Beispiel #1
0
TER TrustSetTransactor::doApply ()
{
    TER         terResult       = tesSUCCESS;
    WriteLog (lsINFO, TrustSetTransactor) << "doTrustSet>";

    const STAmount      saLimitAmount   = mTxn.getFieldAmount (sfLimitAmount);
    const bool          bQualityIn      = mTxn.isFieldPresent (sfQualityIn);
    const bool          bQualityOut     = mTxn.isFieldPresent (sfQualityOut);
    const uint160       uCurrencyID     = saLimitAmount.getCurrency ();
    uint160             uDstAccountID   = saLimitAmount.getIssuer ();
    const bool          bHigh           = mTxnAccountID > uDstAccountID;        // true, iff current is high account.

    uint32              uQualityIn      = bQualityIn ? mTxn.getFieldU32 (sfQualityIn) : 0;
    uint32              uQualityOut     = bQualityOut ? mTxn.getFieldU32 (sfQualityOut) : 0;

    if (!saLimitAmount.isLegalNet ())
        return temBAD_AMOUNT;

    if (bQualityIn && QUALITY_ONE == uQualityIn)
        uQualityIn  = 0;

    if (bQualityOut && QUALITY_ONE == uQualityOut)
        uQualityOut = 0;

    const uint32        uTxFlags        = mTxn.getFlags ();

    if (uTxFlags & tfTrustSetMask)
    {
        WriteLog (lsINFO, TrustSetTransactor) << "doTrustSet: Malformed transaction: Invalid flags set.";

        return temINVALID_FLAG;
    }

    const bool          bSetAuth        = isSetBit (uTxFlags, tfSetfAuth);
    const bool          bSetNoRipple    = isSetBit (uTxFlags, tfSetNoRipple);
    const bool          bClearNoRipple  = isSetBit (uTxFlags, tfClearNoRipple);

    if (bSetAuth && !isSetBit (mTxnAccount->getFieldU32 (sfFlags), lsfRequireAuth))
    {
        WriteLog (lsINFO, TrustSetTransactor) << "doTrustSet: Retry: Auth not required.";

        return tefNO_AUTH_REQUIRED;
    }

    if (saLimitAmount.isNative ())
    {
        WriteLog (lsINFO, TrustSetTransactor) << boost::str (boost::format ("doTrustSet: Malformed transaction: Native credit limit: %s")
                                              % saLimitAmount.getFullText ());

        return temBAD_LIMIT;
    }

    if (saLimitAmount.isNegative ())
    {
        WriteLog (lsINFO, TrustSetTransactor) << "doTrustSet: Malformed transaction: Negative credit limit.";

        return temBAD_LIMIT;
    }

    // Check if destination makes sense.
    if (!uDstAccountID || uDstAccountID == ACCOUNT_ONE)
    {
        WriteLog (lsINFO, TrustSetTransactor) << "doTrustSet: Malformed transaction: Destination account not specified.";

        return temDST_NEEDED;
    }

    if (mTxnAccountID == uDstAccountID)
    {
        SLE::pointer        selDelete   = mEngine->entryCache (ltRIPPLE_STATE, Ledger::getRippleStateIndex (mTxnAccountID, uDstAccountID, uCurrencyID));

        if (selDelete)
        {
            WriteLog (lsWARNING, TrustSetTransactor) << "doTrustSet: Clearing redundant line.";

            return mEngine->getNodes ().trustDelete (selDelete, mTxnAccountID, uDstAccountID);
        }
        else
        {
            WriteLog (lsINFO, TrustSetTransactor) << "doTrustSet: Malformed transaction: Can not extend credit to self.";

            return temDST_IS_SRC;
        }
    }

    SLE::pointer        sleDst          = mEngine->entryCache (ltACCOUNT_ROOT, Ledger::getAccountRootIndex (uDstAccountID));

    if (!sleDst)
    {
        WriteLog (lsINFO, TrustSetTransactor) << "doTrustSet: Delay transaction: Destination account does not exist.";

        return tecNO_DST;
    }

    const uint32        uOwnerCount     = mTxnAccount->getFieldU32 (sfOwnerCount);
    // The reserve required to create the line.
    const uint64        uReserveCreate  = (uOwnerCount < 2) ? 0 : mEngine->getLedger ()->getReserve (uOwnerCount + 1);

    STAmount            saLimitAllow    = saLimitAmount;
    saLimitAllow.setIssuer (mTxnAccountID);

    SLE::pointer        sleRippleState  = mEngine->entryCache (ltRIPPLE_STATE, Ledger::getRippleStateIndex (mTxnAccountID, uDstAccountID, uCurrencyID));

    if (sleRippleState)
    {
        STAmount        saLowBalance;
        STAmount        saLowLimit;
        STAmount        saHighBalance;
        STAmount        saHighLimit;
        uint32          uLowQualityIn;
        uint32          uLowQualityOut;
        uint32          uHighQualityIn;
        uint32          uHighQualityOut;
        const uint160&  uLowAccountID   = !bHigh ? mTxnAccountID : uDstAccountID;
        const uint160&  uHighAccountID  =  bHigh ? mTxnAccountID : uDstAccountID;
        SLE::ref        sleLowAccount   = !bHigh ? mTxnAccount : sleDst;
        SLE::ref        sleHighAccount  =  bHigh ? mTxnAccount : sleDst;

        //
        // Balances
        //

        saLowBalance    = sleRippleState->getFieldAmount (sfBalance);
        saHighBalance   = -saLowBalance;

        //
        // Limits
        //

        sleRippleState->setFieldAmount (!bHigh ? sfLowLimit : sfHighLimit, saLimitAllow);

        saLowLimit  = !bHigh ? saLimitAllow : sleRippleState->getFieldAmount (sfLowLimit);
        saHighLimit =  bHigh ? saLimitAllow : sleRippleState->getFieldAmount (sfHighLimit);

        //
        // Quality in
        //

        if (!bQualityIn)
        {
            // Not setting. Just get it.

            uLowQualityIn   = sleRippleState->getFieldU32 (sfLowQualityIn);
            uHighQualityIn  = sleRippleState->getFieldU32 (sfHighQualityIn);
        }
        else if (uQualityIn)
        {
            // Setting.

            sleRippleState->setFieldU32 (!bHigh ? sfLowQualityIn : sfHighQualityIn, uQualityIn);

            uLowQualityIn   = !bHigh ? uQualityIn : sleRippleState->getFieldU32 (sfLowQualityIn);
            uHighQualityIn  =  bHigh ? uQualityIn : sleRippleState->getFieldU32 (sfHighQualityIn);
        }
        else
        {
            // Clearing.

            sleRippleState->makeFieldAbsent (!bHigh ? sfLowQualityIn : sfHighQualityIn);

            uLowQualityIn   = !bHigh ? 0 : sleRippleState->getFieldU32 (sfLowQualityIn);
            uHighQualityIn  =  bHigh ? 0 : sleRippleState->getFieldU32 (sfHighQualityIn);
        }

        if (QUALITY_ONE == uLowQualityIn)   uLowQualityIn   = 0;

        if (QUALITY_ONE == uHighQualityIn)  uHighQualityIn  = 0;

        //
        // Quality out
        //

        if (!bQualityOut)
        {
            // Not setting. Just get it.

            uLowQualityOut  = sleRippleState->getFieldU32 (sfLowQualityOut);
            uHighQualityOut = sleRippleState->getFieldU32 (sfHighQualityOut);
        }
        else if (uQualityOut)
        {
            // Setting.

            sleRippleState->setFieldU32 (!bHigh ? sfLowQualityOut : sfHighQualityOut, uQualityOut);

            uLowQualityOut  = !bHigh ? uQualityOut : sleRippleState->getFieldU32 (sfLowQualityOut);
            uHighQualityOut =  bHigh ? uQualityOut : sleRippleState->getFieldU32 (sfHighQualityOut);
        }
        else
        {
            // Clearing.

            sleRippleState->makeFieldAbsent (!bHigh ? sfLowQualityOut : sfHighQualityOut);

            uLowQualityOut  = !bHigh ? 0 : sleRippleState->getFieldU32 (sfLowQualityOut);
            uHighQualityOut =  bHigh ? 0 : sleRippleState->getFieldU32 (sfHighQualityOut);
        }

        const uint32    uFlagsIn        = sleRippleState->getFieldU32 (sfFlags);
        uint32          uFlagsOut       = uFlagsIn;

        if (bSetNoRipple && !bClearNoRipple && (bHigh ? saHighBalance : saLowBalance).isGEZero())
        {
            uFlagsOut           |= (bHigh ? lsfHighNoRipple : lsfLowNoRipple);
        }
        else if (bClearNoRipple && !bSetNoRipple)
        {
            uFlagsOut           &= ~(bHigh ? lsfHighNoRipple : lsfLowNoRipple);
        }

        if (QUALITY_ONE == uLowQualityOut)  uLowQualityOut  = 0;

        if (QUALITY_ONE == uHighQualityOut) uHighQualityOut = 0;


        const bool  bLowReserveSet      = uLowQualityIn || uLowQualityOut ||
                                          isSetBit (uFlagsOut, lsfLowNoRipple) ||
                                          !!saLowLimit || saLowBalance.isPositive ();
        const bool  bLowReserveClear    = !bLowReserveSet;

        const bool  bHighReserveSet     = uHighQualityIn || uHighQualityOut ||
                                          isSetBit (uFlagsOut, lsfHighNoRipple) ||
                                          !!saHighLimit || saHighBalance.isPositive ();
        const bool  bHighReserveClear   = !bHighReserveSet;

        const bool  bDefault            = bLowReserveClear && bHighReserveClear;

        const bool  bLowReserved        = isSetBit (uFlagsIn, lsfLowReserve);
        const bool  bHighReserved       = isSetBit (uFlagsIn, lsfHighReserve);

        bool        bReserveIncrease    = false;

        if (bSetAuth)
        {
            uFlagsOut           |= (bHigh ? lsfHighAuth : lsfLowAuth);
        }

        if (bLowReserveSet && !bLowReserved)
        {
            // Set reserve for low account.

