nockchain-grpc/wallet/nockhash.go

package wallet

import (
	"fmt"
	"math/big"

	"github.com/btcsuite/btcd/btcutil/base58"
	"github.com/phamminh0811/private-grpc/crypto"
	"github.com/phamminh0811/private-grpc/nockchain"
)

var LastName = [5]uint64{9541855607561054508, 12383849149342406623, 11220017934615522559, 678840671137489369, 8985908938884028381}

func HashPubkey(pkPoint crypto.CheetahPoint) [5]uint64 {
	belts := []crypto.Belt{{Value: 13}}
	belts = append(belts, pkPoint.X[:]...)
	belts = append(belts, pkPoint.Y[:]...)
	belts = append(belts, crypto.BELT_ONE)
	for _, i := range crypto.MagicDyckForPoint {
		belts = append(belts, crypto.Belt{Value: i})
	}
	return crypto.Tip5HashBelts(belts)
}

func HashSignature(signature *nockchain.NockchainSignature) ([5]uint64, error) {
	belts := []crypto.Belt{{Value: 16}}
	for _, i := range signature.Chal {
		belts = append(belts, crypto.Belt{Value: i})
	}
	for _, i := range signature.Sig {
		belts = append(belts, crypto.Belt{Value: i})
	}
	for _, i := range crypto.MagicDyckForT8 {
		belts = append(belts, crypto.Belt{Value: i})
	}
	sigHash := crypto.Tip5HashBelts(belts)
	pkPoint, err := crypto.CheetaPointFromBytes(base58.Decode(signature.Pubkey))
	if err != nil {
		return [5]uint64{}, err
	}
	pkHash := HashPubkey(pkPoint)
	sigHash = crypto.Tip5RehashTenCell(pkHash, sigHash)
	return crypto.Tip5RehashTenCell(sigHash, crypto.Tip5ZeroZero), nil
}

func HashNoteData(lock *nockchain.NockchainLock) [5]uint64 {
	keysRequiredHash := crypto.Tip5HashLeaf(lock.KeysRequired)
	// TODO: handle multisig
	finalHash := crypto.Base58ToTip5Hash(lock.Pubkeys[lock.KeysRequired-1])
	hash := crypto.Tip5RehashTenCell(crypto.Tip5HashLeaf(finalHash[3]), crypto.Tip5HashLeaf(finalHash[4]))
	hash = crypto.Tip5RehashTenCell(crypto.Tip5HashLeaf(finalHash[2]), hash)
	hash = crypto.Tip5RehashTenCell(crypto.Tip5HashLeaf(finalHash[1]), hash)
	hash = crypto.Tip5RehashTenCell(crypto.Tip5HashLeaf(finalHash[0]), hash)
	hash = crypto.Tip5RehashTenCell(hash, crypto.Tip5ZeroZero)

	pkh := crypto.Tip5RehashTenCell(keysRequiredHash, hash)
	pkhWithPkhTag := crypto.Tip5RehashTenCell(crypto.PkhTagTip5Hash, pkh)
	pkhWithPkhTag = crypto.Tip5RehashTenCell(pkhWithPkhTag, crypto.Tip5Zero)
	pkhWithPkhTag = crypto.Tip5RehashTenCell(crypto.Tip5Zero, pkhWithPkhTag)

	pkhWithPkhLockTag := crypto.Tip5RehashTenCell(crypto.LockTagTip5Hash, pkhWithPkhTag)
	return crypto.Tip5RehashTenCell(pkhWithPkhLockTag, crypto.Tip5ZeroZero)
}
func HashOwner(pkPoint crypto.CheetahPoint) [5]uint64 {
	pkHashedBelts := HashPubkey(pkPoint)
	pkHashedZeroZero := crypto.Tip5RehashTenCell(pkHashedBelts, crypto.Tip5ZeroZero)
	return crypto.Tip5RehashTenCell(crypto.Tip5One, pkHashedZeroZero)
}

func NockName(ownerHash [5]uint64) ([5]uint64, [5]uint64) {
	firstName := first(ownerHash)
	return firstName, LastName
}

func HashName(name *nockchain.NockchainName) [5]uint64 {
	firstNameHash := crypto.Base58ToTip5Hash(name.First)
	lastNameHash := crypto.Base58ToTip5Hash(name.Last)
	return crypto.Tip5RehashTenCell(firstNameHash, crypto.Tip5RehashTenCell(lastNameHash, crypto.Tip5Zero))
}

func HashNameVarLen(name *nockchain.NockchainName) [5]uint64 {
	belts := []crypto.Belt{}
	for _, i := range crypto.Base58ToTip5Hash(name.First) {
		belts = append(belts, crypto.Belt{Value: i})
	}
	for _, i := range crypto.Base58ToTip5Hash(name.Last) {
		belts = append(belts, crypto.Belt{Value: i})
	}
	belts = append(belts, crypto.BELT_ZERO)
	size := len(belts)
	belts = append([]crypto.Belt{{Value: uint64(size)}}, belts...)
	for _, i := range crypto.MagicDyckForName {
		belts = append(belts, crypto.Belt{Value: i})
	}
	res := crypto.Tip5HashBelts(belts)
	return res
}

func HashNoteV0(note *nockchain.NockchainNoteV0) ([5]uint64, error) {
	versionHash := crypto.Tip5HashBelts([]crypto.Belt{{Value: 1}, {Value: uint64(note.Version)}})
	blockHash := crypto.Tip5HashBelts([]crypto.Belt{{Value: 1}, {Value: note.OriginPage}})
	hashBlockTimeLock := crypto.Tip5RehashTenCell(blockHash, crypto.Tip5Zero)

	p := crypto.Tip5RehashTenCell(versionHash, hashBlockTimeLock)
	nameHash := HashName(note.Name)
	lockHash, err := HashLockV0(note.Lock)
	if err != nil {
		return [5]uint64{}, err
	}

	sourceHash := HashSource(note.Source)
	assetHash := crypto.Tip5HashBelts([]crypto.Belt{{Value: 1}, {Value: uint64(note.Asset)}})

