.. | ||
coins.go | ||
coins_test.go | ||
cov_report.sh | ||
README.md | ||
test_coverage.txt |
coinset
Package coinset provides bitcoin-specific convenience functions for selecting from and managing sets of unspent transaction outpoints (UTXOs).
A comprehensive suite of tests is provided to ensure proper functionality. See
test_coverage.txt
for the gocov coverage report. Alternatively, if you are
running a POSIX OS, you can run the cov_report.sh
script for a real-time
report.
Usage
Each unspent transaction outpoint is represented by the Coin interface. An example of a concrete type that implements Coin is coinset.SimpleCoin.
The typical use case for this library is for creating raw bitcoin transactions given a set of Coins that may be spent by the user, for example as below:
var unspentCoins = []coinset.Coin{ ... }
When the user needs to spend a certain amount, they will need to select a subset of these coins which contain at least that value. CoinSelector is an interface that represents types that implement coin selection algos, subject to various criteria. There are a few examples of CoinSelector's:
-
MinIndexCoinSelector
-
MinNumberCoinSelector
-
MaxValueAgeCoinSelector
-
MinPriorityCoinSelector
For example, if the user wishes to maximize the probability that their transaction is mined quickly, they could use the MaxValueAgeCoinSelector to select high priority coins, then also attach a relatively high fee.
selector := &coinset.MaxValueAgeCoinSelector{
MaxInputs: 10,
MinAmountChange: 10000,
}
selectedCoins, err := selector.CoinSelect(targetAmount + bigFee, unspentCoins)
if err != nil {
return err
}
msgTx := coinset.NewMsgTxWithInputCoins(selectedCoins)
...
The user can then create the msgTx.TxOut's as required, then sign the transaction and transmit it to the network.