            mEngine->getNodes ().ownerCountAdjust (uLowAccountID, 1, sleLowAccount);
            uFlagsOut           |= lsfLowReserve;

            if (!bHigh)
                bReserveIncrease    = true;
        }

        if (bLowReserveClear && bLowReserved)
        {
            // Clear reserve for low account.

            mEngine->getNodes ().ownerCountAdjust (uLowAccountID, -1, sleLowAccount);
            uFlagsOut   &= ~lsfLowReserve;
        }

        if (bHighReserveSet && !bHighReserved)
        {
            // Set reserve for high account.

            mEngine->getNodes ().ownerCountAdjust (uHighAccountID, 1, sleHighAccount);
            uFlagsOut   |= lsfHighReserve;

            if (bHigh)
                bReserveIncrease    = true;
        }

        if (bHighReserveClear && bHighReserved)
        {
            // Clear reserve for high account.

            mEngine->getNodes ().ownerCountAdjust (uHighAccountID, -1, sleHighAccount);
            uFlagsOut   &= ~lsfHighReserve;
        }

        if (uFlagsIn != uFlagsOut)
            sleRippleState->setFieldU32 (sfFlags, uFlagsOut);

        if (bDefault || CURRENCY_BAD == uCurrencyID)
        {
            // Delete.

            terResult   = mEngine->getNodes ().trustDelete (sleRippleState, uLowAccountID, uHighAccountID);
        }
        else if (bReserveIncrease
                 && mPriorBalance.getNValue () < uReserveCreate) // Reserve is not scaled by load.
        {
            WriteLog (lsINFO, TrustSetTransactor) << "doTrustSet: Delay transaction: Insufficent reserve to add trust line.";

            // Another transaction could provide XRP to the account and then this transaction would succeed.
            terResult   = tecINSUF_RESERVE_LINE;
        }
        else
        {
            mEngine->entryModify (sleRippleState);

            WriteLog (lsINFO, TrustSetTransactor) << "doTrustSet: Modify ripple line";
        }
    }
    // Line does not exist.
    else if (!saLimitAmount                                     // Setting default limit.
             && (!bQualityIn || !uQualityIn)                         // Not setting quality in or setting default quality in.
             && (!bQualityOut || !uQualityOut))                      // Not setting quality out or setting default quality out.
    {
        WriteLog (lsINFO, TrustSetTransactor) << "doTrustSet: Redundant: Setting non-existent ripple line to defaults.";

        return tecNO_LINE_REDUNDANT;
    }
    else if (mPriorBalance.getNValue () < uReserveCreate)       // Reserve is not scaled by load.
    {
        WriteLog (lsINFO, TrustSetTransactor) << "doTrustSet: Delay transaction: Line does not exist. Insufficent reserve to create line.";

        // Another transaction could create the account and then this transaction would succeed.
        terResult   = tecNO_LINE_INSUF_RESERVE;
    }
    else if (CURRENCY_BAD == uCurrencyID)
    {
        terResult   = temBAD_CURRENCY;
    }
    else
    {
        STAmount    saBalance   = STAmount (uCurrencyID, ACCOUNT_ONE);  // Zero balance in currency.

        WriteLog (lsINFO, TrustSetTransactor) << "doTrustSet: Creating ripple line: "
                                              << Ledger::getRippleStateIndex (mTxnAccountID, uDstAccountID, uCurrencyID).ToString ();

        // Create a new ripple line.
        terResult   = mEngine->getNodes ().trustCreate (
                          bHigh,
                          mTxnAccountID,
                          uDstAccountID,
                          Ledger::getRippleStateIndex (mTxnAccountID, uDstAccountID, uCurrencyID),
                          mTxnAccount,
                          bSetAuth,
                          bSetNoRipple && !bClearNoRipple,
                          saBalance,
                          saLimitAllow,       // Limit for who is being charged.
                          uQualityIn,
                          uQualityOut);
    }

    WriteLog (lsINFO, TrustSetTransactor) << "doTrustSet<";

    return terResult;
}
Beispiel #2
0
    TER doApply () override
    {
        // Divvy if source or destination is non-native or if there are paths.
        std::uint32_t const uTxFlags = mTxn.getFlags ();
        bool const partialPaymentAllowed = uTxFlags & tfPartialPayment;
        bool const limitQuality = uTxFlags & tfLimitQuality;
        bool const defaultPathsAllowed = !(uTxFlags & tfNoDivvyDirect);
        bool const bPaths = mTxn.isFieldPresent (sfPaths);
        bool const bMax = mTxn.isFieldPresent (sfSendMax);
        AccountID const uDstAccountID (mTxn.getFieldAccount160 (sfDestination));
        STAmount const saDstAmount (mTxn.getFieldAmount (sfAmount));
        STAmount maxSourceAmount;
        if (bMax)
            maxSourceAmount = mTxn.getFieldAmount (sfSendMax);
        else if (saDstAmount.native ())
            maxSourceAmount = saDstAmount;
        else
          maxSourceAmount = STAmount (
              {saDstAmount.getCurrency (), mTxnAccountID},
              saDstAmount.mantissa(), saDstAmount.exponent (),
              saDstAmount < zero);

        m_journal.trace <<
            "maxSourceAmount=" << maxSourceAmount.getFullText () <<
            " saDstAmount=" << saDstAmount.getFullText ();

        // Open a ledger for editing.
        auto const index = getAccountRootIndex (uDstAccountID);
        SLE::pointer sleDst (mEngine->view().entryCache (ltACCOUNT_ROOT, index));

        if (!sleDst)
        {
            // Destination account does not exist.
            if (!saDstAmount.native ())
            {
                m_journal.trace <<
                    "Delay transaction: Destination account does not exist.";

                // Another transaction could create the account and then this
                // transaction would succeed.
                return tecNO_DST;
            }
            else if (mParams & tapOPEN_LEDGER && partialPaymentAllowed)
            {
                // You cannot fund an account with a partial payment.
                // Make retry work smaller, by rejecting this.
                m_journal.trace <<
                    "Delay transaction: Partial payment not allowed to create account.";


                // Another transaction could create the account and then this
                // transaction would succeed.
                return telNO_DST_PARTIAL;
            }
            else if (saDstAmount < STAmount (mEngine->getLedger ()->getReserve (0)))
            {
                // getReserve() is the minimum amount that an account can have.
                // Reserve is not scaled by load.
                m_journal.trace <<
                    "Delay transaction: Destination account does not exist. " <<
                    "Insufficent payment to create account.";

                // TODO: dedupe
                // Another transaction could create the account and then this
                // transaction would succeed.
                return tecNO_DST_INSUF_XDV;
            }

            // Create the account.
            sleDst = std::make_shared<SLE>(ltACCOUNT_ROOT,
                getAccountRootIndex (uDstAccountID));
            sleDst->setFieldAccount (sfAccount, uDstAccountID);
            sleDst->setFieldU32 (sfSequence, 1);
            mEngine->view().entryCreate(sleDst);
        }
        else if ((sleDst->getFlags () & lsfRequireDestTag) &&
                 !mTxn.isFieldPresent (sfDestinationTag))
        {
            // The tag is basically account-specific information we don't
            // understand, but we can require someone to fill it in.

            // We didn't make this test for a newly-formed account because there's
            // no way for this field to be set.
            m_journal.trace << "Malformed transaction: DestinationTag required.";

            return tecDST_TAG_NEEDED;
        }
        else
        {
            // Tell the engine that we are intending to change the the destination
            // account.  The source account gets always charged a fee so it's always
            // marked as modified.
            mEngine->view().entryModify (sleDst);
        }

        TER terResult;

        bool const bDivvy = bPaths || bMax || !saDstAmount.native ();
        // XXX Should bMax be sufficient to imply divvy?

        if (bDivvy)
        {
            // Divvy payment with at least one intermediate step and uses
            // transitive balances.

            // Copy paths into an editable class.
            STPathSet spsPaths = mTxn.getFieldPathSet (sfPaths);

            try
            {
                path::DivvyCalc::Input rcInput;
                rcInput.partialPaymentAllowed = partialPaymentAllowed;
                rcInput.defaultPathsAllowed = defaultPathsAllowed;
                rcInput.limitQuality = limitQuality;
                rcInput.deleteUnfundedOffers = true;
                rcInput.isLedgerOpen = static_cast<bool>(mParams & tapOPEN_LEDGER);

                bool pathTooBig = spsPaths.size () > MaxPathSize;

                for (auto const& path : spsPaths)
                    if (path.size () > MaxPathLength)
                        pathTooBig = true;

                if (rcInput.isLedgerOpen && pathTooBig)
                {
                    terResult = telBAD_PATH_COUNT; // Too many paths for proposed ledger.
                }
                else
                {

                    path::DivvyCalc::Output rc;
                    {
                        ScopedDeferCredits g (mEngine->view ());
                        rc = path::DivvyCalc::divvyCalculate (
                            mEngine->view (),
                            maxSourceAmount,
                            saDstAmount,
                            uDstAccountID,
                            mTxnAccountID,
                            spsPaths,
                            &rcInput);
                    }

                    // TODO: is this right?  If the amount is the correct amount, was
                    // the delivered amount previously set?
                    if (rc.result () == tesSUCCESS && rc.actualAmountOut != saDstAmount)
                        mEngine->view ().setDeliveredAmount (rc.actualAmountOut);

                    terResult = rc.result ();
                }

                // TODO(tom): what's going on here?
                if (isTerRetry (terResult))
                    terResult = tecPATH_DRY;

            }
            catch (std::exception const& e)
            {
                m_journal.trace <<
                    "Caught throw: " << e.what ();

                terResult = tefEXCEPTION;
            }
        }
        else
        {
            // Direct XDV payment.

