas price higher than maximumGasPrice return min(gasPrice, maximumGasPrice); } // gas reimbursement due the transmitter, in ETH-wei // // If this function is changed, accountingGasCost needs to change, too. See // its docstring function transmitterGasCostEthWei( uint256 initialGas, uint256 gasPrice, // ETH-gwei/gas units uint256 callDataCost, // gas units uint256 gasLeft ) internal pure returns (uint128 gasCostEthWei) { require(initialGas >= gasLeft, "gasLeft cannot exceed initialGas"); uint256 gasUsed = // gas units initialGas - gasLeft + // observed gas usage callDataCost + accountingGasCost; // estimated gas usage // gasUsed is in gas units, gasPrice is in ETH-gwei/gas units; convert to ETH-wei uint256 fullGasCostEthWei = gasUsed * gasPrice * (1 gwei); assert(fullGasCostEthWei < maxUint128); // the entire ETH supply fits in a uint128... return uint128(fullGasCostEthWei); } /** * @notice withdraw any available funds left in the contract, up to _amount, after accounting for the funds due to participants in past reports * @param _recipient address to send funds to * @param _amount maximum amount to withdraw, denominated in LINK-wei. * @dev access control provided by billingAccessController */ function withdrawFunds(address _recipient, uint256 _amount) external { require(msg.sender == owner || s_billingAccessController.hasAccess(msg.sender, msg.data), "Only owner&billingAdmin can call"); uint256 linkDue = totalLINKDue(); uint256 linkBalance = LINK.balanceOf(address(this)); require(linkBalance >= linkDue, "insufficient balance"); require(LINK.transfer(_recipient, min(linkBalance - linkDue, _amount)), "insufficient funds"); } // Total LINK due to participants in past reports. function totalLINKDue() internal view returns (uint256 linkDue) { // Argument for overflow safety: We do all computations in // uint256s. The inputs to linkDue are: // - the <= 31 observation rewards each of which has less than // 64 bits (32 bits for billing.linkGweiPerObservation, 32 bits // for wei/gwei conversion). Hence 69 bits are sufficient for this part. // - the <= 31 gas reimbursements, each of which consists of at most 166 // bits (see s_gasReimbursementsLinkWei docstring). Hence 171 bits are // sufficient for this part // In total, 172 bits are enough. uint16[maxNumOracles] memory observationCounts = s_oracleObservationsCounts; for (uint i = 0; i < maxNumOracles; i++) { linkDue += observationCounts[i] - 1; // Stored value is one greater than actual value } Billing memory billing = s_billing; // Convert linkGweiPerObservation to uint256, or this overflows! linkDue *= uint256(billing.linkGweiPerObservation) * (1 gwei); address[] memory transmitters = s_transmitters; uint256[maxNumOracles] memory gasReimbursementsLinkWei = s_gasReimbursementsLinkWei; for (uint i = 0; i < transmitters.length; i++) { linkDue += uint256(gasReimbursementsLinkWei[i]-1); // Stored value is one greater than actual value } } /** * @notice allows oracles to check that sufficient LINK balance is available * @return availableBalance LINK available on this contract, after accounting for outstanding obligations. can become negative */ function linkAvailableForPayment() external view returns (int256 availableBalance) { // there are at most one billion LINK, so this cast is safe int256 balance = int256(LINK.balanceOf(address(this))); // according to the argument in the definition of totalLINKDue, // totalLINKDue is never greater than 2**172, so this cast is safe int256 due = int256(totalLINKDue()); // safe from overflow according to above sizes return int256(balance) - int256(due); } /** * @notice number of observations oracle is due to be reimbursed for * @param _signerOrTransmitter address used by oracle for signing or transmitting reports */ function oracleObservationCount(address _signerOrTransmitter) external view returns (uint16) { Oracle memory oracle = s_oracles[_signerOrTransmitter]; if (oracle.role == Role.Unset) { return 0; } return s_oracleObservationsCounts[oracle.index] - 1; } function reimburseAndRewardOracles( uint32 initialGas, bytes memory observers ) internal { Oracle memory txOracle = s_oracles[msg.sender]; Billing memory billing = s_billing; // Reward oracles for providing observations. Oracles are not rewarded // for providing signatures, because signing is essentially free. s_oracleObservationsCounts = oracleRewards(observers, s_oracleObservationsCounts); // Reimburse transmitter of the report for gas usage require(txOracle.role == Role.Transmitter, "sent by undesignated transmitter" ); uint256 gasPrice = impliedGasPrice( tx.gasprice / (1 gwei), // convert to ETH-gwei units billing.reasonableGasPrice, billing.maximumGasPrice ); // The following is only an upper bound, as it ignores the cheaper cost for // 0 bytes. Safe from overflow, because calldata just isn't that long. uint256 callDataGasCost = 16 * msg.data.length; // If any changes are made to subsequent calculations, accountingGasCost // needs to change, too. uint256 gasLeft = gasleft(); uint256 gasCostEthWei = transmitterGasCostEthWei( uint256(initialGas), gasPrice, callDataGasCost, gasLeft ); // microLinkPerEth is 1e-6LINK/ETH units, gasCostEthWei is 1e-18ETH units // (ETH-wei), product is 1e-24LINK-wei units, dividing by 1e6 gives // 1e-18LINK units, i.e. LINK-wei units // Safe from over/underflow, since all components are non-negative, // gasCostEthWei will always fit into uint128 and microLinkPerEth is a // uint32 (128+32 < 256!). uint256 gasCostLinkWei = (gasCostEthWei * billing.microLinkPerEth)/ 1e6; // Safe from overflow, because gasCostLinkWei < 2**160 and // billing.linkGweiPerTransmission * (1 gwei) < 2**64 and we increment // s_gasReimbursementsLinkWei[txOracle.index] at most 2**40 times. s_gasReimbursementsLinkWei[txOracle.index] = s_gasReimbursementsLinkWei[txOracle.index] + gasCostLinkWei + uint256(billing.linkGweiPerTransmission) * (1 gwei); // convert from linkGwei