@ -99,13 +99,15 @@ func GenerateTrustedSetup(witnessLength int, circuit circuitcompiler.Circuit, al
for i := 0 ; i < len ( alphas ) ; i ++ {
for i := 0 ; i < len ( alphas ) ; i ++ {
for j := 0 ; j < len ( alphas [ i ] ) ; j ++ {
for j := 0 ; j < len ( alphas [ i ] ) ; j ++ {
if j <= circuit . NPublic {
if j <= circuit . NPublic {
if bytes . Equal ( alphas [ i ] [ j ] . Bytes ( ) , Utils . Bn . Fq1 . Zero ( ) . Bytes ( ) ) {
alphas [ i ] [ j ] = Utils . Bn . Fq1 . One ( )
if bytes . Equal ( alphas [ i ] [ j ] . Bytes ( ) , Utils . FqR . Zero ( ) . Bytes ( ) ) {
alphas [ i ] [ j ] = Utils . FqR . One ( )
}
}
}
}
}
}
}
}
fmt . Println ( "alphas[1]" , alphas [ 1 ] )
// generate random t value
// generate random t value
setup . Toxic . T , err = Utils . FqR . Rand ( )
setup . Toxic . T , err = Utils . FqR . Rand ( )
if err != nil {
if err != nil {
@ -176,7 +178,8 @@ func GenerateTrustedSetup(witnessLength int, circuit circuitcompiler.Circuit, al
// for i := 0; i < circuit.NVars; i++ {
// for i := 0; i < circuit.NVars; i++ {
for i := 0 ; i < len ( circuit . Signals ) ; i ++ {
for i := 0 ; i < len ( circuit . Signals ) ; i ++ {
at := Utils . PF . Eval ( alphas [ i ] , setup . Toxic . T )
at := Utils . PF . Eval ( alphas [ i ] , setup . Toxic . T )
rhoAat := Utils . Bn . Fq1 . Mul ( setup . Toxic . RhoA , at )
// rhoAat := Utils.Bn.Fq1.Mul(setup.Toxic.RhoA, at)
rhoAat := Utils . FqR . Mul ( setup . Toxic . RhoA , at )
a := Utils . Bn . G1 . MulScalar ( Utils . Bn . G1 . G , rhoAat )
a := Utils . Bn . G1 . MulScalar ( Utils . Bn . G1 . G , rhoAat )
setup . Pk . A = append ( setup . Pk . A , a )
setup . Pk . A = append ( setup . Pk . A , a )
if i <= circuit . NPublic {
if i <= circuit . NPublic {
@ -184,13 +187,15 @@ func GenerateTrustedSetup(witnessLength int, circuit circuitcompiler.Circuit, al
}
}
bt := Utils . PF . Eval ( betas [ i ] , setup . Toxic . T )
bt := Utils . PF . Eval ( betas [ i ] , setup . Toxic . T )
rhoBbt := Utils . Bn . Fq1 . Mul ( setup . Toxic . RhoB , bt )
// rhoBbt := Utils.Bn.Fq1.Mul(setup.Toxic.RhoB, bt)
rhoBbt := Utils . FqR . Mul ( setup . Toxic . RhoB , bt )
bg1 := Utils . Bn . G1 . MulScalar ( Utils . Bn . G1 . G , rhoBbt )
bg1 := Utils . Bn . G1 . MulScalar ( Utils . Bn . G1 . G , rhoBbt )
bg2 := Utils . Bn . G2 . MulScalar ( Utils . Bn . G2 . G , rhoBbt )
bg2 := Utils . Bn . G2 . MulScalar ( Utils . Bn . G2 . G , rhoBbt )
setup . Pk . B = append ( setup . Pk . B , bg2 )
setup . Pk . B = append ( setup . Pk . B , bg2 )
ct := Utils . PF . Eval ( gammas [ i ] , setup . Toxic . T )
ct := Utils . PF . Eval ( gammas [ i ] , setup . Toxic . T )
rhoCct := Utils . Bn . Fq1 . Mul ( setup . Toxic . RhoC , ct )
// rhoCct := Utils.Bn.Fq1.Mul(setup.Toxic.RhoC, ct)
rhoCct := Utils . FqR . Mul ( setup . Toxic . RhoC , ct )
c := Utils . Bn . G1 . MulScalar ( Utils . Bn . G1 . G , rhoCct )
c := Utils . Bn . G1 . MulScalar ( Utils . Bn . G1 . G , rhoCct )
setup . Pk . C = append ( setup . Pk . C , c )
setup . Pk . C = append ( setup . Pk . C , c )