	hashSourceAsset := crypto.Tip5RehashTenCell(sourceHash, assetHash)

	q := crypto.Tip5RehashTenCell(nameHash, crypto.Tip5RehashTenCell(lockHash, hashSourceAsset))
	return crypto.Tip5RehashTenCell(p, q), nil
}

func HashTimelockIntent(timelock *nockchain.TimelockIntent) [5]uint64 {
	if timelock == nil {
		return crypto.Tip5Zero
	}
	if timelock.Absolute == nil && timelock.Relative == nil {
		return crypto.Tip5ZeroZero
	}

	absoluteHash := HashTimelockRange(timelock.Absolute)
	relativeHash := HashTimelockRange(timelock.Relative)

	return crypto.Tip5RehashTenCell(absoluteHash, relativeHash)
}

func HashTimelockRange(timelockRange *nockchain.TimelockRange) [5]uint64 {
	hash := crypto.Tip5Zero
	if timelockRange != nil {
		minHash := crypto.Tip5Zero
		if timelockRange.Min != nil {
			minHash = crypto.Tip5HashBelts([]crypto.Belt{{Value: 1}, {Value: timelockRange.Min.Value}})
		}

		maxHash := crypto.Tip5Zero
		if timelockRange.Max != nil {
			maxHash = crypto.Tip5HashBelts([]crypto.Belt{{Value: 1}, {Value: timelockRange.Max.Value}})
		}

		hash = crypto.Tip5RehashTenCell(minHash, maxHash)
	}

	return hash
}

func HashLockV0(lock *nockchain.NockchainLock) ([5]uint64, error) {
	keysRequiredHash := crypto.Tip5HashBelts([]crypto.Belt{{Value: 1}, {Value: lock.KeysRequired}})

	finalPk := base58.Decode(lock.Pubkeys[lock.KeysRequired-1])
	finalPkPoint, err := crypto.CheetaPointFromBytes(finalPk)
	if err != nil {
		return [5]uint64{}, err
	}
	finalPkHash := HashPubkey(finalPkPoint)
	finalHash := crypto.Tip5RehashTenCell(finalPkHash, crypto.Tip5ZeroZero)
	if lock.KeysRequired != 1 {
		for i := uint64(1); i < lock.KeysRequired; i++ {
			pk := base58.Decode(lock.Pubkeys[lock.KeysRequired-1-i])
			pkPoint, err := crypto.CheetaPointFromBytes(pk)
			if err != nil {
				return [5]uint64{}, err
			}

			pkHash := HashPubkey(pkPoint)
			finalHash = crypto.Tip5RehashTenCell(pkHash, finalHash)
		}
	}

	return crypto.Tip5RehashTenCell(keysRequiredHash, finalHash), nil
}

func HashLock(lock *nockchain.NockchainLock) [5]uint64 {
	keysRequiredHash := crypto.Tip5HashBelts([]crypto.Belt{{Value: 1}, {Value: lock.KeysRequired}})

	pkh := crypto.Base58ToTip5Hash(lock.Pubkeys[lock.KeysRequired-1])
	finalHash := crypto.Tip5RehashTenCell(pkh, crypto.Tip5ZeroZero)
	if lock.KeysRequired != 1 {
		for i := uint64(1); i < lock.KeysRequired; i++ {
			pkh := crypto.Base58ToTip5Hash(lock.Pubkeys[lock.KeysRequired-1-i])
			finalHash = crypto.Tip5RehashTenCell(pkh, finalHash)
		}
	}

	lockHash := crypto.Tip5RehashTenCell(keysRequiredHash, finalHash)
	lockHashWithTag := crypto.Tip5RehashTenCell(crypto.PkhTagTip5Hash, lockHash)
	return crypto.Tip5RehashTenCell(lockHashWithTag, crypto.Tip5Zero)
}

func HashSource(source *nockchain.NockchainSource) [5]uint64 {
	if source == nil {
		return crypto.Tip5Zero
	}
	sourceHash := crypto.Base58ToTip5Hash(source.Source)
	return crypto.Tip5RehashTenCell(sourceHash, crypto.Tip5One)
}

func HashSeedWithoutSource(seed *nockchain.NockchainSeedV0) [5]uint64 {
	lockRoot := crypto.Base58ToTip5Hash(seed.LockRoot)
	fmt.Println("lockRoot:", lockRoot)
	assetHash := crypto.Tip5HashBelts([]crypto.Belt{{Value: 1}, {Value: seed.Gift}})

	parentHash := crypto.Base58ToTip5Hash(seed.ParentHash)
	fmt.Println("parentHash:", parentHash)
	assetHashparentHash := crypto.Tip5RehashTenCell(assetHash, parentHash)

	noteDataHash := HashNoteData(seed.NoteData)
	fmt.Println("noteDataHash:", noteDataHash)
	noteDataHashAssetParentHash := crypto.Tip5RehashTenCell(noteDataHash, assetHashparentHash)

	seedHash := crypto.Tip5RehashTenCell(lockRoot, noteDataHashAssetParentHash)
	return seedHash
}
func HashSeed(seed *nockchain.NockchainSeedV0) [5]uint64 {
	seedHash := HashSeedWithoutSource(seed)
	sourceHash := HashSource(seed.OutputSource)
	return crypto.Tip5RehashTenCell(sourceHash, seedHash)
}

func HashSeedVarLen(seed *nockchain.NockchainSeedV0) [5]uint64 {
	belts := []crypto.Belt{{Value: 0}}
	lockRoot := crypto.Base58ToTip5Hash(seed.LockRoot)
	for _, i := range lockRoot {
		belts = append(belts, crypto.Belt{Value: i})
	}
	// %lock and %pkh tag
	belts = append(belts, []crypto.Belt{{Value: 1801678700}, {Value: 0}, {Value: 6843248}}...)
	belts = append(belts, crypto.Belt{Value: seed.NoteData.KeysRequired})
	for _, pk := range seed.NoteData.Pubkeys {
		pkHash := crypto.Base58ToTip5Hash(pk)
		for _, i := range pkHash {
			belts = append(belts, crypto.Belt{Value: i})
		}
	}