to linkWei // Uncomment next line to compute the remaining gas cost after above gasleft(). // See OffchainAggregatorBilling.accountingGasCost docstring for more information. // // gasUsedInAccounting = gasLeft - gasleft(); } /* * Payee management */ /** * @notice emitted when a transfer of an oracle's payee address has been initiated * @param transmitter address from which the oracle sends reports to the transmit method * @param current the payeee address for the oracle, prior to this setting * @param proposed the proposed new payee address for the oracle */ event PayeeshipTransferRequested( address indexed transmitter, address indexed current, address indexed proposed ); /** * @notice emitted when a transfer of an oracle's payee address has been completed * @param transmitter address from which the oracle sends reports to the transmit method * @param current the payeee address for the oracle, prior to this setting */ event PayeeshipTransferred( address indexed transmitter, address indexed previous, address indexed current ); /** * @notice sets the payees for transmitting addresses * @param _transmitters addresses oracles use to transmit the reports * @param _payees addresses of payees corresponding to list of transmitters * @dev must be called by owner * @dev cannot be used to change payee addresses, only to initially populate them */ function setPayees( address[] calldata _transmitters, address[] calldata _payees ) external onlyOwner() { require(_transmitters.length == _payees.length, "transmitters.size != payees.size"); for (uint i = 0; i < _transmitters.length; i++) { address transmitter = _transmitters[i]; address payee = _payees[i]; address currentPayee = s_payees[transmitter]; bool zeroedOut = currentPayee == address(0); require(zeroedOut || currentPayee == payee, "payee already set"); s_payees[transmitter] = payee; if (currentPayee != payee) { emit PayeeshipTransferred(transmitter, currentPayee, payee); } } } /** * @notice first step of payeeship transfer (safe transfer pattern) * @param _transmitter transmitter address of oracle whose payee is changing * @param _proposed new payee address * @dev can only be called by payee address */ function transferPayeeship( address _transmitter, address _proposed ) external { require(msg.sender == s_payees[_transmitter], "only current payee can update"); require(msg.sender != _proposed, "cannot transfer to self"); address previousProposed = s_proposedPayees[_transmitter]; s_proposedPayees[_transmitter] = _proposed; if (previousProposed != _proposed) { emit PayeeshipTransferRequested(_transmitter, msg.sender, _proposed); } } /** * @notice second step of payeeship transfer (safe transfer pattern) * @param _transmitter transmitter address of oracle whose payee is changing * @dev can only be called by proposed new payee address */ function acceptPayeeship( address _transmitter ) external { require(msg.sender == s_proposedPayees[_transmitter], "only proposed payees can accept"); address currentPayee = s_payees[_transmitter]; s_payees[_transmitter] = msg.sender; s_proposedPayees[_transmitter] = address(0); emit PayeeshipTransferred(_transmitter, currentPayee, msg.sender); } /* * Helper functions */ function saturatingAddUint16(uint16 _x, uint16 _y) internal pure returns (uint16) { return uint16(min(uint256(_x)+uint256(_y), maxUint16)); } function min(uint256 a, uint256 b) internal pure returns (uint256) { if (a < b) { return a; } return b; } } // OffchainAggregator.sol /** * @notice Onchain verification of reports from the offchain reporting protocol * @dev For details on its operation, see the offchain reporting protocol design * @dev doc, which refers to this contract as simply the "contract". */ contract OffchainAggregator is Owned, OffchainAggregatorBilling, AggregatorV2V3Interface, TypeAndVersionInterface { uint256 constant private maxUint32 = (1 << 32) - 1; // Storing these fields used on the hot path in a HotVars variable reduces the // retrieval of all of them to a single SLOAD. If any further fields are // added, make sure that storage of the struct still takes at most 32 bytes. struct HotVars { // Provides 128 bits of security against 2nd pre-image attacks, but only // 64 bits against collisions. This is acceptable, since a malicious owner has // easier way of messing up the protocol than to find hash collisions. bytes16 latestConfigDigest; uint40 latestEpochAndRound; // 32 most sig bits for epoch, 8 least sig bits for round // Current bound assumed on number of faulty/dishonest oracles participating // in the protocol, this value is referred to as f in the design uint8 threshold; // Chainlink Aggregators expose a roundId to consumers. The offchain reporting // protocol does not use this id anywhere. We increment it whenever a new // transmission is made to provide callers with contiguous ids for successive // reports. uint32 latestAggregatorRoundId; } HotVars internal s_hotVars; // Transmission records the median answer from the transmit transaction at // time timestamp struct Transmission { int192 answer; // 192 bits ought to be enough for anyone uint64 timestamp; } mapping(uint32 /* aggregator round ID */ => Transmission) internal s_transmissions; // incremented each time a new config is posted. This count is incorporated // into the config digest, to prevent replay attacks. uint32 internal s_configCount; uint32 internal s_latestConfigBlockNumber; // makes it easier for offchain systems // to extract config from logs. // Lowest answer the system is allowed to report in response to transmissions int192 immutable public minAnswer; // Highest answer the system is allowed to report in response to transmissions int192 immutable public maxAnswer; /* * @param _maximumGasPrice highest gas price for which transmitter will be compensated * @param _reasonableGasPrice transmitter will receive reward for gas prices under this value * @param _microLinkPerEth