            // uOwnerCount is the number of entries in this legder for this
            // account that require a reserve.
            auto const uOwnerCount = mTxnAccount->getFieldU32 (sfOwnerCount);

            // This is the total reserve in drops.
            std::uint64_t const uReserve =
                mEngine->getLedger ()->getReserve (uOwnerCount);

            // mPriorBalance is the balance on the sending account BEFORE the
            // fees were charged. We want to make sure we have enough reserve
            // to send. Allow final spend to use reserve for fee.
            auto const mmm = std::max(mTxn.getTransactionFee (),
                STAmount (uReserve));

            if (mPriorBalance < saDstAmount + mmm)
            {
                // Vote no. However the transaction might succeed, if applied in
                // a different order.
                m_journal.trace << "Delay transaction: Insufficient funds: " <<
                    " " << mPriorBalance.getText () <<
                    " / " << (saDstAmount + mmm).getText () <<
                    " (" << uReserve << ")";

                terResult = tecUNFUNDED_PAYMENT;
            }
            else
            {
                // The source account does have enough money, so do the
                // arithmetic for the transfer and make the ledger change.
                mTxnAccount->setFieldAmount (sfBalance,
                    mSourceBalance - saDstAmount);
                sleDst->setFieldAmount (sfBalance,
                    sleDst->getFieldAmount (sfBalance) + saDstAmount);

                // Re-arm the password change fee if we can and need to.
                if ((sleDst->getFlags () & lsfPasswordSpent))
                    sleDst->clearFlag (lsfPasswordSpent);

                terResult = tesSUCCESS;
            }
        }

        std::string strToken;
        std::string strHuman;

        if (transResultInfo (terResult, strToken, strHuman))
        {
            m_journal.trace <<
                strToken << ": " << strHuman;
        }
        else
        {
            assert (false);
        }

        return terResult;
    }
// Take as much as possible. Adjusts account balances. Charges fees on top to taker.
// -->    uBookBase: The order book to take against.
// -->  saTakerPays: What the taker offers (w/ issuer)
// -->  saTakerGets: What the taker wanted (w/ issuer)
// <--  saTakerPaid: What taker could have paid including saved not including fees. To reduce an offer.
// <--   saTakerGot: What taker got not including fees. To reduce an offer.
// <--    terResult: tesSUCCESS, terNO_ACCOUNT, telFAILED_PROCESSING, or tecFAILED_PROCESSING
// <--    bUnfunded: if tesSUCCESS, consider offer unfunded after taking.
TER OfferCreateTransactor::takeOffers (
    const bool          bOpenLedger,
    const bool          bPassive,
    const bool          bSell,
    uint256 const&      uBookBase,
    const uint160&      uTakerAccountID,
    SLE::ref            sleTakerAccount,
    const STAmount&     saTakerPays,
    const STAmount&     saTakerGets,
    STAmount&           saTakerPaid,
    STAmount&           saTakerGot,
    bool&               bUnfunded)
{
    // The book has the most elements. Take the perspective of the book.
    // Book is ordered for taker: taker pays / taker gets (smaller is better)

    // The order is for the other books currencys for get and pays are opposites.
    // We want the same ratio for the respective currencies.
    // So we swap paid and gets for determing take quality.

    assert (saTakerPays && saTakerGets);

    WriteLog (lsDEBUG, OfferCreateTransactor) << "takeOffers: bSell: " << bSell << ": against book: " << uBookBase.ToString ();

    LedgerEntrySet&         lesActive           = mEngine->getNodes ();
    uint256                 uTipIndex           = uBookBase;
    const uint256           uBookEnd            = Ledger::getQualityNext (uBookBase);
    const uint64            uTakeQuality        = STAmount::getRate (saTakerGets, saTakerPays);
    STAmount                saTakerRate         = STAmount::setRate (uTakeQuality);
    const uint160           uTakerPaysAccountID = saTakerPays.getIssuer ();
    const uint160           uTakerGetsAccountID = saTakerGets.getIssuer ();
    TER                     terResult           = temUNCERTAIN;

    boost::unordered_set<uint256>   usOfferUnfundedBecame;  // Offers that became unfunded.
    boost::unordered_set<uint160>   usAccountTouched;       // Accounts touched.

    saTakerPaid     = STAmount (saTakerPays.getCurrency (), saTakerPays.getIssuer ());
    saTakerGot      = STAmount (saTakerGets.getCurrency (), saTakerGets.getIssuer ());
    bUnfunded       = false;

    while (temUNCERTAIN == terResult)
    {
        SLE::pointer    sleOfferDir;
        uint64          uTipQuality     = 0;
        STAmount        saTakerFunds    = lesActive.accountFunds (uTakerAccountID, saTakerPays);
        STAmount        saSubTakerPays  = saTakerPays - saTakerPaid; // How much more to spend.
        STAmount        saSubTakerGets  = saTakerGets - saTakerGot; // How much more is wanted.

        // Figure out next offer to take, if needed.
        if (saTakerFunds.isPositive ()          // Taker has funds available.
                && saSubTakerPays.isPositive ()
                && saSubTakerGets.isPositive ())
        {
            sleOfferDir     = mEngine->entryCache (ltDIR_NODE, lesActive.getNextLedgerIndex (uTipIndex, uBookEnd));

            if (sleOfferDir)
            {
                uTipIndex       = sleOfferDir->getIndex ();
                uTipQuality     = Ledger::getQuality (uTipIndex);

                WriteLog (lsDEBUG, OfferCreateTransactor) << boost::str (boost::format ("takeOffers: possible counter offer found: uTipQuality=%d uTipIndex=%s")
                        % uTipQuality
                        % uTipIndex.ToString ());

            }
            else
            {
                WriteLog (lsTRACE, OfferCreateTransactor) << "takeOffers: counter offer book is empty: "
                        << uTipIndex.ToString ()
                        << " ... "
                        << uBookEnd.ToString ();
            }
        }

        if (!saTakerFunds.isPositive ())                    // Taker has no funds.
        {
            // Done. Ran out of funds on previous round. As fees aren't calculated directly in this routine, funds are checked here.
            WriteLog (lsDEBUG, OfferCreateTransactor) << "takeOffers: done: taker unfunded.";

            bUnfunded   = true;                             // Don't create an order.
            terResult   = tesSUCCESS;
        }
        else if (!sleOfferDir                               // No offer directory to take.
                 || uTakeQuality < uTipQuality                   // No offers of sufficient quality available.
                 || (bPassive && uTakeQuality == uTipQuality))
        {
            // Done.
            STAmount    saTipRate           = sleOfferDir ? STAmount::setRate (uTipQuality) : saTakerRate;

            WriteLog (lsDEBUG, OfferCreateTransactor) << boost::str (boost::format ("takeOffers: done: dir=%d uTakeQuality=%d %c uTipQuality=%d saTakerRate=%s %c saTipRate=%s bPassive=%d")
                    % !!sleOfferDir
                    % uTakeQuality
                    % (uTakeQuality == uTipQuality
                       ? '='
                       : uTakeQuality < uTipQuality
                       ? '<'
                       : '>')
                    % uTipQuality
                    % saTakerRate
                    % (saTakerRate == saTipRate
                       ? '='
                       : saTakerRate < saTipRate
                       ? '<'
                       : '>')
                    % saTipRate
                    % bPassive);

            terResult   = tesSUCCESS;
        }
        else
        {
            // Have an offer directory to consider.
            WriteLog (lsTRACE, OfferCreateTransactor) << "takeOffers: considering dir: " << sleOfferDir->getJson (0);

            SLE::pointer    sleBookNode;
            unsigned int    uBookEntry;
            uint256         uOfferIndex;

            lesActive.dirFirst (uTipIndex, sleBookNode, uBookEntry, uOfferIndex);

            SLE::pointer    sleOffer        = mEngine->entryCache (ltOFFER, uOfferIndex);

            WriteLog (lsDEBUG, OfferCreateTransactor) << "takeOffers: considering offer : " << sleOffer->getJson (0);

            const uint160   uOfferOwnerID   = sleOffer->getFieldAccount160 (sfAccount);
            STAmount        saOfferPays     = sleOffer->getFieldAmount (sfTakerGets);
            STAmount        saOfferGets     = sleOffer->getFieldAmount (sfTakerPays);

            STAmount        saOfferFunds;   // Funds of offer owner to payout.
            bool            bValid;

            bValid  =  bValidOffer (
                           sleOfferDir, uOfferIndex, uOfferOwnerID, saOfferPays, saOfferGets,
                           uTakerAccountID,
                           usOfferUnfundedFound, usOfferUnfundedBecame, usAccountTouched,
                           saOfferFunds);

            if (bValid)
            {
                STAmount    saSubTakerPaid;
                STAmount    saSubTakerGot;
                STAmount    saTakerIssuerFee;
                STAmount    saOfferIssuerFee;
                STAmount    saOfferRate = STAmount::setRate (uTipQuality);