	belts = append(belts, []crypto.Belt{{Value: 0}, {Value: 0}, {Value: 0}, {Value: 0}, {Value: 0}, {Value: seed.Gift}}...)
	parentHash := crypto.Base58ToTip5Hash(seed.ParentHash)
	for _, i := range parentHash {
		belts = append(belts, crypto.Belt{Value: i})
	}
	size := len(belts)
	belts = append([]crypto.Belt{{Value: uint64(size)}}, belts...)
	for _, i := range crypto.MagicDyckForSeed {
		belts = append(belts, crypto.Belt{Value: i})
	}
	return crypto.Tip5HashBelts(belts)
}

func HashNonce(pkPoint crypto.CheetahPoint, message [5]uint64, privKey []byte) ([]crypto.Belt, [5]uint64) {
	privKeyBigInt := new(big.Int).SetBytes(privKey)
	privKeyT8 := crypto.BigIntToT8(*privKeyBigInt)
	belts := []crypto.Belt{}
	for _, belt := range pkPoint.X {
		belts = append(belts, belt)
	}

	for _, belt := range pkPoint.Y {
		belts = append(belts, belt)
	}

	for _, belt := range message {
		belts = append(belts, crypto.Belt{Value: belt})
	}

	resBelts := make([]crypto.Belt, len(belts))
	copy(resBelts, belts)

	for _, belt := range privKeyT8 {
		belts = append(belts, crypto.Belt{Value: belt})
	}

	return resBelts, crypto.Tip5HashBelts(belts)
}

func HashSpendV0(spend *nockchain.NockchainSpendV0) ([5]uint64, error) {
	// TODO: handle multiple sig
	if len(spend.Signatures) == 0 {
		return [5]uint64{}, fmt.Errorf("signatures can not be empty")
	}

	sigHash, err := HashSignature(spend.Signatures[0])
	if err != nil {
		return [5]uint64{}, err
	}

	seedsTree := NewZTree(
		func(i interface{}) [5]uint64 {
			if seed, ok := i.(*nockchain.NockchainSeedV0); ok {
				return HashSeedVarLen(seed)
			} else {
				return [5]uint64{}
			}
		},
		func(i interface{}) ([5]uint64, error) {
			if seed, ok := i.(*nockchain.NockchainSeedV0); ok {
				return HashSeedWithoutSource(seed), nil
			} else {
				return [5]uint64{}, fmt.Errorf("invalid input type")
			}
		},
	)
	for _, seed := range spend.Seeds {
		seedsTree.Insert(seed, seed)
	}
	finalSeedHash, err := seedsTree.Hash()
	if err != nil {
		return [5]uint64{}, err
	}

	feeHash := crypto.Tip5HashBelts([]crypto.Belt{{Value: 1}, {Value: spend.Fee}})
	seedHashFee := crypto.Tip5RehashTenCell(finalSeedHash, feeHash)
	return crypto.Tip5RehashTenCell(sigHash, seedHashFee), nil

}

func HashMsg(spend *nockchain.NockchainSpendV0) ([5]uint64, error) {
	seedsTree := NewZTree(
		func(i interface{}) [5]uint64 {
			if seed, ok := i.(*nockchain.NockchainSeedV0); ok {
				return HashSeedVarLen(seed)
			} else {
				return [5]uint64{}
			}
		},
		func(i interface{}) ([5]uint64, error) {
			if seed, ok := i.(*nockchain.NockchainSeedV0); ok {
				return HashSeed(seed), nil
			} else {
				return [5]uint64{}, fmt.Errorf("invalid input type")
			}
		},
	)
	for _, seed := range spend.Seeds {
		seedsTree.Insert(seed, seed)
	}
	finalSeedHash, err := seedsTree.Hash()
	if err != nil {
		return [5]uint64{}, err
	}
	feeHash := crypto.Tip5HashBelts([]crypto.Belt{{Value: 1}, {Value: spend.Fee}})
	return crypto.Tip5RehashTenCell(finalSeedHash, feeHash), nil
}

// func HashInput(input *nockchain.NockchainInput) ([5]uint64, error) {
// 	nameHash := HashName(input.Name)

// 	noteHash, err := HashNote(input.Note)
// 	if err != nil {
// 		return [5]uint64{}, err

// 	}
// 	spendHash, err := HashSpend(input.Spend)
// 	if err != nil {
// 		return [5]uint64{}, err

// 	}
// 	hashNoteSpend := crypto.Tip5RehashTenCell(noteHash, spendHash)
// 	return crypto.Tip5RehashTenCell(nameHash, hashNoteSpend), nil
// }

func ComputeTxId(spends []*nockchain.NockchainNamedSpend, version uint64) ([5]uint64, error) {
	var spendHash [5]uint64
	var err error
	switch version {
	case 0:
		spendTree := NewZTree(
			func(i interface{}) [5]uint64 {
				if name, ok := i.(*nockchain.NockchainName); ok {
					return HashNameVarLen(name)
				} else {
					return [5]uint64{}
				}
			},
			func(i interface{}) ([5]uint64, error) {
				if spendEntry, ok := i.(*nockchain.NockchainNamedSpend); ok {
					nameHash := HashName(spendEntry.Name)
					spendV0Hash, err := HashSpendV0(spendEntry.GetLegacy())
					if err != nil {
						return [5]uint64{}, fmt.Errorf("error hashing spend: %v", err)
					}

					zeroHashspend := crypto.Tip5RehashTenCell(crypto.Tip5Zero, spendV0Hash)
					return crypto.Tip5RehashTenCell(nameHash, zeroHashspend), nil
				} else {
					return [5]uint64{}, fmt.Errorf("invalid input type")
				}
			},
		)
		for _, spend := range spends {
			spendTree.Insert(spend.Name, spend)
		}
		spendHash, err = spendTree.Hash()
		if err != nil {
			return [5]uint64{}, fmt.Errorf("error hashing spends: %v", err)
		}
		fmt.Println("spendHash:", spendHash)
	default:
		return [5]uint64{}, fmt.Errorf("unsupported version %d", version)
	}
	return crypto.Tip5RehashTenCell(crypto.Tip5One, spendHash), nil
}

