void SerializedValidation::sign (uint256& signingHash, const RippleAddress& raPriv) { setFlag (vfFullyCanonicalSig); signingHash = getSigningHash (); Blob signature; raPriv.sign (signingHash, signature); setFieldVL (sfSignature, signature); }
void run() { testBase58(RippleAddress::VER_NODE_PUBLIC, 'n'); testBase58(RippleAddress::VER_NODE_PRIVATE, 'h'); testBase58(RippleAddress::VER_ACCOUNT_PUBLIC, 'p'); testBase58(RippleAddress::VER_ACCOUNT_PRIVATE, 'h'); testBase58(RippleAddress::VER_SEED, 's'); // check pass phrase std::string strPass("paysharesmaster"); std::string strBase58Seed("s3q5ZGX2ScQK2rJ4JATp7rND6X5npG3De8jMbB7tuvm2HAVHcCN"); std::string strBase58NodePublic("nfbbWHgJqzqfH1cfRpMdPRkJ19cxTsdHkBtz1SLJJQfyf9Ax6vd"); std::string strBase58AccountPublic("pGreoXKYybde1keKZwDCv8m5V1kT6JH37pgnTUVzdMkdygTixG8"); AccountPrivateKey accountPrivateKey; NodePrivateKey nodePrivateKey; accountPrivateKey.fromPassPhrase(strPass); nodePrivateKey.fromPassPhrase(strPass); expect(accountPrivateKey.base58Seed() == "s3q5ZGX2ScQK2rJ4JATp7rND6X5npG3De8jMbB7tuvm2HAVHcCN", accountPrivateKey.base58Seed()); expect(accountPrivateKey.base58AccountID() == "ganVp9o5emfzpwrG5QVUXqMv8AgLcdvySb", accountPrivateKey.base58AccountID()); expect(accountPrivateKey.base58PublicKey() == strBase58AccountPublic, accountPrivateKey.base58PublicKey()); expect(nodePrivateKey.base58PublicKey() == strBase58NodePublic, nodePrivateKey.base58PublicKey()); Blob sig; uint256 message; accountPrivateKey.sign(message, sig); PaysharesPublicKey publicKey(accountPrivateKey.getPublicKey(), RippleAddress::VER_NODE_PUBLIC); expect(publicKey.verifySignature(message, sig), "Signature didn't verify"); expect(publicKey.getAccountID() == accountPrivateKey.getAccountID(), "Account Id's mis match"); expect(publicKey.base58AccountID() == accountPrivateKey.base58AccountID(), "Account Id's mis match"); Blob nonCanonicalSig(sig); add_l(nonCanonicalSig.data() + 32); expect(sig != nonCanonicalSig, "Non-canonical signature equal to canonical signature"); expect(crypto_sign_verify_detached(nonCanonicalSig.data(), message.data(), message.bytes, publicKey.vchData.data()) == 0, "Non-canonical signature didn't verify (ignoring canonical-ness)"); expect(!publicKey.verifySignature(message, nonCanonicalSig), "Non-canonical signature verified"); AccountPrivateKey privateKey2; privateKey2.fromString(strBase58Seed); // key from base58seed expect(privateKey2.base58Seed() == "s3q5ZGX2ScQK2rJ4JATp7rND6X5npG3De8jMbB7tuvm2HAVHcCN", privateKey2.base58Seed()); expect(privateKey2.base58AccountID() == "ganVp9o5emfzpwrG5QVUXqMv8AgLcdvySb", privateKey2.base58AccountID()); expect(privateKey2.base58PublicKey() == strBase58AccountPublic, privateKey2.base58PublicKey()); privateKey2.sign(message, sig); expect(publicKey.verifySignature(message, sig), "Signature didn't verify"); // check with the previous pubkey // check random /// ======= OLD ==== // Construct a seed. RippleAddress naSeed; expect(naSeed.setSeedGeneric("masterpassphrase")); expect(naSeed.humanSeed() == "s3q5ZGX2ScQK2rJ4JATp7rND6X5npG3De8jMbB7tuvm2HAVHcCN", naSeed.humanSeed()); // Create node public/private key pair RippleAddress naNodePublic = RippleAddress::createNodePublic(naSeed); expect(naNodePublic.verifySignature(message, sig), "Signature didn't verify"); expect(naNodePublic.humanNodePublic() == strBase58NodePublic, naNodePublic.humanNodePublic()); naNodePublic.setNodePublic(strBase58NodePublic); expect(naNodePublic.verifySignature(message, sig), "Signature didn't verify"); expect(naNodePublic.humanNodePublic() == strBase58NodePublic, naNodePublic.humanNodePublic()); RippleAddress naAccountPublic = RippleAddress::createAccountPublic(naSeed); expect(naAccountPublic.humanAccountID() == "ganVp9o5emfzpwrG5QVUXqMv8AgLcdvySb", naAccountPublic.humanAccountID()); expect(naAccountPublic.verifySignature(message, sig), "Signature didn't verify"); expect(naAccountPublic.humanAccountPublic() == strBase58AccountPublic, naAccountPublic.humanAccountPublic()); naAccountPublic.setAccountPublic(strBase58AccountPublic); expect(naAccountPublic.humanAccountID() == "ganVp9o5emfzpwrG5QVUXqMv8AgLcdvySb", naAccountPublic.humanAccountID()); expect(naAccountPublic.verifySignature(message, sig), "Signature didn't verify"); expect(naAccountPublic.humanAccountPublic() == strBase58AccountPublic, naAccountPublic.humanAccountPublic()); Blob rippleSig; RippleAddress naAccountPrivate = RippleAddress::createAccountPrivate(naSeed); naAccountPrivate.sign(message, rippleSig); expect(rippleSig==sig, "Signature don't match"); RippleAddress naNodePrivate = RippleAddress::createNodePrivate(naSeed); naNodePrivate.sign(message, rippleSig); expect(rippleSig == sig, "Signature don't match"); std::string strPrivateKey("ssQMHypYAPSPgniSyvJQccuL1dJUbXJWVgAPV5QcAuBVEWsZTVQwffsnwTY6Mivoy3NRSVR28ZaCW74F67VSq4VRC4zY1XR"); expect(naNodePrivate.humanNodePrivate() == strPrivateKey, naNodePrivate.humanNodePrivate()); expect(naNodePrivate.setNodePrivate(strPrivateKey),"couldn't create private node"); expect(naNodePrivate.humanNodePrivate() == strPrivateKey, naNodePrivate.humanNodePrivate()); naNodePrivate.sign(message, rippleSig); expect(rippleSig == sig, "Signature don't match"); /* RippleAddress naNodePrivate = RippleAddress::createNodePrivate(naSeed); expect(naNodePrivate.humanNodePrivate() == "pnen77YEeUd4fFKG7iycBWcwKpTaeFRkW2WFostaATy1DSupwXe", naNodePrivate.humanNodePrivate()); // Check node signing. Blob vucTextSrc = strCopy("Hello, nurse!"); uint256 uHash = Serializer::getSHA512Half(vucTextSrc); Blob vucTextSig; naNodePrivate.signNodePrivate(uHash, vucTextSig); expect(naNodePublic.verifyNodePublic(uHash, vucTextSig, ECDSA::strict), "Verify failed."); */ }