// Copyright (c) 2011-2018 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 <qt/transactionrecord.h>
#include <consensus/consensus.h>
#include <interfaces/wallet.h>
#include <key_io.h>
#include <timedata.h>
#include <validation.h>
#include <stdint.h>
/* 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> TransactionRecord::decomposeTransaction(const interfaces::WalletTx& wtx)
{
QList<TransactionRecord> 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<std::string, std::string> mapValue = wtx.value_map;
if (nNet > 0 || wtx.is_coinbase)
{
//
// 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);
CTxDestination address;
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
{
bool involvesWatchAddress = false;
isminetype fAllFromMe = ISMINE_SPENDABLE;
for (const isminetype mine : wtx.txin_is_mine)
{
if(mine & ISMINE_WATCH_ONLY) involvesWatchAddress = true;
if(fAllFromMe > mine) fAllFromMe = mine;
}
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
CAmount nChange = wtx.change;
parts.append(TransactionRecord(hash, nTime, TransactionRecord::SendToSelf, "",
-(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 (!boost::get<CNoDestination>(&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, int numBlocks, int64_t adjustedTime)
{
// 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.cur_num_blocks = numBlocks;
if (!wtx.is_final)
{
if (wtx.lock_time < LOCKTIME_THRESHOLD)
{
status.status = TransactionStatus::OpenUntilBlock;
status.open_for = wtx.lock_time - numBlocks;
}
else
{
status.status = TransactionStatus::OpenUntilDate;
status.open_for = wtx.lock_time;
}
}
// For generated transactions, determine maturity
else 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(int numBlocks) const
{
return status.cur_num_blocks != numBlocks || status.needsUpdate;
}
QString TransactionRecord::getTxHash() const
{
return QString::fromStdString(hash.ToString());
}
int TransactionRecord::getOutputIndex() const
{
return idx;
}