// // XXX Should make sure all fields and are recognized on a transactions. // XXX Make sure fee is claimed for failed transactions. // XXX Might uses an unordered set for vector. // #include "TransactionEngine.h" #include #include #include "../json/writer.h" #include "Config.h" #include "TransactionFormats.h" #include "utils.h" #include "Log.h" // Small for testing, should likely be 32 or 64. #define DIR_NODE_MAX 2 bool transResultInfo(TransactionEngineResult terCode, std::string& strToken, std::string& strHuman) { static struct { TransactionEngineResult terCode; const char* cpToken; const char* cpHuman; } transResultInfoA[] = { { tenBAD_ADD_AUTH, "tenBAD_ADD_AUTH", "Not authorized to add account." }, { tenBAD_AMOUNT, "tenBAD_AMOUNT", "Can only send positive amounts." }, { tenBAD_CLAIM_ID, "tenBAD_CLAIM_ID", "Malformed." }, { tenBAD_EXPIRATION, "tenBAD_EXPIRATION", "Malformed." }, { tenBAD_GEN_AUTH, "tenBAD_GEN_AUTH", "Not authorized to claim generator." }, { tenBAD_ISSUER, "tenBAD_ISSUER", "Malformed." }, { tenBAD_OFFER, "tenBAD_OFFER", "Malformed." }, { tenBAD_RIPPLE, "tenBAD_RIPPLE", "Ledger prevents ripple from succeeding." }, { tenBAD_SET_ID, "tenBAD_SET_ID", "Malformed." }, { tenCLAIMED, "tenCLAIMED", "Can not claim a previously claimed account." }, { tenCREATED, "tenCREATED", "Can't add an already created account." }, { tenCREATEXNS, "tenCREATEXNS", "Can not specify non XNS for Create." }, { tenDST_IS_SRC, "tenDST_IS_SRC", "Destination may not be source." }, { tenDST_NEEDED, "tenDST_NEEDED", "Destination not specified." }, { tenEXPIRED, "tenEXPIRED", "Won't add an expired offer." }, { tenEXPLICITXNS, "tenEXPLICITXNS", "XNS is used by default, don't specify it." }, { tenFAILED, "tenFAILED", "Something broke horribly" }, { tenGEN_IN_USE, "tenGEN_IN_USE", "Generator already in use." }, { tenINSUF_FEE_P, "tenINSUF_FEE_P", "fee totally insufficient" }, { tenINVALID, "tenINVALID", "The transaction is ill-formed" }, { tenMSG_SET, "tenMSG_SET", "Can't change a message key." }, { tenREDUNDANT, "tenREDUNDANT", "Sends same currency to self." }, { tenRIPPLE_EMPTY, "tenRIPPLE_EMPTY", "PathSet with no paths." }, { tenUNKNOWN, "tenUNKNOWN", "The transactions requires logic not implemented yet" }, { terALREADY, "terALREADY", "The exact transaction was already in this ledger" }, { terBAD_AUTH, "terBAD_AUTH", "Transaction's public key is not authorized." }, { terBAD_AUTH_MASTER, "terBAD_AUTH_MASTER", "Auth for unclaimed account needs correct master key." }, { terBAD_LEDGER, "terBAD_LEDGER", "Ledger in unexpected state." }, { terBAD_RIPPLE, "terBAD_RIPPLE", "No ripple path can be satisfied." }, { terBAD_SEQ, "terBAD_SEQ", "This sequence number should be zero for prepaid transactions." }, { terCREATED, "terCREATED", "Can not create a previously created account." }, { terDIR_FULL, "terDIR_FULL", "Can not add entry to full dir." }, { terFUNDS_SPENT, "terFUNDS_SPENT", "Can't set password, password set funds already spent." }, { terINSUF_FEE_B, "terINSUF_FEE_B", "Account balance can't pay fee" }, { terINSUF_FEE_T, "terINSUF_FEE_T", "fee insufficient now (account doesn't exist, network load)" }, { terNODE_NOT_FOUND, "terNODE_NOT_FOUND", "Can not delete a directory node." }, { terNODE_NOT_MENTIONED, "terNODE_NOT_MENTIONED", "Could not remove node from a directory." }, { terNODE_NO_ROOT, "terNODE_NO_ROOT", "Directory doesn't exist." }, { terNO_ACCOUNT, "terNO_ACCOUNT", "The source account does not exist" }, { terNO_DST, "terNO_DST", "The destination does not exist" }, { terNO_LINE_NO_ZERO, "terNO_LINE_NO_ZERO", "Can't zero non-existant line, destination might make it." }, { terNO_PATH, "terNO_PATH", "No path existed or met transaction/balance requirements" }, { terOFFER_NOT_FOUND, "terOFFER_NOT_FOUND", "Can not cancel offer." }, { terOVER_LIMIT, "terOVER_LIMIT", "Over limit." }, { terPAST_LEDGER, "terPAST_LEDGER", "The transaction expired and can't be applied" }, { terPAST_SEQ, "terPAST_SEQ", "This sequence number has already past" }, { terPRE_SEQ, "terPRE_SEQ", "Missing/inapplicable prior transaction" }, { terSET_MISSING_DST, "terSET_MISSING_DST", "Can't set password, destination missing." }, { terSUCCESS, "terSUCCESS", "The transaction was applied" }, { terUNCLAIMED, "terUNCLAIMED", "Can not use an unclaimed account." }, { terUNFUNDED, "terUNFUNDED", "Source account had insufficient balance for transaction." }, }; int iIndex = NUMBER(transResultInfoA); while (iIndex-- && transResultInfoA[iIndex].terCode != terCode) ; if (iIndex >= 0) { strToken = transResultInfoA[iIndex].cpToken; strHuman = transResultInfoA[iIndex].cpHuman; } return iIndex >= 0; } // Return how much of uIssuerID's uCurrency IOUs that uAccountID holds. May be negative. // <-- IOU's uAccountID has of uIssuerID STAmount TransactionEngine::rippleHolds(const uint160& uAccountID, const uint160& uCurrency, const uint160& uIssuerID) { STAmount saBalance; SLE::pointer sleRippleState = mLedger->getRippleState(Ledger::getRippleStateIndex(uAccountID, uIssuerID, uCurrency)); if (sleRippleState) { saBalance = sleRippleState->getIValueFieldAmount(sfBalance); if (uAccountID < uIssuerID) saBalance.negate(); // Put balance in low terms. } return saBalance; } STAmount TransactionEngine::accountHolds(const uint160& uAccountID, const uint160& uCurrency, const uint160& uIssuerID) { STAmount saAmount; if (uCurrency.isZero()) { SLE::pointer sleAccount = mLedger->getAccountRoot(uAccountID); saAmount = sleAccount->getIValueFieldAmount(sfBalance); } else { saAmount = rippleHolds(uAccountID, uCurrency, uIssuerID); } return saAmount; } // --> saDefault/currency/issuer STAmount TransactionEngine::accountFunds(const uint160& uAccountID, const STAmount& saDefault) { STAmount saFunds; if (!saDefault.isNative() && saDefault.getIssuer() == uAccountID) { saFunds = saDefault; Log(lsINFO) << "accountFunds: offer funds: ripple self-funded: " << saFunds.getText(); } else { saFunds = accountHolds(uAccountID, saDefault.getCurrency(), saDefault.getIssuer()); Log(lsINFO) << "accountFunds: offer funds: " << saFunds.getText(); } return saFunds; } // Calculate transit fee. STAmount TransactionEngine::rippleTransit(const uint160& uSenderID, const uint160& uReceiverID, const uint160& uIssuerID, const STAmount& saAmount) { STAmount saTransitFee; if (uSenderID != uIssuerID && uReceiverID != uIssuerID) { SLE::pointer sleIssuerAccount = mLedger->getAccountRoot(uIssuerID); uint32 uTransitRate; if (sleIssuerAccount->getIFieldPresent(sfTransferRate)) uTransitRate = sleIssuerAccount->getIFieldU32(sfTransferRate); if (uTransitRate) { STAmount saTransitRate(uint160(1), uTransitRate, -9); saTransitFee = STAmount::multiply(saAmount, saTransitRate, saAmount.getCurrency()); } } return saTransitFee; } // Send regardless of limits. // --> saAmount: Amount/currency/issuer for receiver to get. // <-- saActual: Amount actually sent. Sender pay's fees. STAmount TransactionEngine::rippleSend(const uint160& uSenderID, const uint160& uReceiverID, const STAmount& saAmount) { STAmount saActual; uint160 uIssuerID = saAmount.getIssuer(); if (uSenderID == uIssuerID || uReceiverID == uIssuerID) { // Direct send: redeeming IOUs and/or sending own IOUs. bool bFlipped = uSenderID > uReceiverID; uint256 uIndex = Ledger::getRippleStateIndex(uSenderID, uReceiverID, saAmount.getCurrency()); SLE::pointer sleRippleState = mLedger->getRippleState(uIndex); if (!sleRippleState) { Log(lsINFO) << "rippleSend: Creating ripple line: " << uIndex.ToString(); STAmount