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sonr/crypto/bulletproof/range_verifier.go
Prad Nukala 31bcc21c35
feature/1121 implement ucan validation (#1176) 
- **refactor: remove unused auth components**
- **refactor: improve devbox configuration and deployment process**
- **refactor: improve devnet and testnet setup**
- **fix: update templ version to v0.2.778**
- **refactor: rename pkl/net.matrix to pkl/matrix.net**
- **refactor: migrate webapp components to nebula**
- **refactor: protobuf types**
- **chore: update dependencies for improved security and stability**
- **feat: implement landing page and vault gateway servers**
- **refactor: Migrate data models to new module structure and update
related files**
- **feature/1121-implement-ucan-validation**
- **refactor: Replace hardcoded constants with model types in attns.go**
- **feature/1121-implement-ucan-validation**
- **chore: add origin Host struct and update main function to handle
multiple hosts**
- **build: remove unused static files from dwn module**
- **build: remove unused static files from dwn module**
- **refactor: Move DWN models to common package**
- **refactor: move models to pkg/common**
- **refactor: move vault web app assets to embed module**
- **refactor: update session middleware import path**
- **chore: configure port labels and auto-forwarding behavior**
- **feat: enhance devcontainer configuration**
- **feat: Add UCAN middleware for Echo with flexible token validation**
- **feat: add JWT middleware for UCAN authentication**
- **refactor: update package URI and versioning in PklProject files**
- **fix: correct sonr.pkl import path**
- **refactor: move JWT related code to auth package**
- **feat: introduce vault configuration retrieval and management**
- **refactor: Move vault components to gateway module and update file
paths**
- **refactor: remove Dexie and SQLite database implementations**
- **feat: enhance frontend with PWA features and WASM integration**
- **feat: add Devbox features and streamline Dockerfile**
- **chore: update dependencies to include TigerBeetle**
- **chore(deps): update go version to 1.23**
- **feat: enhance devnet setup with PATH environment variable and
updated PWA manifest**
- **fix: upgrade tigerbeetle-go dependency and remove indirect
dependency**
- **feat: add PostgreSQL support to devnet and testnet deployments**
- **refactor: rename keyshare cookie to token cookie**
- **feat: upgrade Go version to 1.23.3 and update dependencies**
- **refactor: update devnet and testnet configurations**
- **feat: add IPFS configuration for devnet**
- **I'll help you update the ipfs.config.pkl to include all the peers
from the shell script. Here's the updated configuration:**
- **refactor: move mpc package to crypto directory**
- **feat: add BIP32 support for various cryptocurrencies**
- **feat: enhance ATN.pkl with additional capabilities**
- **refactor: simplify smart account and vault attenuation creation**
- **feat: add new capabilities to the Attenuation type**
- **refactor: Rename MPC files for clarity and consistency**
- **feat: add DIDKey support for cryptographic operations**
- **feat: add devnet and testnet deployment configurations**
- **fix: correct key derivation in bip32 package**
- **refactor: rename crypto/bip32 package to crypto/accaddr**
- **fix: remove duplicate indirect dependency**
- **refactor: move vault package to root directory**
- **refactor: update routes for gateway and vault**
- **refactor: remove obsolete web configuration file**
- **refactor: remove unused TigerBeetle imports and update host
configuration**
- **refactor: adjust styles directory path**
- **feat: add broadcastTx and simulateTx functions to gateway**
- **feat: add PinVault handler**
2024-12-02 14:27:18 -05:00

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package bulletproof
import (
"github.com/gtank/merlin"
"github.com/pkg/errors"
"github.com/onsonr/sonr/crypto/core/curves"
)
// RangeVerifier is the struct used to verify RangeProofs
// It specifies which curve to use and holds precomputed generators
// See NewRangeVerifier() for verifier initialization.
type RangeVerifier struct {
curve curves.Curve
generators *ippGenerators
ippVerifier *InnerProductVerifier
}
// NewRangeVerifier initializes a new verifier
// It uses the specified domain to generate generators for vectors of at most maxVectorLength
// A verifier can be used to verify range proofs for vectors of length less than or equal to maxVectorLength
// A verifier is defined by an explicit curve.
func NewRangeVerifier(maxVectorLength int, rangeDomain, ippDomain []byte, curve curves.Curve) (*RangeVerifier, error) {
generators, err := getGeneratorPoints(maxVectorLength, rangeDomain, curve)
if err != nil {
return nil, errors.Wrap(err, "range NewRangeProver")
}
ippVerifier, err := NewInnerProductVerifier(maxVectorLength, ippDomain, curve)
if err != nil {
return nil, errors.Wrap(err, "range NewRangeProver")
}
return &RangeVerifier{curve: curve, generators: generators, ippVerifier: ippVerifier}, nil
}
// Verify verifies the given range proof inputs
// It implements the checking of L65 on pg 20
// It also verifies the dot product of <l,r> using the inner product proof\
// capV is a commitment to v using blinding factor gamma
// n is the power that specifies the upper bound of the range, ie. 2^n
// g, h, u are unique points used as generators for the blinding factor
// transcript is a merlin transcript to be used for the fiat shamir heuristic.
