// Copyright (c) 2018 The btcsuite developers // Use of this source code is governed by an ISC // license that can be found in the LICENSE file. package psbt // The Finalizer requires provision of a single PSBT input // in which all necessary signatures are encoded, and // uses it to construct valid final sigScript and scriptWitness // fields. // NOTE that p2sh (legacy) and p2wsh currently support only // multisig and no other custom script. import ( "github.com/lbryio/lbcd/txscript" ) // isFinalized considers this input finalized if it contains at least one of // the FinalScriptSig or FinalScriptWitness are filled (which only occurs in a // successful call to Finalize*). func isFinalized(p *Packet, inIndex int) bool { input := p.Inputs[inIndex] return input.FinalScriptSig != nil || input.FinalScriptWitness != nil } // isFinalizableWitnessInput returns true if the target input is a witness UTXO // that can be finalized. func isFinalizableWitnessInput(pInput *PInput) bool { pkScript := pInput.WitnessUtxo.PkScript switch { // If this is a native witness output, then we require both // the witness script, but not a redeem script. case txscript.IsWitnessProgram(pkScript): if txscript.IsPayToWitnessScriptHash(pkScript) { if pInput.WitnessScript == nil || pInput.RedeemScript != nil { return false } } else { // A P2WKH output on the other hand doesn't need // neither a witnessScript or redeemScript. if pInput.WitnessScript != nil || pInput.RedeemScript != nil { return false } } // For nested P2SH inputs, we verify that a witness script is known. case txscript.IsPayToScriptHash(pkScript): if pInput.RedeemScript == nil { return false } // If this is a nested P2SH input, then it must also have a // witness script, while we don't need one for P2WKH. if txscript.IsPayToWitnessScriptHash(pInput.RedeemScript) { if pInput.WitnessScript == nil { return false } } else if txscript.IsPayToWitnessPubKeyHash(pInput.RedeemScript) { if pInput.WitnessScript != nil { return false } } else { // unrecognized type return false } // If this isn't a nested nested P2SH output or a native witness // output, then we can't finalize this input as we don't understand it. default: return false } return true } // isFinalizableLegacyInput returns true of the passed input a legacy input // (non-witness) that can be finalized. func isFinalizableLegacyInput(p *Packet, pInput *PInput, inIndex int) bool { // If the input has a witness, then it's invalid. if pInput.WitnessScript != nil { return false } // Otherwise, we'll verify that we only have a RedeemScript if the prev // output script is P2SH. outIndex := p.UnsignedTx.TxIn[inIndex].PreviousOutPoint.Index if txscript.IsPayToScriptHash(pInput.NonWitnessUtxo.TxOut[outIndex].PkScript) { if pInput.RedeemScript == nil { return false } } else { if pInput.RedeemScript != nil { return false } } return true } // isFinalizable checks whether the structure of the entry for the input of the // psbt.Packet at index inIndex contains sufficient information to finalize // this input. func isFinalizable(p *Packet, inIndex int) bool { pInput := p.Inputs[inIndex] // The input cannot be finalized without any signatures if pInput.PartialSigs == nil { return false } // For an input to be finalized, we'll one of two possible top-level // UTXOs present. Each UTXO type has a distinct set of requirements to // be considered finalized. switch { // A witness input must be either native P2WSH or nested P2SH with all // relevant sigScript or witness data populated. case pInput.WitnessUtxo != nil: if !isFinalizableWitnessInput(&pInput) { return false } case pInput.NonWitnessUtxo != nil: if !isFinalizableLegacyInput(p, &pInput, inIndex) { return false } // If neither a known UTXO type isn't present at all, then we'll // return false as we need one of them. default: return false } return true } // MaybeFinalize attempts to finalize the input at index inIndex in the PSBT p, // returning true with no error if it succeeds, OR if the input has already // been finalized. func MaybeFinalize(p *Packet, inIndex int) (bool, error) { if isFinalized(p, inIndex) { return true, nil } if !isFinalizable(p, inIndex) { return false, ErrNotFinalizable } if err := Finalize(p, inIndex); err != nil { return false, err } return true, nil } // MaybeFinalizeAll attempts to finalize all inputs of the psbt.Packet that are // not already finalized, and returns an error if it fails to do so. func MaybeFinalizeAll(p *Packet) error { for i := range p.UnsignedTx.TxIn { success, err := MaybeFinalize(p, i) if err != nil || !success { return err } } return nil } // Finalize assumes that the provided psbt.Packet struct has all partial // signatures and redeem scripts/witness scripts already prepared for the // specified input, and so removes all temporary data and replaces them with // completed sigScript and witness fields, which are stored in key-types 07 and // 08. The witness/non-witness utxo fields in the inputs (key-types 00 and 01) // are left intact as they may be needed for validation (?). If there is any // invalid or incomplete data, an error is returned. func Finalize(p *Packet, inIndex int) error { pInput := p.Inputs[inIndex] // Depending on the UTXO type, we either attempt to finalize it as a // witness or legacy UTXO. switch { case pInput.WitnessUtxo != nil: if err := finalizeWitnessInput(p, inIndex); err != nil { return err } case pInput.NonWitnessUtxo != nil: if err := finalizeNonWitnessInput(p, inIndex); err != nil { return err } default: return ErrInvalidPsbtFormat } // Before returning we sanity check the PSBT to ensure we don't extract // an invalid transaction or produce an invalid intermediate state. if err := p.SanityCheck(); err != nil { return err } return nil } // checkFinalScriptSigWitness checks whether a given input in the psbt.Packet // struct already has the fields 07 (FinalInScriptSig) or 08 (FinalInWitness). // If so, it returns true. It does not modify the Psbt. func checkFinalScriptSigWitness(p *Packet, inIndex int) bool { pInput := p.Inputs[inIndex] if pInput.FinalScriptSig != nil { return true } if pInput.FinalScriptWitness != nil { return true } return false } // finalizeNonWitnessInput attempts to create a PsbtInFinalScriptSig field for // the input at index inIndex, and removes all other fields except for the UTXO // field, for an input of type non-witness, or returns an error. func finalizeNonWitnessInput(p *Packet, inIndex int) error { // If this input has already been finalized, then we'll return an error // as we can't proceed. if checkFinalScriptSigWitness(p, inIndex) { return ErrInputAlreadyFinalized } // Our goal here is to construct a sigScript given the pubkey, // signature (keytype 02), of which there might be multiple, and the // redeem script field (keytype 04) if present (note, it is not present // for p2pkh type inputs). var sigScript []byte pInput := p.Inputs[inIndex] containsRedeemScript := pInput.RedeemScript != nil var ( pubKeys [][]byte sigs [][]byte ) for _, ps := range pInput.PartialSigs { pubKeys = append(pubKeys, ps.PubKey) sigOK := checkSigHashFlags(ps.Signature, &pInput) if !sigOK { return ErrInvalidSigHashFlags } sigs = append(sigs, ps.Signature) } // We have failed to identify at least 1 (sig, pub) pair in the PSBT, // which indicates it was not ready to be finalized. As a result, we // can't proceed. if len(sigs) < 1 || len(pubKeys) < 1 { return ErrNotFinalizable } // If this input doesn't need a redeem script (P2PKH), then we'll // construct a simple sigScript that's just the signature then the // pubkey (OP_CHECKSIG). var err error if !containsRedeemScript { // At this point, we should only have a single signature and // pubkey. if len(sigs) != 1 || len(pubKeys) != 1 { return ErrNotFinalizable } // In this case, our sigScript is just: . builder := txscript.NewScriptBuilder() builder.AddData(sigs[0]).AddData(pubKeys[0]) sigScript, err = builder.Script() if err != nil { return err } } else { // This is assumed p2sh multisig Given redeemScript and pubKeys // we can decide in what order signatures must be appended. orderedSigs, err := extractKeyOrderFromScript( pInput.RedeemScript, pubKeys, sigs, ) if err != nil { return err } // At this point, we assume that this is a mult-sig input, so // we construct our sigScript which looks something like this // (mind the extra element for the extra multi-sig pop): // * // // TODO(waxwing): the below is specific to the multisig case. builder := txscript.NewScriptBuilder() builder.AddOp(txscript.OP_FALSE) for _, os := range orderedSigs { builder.AddData(os) } builder.AddData(pInput.RedeemScript) sigScript, err = builder.Script() if err != nil { return err } } // At this point, a sigScript has been constructed. Remove all fields // other than non-witness utxo (00) and finaliscriptsig (07) newInput := NewPsbtInput(pInput.NonWitnessUtxo, nil) newInput.FinalScriptSig = sigScript // Overwrite the entry in the input list at the correct index. Note // that this removes all the other entries in the list for this input // index. p.Inputs[inIndex] = *newInput return nil } // finalizeWitnessInput attempts to create PsbtInFinalScriptSig field and // PsbtInFinalScriptWitness field for input at index inIndex, and removes all // other fields except for the utxo field, for an input of type witness, or // returns an error. func finalizeWitnessInput(p *Packet, inIndex int) error { // If this input has already been finalized, then we'll return an error // as we can't proceed. if checkFinalScriptSigWitness(p, inIndex) { return ErrInputAlreadyFinalized } // Depending on the actual output type, we'll either populate a // serializedWitness or a witness as well asa sigScript. var ( sigScript []byte serializedWitness []byte ) pInput := p.Inputs[inIndex] // First we'll validate and collect the pubkey+sig pairs from the set // of partial signatures. var ( pubKeys [][]byte sigs [][]byte ) for _, ps := range pInput.PartialSigs { pubKeys = append(pubKeys, ps.PubKey) sigOK := checkSigHashFlags(ps.Signature, &pInput) if !sigOK { return ErrInvalidSigHashFlags } sigs = append(sigs, ps.Signature) } // If at this point, we don't have any pubkey+sig pairs, then we bail // as we can't proceed. if len(sigs) == 0 || len(pubKeys) == 0 { return ErrNotFinalizable } containsRedeemScript := pInput.RedeemScript != nil cointainsWitnessScript := pInput.WitnessScript != nil // If there's no redeem script, then we assume that this is native // segwit input. var err error if !containsRedeemScript { // If we have only a sigley pubkey+sig pair, and no witness // script, then we assume this is a P2WKH input. if len(pubKeys) == 1 && len(sigs) == 1 && !cointainsWitnessScript { serializedWitness, err = writePKHWitness( sigs[0], pubKeys[0], ) if err != nil { return err } } else { // Otherwise, we must have a witnessScript field, so // we'll generate a valid multi-sig witness. // // NOTE: We tacitly assume multisig. // // TODO(roasbeef): need to add custom finalize for // non-multisig P2WSH outputs (HTLCs, delay outputs, // etc). if !cointainsWitnessScript { return ErrNotFinalizable } serializedWitness, err = getMultisigScriptWitness( pInput.WitnessScript, pubKeys, sigs, ) if err != nil { return err } } } else { // Otherwise, we assume that this is a p2wsh multi-sig output, // which is nested in a p2sh, or a p2wkh nested in a p2sh. // // In this case, we'll take the redeem script (the witness // program in this case), and push it on the stack within the // sigScript. builder := txscript.NewScriptBuilder() builder.AddData(pInput.RedeemScript) sigScript, err = builder.Script() if err != nil { return err } // If don't have a witness script, then we assume this is a // nested p2wkh output. if !cointainsWitnessScript { // Assumed p2sh-p2wkh Here the witness is just (sig, // pub) as for p2pkh case if len(sigs) != 1 || len(pubKeys) != 1 { return ErrNotFinalizable } serializedWitness, err = writePKHWitness(sigs[0], pubKeys[0]) if err != nil { return err } } else { // Otherwise, we assume that this is a p2wsh multi-sig, // so we generate the proper witness. serializedWitness, err = getMultisigScriptWitness( pInput.WitnessScript, pubKeys, sigs, ) if err != nil { return err } } } // At this point, a witness has been constructed, and a sigScript (if // nested; else it's []). Remove all fields other than witness utxo // (01) and finalscriptsig (07), finalscriptwitness (08). newInput := NewPsbtInput(nil, pInput.WitnessUtxo) if len(sigScript) > 0 { newInput.FinalScriptSig = sigScript } newInput.FinalScriptWitness = serializedWitness // Finally, we overwrite the entry in the input list at the correct // index. p.Inputs[inIndex] = *newInput return nil }