void TransactionFrame::setSourceAccountPtr(AccountFrame::pointer signingAccount) { if (!signingAccount) { if (mEnvelope.tx.sourceAccount != signingAccount->getID()) { throw std::invalid_argument("wrong account"); } } mSigningAccount = signingAccount; }
OfferExchange::CrossOfferResult OfferExchange::crossOffer(OfferFrame& sellingWheatOffer, int64_t maxWheatReceived, int64_t& numWheatReceived, int64_t maxSheepSend, int64_t& numSheepSend) { Asset& sheep = sellingWheatOffer.getOffer().buying; Asset& wheat = sellingWheatOffer.getOffer().selling; AccountID& accountBID = sellingWheatOffer.getOffer().sellerID; Database& db = mLedgerManager.getDatabase(); AccountFrame::pointer accountB; accountB = AccountFrame::loadAccount(accountBID, db); if (!accountB) { throw std::runtime_error( "invalid database state: offer must have matching account"); } TrustFrame::pointer wheatLineAccountB; if (wheat.type() != ASSET_TYPE_NATIVE) { wheatLineAccountB = TrustFrame::loadTrustLine(accountBID, wheat, db); if (!wheatLineAccountB) { throw std::runtime_error( "invalid database state: offer must have matching trust line"); } } TrustFrame::pointer sheepLineAccountB; if (sheep.type() == ASSET_TYPE_NATIVE) { numWheatReceived = INT64_MAX; } else { sheepLineAccountB = TrustFrame::loadTrustLine(accountBID, sheep, db); if (!sheepLineAccountB) { throw std::runtime_error( "invalid database state: offer must have matching trust line"); } // compute numWheatReceived based on what the account can receive int64_t sellerMaxSheep = sheepLineAccountB->getMaxAmountReceive(); if (!bigDivide(numWheatReceived, sellerMaxSheep, sellingWheatOffer.getOffer().price.d, sellingWheatOffer.getOffer().price.n)) { numWheatReceived = INT64_MAX; } } // adjust numWheatReceived with what the seller has { int64_t wheatCanSell; if (wheat.type() == ASSET_TYPE_NATIVE) { // can only send above the minimum balance wheatCanSell = accountB->getBalanceAboveReserve(mLedgerManager); } else { if (wheatLineAccountB->isAuthorized()) { wheatCanSell = wheatLineAccountB->getBalance(); } else { wheatCanSell = 0; } } if (numWheatReceived > wheatCanSell) { numWheatReceived = wheatCanSell; } } // you can receive the lesser of the amount of wheat offered or // the amount the guy has if (numWheatReceived >= sellingWheatOffer.getOffer().amount) { numWheatReceived = sellingWheatOffer.getOffer().amount; } else { // update the offer based on the balance (to determine if it should be // deleted or not) // note that we don't need to write into the db at this point as the // actual update // is done further down sellingWheatOffer.getOffer().amount = numWheatReceived; } bool reducedOffer = false; if (numWheatReceived > maxWheatReceived) { numWheatReceived = maxWheatReceived; reducedOffer = true; } // this guy can get X wheat to you. How many sheep does that get him? if (!bigDivide(numSheepSend, numWheatReceived, sellingWheatOffer.getOffer().price.n, sellingWheatOffer.getOffer().price.d)) { numSheepSend = INT64_MAX; } if (numSheepSend > maxSheepSend) { // reduce the number even more if there is a limit on Sheep numSheepSend = maxSheepSend; reducedOffer = true; } // bias towards seller (this cannot overflow at this point) numWheatReceived = bigDivide(numSheepSend, sellingWheatOffer.getOffer().price.d, sellingWheatOffer.getOffer().price.n); bool offerTaken = false; if (numWheatReceived == 0 || numSheepSend == 0) { if (reducedOffer) { return eOfferCantConvert; } else { // force delete the offer as it represents a bogus offer numWheatReceived = 0; numSheepSend = 0; offerTaken = true; } } offerTaken = offerTaken || sellingWheatOffer.getOffer().amount <= numWheatReceived; if (offerTaken) { // entire offer is taken sellingWheatOffer.storeDelete(mDelta, db); accountB->addNumEntries(-1, mLedgerManager); accountB->storeChange(mDelta, db); } else { sellingWheatOffer.getOffer().amount -= numWheatReceived; sellingWheatOffer.storeChange(mDelta, db); } // Adjust balances if (sheep.type() == ASSET_TYPE_NATIVE) { accountB->getAccount().balance += numSheepSend; accountB->storeChange(mDelta, db); } else { if (!sheepLineAccountB->addBalance(numSheepSend)) { return eOfferCantConvert; } sheepLineAccountB->storeChange(mDelta, db); } if (wheat.type() == ASSET_TYPE_NATIVE) { accountB->getAccount().balance -= numWheatReceived; accountB->storeChange(mDelta, db); } else { if (!wheatLineAccountB->addBalance(-numWheatReceived)) { return eOfferCantConvert; } wheatLineAccountB->storeChange(mDelta, db); } mOfferTrail.push_back( ClaimOfferAtom(accountB->getID(), sellingWheatOffer.getOfferID(), wheat, numWheatReceived, sheep, numSheepSend)); return offerTaken ? eOfferTaken : eOfferPartial; }
