//------------------------------------------------------------------------------ /* 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. */ //============================================================================== namespace ripple { SerializedLedgerEntry::SerializedLedgerEntry ( SerializerIterator& sit, uint256 const& index) : STObject (sfLedgerEntry), mIndex (index), mMutable (true) { set (sit); setSLEType (); } SerializedLedgerEntry::SerializedLedgerEntry ( const Serializer& s, uint256 const& index) : STObject (sfLedgerEntry), mIndex (index), mMutable (true) { // we know 's' isn't going away SerializerIterator sit (const_cast (s)); set (sit); setSLEType (); } SerializedLedgerEntry::SerializedLedgerEntry ( const STObject & object, uint256 const& index) : STObject (object), mIndex(index), mMutable (true) { setSLEType (); } void SerializedLedgerEntry::setSLEType () { mFormat = LedgerFormats::getInstance().findByType ( static_cast (getFieldU16 (sfLedgerEntryType))); if (mFormat == nullptr) throw std::runtime_error ("invalid ledger entry type"); mType = mFormat->getType (); if (!setType (mFormat->elements)) { WriteLog (lsWARNING, SerializedLedger) << "Ledger entry not valid for type " << mFormat->getName (); WriteLog (lsWARNING, SerializedLedger) << getJson (0); throw std::runtime_error ("ledger entry not valid for type"); } } SerializedLedgerEntry::SerializedLedgerEntry (LedgerEntryType type, uint256 const& index) : STObject (sfLedgerEntry), mIndex (index), mType (type), mMutable (true) { mFormat = LedgerFormats::getInstance().findByType (type); if (mFormat == nullptr) throw std::runtime_error ("invalid ledger entry type"); set (mFormat->elements); setFieldU16 (sfLedgerEntryType, static_cast (mFormat->getType ())); } SerializedLedgerEntry::pointer SerializedLedgerEntry::getMutable () const { SerializedLedgerEntry::pointer ret = std::make_shared (std::cref (*this)); ret->mMutable = true; return ret; } std::string SerializedLedgerEntry::getFullText () const { std::string ret = "\""; ret += to_string (mIndex); ret += "\" = { "; ret += mFormat->getName (); ret += ", "; ret += STObject::getFullText (); ret += "}"; return ret; } std::string SerializedLedgerEntry::getText () const { return str (boost::format ("{ %s, %s }") % to_string (mIndex) % STObject::getText ()); } Json::Value SerializedLedgerEntry::getJson (int options) const { Json::Value ret (STObject::getJson (options)); ret["index"] = to_string (mIndex); return ret; } bool SerializedLedgerEntry::isThreadedType () { return getFieldIndex (sfPreviousTxnID) != -1; } bool SerializedLedgerEntry::isThreaded () { return isFieldPresent (sfPreviousTxnID); } uint256 SerializedLedgerEntry::getThreadedTransaction () { return getFieldH256 (sfPreviousTxnID); } std::uint32_t SerializedLedgerEntry::getThreadedLedger () { return getFieldU32 (sfPreviousTxnLgrSeq); } bool SerializedLedgerEntry::thread (uint256 const& txID, std::uint32_t ledgerSeq, uint256& prevTxID, std::uint32_t& prevLedgerID) { uint256 oldPrevTxID = getFieldH256 (sfPreviousTxnID); WriteLog (lsTRACE, SerializedLedger) << "Thread Tx:" << txID << " prev:" << oldPrevTxID; if (oldPrevTxID == txID) { // this transaction is already threaded assert (getFieldU32 (sfPreviousTxnLgrSeq) == ledgerSeq); return false; } prevTxID = oldPrevTxID; prevLedgerID = getFieldU32 (sfPreviousTxnLgrSeq); setFieldH256 (sfPreviousTxnID, txID); setFieldU32 (sfPreviousTxnLgrSeq, ledgerSeq); return true; } bool SerializedLedgerEntry::hasOneOwner () { return (mType != ltACCOUNT_ROOT) && (getFieldIndex (sfAccount) != -1); } bool SerializedLedgerEntry::hasTwoOwners () { return mType == ltRIPPLE_STATE; } RippleAddress SerializedLedgerEntry::getOwner () { return getFieldAccount (sfAccount); } RippleAddress SerializedLedgerEntry::getFirstOwner () { return RippleAddress::createAccountID (getFieldAmount (sfLowLimit).getIssuer ()); } RippleAddress SerializedLedgerEntry::getSecondOwner () { return RippleAddress::createAccountID (getFieldAmount (sfHighLimit).getIssuer ()); } std::vector SerializedLedgerEntry::getOwners () { std::vector owners; Account account; for (int i = 0, fields = getCount (); i < fields; ++i) { auto const& fc = getFieldSType (i); if ((fc == sfAccount) || (fc == sfOwner)) { auto entry = dynamic_cast (peekAtPIndex (i)); if ((entry != nullptr) && entry->getValueH160 (account)) owners.push_back (getAccountRootIndex (account)); } if ((fc == sfLowLimit) || (fc == sfHighLimit)) { auto entry = dynamic_cast (peekAtPIndex (i)); if ((entry != nullptr)) { auto issuer = entry->getIssuer (); if (issuer.isNonZero ()) owners.push_back (getAccountRootIndex (issuer)); } } } return owners; } } // ripple