forked from bitcoin/bitcoin
-
Notifications
You must be signed in to change notification settings - Fork 56
/
coinselection.h
365 lines (313 loc) · 16.5 KB
/
coinselection.h
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
246
247
248
249
250
251
252
253
254
255
256
257
258
259
260
261
262
263
264
265
266
267
268
269
270
271
272
273
274
275
276
277
278
279
280
281
282
283
284
285
286
287
288
289
290
291
292
293
294
295
296
297
298
299
300
301
302
303
304
305
306
307
308
309
310
311
312
313
314
315
316
317
318
319
320
321
322
323
324
325
326
327
328
329
330
331
332
333
334
335
336
337
338
339
340
341
342
343
344
345
346
347
348
349
350
351
352
353
354
355
356
357
358
359
360
361
362
363
364
365
// Copyright (c) 2017-2021 The Bitcoin Core developers
// Distributed under the MIT software license, see the accompanying
// file COPYING or http://www.opensource.org/licenses/mit-license.php.
#ifndef BITCOIN_WALLET_COINSELECTION_H
#define BITCOIN_WALLET_COINSELECTION_H
#include <consensus/amount.h>
#include <policy/feerate.h>
#include <primitives/transaction.h>
#include <random.h>
#include <optional>
namespace wallet {
//! lower bound for randomly-chosen target change amount
static constexpr CAmount CHANGE_LOWER{50000};
//! upper bound for randomly-chosen target change amount
static constexpr CAmount CHANGE_UPPER{1000000};
/** A UTXO under consideration for use in funding a new transaction. */
struct COutput {
private:
/** The output's value minus fees required to spend it.*/
std::optional<CAmount> effective_value;
/** The fee required to spend this output at the transaction's target feerate. */
std::optional<CAmount> fee;
public:
/** The outpoint identifying this UTXO */
COutPoint outpoint;
/** The output itself */
CTxOut txout;
/**
* Depth in block chain.
* If > 0: the tx is on chain and has this many confirmations.
* If = 0: the tx is waiting confirmation.
* If < 0: a conflicting tx is on chain and has this many confirmations. */
int depth;
/** Pre-computed estimated size of this output as a fully-signed input in a transaction. Can be -1 if it could not be calculated */
int input_bytes;
/** Whether we have the private keys to spend this output */
bool spendable;
/** Whether we know how to spend this output, ignoring the lack of keys */
bool solvable;
/**
* Whether this output is considered safe to spend. Unconfirmed transactions
* from outside keys and unconfirmed replacement transactions are considered
* unsafe and will not be used to fund new spending transactions.
*/
bool safe;
/** The time of the transaction containing this output as determined by CWalletTx::nTimeSmart */
int64_t time;
/** Whether the transaction containing this output is sent from the owning wallet */
bool from_me;
/** The fee required to spend this output at the consolidation feerate. */
CAmount long_term_fee{0};
COutput(const COutPoint& outpoint, const CTxOut& txout, int depth, int input_bytes, bool spendable, bool solvable, bool safe, int64_t time, bool from_me, const std::optional<CFeeRate> feerate = std::nullopt)
: outpoint{outpoint},
txout{txout},
depth{depth},
input_bytes{input_bytes},
spendable{spendable},
solvable{solvable},
safe{safe},
time{time},
from_me{from_me}
{
if (feerate) {
fee = input_bytes < 0 ? 0 : feerate.value().GetFee(input_bytes);
effective_value = txout.nValue - fee.value();
}
}
COutput(const COutPoint& outpoint, const CTxOut& txout, int depth, int input_bytes, bool spendable, bool solvable, bool safe, int64_t time, bool from_me, const CAmount fees)
: COutput(outpoint, txout, depth, input_bytes, spendable, solvable, safe, time, from_me)
{
// if input_bytes is unknown, then fees should be 0, if input_bytes is known, then the fees should be a positive integer or 0 (input_bytes known and fees = 0 only happens in the tests)
assert((input_bytes < 0 && fees == 0) || (input_bytes > 0 && fees >= 0));
fee = fees;
effective_value = txout.nValue - fee.value();
}
std::string ToString() const;
bool operator<(const COutput& rhs) const
{
return outpoint < rhs.outpoint;
}
CAmount GetFee() const
{
assert(fee.has_value());
return fee.value();
}
CAmount GetEffectiveValue() const
{
assert(effective_value.has_value());
return effective_value.value();
}
};
/** Parameters for one iteration of Coin Selection. */
struct CoinSelectionParams {
/** Randomness to use in the context of coin selection. */
FastRandomContext& rng_fast;
/** Size of a change output in bytes, determined by the output type. */
size_t change_output_size = 0;
/** Size of the input to spend a change output in virtual bytes. */
size_t change_spend_size = 0;
/** Mininmum change to target in Knapsack solver: select coins to cover the payment and
* at least this value of change. */
CAmount m_min_change_target{0};
/** Minimum amount for creating a change output.
