Example #1
0
// Build a ledger from consensus transactions
std::shared_ptr<Ledger>
buildLedger(
    std::shared_ptr<Ledger const> const& parent,
    NetClock::time_point closeTime,
    const bool closeTimeCorrect,
    NetClock::duration closeResolution,
    SHAMap const& txs,
    Application& app,
    CanonicalTXSet& retriableTxs,
    beast::Journal j)
{
    JLOG(j.debug()) << "Report: TxSt = " << txs.getHash().as_uint256()
                    << ", close " << closeTime.time_since_epoch().count()
                    << (closeTimeCorrect ? "" : " (incorrect)");

    return buildLedgerImpl(
        parent,
        closeTime,
        closeTimeCorrect,
        closeResolution,
        app,
        j,
        [&](OpenView& accum, std::shared_ptr<Ledger> const& buildLCL) {
            retriableTxs = applyTransactions(app, txs, accum, buildLCL, j);
        });
}
Example #2
0
NetClock::time_point
roundCloseTime (
    NetClock::time_point closeTime,
    NetClock::duration closeResolution)
{
    if (closeTime == NetClock::time_point{})
        return closeTime;

    closeTime += (closeResolution / 2);
    return closeTime - (closeTime.time_since_epoch() % closeResolution);
}
Example #3
0
STValidation::STValidation(
    uint256 const& ledgerHash,
    std::uint32_t ledgerSeq,
    uint256 const& consensusHash,
    NetClock::time_point signTime,
    PublicKey const& publicKey,
    SecretKey const& secretKey,
    NodeID const& nodeID,
    bool isFull,
    FeeSettings const& fees,
    std::vector<uint256> const& amendments)
    : STObject(getFormat(), sfValidation), mNodeID(nodeID), mSeen(signTime)
{
    // This is our own public key and it should always be valid.
    if (!publicKeyType(publicKey))
        LogicError("Invalid validation public key");
    assert(mNodeID.isNonZero());
    setFieldH256(sfLedgerHash, ledgerHash);
    setFieldH256(sfConsensusHash, consensusHash);
    setFieldU32(sfSigningTime, signTime.time_since_epoch().count());

    setFieldVL(sfSigningPubKey, publicKey.slice());
    if (isFull)
        setFlag(kFullFlag);

    setFieldU32(sfLedgerSequence, ledgerSeq);

    if (fees.loadFee)
        setFieldU32(sfLoadFee, *fees.loadFee);

    if (fees.baseFee)
        setFieldU64(sfBaseFee, *fees.baseFee);

    if (fees.reserveBase)
        setFieldU32(sfReserveBase, *fees.reserveBase);

    if (fees.reserveIncrement)
        setFieldU32(sfReserveIncrement, *fees.reserveIncrement);

    if (!amendments.empty())
        setFieldV256(sfAmendments, STVector256(sfAmendments, amendments));

    setFlag(vfFullyCanonicalSig);

    auto const signingHash = getSigningHash();
    setFieldVL(
        sfSignature, signDigest(getSignerPublic(), secretKey, signingHash));

    setTrusted();
}
uint256 proposalUniqueId (
    uint256 const& proposeHash,
    uint256 const& previousLedger,
    std::uint32_t proposeSeq,
    NetClock::time_point closeTime,
    Blob const& pubKey,
    Blob const& signature)
{

    Serializer s (512);
    s.add256 (proposeHash);
    s.add256 (previousLedger);
    s.add32 (proposeSeq);
    s.add32 (closeTime.time_since_epoch().count());
    s.addVL (pubKey);
    s.addVL (signature);

    return s.getSHA512Half ();
}
Example #5
0
STValidation::STValidation (
        uint256 const& ledgerHash,
        NetClock::time_point signTime,
        PublicKey const& publicKey,
        bool isFull)
    : STObject (getFormat (), sfValidation)
    , mSeen (signTime)
{
    // Does not sign
    setFieldH256 (sfLedgerHash, ledgerHash);
    setFieldU32 (sfSigningTime, signTime.time_since_epoch().count());

    setFieldVL (sfSigningPubKey, publicKey.slice());
    mNodeID = calcNodeID(publicKey);
    assert (mNodeID.isNonZero ());

    if (isFull)
        setFlag (kFullFlag);
}
Example #6
0
std::string
to_string(NetClock::time_point tp)
{
    using namespace std::chrono;
    return to_string(system_clock::time_point{tp.time_since_epoch() + 946684800s});
}