// Copyright (c) 2011-2021 The Bitcoin Core developers // Distributed under the MIT software license, see the accompanying // file COPYING or http://www.opensource.org/licenses/mit-license.php. #include #include #include #include #include #include #include using wallet::ISMINE_NO; using wallet::ISMINE_SPENDABLE; using wallet::ISMINE_WATCH_ONLY; using wallet::isminetype; /* Return positive answer if transaction should be shown in list. */ bool TransactionRecord::showTransaction() { // There are currently no cases where we hide transactions, but // we may want to use this in the future for things like RBF. return true; } /* * Decompose CWallet transaction to model transaction records. */ QList TransactionRecord::decomposeTransaction(const interfaces::WalletTx& wtx) { QList parts; int64_t nTime = wtx.time; CAmount nCredit = wtx.credit; CAmount nDebit = wtx.debit; CAmount nNet = nCredit - nDebit; uint256 hash = wtx.tx->GetHash(); std::map mapValue = wtx.value_map; bool involvesWatchAddress = false; isminetype fAllFromMe = ISMINE_SPENDABLE; bool any_from_me = false; if (wtx.is_coinbase) { fAllFromMe = ISMINE_NO; } else { for (const isminetype mine : wtx.txin_is_mine) { if(mine & ISMINE_WATCH_ONLY) involvesWatchAddress = true; if(fAllFromMe > mine) fAllFromMe = mine; if (mine) any_from_me = true; } } if (!any_from_me) { // // Credit // for(unsigned int i = 0; i < wtx.tx->vout.size(); i++) { const CTxOut& txout = wtx.tx->vout[i]; isminetype mine = wtx.txout_is_mine[i]; if(mine) { TransactionRecord sub(hash, nTime); sub.idx = i; // vout index sub.credit = txout.nValue; sub.involvesWatchAddress = mine & ISMINE_WATCH_ONLY; if (wtx.txout_address_is_mine[i]) { // Received by Bitcoin Address sub.type = TransactionRecord::RecvWithAddress; sub.address = EncodeDestination(wtx.txout_address[i]); } else { // Received by IP connection (deprecated features), or a multisignature or other non-simple transaction sub.type = TransactionRecord::RecvFromOther; sub.address = mapValue["from"]; } if (wtx.is_coinbase) { // Generated sub.type = TransactionRecord::Generated; } parts.append(sub); } } } else { isminetype fAllToMe = ISMINE_SPENDABLE; for (const isminetype mine : wtx.txout_is_mine) { if(mine & ISMINE_WATCH_ONLY) involvesWatchAddress = true; if(fAllToMe > mine) fAllToMe = mine; } if (fAllFromMe && fAllToMe) { // Payment to self std::string address; for (auto it = wtx.txout_address.begin(); it != wtx.txout_address.end(); ++it) { if (it != wtx.txout_address.begin()) address += ", "; address += EncodeDestination(*it); } CAmount nChange = wtx.change; parts.append(TransactionRecord(hash, nTime, TransactionRecord::SendToSelf, address, -(nDebit - nChange), nCredit - nChange)); parts.last().involvesWatchAddress = involvesWatchAddress; // maybe pass to TransactionRecord as constructor argument } else if (fAllFromMe) { // // Debit // CAmount nTxFee = nDebit - wtx.tx->GetValueOut(); for (unsigned int nOut = 0; nOut < wtx.tx->vout.size(); nOut++) { const CTxOut& txout = wtx.tx->vout[nOut]; TransactionRecord sub(hash, nTime); sub.idx = nOut; sub.involvesWatchAddress = involvesWatchAddress; if(wtx.txout_is_mine[nOut]) { // Ignore parts sent to self, as this is usually the change // from a transaction sent back to our own address. continue; } if (!std::get_if(&wtx.txout_address[nOut])) { // Sent to Bitcoin Address sub.type = TransactionRecord::SendToAddress; sub.address = EncodeDestination(wtx.txout_address[nOut]); } else { // Sent to IP, or other non-address transaction like OP_EVAL sub.type = TransactionRecord::SendToOther; sub.address = mapValue["to"]; } CAmount nValue = txout.nValue; /* Add fee to first output */ if (nTxFee > 0) { nValue += nTxFee; nTxFee = 0; } sub.debit = -nValue; parts.append(sub); } } else { // // Mixed debit transaction, can't break down payees // parts.append(TransactionRecord(hash, nTime, TransactionRecord::Other, "", nNet, 0)); parts.last().involvesWatchAddress = involvesWatchAddress; } } return parts; } void TransactionRecord::updateStatus(const interfaces::WalletTxStatus& wtx, const uint256& block_hash, int numBlocks, int64_t block_time) { // Determine transaction status // Sort order, unrecorded transactions sort to the top status.sortKey = strprintf("%010d-%01d-%010u-%03d", wtx.block_height, wtx.is_coinbase ? 1 : 0, wtx.time_received, idx); status.countsForBalance = wtx.is_trusted && !(wtx.blocks_to_maturity > 0); status.depth = wtx.depth_in_main_chain; status.m_cur_block_hash = block_hash; // For generated transactions, determine maturity if (type == TransactionRecord::Generated) { if (wtx.blocks_to_maturity > 0) { status.status = TransactionStatus::Immature; if (wtx.is_in_main_chain) { status.matures_in = wtx.blocks_to_maturity; } else { status.status = TransactionStatus::NotAccepted; } } else { status.status = TransactionStatus::Confirmed; } } else { if (status.depth < 0) { status.status = TransactionStatus::Conflicted; } else if (status.depth == 0) { status.status = TransactionStatus::Unconfirmed; if (wtx.is_abandoned) status.status = TransactionStatus::Abandoned; } else if (status.depth < RecommendedNumConfirmations) { status.status = TransactionStatus::Confirming; } else { status.status = TransactionStatus::Confirmed; } } status.needsUpdate = false; } bool TransactionRecord::statusUpdateNeeded(const uint256& block_hash) const { assert(!block_hash.IsNull()); return status.m_cur_block_hash != block_hash || status.needsUpdate; } QString TransactionRecord::getTxHash() const { return QString::fromStdString(hash.ToString()); } int TransactionRecord::getOutputIndex() const { return idx; }