func ComputeSig(m crypto.MasterKey, msg [5]uint64) ([8]uint64, [8]uint64, error) {
	pkPoint, err := crypto.CheetaPointFromBytes(m.PublicKey)
	if err != nil {
		return [8]uint64{}, [8]uint64{}, err
	}
	belts, nonce := HashNonce(pkPoint, msg, m.PrivateKey)
	nonceBigInt := crypto.TruncGOrder(nonce)
	scalar := crypto.CheetahScaleBig(crypto.A_GEN, *nonceBigInt)

	scalarBelts := []crypto.Belt{}
	scalarBelts = append(scalarBelts, scalar.X[:]...)
	scalarBelts = append(scalarBelts, scalar.Y[:]...)
	belts = append(scalarBelts, belts...)
	chal := crypto.Tip5HashBelts(belts)
	chalBigInt := crypto.TruncGOrder(chal)

	skBigInt := new(big.Int).SetBytes(m.PrivateKey)
	sig := new(big.Int).Mul(chalBigInt, skBigInt)
	sig.Add(sig, nonceBigInt)
	sig.Mod(sig, crypto.G_ORDER)

	chalT8 := crypto.BigIntToT8(*chalBigInt)
	sigT8 := crypto.BigIntToT8(*sig)
	return chalT8, sigT8, nil
}

func first(ownerHash [5]uint64) [5]uint64 {
	ownerHashZero := crypto.Tip5RehashTenCell(ownerHash, crypto.Tip5Zero)
	ownerHashZeroOne := crypto.Tip5RehashTenCell(crypto.Tip5One, ownerHashZero)
	return crypto.Tip5RehashTenCell(crypto.Tip5Zero, ownerHashZeroOne)
}
first draft for nockchain-grpc 2025-10-06 13:38:53 +07:00			`package wallet`

			`import (`
fix parse balance entry and hash parent 2025-10-07 09:30:49 +07:00			`"fmt"`
first draft for nockchain-grpc 2025-10-06 13:38:53 +07:00			`"math/big"`

			`"github.com/btcsuite/btcd/btcutil/base58"`
			`"github.com/phamminh0811/private-grpc/crypto"`
			`"github.com/phamminh0811/private-grpc/nockchain"`
			`)`

			`var LastName = [5]uint64{9541855607561054508, 12383849149342406623, 11220017934615522559, 678840671137489369, 8985908938884028381}`

			`func HashPubkey(pkPoint crypto.CheetahPoint) [5]uint64 {`
			`belts := []crypto.Belt{{Value: 13}}`
			`belts = append(belts, pkPoint.X[:]...)`
			`belts = append(belts, pkPoint.Y[:]...)`
			`belts = append(belts, crypto.BELT_ONE)`
			`for _, i := range crypto.MagicDyckForPoint {`
			`belts = append(belts, crypto.Belt{Value: i})`
			`}`
			`return crypto.Tip5HashBelts(belts)`
			`}`

			`func HashSignature(signature *nockchain.NockchainSignature) ([5]uint64, error) {`
			`belts := []crypto.Belt{{Value: 16}}`
			`for _, i := range signature.Chal {`
			`belts = append(belts, crypto.Belt{Value: i})`
			`}`
			`for _, i := range signature.Sig {`
			`belts = append(belts, crypto.Belt{Value: i})`
			`}`
			`for _, i := range crypto.MagicDyckForT8 {`
			`belts = append(belts, crypto.Belt{Value: i})`
			`}`
			`sigHash := crypto.Tip5HashBelts(belts)`
			`pkPoint, err := crypto.CheetaPointFromBytes(base58.Decode(signature.Pubkey))`
			`if err != nil {`
			`return [5]uint64{}, err`
			`}`
			`pkHash := HashPubkey(pkPoint)`
			`sigHash = crypto.Tip5RehashTenCell(pkHash, sigHash)`
complete transfer v0 -> v1 2025-11-04 10:38:31 +07:00			`return crypto.Tip5RehashTenCell(sigHash, crypto.Tip5ZeroZero), nil`
first draft for nockchain-grpc 2025-10-06 13:38:53 +07:00			`}`

complete transfer v0 -> v1 2025-11-04 10:38:31 +07:00			`func HashNoteData(lock *nockchain.NockchainLock) [5]uint64 {`
			`keysRequiredHash := crypto.Tip5HashLeaf(lock.KeysRequired)`
			`// TODO: handle multisig`
			`finalHash := crypto.Base58ToTip5Hash(lock.Pubkeys[lock.KeysRequired-1])`
			`hash := crypto.Tip5RehashTenCell(crypto.Tip5HashLeaf(finalHash[3]), crypto.Tip5HashLeaf(finalHash[4]))`
			`hash = crypto.Tip5RehashTenCell(crypto.Tip5HashLeaf(finalHash[2]), hash)`
			`hash = crypto.Tip5RehashTenCell(crypto.Tip5HashLeaf(finalHash[1]), hash)`
			`hash = crypto.Tip5RehashTenCell(crypto.Tip5HashLeaf(finalHash[0]), hash)`
			`hash = crypto.Tip5RehashTenCell(hash, crypto.Tip5ZeroZero)`

			`pkh := crypto.Tip5RehashTenCell(keysRequiredHash, hash)`
			`pkhWithPkhTag := crypto.Tip5RehashTenCell(crypto.PkhTagTip5Hash, pkh)`
			`pkhWithPkhTag = crypto.Tip5RehashTenCell(pkhWithPkhTag, crypto.Tip5Zero)`
			`pkhWithPkhTag = crypto.Tip5RehashTenCell(crypto.Tip5Zero, pkhWithPkhTag)`

