bitcoin-s/docs/core/psbts.md

---
id: psbts
title: Partially Signed Bitcoin Transactions
---
Creating unsigned or partially signed transactions to be passed 
around to other signers can be a useful for many applications.
PSBTs offer a standardized format to serialize the necessary data
for signing the transaction, as well as, validating that you in fact 
want to sign this transaction.
> If you want to jump into the details of the specification,
> you should checkout
> [BIP 174](https://github.com/bitcoin/bips/blob/master/bip-0174.mediawiki).

Bitcoin-S fully supports PSBTs with functionality for
creation, updating, combining, signing, finalizing, 
and transaction extraction.

An example on a typical PSBT workflow:

```scala mdoc:to-string
import org.bitcoins.core.crypto.ECPrivateKey
import org.bitcoins.core.protocol.script.ScriptPubKey
import org.bitcoins.core.protocol.transaction.{BaseTransaction, Transaction}
import org.bitcoins.core.psbt.PSBT
import org.bitcoins.core.script.crypto.HashType
import scodec.bits._
import scala.concurrent.{ExecutionContext, ExecutionContextExecutor}
implicit val ec: ExecutionContextExecutor = ExecutionContext.global

// First you need an unsigned transaction,
// here we have a standard 2 input, 2 output transaction
// This transaction must be of type BaseTransaction
// and have empty ScriptSignatures for all of it's inputs
val unsignedTransaction = BaseTransaction(
    "020000000258e87a21b56daf0c23be8e7070456c336f7cbaa5c8757924f545887bb2abdd750000000000ffffffff838d0427d0ec650a68aa46bb0b098aea4422c071b2ca78352a077959d07cea1d0100000000ffffffff0270aaf00800000000160014d85c2b71d0060b09c9886aeb815e50991dda124d00e1f5050000000016001400aea9a2e5f0f876a588df5546e8742d1d87008f00000000")

// To create the initial PSBT all we need to do is
 val emptyPSBT = PSBT.fromUnsignedTx(unsignedTransaction)

// Now that we have an empty PSBT we can start updating it with data we know

// First, we want to fill the UTXO fields that we will need for signing and extraction
// The transactions we add are the fully serialized transaction that we are spending from
val utxo0 = Transaction(
    "0200000001aad73931018bd25f84ae400b68848be09db706eac2ac18298babee71ab656f8b0000000048473044022058f6fc7c6a33e1b31548d481c826c015bd30135aad42cd67790dab66d2ad243b02204a1ced2604c6735b6393e5b41691dd78b00f0c5942fb9f751856faa938157dba01feffffff0280f0fa020000000017a9140fb9463421696b82c833af241c78c17ddbde493487d0f20a270100000017a91429ca74f8a08f81999428185c97b5d852e4063f618765000000")

val utxo1 = Transaction(
    "0200000000010158e87a21b56daf0c23be8e7070456c336f7cbaa5c8757924f545887bb2abdd7501000000171600145f275f436b09a8cc9a2eb2a2f528485c68a56323feffffff02d8231f1b0100000017a914aed962d6654f9a2b36608eb9d64d2b260db4f1118700c2eb0b0000000017a914b7f5faf40e3d40a5a459b1db3535f2b72fa921e88702483045022100a22edcc6e5bc511af4cc4ae0de0fcd75c7e04d8c1c3a8aa9d820ed4b967384ec02200642963597b9b1bc22c75e9f3e117284a962188bf5e8a74c895089046a20ad770121035509a48eb623e10aace8bfd0212fdb8a8e5af3c94b0b133b95e114cab89e4f7965000000")

val psbtWithUTXOs = emptyPSBT
    .addUTXOToInput(utxo0, index = 0)
    .addUTXOToInput(utxo1, index = 1)

// After we have the relevant UTXOs we can add the
// redeem scripts, witness scripts, and BIP 32 derivation paths if needed

// In this transaction the first input is a P2SH 2-of-2 multisig
// so we need to add its corresponding redeem script.