                WriteLog (lsDEBUG, OfferCreateTransactor) << "takeOffers: applyOffer:    saTakerPays: " << saTakerPays.getFullText ();
                WriteLog (lsDEBUG, OfferCreateTransactor) << "takeOffers: applyOffer:    saTakerPaid: " << saTakerPaid.getFullText ();
                WriteLog (lsDEBUG, OfferCreateTransactor) << "takeOffers: applyOffer:   saTakerFunds: " << saTakerFunds.getFullText ();
                WriteLog (lsDEBUG, OfferCreateTransactor) << "takeOffers: applyOffer:   saOfferFunds: " << saOfferFunds.getFullText ();
                WriteLog (lsDEBUG, OfferCreateTransactor) << "takeOffers: applyOffer:    saOfferPays: " << saOfferPays.getFullText ();
                WriteLog (lsDEBUG, OfferCreateTransactor) << "takeOffers: applyOffer:    saOfferGets: " << saOfferGets.getFullText ();
                WriteLog (lsDEBUG, OfferCreateTransactor) << "takeOffers: applyOffer:    saOfferRate: " << saOfferRate.getFullText ();
                WriteLog (lsDEBUG, OfferCreateTransactor) << "takeOffers: applyOffer: saSubTakerPays: " << saSubTakerPays.getFullText ();
                WriteLog (lsDEBUG, OfferCreateTransactor) << "takeOffers: applyOffer: saSubTakerGets: " << saSubTakerGets.getFullText ();
                WriteLog (lsDEBUG, OfferCreateTransactor) << "takeOffers: applyOffer:    saTakerPays: " << saTakerPays.getFullText ();
                WriteLog (lsDEBUG, OfferCreateTransactor) << "takeOffers: applyOffer:    saTakerGets: " << saTakerGets.getFullText ();

                bool    bOfferDelete    = STAmount::applyOffer (
                                              bSell,
                                              lesActive.rippleTransferRate (uTakerAccountID, uOfferOwnerID, uTakerPaysAccountID),
                                              lesActive.rippleTransferRate (uOfferOwnerID, uTakerAccountID, uTakerGetsAccountID),
                                              saOfferRate,
                                              saOfferFunds,
                                              saTakerFunds,
                                              saOfferPays,
                                              saOfferGets,
                                              saSubTakerPays,
                                              saSubTakerGets,
                                              saSubTakerPaid,
                                              saSubTakerGot,
                                              saTakerIssuerFee,
                                              saOfferIssuerFee);

                WriteLog (lsDEBUG, OfferCreateTransactor) << "takeOffers: applyOffer: saSubTakerPaid: " << saSubTakerPaid.getFullText ();
                WriteLog (lsDEBUG, OfferCreateTransactor) << "takeOffers: applyOffer:  saSubTakerGot: " << saSubTakerGot.getFullText ();

                // Adjust offer

                // Offer owner will pay less.  Subtract what taker just got.
                sleOffer->setFieldAmount (sfTakerGets, saOfferPays -= saSubTakerGot);

                // Offer owner will get less.  Subtract what owner just paid.
                sleOffer->setFieldAmount (sfTakerPays, saOfferGets -= saSubTakerPaid);

                mEngine->entryModify (sleOffer);

                if (bOfferDelete)
                {
                    // Offer now fully claimed or now unfunded.
                    WriteLog (lsDEBUG, OfferCreateTransactor) << "takeOffers: Offer claimed: Delete.";

                    usOfferUnfundedBecame.insert (uOfferIndex); // Delete unfunded offer on success.

                    // Offer owner's account is no longer pristine.
                    usAccountTouched.insert (uOfferOwnerID);
                }
                else if (saSubTakerGot)
                {
                    WriteLog (lsDEBUG, OfferCreateTransactor) << "takeOffers: Offer partial claim.";

                    if (!saOfferPays.isPositive () || !saOfferGets.isPositive ())
                    {
                        WriteLog (lsWARNING, OfferCreateTransactor) << "takeOffers: ILLEGAL OFFER RESULT.";
                        bUnfunded   = true;
                        terResult   = bOpenLedger ? telFAILED_PROCESSING : tecFAILED_PROCESSING;
                    }
                }
                else
                {
                    // Taker got nothing, probably due to rounding. Consider taker unfunded.
                    WriteLog (lsDEBUG, OfferCreateTransactor) << "takeOffers: No claim.";

                    bUnfunded   = true;
                    terResult   = tesSUCCESS;                   // Done.
                }

                assert (uTakerGetsAccountID == saSubTakerGot.getIssuer ());
                assert (uTakerPaysAccountID == saSubTakerPaid.getIssuer ());

                if (!bUnfunded)
                {
                    // Distribute funds. The sends charge appropriate fees which are implied by offer.

                    terResult   = lesActive.accountSend (uOfferOwnerID, uTakerAccountID, saSubTakerGot);            // Offer owner pays taker.

                    if (tesSUCCESS == terResult)
                        terResult   = lesActive.accountSend (uTakerAccountID, uOfferOwnerID, saSubTakerPaid);           // Taker pays offer owner.

                    if (!bSell)
                    {
                        // Buy semantics: Reduce amount considered paid by taker's rate. Not by actual cost which is lower.
                        // That is, take less as to just satify our buy requirement.
                        STAmount    saTakerCould    = saTakerPays - saTakerPaid;    // Taker could pay.

                        if (saTakerFunds < saTakerCould)
                            saTakerCould    = saTakerFunds;

                        STAmount    saTakerUsed = STAmount::multiply (saSubTakerGot, saTakerRate, saTakerPays);

                        WriteLog (lsDEBUG, OfferCreateTransactor) << "takeOffers: applyOffer:   saTakerCould: " << saTakerCould.getFullText ();
                        WriteLog (lsDEBUG, OfferCreateTransactor) << "takeOffers: applyOffer:  saSubTakerGot: " << saSubTakerGot.getFullText ();
                        WriteLog (lsDEBUG, OfferCreateTransactor) << "takeOffers: applyOffer:    saTakerRate: " << saTakerRate.getFullText ();
                        WriteLog (lsDEBUG, OfferCreateTransactor) << "takeOffers: applyOffer:    saTakerUsed: " << saTakerUsed.getFullText ();

                        saSubTakerPaid  = std::min (saTakerCould, saTakerUsed);
                    }

                    saTakerPaid     += saSubTakerPaid;
                    saTakerGot      += saSubTakerGot;

                    if (tesSUCCESS == terResult)
                        terResult   = temUNCERTAIN;
                }
            }
        }
    }

    WriteLog (lsDEBUG, OfferCreateTransactor) << "takeOffers: " << transToken (terResult);

    if (tesSUCCESS == terResult)
    {
        // On success, delete offers that became unfunded.
        BOOST_FOREACH (uint256 const & uOfferIndex, usOfferUnfundedBecame)
        {
            WriteLog (lsDEBUG, OfferCreateTransactor) << "takeOffers: became unfunded: " << uOfferIndex.ToString ();

            terResult   = lesActive.offerDelete (uOfferIndex);

            if (tesSUCCESS != terResult)
                break;
        }
Beispiel #4
0
// Append a node and insert before it any implied nodes.
// Offers may go back to back.
// <-- terResult: tesSUCCESS, temBAD_PATH, terNO_ACCOUNT, terNO_AUTH, terNO_LINE, tecPATH_DRY
TER PathState::pushNode (
    const int iType,
    const uint160& uAccountID,
    const uint160& uCurrencyID,
    const uint160& uIssuerID)
{
    Node                pnCur;
    const bool          bFirst      = vpnNodes.empty ();
    const Node&         pnPrv       = bFirst ? Node () : vpnNodes.back ();
    // true, iff node is a ripple account. false, iff node is an offer node.
    const bool          bAccount    = is_bit_set (iType, STPathElement::typeAccount);
    // true, iff currency supplied.
    // Currency is specified for the output of the current node.
    const bool          bCurrency   = is_bit_set (iType, STPathElement::typeCurrency);
    // Issuer is specified for the output of the current node.
    const bool          bIssuer     = is_bit_set (iType, STPathElement::typeIssuer);
    TER                 terResult   = tesSUCCESS;

    WriteLog (lsTRACE, RippleCalc) << "pushNode> " <<
                                   iType <<
                                   ": " << (bAccount ? RippleAddress::createHumanAccountID (uAccountID) : "-") <<
                                   " " << (bCurrency ? STAmount::createHumanCurrency (uCurrencyID) : "-") <<
                                   "/" << (bIssuer ? RippleAddress::createHumanAccountID (uIssuerID) : "-");

    pnCur.uFlags        = iType;
    pnCur.uCurrencyID   = bCurrency ? uCurrencyID : pnPrv.uCurrencyID;

    if (iType & ~STPathElement::typeValidBits)
    {
        WriteLog (lsDEBUG, RippleCalc) << "pushNode: bad bits.";

        terResult   = temBAD_PATH;
    }
    else if (bIssuer && !pnCur.uCurrencyID)
    {
        WriteLog (lsDEBUG, RippleCalc) << "pushNode: issuer specified for XRP.";

        terResult   = temBAD_PATH;
    }
    else if (bIssuer && !uIssuerID)
    {
        WriteLog (lsDEBUG, RippleCalc) << "pushNode: specified bad issuer.";

        terResult   = temBAD_PATH;
    }
    else if (!bAccount && !bCurrency && !bIssuer)
    {
        WriteLog (lsDEBUG, RippleCalc) << "pushNode: offer must specify at least currency or issuer.";

        terResult   = temBAD_PATH;
    }
    else if (bAccount)
    {
        // Account link

        pnCur.uAccountID    = uAccountID;
        pnCur.uIssuerID     = bIssuer
                              ? uIssuerID
                              : !!pnCur.uCurrencyID
                              ? uAccountID
                              : ACCOUNT_XRP;
        pnCur.saRevRedeem   = STAmount (pnCur.uCurrencyID, uAccountID);
        pnCur.saRevIssue    = STAmount (pnCur.uCurrencyID, uAccountID);
        pnCur.saRevDeliver  = STAmount (pnCur.uCurrencyID, pnCur.uIssuerID);
        pnCur.saFwdDeliver  = pnCur.saRevDeliver;

        if (bFirst)
        {
            // The first node is always correct as is.