saBalance = saAmount; sleRippleState = entryCreate(ltRIPPLE_STATE, uIndex); if (!bFlipped) saBalance.negate(); sleRippleState->setIFieldAmount(sfBalance, saBalance); sleRippleState->setIFieldAccount(bFlipped ? sfHighID : sfLowID, uSenderID); sleRippleState->setIFieldAccount(bFlipped ? sfLowID : sfHighID, uReceiverID); } else { STAmount saBalance = sleRippleState->getIValueFieldAmount(sfBalance); if (!bFlipped) saBalance.negate(); // Put balance in low terms. saBalance += saAmount; if (!bFlipped) saBalance.negate(); sleRippleState->setIFieldAmount(sfBalance, saBalance); entryModify(sleRippleState); } saActual = saAmount; } else { // Sending 3rd party IOUs: transit. STAmount saTransitFee = rippleTransit(uSenderID, uReceiverID, uIssuerID, saAmount); saActual = saTransitFee.isZero() ? saAmount : saAmount+saTransitFee; saActual.setIssuer(uIssuerID); // XXX Make sure this done in + above. rippleSend(uIssuerID, uReceiverID, saAmount); rippleSend(uSenderID, uIssuerID, saActual); } return saActual; } STAmount TransactionEngine::accountSend(const uint160& uSenderID, const uint160& uReceiverID, const STAmount& saAmount) { STAmount saActualCost; if (saAmount.isNative()) { SLE::pointer sleSender = mLedger->getAccountRoot(uSenderID); SLE::pointer sleReceiver = mLedger->getAccountRoot(uReceiverID); sleSender->setIFieldAmount(sfBalance, sleSender->getIValueFieldAmount(sfBalance) - saAmount); sleReceiver->setIFieldAmount(sfBalance, sleReceiver->getIValueFieldAmount(sfBalance) + saAmount); saActualCost = saAmount; } else { saActualCost = rippleSend(uSenderID, uReceiverID, saAmount); } return saActualCost; } TransactionEngineResult TransactionEngine::offerDelete(const SLE::pointer& sleOffer, const uint256& uOfferIndex, const uint160& uOwnerID) { uint64 uOwnerNode = sleOffer->getIFieldU64(sfOwnerNode); TransactionEngineResult terResult = dirDelete(true, uOwnerNode, Ledger::getOwnerDirIndex(uOwnerID), uOfferIndex); if (terSUCCESS == terResult) { uint256 uDirectory = sleOffer->getIFieldH256(sfDirectory); uint64 uBookNode = sleOffer->getIFieldU64(sfBookNode); terResult = dirDelete(false, uBookNode, uDirectory, uOfferIndex); } entryDelete(sleOffer); return terResult; } // <-- uNodeDir: For deletion, present to make dirDelete efficient. // --> uRootIndex: The index of the base of the directory. Nodes are based off of this. // --> uLedgerIndex: Value to add to directory. // We only append. This allow for things that watch append only structure to just monitor from the last node on ward. // Within a node with no deletions order of elements is sequential. Otherwise, order of elements is random. TransactionEngineResult TransactionEngine::dirAdd( uint64& uNodeDir, const uint256& uRootIndex, const uint256& uLedgerIndex) { SLE::pointer sleNode; STVector256 svIndexes; LedgerStateParms lspRoot = lepNONE; SLE::pointer sleRoot = mLedger->getDirNode(lspRoot, uRootIndex); if (!sleRoot) { // No root, make it. sleRoot = entryCreate(ltDIR_NODE, uRootIndex); sleNode = sleRoot; uNodeDir = 0; } else { uNodeDir = sleRoot->getIFieldU64(sfIndexPrevious); // Get index to last directory node. if (uNodeDir) { // Try adding to last node. lspRoot = lepNONE; sleNode = mLedger->getDirNode(lspRoot, Ledger::getDirNodeIndex(uRootIndex, uNodeDir)); assert(sleNode); } else { // Try adding to root. Didn't have a previous set to the last node. sleNode = sleRoot; } svIndexes = sleNode->getIFieldV256(sfIndexes); if (DIR_NODE_MAX != svIndexes.peekValue().size()) { // Add to current node. entryModify(sleNode); } // Add to new node. else if (!++uNodeDir) { return terDIR_FULL; } else { // Have old last point to new node, if it was not root. if (uNodeDir == 1) { // Previous node is root node. sleRoot->setIFieldU64(sfIndexNext, uNodeDir); } else { // Previous node is not root node. lspRoot = lepNONE; SLE::pointer slePrevious = mLedger->getDirNode(lspRoot, Ledger::getDirNodeIndex(uRootIndex, uNodeDir-1)); slePrevious->setIFieldU64(sfIndexNext, uNodeDir); entryModify(slePrevious); sleNode->setIFieldU64(sfIndexPrevious, uNodeDir-1); } // Have root point to new node. sleRoot->setIFieldU64(sfIndexPrevious, uNodeDir); entryModify(sleRoot); // Create the new node. sleNode = entryCreate(ltDIR_NODE, Ledger::getDirNodeIndex(uRootIndex, uNodeDir)); svIndexes = STVector256(); } } svIndexes.peekValue().push_back(uLedgerIndex); // Append entry. sleNode->setIFieldV256(sfIndexes, svIndexes); // Save entry. Log(lsINFO) << "dirAdd: creating: root: " << uRootIndex.ToString(); Log(lsINFO) << "dirAdd: appending: Entry: " << uLedgerIndex.ToString(); Log(lsINFO) << "dirAdd: appending: Node: " << strHex(uNodeDir); // Log(lsINFO) << "dirAdd: appending: PREV: " << svIndexes.peekValue()[0].ToString(); return terSUCCESS; } // --> bKeepRoot: True, if we never completely clean up, after we overflow the root node. // --> uNodeDir: Node containing entry. // --> uRootIndex: The index of the base of the directory. Nodes are based off of this. // --> uLedgerIndex: Value to add to directory. // Ledger must be in a state for this to work. TransactionEngineResult TransactionEngine::dirDelete( bool bKeepRoot, const uint64& uNodeDir, const uint256& uRootIndex, const uint256& uLedgerIndex) { uint64 uNodeCur = uNodeDir; LedgerStateParms lspNode = lepNONE; SLE::pointer sleNode = mLedger->getDirNode(lspNode, uNodeCur ? Ledger::getDirNodeIndex(uRootIndex, uNodeCur) : uRootIndex); assert(sleNode); if (!sleNode) { Log(lsWARNING) << "dirDelete: no such node"; return terBAD_LEDGER; } STVector256 svIndexes = sleNode->getIFieldV256(sfIndexes); std::vector& vuiIndexes = svIndexes.peekValue(); std::vector::iterator it; it = std::find(vuiIndexes.begin(), vuiIndexes.end(), uLedgerIndex); assert(vuiIndexes.end() != it); if (vuiIndexes.end() == it) { assert(false); Log(lsWARNING) << "dirDelete: no such entry"; return terBAD_LEDGER; } // Remove the element. if (vuiIndexes.size() > 1) *it = vuiIndexes[vuiIndexes.size()-1]; vuiIndexes.resize(vuiIndexes.size()-1); sleNode->setIFieldV256(sfIndexes, svIndexes); entryModify(sleNode); if (vuiIndexes.empty()) { // May be able to delete nodes. uint64 uNodePrevious = sleNode->getIFieldU64(sfIndexPrevious); uint64 uNodeNext = sleNode->getIFieldU64(sfIndexNext); if (!uNodeCur) { // Just emptied root node. if (!uNodePrevious) { // Never overflowed the root node. Delete it. entryDelete(sleNode); } // Root overflowed. else if (bKeepRoot) { // If root overflowed and not allowed to delete overflowed root node. nothing(); } else if (uNodePrevious != uNodeNext) { // Have more than 2 nodes. Can't delete root node. nothing(); } else { // Have only a root node and a last node. LedgerStateParms lspLast = lepNONE; SLE::pointer sleLast = mLedger->getDirNode(lspLast, Ledger::getDirNodeIndex(uRootIndex, uNodeNext)); assert(sleLast); if (sleLast->getIFieldV256(sfIndexes).peekValue().empty()) { // Both nodes are empty. entryDelete(sleNode); // Delete root. entryDelete(sleLast); // Delete last. } else { // Have an entry, can't delete root node. nothing(); } } } // Just emptied a non-root node. else if (uNodeNext) { // Not root and not last node. Can delete node. LedgerStateParms lspPrevious = lepNONE; SLE::pointer slePrevious = mLedger->getDirNode(lspPrevious, uNodePrevious ? Ledger::getDirNodeIndex(uRootIndex, uNodePrevious) : uRootIndex); assert(slePrevious); LedgerStateParms lspNext = lepNONE; SLE::pointer sleNext = mLedger->getDirNode(lspNext, uNodeNext ? Ledger::getDirNodeIndex(uRootIndex, uNodeNext) : uRootIndex); assert(slePrevious); assert(sleNext); if (!slePrevious) { Log(lsWARNING) << "dirDelete: previous node is missing"; return terBAD_LEDGER; } if (!sleNext) { Log(lsWARNING) << "dirDelete: next node is missing"; return terBAD_LEDGER; } // Fix previous to point to its new next. slePrevious->setIFieldU64(sfIndexNext, uNodeNext); entryModify(slePrevious); // Fix next to point to its new previous. sleNext->setIFieldU64(sfIndexPrevious, uNodePrevious); entryModify(sleNext); } // Last node. else if (bKeepRoot || uNodePrevious) { // Not allowed to delete last node as root was overflowed. // Or, have pervious entries preventing complete delete. nothing(); } else { // Last and only node besides the root. LedgerStateParms lspRoot = lepNONE; SLE::pointer sleRoot = mLedger->getDirNode(lspRoot, uRootIndex); assert(sleRoot); if (sleRoot->getIFieldV256(sfIndexes).peekValue().empty()) { // Both nodes are empty. entryDelete(sleRoot); // Delete root. entryDelete(sleNode); // Delete last. } else { // Root has an entry, can't delete. nothing(); } } } return terSUCCESS; } // --> uRootIndex // <-- uEntryIndex // <-- uEntryNode void TransactionEngine::dirFirst(const uint256& uRootIndex, uint256& uEntryIndex, uint64& uEntryNode) { LedgerStateParms lspRoot = lepNONE; SLE::pointer sleRoot = mLedger->getDirNode(lspRoot, uRootIndex); STVector256 svIndexes = sleRoot->getIFieldV256(sfIndexes); std::vector& vuiIndexes = svIndexes.peekValue(); if (vuiIndexes.empty()) { uEntryNode = sleRoot->getIFieldU64(sfIndexNext); LedgerStateParms lspNext = lepNONE; SLE::pointer sleNext = mLedger->getDirNode(lspNext, Ledger::getDirNodeIndex(uRootIndex, uEntryNode)); uEntryIndex = sleNext->getIFieldV256(sfIndexes).peekValue()[0]; } else { uEntryIndex = vuiIndexes[0]; uEntryNode = 0; } } // Set the authorized public key for an account. May also set the generator map. TransactionEngineResult TransactionEngine::setAuthorized(const SerializedTransaction& txn, bool bMustSetGenerator) { // // Verify that submitter knows the private key for the generator. // Otherwise, people could deny access to generators. // std::vector vucCipher = txn.getITFieldVL(sfGenerator); std::vector vucPubKey = txn.getITFieldVL(sfPubKey); std::vector vucSignature = txn.getITFieldVL(sfSignature); NewcoinAddress naAccountPublic = NewcoinAddress::createAccountPublic(vucPubKey); if (!naAccountPublic.accountPublicVerify(Serializer::getSHA512Half(vucCipher), vucSignature)) { Log(lsWARNING) << "createGenerator: bad signature unauthorized generator claim"; return tenBAD_GEN_AUTH; } // Create generator. uint160 hGeneratorID = naAccountPublic.getAccountID(); LedgerStateParms qry = lepNONE; SLE::pointer sleGen = mLedger->getGenerator(qry, hGeneratorID); if (!sleGen) { // Create the generator. Log(lsTRACE) << "createGenerator: creating generator"; sleGen = entryCreate(ltGENERATOR_MAP, Ledger::getGeneratorIndex(hGeneratorID)); sleGen->setIFieldVL(sfGenerator, vucCipher); } else if (bMustSetGenerator) { // Doing a claim. Must set generator. // Generator is already in use. Regular passphrases limited to one wallet. Log(lsWARNING) << "createGenerator: generator already in use"; return tenGEN_IN_USE; } // Set the public key needed to use the account. uint160 uAuthKeyID = bMustSetGenerator ? hGeneratorID // Claim : txn.getITFieldAccount(sfAuthorizedKey); // PasswordSet mTxnAccount->setIFieldAccount(sfAuthorizedKey, uAuthKeyID); return terSUCCESS; } SLE::pointer TransactionEngine::entryCreate(LedgerEntryType letType, const uint256& uIndex) { assert(!uIndex.isZero()); SLE::pointer sleNew = boost::make_shared(letType); sleNew->setIndex(uIndex); mEntries[uIndex] = std::make_pair(sleNew, taaCREATE); return sleNew; } void TransactionEngine::entryDelete(SLE::pointer sleEntry) { assert(sleEntry); const uint256& uIndex = sleEntry->getIndex(); entryMap::const_iterator it = mEntries.find(uIndex); switch (it == mEntries.end() ? taaNONE : it->second.second) { case taaCREATE: assert(false); // Unexpected case. break; case taaMODIFY: case taaNONE: mEntries[uIndex] = std::make_pair(sleEntry, taaDELETE); // Upgrade. break; case taaDELETE: nothing(); // No change. break; } } void TransactionEngine::entryModify(SLE::pointer sleEntry) { assert(sleEntry); const uint256& uIndex = sleEntry->getIndex(); entryMap::const_iterator it = mEntries.find(uIndex); switch (it == mEntries.end() ? taaNONE : it->second.second) { case taaDELETE: assert(false); // Unexpected case. break; case taaNONE: mEntries[uIndex] = std::make_pair(sleEntry, taaMODIFY); // Upgrade. break; case taaCREATE: case taaMODIFY: nothing(); // No change. break; } } void TransactionEngine::txnWrite() { // Write back the account states and add the transaction to the ledger BOOST_FOREACH(entryMap_value_type it, mEntries) { const SLE::pointer& sleEntry = it.second.first; switch (it.second.second) { case taaNONE: assert(false); break; case taaCREATE: { Log(lsINFO) << "applyTransaction: taaCREATE: " << sleEntry->getText(); if (mLedger->writeBack(lepCREATE, sleEntry) & lepERROR) assert(false); } break; case taaMODIFY: { Log(lsINFO) << "applyTransaction: taaMODIFY: " << sleEntry->getText(); if (mLedger->writeBack(lepNONE, sleEntry) & lepERROR) assert(false); } break; case taaDELETE: { Log(lsINFO) << "applyTransaction: taaDELETE: " << sleEntry->getText(); if (!mLedger->peekAccountStateMap()->delItem(it.first)) assert(false); } break; } } } // This is for when a transaction fails from the issuer's point of view and the current changes need to be cleared so other // actions can be applied to the ledger. void TransactionEngine::entryReset(const SerializedTransaction& txn) { mEntries.clear(); // Lose old SLE modifications. mTxnAccount = mLedger->getAccountRoot(mTxnAccountID); // Get new SLE. entryModify(mTxnAccount); STAmount saPaid = txn.getTransactionFee(); STAmount saSrcBalance = mTxnAccount->getIValueFieldAmount(sfBalance); mTxnAccount->setIFieldAmount(sfBalance, saSrcBalance - saPaid); } TransactionEngineResult TransactionEngine::applyTransaction(const SerializedTransaction& txn, TransactionEngineParams params) { Log(lsTRACE) << "applyTransaction>"; assert(mLedger); mLedgerParentCloseTime = mLedger->getParentCloseTimeNC(); #ifdef DEBUG if (1) { Serializer ser; txn.add(ser); SerializerIterator sit(ser); SerializedTransaction s2(sit); if (!s2.isEquivalent(txn)) { Log(lsFATAL) << "Transaction serdes mismatch"; Json::StyledStreamWriter ssw; ssw.write(Log(lsINFO).ref(), txn.getJson(0)); ssw.write(Log(lsFATAL).ref(), s2.getJson(0)); assert(false); } } #endif TransactionEngineResult terResult = terSUCCESS; uint256 txID = txn.getTransactionID(); if (!txID) { Log(lsWARNING) << "applyTransaction: invalid transaction id"; terResult = tenINVALID; } // // Verify transaction is signed properly. // // Extract signing key // Transactions contain a signing key. This allows us to trivially verify a transaction has at least been properly signed // without going to disk. Each transaction also notes a source account id. This is used to verify that the signing key is // associated with the account. // XXX This could be a lot cleaner to prevent unnecessary copying. NewcoinAddress naSigningPubKey; if (terSUCCESS == terResult) naSigningPubKey = NewcoinAddress::createAccountPublic(txn.peekSigningPubKey()); // Consistency: really signed. if (terSUCCESS == terResult && !txn.checkSign(naSigningPubKey)) { Log(lsWARNING) << "applyTransaction: Invalid transaction: bad signature"; terResult = tenINVALID; } STAmount saCost = theConfig.FEE_DEFAULT; // Customize behavoir based on transaction type. if (terSUCCESS == terResult) { switch (txn.getTxnType()) { case ttCLAIM: case ttPASSWORD_SET: saCost = 0; break; case ttPAYMENT: if (txn.getFlags() & tfCreateAccount) { saCost = theConfig.FEE_ACCOUNT_CREATE; } break; case ttNICKNAME_SET: { LedgerStateParms qry = lepNONE; SLE::pointer sleNickname = mLedger->getNickname(qry, txn.getITFieldH256(sfNickname)); if (!sleNickname) saCost = theConfig.FEE_NICKNAME_CREATE; } break; case ttACCOUNT_SET: case ttCREDIT_SET: case ttINVOICE: case ttOFFER_CREATE: case ttOFFER_CANCEL: case ttPASSWORD_FUND: case ttWALLET_ADD: nothing(); break; case ttINVALID: Log(lsWARNING) << "applyTransaction: Invalid transaction: ttINVALID transaction type"; terResult = tenINVALID; break; default: Log(lsWARNING) << "applyTransaction: Invalid transaction: unknown transaction type"; terResult = tenUNKNOWN; break; } } STAmount saPaid = txn.getTransactionFee(); if (terSUCCESS == terResult && (params & tepNO_CHECK_FEE) == tepNONE) { if (!saCost.isZero()) { if (saPaid < saCost) { Log(lsINFO) << "applyTransaction: insufficient fee"; terResult = tenINSUF_FEE_P; } } else { if (!saPaid.isZero()) { // Transaction is malformed. Log(lsWARNING) << "applyTransaction: fee not allowed"; terResult = tenINSUF_FEE_P; } } } // Get source account ID. mTxnAccountID = txn.getSourceAccount().getAccountID(); if (terSUCCESS == terResult && !mTxnAccountID) { Log(lsWARNING) << "applyTransaction: bad source id"; terResult = tenINVALID; } if (terSUCCESS != terResult) return terResult; boost::recursive_mutex::scoped_lock sl(mLedger->mLock); mTxnAccount = mLedger->getAccountRoot(mTxnAccountID); // Find source account // If are only forwarding, due to resource limitations, we might verifying only some transactions, this would be probablistic. STAmount saSrcBalance; uint32 t_seq = txn.getSequence(); bool bHaveAuthKey = false; if (!mTxnAccount) { Log(lsTRACE) << str(boost::format("applyTransaction: Delay transaction: source account does not exist: %s") % txn.getSourceAccount().humanAccountID()); terResult = terNO_ACCOUNT; } else { saSrcBalance = mTxnAccount->getIValueFieldAmount(sfBalance); bHaveAuthKey = mTxnAccount->getIFieldPresent(sfAuthorizedKey); } // Check if account cliamed. if (terSUCCESS == terResult) { switch (txn.getTxnType()) { case ttCLAIM: if (bHaveAuthKey) { Log(lsWARNING) << "applyTransaction: Account already claimed."; terResult = tenCLAIMED; } break; default: nothing(); break; } } // Consistency: Check signature if (terSUCCESS == terResult) { switch (txn.getTxnType()) { case ttCLAIM: // Transaction's signing public key must be for the source account. // To prove the master private key made this transaction. if (naSigningPubKey.getAccountID() != mTxnAccountID) { // Signing Pub Key must be for Source Account ID. Log(lsWARNING) << "sourceAccountID: " << naSigningPubKey.humanAccountID(); Log(lsWARNING) << "txn accountID: " << txn.getSourceAccount().humanAccountID(); terResult = tenBAD_CLAIM_ID; } break; case ttPASSWORD_SET: // Transaction's signing public key must be for the source account. // To prove the master private key made this transaction. if (naSigningPubKey.getAccountID() != mTxnAccountID) { // Signing Pub Key must be for Source Account ID. Log(lsWARNING) << "sourceAccountID: " << naSigningPubKey.humanAccountID(); Log(lsWARNING) << "txn accountID: " << txn.getSourceAccount().humanAccountID(); terResult = tenBAD_SET_ID; } break; default: // Verify the transaction's signing public key is the key authorized for signing. if (bHaveAuthKey && naSigningPubKey.getAccountID() == mTxnAccount->getIValueFieldAccount(sfAuthorizedKey).getAccountID()) { // Authorized to continue. nothing(); } else if (naSigningPubKey.getAccountID() == mTxnAccountID) { // Authorized to continue. nothing(); } else if (bHaveAuthKey) { Log(lsINFO) << "applyTransaction: Delay: Not authorized to use account."; terResult = terBAD_AUTH; } else { Log(lsINFO) << "applyTransaction: Invalid: Not authorized to use account."; terResult = terBAD_AUTH_MASTER; } break; } } // Deduct the fee, so it's not available during the transaction. // Will only write the account back, if the transaction succeeds. if (terSUCCESS != terResult || saCost.isZero()) { nothing(); } else if (saSrcBalance < saPaid) { Log(lsINFO) << str(boost::format("applyTransaction: Delay: insufficent balance: balance=%s paid=%s") % saSrcBalance.getText() % saPaid.getText()); terResult = terINSUF_FEE_B; } else { mTxnAccount->setIFieldAmount(sfBalance, saSrcBalance - saPaid); } // Validate sequence if (terSUCCESS != terResult) { nothing(); } else if (!saCost.isZero()) { uint32 a_seq = mTxnAccount->getIFieldU32(sfSequence); Log(lsTRACE) << "Aseq=" << a_seq << ", Tseq=" << t_seq; if (t_seq != a_seq) { if (a_seq < t_seq) { Log(lsINFO) << "applyTransaction: future sequence number"; terResult = terPRE_SEQ; } else if (mLedger->hasTransaction(txID)) { Log(lsWARNING) << "applyTransaction: duplicate sequence number"; terResult = terALREADY; } else { Log(lsWARNING) << "applyTransaction: past sequence number"; terResult = terPAST_SEQ; } } else { mTxnAccount->setIFieldU32(sfSequence, t_seq + 1); } } else { Log(lsINFO) << "applyTransaction: Zero cost transaction"; if (t_seq) { Log(lsINFO) << "applyTransaction: bad sequence for pre-paid transaction"; terResult = terPAST_SEQ; } } if (terSUCCESS == terResult) { entryModify(mTxnAccount); switch (txn.getTxnType()) { case ttACCOUNT_SET: terResult = doAccountSet(txn); break; case ttCLAIM: terResult = doClaim(txn); break; case ttCREDIT_SET: terResult = doCreditSet(txn); break; case ttINVALID: Log(lsINFO) << "applyTransaction: invalid type"; terResult = tenINVALID; break; case ttINVOICE: terResult = doInvoice(txn); break; case ttOFFER_CREATE: terResult = doOfferCreate(txn); break; case ttOFFER_CANCEL: terResult = doOfferCancel(txn); break; case ttNICKNAME_SET: terResult = doNicknameSet(txn); break; case ttPASSWORD_FUND: terResult = doPasswordFund(txn); break; case ttPASSWORD_SET: terResult = doPasswordSet(txn); break; case ttPAYMENT: terResult = doPayment(txn); break; case ttWALLET_ADD: terResult = doWalletAdd(txn); break; default: terResult = tenUNKNOWN; break; } } std::string strToken; std::string strHuman; transResultInfo(terResult, strToken, strHuman); Log(lsINFO) << "applyTransaction: terResult=" << strToken << " : " << terResult << " : " << strHuman; if (terSUCCESS == terResult) { txnWrite(); Serializer s; txn.add(s); // XXX add failed status too // XXX do fees as need. if (!mLedger->addTransaction(txID, s)) assert(false); if ((params & tepUPDATE_TOTAL) != tepNONE) mLedger->destroyCoins(saPaid.getNValue()); } mTxnAccount = SLE::pointer(); mEntries.clear(); mUnfunded.clear(); return terResult; } TransactionEngineResult TransactionEngine::doAccountSet(const SerializedTransaction& txn) { std::cerr << "doAccountSet>" << std::endl; uint32 txFlags = txn.getFlags(); // // EmailHash // if (txFlags & tfUnsetEmailHash) { std::cerr << "doAccountSet: unset email hash" << std::endl; mTxnAccount->makeIFieldAbsent(sfEmailHash); } else if (txn.getITFieldPresent(sfEmailHash)) { std::cerr << "doAccountSet: set email hash" << std::endl; mTxnAccount->setIFieldH128(sfEmailHash, txn.getITFieldH128(sfEmailHash)); } // // WalletLocator // if (txFlags & tfUnsetWalletLocator) { std::cerr << "doAccountSet: unset wallet locator" << std::endl; mTxnAccount->makeIFieldAbsent(sfWalletLocator); } else