// Here we are just using a deserialized version of the redeem script but
// you may generate your ScriptPubKey another way in practice

val redeemScript0 = ScriptPubKey.fromAsmBytes(
    hex"5221029583bf39ae0a609747ad199addd634fa6108559d6c5cd39b4c2183f1ab96e07f2102dab61ff49a14db6a7d02b0cd1fbb78fc4b18312b5b4e54dae4dba2fbfef536d752ae")

val psbtWithUpdatedFirstInput =
    psbtWithUTXOs.addRedeemOrWitnessScriptToInput(redeemScript0, index = 0)

// The second input in this transaction is a P2SH(P2WSH) 2-of-2 multisig
// so we need to add its corresponding redeem script and witness script.
// Here we add them both using the same function, the PSBT updater will
// be able to figure out, based on the available data, where to correctly

val redeemScript1 = ScriptPubKey.fromAsmBytes(
    hex"00208c2353173743b595dfb4a07b72ba8e42e3797da74e87fe7d9d7497e3b2028903")

val witnessScript = ScriptPubKey.fromAsmBytes(
    hex"522103089dc10c7ac6db54f91329af617333db388cead0c231f723379d1b99030b02dc21023add904f3d6dcf59ddb906b0dee23529b7ffb9ed50e5e86151926860221f0e7352ae")

// put the data in the PSBT
  val psbtWithUpdatedSecondInput = psbtWithUpdatedFirstInput
    .addRedeemOrWitnessScriptToInput(redeemScript1, index = 1)
    .addRedeemOrWitnessScriptToInput(witnessScript, index = 1)

// Before signing we need to add the needed SigHash flags so we know how to sign the transaction
// If one is not provided it will be assumed to be SigHashAll

val psbtWithSigHashFlags = psbtWithUpdatedSecondInput
    .addSigHashTypeToInput(HashType.sigHashAll, index = 0)
    .addSigHashTypeToInput(HashType.sigHashAll, index = 1)

// Next, we can now sign the PSBT
// Signing a PSBT will return a Future[PSBT] so this will need to be handled
// correctly in an application
// Here we use the relevant private keys to sign the first input
  val privKey0 = ECPrivateKey.fromWIFToPrivateKey(
    "cP53pDbR5WtAD8dYAW9hhTjuvvTVaEiQBdrz9XPrgLBeRFiyCbQr")

val privKey1 = ECPrivateKey.fromWIFToPrivateKey(
    "cR6SXDoyfQrcp4piaiHE97Rsgta9mNhGTen9XeonVgwsh4iSgw6d")

val psbtFirstSigF =
    psbtWithSigHashFlags
      .sign(inputIndex = 0, signer = privKey0)
      .flatMap(_.sign(inputIndex = 0, signer = privKey1))

psbtFirstSigF.map { psbtFirstSig =>
    // In this scenario, let's say that the second input does not belong to us and we need
    // another party to sign it. In this case we would need to send the PSBT to the other party.
    // The two standard formats for this are in byte form or in base64 you can access these easily.
    val bytes = psbtFirstSig.bytes
    val base64 = psbtFirstSig.base64

    // After the other party has signed their input they can send us back the PSBT with the signatures
    // To import we can use any of these functions
    val fromBytes = PSBT.fromBytes(
      hex"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")

    val fromBase64 = PSBT.fromBase64(
      "cHNidP8BAJoCAAAAAljoeiG1ba8MI76OcHBFbDNvfLqlyHV5JPVFiHuyq911AAAAAAD")

    // After we've imported the PSBT we can combine it with our own signed PSBT so we can
    // have one PSBT with all of the necessary data
    val combinedPSBT = fromBase64.combinePSBT(psbtFirstSig)

    // Now that the PSBT has all the necessary data, we can finalize it and extract the transaction
    // This will return a Try[PSBT] and will fail if you do not have all the required fields filled
    val finalizedPSBT = combinedPSBT.finalizePSBT

    // After it has been finalized we can extract the fully signed transaction that is ready
    // to be broadcast to the network.
