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// Copyright (c) 2010 Satoshi Nakamoto
// Copyright (c) 2009-2020 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 <consensus/validation.h>
#include <net.h>
#include <net_processing.h>
#include <node/context.h>
#include <validation.h>
#include <validationinterface.h>
#include <node/transaction.h>
#include <future>
static TransactionError HandleATMPError(const TxValidationState& state, std::string& err_string_out)
{
err_string_out = state.ToString();
if (state.IsInvalid()) {
if (state.GetResult() == TxValidationResult::TX_MISSING_INPUTS) {
return TransactionError::MISSING_INPUTS;
}
return TransactionError::MEMPOOL_REJECTED;
} else {
return TransactionError::MEMPOOL_ERROR;
}
}
TransactionError BroadcastTransaction(NodeContext& node, const CTransactionRef tx, std::string& err_string, const CAmount& max_tx_fee, bool relay, bool wait_callback)
{
// BroadcastTransaction can be called by either sendrawtransaction RPC or wallet RPCs.
// node.peerman is assigned both before chain clients and before RPC server is accepting calls,
// and reset after chain clients and RPC sever are stopped. node.peerman should never be null here.
assert(node.peerman);
assert(node.mempool);
std::promise<void> promise;
uint256 hashTx = tx->GetHash();
bool callback_set = false;
{ // cs_main scope
LOCK(cs_main);
assert(std::addressof(::ChainstateActive()) == std::addressof(node.chainman->ActiveChainstate()));
// If the transaction is already confirmed in the chain, don't do anything
// and return early.
CCoinsViewCache &view = node.chainman->ActiveChainstate().CoinsTip();
for (size_t o = 0; o < tx->vout.size(); o++) {
const Coin& existingCoin = view.AccessCoin(COutPoint(hashTx, o));
// IsSpent doesn't mean the coin is spent, it means the output doesn't exist.
// So if the output does exist, then this transaction exists in the chain.
if (!existingCoin.IsSpent()) return TransactionError::ALREADY_IN_CHAIN;
}
if (!node.mempool->exists(hashTx)) {
// Transaction is not already in the mempool.
if (max_tx_fee > 0) {
// First, call ATMP with test_accept and check the fee. If ATMP
// fails here, return error immediately.
const MempoolAcceptResult result = AcceptToMemoryPool(node.chainman->ActiveChainstate(), *node.mempool, tx, false /* bypass_limits */,
true /* test_accept */);
if (result.m_result_type != MempoolAcceptResult::ResultType::VALID) {
return HandleATMPError(result.m_state, err_string);
} else if (result.m_base_fees.value() > max_tx_fee) {
return TransactionError::MAX_FEE_EXCEEDED;
}
}
// Try to submit the transaction to the mempool.
const MempoolAcceptResult result = AcceptToMemoryPool(node.chainman->ActiveChainstate(), *node.mempool, tx, false /* bypass_limits */,
false /* test_accept */);
if (result.m_result_type != MempoolAcceptResult::ResultType::VALID) {
return HandleATMPError(result.m_state, err_string);
}
// Transaction was accepted to the mempool.
if (wait_callback) {
// For transactions broadcast from outside the wallet, make sure
// that the wallet has been notified of the transaction before
// continuing.
//
// This prevents a race where a user might call sendrawtransaction
// with a transaction to/from their wallet, immediately call some
// wallet RPC, and get a stale result because callbacks have not
// yet been processed.
CallFunctionInValidationInterfaceQueue([&promise] {
promise.set_value();
});
callback_set = true;
}
}
} // cs_main
if (callback_set) {
// Wait until Validation Interface clients have been notified of the
// transaction entering the mempool.
promise.get_future().wait();
}
if (relay) {
// the mempool tracks locally submitted transactions to make a
// best-effort of initial broadcast
node.mempool->AddUnbroadcastTx(hashTx);
LOCK(cs_main);
node.peerman->RelayTransaction(hashTx, tx->GetWitnessHash());
}
return TransactionError::OK;
}
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