func (verifier *RangeVerifier) Verify(proof *RangeProof, capV curves.Point, proofGenerators RangeProofGenerators, n int, transcript *merlin.Transcript) (bool, error) {
// Length of vectors must be less than the number of generators generated
if n > len(verifier.generators.G) {
return false, errors.New("ipp vector length must be less than maxVectorLength")
}
// In case where len(a) is less than number of generators precomputed by prover, trim to length
proofG := verifier.generators.G[0:n]
proofH := verifier.generators.H[0:n]
// Calc y,z,x from Fiat Shamir heuristic
y, z, err := calcyz(capV, proof.capA, proof.capS, transcript, verifier.curve)
if err != nil {
return false, errors.Wrap(err, "rangeproof verify")
}
x, err := calcx(proof.capT1, proof.capT2, transcript, verifier.curve)
if err != nil {
return false, errors.Wrap(err, "rangeproof verify")
}
wBytes := transcript.ExtractBytes([]byte("getw"), 64)
w, err := verifier.curve.NewScalar().SetBytesWide(wBytes)
if err != nil {
return false, errors.Wrap(err, "rangeproof prove")
}
// Calc delta(y,z)
deltayz, err := deltayz(y, z, n, verifier.curve)
if err != nil {
return false, errors.Wrap(err, "rangeproof verify")
}
// Check tHat: L65, pg20
tHatIsValid := verifier.checktHat(proof, capV, proofGenerators.g, proofGenerators.h, deltayz, x, z)
if !tHatIsValid {
return false, errors.New("rangeproof verify tHat is invalid")
}
// Verify IPP
hPrime, err := gethPrime(proofH, y, verifier.curve)
if err != nil {
return false, errors.Wrap(err, "rangeproof verify")
}
capPhmu, err := getPhmu(proofG, hPrime, proofGenerators.h, proof.capA, proof.capS, x, y, z, proof.mu, n, verifier.curve)
if err != nil {
return false, errors.Wrap(err, "rangeproof verify")
}
ippVerified, err := verifier.ippVerifier.VerifyFromRangeProof(proofG, hPrime, capPhmu, proofGenerators.u.Mul(w), proof.tHat, proof.ipp, transcript)
if err != nil {
return false, errors.Wrap(err, "rangeproof verify")
}
return ippVerified, nil
}
// L65, pg20.
func (*RangeVerifier) checktHat(proof *RangeProof, capV, g, h curves.Point, deltayz, x, z curves.Scalar) bool {
// g^tHat * h^tau_x
gtHat := g.Mul(proof.tHat)
htaux := h.Mul(proof.taux)
lhs := gtHat.Add(htaux)
// V^z^2 * g^delta(y,z) * Tau_1^x * Tau_2^x^2
capVzsquare := capV.Mul(z.Square())
gdeltayz := g.Mul(deltayz)
capTau1x := proof.capT1.Mul(x)
capTau2xsquare := proof.capT2.Mul(x.Square())
rhs := capVzsquare.Add(gdeltayz).Add(capTau1x).Add(capTau2xsquare)
// Compare lhs =? rhs
return lhs.Equal(rhs)
}
// gethPrime calculates new h prime generators as defined in L64 on pg20.
func gethPrime(h []curves.Point, y curves.Scalar, curve curves.Curve) ([]curves.Point, error) {
hPrime := make([]curves.Point, len(h))
yInv, err := y.Invert()
yInvn := getknVector(yInv, len(h), curve)
if err != nil {
return nil, errors.Wrap(err, "gethPrime")
}
for i, hElem := range h {
hPrime[i] = hElem.Mul(yInvn[i])
}
return hPrime, nil
}
// Obtain P used for IPP verification
// See L67 on pg20
// Note P on L66 includes blinding factor hmu, this method removes that factor.
func getPhmu(proofG, proofHPrime []curves.Point, h, capA, capS curves.Point, x, y, z, mu curves.Scalar, n int, curve curves.Curve) (curves.Point, error) {
// h'^(z*y^n + z^2*2^n)
zyn := multiplyScalarToScalarVector(z, getknVector(y, n, curve))
zsquaretwon := multiplyScalarToScalarVector(z.Square(), get2nVector(n, curve))
elemLastExponent, err := addPairwiseScalarVectors(zyn, zsquaretwon)
if err != nil {
return nil, errors.Wrap(err, "getPhmu")
}
lastElem := curve.Point.SumOfProducts(proofHPrime, elemLastExponent)
// S^x
capSx := capS.Mul(x)
// g^-z --> -z*<1,g>
onen := get1nVector(n, curve)
zNeg := z.Neg()
zinvonen := multiplyScalarToScalarVector(zNeg, onen)
zgdotonen := curve.Point.SumOfProducts(proofG, zinvonen)
// L66 on pg20
P := capA.Add(capSx).Add(zgdotonen).Add(lastElem)
hmu := h.Mul(mu)
Phmu := P.Sub(hmu)
return Phmu, nil
}
// Delta function for delta(y,z), See (39) on pg18.
func deltayz(y, z curves.Scalar, n int, curve curves.Curve) (curves.Scalar, error) {
// z - z^2
zMinuszsquare := z.Sub(z.Square())
// 1^n
onen := get1nVector(n, curve)
// <1^n, y^n>
onendotyn, err := innerProduct(onen, getknVector(y, n, curve))
if err != nil {
return nil, errors.Wrap(err, "deltayz")
}
// (z - z^2)*<1^n, y^n>
termFirst := zMinuszsquare.Mul(onendotyn)
// <1^n, 2^n>
onendottwon, err := innerProduct(onen, get2nVector(n, curve))
if err != nil {
return nil, errors.Wrap(err, "deltayz")
}
// z^3*<1^n, 2^n>
termSecond := z.Cube().Mul(onendottwon)
// (z - z^2)*<1^n, y^n> - z^3*<1^n, 2^n>
out := termFirst.Sub(termSecond)
return out, nil
}
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