            nothing ();
        }
        else if (!uAccountID)
        {
            WriteLog (lsDEBUG, RippleCalc) << "pushNode: specified bad account.";

            terResult   = temBAD_PATH;
        }
        else
        {
            // Add required intermediate nodes to deliver to current account.
            WriteLog (lsTRACE, RippleCalc) << "pushNode: imply for account.";

            terResult   = pushImply (
                              pnCur.uAccountID,                                   // Current account.
                              pnCur.uCurrencyID,                                  // Wanted currency.
                              !!pnCur.uCurrencyID ? uAccountID : ACCOUNT_XRP);    // Account as wanted issuer.

            // Note: pnPrv may no longer be the immediately previous node.
        }

        if (tesSUCCESS == terResult && !vpnNodes.empty ())
        {
            const Node&     pnBck       = vpnNodes.back ();
            bool            bBckAccount = is_bit_set (pnBck.uFlags, STPathElement::typeAccount);

            if (bBckAccount)
            {
                SLE::pointer    sleRippleState  = lesEntries.entryCache (ltRIPPLE_STATE, Ledger::getRippleStateIndex (pnBck.uAccountID, pnCur.uAccountID, pnPrv.uCurrencyID));

                if (!sleRippleState)
                {
                    WriteLog (lsTRACE, RippleCalc) << "pushNode: No credit line between "
                                                   << RippleAddress::createHumanAccountID (pnBck.uAccountID)
                                                   << " and "
                                                   << RippleAddress::createHumanAccountID (pnCur.uAccountID)
                                                   << " for "
                                                   << STAmount::createHumanCurrency (pnCur.uCurrencyID)
                                                   << "." ;

                    WriteLog (lsTRACE, RippleCalc) << getJson ();

                    terResult   = terNO_LINE;
                }
                else
                {
                    WriteLog (lsTRACE, RippleCalc) << "pushNode: Credit line found between "
                                                   << RippleAddress::createHumanAccountID (pnBck.uAccountID)
                                                   << " and "
                                                   << RippleAddress::createHumanAccountID (pnCur.uAccountID)
                                                   << " for "
                                                   << STAmount::createHumanCurrency (pnCur.uCurrencyID)
                                                   << "." ;

                    SLE::pointer        sleBck  = lesEntries.entryCache (ltACCOUNT_ROOT, Ledger::getAccountRootIndex (pnBck.uAccountID));
                    bool                bHigh   = pnBck.uAccountID > pnCur.uAccountID;

                    if (!sleBck)
                    {
                        WriteLog (lsWARNING, RippleCalc) << "pushNode: delay: can't receive IOUs from non-existent issuer: " << RippleAddress::createHumanAccountID (pnBck.uAccountID);

                        terResult   = terNO_ACCOUNT;
                    }
                    else if ((is_bit_set (sleBck->getFieldU32 (sfFlags), lsfRequireAuth)
                              && !is_bit_set (sleRippleState->getFieldU32 (sfFlags), (bHigh ? lsfHighAuth : lsfLowAuth)))
                             && sleRippleState->getFieldAmount(sfBalance) == zero) // CHECKME
                    {
                        WriteLog (lsWARNING, RippleCalc) << "pushNode: delay: can't receive IOUs from issuer without auth.";

                        terResult   = terNO_AUTH;
                    }

                    if (tesSUCCESS == terResult)
                    {
                        STAmount    saOwed  = lesEntries.rippleOwed (pnCur.uAccountID, pnBck.uAccountID, pnCur.uCurrencyID);
                        STAmount    saLimit;

                        if (saOwed <= zero
                                && -saOwed >= (saLimit = lesEntries.rippleLimit (pnCur.uAccountID, pnBck.uAccountID, pnCur.uCurrencyID)))
                        {
                            WriteLog (lsWARNING, RippleCalc) <<
                                                             "pushNode: dry:" <<
                                                             " saOwed=" << saOwed <<
                                                             " saLimit=" << saLimit;

                            terResult   = tecPATH_DRY;
                        }
                    }
                }
            }
        }

        if (tesSUCCESS == terResult)
        {
            vpnNodes.push_back (pnCur);
        }
    }
    else
    {
        // Offer link
        // Offers bridge a change in currency & issuer or just a change in issuer.
        pnCur.uIssuerID     = bIssuer
                              ? uIssuerID
                              : !!pnCur.uCurrencyID
                              ? !!pnPrv.uIssuerID
                              ? pnPrv.uIssuerID   // Default to previous issuer
                              : pnPrv.uAccountID  // Or previous account if no previous issuer.
                              : ACCOUNT_XRP;
        pnCur.saRateMax     = saZero;
        pnCur.saRevDeliver  = STAmount (pnCur.uCurrencyID, pnCur.uIssuerID);
        pnCur.saFwdDeliver  = pnCur.saRevDeliver;

        if (!!pnCur.uCurrencyID != !!pnCur.uIssuerID)
        {
            WriteLog (lsDEBUG, RippleCalc) << "pushNode: currency is inconsistent with issuer.";

            terResult   = temBAD_PATH;
        }
        else if (!!pnPrv.uAccountID)
        {
            // Previous is an account.
            WriteLog (lsTRACE, RippleCalc) << "pushNode: imply for offer.";

            // Insert intermediary issuer account if needed.
            terResult   = pushImply (
                              ACCOUNT_XRP, // Rippling, but offers don't have an account.
                              pnPrv.uCurrencyID,
                              pnPrv.uIssuerID);
        }

        if (tesSUCCESS == terResult)
        {
            vpnNodes.push_back (pnCur);
        }
    }

    WriteLog (lsTRACE, RippleCalc) << "pushNode< : " << transToken (terResult);

    return terResult;
}
Beispiel #5
0
TER TransactionEngine::applyTransaction (
    STTx const& txn,
    TransactionEngineParams params,
    bool& didApply)
{
    WriteLog (lsTRACE, TransactionEngine) << "applyTransaction>";
    didApply = false;
    assert (mLedger);
    uint256 const& txID = txn.getTransactionID ();
    mNodes.init (mLedger, txID, mLedger->getLedgerSeq (), params);

#ifdef BEAST_DEBUG
    if (1)
    {
        Serializer ser;
        txn.add (ser);
        SerializerIterator sit (ser);
        STTx s2 (sit);

        if (!s2.isEquivalent (txn))
        {
            WriteLog (lsFATAL, TransactionEngine) <<
                "Transaction serdes mismatch";
            WriteLog (lsINFO, TransactionEngine) << txn.getJson (0);
            WriteLog (lsFATAL, TransactionEngine) << s2.getJson (0);
            assert (false);
        }
    }
#endif

    if (!txID)
    {
        WriteLog (lsWARNING, TransactionEngine) <<
            "applyTransaction: invalid transaction id";
        return temINVALID;
    }

    TER terResult = Transactor::transact (txn, params, this);

    if (terResult == temUNKNOWN)
    {
        WriteLog (lsWARNING, TransactionEngine) <<
            "applyTransaction: Invalid transaction: unknown transaction type";
        return temUNKNOWN;
    }

    if (ShouldLog (lsDEBUG, TransactionEngine))
    {
        std::string strToken;
        std::string strHuman;

        transResultInfo (terResult, strToken, strHuman);

        WriteLog (lsDEBUG, TransactionEngine) <<
            "applyTransaction: terResult=" << strToken <<
            " : " << terResult <<
            " : " << strHuman;
    }

    if (isTesSuccess (terResult))
        didApply = true;
    else if (isTecClaim (terResult) && !(params & tapRETRY))
    {
        // only claim the transaction fee
        WriteLog (lsDEBUG, TransactionEngine) << "Reprocessing to only claim fee";
        mNodes.clear ();

        SLE::pointer txnAcct = entryCache (ltACCOUNT_ROOT,
            getAccountRootIndex (txn.getSourceAccount ()));

        if (!txnAcct)
            terResult = terNO_ACCOUNT;
        else
        {
            std::uint32_t t_seq = txn.getSequence ();
            std::uint32_t a_seq = txnAcct->getFieldU32 (sfSequence);

            if (a_seq < t_seq)
                terResult = terPRE_SEQ;
            else if (a_seq > t_seq)
                terResult = tefPAST_SEQ;
            else
            {
                STAmount fee        = txn.getTransactionFee ();
                STAmount balance    = txnAcct->getFieldAmount (sfBalance);
                STAmount balanceVBC = txnAcct->getFieldAmount(sfBalanceVBC);

