Esempio n. 1
0
libzcash::Note GetNote(const libzcash::SpendingKey& sk,
                       const CTransaction& tx, size_t js, size_t n) {
    ZCNoteDecryption decryptor {sk.viewing_key()};
    auto hSig = tx.vjoinsplit[js].h_sig(*params, tx.joinSplitPubKey);
    auto note_pt = libzcash::NotePlaintext::decrypt(
        decryptor,
        tx.vjoinsplit[js].ciphertexts[n],
        tx.vjoinsplit[js].ephemeralKey,
        hSig,
        (unsigned char) n);
    return note_pt.note(sk.address());
}
Esempio n. 2
0
CWalletTx GetValidReceive(ZCJoinSplit& params,
                          const libzcash::SpendingKey& sk, CAmount value,
                          bool randomInputs) {
    CMutableTransaction mtx;
    mtx.nVersion = 2; // Enable JoinSplits
    mtx.vin.resize(2);
    if (randomInputs) {
        mtx.vin[0].prevout.hash = GetRandHash();
        mtx.vin[1].prevout.hash = GetRandHash();
    } else {
        mtx.vin[0].prevout.hash = uint256S("0000000000000000000000000000000000000000000000000000000000000001");
        mtx.vin[1].prevout.hash = uint256S("0000000000000000000000000000000000000000000000000000000000000002");
    }
    mtx.vin[0].prevout.n = 0;
    mtx.vin[1].prevout.n = 0;

    // Generate an ephemeral keypair.
    uint256 joinSplitPubKey;
    unsigned char joinSplitPrivKey[crypto_sign_SECRETKEYBYTES];
    crypto_sign_keypair(joinSplitPubKey.begin(), joinSplitPrivKey);
    mtx.joinSplitPubKey = joinSplitPubKey;

    boost::array<libzcash::JSInput, 2> inputs = {
        libzcash::JSInput(), // dummy input
        libzcash::JSInput() // dummy input
    };

    boost::array<libzcash::JSOutput, 2> outputs = {
        libzcash::JSOutput(sk.address(), value),
        libzcash::JSOutput(sk.address(), value)
    };

    boost::array<libzcash::Note, 2> output_notes;

    // Prepare JoinSplits
    uint256 rt;
    JSDescription jsdesc {params, mtx.joinSplitPubKey, rt,
                          inputs, outputs, 2*value, 0, false};
    mtx.vjoinsplit.push_back(jsdesc);

    // Empty output script.
    CScript scriptCode;
    CTransaction signTx(mtx);
    uint256 dataToBeSigned = SignatureHash(scriptCode, signTx, NOT_AN_INPUT, SIGHASH_ALL);

    // Add the signature
    assert(crypto_sign_detached(&mtx.joinSplitSig[0], NULL,
                                dataToBeSigned.begin(), 32,
                                joinSplitPrivKey
                               ) == 0);

    CTransaction tx {mtx};
    CWalletTx wtx {NULL, tx};
    return wtx;
}
Esempio n. 3
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static bool DecryptSpendingKey(const CKeyingMaterial& vMasterKey,
                               const std::vector<unsigned char>& vchCryptedSecret,
                               const libzcash::PaymentAddress& address,
                               libzcash::SpendingKey& sk)
{
    CKeyingMaterial vchSecret;
    if(!DecryptSecret(vMasterKey, vchCryptedSecret, address.GetHash(), vchSecret))
        return false;

    if (vchSecret.size() != libzcash::SerializedSpendingKeySize)
        return false;

    CSecureDataStream ss(vchSecret, SER_NETWORK, PROTOCOL_VERSION);
    ss >> sk;
    return sk.address() == address;
}
Esempio n. 4
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bool IsValidSpendingKey(const libzcash::SpendingKey& zkey) {
    return zkey.which() != 0;
}