* If change budget is smaller than min_change then we forgo creation of change output.
*/
CAmount min_viable_change{0};
/** Cost of creating the change output. */
CAmount m_change_fee{0};
/** Cost of creating the change output + cost of spending the change output in the future. */
CAmount m_cost_of_change{0};
/** The targeted feerate of the transaction being built. */
CFeeRate m_effective_feerate;
/** The feerate estimate used to estimate an upper bound on what should be sufficient to spend
* the change output sometime in the future. */
CFeeRate m_long_term_feerate;
/** If the cost to spend a change output at the discard feerate exceeds its value, drop it to fees. */
CFeeRate m_discard_feerate;
/** Size of the transaction before coin selection, consisting of the header and recipient
* output(s), excluding the inputs and change output(s). */
size_t tx_noinputs_size = 0;
/** Indicate that we are subtracting the fee from outputs */
bool m_subtract_fee_outputs = false;
/** When true, always spend all (up to OUTPUT_GROUP_MAX_ENTRIES) or none of the outputs
* associated with the same address. This helps reduce privacy leaks resulting from address
* reuse. Dust outputs are not eligible to be added to output groups and thus not considered. */
bool m_avoid_partial_spends = false;
CoinSelectionParams(FastRandomContext& rng_fast, size_t change_output_size, size_t change_spend_size,
CAmount min_change_target, CFeeRate effective_feerate,
CFeeRate long_term_feerate, CFeeRate discard_feerate, size_t tx_noinputs_size, bool avoid_partial)
: rng_fast{rng_fast},
change_output_size(change_output_size),
change_spend_size(change_spend_size),
m_min_change_target(min_change_target),
m_effective_feerate(effective_feerate),
m_long_term_feerate(long_term_feerate),
m_discard_feerate(discard_feerate),
tx_noinputs_size(tx_noinputs_size),
m_avoid_partial_spends(avoid_partial)
{
}
CoinSelectionParams(FastRandomContext& rng_fast)
: rng_fast{rng_fast} {}
};
/** Parameters for filtering which OutputGroups we may use in coin selection.
* We start by being very selective and requiring multiple confirmations and
* then get more permissive if we cannot fund the transaction. */
struct CoinEligibilityFilter
{
/** Minimum number of confirmations for outputs that we sent to ourselves.
