}
if (!R.IsValid()) {
- throw key_error("CMalleableKey::CheckKeyVariant() : R is invalid");
+ printf("CMalleableKey::CheckKeyVariant() : R is invalid");
+ return false;
}
if (!vchPubKeyVariant.IsValid()) {
- throw key_error("CMalleableKey::CheckKeyVariant() : public key variant is invalid");
+ printf("CMalleableKey::CheckKeyVariant() : public key variant is invalid");
+ return false;
}
CPoint point_R;
if (!point_R.setPubKey(R)) {
- throw key_error("CMalleableKey::CheckKeyVariant() : Unable to decode R value");
+ printf("CMalleableKey::CheckKeyVariant() : Unable to decode R value");
+ return false;
}
CKey H(vchSecretH);
CPoint point_H;
if (!point_H.setPubKey(vchPubKeyH)) {
- throw key_error("CMalleableKey::CheckKeyVariant() : Unable to decode H value");
+ printf("CMalleableKey::CheckKeyVariant() : Unable to decode H value");
+ return false;
}
CPoint point_P;
if (!point_P.setPubKey(vchPubKeyVariant)) {
- throw key_error("CMalleableKey::CheckKeyVariant() : Unable to decode P value");
+ printf("CMalleableKey::CheckKeyVariant() : Unable to decode P value");
+ return false;
}
// Infinity points are senseless
if (point_P.IsInfinity()) {
- throw key_error("CMalleableKey::CheckKeyVariant() : P is infinity");
+ printf("CMalleableKey::CheckKeyVariant() : P is infinity");
+ return false;
}
CBigNum bnl;
std::vector<unsigned char> vchRl;
if (!point_R.getBytes(vchRl)) {
- throw key_error("CMalleableKey::CheckKeyVariant() : Unable to convert Rl value");
+ printf("CMalleableKey::CheckKeyVariant() : Unable to convert Rl value");
+ return false;
}
// Calculate Hash(R*l)
// Infinity points are senseless
if (point_Ps.IsInfinity()) {
- throw key_error("CMalleableKey::CheckKeyVariant() : Ps is infinity");
+ printf("CMalleableKey::CheckKeyVariant() : Ps is infinity");
+ return false;
}
// Check ownership
}
if (!R.IsValid()) {
- throw key_error("CMalleableKey::CheckKeyVariant() : R is invalid");
+ printf("CMalleableKey::CheckKeyVariant() : R is invalid");
+ return false;
}
if (!vchPubKeyVariant.IsValid()) {
- throw key_error("CMalleableKey::CheckKeyVariant() : public key variant is invalid");
+ printf("CMalleableKey::CheckKeyVariant() : public key variant is invalid");
+ return false;
}
CPoint point_R;
if (!point_R.setPubKey(R)) {
- throw key_error("CMalleableKey::CheckKeyVariant() : Unable to decode R value");
+ printf("CMalleableKey::CheckKeyVariant() : Unable to decode R value");
+ return false;
}
CKey H(vchSecretH);
CPoint point_H;
if (!point_H.setPubKey(vchPubKeyH)) {
- throw key_error("CMalleableKey::CheckKeyVariant() : Unable to decode H value");
+ printf("CMalleableKey::CheckKeyVariant() : Unable to decode H value");
+ return false;
}
CPoint point_P;
if (!point_P.setPubKey(vchPubKeyVariant)) {
- throw key_error("CMalleableKey::CheckKeyVariant() : Unable to decode P value");
+ printf("CMalleableKey::CheckKeyVariant() : Unable to decode P value");
+ return false;
}
// Infinity points are senseless
if (point_P.IsInfinity()) {
- throw key_error("CMalleableKey::CheckKeyVariant() : P is infinity");
+ printf("CMalleableKey::CheckKeyVariant() : P is infinity");
+ return false;
}
CBigNum bnl;
std::vector<unsigned char> vchRl;
if (!point_R.getBytes(vchRl)) {
- throw key_error("CMalleableKey::CheckKeyVariant() : Unable to convert Rl value");
+ printf("CMalleableKey::CheckKeyVariant() : Unable to convert Rl value");
+ return false;
}
// Calculate Hash(R*l)
// Infinity points are senseless
if (point_Ps.IsInfinity()) {
- throw key_error("CMalleableKey::CheckKeyVariant() : Ps is infinity");
+ printf("CMalleableKey::CheckKeyVariant() : Ps is infinity");
+ return false;
}
// Check ownership
// Check ownership
bool CMalleableKeyView::CheckKeyVariant(const CPubKey &R, const CPubKey &vchPubKeyVariant) const
{
+ if (!IsValid()) {
+ throw key_error("CMalleableKeyView::CheckKeyVariant() : Attempting to run on invalid view object.");
+ }
+
if (!R.IsValid()) {
- throw key_error("CMalleableKeyView::CheckKeyVariant() : R is invalid");
+ printf("CMalleableKeyView::CheckKeyVariant() : R is invalid");
+ return false;
}
if (!vchPubKeyVariant.IsValid()) {
- throw key_error("CMalleableKeyView::CheckKeyVariant() : public key variant is invalid");
+ printf("CMalleableKeyView::CheckKeyVariant() : public key variant is invalid");
+ return false;
}
CPoint point_R;
if (!point_R.setPubKey(R)) {
- throw key_error("CMalleableKeyView::CheckKeyVariant() : Unable to decode R value");
+ printf("CMalleableKeyView::CheckKeyVariant() : Unable to decode R value");
+ return false;
}
CPoint point_H;
if (!point_H.setPubKey(vchPubKeyH)) {
- throw key_error("CMalleableKeyView::CheckKeyVariant() : Unable to decode H value");
+ printf("CMalleableKeyView::CheckKeyVariant() : Unable to decode H value");
+ return false;
}
CPoint point_P;
if (!point_P.setPubKey(vchPubKeyVariant)) {
- throw key_error("CMalleableKeyView::CheckKeyVariant() : Unable to decode P value");
+ printf("CMalleableKeyView::CheckKeyVariant() : Unable to decode P value");
+ return false;
}
// Infinity points are senseless
if (point_P.IsInfinity()) {
- throw key_error("CMalleableKeyView::CheckKeyVariant() : P is infinity");
+ printf("CMalleableKeyView::CheckKeyVariant() : P is infinity");
+ return false;
}
CBigNum bnl;
std::vector<unsigned char> vchRl;
if (!point_R.getBytes(vchRl)) {
- throw key_error("CMalleableKeyView::CheckKeyVariant() : Unable to convert Rl value");
+ printf("CMalleableKeyView::CheckKeyVariant() : Unable to convert Rl value");
+ return false;
}
// Calculate Hash(R*l)
// Infinity points are senseless
if (point_Ps.IsInfinity()) {
- throw key_error("CMalleableKeyView::CheckKeyVariant() : Ps is infinity");
+ printf("CMalleableKeyView::CheckKeyVariant() : Ps is infinity");
+ return false;
}
// Check ownership