{
    "Function": "_resolve",
    "File": "src/contracts/middleware/PaymentManager.sol",
    "Parent Contracts": [
        "src/contracts/permissions/Pausable.sol",
        "src/contracts/interfaces/IPausable.sol",
        "src/contracts/interfaces/IPaymentManager.sol",
        "lib/openzeppelin-contracts-upgradeable/contracts/proxy/utils/Initializable.sol"
    ],
    "High-Level Calls": [
        "SafeERC20",
        "SafeERC20"
    ],
    "Internal Calls": [],
    "Library Calls": [
        "safeTransfer",
        "safeTransfer"
    ],
    "Low-Level Calls": [],
    "Code": "function _resolve(PaymentChallenge memory challenge, address winner) internal {\n        address operator = challenge.operator;\n        address challenger = challenge.challenger;\n        if (winner == operator) {\n            // operator was correct, allow for another challenge\n            operatorToPayment[operator].status = PaymentStatus.COMMITTED;\n            operatorToPayment[operator].confirmAt = uint32(block.timestamp + paymentFraudproofInterval);\n            /*\n            * Since the operator hasn't been proved right (only challenger has been proved wrong)\n            * transfer them only challengers challengeAmount, not their own challengeAmount (which is still\n            * locked up in this contract)\n             */\n            paymentChallengeToken.safeTransfer(operator, operatorToPayment[operator].challengeAmount);\n            emit PaymentChallengeResolution(operator, true);\n        } else {\n            // challeger was correct, reset payment\n            operatorToPayment[operator].status = PaymentStatus.REDEEMED;\n            //give them their challengeAmount and the operator's\n            paymentChallengeToken.safeTransfer(challenger, 2 * operatorToPayment[operator].challengeAmount);\n            emit PaymentChallengeResolution(operator, false);\n        }\n    }"
}