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authorAndrew Chow <achow101-github@achow101.com>2018-03-05 16:29:37 -0500
committerAndrew Chow <achow101-github@achow101.com>2018-03-13 12:39:17 -0400
commit0185939be6f7c5554b864e33657ce610fd434e18 (patch)
tree638323d15efce6c4768ea6c79d41ab3cd1a50925 /src/wallet
parentf84fed8eb6a8518a54a997044e55332dd37e223d (diff)
Implement Branch and Bound coin selection in a new file
Create a new file for coin selection logic and implement the BnB algorithm in it.
Diffstat (limited to 'src/wallet')
-rw-r--r--src/wallet/coinselection.cpp165
-rw-r--r--src/wallet/coinselection.h15
-rw-r--r--src/wallet/wallet.cpp1
-rw-r--r--src/wallet/wallet.h1
4 files changed, 182 insertions, 0 deletions
diff --git a/src/wallet/coinselection.cpp b/src/wallet/coinselection.cpp
new file mode 100644
index 0000000000..05bcdc12bb
--- /dev/null
+++ b/src/wallet/coinselection.cpp
@@ -0,0 +1,165 @@
+// Copyright (c) 2017 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 <wallet/coinselection.h>
+#include <util.h>
+#include <utilmoneystr.h>
+
+// Descending order comparator
+struct {
+ bool operator()(const CInputCoin& a, const CInputCoin& b) const
+ {
+ return a.effective_value > b.effective_value;
+ }
+} descending;
+
+/*
+ * This is the Branch and Bound Coin Selection algorithm designed by Murch. It searches for an input
+ * set that can pay for the spending target and does not exceed the spending target by more than the
+ * cost of creating and spending a change output. The algorithm uses a depth-first search on a binary
+ * tree. In the binary tree, each node corresponds to the inclusion or the omission of a UTXO. UTXOs
+ * are sorted by their effective values and the trees is explored deterministically per the inclusion
+ * branch first. At each node, the algorithm checks whether the selection is within the target range.
+ * While the selection has not reached the target range, more UTXOs are included. When a selection's
+ * value exceeds the target range, the complete subtree deriving from this selection can be omitted.
+ * At that point, the last included UTXO is deselected and the corresponding omission branch explored
+ * instead. The search ends after the complete tree has been searched or after a limited number of tries.
+ *
+ * The search continues to search for better solutions after one solution has been found. The best
+ * solution is chosen by minimizing the waste metric. The waste metric is defined as the cost to
+ * spend the current inputs at the given fee rate minus the long term expected cost to spend the
+ * inputs, plus the amount the selection exceeds the spending target:
+ *
+ * waste = selectionTotal - target + inputs × (currentFeeRate - longTermFeeRate)
+ *
+ * The algorithm uses two additional optimizations. A lookahead keeps track of the total value of
+ * the unexplored UTXOs. A subtree is not explored if the lookahead indicates that the target range
+ * cannot be reached. Further, it is unnecessary to test equivalent combinations. This allows us
+ * to skip testing the inclusion of UTXOs that match the effective value and waste of an omitted
+ * predecessor.
+ *
+ * The Branch and Bound algorithm is described in detail in Murch's Master Thesis:
+ * https://murch.one/wp-content/uploads/2016/11/erhardt2016coinselection.pdf
+ *
+ * @param const std::vector<CInputCoin>& utxo_pool The set of UTXOs that we are choosing from.
+ * These UTXOs will be sorted in descending order by effective value and the CInputCoins'
+ * values are their effective values.
+ * @param const CAmount& target_value This is the value that we want to select. It is the lower
+ * bound of the range.
+ * @param const CAmount& cost_of_change This is the cost of creating and spending a change output.
+ * This plus target_value is the upper bound of the range.
+ * @param std::set<CInputCoin>& out_set -> This is an output parameter for the set of CInputCoins
+ * that have been selected.
+ * @param CAmount& value_ret -> This is an output parameter for the total value of the CInputCoins
+ * that were selected.
+ * @param CAmount not_input_fees -> The fees that need to be paid for the outputs and fixed size
+ * overhead (version, locktime, marker and flag)
+ */
+
+static const size_t TOTAL_TRIES = 100000;
+
+bool SelectCoinsBnB(std::vector<CInputCoin>& utxo_pool, const CAmount& target_value, const CAmount& cost_of_change, std::set<CInputCoin>& out_set, CAmount& value_ret, CAmount not_input_fees)
+{
+ out_set.clear();
+ CAmount curr_value = 0;
+
+ std::vector<bool> curr_selection; // select the utxo at this index
+ curr_selection.reserve(utxo_pool.size());
+ CAmount actual_target = not_input_fees + target_value;
+
+ // Calculate curr_available_value
+ CAmount curr_available_value = 0;
+ for (const CInputCoin& utxo : utxo_pool) {
+ // Assert that this utxo is not negative. It should never be negative, effective value calculation should have removed it
+ assert(utxo.effective_value > 0);
+ curr_available_value += utxo.effective_value;
+ }
+ if (curr_available_value < actual_target) {
+ return false;
+ }
+
+ // Sort the utxo_pool
+ std::sort(utxo_pool.begin(), utxo_pool.end(), descending);
+
+ CAmount curr_waste = 0;
+ std::vector<bool> best_selection;
+ CAmount best_waste = MAX_MONEY;
+
+ // Depth First search loop for choosing the UTXOs
+ for (size_t i = 0; i < TOTAL_TRIES; ++i) {
+ // Conditions for starting a backtrack
+ bool backtrack = false;
+ if (curr_value + curr_available_value < actual_target || // Cannot possibly reach target with the amount remaining in the curr_available_value.