                // We retry/reject the transaction if the account
                // balance is zero or we're applying against an open
                // ledger and the balance is less than the fee
                if ((balance == zero) || (balanceVBC.getNValue() == 0) ||
                    ((params & tapOPEN_LEDGER) && (balance < fee)))
                {
                    // Account has no funds or ledger is open
                    terResult = terINSUF_FEE_B;
                }
                else
                {
                    if (fee > balance)
                        fee = balance;
                    txnAcct->setFieldAmount (sfBalance, balance - fee);
                    txnAcct->setFieldAmount(sfBalanceVBC, balanceVBC);
                    txnAcct->setFieldU32 (sfSequence, t_seq + 1);
                    entryModify (txnAcct);
                    didApply = true;
                }
            }
        }
    }
    else
        WriteLog (lsDEBUG, TransactionEngine) << "Not applying transaction " << txID;

    if (didApply)
    {
        if (!checkInvariants (terResult, txn, params))
        {
            WriteLog (lsFATAL, TransactionEngine) <<
                "Transaction violates invariants";
            WriteLog (lsFATAL, TransactionEngine) <<
                txn.getJson (0);
            WriteLog (lsFATAL, TransactionEngine) <<
                transToken (terResult) << ": " << transHuman (terResult);
            WriteLog (lsFATAL, TransactionEngine) <<
                mNodes.getJson (0);
            didApply = false;
            terResult = tefINTERNAL;
        }
        else
        {
            // Transaction succeeded fully or (retries are not allowed and the
            // transaction could claim a fee)
            Serializer m;
            mNodes.calcRawMeta (m, terResult, mTxnSeq++);

            txnWrite ();

            Serializer s;
            txn.add (s);

            if (params & tapOPEN_LEDGER)
            {
                if (!mLedger->addTransaction (txID, s))
                {
                    WriteLog (lsFATAL, TransactionEngine) <<
                        "Tried to add transaction to open ledger that already had it";
                    assert (false);
                    throw std::runtime_error ("Duplicate transaction applied");
                }
            }
            else
            {
                if (!mLedger->addTransaction (txID, s, m))
                {
                    WriteLog (lsFATAL, TransactionEngine) <<
                        "Tried to add transaction to ledger that already had it";
                    assert (false);
                    throw std::runtime_error ("Duplicate transaction applied to closed ledger");
                }

                // Charge whatever fee they specified.
                STAmount saPaid = txn.getTransactionFee ();
                mLedger->destroyCoins (saPaid.getNValue ());
            }
        }
    }

    mTxnAccount.reset ();
    mNodes.clear ();

    if (!(params & tapOPEN_LEDGER) && isTemMalformed (terResult))
    {
        // XXX Malformed or failed transaction in closed ledger must bow out.
    }

    return terResult;
}
// Take as much as possible. Adjusts account balances. Charges fees on top to taker.
// -->    uBookBase: The order book to take against.
// -->  saTakerPays: What the taker offers (w/ issuer)
// -->  saTakerGets: What the taker wanted (w/ issuer)
// <--  saTakerPaid: What taker could have paid including saved not including fees. To reduce an offer.
// <--   saTakerGot: What taker got not including fees. To reduce an offer.
// <--    terResult: tesSUCCESS, terNO_ACCOUNT, telFAILED_PROCESSING, or tecFAILED_PROCESSING
// <--    bUnfunded: if tesSUCCESS, consider offer unfunded after taking.
TER OfferCreateTransactor::takeOffers (
    const bool          bOpenLedger,
    const bool          bPassive,
    const bool          bSell,
    uint256 const&      uBookBase,
    const uint160&      uTakerAccountID,
    SLE::ref            sleTakerAccount,
    const STAmount&     saTakerPays,
    const STAmount&     saTakerGets,
    STAmount&           saTakerPaid,
    STAmount&           saTakerGot,
    bool&               bUnfunded)
{
    // The book has the most elements. Take the perspective of the book.
    // Book is ordered for taker: taker pays / taker gets (smaller is better)

    // The order is for the other books currencys for get and pays are opposites.
    // We want the same ratio for the respective currencies.
    // So we swap paid and gets for determing take quality.

    assert (saTakerPays && saTakerGets);

    WriteLog (lsDEBUG, OfferCreateTransactor) << "takeOffers: bSell: " << bSell << ": against book: " << uBookBase.ToString ();

    LedgerEntrySet&         lesActive           = mEngine->getNodes ();
    const uint64            uTakeQuality        = STAmount::getRate (saTakerGets, saTakerPays);
    STAmount                saTakerRate         = STAmount::setRate (uTakeQuality);
    const uint160           uTakerPaysAccountID = saTakerPays.getIssuer ();
    const uint160           uTakerGetsAccountID = saTakerGets.getIssuer ();
    TER                     terResult           = temUNCERTAIN;

    boost::unordered_set<uint256>   usOfferUnfundedBecame;  // Offers that became unfunded.
    boost::unordered_set<uint160>   usAccountTouched;       // Accounts touched.

    saTakerPaid     = STAmount (saTakerPays.getCurrency (), saTakerPays.getIssuer ());
    saTakerGot      = STAmount (saTakerGets.getCurrency (), saTakerGets.getIssuer ());
    bUnfunded       = false;

    OrderBookIterator bookIterator (lesActive,
        saTakerPays.getCurrency(), saTakerPays.getIssuer(),
        saTakerGets.getCurrency(), saTakerGets.getIssuer());

    while ((temUNCERTAIN == terResult) && bookIterator.nextOffer())
    {
        STAmount        saTakerFunds    = lesActive.accountFunds (uTakerAccountID, saTakerPays);
        STAmount        saSubTakerPays  = saTakerPays - saTakerPaid; // How much more to spend.
        STAmount        saSubTakerGets  = saTakerGets - saTakerGot; // How much more is wanted.
        uint64          uTipQuality     = bookIterator.getCurrentQuality();

        if (!saTakerFunds.isPositive ())
        {
            // Taker is out of funds. Don't create the offer.
            bUnfunded = true;
            terResult = tesSUCCESS;
        }
        else if (!saSubTakerPays.isPositive() || !saSubTakerGets.isPositive())
        {
            // Offer is completely consumed
            terResult = tesSUCCESS;
        }
        else if ((uTakeQuality < uTipQuality)
                 || (bPassive && uTakeQuality == uTipQuality))
        {
            // Offer does not cross this offer
            STAmount    saTipRate           = STAmount::setRate (uTipQuality);

            WriteLog (lsDEBUG, OfferCreateTransactor) << boost::str (boost::format ("takeOffers: done: uTakeQuality=%d %c uTipQuality=%d saTakerRate=%s %c saTipRate=%s bPassive=%d")
                    % uTakeQuality
                    % (uTakeQuality == uTipQuality
                       ? '='
                       : uTakeQuality < uTipQuality
                       ? '<'
                       : '>')
                    % uTipQuality
                    % saTakerRate
                    % (saTakerRate == saTipRate
                       ? '='
                       : saTakerRate < saTipRate
                       ? '<'
                       : '>')
                    % saTipRate
                    % bPassive);

            terResult   = tesSUCCESS;
        }
        else
        {
            // We have a crossing offer to consider.

            SLE::pointer    sleOffer        = bookIterator.getCurrentOffer ();

            if (!sleOffer)
            { // offer is in directory but not in ledger
                uint256 offerIndex = bookIterator.getCurrentIndex ();
                WriteLog (lsWARNING, OfferCreateTransactor) << "takeOffers: offer not found : " << offerIndex;
                usMissingOffers.insert (missingOffer_t (
                    bookIterator.getCurrentIndex (), bookIterator.getCurrentDirectory ()));
            }
            else
            {
                WriteLog (lsDEBUG, OfferCreateTransactor) << "takeOffers: considering offer : " << sleOffer->getJson (0);

                const uint160&  uOfferOwnerID   = sleOffer->getFieldAccount160 (sfAccount);
                STAmount        saOfferPays     = sleOffer->getFieldAmount (sfTakerGets);
                STAmount        saOfferGets     = sleOffer->getFieldAmount (sfTakerPays);

                STAmount        saOfferFunds;   // Funds of offer owner to payout.
                bool            bValid;

                bValid  =  bValidOffer (
                               sleOffer, uOfferOwnerID, saOfferPays, saOfferGets,
                               uTakerAccountID,
                               usOfferUnfundedFound, usOfferUnfundedBecame, usAccountTouched,
                               saOfferFunds);

                if (bValid)
                {
                    STAmount    saSubTakerPaid;
                    STAmount    saSubTakerGot;
                    STAmount    saTakerIssuerFee;
                    STAmount    saOfferIssuerFee;
                    STAmount    saOfferRate = STAmount::setRate (uTipQuality);