reimbursement per ETH of gas cost, in 1e-6LINK units * @param _linkGweiPerObservation reward to oracle for contributing an observation to a successfully transmitted report, in 1e-9LINK units * @param _linkGweiPerTransmission reward to transmitter of a successful report, in 1e-9LINK units * @param _link address of the LINK contract * @param _minAnswer lowest answer the median of a report is allowed to be * @param _maxAnswer highest answer the median of a report is allowed to be * @param _billingAccessController access controller for billing admin functions * @param _requesterAccessController access controller for requesting new rounds * @param _decimals answers are stored in fixed-point format, with this many digits of precision * @param _description short human-readable description of observable this contract's answers pertain to */ constructor( uint32 _maximumGasPrice, uint32 _reasonableGasPrice, uint32 _microLinkPerEth, uint32 _linkGweiPerObservation, uint32 _linkGweiPerTransmission, address _link, int192 _minAnswer, int192 _maxAnswer, AccessControllerInterface _billingAccessController, AccessControllerInterface _requesterAccessController, uint8 _decimals, string memory _description ) OffchainAggregatorBilling(_maximumGasPrice, _reasonableGasPrice, _microLinkPerEth, _linkGweiPerObservation, _linkGweiPerTransmission, _link, _billingAccessController ) { decimals = _decimals; s_description = _description; setRequesterAccessController(_requesterAccessController); setValidatorConfig(AggregatorValidatorInterface(0x0), 0); minAnswer = _minAnswer; maxAnswer = _maxAnswer; } /* * Versioning */ function typeAndVersion() external override pure virtual returns (string memory) { return "OffchainAggregator 2.0.0"; } /* * Config logic */ /** * @notice triggers a new run of the offchain reporting protocol * @param previousConfigBlockNumber block in which the previous config was set, to simplify historic analysis * @param configCount ordinal number of this config setting among all config settings over the life of this contract * @param signers ith element is address ith oracle uses to sign a report * @param transmitters ith element is address ith oracle uses to transmit a report via the transmit method * @param threshold maximum number of faulty/dishonest oracles the protocol can tolerate while still working correctly * @param encodedConfigVersion version of the serialization format used for "encoded" parameter * @param encoded serialized data used by oracles to configure their offchain operation */ event ConfigSet( uint32 previousConfigBlockNumber, uint64 configCount, address[] signers, address[] transmitters, uint8 threshold, uint64 encodedConfigVersion, bytes encoded ); // Reverts transaction if config args are invalid modifier checkConfigValid ( uint256 _numSigners, uint256 _numTransmitters, uint256 _threshold ) { require(_numSigners <= maxNumOracles, "too many signers"); require(_threshold > 0, "threshold must be positive"); require( _numSigners == _numTransmitters, "oracle addresses out of registration" ); require(_numSigners > 3*_threshold, "faulty-oracle threshold too high"); _; } /** * @notice sets offchain reporting protocol configuration incl. participating oracles * @param _signers addresses with which oracles sign the reports * @param _transmitters addresses oracles use to transmit the reports * @param _threshold number of faulty oracles the system can tolerate * @param _encodedConfigVersion version number for offchainEncoding schema * @param _encoded encoded off-chain oracle configuration */ function setConfig( address[] calldata _signers, address[] calldata _transmitters, uint8 _threshold, uint64 _encodedConfigVersion, bytes calldata _encoded ) external checkConfigValid(_signers.length, _transmitters.length, _threshold) onlyOwner() { while (s_signers.length != 0) { // remove any old signer/transmitter addresses uint lastIdx = s_signers.length - 1; address signer = s_signers[lastIdx]; address transmitter = s_transmitters[lastIdx]; payOracle(transmitter); delete s_oracles[signer]; delete s_oracles[transmitter]; s_signers.pop(); s_transmitters.pop(); } for (uint i = 0; i < _signers.length; i++) { // add new signer/transmitter addresses require( s_oracles[_signers[i]].role == Role.Unset, "repeated signer address" ); s_oracles[_signers[i]] = Oracle(uint8(i), Role.Signer); require(s_payees[_transmitters[i]] != address(0), "payee must be set"); require( s_oracles[_transmitters[i]].role == Role.Unset, "repeated transmitter address" ); s_oracles[_transmitters[i]] = Oracle(uint8(i), Role.Transmitter); s_signers.push(_signers[i]); s_transmitters.push(_transmitters[i]); } s_hotVars.threshold = _threshold; uint32 previousConfigBlockNumber = s_latestConfigBlockNumber; s_latestConfigBlockNumber = uint32(block.number); s_configCount += 1; uint64 configCount = s_configCount; { s_hotVars.latestConfigDigest = configDigestFromConfigData( address(this), configCount, _signers, _transmitters, _threshold, _encodedConfigVersion, _encoded ); s_hotVars.latestEpochAndRound = 0; } emit ConfigSet( previousConfigBlockNumber, configCount, _signers, _transmitters, _threshold, _encodedConfigVersion, _encoded ); } function configDigestFromConfigData( address _contractAddress, uint64 _configCount, address[] calldata _signers, address[] calldata _transmitters, uint8 _threshold, uint64 _encodedConfigVersion, bytes calldata _encodedConfig ) internal pure returns (bytes16) { return bytes16(keccak256(abi.encode(_contractAddress, _configCount, _signers, _transmitters, _threshold, _encodedConfigVersion, _encodedConfig ))); } /** * @notice information about current offchain reporting protocol configuration * @return configCount ordinal number of current config, out of all configs applied to this contract so far * @return blockNumber block at which this config was set * @return configDigest domain-separation tag for current config (see configDigestFromConfigData) */ function latestConfigDetails() external view returns ( uint32 configCount, uint32 blockNumber, bytes16 configDigest ) { return (s_configCount, s_latestConfigBlockNumber, s_hotVars.latestConfigDigest); } /** * @return list of addresses permitted to transmit reports to this contract * @dev The list will match the order used to specify the transmitter during setConfig */ function transmitters() external view returns(address[] memory) { return s_transmitters; } /* * On-chain validation logc */ // Configuration for validator struct ValidatorConfig { AggregatorValidatorInterface validator; uint32 gasLimit; } ValidatorConfig private s_validatorConfig; /** * @notice indicates that the validator configuration has been set * @param previousValidator previous validator contract * @param previousGasLimit previous gas limit for validate calls * @param currentValidator current validator contract * @param currentGasLimit current gas limit for validate calls */ event ValidatorConfigSet( AggregatorValidatorInterface indexed previousValidator, uint32 previousGasLimit, AggregatorValidatorInterface indexed currentValidator, uint32 currentGasLimit ); /** * @notice validator configuration * @return validator validator contract * @return gasLimit gas limit for validate calls */ function validatorConfig() external view returns (AggregatorValidatorInterface validator, uint32 gasLimit) { ValidatorConfig memory vc = s_validatorConfig; return (vc.validator, vc.gasLimit); } /** * @notice sets validator configuration * @dev set _newValidator to 0x0 to disable validate calls * @param _newValidator address of the new validator contract * @param _newGasLimit new gas limit for validate calls */ function setValidatorConfig(AggregatorValidatorInterface _newValidator, uint32 _newGasLimit) public onlyOwner() { ValidatorConfig memory previous = s_validatorConfig; if (previous.validator != _newValidator || previous.gasLimit != _newGasLimit) { s_validatorConfig = ValidatorConfig({ validator: _newValidator, gasLimit: _newGasLimit }); emit ValidatorConfigSet(previous.validator, previous.gasLimit, _newValidator, _newGasLimit); } } function validateAnswer( uint32 _aggregatorRoundId, int256 _answer ) private { ValidatorConfig memory vc = s_validatorConfig; if (address(vc.validator) == address(0)) { return; } uint32 prevAggregatorRoundId = _aggregatorRoundId - 1; int256 prevAggregatorRoundAnswer = s_transmissions[prevAggregatorRoundId].answer; // We do not want the validator to ever prevent reporting, so we limit its // gas usage and catch any errors that may arise. try vc.validator.validate{gas: vc.gasLimit}( prevAggregatorRoundId, prevAggregatorRoundAnswer, _aggregatorRoundId, _answer ) {} catch {} } /* * requestNewRound logic */ AccessControllerInterface internal s_requesterAccessController; /** * @notice emitted when a new requester access controller contract is set * @param old the address prior to the current setting * @param current the address of the new access controller contract */ event RequesterAccessControllerSet(AccessControllerInterface old, AccessControllerInterface current); /** * @notice emitted to immediately request a new round * @param requester the address of the requester * @param configDigest the latest transmission's configDigest * @param epoch the latest transmission's epoch * @param round the latest transmission's round */ event RoundRequested(address indexed requester, bytes16 configDigest, uint32 epoch, uint8 round); /** * @notice address of the requester access controller contract * @return requester access controller address */ function requesterAccessController() external view returns (AccessControllerInterface) { return s_requesterAccessController; } /** * @notice sets the requester access controller * @param _requesterAccessController designates the address of the new requester access controller */ function setRequesterAccessController(AccessControllerInterface _requesterAccessController) public onlyOwner() { AccessControllerInterface oldController = s_requesterAccessController; if (_requesterAccessController != oldController) { s_requesterAccessController = AccessControllerInterface(_requesterAccessController); emit RequesterAccessControllerSet(oldController, _requesterAccessController); } } /** * @notice immediately requests a new round * @return the aggregatorRoundId of the next round. Note: The report for this round may have been * transmitted (but not yet mined) *before* requestNewRound() was even called. There is *no* * guarantee of causality between the request and the report at aggregatorRoundId. */ function requestNewRound() external returns (uint80) { require(msg.sender == owner || s_requesterAccessController.hasAccess(msg.sender, msg.data), "Only owner&requester can call"); HotVars memory hotVars = s_hotVars; emit RoundRequested( msg.sender, hotVars.latestConfigDigest, uint32(s_hotVars.latestEpochAndRound >> 8), uint8(s_hotVars.latestEpochAndRound) ); return hotVars.latestAggregatorRoundId + 1; } /* * Transmission logic */ /** * @notice indicates that a new report was transmitted * @param aggregatorRoundId the round to which this report was assigned * @param answer median of the observations attached this report * @param transmitter address from which the report was transmitted * @param observations observations transmitted with this report * @param rawReportContext signature-replay-prevention domain-separation tag */ event NewTransmission( uint32 indexed aggregatorRoundId, int192 answer, address transmitter, int192[] observations, bytes observers, bytes32 rawReportContext ); // decodeReport is used to check that the solidity and go code are using the // same format. See TestOffchainAggregator.testDecodeReport and TestReportParsing function decodeReport(bytes memory _report) internal pure returns ( bytes32 rawReportContext, bytes32 rawObservers, int192[] memory observations ) { (rawReportContext, rawObservers, observations) = abi.decode(_report, (bytes32, bytes32, int192[])); } // Used to relieve stack pressure in transmit struct ReportData { HotVars hotVars; // Only read from storage once bytes observers; // ith element is the index of the ith observer int192[] observations; // ith element is the ith observation bytes vs; // jth element is the v component of the jth signature bytes32 rawReportContext; } /* * @notice details about the most recent report * @return configDigest domain separation tag for the latest report * @return epoch epoch in which the latest report was generated * @return round OCR round in which the latest report was generated * @return latestAnswer median value from latest report * @return latestTimestamp when the latest report was transmitted */ function latestTransmissionDetails() external view returns ( bytes16 configDigest, uint32 epoch, uint8 round, int192 latestAnswer, uint64 latestTimestamp ) { require(msg.sender == tx.origin, "Only callable by EOA"); return ( s_hotVars.latestConfigDigest, uint32(s_hotVars.latestEpochAndRound >> 8), uint8(s_hotVars.latestEpochAndRound), s_transmissions[s_hotVars.latestAggregatorRoundId].answer, s_transmissions[s_hotVars.latestAggregatorRoundId].timestamp ); } // The constant-length components of the msg.data sent to transmit. // See the "If we wanted to call sam" example on for example reasoning // https://solidity.readthedocs.io/en/v0.7.2/abi-spec.html uint16 private constant TRANSMIT_MSGDATA_CONSTANT_LENGTH_COMPONENT = 4 + // function selector 32 + // word containing start location of abiencoded _report value 32 + // word containing location start of abiencoded _rs value 32 + // word containing start location of abiencoded _ss value 32 + // _rawVs value 32 + // word containing length of _report 32 + // word containing length _rs 32 + // word containing length of _ss 0; // placeholder function expectedMsgDataLength( bytes calldata _report, bytes32[] calldata _rs, bytes32[] calldata _ss ) private pure returns (uint256 length) { // calldata will never be big enough to make this overflow return uint256(TRANSMIT_MSGDATA_CONSTANT_LENGTH_COMPONENT) + _report.length + // one byte pure entry in _report _rs.length * 32 + // 32 bytes per entry in _rs _ss.length * 32 + // 32 bytes per entry in _ss 0; // placeholder } /** * @notice transmit is called to post a new report to the contract * @param _report serialized report, which the signatures are signing. See parsing code below for format. The ith element of the observers component must be the index in s_signers of the address for the ith signature * @param _rs ith element is the R components of the ith signature on report. Must have at most maxNumOracles entries * @param _ss ith element is the S components of the ith signature on report. Must have at most maxNumOracles entries * @param _rawVs ith element is the the V component of the ith signature */ function transmit( // NOTE: If these parameters are changed, expectedMsgDataLength and/or // TRANSMIT_MSGDATA_CONSTANT_LENGTH_COMPONENT need to be changed accordingly bytes calldata _report, bytes32[] calldata _rs, bytes32[] calldata _ss, bytes32 _rawVs // signatures ) external { uint256 initialGas = gasleft(); // This line must come first // Make sure the transmit message-length matches the inputs. Otherwise, the // transmitter could append an arbitrarily long (up to gas-block limit) // string of 0 bytes, which we would reimburse at a rate of 16 gas/byte, but // which would only cost the transmitter 4 gas/byte. (Appendix G of the // yellow paper, p. 25, for G_txdatazero and EIP 2028 for G_txdatanonzero.) // This could amount to reimbursement profit of 36 million gas, given a 3MB // zero tail. require(msg.data.length == expectedMsgDataLength(_report, _rs, _ss), "transmit message too long"); ReportData memory r; // Relieves stack pressure { r.hotVars = s_hotVars; // cache read from storage bytes32 rawObservers; (r.rawReportContext, rawObservers, r.observations) = abi.decode( _report, (bytes32, bytes32, int192[]) ); // rawReportContext consists of: // 11-byte zero padding // 16-byte configDigest // 4-byte epoch // 1-byte round bytes16 configDigest = bytes16(r.rawReportContext << 88); require( r.hotVars.latestConfigDigest == configDigest, "configDigest mismatch" ); uint40 epochAndRound = uint40(uint256(r.rawReportContext)); // direct numerical comparison works here, because // // ((e,r) <= (e',r')) implies (epochAndRound <= epochAndRound') // // because alphabetic ordering implies e <= e', and if e = e', then r<=r', // so e*256+r <= e'*256+r', because r, r' < 256 require(r.hotVars.latestEpochAndRound < epochAndRound, "stale report"); require(_rs.length > r.hotVars.threshold, "not enough signatures"); require(_rs.length <= maxNumOracles, "too many signatures"); require(_ss.length == _rs.length, "signatures out of registration"); require(r.observations.length <= maxNumOracles, "num observations out of bounds"); require(r.observations.length > 2 * r.hotVars.threshold, "too few values to trust median"); // Copy signature parities in bytes32 _rawVs to bytes r.v r.vs = new bytes(_rs.length); for (uint8 i = 0; i < _rs.length; i++) { r.vs[i] = _rawVs[i]; } // Copy observer identities in bytes32 rawObservers to bytes r.observers r.observers = new bytes(r.observations.length); bool[maxNumOracles] memory seen; for (uint8 i = 0; i < r.observations.length; i++) { uint8 observerIdx = uint8(rawObservers[i]); require(!seen[observerIdx], "observer index repeated"); seen[observerIdx] = true; r.observers[i] = rawObservers[i]; } Oracle memory transmitter = s_oracles[msg.sender]; require( // Check that sender is authorized to report transmitter.role == Role.Transmitter && msg.sender == s_transmitters[transmitter.index], "unauthorized transmitter" ); // record epochAndRound here, so that we don't have to carry the local // variable in transmit. The change is reverted if