    // You can also use extractTransactionAndValidate that will validate if the transaction is valid
    val transaction = finalizedPSBT.get.extractTransaction
  }
```
PSBT Support (#1031) * PSBT Serialization/Deserialization (#917) * PSBT Serialization and Deserialization * Remove debug code * Create PSBTParseResult, Add more psbt test cases, and various small nits * PSBT version checking * Remove PSBTHelper, give PSBTRecord and PSBTMap a fromBytes * Fix compile issue, preserve ADT * PSBT Combiner * PSBT Updater * Fix PSBT version number to be read as little endian * Make function names more clear, add scaladoc, require not finalized * Combiner scaladocs * Test case from BIP * Make compatible with older versions * PSBT: Fix for EmptyWitness changes (#968) * PSBTInputMap to UTXOSigningInfo * Remove vars * Add missing param * Fix byteVectorOrdering for when x == y * getUTXOSpendingInfo Tests * Fix formatting errors * Give conditional path default value * formatting fix * Fixed InputPSBTRecord.FinalizedScriptSig using asmBytes (#1004) * Fixed PSBTTest after rebasing onto master * PSBT Constructors and Extraction (#997) * Added PSBT constructors * Revived option to use signers in toUTXOSpendingInfo * Added transaction extraction * Responded to code review * Added extraction test from BIP * Added validation (option) to PSBT extraction * Added property based test for PSBT.extractTransactionAndValidate * Marked PSBT as new code for PropertyCheckConfiguration * PSBT Finalizer (#1002) * Added finalizing functionality to PSBTs * Cleaned things up * Added finalizer test, fails * Check that PSBT is not already finalized when finalizing PSBT * Added P2PKWithTimeout cases * Formatting fix * PSBT Generators (#1019) * Introduced non-finalized constructor * Added property based test comparing finalized and un-finalized construction, it currently fails due to EmptyScriptPubKey not being supported in various ways. Also fixed a ton of bugs! * Fixed easy bugs relating to EmptyScriptPubKey, one is left * Fixed the last bugs (multisig order and 0-of-n stuff) and now tests pass! * Separated out direct finalized PSBT construction from non-finalized PSBT construction * Translated construction work in tests into PSBT generators * Added serialization symmetry test * Made PSBT fee generation dependent on other generators to ensure low enough fees for signing * Responded to code review * Added scaladocs * Fixed arbitraryPSBT to work with older scala versions * Fixed PSBT compilation breakages from rebase * Fixed test breakages from rebase * Validate the PSBT unknown is not a known field * Increase code coverage on PSBT tests * Address review * formatting * Add error messages, rename function * Psbt Signer (#1025) * PSBT Signer * Create addSignature function for PSBTs * Use PartialSignature instead of Tuple * Create extra util functions * scaladoc and simplify case * Formatting fix for psbt scaladocs * Clean up code, add error messages, and scaladoc * add type hints * Change InputPSBTMap.fromUTXOSpendingInfo to use BitcoinSingleSigner * optimize import * Define separator byte for psbt map * getRecords simplification * remove braces, add error message * PSBT stuff assigned to nkohen (#1035) * Responded to psbt review assigned to me * Moved separatorByte to a place where all can use it * PSBT independent record calls (#1037) * PSBT independent record calls * move logic to super class Co-authored-by: Nadav Kohen <nadavk25@gmail.com> * Reworked PSBT finalization to return a Try[PSBT] rather than an Option[PSBT] (#1036) * PSBT signer property based tests (#1038) * PSBT property based tests * Address review * PSBT Combiner property based tests (#1039) * PSBT Combiner property based tests * Create pruneGlobal util function * Switch to arbitrary gen * Use BaseTransaction instead of Transaction * Fix transaction witness to work from base transactions * PSBTs response to Chris's review (#1046) * PSBT chris's review * Rename val, give master fingerprint a val * Formatting fix * Responded to code review from chris assigned to nkohen * Split PSBT.scala into many files * PSBT Docs (#1048) * PSBT docs * Fix compiler error, remove nesting * PSBT output updater tests * Validate psbt outputs * Clean up code * Remove P2WPKHWitnessV0 addition * format * PSBT Updater property based tests * Move code to match block * EmptyScriptWitness check * Address nadav review * Remove unnecessary code, make utxo adder better * Move require and add error message * Move require * PSBT unit tests by Ben * Change to EmptyScriptPubKey * Added unit tests to increase code coverage * responded to review * Move PSBT unit test to separate file * Make unknown generator only generate distinct records * Use groupBy key instead of distinct * use only first element * Combine distinctness by key Co-authored-by: Ben Carman <benthecarman@live.com> 2020-01-23 19:36:42 +01:00			`---`
			`id: psbts`
			`title: Partially Signed Bitcoin Transactions`
			`---`
			`Creating unsigned or partially signed transactions to be passed`
			`around to other signers can be a useful for many applications.`
			`PSBTs offer a standardized format to serialize the necessary data`
			`for signing the transaction, as well as, validating that you in fact`
			`want to sign this transaction.`
			`> If you want to jump into the details of the specification,`
			`> you should checkout`
			`> [BIP 174](https://github.com/bitcoin/bips/blob/master/bip-0174.mediawiki).`

			`Bitcoin-S fully supports PSBTs with functionality for`
			`creation, updating, combining, signing, finalizing,`
			`and transaction extraction.`

			`An example on a typical PSBT workflow:`

			```scala mdoc:to-string
			`import org.bitcoins.core.crypto.ECPrivateKey`
			`import org.bitcoins.core.protocol.script.ScriptPubKey`
			`import org.bitcoins.core.protocol.transaction.{BaseTransaction, Transaction}`
			`import org.bitcoins.core.psbt.PSBT`
			`import org.bitcoins.core.script.crypto.HashType`
			`import scodec.bits._`
			`import scala.concurrent.{ExecutionContext, ExecutionContextExecutor}`
			`implicit val ec: ExecutionContextExecutor = ExecutionContext.global`

			`// First you need an unsigned transaction,`
			`// here we have a standard 2 input, 2 output transaction`
			`// This transaction must be of type BaseTransaction`
			`// and have empty ScriptSignatures for all of it's inputs`
			`val unsignedTransaction = BaseTransaction(`
			`"020000000258e87a21b56daf0c23be8e7070456c336f7cbaa5c8757924f545887bb2abdd750000000000ffffffff838d0427d0ec650a68aa46bb0b098aea4422c071b2ca78352a077959d07cea1d0100000000ffffffff0270aaf00800000000160014d85c2b71d0060b09c9886aeb815e50991dda124d00e1f5050000000016001400aea9a2e5f0f876a588df5546e8742d1d87008f00000000")`

			`// To create the initial PSBT all we need to do is`
			`val emptyPSBT = PSBT.fromUnsignedTx(unsignedTransaction)`

			`// Now that we have an empty PSBT we can start updating it with data we know`

			`// First, we want to fill the UTXO fields that we will need for signing and extraction`
			`// The transactions we add are the fully serialized transaction that we are spending from`
			`val utxo0 = Transaction(`
			`"0200000001aad73931018bd25f84ae400b68848be09db706eac2ac18298babee71ab656f8b0000000048473044022058f6fc7c6a33e1b31548d481c826c015bd30135aad42cd67790dab66d2ad243b02204a1ced2604c6735b6393e5b41691dd78b00f0c5942fb9f751856faa938157dba01feffffff0280f0fa020000000017a9140fb9463421696b82c833af241c78c17ddbde493487d0f20a270100000017a91429ca74f8a08f81999428185c97b5d852e4063f618765000000")`

			`val utxo1 = Transaction(`
			`"0200000000010158e87a21b56daf0c23be8e7070456c336f7cbaa5c8757924f545887bb2abdd7501000000171600145f275f436b09a8cc9a2eb2a2f528485c68a56323feffffff02d8231f1b0100000017a914aed962d6654f9a2b36608eb9d64d2b260db4f1118700c2eb0b0000000017a914b7f5faf40e3d40a5a459b1db3535f2b72fa921e88702483045022100a22edcc6e5bc511af4cc4ae0de0fcd75c7e04d8c1c3a8aa9d820ed4b967384ec02200642963597b9b1bc22c75e9f3e117284a962188bf5e8a74c895089046a20ad770121035509a48eb623e10aace8bfd0212fdb8a8e5af3c94b0b133b95e114cab89e4f7965000000")`

			`val psbtWithUTXOs = emptyPSBT`
			`.addUTXOToInput(utxo0, index = 0)`
			`.addUTXOToInput(utxo1, index = 1)`

