pragma solidity ^0.4.11; import "./LiquidPledgingBase.sol"; contract LiquidPledging is LiquidPledgingBase { ////// // Constructor ////// // This constructor actualy also calls the constructor for the // `LiquidPledgingBase` contract function LiquidPledging(address _vault) LiquidPledgingBase(_vault) { } /// @notice This is how value enters into the system which creates notes. The /// token of value goes into the vault and then the amount in the Note /// relevant to this donor without delegates is increased. /// After that, a normal transfer is done to the idReceiver. /// @param idDonor Identifier of the donor thats donating. /// @param idReceiver To whom it's transfered. Can be the same donor, another /// donor, a delegate or a project function donate(uint64 idDonor, uint64 idReceiver) payable {// TODO change to `pledge()` NoteManager storage sender = findManager(idDonor); require(sender.managerType == NoteManagerType.Donor); require(sender.addr == msg.sender); uint amount = msg.value; require(amount > 0); vault.transfer(amount); // transfers the baseToken to the Vault uint64 idNote = findNote( idDonor, new uint64[](0), //what is new 0, 0, 0, PaymentState.NotPaid); Note storage nTo = findNote(idNote); nTo.amount += amount; Transfer(0, idNote, amount); transfer(idDonor, idNote, amount, idReceiver); } /// @notice This is the main function to move value from one Note to the other /// @param idSender ID of the donor, delegate or project manager that is transfering /// the funds from Note to Note. This manager must have permisions to move the value /// @param idNote Id of the note that's moving the value /// @param amount Quantity of value that's being moved /// @param idReceiver Destination of the value, can be a donor sending to a donor or /// a delegate, a delegate to another delegate or a project to precommit it to that project function transfer(uint64 idSender, uint64 idNote, uint amount, uint64 idReceiver) { idNote = normalizeNote(idNote); Note storage n = findNote(idNote); NoteManager storage receiver = findManager(idReceiver); NoteManager storage sender = findManager(idSender); require(sender.addr == msg.sender); require(n.paymentState == PaymentState.NotPaid); // If the sender is the owner if (n.owner == idSender) { if (receiver.managerType == NoteManagerType.Donor) { transferOwnershipToDonor(idNote, amount, idReceiver); } else if (receiver.managerType == NoteManagerType.Project) { transferOwnershipToProject(idNote, amount, idReceiver); } else if (receiver.managerType == NoteManagerType.Delegate) { appendDelegate(idNote, amount, idReceiver); } else { assert(false); } return; } // If the sender is a delegate uint senderDIdx = getDelegateIdx(n, idSender); if (senderDIdx != NOTFOUND) { // If the receiver is another donor if (receiver.managerType == NoteManagerType.Donor) { // Only accept to change to the original donor to remove all delegates assert(n.owner == idReceiver); undelegate(idNote, amount, n.delegationChain.length); return; } // If the receiver is another delegate if (receiver.managerType == NoteManagerType.Delegate) { uint receiverDIdx = getDelegateIdx(n, idReceiver); // If the receiver is not in the delegate list if (receiverDIdx == NOTFOUND) { undelegate(idNote, amount, n.delegationChain.length - senderDIdx - 1); appendDelegate(idNote, amount, idReceiver); // If the receiver is already part of the delegate chain and is // after the sender, then all of the other delegates after the sender are // removed and the receiver is appended at the end of the delegation chain } else if (receiverDIdx > senderDIdx) { undelegate(idNote, amount, n.delegationChain.length - senderDIdx - 1); appendDelegate(idNote, amount, idReceiver); // If the receiver is already part of the delegate chain and is // before the sender, then the sender and all of the other // delegates after the RECEIVER are revomved from the chain, // this is interesting because the delegate undelegates from the // delegates that delegated to this delegate... game theory issues? should this be allowed } else if (receiverDIdx <= senderDIdx) { undelegate(idNote, amount, n.delegationChain.length - receiverDIdx -1); } return; } // If the delegate wants to support a project, they undelegate all // the delegates after them in the chain and choose a project if (receiver.managerType == NoteManagerType.Project) { undelegate(idNote, amount, n.delegationChain.length - senderDIdx - 1); proposeAssignProject(idNote, amount, idReceiver); return; } } assert(false); // It is not the owner nor any delegate. } /// @notice This method is used to withdraw value from the system. This can be used /// by the donors to avoid committing the donation or by project manager to use /// the Ether. /// @param idNote Id of the note that wants to be withdrawed. /// @param amount Quantity of Ether that wants to be withdrawed. function withdraw(uint64 idNote, uint amount) { idNote = normalizeNote(idNote); Note storage n = findNote(idNote); require(n.paymentState == PaymentState.NotPaid); NoteManager storage owner = findManager(n.owner); require(owner.addr == msg.sender); uint64 idNewNote = findNote( n.owner, n.delegationChain, 0, 0, n.oldNote, PaymentState.Paying ); doTransfer(idNote, idNewNote, amount); vault.authorizePayment(bytes32(idNewNote), owner.addr, amount); } /// @notice