something fails later. r.hotVars.latestEpochAndRound = epochAndRound; } { // Verify signatures attached to report bytes32 h = keccak256(_report); bool[maxNumOracles] memory signed; Oracle memory o; for (uint i = 0; i < _rs.length; i++) { address signer = ecrecover(h, uint8(r.vs[i])+27, _rs[i], _ss[i]); o = s_oracles[signer]; require(o.role == Role.Signer, "address not authorized to sign"); require(!signed[o.index], "non-unique signature"); signed[o.index] = true; } } { // Check the report contents, and record the result for (uint i = 0; i < r.observations.length - 1; i++) { bool inOrder = r.observations[i] <= r.observations[i+1]; require(inOrder, "observations not sorted"); } int192 median = r.observations[r.observations.length/2]; require(minAnswer <= median && median <= maxAnswer, "median is out of min-max range"); r.hotVars.latestAggregatorRoundId++; s_transmissions[r.hotVars.latestAggregatorRoundId] = Transmission(median, uint64(block.timestamp)); emit NewTransmission( r.hotVars.latestAggregatorRoundId, median, msg.sender, r.observations, r.observers, r.rawReportContext ); // Emit these for backwards compatability with offchain consumers // that only support legacy events emit NewRound( r.hotVars.latestAggregatorRoundId, address(0x0), // use zero address since we don't have anybody "starting" the round here block.timestamp ); emit AnswerUpdated( median, r.hotVars.latestAggregatorRoundId, block.timestamp ); validateAnswer(r.hotVars.latestAggregatorRoundId, median); } s_hotVars = r.hotVars; assert(initialGas < maxUint32); reimburseAndRewardOracles(uint32(initialGas), r.observers); } /* * v2 Aggregator interface */ /** * @notice median from the most recent report */ function latestAnswer() public override view virtual returns (int256) { return s_transmissions[s_hotVars.latestAggregatorRoundId].answer; } /** * @notice timestamp of block in which last report was transmitted */ function latestTimestamp() public override view virtual returns (uint256) { return s_transmissions[s_hotVars.latestAggregatorRoundId].timestamp; } /** * @notice Aggregator round (NOT OCR round) in which last report was transmitted */ function latestRound() public override view virtual returns (uint256) { return s_hotVars.latestAggregatorRoundId; } /** * @notice median of report from given aggregator round (NOT OCR round) * @param _roundId the aggregator round of the target report */ function getAnswer(uint256 _roundId) public override view virtual returns (int256) { if (_roundId > 0xFFFFFFFF) { return 0; } return s_transmissions[uint32(_roundId)].answer; } /** * @notice timestamp of block in which report from given aggregator round was transmitted * @param _roundId aggregator round (NOT OCR round) of target report */ function getTimestamp(uint256 _roundId) public override view virtual returns (uint256) { if (_roundId > 0xFFFFFFFF) { return 0; } return s_transmissions[uint32(_roundId)].timestamp; } /* * v3 Aggregator interface */ string constant private V3_NO_DATA_ERROR = "No data present"; /** * @return answers are stored in fixed-point format, with this many digits of precision */ uint8 immutable public override decimals; /** * @notice aggregator contract version */ uint256 constant public override version = 4; string internal s_description; /** * @notice human-readable description of observable this contract is reporting on */ function description() public override view virtual returns (string memory) { return s_description; } /** * @notice details for the given aggregator round * @param _roundId target aggregator round (NOT OCR round). Must fit in uint32 * @return roundId _roundId * @return answer median of report from given _roundId * @return startedAt timestamp of block in which report from given _roundId was transmitted * @return updatedAt timestamp of block in which report from given _roundId was transmitted * @return answeredInRound _roundId */ function getRoundData(uint80 _roundId) public override view virtual returns ( uint80 roundId, int256 answer, uint256 startedAt, uint256 updatedAt, uint80 answeredInRound ) { require(_roundId <= 0xFFFFFFFF, V3_NO_DATA_ERROR); Transmission memory transmission = s_transmissions[uint32(_roundId)]; return ( _roundId, transmission.answer, transmission.timestamp, transmission.timestamp, _roundId ); } /** * @notice aggregator details for the most recently transmitted report * @return roundId aggregator round of latest report (NOT OCR round) * @return answer median of latest report * @return startedAt timestamp of block containing latest report * @return updatedAt timestamp of block containing latest report * @return answeredInRound aggregator round of latest report */ function latestRoundData() public override view virtual returns ( uint80 roundId, int256 answer, uint256 startedAt, uint256 updatedAt, uint80 answeredInRound ) { roundId = s_hotVars.latestAggregatorRoundId; // Skipped for compatability with existing FluxAggregator in which latestRoundData never reverts. // require(roundId != 0, V3_NO_DATA_ERROR); Transmission memory transmission = s_transmissions[uint32(roundId)]; return ( roundId, transmission.answer, transmission.timestamp, transmission.timestamp, roundId ); } } // AccessControlledOffchainAggregator.sol /** * @notice Wrapper of OffchainAggregator which checks read access on Aggregator-interface methods */ contract AccessControlledOffchainAggregator is OffchainAggregator, SimpleReadAccessController { constructor( uint32 _maximumGasPrice, uint32 _reasonableGasPrice, uint32 _microLinkPerEth, uint32 _linkGweiPerObservation, uint32 _linkGweiPerTransmission, address _link, int192 _minAnswer, int192 _maxAnswer, AccessControllerInterface _billingAccessController, AccessControllerInterface _requesterAccessController, uint8 _decimals, string memory description ) OffchainAggregator( _maximumGasPrice, _reasonableGasPrice, _microLinkPerEth, _linkGweiPerObservation, _linkGweiPerTransmission, _link, _minAnswer, _maxAnswer, _billingAccessController, _requesterAccessController, _decimals, description ) { } /* * Versioning */ function typeAndVersion() external override pure virtual returns (string memory) { return "AccessControlledOffchainAggregator 2.0.0"; } /* * v2 Aggregator interface */ /// @inheritdoc OffchainAggregator function latestAnswer() public override view checkAccess() returns (int256) { return super.latestAnswer(); } /// @inheritdoc OffchainAggregator function latestTimestamp() public override view checkAccess() returns (uint256) { return super.latestTimestamp(); } /// @inheritdoc OffchainAggregator function latestRound() public override view checkAccess() returns (uint256) { return super.latestRound(); } /// @inheritdoc OffchainAggregator function getAnswer(uint256 _roundId) public override view checkAccess() returns (int256) { return super.getAnswer(_roundId); } /// @inheritdoc OffchainAggregator function getTimestamp(uint256 _roundId) public override view checkAccess() returns (uint256) { return super.getTimestamp(_roundId); } /* * v3 Aggregator interface */ /// @inheritdoc OffchainAggregator function description() public override view checkAccess() returns (string memory) { return super.description(); } /// @inheritdoc OffchainAggregator function getRoundData(uint80 _roundId) public override view checkAccess() returns ( uint80 roundId, int256 answer, uint256 startedAt, uint256 updatedAt, uint80 answeredInRound ) { return super.getRoundData(_roundId); } /// @inheritdoc OffchainAggregator function latestRoundData() public override view checkAccess() returns ( uint80 roundId, int256 answer, uint256 startedAt, uint256 updatedAt, uint80 answeredInRound ) { return super.latestRoundData(); } } // ExposedOffchainAggregator.sol // ExposedOffchainAggregator exposes certain internal OffchainAggregator // methods/structures so that golang code can access them, and we get // reliable type checking on their usage contract ExposedOffchainAggregator is OffchainAggregator { constructor() OffchainAggregator( 0, 0, 0, 0, 0, address(0), 0, 0, AccessControllerInterface(address(0)), AccessControllerInterface(address(0)), 0, "" ) {} function exposedConfigDigestFromConfigData( address _contractAddress, uint64 _configCount, address[] calldata _signers, address[] calldata _transmitters, uint8 _threshold, uint64 _encodedConfigVersion, bytes calldata _encodedConfig ) external pure returns (bytes16) { return configDigestFromConfigData(_contractAddress, _configCount, _signers, _transmitters, _threshold, _encodedConfigVersion, _encodedConfig); } } // TestValidator.sol contract TestValidator is AggregatorValidatorInterface { uint32 s_minGasUse; uint256 s_latestRoundId; event Validated( uint256 previousRoundId, int256 previousAnswer, uint256 currentRoundId, int256 currentAnswer, uint256 initialGas ); function validate( uint256 previousRoundId, int256 previousAnswer, uint256 currentRoundId, int256 currentAnswer ) external override returns (bool) { uint256 initialGas = gasleft(); emit Validated( previousRoundId, previousAnswer, currentRoundId, currentAnswer, initialGas ); s_latestRoundId = currentRoundId; uint256 minGasUse = s_minGasUse; while (initialGas - gasleft() < minGasUse) {} return true; } function setMinGasUse(uint32 minGasUse) external { s_minGasUse = minGasUse; } function latestRoundId() external view returns (uint256) { return s_latestRoundId; } } // AccessControlTestHelper.sol contract AccessControlTestHelper { event Dummy(); // Used to silence warning that these methods are pure function readGetRoundData(address _aggregator, uint80 _roundID) external { AccessControlledOffchainAggregator(_aggregator).getRoundData(_roundID); emit Dummy(); } function readLatestRoundData(address _aggregator) external { AccessControlledOffchainAggregator(_aggregator).latestRoundData(); emit Dummy(); } function readLatestAnswer(address _aggregator) external { AccessControlledOffchainAggregator(_aggregator).latestAnswer(); emit Dummy(); } function readLatestTimestamp(address _aggregator) external { AccessControlledOffchainAggregator(_aggregator).latestTimestamp(); emit Dummy(); } function readLatestRound(address _aggregator) external { AccessControlledOffchainAggregator(_aggregator).latestRound(); emit Dummy(); } function readGetAnswer(address _aggregator, uint256 _roundID) external { AccessControlledOffchainAggregator(_aggregator).getAnswer(_roundID); emit Dummy(); } function readGetTimestamp(address _aggregator, uint256 _roundID) external { AccessControlledOffchainAggregator(_aggregator).getTimestamp(_roundID); emit Dummy(); } function testLatestTransmissionDetails(address _aggregator) external view { OffchainAggregator(_aggregator).latestTransmissionDetails(); } } // TestOffchainAggregator.sol contract TestOffchainAggregator is AccessControlledOffchainAggregator { function testDecodeReport( bytes memory report ) public pure returns (bytes32, bytes32, int192[] memory) { return decodeReport(report); } constructor( uint32 _maximumGasPrice, uint32 _reasonableGasPrice, uint32 _microLinkPerEth, uint32 _linkGweiPerObservation, uint32 _linkGweiPerTransmission, address _link, int192 _minAnswer, int192 _maxAnswer, AccessControllerInterface _billingAccessController, AccessControllerInterface _requesterAdminAccessController ) AccessControlledOffchainAggregator(_maximumGasPrice, _reasonableGasPrice, _microLinkPerEth, _linkGweiPerObservation, _linkGweiPerTransmission, _link, _minAnswer, _maxAnswer, _billingAccessController, _requesterAdminAccessController, 0, "TEST" ) {} function testPayee( address _transmitter ) external view returns (address) { return s_payees[_transmitter]; } function getConfigDigest() public view returns (bytes16) { return s_hotVars.latestConfigDigest; } function testSaturatingAddUint16(uint16 _x, uint16 _y) external pure returns (uint16) { return saturatingAddUint16(_x, _y); } function testImpliedGasPrice(uint256 