Generating Addresses
Almost all Bitcoin applications need to generate addresses for their users somehow. There's a lot going on in getting a correct bitcoin address, but our APIs make it possible to to get started with all types of addresses in a matter of minutes.
Generating SegWit (bech32) addresses
Generating native SegWit addresses in the bech32 format is something that all Bitcoin applications should enable, as it makes the transaction fees less expensive, and also makes the addresses more readable by humans. However, it has seen slower than necessary adoption. With Bitcoin-S you can generate bech32 addresses in four(!) lines of code (not counting comments and imports), so now there's no reason to keep using legacy transaction formats.
// this generates a random private key
val privkey = ECPrivateKey()
// privkey: ECPrivateKey = Masked(ECPrivateKeyImpl)
val pubkey = privkey.publicKey
// pubkey: org.bitcoins.crypto.ECPublicKey = ECPublicKey(03ca4d67fe035b445922c04285c083ee558ff8e85de1d1f72096a834cbabda9558)
val segwitAddress = {
// see https://bitcoin.org/en/glossary/pubkey-script
// for reading resources on the details of scriptPubKeys
// pay-to-witness-pubkey-hash scriptPubKey V0
val scriptPubKey = P2WPKHWitnessSPKV0(pubkey)
Bech32Address(scriptPubKey, TestNet3)
}
// segwitAddress: Bech32Address = tb1quk924ne3dug0363r95l0grgj3rkvc9hepe5zp0
println(segwitAddress.toString)
// tb1quk924ne3dug0363r95l0grgj3rkvc9hepe5zp0
Generating legacy (base58) addresses
If you need to generate legacy addresses for backwards compatability reasons, that's also a walk in the park. Take a look:
// we're reusing the same private/public key pair
// from before. don't do this in an actual application!
val legacyAddress = P2PKHAddress(pubkey, TestNet3)
// legacyAddress: P2PKHAddress = n2Sf9kW1mDhH2Jy2kFFVnWwh5KHCPE618A
println(legacyAddress.toString)
// n2Sf9kW1mDhH2Jy2kFFVnWwh5KHCPE618A