* We may use unconfirmed UTXOs sent from ourselves, e.g. change outputs. */
const int conf_mine;
/** Minimum number of confirmations for outputs received from a different wallet. */
const int conf_theirs;
/** Maximum number of unconfirmed ancestors aggregated across all UTXOs in an OutputGroup. */
const uint64_t max_ancestors;
/** Maximum number of descendants that a single UTXO in the OutputGroup may have. */
const uint64_t max_descendants;
/** When avoid_reuse=true and there are full groups (OUTPUT_GROUP_MAX_ENTRIES), whether or not to use any partial groups.*/
const bool m_include_partial_groups{false};
CoinEligibilityFilter(int conf_mine, int conf_theirs, uint64_t max_ancestors) : conf_mine(conf_mine), conf_theirs(conf_theirs), max_ancestors(max_ancestors), max_descendants(max_ancestors) {}
CoinEligibilityFilter(int conf_mine, int conf_theirs, uint64_t max_ancestors, uint64_t max_descendants) : conf_mine(conf_mine), conf_theirs(conf_theirs), max_ancestors(max_ancestors), max_descendants(max_descendants) {}
CoinEligibilityFilter(int conf_mine, int conf_theirs, uint64_t max_ancestors, uint64_t max_descendants, bool include_partial) : conf_mine(conf_mine), conf_theirs(conf_theirs), max_ancestors(max_ancestors), max_descendants(max_descendants), m_include_partial_groups(include_partial) {}
};
/** A group of UTXOs paid to the same output script. */
struct OutputGroup
{
/** The list of UTXOs contained in this output group. */
std::vector<COutput> m_outputs;
/** Whether the UTXOs were sent by the wallet to itself. This is relevant because we may want at
* least a certain number of confirmations on UTXOs received from outside wallets while trusting
* our own UTXOs more. */
bool m_from_me{true};
/** The total value of the UTXOs in sum. */
CAmount m_value{0};
/** The minimum number of confirmations the UTXOs in the group have. Unconfirmed is 0. */
int m_depth{999};
/** The aggregated count of unconfirmed ancestors of all UTXOs in this
* group. Not deduplicated and may overestimate when ancestors are shared. */
size_t m_ancestors{0};
/** The maximum count of descendants of a single UTXO in this output group. */
size_t m_descendants{0};
/** The value of the UTXOs after deducting the cost of spending them at the effective feerate. */
CAmount effective_value{0};
/** The fee to spend these UTXOs at the effective feerate. */
CAmount fee{0};
/** The target feerate of the transaction we're trying to build. */
CFeeRate m_effective_feerate{0};
/** The fee to spend these UTXOs at the long term feerate. */
CAmount long_term_fee{0};
/** The feerate for spending a created change output eventually (i.e. not urgently, and thus at
* a lower feerate). Calculated using long term fee estimate. This is used to decide whether
* it could be economical to create a change output. */
CFeeRate m_long_term_feerate{0};
/** Indicate that we are subtracting the fee from outputs.
* When true, the value that is used for coin selection is the UTXO's real value rather than effective value */
bool m_subtract_fee_outputs{false};
OutputGroup() {}
OutputGroup(const CoinSelectionParams& params) :
m_effective_feerate(params.m_effective_feerate),
m_long_term_feerate(params.m_long_term_feerate),
m_subtract_fee_outputs(params.m_subtract_fee_outputs)
{}
void Insert(const COutput& output, size_t ancestors, size_t descendants, bool positive_only);
bool EligibleForSpending(const CoinEligibilityFilter& eligibility_filter) const;
CAmount GetSelectionAmount() const;
};
/** Compute the waste for this result given the cost of change
* and the opportunity cost of spending these inputs now vs in the future.
* If change exists, waste = change_cost + inputs * (effective_feerate - long_term_feerate)
* If no change, waste = excess + inputs * (effective_feerate - long_term_feerate)
* where excess = selected_effective_value - target
* change_cost = effective_feerate * change_output_size + long_term_feerate * change_spend_size
*
* Note this function is separate from SelectionResult for the tests.
*
* @param[in] inputs The selected inputs
* @param[in] change_cost The cost of creating change and spending it in the future.
* Only used if there is change, in which case it must be positive.
* Must be 0 if there is no change.
* @param[in] target The amount targeted by the coin selection algorithm.
* @param[in] use_effective_value Whether to use the input's effective value (when true) or the real value (when false).
* @return The waste
*/
[[nodiscard]] CAmount GetSelectionWaste(const std::set<COutput>& inputs, CAmount change_cost, CAmount target, bool use_effective_value = true);
/** Choose a random change target for each transaction to make it harder to fingerprint the Core
* wallet based on the change output values of transactions it creates.
* Change target covers at least change fees and adds a random value on top of it.
* The random value is between 50ksat and min(2 * payment_value, 1milsat)
* When payment_value <= 25ksat, the value is just 50ksat.