			`pkhWithPkhLockTag := crypto.Tip5RehashTenCell(crypto.LockTagTip5Hash, pkhWithPkhTag)`
			`return crypto.Tip5RehashTenCell(pkhWithPkhLockTag, crypto.Tip5ZeroZero)`
			`}`
first draft for nockchain-grpc 2025-10-06 13:38:53 +07:00			`func HashOwner(pkPoint crypto.CheetahPoint) [5]uint64 {`
			`pkHashedBelts := HashPubkey(pkPoint)`
			`pkHashedZeroZero := crypto.Tip5RehashTenCell(pkHashedBelts, crypto.Tip5ZeroZero)`
			`return crypto.Tip5RehashTenCell(crypto.Tip5One, pkHashedZeroZero)`
			`}`

			`func NockName(ownerHash [5]uint64) ([5]uint64, [5]uint64) {`
			`firstName := first(ownerHash)`
			`return firstName, LastName`
			`}`

			`func HashName(name *nockchain.NockchainName) [5]uint64 {`
			`firstNameHash := crypto.Base58ToTip5Hash(name.First)`
			`lastNameHash := crypto.Base58ToTip5Hash(name.Last)`
			`return crypto.Tip5RehashTenCell(firstNameHash, crypto.Tip5RehashTenCell(lastNameHash, crypto.Tip5Zero))`
			`}`

fix: send tx with 2 notes 2025-10-22 08:44:24 +07:00			`func HashNameVarLen(name *nockchain.NockchainName) [5]uint64 {`
			`belts := []crypto.Belt{}`
			`for _, i := range crypto.Base58ToTip5Hash(name.First) {`
			`belts = append(belts, crypto.Belt{Value: i})`
			`}`
			`for _, i := range crypto.Base58ToTip5Hash(name.Last) {`
			`belts = append(belts, crypto.Belt{Value: i})`
			`}`
			`belts = append(belts, crypto.BELT_ZERO)`
			`size := len(belts)`
			`belts = append([]crypto.Belt{{Value: uint64(size)}}, belts...)`
			`for _, i := range crypto.MagicDyckForName {`
			`belts = append(belts, crypto.Belt{Value: i})`
			`}`
			`res := crypto.Tip5HashBelts(belts)`
			`return res`
			`}`

complete transfer v0 -> v1 2025-11-04 10:38:31 +07:00			`func HashNoteV0(note *nockchain.NockchainNoteV0) ([5]uint64, error) {`
first draft for nockchain-grpc 2025-10-06 13:38:53 +07:00			`versionHash := crypto.Tip5HashBelts([]crypto.Belt{{Value: 1}, {Value: uint64(note.Version)}})`
complete transfer v0 -> v1 2025-11-04 10:38:31 +07:00			`blockHash := crypto.Tip5HashBelts([]crypto.Belt{{Value: 1}, {Value: note.OriginPage}})`
			`hashBlockTimeLock := crypto.Tip5RehashTenCell(blockHash, crypto.Tip5Zero)`
first draft for nockchain-grpc 2025-10-06 13:38:53 +07:00
			`p := crypto.Tip5RehashTenCell(versionHash, hashBlockTimeLock)`
			`nameHash := HashName(note.Name)`
complete transfer v0 -> v1 2025-11-04 10:38:31 +07:00			`lockHash, err := HashLockV0(note.Lock)`
first draft for nockchain-grpc 2025-10-06 13:38:53 +07:00			`if err != nil {`
			`return [5]uint64{}, err`
			`}`

			`sourceHash := HashSource(note.Source)`
			`assetHash := crypto.Tip5HashBelts([]crypto.Belt{{Value: 1}, {Value: uint64(note.Asset)}})`

			`hashSourceAsset := crypto.Tip5RehashTenCell(sourceHash, assetHash)`

			`q := crypto.Tip5RehashTenCell(nameHash, crypto.Tip5RehashTenCell(lockHash, hashSourceAsset))`
			`return crypto.Tip5RehashTenCell(p, q), nil`
			`}`

			`func HashTimelockIntent(timelock *nockchain.TimelockIntent) [5]uint64 {`
			`if timelock == nil {`
			`return crypto.Tip5Zero`
			`}`
			`if timelock.Absolute == nil && timelock.Relative == nil {`
			`return crypto.Tip5ZeroZero`
			`}`

			`absoluteHash := HashTimelockRange(timelock.Absolute)`
			`relativeHash := HashTimelockRange(timelock.Relative)`

			`return crypto.Tip5RehashTenCell(absoluteHash, relativeHash)`
			`}`

			`func HashTimelockRange(timelockRange *nockchain.TimelockRange) [5]uint64 {`
			`hash := crypto.Tip5Zero`
			`if timelockRange != nil {`
			`minHash := crypto.Tip5Zero`
			`if timelockRange.Min != nil {`
			`minHash = crypto.Tip5HashBelts([]crypto.Belt{{Value: 1}, {Value: timelockRange.Min.Value}})`
			`}`

			`maxHash := crypto.Tip5Zero`
			`if timelockRange.Max != nil {`
			`maxHash = crypto.Tip5HashBelts([]crypto.Belt{{Value: 1}, {Value: timelockRange.Max.Value}})`
			`}`

			`hash = crypto.Tip5RehashTenCell(minHash, maxHash)`
			`}`

			`return hash`
			`}`
complete transfer v0 -> v1 2025-11-04 10:38:31 +07:00
			`func HashLockV0(lock *nockchain.NockchainLock) ([5]uint64, error) {`
first draft for nockchain-grpc 2025-10-06 13:38:53 +07:00			`keysRequiredHash := crypto.Tip5HashBelts([]crypto.Belt{{Value: 1}, {Value: lock.KeysRequired}})`

			`finalPk := base58.Decode(lock.Pubkeys[lock.KeysRequired-1])`
			`finalPkPoint, err := crypto.CheetaPointFromBytes(finalPk)`
			`if err != nil {`
			`return [5]uint64{}, err`
			`}`
			`finalPkHash := HashPubkey(finalPkPoint)`
			`finalHash := crypto.Tip5RehashTenCell(finalPkHash, crypto.Tip5ZeroZero)`
			`if lock.KeysRequired != 1 {`
			`for i := uint64(1); i < lock.KeysRequired; i++ {`
			`pk := base58.Decode(lock.Pubkeys[lock.KeysRequired-1-i])`
			`pkPoint, err := crypto.CheetaPointFromBytes(pk)`
			`if err != nil {`
			`return [5]uint64{}, err`
			`}`