if (txn.getITFieldPresent(sfWalletLocator)) { std::cerr << "doAccountSet: set wallet locator" << std::endl; mTxnAccount->setIFieldH256(sfWalletLocator, txn.getITFieldH256(sfWalletLocator)); } // // MessageKey // if (!txn.getITFieldPresent(sfMessageKey)) { nothing(); } else if (mTxnAccount->getIFieldPresent(sfMessageKey)) { std::cerr << "doAccountSet: can not change message key" << std::endl; return tenMSG_SET; } else { std::cerr << "doAccountSet: set message key" << std::endl; mTxnAccount->setIFieldVL(sfMessageKey, txn.getITFieldVL(sfMessageKey)); } std::cerr << "doAccountSet<" << std::endl; return terSUCCESS; } TransactionEngineResult TransactionEngine::doClaim(const SerializedTransaction& txn) { std::cerr << "doClaim>" << std::endl; TransactionEngineResult terResult = setAuthorized(txn, true); std::cerr << "doClaim<" << std::endl; return terResult; } TransactionEngineResult TransactionEngine::doCreditSet(const SerializedTransaction& txn) { TransactionEngineResult terResult = terSUCCESS; Log(lsINFO) << "doCreditSet>"; // Check if destination makes sense. uint160 uDstAccountID = txn.getITFieldAccount(sfDestination); if (!uDstAccountID) { Log(lsINFO) << "doCreditSet: Invalid transaction: Destination account not specifed."; return tenDST_NEEDED; } else if (mTxnAccountID == uDstAccountID) { Log(lsINFO) << "doCreditSet: Invalid transaction: Can not extend credit to self."; return tenDST_IS_SRC; } SLE::pointer sleDst = mLedger->getAccountRoot(uDstAccountID); if (!sleDst) { Log(lsINFO) << "doCreditSet: Delay transaction: Destination account does not exist."; return terNO_DST; } STAmount saLimitAmount = txn.getITFieldAmount(sfLimitAmount); uint160 uCurrency = saLimitAmount.getCurrency(); bool bFlipped = mTxnAccountID > uDstAccountID; uint32 uFlags = bFlipped ? lsfLowIndexed : lsfHighIndexed; STAmount saBalance(uCurrency); bool bAddIndex = false; bool bDelIndex = false; SLE::pointer sleRippleState = mLedger->getRippleState(mTxnAccountID, uDstAccountID, uCurrency); if (sleRippleState) { // A line exists in one or more directions. #if 0 if (saLimitAmount.isZero()) { // Zeroing line. uint160 uLowID = sleRippleState->getIValueFieldAccount(sfLowID).getAccountID(); uint160 uHighID = sleRippleState->getIValueFieldAccount(sfHighID).getAccountID(); bool bLow = uLowID == uSrcAccountID; bool bHigh = uLowID == uDstAccountID; bool bBalanceZero = sleRippleState->getIValueFieldAmount(sfBalance).isZero(); STAmount saDstLimit = sleRippleState->getIValueFieldAmount(bSendLow ? sfLowLimit : sfHighLimit); bool bDstLimitZero = saDstLimit.isZero(); assert(bLow || bHigh); if (bBalanceZero && bDstLimitZero) { // Zero balance and eliminating last limit. bDelIndex = true; terResult = dirDelete(true, uSrcRef, Ledger::getRippleDirIndex(mTxnAccountID), sleRippleState->getIndex()); } } #endif if (!bDelIndex) { bAddIndex = !(sleRippleState->getFlags() & uFlags); sleRippleState->setIFieldAmount(bFlipped ? sfHighLimit: sfLowLimit , saLimitAmount); if (bAddIndex) sleRippleState->setFlag(uFlags); entryModify(sleRippleState); } Log(lsINFO) << "doCreditSet: Modifying ripple line: bAddIndex=" << bAddIndex << " bDelIndex=" << bDelIndex; } // Line does not exist. else if (saLimitAmount.isZero()) { Log(lsINFO) << "doCreditSet: Redundant: Setting non-existant ripple line to 0."; return terNO_LINE_NO_ZERO; } else { // Create a new ripple line. STAmount saZero(uCurrency); bAddIndex = true; sleRippleState = entryCreate(ltRIPPLE_STATE, Ledger::getRippleStateIndex(mTxnAccountID, uDstAccountID, uCurrency)); Log(lsINFO) << "doCreditSet: Creating ripple line: " << sleRippleState->getIndex().ToString(); sleRippleState->setFlag(uFlags); sleRippleState->setIFieldAmount(sfBalance, saZero); // Zero balance in currency. sleRippleState->setIFieldAmount(bFlipped ? sfHighLimit : sfLowLimit, saLimitAmount); sleRippleState->setIFieldAmount(bFlipped ? sfLowLimit : sfHighLimit, saZero); sleRippleState->setIFieldAccount(bFlipped ? sfHighID : sfLowID, mTxnAccountID); sleRippleState->setIFieldAccount(bFlipped ? sfLowID : sfHighID, uDstAccountID); } if (bAddIndex) { uint64 uSrcRef; // Ignored, ripple_state dirs never delete. // XXX Make dirAdd more flexiable to take vector. terResult = dirAdd(uSrcRef, Ledger::getRippleDirIndex(mTxnAccountID), sleRippleState->getIndex()); } Log(lsINFO) << "doCreditSet<"; return terResult; } TransactionEngineResult TransactionEngine::doNicknameSet(const SerializedTransaction& txn) { std::cerr << "doNicknameSet>" << std::endl; uint256 uNickname = txn.getITFieldH256(sfNickname); bool bMinOffer = txn.getITFieldPresent(sfMinimumOffer); STAmount saMinOffer = bMinOffer ? txn.getITFieldAmount(sfAmount) : STAmount(); LedgerStateParms qry = lepNONE; SLE::pointer sleNickname = mLedger->getNickname(qry, uNickname); if (sleNickname) { // Edit old entry. sleNickname->setIFieldAccount(sfAccount, mTxnAccountID); if (bMinOffer && !saMinOffer.isZero()) { sleNickname->setIFieldAmount(sfMinimumOffer, saMinOffer); } else { sleNickname->makeIFieldAbsent(sfMinimumOffer); } entryModify(sleNickname); } else { // Make a new entry. // XXX Need to include authorization limiting for first year. sleNickname = entryCreate(ltNICKNAME, Ledger::getNicknameIndex(uNickname)); std::cerr << "doNicknameSet: Creating nickname node: " << sleNickname->getIndex().ToString() << std::endl; sleNickname->setIFieldAccount(sfAccount, mTxnAccountID); if (bMinOffer && !saMinOffer.isZero()) sleNickname->setIFieldAmount(sfMinimumOffer, saMinOffer); } std::cerr << "doNicknameSet<" << std::endl; return terSUCCESS; } TransactionEngineResult TransactionEngine::doPasswordFund(const SerializedTransaction& txn) { std::cerr << "doPasswordFund>" << std::endl; uint160 uDstAccountID = txn.getITFieldAccount(sfDestination); SLE::pointer sleDst = mTxnAccountID == uDstAccountID ? mTxnAccount : mLedger->getAccountRoot(uDstAccountID); if (!sleDst) { // Destination account does not exist. std::cerr << "doPasswordFund: Delay transaction: Destination account does not exist." << std::endl; return terSET_MISSING_DST; } if (sleDst->getFlags() & lsfPasswordSpent) { sleDst->clearFlag(lsfPasswordSpent); std::cerr << "doPasswordFund: Clearing spent." << sleDst->getFlags() << std::endl; if (mTxnAccountID != uDstAccountID) { std::cerr << "doPasswordFund: Destination modified." << std::endl; entryModify(sleDst); } } std::cerr << "doPasswordFund<" << std::endl; return terSUCCESS; } TransactionEngineResult TransactionEngine::doPasswordSet(const SerializedTransaction& txn) { std::cerr << "doPasswordSet>" << std::endl; if (mTxnAccount->getFlags() & lsfPasswordSpent) { std::cerr << "doPasswordSet: Delay transaction: Funds already spent." << std::endl; return terFUNDS_SPENT; } mTxnAccount->setFlag(lsfPasswordSpent); TransactionEngineResult terResult = setAuthorized(txn, false); std::cerr << "doPasswordSet<" << std::endl; return terResult; } #ifdef WORK_IN_PROGRESS TransactionEngineResult calcOfferFill(SAAmount& saSrc, paymentNode& pnSrc, paymentNode& pnDst) { TransactionEngineResult terResult; if (!saSrc.isZero()) { } return bSuccess; } // Find offers to satisfy pnDst. // --> pnDst.saWanted: currency and amount wanted // --> pnSrc.saIOURedeem.mCurrency: use this before saIOUIssue, limit to use. // --> pnSrc.saIOUIssue.mCurrency: use this after saIOURedeem, limit to use. // <-- pnDst.saReceive // <-- pnDst.saIOUForgive // <-- pnDst.saIOUAccept // <-- terResult : terSUCCESS = no error and if !bAllowPartial complelely