			`// After we have the relevant UTXOs we can add the`
			`// redeem scripts, witness scripts, and BIP 32 derivation paths if needed`

			`// In this transaction the first input is a P2SH 2-of-2 multisig`
			`// so we need to add its corresponding redeem script.`
			`// Here we are just using a deserialized version of the redeem script but`
			`// you may generate your ScriptPubKey another way in practice`

			`val redeemScript0 = ScriptPubKey.fromAsmBytes(`
			`hex"5221029583bf39ae0a609747ad199addd634fa6108559d6c5cd39b4c2183f1ab96e07f2102dab61ff49a14db6a7d02b0cd1fbb78fc4b18312b5b4e54dae4dba2fbfef536d752ae")`

			`val psbtWithUpdatedFirstInput =`
			`psbtWithUTXOs.addRedeemOrWitnessScriptToInput(redeemScript0, index = 0)`

			`// The second input in this transaction is a P2SH(P2WSH) 2-of-2 multisig`
			`// so we need to add its corresponding redeem script and witness script.`
			`// Here we add them both using the same function, the PSBT updater will`
			`// be able to figure out, based on the available data, where to correctly`

			`val redeemScript1 = ScriptPubKey.fromAsmBytes(`
			`hex"00208c2353173743b595dfb4a07b72ba8e42e3797da74e87fe7d9d7497e3b2028903")`

			`val witnessScript = ScriptPubKey.fromAsmBytes(`
			`hex"522103089dc10c7ac6db54f91329af617333db388cead0c231f723379d1b99030b02dc21023add904f3d6dcf59ddb906b0dee23529b7ffb9ed50e5e86151926860221f0e7352ae")`

			`// put the data in the PSBT`
			`val psbtWithUpdatedSecondInput = psbtWithUpdatedFirstInput`
			`.addRedeemOrWitnessScriptToInput(redeemScript1, index = 1)`
			`.addRedeemOrWitnessScriptToInput(witnessScript, index = 1)`

			`// Before signing we need to add the needed SigHash flags so we know how to sign the transaction`
			`// If one is not provided it will be assumed to be SigHashAll`

			`val psbtWithSigHashFlags = psbtWithUpdatedSecondInput`
			`.addSigHashTypeToInput(HashType.sigHashAll, index = 0)`
			`.addSigHashTypeToInput(HashType.sigHashAll, index = 1)`

			`// Next, we can now sign the PSBT`
			`// Signing a PSBT will return a Future[PSBT] so this will need to be handled`
			`// correctly in an application`
			`// Here we use the relevant private keys to sign the first input`
			`val privKey0 = ECPrivateKey.fromWIFToPrivateKey(`
			`"cP53pDbR5WtAD8dYAW9hhTjuvvTVaEiQBdrz9XPrgLBeRFiyCbQr")`

			`val privKey1 = ECPrivateKey.fromWIFToPrivateKey(`
			`"cR6SXDoyfQrcp4piaiHE97Rsgta9mNhGTen9XeonVgwsh4iSgw6d")`

			`val psbtFirstSigF =`
			`psbtWithSigHashFlags`
			`.sign(inputIndex = 0, signer = privKey0)`
			`.flatMap(_.sign(inputIndex = 0, signer = privKey1))`

			`psbtFirstSigF.map { psbtFirstSig =>`
			`// In this scenario, let's say that the second input does not belong to us and we need`
			`// another party to sign it. In this case we would need to send the PSBT to the other party.`
			`// The two standard formats for this are in byte form or in base64 you can access these easily.`
			`val bytes = psbtFirstSig.bytes`
			`val base64 = psbtFirstSig.base64`

			`// After the other party has signed their input they can send us back the PSBT with the signatures`
			`// To import we can use any of these functions`
			`val fromBytes = PSBT.fromBytes(`
			hex"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")

			`val fromBase64 = PSBT.fromBase64(`
			`"cHNidP8BAJoCAAAAAljoeiG1ba8MI76OcHBFbDNvfLqlyHV5JPVFiHuyq911AAAAAAD")`

			`// After we've imported the PSBT we can combine it with our own signed PSBT so we can`
			`// have one PSBT with all of the necessary data`
			`val combinedPSBT = fromBase64.combinePSBT(psbtFirstSig)`

			`// Now that the PSBT has all the necessary data, we can finalize it and extract the transaction`
			`// This will return a Try[PSBT] and will fail if you do not have all the required fields filled`
			`val finalizedPSBT = combinedPSBT.finalizePSBT`

			`// After it has been finalized we can extract the fully signed transaction that is ready`
			`// to be broadcast to the network.`
			`// You can also use extractTransactionAndValidate that will validate if the transaction is valid`
			`val transaction = finalizedPSBT.get.extractTransaction`
			`}`
			```