			`pkHash := HashPubkey(pkPoint)`
			`finalHash = crypto.Tip5RehashTenCell(pkHash, finalHash)`
			`}`
			`}`

			`return crypto.Tip5RehashTenCell(keysRequiredHash, finalHash), nil`
			`}`

complete transfer v0 -> v1 2025-11-04 10:38:31 +07:00			`func HashLock(lock *nockchain.NockchainLock) [5]uint64 {`
			`keysRequiredHash := crypto.Tip5HashBelts([]crypto.Belt{{Value: 1}, {Value: lock.KeysRequired}})`

			`pkh := crypto.Base58ToTip5Hash(lock.Pubkeys[lock.KeysRequired-1])`
			`finalHash := crypto.Tip5RehashTenCell(pkh, crypto.Tip5ZeroZero)`
			`if lock.KeysRequired != 1 {`
			`for i := uint64(1); i < lock.KeysRequired; i++ {`
			`pkh := crypto.Base58ToTip5Hash(lock.Pubkeys[lock.KeysRequired-1-i])`
			`finalHash = crypto.Tip5RehashTenCell(pkh, finalHash)`
			`}`
			`}`

			`lockHash := crypto.Tip5RehashTenCell(keysRequiredHash, finalHash)`
			`lockHashWithTag := crypto.Tip5RehashTenCell(crypto.PkhTagTip5Hash, lockHash)`
			`return crypto.Tip5RehashTenCell(lockHashWithTag, crypto.Tip5Zero)`
			`}`

first draft for nockchain-grpc 2025-10-06 13:38:53 +07:00			`func HashSource(source *nockchain.NockchainSource) [5]uint64 {`
			`if source == nil {`
			`return crypto.Tip5Zero`
			`}`
			`sourceHash := crypto.Base58ToTip5Hash(source.Source)`
fix: send tx 2025-10-09 11:06:46 +07:00			`return crypto.Tip5RehashTenCell(sourceHash, crypto.Tip5One)`
first draft for nockchain-grpc 2025-10-06 13:38:53 +07:00			`}`

complete transfer v0 -> v1 2025-11-04 10:38:31 +07:00			`func HashSeedWithoutSource(seed *nockchain.NockchainSeedV0) [5]uint64 {`
			`lockRoot := crypto.Base58ToTip5Hash(seed.LockRoot)`
			`fmt.Println("lockRoot:", lockRoot)`
first draft for nockchain-grpc 2025-10-06 13:38:53 +07:00			`assetHash := crypto.Tip5HashBelts([]crypto.Belt{{Value: 1}, {Value: seed.Gift}})`

			`parentHash := crypto.Base58ToTip5Hash(seed.ParentHash)`
complete transfer v0 -> v1 2025-11-04 10:38:31 +07:00			`fmt.Println("parentHash:", parentHash)`
first draft for nockchain-grpc 2025-10-06 13:38:53 +07:00			`assetHashparentHash := crypto.Tip5RehashTenCell(assetHash, parentHash)`

complete transfer v0 -> v1 2025-11-04 10:38:31 +07:00			`noteDataHash := HashNoteData(seed.NoteData)`
			`fmt.Println("noteDataHash:", noteDataHash)`
			`noteDataHashAssetParentHash := crypto.Tip5RehashTenCell(noteDataHash, assetHashparentHash)`
first draft for nockchain-grpc 2025-10-06 13:38:53 +07:00
complete transfer v0 -> v1 2025-11-04 10:38:31 +07:00			`seedHash := crypto.Tip5RehashTenCell(lockRoot, noteDataHashAssetParentHash)`
			`return seedHash`
first draft for nockchain-grpc 2025-10-06 13:38:53 +07:00			`}`
complete transfer v0 -> v1 2025-11-04 10:38:31 +07:00			`func HashSeed(seed *nockchain.NockchainSeedV0) [5]uint64 {`
			`seedHash := HashSeedWithoutSource(seed)`
first draft for nockchain-grpc 2025-10-06 13:38:53 +07:00			`sourceHash := HashSource(seed.OutputSource)`
complete transfer v0 -> v1 2025-11-04 10:38:31 +07:00			`return crypto.Tip5RehashTenCell(sourceHash, seedHash)`
first draft for nockchain-grpc 2025-10-06 13:38:53 +07:00			`}`