                    WriteLog (lsTRACE, OfferCreateTransactor) << "takeOffers: applyOffer:    saTakerPays: " << saTakerPays.getFullText ();
                    WriteLog (lsTRACE, OfferCreateTransactor) << "takeOffers: applyOffer:    saTakerPaid: " << saTakerPaid.getFullText ();
                    WriteLog (lsTRACE, OfferCreateTransactor) << "takeOffers: applyOffer:   saTakerFunds: " << saTakerFunds.getFullText ();
                    WriteLog (lsTRACE, OfferCreateTransactor) << "takeOffers: applyOffer:   saOfferFunds: " << saOfferFunds.getFullText ();
                    WriteLog (lsTRACE, OfferCreateTransactor) << "takeOffers: applyOffer:    saOfferPays: " << saOfferPays.getFullText ();
                    WriteLog (lsTRACE, OfferCreateTransactor) << "takeOffers: applyOffer:    saOfferGets: " << saOfferGets.getFullText ();
                    WriteLog (lsTRACE, OfferCreateTransactor) << "takeOffers: applyOffer:    saOfferRate: " << saOfferRate.getFullText ();
                    WriteLog (lsTRACE, OfferCreateTransactor) << "takeOffers: applyOffer: saSubTakerPays: " << saSubTakerPays.getFullText ();
                    WriteLog (lsTRACE, OfferCreateTransactor) << "takeOffers: applyOffer: saSubTakerGets: " << saSubTakerGets.getFullText ();
                    WriteLog (lsTRACE, OfferCreateTransactor) << "takeOffers: applyOffer:    saTakerPays: " << saTakerPays.getFullText ();
                    WriteLog (lsTRACE, OfferCreateTransactor) << "takeOffers: applyOffer:    saTakerGets: " << saTakerGets.getFullText ();

                    bool    bOfferDelete    = STAmount::applyOffer (
                                                  bSell,
                                                  lesActive.rippleTransferRate (uTakerAccountID, uOfferOwnerID, uTakerPaysAccountID),
                                                  lesActive.rippleTransferRate (uOfferOwnerID, uTakerAccountID, uTakerGetsAccountID),
                                                  saOfferRate,
                                                  saOfferFunds,
                                                  saTakerFunds,
                                                  saOfferPays,
                                                  saOfferGets,
                                                  saSubTakerPays,
                                                  saSubTakerGets,
                                                  saSubTakerPaid,
                                                  saSubTakerGot,
                                                  saTakerIssuerFee,
                                                  saOfferIssuerFee);

                    WriteLog (lsDEBUG, OfferCreateTransactor) << "takeOffers: applyOffer: saSubTakerPaid: " << saSubTakerPaid.getFullText ();
                    WriteLog (lsDEBUG, OfferCreateTransactor) << "takeOffers: applyOffer:  saSubTakerGot: " << saSubTakerGot.getFullText ();

                    // Adjust offer

                    // Offer owner will pay less.  Subtract what taker just got.
                    sleOffer->setFieldAmount (sfTakerGets, saOfferPays -= saSubTakerGot);

                    // Offer owner will get less.  Subtract what owner just paid.
                    sleOffer->setFieldAmount (sfTakerPays, saOfferGets -= saSubTakerPaid);

                    mEngine->entryModify (sleOffer);

                    if (bOfferDelete)
                    {
                        // Offer now fully claimed or now unfunded.
                        WriteLog (lsDEBUG, OfferCreateTransactor) << "takeOffers: Offer claimed: Delete.";

                        usOfferUnfundedBecame.insert (sleOffer->getIndex()); // Delete unfunded offer on success.

                        // Offer owner's account is no longer pristine.
                        usAccountTouched.insert (uOfferOwnerID);
                    }
                    else if (saSubTakerGot)
                    {
                        WriteLog (lsDEBUG, OfferCreateTransactor) << "takeOffers: Offer partial claim.";

                        if (!saOfferPays.isPositive () || !saOfferGets.isPositive ())
                        {
                            WriteLog (lsWARNING, OfferCreateTransactor) << "takeOffers: ILLEGAL OFFER RESULT.";
                            bUnfunded   = true;
                            terResult   = bOpenLedger ? telFAILED_PROCESSING : tecFAILED_PROCESSING;
                        }
                    }
                    else
                    {
                        // Taker got nothing, probably due to rounding. Consider taker unfunded.
                        WriteLog (lsDEBUG, OfferCreateTransactor) << "takeOffers: No claim.";

                        bUnfunded   = true;
                        terResult   = tesSUCCESS;                   // Done.
                    }

                    assert (uTakerGetsAccountID == saSubTakerGot.getIssuer ());
                    assert (uTakerPaysAccountID == saSubTakerPaid.getIssuer ());

                    if (!bUnfunded)
                    {
                        // Distribute funds. The sends charge appropriate fees which are implied by offer.

                        terResult   = lesActive.accountSend (uOfferOwnerID, uTakerAccountID, saSubTakerGot);            // Offer owner pays taker.

                        if (tesSUCCESS == terResult)
                            terResult   = lesActive.accountSend (uTakerAccountID, uOfferOwnerID, saSubTakerPaid);           // Taker pays offer owner.

                        if (bSell)
                        {
                            // Sell semantics:
                            // Reduce amount considered received to original offer's rate.
                            // Not by crossing rate, which is higher.
                            STAmount saEffectiveGot = STAmount::divide(saSubTakerPaid, saTakerRate, saTakerGets);
                            saSubTakerGot = std::min(saEffectiveGot, saSubTakerGot);
                        }
                        else
                        {
                            // Buy semantics: Reduce amount considered paid by taker's rate. Not by actual cost which is lower.
                            // That is, take less as to just satify our buy requirement.
                            STAmount    saTakerCould    = saTakerPays - saTakerPaid;    // Taker could pay.

                            if (saTakerFunds < saTakerCould)
                                saTakerCould    = saTakerFunds;

                            STAmount    saTakerUsed = STAmount::multiply (saSubTakerGot, saTakerRate, saTakerPays);

                            WriteLog (lsDEBUG, OfferCreateTransactor) << "takeOffers: applyOffer:   saTakerCould: " << saTakerCould.getFullText ();
                            WriteLog (lsDEBUG, OfferCreateTransactor) << "takeOffers: applyOffer:  saSubTakerGot: " << saSubTakerGot.getFullText ();
                            WriteLog (lsDEBUG, OfferCreateTransactor) << "takeOffers: applyOffer:    saTakerRate: " << saTakerRate.getFullText ();
                            WriteLog (lsDEBUG, OfferCreateTransactor) << "takeOffers: applyOffer:    saTakerUsed: " << saTakerUsed.getFullText ();

                            saSubTakerPaid  = std::min (saTakerCould, saTakerUsed);
                        }

                        saTakerPaid     += saSubTakerPaid;
                        saTakerGot      += saSubTakerGot;

                        if (tesSUCCESS == terResult)
                            terResult   = temUNCERTAIN;
                    }
                }
            }
        }
    }

    if (temUNCERTAIN == terResult)
        terResult = tesSUCCESS;

    WriteLog (lsDEBUG, OfferCreateTransactor) << "takeOffers: " << transToken (terResult);

    if (tesSUCCESS == terResult)
    {
        // On success, delete offers that became unfunded.
        BOOST_FOREACH (uint256 const & uOfferIndex, usOfferUnfundedBecame)
        {
            WriteLog (lsDEBUG, OfferCreateTransactor) << "takeOffers: became unfunded: " << uOfferIndex.ToString ();

            terResult   = lesActive.offerDelete (uOfferIndex);

            if (tesSUCCESS != terResult)
                break;
        }
Beispiel #7
0
    TER doApply () override
    {
        // Ripple if source or destination is non-native or if there are paths.
        std::uint32_t const uTxFlags = mTxn.getFlags ();
        bool const partialPaymentAllowed = uTxFlags & tfPartialPayment;
        bool const limitQuality = uTxFlags & tfLimitQuality;
        bool const defaultPathsAllowed = !(uTxFlags & tfNoRippleDirect);
        bool const bPaths = mTxn.isFieldPresent (sfPaths);
        bool const bMax = mTxn.isFieldPresent (sfSendMax);
        Account const uDstAccountID (mTxn.getFieldAccount160 (sfDestination));
        STAmount const saDstAmount (mTxn.getFieldAmount (sfAmount));
        STAmount maxSourceAmount;
        if (bMax)
            maxSourceAmount = mTxn.getFieldAmount (sfSendMax);
        else if (saDstAmount.isNative ())
            maxSourceAmount = saDstAmount;
        else
          maxSourceAmount = STAmount (
              {saDstAmount.getCurrency (), mTxnAccountID},
              saDstAmount.mantissa(), saDstAmount.exponent (),
              saDstAmount < zero);
        auto const& uSrcCurrency = maxSourceAmount.getCurrency ();
        auto const& uDstCurrency = saDstAmount.getCurrency ();

        // isZero() is XRP.  FIX!
        bool const bXRPDirect = uSrcCurrency.isZero () && uDstCurrency.isZero ();

        m_journal.trace <<
            "maxSourceAmount=" << maxSourceAmount.getFullText () <<
            " saDstAmount=" << saDstAmount.getFullText ();

        if (!isLegalNet (saDstAmount) || !isLegalNet (maxSourceAmount))
            return temBAD_AMOUNT;

        if (uTxFlags & tfPaymentMask)
        {
            m_journal.trace <<
                "Malformed transaction: Invalid flags set.";

            return temINVALID_FLAG;
        }
        else if (!uDstAccountID)
        {
            m_journal.trace <<
                "Malformed transaction: Payment destination account not specified.";

            return temDST_NEEDED;
        }
        else if (bMax && maxSourceAmount <= zero)
        {
            m_journal.trace <<
                "Malformed transaction: bad max amount: " << maxSourceAmount.getFullText ();

            return temBAD_AMOUNT;
        }
        else if (saDstAmount <= zero)
        {
            m_journal.trace <<
                "Malformed transaction: bad dst amount: " << saDstAmount.getFullText ();

            return temBAD_AMOUNT;
        }
        else if (badCurrency() == uSrcCurrency || badCurrency() == uDstCurrency)
        {
            m_journal.trace <<
                "Malformed transaction: Bad currency.";

            return temBAD_CURRENCY;
        }
        else if (mTxnAccountID == uDstAccountID && uSrcCurrency == uDstCurrency && !bPaths)
        {
            // You're signing yourself a payment.
            // If bPaths is true, you might be trying some arbitrage.
            m_journal.trace <<
                "Malformed transaction: Redundant transaction:" <<
                " src=" << to_string (mTxnAccountID) <<
                " dst=" << to_string (uDstAccountID) <<
                " src_cur=" << to_string (uSrcCurrency) <<
                " dst_cur=" << to_string (uDstCurrency);