bool PathPaymentOpFrame::doApply(medida::MetricsRegistry& metrics, LedgerDelta& delta, LedgerManager& ledgerManager) { AccountFrame::pointer destination; Database& db = ledgerManager.getDatabase(); destination = AccountFrame::loadAccount(mPathPayment.destination, db); if (!destination) { metrics.NewMeter({"op-path-payment", "failure", "no-destination"}, "operation").Mark(); innerResult().code(PATH_PAYMENT_NO_DESTINATION); return false; } innerResult().code(PATH_PAYMENT_SUCCESS); // tracks the last amount that was traded int64_t curBReceived = mPathPayment.destAmount; Asset curB = mPathPayment.destAsset; // update balances, walks backwards // build the full path to the destination, starting with sendAsset std::vector<Asset> fullPath; fullPath.emplace_back(mPathPayment.sendAsset); fullPath.insert(fullPath.end(), mPathPayment.path.begin(), mPathPayment.path.end()); // update last balance in the chain { if (curB.type() == ASSET_TYPE_NATIVE) { destination->getAccount().balance += curBReceived; destination->storeChange(delta, db); } else { TrustFrame::pointer destLine; destLine = TrustFrame::loadTrustLine(destination->getID(), curB, db); if (!destLine) { metrics.NewMeter({"op-path-payment", "failure", "no-trust"}, "operation").Mark(); innerResult().code(PATH_PAYMENT_NO_TRUST); return false; } if (!destLine->isAuthorized()) { metrics.NewMeter( {"op-path-payment", "failure", "not-authorized"}, "operation").Mark(); innerResult().code(PATH_PAYMENT_NOT_AUTHORIZED); return false; } if (!destLine->addBalance(curBReceived)) { metrics.NewMeter({"op-path-payment", "failure", "line-full"}, "operation").Mark(); innerResult().code(PATH_PAYMENT_LINE_FULL); return false; } destLine->storeChange(delta, db); } innerResult().success().last = SimplePaymentResult(destination->getID(), curB, curBReceived); } // now, walk the path backwards for (int i = (int)fullPath.size() - 1; i >= 0; i--) { int64_t curASent, actualCurBReceived; Asset const& curA = fullPath[i]; if (curA == curB) { continue; } OfferExchange oe(delta, ledgerManager); // curA -> curB OfferExchange::ConvertResult r = oe.convertWithOffers(curA, INT64_MAX, curASent, curB, curBReceived, actualCurBReceived, nullptr); switch (r) { case OfferExchange::eFilterStop: assert(false); // no filter -> should not happen break; case OfferExchange::eOK: if (curBReceived == actualCurBReceived) { break; } // fall through case OfferExchange::ePartial: metrics.NewMeter({"op-path-payment", "failure", "too-few-offers"}, "operation").Mark(); innerResult().code(PATH_PAYMENT_TOO_FEW_OFFERS); return false; } assert(curBReceived == actualCurBReceived); curBReceived = curASent; // next round, we need to send enough curB = curA; // add offers that got taken on the way // insert in front to match the path's order auto& offers = innerResult().success().offers; offers.insert(offers.begin(), oe.getOfferTrail().begin(), oe.getOfferTrail().end()); } // last step: we've reached the first account in the chain, update its // balance int64_t curBSent; curBSent = curBReceived; if (curBSent > mPathPayment.sendMax) { // make sure not over the max metrics.NewMeter({"op-path-payment", "failure", "over-send-max"}, "operation").Mark(); innerResult().code(PATH_PAYMENT_OVER_SENDMAX); return false; } if (curB.type() == ASSET_TYPE_NATIVE) { int64_t minBalance = mSourceAccount->getMinimumBalance(ledgerManager); if ((mSourceAccount->getAccount().balance - curBSent) < minBalance) { // they don't have enough to send metrics.NewMeter({"op-path-payment", "failure", "underfunded"}, "operation").Mark(); innerResult().code(PATH_PAYMENT_UNDERFUNDED); return false; } mSourceAccount->getAccount().balance -= curBSent; mSourceAccount->storeChange(delta, db); } else { AccountFrame::pointer issuer; if(curB.type()==ASSET_TYPE_CREDIT_ALPHANUM4) issuer = AccountFrame::loadAccount(curB.alphaNum4().issuer, db); else if(curB.type()==ASSET_TYPE_CREDIT_ALPHANUM12) issuer = AccountFrame::loadAccount(curB.alphaNum12().issuer, db); if (!issuer) { metrics.NewMeter({"op-path-payment", "failure", "no-issuer"}, "operation").Mark(); throw std::runtime_error("sendCredit Issuer not found"); } TrustFrame::pointer sourceLineFrame; sourceLineFrame = TrustFrame::loadTrustLine(getSourceID(), curB, db); if (!sourceLineFrame) { metrics.NewMeter({"op-path-payment", "failure", "src-no-trust"}, "operation").Mark(); innerResult().code(PATH_PAYMENT_SRC_NO_TRUST); return false; } if (!sourceLineFrame->isAuthorized()) { metrics.NewMeter( {"op-path-payment", "failure", "src-not-authorized"}, "operation").Mark(); innerResult().code(PATH_PAYMENT_SRC_NOT_AUTHORIZED); return false; } if (!sourceLineFrame->addBalance(-curBSent)) { metrics.NewMeter({"op-path-payment", "failure", "underfunded"}, "operation").Mark(); innerResult().code(PATH_PAYMENT_UNDERFUNDED); return false; } sourceLineFrame->storeChange(delta, db); } metrics.NewMeter({"op-path-payment", "success", "apply"}, "operation") .Mark(); return true; }