+ curr_value > actual_target + cost_of_change || // Selected value is out of range, go back and try other branch
+ (curr_waste > best_waste && (utxo_pool.at(0).fee - utxo_pool.at(0).long_term_fee) > 0)) { // Don't select things which we know will be more wasteful if the waste is increasing
+ backtrack = true;
+ } else if (curr_value >= actual_target) { // Selected value is within range
+ curr_waste += (curr_value - actual_target); // This is the excess value which is added to the waste for the below comparison
+ // Adding another UTXO after this check could bring the waste down if the long term fee is higher than the current fee.
+ // However we are not going to explore that because this optimization for the waste is only done when we have hit our target
+ // value. Adding any more UTXOs will be just burning the UTXO; it will go entirely to fees. Thus we aren't going to
+ // explore any more UTXOs to avoid burning money like that.
+ if (curr_waste <= best_waste) {
+ best_selection = curr_selection;
+ best_selection.resize(utxo_pool.size());
+ best_waste = curr_waste;
+ }
+ curr_waste -= (curr_value - actual_target); // Remove the excess value as we will be selecting different coins now
+ backtrack = true;
+ }
+
+ // Backtracking, moving backwards
+ if (backtrack) {
+ // Walk backwards to find the last included UTXO that still needs to have its omission branch traversed.
+ while (!curr_selection.empty() && !curr_selection.back()) {
+ curr_selection.pop_back();
+ curr_available_value += utxo_pool.at(curr_selection.size()).effective_value;
+ };
+
+ if (curr_selection.empty()) { // We have walked back to the first utxo and no branch is untraversed. All solutions searched
+ break;
+ }
+
+ // Output was included on previous iterations, try excluding now.
+ curr_selection.back() = false;
+ CInputCoin& utxo = utxo_pool.at(curr_selection.size() - 1);
+ curr_value -= utxo.effective_value;
+ curr_waste -= utxo.fee - utxo.long_term_fee;
+ } else { // Moving forwards, continuing down this branch
+ CInputCoin& utxo = utxo_pool.at(curr_selection.size());
+
+ // Remove this utxo from the curr_available_value utxo amount
+ curr_available_value -= utxo.effective_value;
+
+ // Avoid searching a branch if the previous UTXO has the same value and same waste and was excluded. Since the ratio of fee to
+ // long term fee is the same, we only need to check if one of those values match in order to know that the waste is the same.
+ if (!curr_selection.empty() && !curr_selection.back() &&
+ utxo.effective_value == utxo_pool.at(curr_selection.size() - 1).effective_value &&
+ utxo.fee == utxo_pool.at(curr_selection.size() - 1).fee) {
+ curr_selection.push_back(false);
+ } else {
+ // Inclusion branch first (Largest First Exploration)
+ curr_selection.push_back(true);
+ curr_value += utxo.effective_value;
+ curr_waste += utxo.fee - utxo.long_term_fee;
+ }
+ }
+ }
+
+ // Check for solution
+ if (best_selection.empty()) {
+ return false;
+ }
+
+ // Set output set
+ value_ret = 0;
+ for (size_t i = 0; i < best_selection.size(); ++i) {
+ if (best_selection.at(i)) {
+ out_set.insert(utxo_pool.at(i));
+ value_ret += utxo_pool.at(i).txout.nValue;
+ }
+ }
+
+ return true;
+}
diff --git a/src/wallet/coinselection.h b/src/wallet/coinselection.h
new file mode 100644
index 0000000000..a98f1cc7c1
--- /dev/null
+++ b/src/wallet/coinselection.h
@@ -0,0 +1,15 @@
+// Copyright (c) 2017 The Bitcoin Core developers
+// Distributed under the MIT software license, see the accompanying
+// file COPYING or http://www.opensource.org/licenses/mit-license.php.
+
+#ifndef BITCOIN_COINSELECTION_H
+#define BITCOIN_COINSELECTION_H
+
+#include <amount.h>
+#include <primitives/transaction.h>
+#include <random.h>
+#include <wallet/wallet.h>
+
+bool SelectCoinsBnB(std::vector<CInputCoin>& utxo_pool, const CAmount& target_value, const CAmount& cost_of_change, std::set<CInputCoin>& out_set, CAmount& value_ret, CAmount not_input_fees);
+
+#endif // BITCOIN_COINSELECTION_H
diff --git a/src/wallet/wallet.cpp b/src/wallet/wallet.cpp
index a739077a31..e797a63dd8 100644
--- a/src/wallet/wallet.cpp
+++ b/src/wallet/wallet.cpp
@@ -8,6 +8,7 @@
#include <checkpoints.h>
#include <chain.h>
#include <wallet/coincontrol.h>
+#include <wallet/coinselection.h>
#include <consensus/consensus.h>
#include <consensus/validation.h>
#include <fs.h>
diff --git a/src/wallet/wallet.h b/src/wallet/wallet.h
index 89dc4f399c..a2fab3c88e 100644
--- a/src/wallet/wallet.h
+++ b/src/wallet/wallet.h
@@ -509,6 +509,7 @@ public:
outpoint = COutPoint(walletTx->GetHash(), i);
txout = walletTx->tx->vout[i];
+ effective_value = txout.nValue;
}
COutPoint outpoint;