*
* Making change amounts similar to the payment value may help disguise which output(s) are payments
* are which ones are change. Using double the payment value may increase the number of inputs
* needed (and thus be more expensive in fees), but breaks analysis techniques which assume the
* coins selected are just sufficient to cover the payment amount ("unnecessary input" heuristic).
*
* @param[in] payment_value Average payment value of the transaction output(s).
* @param[in] change_fee Fee for creating a change output.
*/
[[nodiscard]] CAmount GenerateChangeTarget(const CAmount payment_value, const CAmount change_fee, FastRandomContext& rng);
enum class SelectionAlgorithm : uint8_t
{
BNB = 0,
KNAPSACK = 1,
SRD = 2,
MANUAL = 3,
};
std::string GetAlgorithmName(const SelectionAlgorithm algo);
struct SelectionResult
{
private:
/** Set of inputs selected by the algorithm to use in the transaction */
std::set<COutput> m_selected_inputs;
/** The target the algorithm selected for. Equal to the recipient amount plus non-input fees */
CAmount m_target;
/** The algorithm used to produce this result */
SelectionAlgorithm m_algo;
/** Whether the input values for calculations should be the effective value (true) or normal value (false) */
bool m_use_effective{false};
/** The computed waste */
std::optional<CAmount> m_waste;
public:
explicit SelectionResult(const CAmount target, SelectionAlgorithm algo)
: m_target(target), m_algo(algo) {}
SelectionResult() = delete;
/** Get the sum of the input values */
[[nodiscard]] CAmount GetSelectedValue() const;
[[nodiscard]] CAmount GetSelectedEffectiveValue() const;
void Clear();
void AddInput(const OutputGroup& group);
/** Calculates and stores the waste for this selection via GetSelectionWaste */
void ComputeAndSetWaste(const CAmount min_viable_change, const CAmount change_cost, const CAmount change_fee);
[[nodiscard]] CAmount GetWaste() const;
void Merge(const SelectionResult& other);
/** Get m_selected_inputs */
const std::set<COutput>& GetInputSet() const;
/** Get the vector of COutputs that will be used to fill in a CTransaction's vin */
std::vector<COutput> GetShuffledInputVector() const;
bool operator<(SelectionResult other) const;
/** Get the amount for the change output after paying needed fees.
*
* The change amount is not 100% precise due to discrepancies in fee calculation.
* The final change amount (if any) should be corrected after calculating the final tx fees.
* When there is a discrepancy, most of the time the final change would be slightly bigger than estimated.
*
* Following are the possible factors of discrepancy:
* + non-input fees always include segwit flags
* + input fee estimation always include segwit stack size
* + input fees are rounded individually and not collectively, which leads to small rounding errors
* - input counter size is always assumed to be 1vbyte
*
* @param[in] min_viable_change Minimum amount for change output, if change would be less then we forgo change
* @param[in] change_fee Fees to include change output in the tx
* @returns Amount for change output, 0 when there is no change.
*
*/
CAmount GetChange(const CAmount min_viable_change, const CAmount change_fee) const;
CAmount GetTarget() const { return m_target; }
SelectionAlgorithm GetAlgo() const { return m_algo; }
};
std::optional<SelectionResult> SelectCoinsBnB(std::vector<OutputGroup>& utxo_pool, const CAmount& selection_target, const CAmount& cost_of_change);
/** Select coins by Single Random Draw. OutputGroups are selected randomly from the eligible
* outputs until the target is satisfied
*
* @param[in] utxo_pool The positive effective value OutputGroups eligible for selection
* @param[in] target_value The target value to select for
* @returns If successful, a SelectionResult, otherwise, std::nullopt
*/
std::optional<SelectionResult> SelectCoinsSRD(const std::vector<OutputGroup>& utxo_pool, CAmount target_value, FastRandomContext& rng);
// Original coin selection algorithm as a fallback
std::optional<SelectionResult> KnapsackSolver(std::vector<OutputGroup>& groups, const CAmount& nTargetValue,
CAmount change_target, FastRandomContext& rng);
} // namespace wallet
#endif // BITCOIN_WALLET_COINSELECTION_H