//------------------------------------------------------------------------------ /* This file is part of rippled: https://github.com/ripple/rippled Copyright (c) 2012, 2013 Ripple Labs Inc. Permission to use, copy, modify, and/or distribute this software for any purpose with or without fee is hereby granted, provided that the above copyright notice and this permission notice appear in all copies. THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL , DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ //============================================================================== #include #include #include #include #include #include namespace ripple { // VFALCO TODO rename class to TransactionMeta template TxMeta::TxMeta (uint256 const& txid, std::uint32_t ledger, T const& data, CtorHelper) : mTransactionID (txid) , mLedger (ledger) , mNodes (sfAffectedNodes, 32) { SerialIter sit (makeSlice(data)); STObject obj(sit, sfMetadata); mResult = obj.getFieldU8 (sfTransactionResult); mIndex = obj.getFieldU32 (sfTransactionIndex); mNodes = * dynamic_cast (&obj.getField (sfAffectedNodes)); if (obj.isFieldPresent (sfDeliveredAmount)) setDeliveredAmount (obj.getFieldAmount (sfDeliveredAmount)); } TxMeta::TxMeta (uint256 const& txid, std::uint32_t ledger, Blob const& vec) : TxMeta (txid, ledger, vec, CtorHelper ()) { } TxMeta::TxMeta (uint256 const& txid, std::uint32_t ledger, std::string const& data) : TxMeta (txid, ledger, data, CtorHelper ()) { } bool TxMeta::isNodeAffected (uint256 const& node) const { for (auto const& n : mNodes) { if (n.getFieldH256 (sfLedgerIndex) == node) return true; } return false; } void TxMeta::setAffectedNode (uint256 const& node, SField const& type, std::uint16_t nodeType) { // make sure the node exists and force its type for (auto& n : mNodes) { if (n.getFieldH256 (sfLedgerIndex) == node) { n.setFName (type); n.setFieldU16 (sfLedgerEntryType, nodeType); return; } } mNodes.push_back (STObject (type)); STObject& obj = mNodes.back (); assert (obj.getFName () == type); obj.setFieldH256 (sfLedgerIndex, node); obj.setFieldU16 (sfLedgerEntryType, nodeType); } boost::container::flat_set TxMeta::getAffectedAccounts() const { boost::container::flat_set list; list.reserve (10); // This code should match the behavior of the JS method: // Meta#getAffectedAccounts for (auto const& it : mNodes) { int index = it.getFieldIndex ((it.getFName () == sfCreatedNode) ? sfNewFields : sfFinalFields); if (index != -1) { const STObject* inner = dynamic_cast (&it.peekAtIndex (index)); assert(inner); if (inner) { for (auto const& field : *inner) { STAccount const* sa = dynamic_cast (&field); if (sa) { AccountID id; assert(sa->isValueH160()); if (sa->getValueH160(id)) list.insert(id); } else if ((field.getFName () == sfLowLimit) || (field.getFName () == sfHighLimit) || (field.getFName () == sfTakerPays) || (field.getFName () == sfTakerGets)) { const STAmount* lim = dynamic_cast (&field); if (lim != nullptr) { auto issuer = lim->getIssuer (); if (issuer.isNonZero ()) list.insert(issuer); } else { WriteLog (lsFATAL, TxMeta) << "limit is not amount " << field.getJson (0); } } } } } } return list; } STObject& TxMeta::getAffectedNode (SLE::ref node, SField const& type) { assert (&type); uint256 index = node->getIndex (); for (auto& n : mNodes) { if (n.getFieldH256 (sfLedgerIndex) == index) return n; } mNodes.push_back (STObject (type)); STObject& obj = mNodes.back (); assert (obj.getFName () == type); obj.setFieldH256 (sfLedgerIndex, index); obj.setFieldU16 (sfLedgerEntryType, node->getFieldU16 (sfLedgerEntryType)); return obj; } STObject& TxMeta::getAffectedNode (uint256 const& node) { for (auto& n : mNodes) { if (n.getFieldH256 (sfLedgerIndex) == node) return n; } assert (false); throw std::runtime_error ("Affected node not found"); } const STObject& TxMeta::peekAffectedNode (uint256 const& node) const { for (auto const& n : mNodes) { if (n.getFieldH256 (sfLedgerIndex) == node) return n; } throw std::runtime_error ("Affected node not found"); } void TxMeta::init (uint256 const& id, std::uint32_t ledger) { mTransactionID = id; mLedger = ledger; mNodes = STArray (sfAffectedNodes, 32); mDelivered = boost::optional (); } void TxMeta::swap (TxMeta& s) noexcept { assert ((mTransactionID == s.mTransactionID) && (mLedger == s.mLedger)); mNodes.swap (s.mNodes); } bool TxMeta::thread (STObject& node, uint256 const& prevTxID, std::uint32_t prevLgrID) { if (node.getFieldIndex (sfPreviousTxnID) == -1) { assert (node.getFieldIndex (sfPreviousTxnLgrSeq) == -1); node.setFieldH256 (sfPreviousTxnID, prevTxID); node.setFieldU32 (sfPreviousTxnLgrSeq, prevLgrID); return true; } assert (node.getFieldH256 (sfPreviousTxnID) == prevTxID); assert (node.getFieldU32 (sfPreviousTxnLgrSeq) == prevLgrID); return false; } static bool compare (const STObject& o1, const STObject& o2) { return o1.getFieldH256 (sfLedgerIndex) < o2.getFieldH256 (sfLedgerIndex); } STObject TxMeta::getAsObject () const { STObject metaData (sfTransactionMetaData); assert (mResult != 255); metaData.setFieldU8 (sfTransactionResult, mResult); metaData.setFieldU32 (sfTransactionIndex, mIndex); metaData.emplace_back (mNodes); if (hasDeliveredAmount ()) metaData.setFieldAmount (sfDeliveredAmount, getDeliveredAmount ()); return metaData; } void TxMeta::addRaw (Serializer& s, TER result, std::uint32_t index) { mResult = static_cast (result); mIndex = index; assert ((mResult == 0) || ((mResult > 100) && (mResult <= 255))); mNodes.sort (compare); getAsObject ().add (s); } } // ripple