txGasPrice, uint256 reasonableGasPrice, uint256 maximumGasPrice ) external pure returns (uint256) { return impliedGasPrice(txGasPrice, reasonableGasPrice, maximumGasPrice); } function testTransmitterGasCostEthWei(uint256 initialGas, uint256 gasPrice, uint256 callDataCost, uint256 gasLeft ) external pure returns (uint128) { return transmitterGasCostEthWei( initialGas, gasPrice, callDataCost, gasLeft ); } function testSetOracleObservationCount(address _oracle, uint16 _amount) external { s_oracleObservationsCounts[s_oracles[_oracle].index] = _amount + 1; } function testTotalLinkDue() external view returns (uint256 linkDue) { return totalLINKDue(); } function billingData() external view returns ( uint16[maxNumOracles] memory observationsCounts, uint256[maxNumOracles] memory gasReimbursements, uint32 maximumGasPrice, uint32 reasonableGasPrice, uint32 microLinkPerEth, uint32 linkGweiPerObservation, uint32 linkGweiPerTransmission ) { Billing memory b = s_billing; return (s_oracleObservationsCounts, s_gasReimbursementsLinkWei, b.maximumGasPrice, b.reasonableGasPrice, b.microLinkPerEth, b.linkGweiPerObservation, b.linkGweiPerTransmission); } function testSetGasReimbursements(address _transmitterOrSigner, uint256 _amountLinkWei) external { require(s_oracles[_transmitterOrSigner].role != Role.Unset, "address unknown"); s_gasReimbursementsLinkWei[s_oracles[_transmitterOrSigner].index] = _amountLinkWei + 1; } function testAccountingGasCost() public pure returns (uint256) { return accountingGasCost; } function testBurnLINK(uint256 amount) public { LINK.transfer(address(1), amount); } }
Due to the mixed experience I've had, this guide will assume that you have simply copy and pasted the flattened contract from the below link.
It should look like the below image:
With the contract imported into remix, We'll need to compile it
Compile the Contract
Once Pasted into Remix, navigate to the Compile page.
In the image above, you can see that the COMPILER version is 0.7.6+...
When deploying the AccessControlledOffchainAggregator.sol
contract, we want to be sure that the version selected here is 0.7.6+commit.7338295f
With the correct version selected, go ahead and compile the contract by clicking the blue button with the circular arrows
Once that succeeds, we can then deploy the contract.
Note: You'll likely see some Orange warning boxes when compiling. For the sake of this doc, we'll ignore those.
Deploy the Contract
With the contract compiled, we then need to navigate to the Deploy & run transactions tab
Once on the Deploy & run transactions tab, we want to be sure that we have the correct contract selected in the drop down menu
With the correct contract deployed, we'll want to open the drop down menu to the right of the Orange Deploy button.
With the drop down expanded, we will want to populate the empty fields with the desired values.
The values in the above example are not recommended to deploy with. They're just place holder values. Additional context around each of the above values is below:
(the OCR Aggregators' billing values are in bold)
_MAXIMUMGASPRICE
: This value is used by the contract when calculating the amount of LINK to reimburse for the transmission fee reimbursement -- it's a billing value. In this example, the contract will only reimburse up to 2000GWEI_REASONABLEGASPRICE
: This is another billing value. Any transmission that gets on-chain with a gas price below this value is compensated >100%. For example, if a transmission is broadcast at 20 gwei, the Chainlink Node that got the transmission on-chain will be reimbursed for 60 gwei._MICROLINKPERETH
: This is also a billing value; It sets the price ratio of LINK to ETH used to reimburse for transmission costs._LINKGWEIPEROBSERVATION
: This is the fourth billing value; It sets the amount of LINK (in gwei) to pay to all Chainlink Nodes that participate in reaching an agreed upon value of the asset._LINKGWEIPERTRANSMISSION
: This is the final billing value. It sets the transmission "bonus" that he transmitter receives for getting the collection of observations written on-chain._LINK
: This is the LINK token contract address for the chain that the feed runs on. Full list of supported LINK contract addresses available here._MINANSWER
: This is the minimum value that the contract will accept. This value is dependent upon the_decimals
variable. If you have it set to1000000
with8
decimals, the lowest value it will accept is0.01
_MAXANSWER
: This is the maximum value that the contract will accept. This value is dependent upon the_decimals
variable. If you have it set to100000000000
with8
decimals, the largest value it will accept is1000.00
_BILLINGACCESSCONTROLLER
: This is the address of the SimpleWriteAccessController that is configured to control which address(es) are allowed to write changes to the OCR Aggregators' billing values provided above._REQUESTERACCESSCONTROLLER
: This is teh address of the SimpleWriteAccessController that is configured to control with address(es) are allowed to transmit observations to the OCR Aggregator. You should whitelist all Chainlink Nodes' AccountAddresses that you want on the feed._DECIMALS
: This is the number of decimal places used for the on-chain price. Reference the_MINANSWER
and_MAXANSER
above for examples.DESCRIPTION
: This is the friendly name of the Aggregator contract. An example would beLINK / USD
for the the LINK / USD price feed.
Additional information regarding these values is available at the AccessControlledOffchainAggregator Reads page.
The LINK token contract addresses are available at the official Chainlink docs page as well as here in the wiki's LINK Token Contract Address Index.
Your _BILLINGACCESSCONTROLLER
and _REQUESTERACCESSCONTROLLER
addresses are the two SimpleWriteAccessController.sol
contracts you had previously deployed.
Note:
Once you have populated all of those fields, go ahead and click Deploy!