complete transfer v0 -> v1 2025-11-04 10:38:31 +07:00			`func HashSeedVarLen(seed *nockchain.NockchainSeedV0) [5]uint64 {`
fix: send tx with 2 seeds 2025-10-15 08:00:31 +07:00			`belts := []crypto.Belt{{Value: 0}}`
complete transfer v0 -> v1 2025-11-04 10:38:31 +07:00			`lockRoot := crypto.Base58ToTip5Hash(seed.LockRoot)`
			`for _, i := range lockRoot {`
			`belts = append(belts, crypto.Belt{Value: i})`
			`}`
			`// %lock and %pkh tag`
			`belts = append(belts, []crypto.Belt{{Value: 1801678700}, {Value: 0}, {Value: 6843248}}...)`
			`belts = append(belts, crypto.Belt{Value: seed.NoteData.KeysRequired})`
			`for _, pk := range seed.NoteData.Pubkeys {`
			`pkHash := crypto.Base58ToTip5Hash(pk)`
			`for _, i := range pkHash {`
			`belts = append(belts, crypto.Belt{Value: i})`
fix: send tx with 2 seeds 2025-10-15 08:00:31 +07:00			`}`
			`}`
complete transfer v0 -> v1 2025-11-04 10:38:31 +07:00
			`belts = append(belts, []crypto.Belt{{Value: 0}, {Value: 0}, {Value: 0}, {Value: 0}, {Value: 0}, {Value: seed.Gift}}...)`
fix: send tx with 2 seeds 2025-10-15 08:00:31 +07:00			`parentHash := crypto.Base58ToTip5Hash(seed.ParentHash)`
			`for _, i := range parentHash {`
			`belts = append(belts, crypto.Belt{Value: i})`
			`}`
			`size := len(belts)`
			`belts = append([]crypto.Belt{{Value: uint64(size)}}, belts...)`
			`for _, i := range crypto.MagicDyckForSeed {`
			`belts = append(belts, crypto.Belt{Value: i})`
			`}`
complete transfer v0 -> v1 2025-11-04 10:38:31 +07:00			`return crypto.Tip5HashBelts(belts)`
fix: send tx with 2 seeds 2025-10-15 08:00:31 +07:00			`}`
complete transfer v0 -> v1 2025-11-04 10:38:31 +07:00
			`func HashNonce(pkPoint crypto.CheetahPoint, message [5]uint64, privKey []byte) ([]crypto.Belt, [5]uint64) {`
			`privKeyBigInt := new(big.Int).SetBytes(privKey)`
			`privKeyT8 := crypto.BigIntToT8(*privKeyBigInt)`
first draft for nockchain-grpc 2025-10-06 13:38:53 +07:00			`belts := []crypto.Belt{}`
			`for _, belt := range pkPoint.X {`
			`belts = append(belts, belt)`
			`}`

			`for _, belt := range pkPoint.Y {`
			`belts = append(belts, belt)`
			`}`

			`for _, belt := range message {`
			`belts = append(belts, crypto.Belt{Value: belt})`
			`}`
complete transfer v0 -> v1 2025-11-04 10:38:31 +07:00
first draft for nockchain-grpc 2025-10-06 13:38:53 +07:00			`resBelts := make([]crypto.Belt, len(belts))`
			`copy(resBelts, belts)`
complete transfer v0 -> v1 2025-11-04 10:38:31 +07:00
			`for _, belt := range privKeyT8 {`
			`belts = append(belts, crypto.Belt{Value: belt})`
			`}`

first draft for nockchain-grpc 2025-10-06 13:38:53 +07:00			`return resBelts, crypto.Tip5HashBelts(belts)`
			`}`

complete transfer v0 -> v1 2025-11-04 10:38:31 +07:00			`func HashSpendV0(spend *nockchain.NockchainSpendV0) ([5]uint64, error) {`
first draft for nockchain-grpc 2025-10-06 13:38:53 +07:00			`// TODO: handle multiple sig`
fix parse balance entry and hash parent 2025-10-07 09:30:49 +07:00			`if len(spend.Signatures) == 0 {`
			`return [5]uint64{}, fmt.Errorf("signatures can not be empty")`
			`}`

first draft for nockchain-grpc 2025-10-06 13:38:53 +07:00			`sigHash, err := HashSignature(spend.Signatures[0])`
			`if err != nil {`
			`return [5]uint64{}, err`
			`}`

fix: send tx with 2 notes 2025-10-22 08:44:24 +07:00			`seedsTree := NewZTree(`
			`func(i interface{}) [5]uint64 {`
complete transfer v0 -> v1 2025-11-04 10:38:31 +07:00			`if seed, ok := i.(*nockchain.NockchainSeedV0); ok {`
			`return HashSeedVarLen(seed)`
fix: send tx with 2 seeds 2025-10-15 08:00:31 +07:00			`} else {`
fix: send tx with 2 notes 2025-10-22 08:44:24 +07:00			`return [5]uint64{}`
fix: send tx with 2 seeds 2025-10-15 08:00:31 +07:00			`}`
fix: send tx with 2 notes 2025-10-22 08:44:24 +07:00			`},`
			`func(i interface{}) ([5]uint64, error) {`
complete transfer v0 -> v1 2025-11-04 10:38:31 +07:00			`if seed, ok := i.(*nockchain.NockchainSeedV0); ok {`
			`return HashSeedWithoutSource(seed), nil`
fix: send tx with 2 seeds 2025-10-15 08:00:31 +07:00			`} else {`
fix: send tx with 2 notes 2025-10-22 08:44:24 +07:00			`return [5]uint64{}, fmt.Errorf("invalid input type")`
first draft for nockchain-grpc 2025-10-06 13:38:53 +07:00			`}`
fix: send tx with 2 notes 2025-10-22 08:44:24 +07:00			`},`
			`)`
			`for _, seed := range spend.Seeds {`
			`seedsTree.Insert(seed, seed)`
			`}`
			`finalSeedHash, err := seedsTree.Hash()`
			`if err != nil {`
			`return [5]uint64{}, err`
first draft for nockchain-grpc 2025-10-06 13:38:53 +07:00			`}`
fix: send tx with 2 notes 2025-10-22 08:44:24 +07:00
first draft for nockchain-grpc 2025-10-06 13:38:53 +07:00			`feeHash := crypto.Tip5HashBelts([]crypto.Belt{{Value: 1}, {Value: spend.Fee}})`
			`seedHashFee := crypto.Tip5RehashTenCell(finalSeedHash, feeHash)`
			`return crypto.Tip5RehashTenCell(sigHash, seedHashFee), nil`