satisfied wanted. // <-> usOffersDeleteAlways: // <-> usOffersDeleteOnSuccess: TransactionEngineResult calcOfferFill(paymentNode& pnSrc, paymentNode& pnDst, bool bAllowPartial) { TransactionEngineResult terResult; terResult = calcOfferFill(pnSrc.saIOURedeem, pnSrc, pnDst, bAllowPartial); if (terSUCCESS == terResult) { terResult = calcOfferFill(pnSrc.saIOUIssue, pnSrc, pnDst, bAllowPartial) } if (terSUCCESS == terResult && !bAllowPartial) { STAmount saTotal = pnSrc.saIOURedeem; saTotal += pnSrc.saIOUIssue; if (saTotal != saWanted) terResult = terINSUF_PATH; } return terResult; } // From the destination work towards the source calculating how much must be asked for. // --> bAllowPartial: If false, fail if can't meet requirements. // <-- bSuccess: true=success, false=insufficient funds. // <-> pnNodes: // --> [end]saWanted.mAmount // --> [all]saWanted.mCurrency // --> [all]saAccount // <-> [0]saWanted.mAmount : --> limit, <-- actual bool calcPaymentReverse(std::vector& pnNodes, bool bAllowPartial) { bool bDone = false; bool bSuccess = false; // path: dst .. src while (!bDone) { if (cur->saWanted.isZero()) { // Must want something. terResult = terINVALID; bDone = true; } else if (cur->saWanted.isNative()) { if (prv->how == direct) { // Stamp transfer desired. if (prv->prev()) { // Stamp transfer can not have previous entries. Only stamp ripple can. terResult = terINVALID; bDone = true; } else if (prv->account->saBalance() >= cur->saWanted) { // Transfer stamps. prv->saSend = cur->saWanted; bDone = true; bSuccess = true; } else { // Insufficient funds for transfer bDone = true; } } else { // Must convert to stamps via offer. if (calcOfferFill(prv, cur, bAllowPartial)) { } else { bDone = false; } } } else { // Rippling. } } } // From the source work toward the destination calculate how much is transfered at each step and finally. // <-> pnNodes: // --> [0]saWanted.mAmount // --> [all]saWanted.saSend // --> [all]saWanted.IOURedeem // --> [all]saWanted.IOUIssue // --> [all]saAccount bool calcPaymentForward(std::vector& pnNodes) { cur = src; if (!cur->saSend.isZero()) { // Sending stamps - always final step. assert(!cur->next); nxt->saReceive = cur->saSend; bDone = true; } else { // Rippling. } } #endif // XXX Need to audit for things like setting accountID not having memory. TransactionEngineResult TransactionEngine::doPayment(const SerializedTransaction& txn) { // Ripple if source or destination is non-native or if there are paths. uint32 txFlags = txn.getFlags(); bool bCreate = !!(txFlags & tfCreateAccount); bool bNoRippleDirect = !!(txFlags & tfNoRippleDirect); bool bPaths = txn.getITFieldPresent(sfPaths); bool bMax = txn.getITFieldPresent(sfSendMax); uint160 uDstAccountID = txn.getITFieldAccount(sfDestination); STAmount saDstAmount = txn.getITFieldAmount(sfAmount); STAmount saMaxAmount = bMax ? txn.getITFieldAmount(sfSendMax) : saDstAmount; uint160 uSrcCurrency = saMaxAmount.getCurrency(); uint160 uDstCurrency = saDstAmount.getCurrency(); if (!uDstAccountID) { Log(lsINFO) << "doPayment: Invalid transaction: Payment destination account not specifed."; return tenDST_NEEDED; } else if (!saDstAmount.isPositive()) { Log(lsINFO) << "doPayment: Invalid transaction: bad amount: " << saDstAmount.getCurrencyHuman() << " " << saDstAmount.getText(); return tenBAD_AMOUNT; } else if (mTxnAccountID == uDstAccountID && uSrcCurrency == uDstCurrency && !bPaths) { Log(lsINFO) << boost::str(boost::format("doPayment: Invalid transaction: Redunant transaction: src=%s, dst=%s, src_cur=%s, dst_cur=%s") % mTxnAccountID.ToString() % uDstAccountID.ToString() % uSrcCurrency.ToString() % uDstCurrency.ToString()); return tenREDUNDANT; } SLE::pointer sleDst = mLedger->getAccountRoot(uDstAccountID); if (!sleDst) { // Destination account does not exist. if (bCreate && !saDstAmount.isNative()) { // This restriction could be relaxed. Log(lsINFO) << "doPayment: Invalid transaction: Create account may only fund XNS."; return tenCREATEXNS; } else if (!bCreate) { Log(lsINFO) << "doPayment: Delay transaction: Destination account does not exist."; return terNO_DST; } // Create the account. sleDst = entryCreate(ltACCOUNT_ROOT, Ledger::getAccountRootIndex(uDstAccountID)); sleDst->setIFieldAccount(sfAccount, uDstAccountID); sleDst->setIFieldU32(sfSequence, 1); } // Destination exists. else if (bCreate) { // Retryable: if account created this ledger, reordering might allow account to be made by this transaction. Log(lsINFO) << "doPayment: Invalid transaction: Account already created."; return terCREATED; } else { entryModify(sleDst); } bool bRipple = bPaths || bMax || !saDstAmount.isNative(); if (!bRipple) { // Direct XNS payment. STAmount saSrcXNSBalance = mTxnAccount->getIValueFieldAmount(sfBalance); if (saSrcXNSBalance < saDstAmount) { // Transaction might succeed, if applied in a different order. Log(lsINFO) << "doPayment: Delay transaction: Insufficent funds."; return terUNFUNDED; } mTxnAccount->setIFieldAmount(sfBalance, saSrcXNSBalance - saDstAmount); sleDst->setIFieldAmount(sfBalance, sleDst->getIValueFieldAmount(sfBalance) + saDstAmount); return terSUCCESS; } // // Ripple payment // // XXX Disallow loops in ripple paths // Try direct ripple first. if (!bNoRippleDirect && mTxnAccountID != uDstAccountID && uSrcCurrency == uDstCurrency) { SLE::pointer sleRippleState = mLedger->getRippleState(mTxnAccountID, uDstAccountID, uDstCurrency); if (sleRippleState) { // There is a direct credit-line of some direction. // - We can always pay IOUs back. // - We can issue IOUs to the limit. uint160 uLowID = sleRippleState->getIValueFieldAccount(sfLowID).getAccountID(); uint160 uHighID = sleRippleState->getIValueFieldAccount(sfHighID).getAccountID(); bool bSendHigh = uLowID == mTxnAccountID && uHighID == uDstAccountID; bool bSendLow = uLowID == uDstAccountID && uHighID == mTxnAccountID; // Flag we need if we end up owing IOUs. uint32 uFlags = bSendHigh ? lsfLowIndexed : lsfHighIndexed; assert(bSendLow || bSendHigh); STAmount saDstLimit = sleRippleState->getIValueFieldAmount(bSendLow ? sfLowLimit : sfHighLimit); STAmount saDstBalance = sleRippleState->getIValueFieldAmount(sfBalance); if (bSendHigh) { // Put balance in dst terms. saDstBalance.negate(); } saDstBalance += saDstAmount; if (saDstBalance > saDstLimit) { // Would exceed credit limit. // YYY Note: in the future could push out other credits to make payment fit. Log(lsINFO) << "doPayment: Delay transaction: Over limit: proposed balance=" << saDstBalance.getText() << " limit=" << saDstLimit.getText(); return terOVER_LIMIT; } if (saDstBalance.isZero()) { // XXX May be able to delete indexes for credit limits which are zero. nothing(); } else if (saDstBalance.isNegative()) { // dst still has outstanding IOUs, sle already indexed. nothing(); } // src has outstanding IOUs, sle should be indexed. else if (! (sleRippleState->getFlags() & uFlags)) { // Need to add index. TransactionEngineResult terResult = terSUCCESS; uint64 uSrcRef; // Ignored, ripple_state dirs never delete. terResult = dirAdd( uSrcRef, Ledger::getRippleDirIndex(mTxnAccountID), // The source ended up owing. sleRippleState->getIndex()); // Adding current entry. if (terSUCCESS != terResult) return terResult; sleRippleState->setFlag(uFlags); // Note now indexed. } if (bSendHigh) { // Put balance in low terms. saDstBalance.negate(); } sleRippleState->setIFieldAmount(sfBalance, saDstBalance); entryModify(sleRippleState); return terSUCCESS; } } STPathSet