@ -212,8 +217,7 @@ func GenerateTrustedSetup(witnessLength int, circuit circuitcompiler.Circuit, al
// z pol
// z pol
zpol := [ ] * big . Int { big . NewInt ( int64 ( 1 ) ) }
zpol := [ ] * big . Int { big . NewInt ( int64 ( 1 ) ) }
// for i := 1; i < len(circuit.Constraints); i++ {
for i := 1 ; i <= circuit . NPublic ; i ++ { // circuit.NPublic == d
for i := 1 ; i < len ( circuit . Constraints ) ; i ++ {
zpol = Utils . PF . Mul (
zpol = Utils . PF . Mul (
zpol ,
zpol ,
[ ] * big . Int {
[ ] * big . Int {
@ -222,10 +226,12 @@ func GenerateTrustedSetup(witnessLength int, circuit circuitcompiler.Circuit, al
big . NewInt ( int64 ( 1 ) ) ,
big . NewInt ( int64 ( 1 ) ) ,
} )
} )
}
}
fmt . Println ( "zpol" , zpol )
setup . Pk . Z = zpol
setup . Pk . Z = zpol
zt := Utils . PF . Eval ( zpol , setup . Toxic . T )
zt := Utils . PF . Eval ( zpol , setup . Toxic . T )
rhoCzt := Utils . Bn . Fq1 . Mul ( setup . Toxic . RhoC , zt )
// rhoCzt := Utils.Bn.Fq1.Mul(setup.Toxic.RhoC, zt)
rhoCzt := Utils . FqR . Mul ( setup . Toxic . RhoC , zt )
setup . Vk . Vkz = Utils . Bn . G2 . MulScalar ( Utils . Bn . G2 . G , rhoCzt )
setup . Vk . Vkz = Utils . Bn . G2 . MulScalar ( Utils . Bn . G2 . G , rhoCzt )
// encrypt t values with curve generators
// encrypt t values with curve generators
@ -234,7 +240,8 @@ func GenerateTrustedSetup(witnessLength int, circuit circuitcompiler.Circuit, al
tEncr := setup . Toxic . T
tEncr := setup . Toxic . T
for i := 1 ; i < len ( zpol ) ; i ++ { //should be G1T = pkH = (tau**i * G1) from i=0 to d, where d is degree of pol Z(x)
for i := 1 ; i < len ( zpol ) ; i ++ { //should be G1T = pkH = (tau**i * G1) from i=0 to d, where d is degree of pol Z(x)
gt1 = append ( gt1 , Utils . Bn . G1 . MulScalar ( Utils . Bn . G1 . G , tEncr ) )
gt1 = append ( gt1 , Utils . Bn . G1 . MulScalar ( Utils . Bn . G1 . G , tEncr ) )
tEncr = Utils . Bn . Fq1 . Mul ( tEncr , setup . Toxic . T )
// tEncr = Utils.Bn.Fq1.Mul(tEncr, setup.Toxic.T)
tEncr = Utils . FqR . Mul ( tEncr , setup . Toxic . T )
}
}
fmt . Println ( "len(G1T)" , len ( gt1 ) )
fmt . Println ( "len(G1T)" , len ( gt1 ) )
setup . G1T = gt1
setup . G1T = gt1
@ -272,8 +279,8 @@ func GenerateProofs(circuit circuitcompiler.Circuit, setup Setup, w []*big.Int,
hx := Utils . PF . DivisorPolynomial ( px , setup . Pk . Z ) // maybe move this calculation to a previous step
hx := Utils . PF . DivisorPolynomial ( px , setup . Pk . Z ) // maybe move this calculation to a previous step
// piH = pkH,0 + sum ( hi * pk H,i ), where pkH = G1T, hi=hx
// piH = pkH,0 + sum ( hi * pk H,i ), where pkH = G1T, hi=hx
proof . PiH = Utils . Bn . G1 . Add ( proof . PiH , setup . G1T [ 0 ] )
for i := 1 ; i < len ( setup . Pk . Z ) ; i ++ {
// proof.PiH = Utils.Bn.G1.Add(proof.PiH, setup.G1T[0])
for i := 0 ; i < len ( hx ) ; i ++ {
proof . PiH = Utils . Bn . G1 . Add ( proof . PiH , Utils . Bn . G1 . MulScalar ( setup . G1T [ i ] , hx [ i ] ) )
proof . PiH = Utils . Bn . G1 . Add ( proof . PiH , Utils . Bn . G1 . MulScalar ( setup . G1T [ i ] , hx [ i ] ) )
}
}