			`}`

complete transfer v0 -> v1 2025-11-04 10:38:31 +07:00			`func HashMsg(spend *nockchain.NockchainSpendV0) ([5]uint64, error) {`
fix: send tx with 2 notes 2025-10-22 08:44:24 +07:00			`seedsTree := NewZTree(`
			`func(i interface{}) [5]uint64 {`
complete transfer v0 -> v1 2025-11-04 10:38:31 +07:00			`if seed, ok := i.(*nockchain.NockchainSeedV0); ok {`
			`return HashSeedVarLen(seed)`
fix: send tx with 2 seeds 2025-10-15 08:00:31 +07:00			`} else {`
fix: send tx with 2 notes 2025-10-22 08:44:24 +07:00			`return [5]uint64{}`
fix: send tx with 2 seeds 2025-10-15 08:00:31 +07:00			`}`
fix: send tx with 2 notes 2025-10-22 08:44:24 +07:00			`},`
			`func(i interface{}) ([5]uint64, error) {`
complete transfer v0 -> v1 2025-11-04 10:38:31 +07:00			`if seed, ok := i.(*nockchain.NockchainSeedV0); ok {`
			`return HashSeed(seed), nil`
fix: send tx with 2 seeds 2025-10-15 08:00:31 +07:00			`} else {`
fix: send tx with 2 notes 2025-10-22 08:44:24 +07:00			`return [5]uint64{}, fmt.Errorf("invalid input type")`
compute tx id 2025-10-06 18:18:19 +07:00			`}`
fix: send tx with 2 notes 2025-10-22 08:44:24 +07:00			`},`
			`)`
			`for _, seed := range spend.Seeds {`
			`seedsTree.Insert(seed, seed)`
			`}`
			`finalSeedHash, err := seedsTree.Hash()`
			`if err != nil {`
			`return [5]uint64{}, err`
compute tx id 2025-10-06 18:18:19 +07:00			`}`
			`feeHash := crypto.Tip5HashBelts([]crypto.Belt{{Value: 1}, {Value: spend.Fee}})`
			`return crypto.Tip5RehashTenCell(finalSeedHash, feeHash), nil`
			`}`

complete transfer v0 -> v1 2025-11-04 10:38:31 +07:00			`// func HashInput(input *nockchain.NockchainInput) ([5]uint64, error) {`
			`// nameHash := HashName(input.Name)`

			`// noteHash, err := HashNote(input.Note)`
			`// if err != nil {`
			`// return [5]uint64{}, err`

			`// }`
			`// spendHash, err := HashSpend(input.Spend)`
			`// if err != nil {`
			`// return [5]uint64{}, err`

			`// }`
			`// hashNoteSpend := crypto.Tip5RehashTenCell(noteHash, spendHash)`
			`// return crypto.Tip5RehashTenCell(nameHash, hashNoteSpend), nil`
			`// }`

			`func ComputeTxId(spends []*nockchain.NockchainNamedSpend, version uint64) ([5]uint64, error) {`
			`var spendHash [5]uint64`
			`var err error`
			`switch version {`
			`case 0:`
			`spendTree := NewZTree(`
			`func(i interface{}) [5]uint64 {`
			`if name, ok := i.(*nockchain.NockchainName); ok {`
			`return HashNameVarLen(name)`
			`} else {`
			`return [5]uint64{}`
			`}`
			`},`
			`func(i interface{}) ([5]uint64, error) {`
			`if spendEntry, ok := i.(*nockchain.NockchainNamedSpend); ok {`
			`nameHash := HashName(spendEntry.Name)`
			`spendV0Hash, err := HashSpendV0(spendEntry.GetLegacy())`
			`if err != nil {`
			`return [5]uint64{}, fmt.Errorf("error hashing spend: %v", err)`
			`}`

			`zeroHashspend := crypto.Tip5RehashTenCell(crypto.Tip5Zero, spendV0Hash)`
			`return crypto.Tip5RehashTenCell(nameHash, zeroHashspend), nil`
			`} else {`
			`return [5]uint64{}, fmt.Errorf("invalid input type")`
			`}`
			`},`
			`)`
			`for _, spend := range spends {`
			`spendTree.Insert(spend.Name, spend)`
			`}`
			`spendHash, err = spendTree.Hash()`
			`if err != nil {`
			`return [5]uint64{}, fmt.Errorf("error hashing spends: %v", err)`
			`}`
			`fmt.Println("spendHash:", spendHash)`
			`default:`
			`return [5]uint64{}, fmt.Errorf("unsupported version %d", version)`
first draft for nockchain-grpc 2025-10-06 13:38:53 +07:00			`}`
complete transfer v0 -> v1 2025-11-04 10:38:31 +07:00			`return crypto.Tip5RehashTenCell(crypto.Tip5One, spendHash), nil`
first draft for nockchain-grpc 2025-10-06 13:38:53 +07:00			`}`

			`func ComputeSig(m crypto.MasterKey, msg [5]uint64) ([8]uint64, [8]uint64, error) {`
			`pkPoint, err := crypto.CheetaPointFromBytes(m.PublicKey)`
			`if err != nil {`
			`return [8]uint64{}, [8]uint64{}, err`
			`}`
complete transfer v0 -> v1 2025-11-04 10:38:31 +07:00			`belts, nonce := HashNonce(pkPoint, msg, m.PrivateKey)`
first draft for nockchain-grpc 2025-10-06 13:38:53 +07:00			`nonceBigInt := crypto.TruncGOrder(nonce)`
			`scalar := crypto.CheetahScaleBig(crypto.A_GEN, *nonceBigInt)`

			`scalarBelts := []crypto.Belt{}`
			`scalarBelts = append(scalarBelts, scalar.X[:]...)`
			`scalarBelts = append(scalarBelts, scalar.Y[:]...)`
			`belts = append(scalarBelts, belts...)`
			`chal := crypto.Tip5HashBelts(belts)`
			`chalBigInt := crypto.TruncGOrder(chal)`

			`skBigInt := new(big.Int).SetBytes(m.PrivateKey)`
			`sig := new(big.Int).Mul(chalBigInt, skBigInt)`
			`sig.Add(sig, nonceBigInt)`
			`sig.Mod(sig, crypto.G_ORDER)`

			`chalT8 := crypto.BigIntToT8(*chalBigInt)`
			`sigT8 := crypto.BigIntToT8(*sig)`
			`return chalT8, sigT8, nil`
			`}`

			`func first(ownerHash [5]uint64) [5]uint64 {`
			`ownerHashZero := crypto.Tip5RehashTenCell(ownerHash, crypto.Tip5Zero)`
			`ownerHashZeroOne := crypto.Tip5RehashTenCell(crypto.Tip5One, ownerHashZero)`
			`return crypto.Tip5RehashTenCell(crypto.Tip5Zero, ownerHashZeroOne)`
			`}`