Method called by the vault to confirm a payment. /// @param idNote Id of the note that wants to be withdrawed. /// @param amount Quantity of Ether that wants to be withdrawed. function confirmPayment(uint64 idNote, uint amount) onlyVault { Note storage n = findNote(idNote); require(n.paymentState == PaymentState.Paying); // Check the project is not canceled in the while. require(getOldestNoteNotCanceled(idNote) == idNote); uint64 idNewNote = findNote( n.owner, n.delegationChain, 0, 0, n.oldNote, PaymentState.Paid ); doTransfer(idNote, idNewNote, amount); } /// @notice Method called by the vault to cancel a payment. /// @param idNote Id of the note that wants to be canceled for withdraw. /// @param amount Quantity of Ether that wants to be rolled back. function cancelPayment(uint64 idNote, uint amount) onlyVault { Note storage n = findNote(idNote); require(n.paymentState == PaymentState.Paying); //TODO change to revert // When a payment is cacnceled, never is assigned to a project. uint64 oldNote = findNote( n.owner, n.delegationChain, 0, 0, n.oldNote, PaymentState.NotPaid ); oldNote = normalizeNote(oldNote); doTransfer(idNote, oldNote, amount); } /// @notice Method called to cancel this project. /// @param idProject Id of the projct that wants to be canceled. function cancelProject(uint64 idProject) { NoteManager storage project = findManager(idProject); require(project.addr == msg.sender); project.canceled = true; } //////// // Multi note methods //////// // This set of functions makes moving a lot of notes around much more // efficient (saves gas) than calling these functions in series uint constant D64 = 0x10000000000000000; function mTransfer(uint64 idSender, uint[] notesAmounts, uint64 idReceiver) { for (uint i = 0; i < notesAmounts.length; i++ ) { uint64 idNote = uint64( notesAmounts[i] & (D64-1) ); uint amount = notesAmounts[i] / D64; transfer(idSender, idNote, amount, idReceiver); } } function mWithdraw(uint[] notesAmounts) { for (uint i = 0; i < notesAmounts.length; i++ ) { uint64 idNote = uint64( notesAmounts[i] & (D64-1) ); uint amount = notesAmounts[i] / D64; withdraw(idNote, amount); } } function mConfirmPayment(uint[] notesAmounts) { for (uint i = 0; i < notesAmounts.length; i++ ) { uint64 idNote = uint64( notesAmounts[i] & (D64-1) ); uint amount = notesAmounts[i] / D64; confirmPayment(idNote, amount); } } function mCancelPayment(uint[] notesAmounts) { for (uint i = 0; i < notesAmounts.length; i++ ) { uint64 idNote = uint64( notesAmounts[i] & (D64-1) ); uint amount = notesAmounts[i] / D64; cancelPayment(idNote, amount); } } //////// // Private methods /////// // this function is obvious, but it can also be called to undelegate everyone // by setting your self as teh idReceiver function transferOwnershipToProject(uint64 idNote, uint amount, uint64 idReceiver) internal { Note storage n = findNote(idNote); require(getNoteLevel(n) < MAX_INTERPROJECT_LEVEL); uint64 oldNote = findNote( n.owner, n.delegationChain, 0, 0, n.oldNote, PaymentState.NotPaid); uint64 toNote = findNote( idReceiver, new uint64[](0), 0, 0, oldNote, PaymentState.NotPaid); doTransfer(idNote, toNote, amount); } function transferOwnershipToDonor(uint64 idNote, uint amount, uint64 idReceiver) internal { Note storage n = findNote(idNote); uint64 toNote = findNote( idReceiver, new uint64[](0), 0, 0, 0, PaymentState.NotPaid); doTransfer(idNote, toNote, amount); } function appendDelegate(uint64 idNote, uint amount, uint64 idReceiver) internal { Note storage n= findNote(idNote); require(n.delegationChain.length < MAX_DELEGATES); //TODO change to revert and say the error uint64[] memory newDelegationChain = new uint64[](n.delegationChain.length + 1); for (uint i=0; i= amount); nFrom.amount -= amount; nTo.amount += amount; Transfer(from, to, amount); } // This function does 2 things, #1: it checks to make sure that the pledges are correct // if the a pledged project has already been commited then it changes the owner // to be the proposed project (Note that the UI will have to read the commit time and manually // do what this function does to the note for the end user at the expiration of the committime) // #2: It checks to make sure that if there has been a cancellation in the chain of projects, // then it adjusts the note's owner appropriately. function normalizeNote(uint64 idNote) internal returns(uint64) { Note storage n = findNote(idNote); // Check to make sure this note hasnt already been used or is in the process of being used if (n.paymentState != PaymentState.NotPaid) return idNote; // First send to a project if it's proposed and commited if ((n.proposedProject > 0) && ( getTime() > n.commitTime)) { uint64 oldNote = findNote( n.owner, n.delegationChain, 0, 0, n.oldNote, PaymentState.NotPaid); uint64 toNote = findNote( n.proposedProject, new uint64[](0), 0, 0, oldNote, PaymentState.NotPaid); doTransfer(idNote, toNote, n.amount); idNote = toNote; n = findNote(idNote); } toNote = getOldestNoteNotCanceled(idNote);// TODO toNote is note defined if (toNote != idNote) { doTransfer(idNote, toNote, n.amount); } return toNote; } ///////////// // Test functions ///////////// function getTime() internal returns (uint) { return now; } event Transfer(uint64 indexed from, uint64 indexed to, uint amount); }