spsPaths = txn.getITFieldPathSet(sfPaths); // XXX If we are parsing for determing forwarding check maximum path count. if (!spsPaths.getPathCount()) { Log(lsINFO) << "doPayment: Invalid transaction: No paths."; return tenRIPPLE_EMPTY; } #if 0 std::vector spPath; BOOST_FOREACH(std::vector& spPath, spsPaths) { Log(lsINFO) << "doPayment: Implementation error: Not implemented."; return tenUNKNOWN; } #endif #if 0 // XXX Or additionally queue unfundeds for removal on failure. if (terSUCCESS == terResult) { // Transaction failed. Process possible unfunded offers. entryReset(txn); BOOST_FOREACH(const uint256& uOfferIndex, mUnfunded) { SLE::pointer sleOffer = mLedger->getOffer(uOfferIndex); uint160 uOfferID = sleOffer->getIValueFieldAccount(sfAccount).getAccountID(); STAmount saOfferFunds = sleOffer->getIValueFieldAmount(sfTakerGets); if (!accountFunds(uOfferID, saOfferFunds).isPositive()) { offerDelete(sleOffer, uOfferIndex, uOfferID); bWrite = true; } } } #endif Log(lsINFO) << "doPayment: Delay transaction: No ripple paths could be satisfied."; return terBAD_RIPPLE; } TransactionEngineResult TransactionEngine::doWalletAdd(const SerializedTransaction& txn) { std::cerr << "WalletAdd>" << std::endl; std::vector vucPubKey = txn.getITFieldVL(sfPubKey); std::vector vucSignature = txn.getITFieldVL(sfSignature); uint160 uAuthKeyID = txn.getITFieldAccount(sfAuthorizedKey); NewcoinAddress naMasterPubKey = NewcoinAddress::createAccountPublic(vucPubKey); uint160 uDstAccountID = naMasterPubKey.getAccountID(); if (!naMasterPubKey.accountPublicVerify(Serializer::getSHA512Half(uAuthKeyID.begin(), uAuthKeyID.size()), vucSignature)) { std::cerr << "WalletAdd: unauthorized: bad signature " << std::endl; return tenBAD_ADD_AUTH; } SLE::pointer sleDst = mLedger->getAccountRoot(uDstAccountID); if (sleDst) { std::cerr << "WalletAdd: account already created" << std::endl; return tenCREATED; } STAmount saAmount = txn.getITFieldAmount(sfAmount); STAmount saSrcBalance = mTxnAccount->getIValueFieldAmount(sfBalance); if (saSrcBalance < saAmount) { std::cerr << str(boost::format("WalletAdd: Delay transaction: insufficent balance: balance=%s amount=%s") % saSrcBalance.getText() % saAmount.getText()) << std::endl; return terUNFUNDED; } // Deduct initial balance from source account. mTxnAccount->setIFieldAmount(sfBalance, saSrcBalance-saAmount); // Create the account. sleDst = entryCreate(ltACCOUNT_ROOT, Ledger::getAccountRootIndex(uDstAccountID)); sleDst->setIFieldAccount(sfAccount, uDstAccountID); sleDst->setIFieldU32(sfSequence, 1); sleDst->setIFieldAmount(sfBalance, saAmount); sleDst->setIFieldAccount(sfAuthorizedKey, uAuthKeyID); std::cerr << "WalletAdd<" << std::endl; return terSUCCESS; } TransactionEngineResult TransactionEngine::doInvoice(const SerializedTransaction& txn) { return tenUNKNOWN; } // Take as much as possible. Adjusts account balances. // --> uBookBase: The order book to take against. // --> saTakerPays: What the taker wanted (w/ issuer) // --> saTakerGets: What the taker wanted (w/ issuer) // --> saTakerFund: What taker can afford // <-- saTakerPaid: What taker paid not including fees. To reduce an offer. // <-- saTakerGot: What taker got not including fees. To reduce an offer. // <-- terResult: terSUCCESS or terNO_ACCOUNT // Note: All SLE modifications must always occur even on failure. TransactionEngineResult TransactionEngine::takeOffers( bool bPassive, const uint256& uBookBase, const uint160& uTakerAccountID, const SLE::pointer& sleTakerAccount, const STAmount& saTakerPays, const STAmount& saTakerGets, STAmount& saTakerPaid, STAmount& saTakerGot) { assert(!saTakerPays.isZero() && !saTakerGets.isZero()); Log(lsINFO) << "takeOffers: against book: " << uBookBase.ToString(); uint256 uTipIndex = uBookBase; uint256 uBookEnd = Ledger::getQualityNext(uBookBase); uint64 uTakeQuality = STAmount::getRate(saTakerGets, saTakerPays); uint160 uTakerPaysAccountID = saTakerPays.getIssuer(); uint160 uTakerPaysCurrency = saTakerPays.getCurrency(); uint160 uTakerGetsAccountID = saTakerGets.getIssuer(); uint160 uTakerGetsCurrency = saTakerGets.getCurrency(); TransactionEngineResult terResult = tenUNKNOWN; saTakerPaid = 0; saTakerGot = 0; while (tenUNKNOWN == terResult) { SLE::pointer sleOfferDir; uint64 uTipQuality; // Figure out next offer to take, if needed. if (saTakerGets != saTakerGot && saTakerPays != saTakerPaid) { // Taker has needs. sleOfferDir = mLedger->getNextSLE(uTipIndex, uBookEnd); if (sleOfferDir) { Log(lsINFO) << "takeOffers: possible counter offer found"; uTipIndex = sleOfferDir->getIndex(); uTipQuality = Ledger::getQuality(uTipIndex); } else { Log(lsINFO) << "takeOffers: counter offer book is empty: " << uTipIndex.ToString() << " ... " << uBookEnd.ToString(); } } if (!sleOfferDir || uTakeQuality < uTipQuality || (bPassive && uTakeQuality == uTipQuality)) { // Done. Log(lsINFO) << "takeOffers: done"; terResult = terSUCCESS; } else { // Have an offer to consider. Log(lsINFO) << "takeOffers: considering dir : " << sleOfferDir->getJson(0); uint256 uOfferIndex; uint64 uOfferNode; dirFirst(uTipIndex, uOfferIndex, uOfferNode); SLE::pointer sleOffer = mLedger->getSLE(uOfferIndex); Log(lsINFO) << "takeOffers: considering offer : " << sleOffer->getJson(0); uint160 uOfferOwnerID = sleOffer->getIValueFieldAccount(sfAccount).getAccountID(); STAmount saOfferPays = sleOffer->getIValueFieldAmount(sfTakerGets); STAmount saOfferGets = sleOffer->getIValueFieldAmount(sfTakerPays); if (sleOffer->getIFieldPresent(sfExpiration) && sleOffer->getIFieldU32(sfExpiration) <= mLedger->getParentCloseTimeNC()) { // Offer is expired. Delete it. Log(lsINFO) << "takeOffers: encountered expired offer"; offerDelete(sleOffer, uOfferIndex, uOfferOwnerID); mUnfunded.insert(uOfferIndex); } else if (uOfferOwnerID == uTakerAccountID) { // Would take own offer. Consider old offer unfunded. Log(lsINFO) << "takeOffers: encountered taker's own old offer"; offerDelete(sleOffer, uOfferIndex, uOfferOwnerID); } else { // Get offer funds available. uint160 uPaysIssuerID = sleOffer->getIValueFieldAccount(sfPaysIssuer).getAccountID(); saOfferPays.setIssuer(uPaysIssuerID); STAmount saOfferFunds = accountFunds(uOfferOwnerID, saOfferPays); STAmount saTakerFunds = accountFunds(uTakerAccountID, saTakerPays); SLE::pointer sleOfferAccount; // Owner of offer. if (!saOfferFunds.isPositive()) { // Offer is unfunded, possibly due to previous balance action. Log(lsINFO) << "takeOffers: offer unfunded: delete"; offerDelete(sleOffer, uOfferIndex, uOfferOwnerID); mUnfunded.insert(uOfferIndex); } else { STAmount saSubTakerPaid; STAmount saSubTakerGot; bool bOfferDelete = STAmount::applyOffer( saOfferFunds, saTakerFunds, saOfferPays, saOfferGets, saTakerPays, saTakerGets, saSubTakerPaid, saSubTakerGot); // Adjust offer if (bOfferDelete) { // Offer now fully claimed or now unfunded. Log(lsINFO) << "takeOffers: offer claimed: delete"; offerDelete(sleOffer, uOfferIndex, uOfferOwnerID); } else { Log(lsINFO) << "takeOffers: offer partial claim: modify"; // Offer owner will pay less. Subtract what taker just got. sleOffer->setIFieldAmount(sfTakerGets, saOfferPays -= saSubTakerGot); // Offer owner will get less. Subtract what owner just paid. sleOffer->setIFieldAmount(sfTakerPays, saOfferGets -= saSubTakerPaid); entryModify(sleOffer); } // Offer owner pays taker. saSubTakerGot.setIssuer(uTakerGetsAccountID); // XXX Move this earlier? accountSend(uOfferOwnerID, uTakerAccountID, saSubTakerGot); saTakerGot += saSubTakerGot; // Taker pays offer owner. saSubTakerPaid.setIssuer(uTakerPaysAccountID); accountSend(uTakerAccountID, uOfferOwnerID, saSubTakerPaid); saTakerPaid += saSubTakerPaid; } } } } return terResult; } TransactionEngineResult TransactionEngine::doOfferCreate(const SerializedTransaction& txn) { uint32 txFlags = txn.getFlags(); bool bPassive = !!(txFlags & tfPassive); STAmount saTakerPays = txn.getITFieldAmount(sfTakerPays); STAmount saTakerGets = txn.getITFieldAmount(sfTakerGets); uint160 uPaysIssuerID = txn.getITFieldAccount(sfPaysIssuer); uint160 uGetsIssuerID = txn.getITFieldAccount(sfGetsIssuer); uint32 uExpiration = txn.getITFieldU32(sfExpiration); bool bHaveExpiration = txn.getITFieldPresent(sfExpiration); uint32 uSequence = txn.getSequence(); uint256 uLedgerIndex = Ledger::getOfferIndex(mTxnAccountID, uSequence); SLE::pointer sleOffer = entryCreate(ltOFFER, uLedgerIndex); Log(lsINFO) << "doOfferCreate: Creating offer node: " << uLedgerIndex.ToString() << " uSequence=" << uSequence; uint160 uPaysCurrency = saTakerPays.getCurrency(); uint160 uGetsCurrency = saTakerGets.getCurrency(); uint64 uRate = STAmount::getRate(saTakerGets, saTakerPays); TransactionEngineResult terResult = terSUCCESS; uint256 uDirectory; // Delete hints. uint64 uOwnerNode; uint64 uBookNode; if (bHaveExpiration && !uExpiration) { Log(lsWARNING) << "doOfferCreate: Malformed offer: bad expiration"; terResult = tenBAD_EXPIRATION; } else if (bHaveExpiration && mLedger->getParentCloseTimeNC() >= uExpiration) { Log(lsWARNING) << "doOfferCreate: Expired transaction: offer expired"; terResult = tenEXPIRED; } else if (saTakerPays.isNative() && saTakerGets.isNative()) { Log(lsWARNING) << "doOfferCreate: Malformed offer: XNS for XNS"; terResult = tenBAD_OFFER; } else if (saTakerPays.isZero() || saTakerGets.isZero()) { Log(lsWARNING) << "doOfferCreate: Malformed offer: bad amount"; terResult = tenBAD_OFFER; } else if (uPaysCurrency == uGetsCurrency && uPaysIssuerID == uGetsIssuerID) { Log(lsWARNING) << "doOfferCreate: Malformed offer: redundant offer"; terResult = tenREDUNDANT; } else if (saTakerPays.isNative() != uPaysIssuerID.isZero() || saTakerGets.isNative() != uGetsIssuerID.isZero()) { Log(lsWARNING) << "doOfferCreate: Malformed offer: bad issuer"; terResult = tenBAD_ISSUER; } else if (!accountFunds(mTxnAccountID, saTakerPays).isPositive()) { Log(lsWARNING) << "doOfferCreate: delay: offers must be funded"; terResult = terUNFUNDED; } if (terSUCCESS == terResult && !saTakerPays.isNative()) { SLE::pointer sleTakerPays = mLedger->getAccountRoot(uPaysIssuerID); if (!sleTakerPays) { Log(lsWARNING) << "doOfferCreate: delay: can't receive IOUs from non-existant issuer: " << NewcoinAddress::createHumanAccountID(uPaysIssuerID); terResult = terNO_ACCOUNT; } } if (terSUCCESS == terResult) { STAmount saOfferPaid; STAmount saOfferGot; uint256 uTakeBookBase = Ledger::getBookBase(uGetsCurrency, uGetsIssuerID, uPaysCurrency, uPaysIssuerID); Log(lsINFO) << str(boost::format("doOfferCreate: take against book: %s : %s/%s -> %s/%s") % uTakeBookBase.ToString() % saTakerGets.getCurrencyHuman() % NewcoinAddress::createHumanAccountID(saTakerGets.getIssuer()) % saTakerPays.getCurrencyHuman() % NewcoinAddress::createHumanAccountID(saTakerPays.getIssuer())); // Take using the parameters of the offer. terResult = takeOffers( bPassive, uTakeBookBase, mTxnAccountID, mTxnAccount, saTakerGets, saTakerPays, saOfferPaid, // How much was spent. saOfferGot // How much was got. ); Log(lsWARNING) << "doOfferCreate: takeOffers=" << terResult; if (terSUCCESS == terResult) { saTakerGets -= saOfferPaid; // Reduce payout to takers by what srcAccount just paid. saTakerPays -= saOfferGot; // Reduce payin from takers by what offer just got. } } // Log(lsWARNING) << "doOfferCreate: takeOffers: saTakerPays=" << saTakerPays.getText(); // Log(lsWARNING) << "doOfferCreate: takeOffers: saTakerGets=" << saTakerGets.getText(); // Log(lsWARNING) << "doOfferCreate: takeOffers: uPaysIssuerID=" << NewcoinAddress::createHumanAccountID(uPaysIssuerID); // Log(lsWARNING) << "doOfferCreate: takeOffers: uGetsIssuerID=" << NewcoinAddress::createHumanAccountID(uGetsIssuerID); if (terSUCCESS == terResult && !saTakerGets.isZero() // Still offering something. && !saTakerPays.isZero() // Still wanting something. && accountFunds(mTxnAccountID, saTakerGets).isPositive()) // Still funded. { // We need to place the remainder of the offer into its order book. // Add offer to owner's directory. terResult = dirAdd(uOwnerNode, Ledger::getOwnerDirIndex(mTxnAccountID), uLedgerIndex); if (terSUCCESS == terResult) { uint256 uBookBase = Ledger::getBookBase(uPaysCurrency, uPaysIssuerID, uGetsCurrency, uGetsIssuerID); Log(lsINFO) << str(boost::format("doOfferCreate: adding to book: %s : %s/%s -> %s/%s") % uBookBase.ToString() % saTakerPays.getCurrencyHuman() % NewcoinAddress::createHumanAccountID(saTakerPays.getIssuer()) % saTakerGets.getCurrencyHuman() % NewcoinAddress::createHumanAccountID(saTakerGets.getIssuer())); uDirectory = Ledger::getQualityIndex(uBookBase, uRate); // Use original rate. // Add offer to order book. terResult = dirAdd(uBookNode, uDirectory, uLedgerIndex); } if (terSUCCESS == terResult) { // Log(lsWARNING) << "doOfferCreate: uPaysIssuerID=" << NewcoinAddress::createHumanAccountID(uPaysIssuerID); // Log(lsWARNING) << "doOfferCreate: uGetsIssuerID=" << NewcoinAddress::createHumanAccountID(uGetsIssuerID); // Log(lsWARNING) << "doOfferCreate: saTakerPays.isNative()=" << saTakerPays.isNative(); // Log(lsWARNING) << "doOfferCreate: saTakerGets.isNative()=" << saTakerGets.isNative(); // Log(lsWARNING) << "doOfferCreate: uPaysCurrency=" << saTakerPays.getCurrencyHuman(); // Log(lsWARNING) << "doOfferCreate: uGetsCurrency=" << saTakerGets.getCurrencyHuman(); sleOffer->setIFieldAccount(sfAccount, mTxnAccountID); sleOffer->setIFieldU32(sfSequence, uSequence); sleOffer->setIFieldH256(sfDirectory, uDirectory); sleOffer->setIFieldAmount(sfTakerPays, saTakerPays); sleOffer->setIFieldAmount(sfTakerGets, saTakerGets); sleOffer->setIFieldU64(sfOwnerNode, uOwnerNode); sleOffer->setIFieldU64(sfBookNode, uBookNode); if (!saTakerPays.isNative()) sleOffer->setIFieldAccount(sfPaysIssuer, uPaysIssuerID); if (!saTakerGets.isNative()) sleOffer->setIFieldAccount(sfGetsIssuer, uGetsIssuerID); if (uExpiration) sleOffer->setIFieldU32(sfExpiration, uExpiration); if (bPassive) sleOffer->setFlag(lsfPassive); } } return terResult; } TransactionEngineResult TransactionEngine::doOfferCancel(const SerializedTransaction& txn) { TransactionEngineResult terResult; uint32 uSequence = txn.getITFieldU32(sfOfferSequence); uint256 uOfferIndex = Ledger::getOfferIndex(mTxnAccountID, uSequence); SLE::pointer sleOffer = mLedger->getOffer(uOfferIndex); if (sleOffer) { Log(lsWARNING) << "doOfferCancel: uSequence=" << uSequence; terResult = offerDelete(sleOffer, uOfferIndex, mTxnAccountID); } else { Log(lsWARNING) << "doOfferCancel: offer not found: " << NewcoinAddress::createHumanAccountID(mTxnAccountID) << " : " << uSequence << " : " << uOfferIndex.ToString(); terResult = terOFFER_NOT_FOUND; } return terResult; } TransactionEngineResult TransactionEngine::doTake(const SerializedTransaction& txn) { return tenUNKNOWN; } TransactionEngineResult TransactionEngine::doStore(const SerializedTransaction& txn) { return tenUNKNOWN; } TransactionEngineResult TransactionEngine::doDelete(const SerializedTransaction& txn) { return tenUNKNOWN; } // vim:ts=4