            return temREDUNDANT;
        }
        else if (bMax && maxSourceAmount == saDstAmount &&
                 maxSourceAmount.getCurrency () == saDstAmount.getCurrency ())
        {
            // Consistent but redundant transaction.
            m_journal.trace <<
                "Malformed transaction: Redundant SendMax.";

            return temREDUNDANT_SEND_MAX;
        }
        else if (bXRPDirect && bMax)
        {
            // Consistent but redundant transaction.
            m_journal.trace <<
                "Malformed transaction: SendMax specified for XRP to XRP.";

            return temBAD_SEND_XRP_MAX;
        }
        else if (bXRPDirect && bPaths)
        {
            // XRP is sent without paths.
            m_journal.trace <<
                "Malformed transaction: Paths specified for XRP to XRP.";

            return temBAD_SEND_XRP_PATHS;
        }
        else if (bXRPDirect && partialPaymentAllowed)
        {
            // Consistent but redundant transaction.
            m_journal.trace <<
                "Malformed transaction: Partial payment specified for XRP to XRP.";

            return temBAD_SEND_XRP_PARTIAL;
        }
        else if (bXRPDirect && limitQuality)
        {
            // Consistent but redundant transaction.
            m_journal.trace <<
                "Malformed transaction: Limit quality specified for XRP to XRP.";

            return temBAD_SEND_XRP_LIMIT;
        }
        else if (bXRPDirect && !defaultPathsAllowed)
        {
            // Consistent but redundant transaction.
            m_journal.trace <<
                "Malformed transaction: No ripple direct specified for XRP to XRP.";

            return temBAD_SEND_XRP_NO_DIRECT;
        }

        //
        // Open a ledger for editing.
        auto const index = getAccountRootIndex (uDstAccountID);
        SLE::pointer sleDst (mEngine->entryCache (ltACCOUNT_ROOT, index));

        if (!sleDst)
        {
            // Destination account does not exist.
            if (!saDstAmount.isNative ())
            {
                m_journal.trace <<
                    "Delay transaction: Destination account does not exist.";

                // Another transaction could create the account and then this
                // transaction would succeed.
                return tecNO_DST;
            }
            else if (mParams & tapOPEN_LEDGER && partialPaymentAllowed)
            {
                // You cannot fund an account with a partial payment.
                // Make retry work smaller, by rejecting this.
                m_journal.trace <<
                    "Delay transaction: Partial payment not allowed to create account.";


                // Another transaction could create the account and then this
                // transaction would succeed.
                return telNO_DST_PARTIAL;
            }
            else if (saDstAmount.getNValue () < mEngine->getLedger ()->getReserve (0))
            {
                // getReserve() is the minimum amount that an account can have.
                // Reserve is not scaled by load.
                m_journal.trace <<
                    "Delay transaction: Destination account does not exist. " <<
                    "Insufficent payment to create account.";

                // TODO: dedupe
                // Another transaction could create the account and then this
                // transaction would succeed.
                return tecNO_DST_INSUF_XRP;
            }

            // Create the account.
            auto const newIndex = getAccountRootIndex (uDstAccountID);
            sleDst = mEngine->entryCreate (ltACCOUNT_ROOT, newIndex);
            sleDst->setFieldAccount (sfAccount, uDstAccountID);
            sleDst->setFieldU32 (sfSequence, 1);
        }
        else if ((sleDst->getFlags () & lsfRequireDestTag) &&
                 !mTxn.isFieldPresent (sfDestinationTag))
        {
            // The tag is basically account-specific information we don't
            // understand, but we can require someone to fill it in.

            // We didn't make this test for a newly-formed account because there's
            // no way for this field to be set.
            m_journal.trace << "Malformed transaction: DestinationTag required.";

            return tefDST_TAG_NEEDED;
        }
        else
        {
            // Tell the engine that we are intending to change the the destination
            // account.  The source account gets always charged a fee so it's always
            // marked as modified.
            mEngine->entryModify (sleDst);
        }

        TER terResult;

        bool const bRipple = bPaths || bMax || !saDstAmount.isNative ();
        // XXX Should bMax be sufficient to imply ripple?

        if (bRipple)
        {
            // Ripple payment with at least one intermediate step and uses
            // transitive balances.

            // Copy paths into an editable class.
            STPathSet spsPaths = mTxn.getFieldPathSet (sfPaths);

            try
            {
                path::RippleCalc::Input rcInput;
                rcInput.partialPaymentAllowed = partialPaymentAllowed;
                rcInput.defaultPathsAllowed = defaultPathsAllowed;
                rcInput.limitQuality = limitQuality;
                rcInput.deleteUnfundedOffers = true;
                rcInput.isLedgerOpen = static_cast<bool>(mParams & tapOPEN_LEDGER);

                bool pathTooBig = spsPaths.size () > MaxPathSize;

                for (auto const& path : spsPaths)
                    if (path.size () > MaxPathLength)
                        pathTooBig = true;

                if (rcInput.isLedgerOpen && pathTooBig)
                {
                    terResult = telBAD_PATH_COUNT; // Too many paths for proposed ledger.
                }
                else
                {
                    auto rc = path::RippleCalc::rippleCalculate (
                        mEngine->view (),
                        maxSourceAmount,
                        saDstAmount,
                        uDstAccountID,
                        mTxnAccountID,
                        spsPaths,
                        &rcInput);

                    // TODO: is this right?  If the amount is the correct amount, was
                    // the delivered amount previously set?
                    if (rc.result () == tesSUCCESS && rc.actualAmountOut != saDstAmount)
                        mEngine->view ().setDeliveredAmount (rc.actualAmountOut);

                    terResult = rc.result ();
                }

                // TODO(tom): what's going on here?
                if (isTerRetry (terResult))
                    terResult = tecPATH_DRY;

            }
            catch (std::exception const& e)
            {
                m_journal.trace <<
                    "Caught throw: " << e.what ();

                terResult = tefEXCEPTION;
            }
        }
        else
        {
            // Direct XRP payment.

            // uOwnerCount is the number of entries in this legder for this account
            // that require a reserve.

            std::uint32_t const uOwnerCount (mTxnAccount->getFieldU32 (sfOwnerCount));

            // This is the total reserve in drops.
            // TODO(tom): there should be a class for this.
            std::uint64_t const uReserve (mEngine->getLedger ()->getReserve (uOwnerCount));

            // mPriorBalance is the balance on the sending account BEFORE the fees were charged.
            //
            // Make sure have enough reserve to send. Allow final spend to use
            // reserve for fee.
            auto const mmm = std::max(uReserve, mTxn.getTransactionFee ().getNValue ());
            if (mPriorBalance < saDstAmount + mmm)
            {
                // Vote no.
                // However, transaction might succeed, if applied in a different order.
                m_journal.trace << "Delay transaction: Insufficient funds: " <<
                    " " << mPriorBalance.getText () <<
                    " / " << (saDstAmount + uReserve).getText () <<
                    " (" << uReserve << ")";

                terResult = tecUNFUNDED_PAYMENT;
            }
            else
            {
                // The source account does have enough money, so do the arithmetic
                // for the transfer and make the ledger change.
                mTxnAccount->setFieldAmount (sfBalance, mSourceBalance - saDstAmount);
                sleDst->setFieldAmount (sfBalance, sleDst->getFieldAmount (sfBalance) + saDstAmount);

                // Re-arm the password change fee if we can and need to.
                if ((sleDst->getFlags () & lsfPasswordSpent))
                    sleDst->clearFlag (lsfPasswordSpent);

                terResult = tesSUCCESS;
            }
        }

        std::string strToken;
        std::string strHuman;

        if (transResultInfo (terResult, strToken, strHuman))
        {
            m_journal.trace <<
                strToken << ": " << strHuman;
        }
        else
        {
            assert (false);
        }

        return terResult;
    }
Beispiel #8
0
TER SetTrust::doApply ()
{
    TER terResult = tesSUCCESS;

    STAmount const saLimitAmount (mTxn.getFieldAmount (sfLimitAmount));
    bool const bQualityIn (mTxn.isFieldPresent (sfQualityIn));
    bool const bQualityOut (mTxn.isFieldPresent (sfQualityOut));

    Currency const currency (saLimitAmount.getCurrency ());
    Account uDstAccountID (saLimitAmount.getIssuer ());

    // true, iff current is high account.
    bool const bHigh = mTxnAccountID > uDstAccountID;

    std::uint32_t uQualityIn (bQualityIn ? mTxn.getFieldU32 (sfQualityIn) : 0);
    std::uint32_t uQualityOut (bQualityOut ? mTxn.getFieldU32 (sfQualityOut) : 0);

    if (!saLimitAmount.isLegalNet ())
        return temBAD_AMOUNT;

    if (bQualityIn && QUALITY_ONE == uQualityIn)
        uQualityIn = 0;

    if (bQualityOut && QUALITY_ONE == uQualityOut)
        uQualityOut = 0;

    std::uint32_t const uTxFlags = mTxn.getFlags ();

    if (uTxFlags & tfTrustSetMask)
    {
        m_journal.trace <<
            "Malformed transaction: Invalid flags set.";
        return temINVALID_FLAG;
    }

    bool const bSetAuth = (uTxFlags & tfSetfAuth);
    bool const bSetNoRipple = (uTxFlags & tfSetNoRipple);
    bool const bClearNoRipple  = (uTxFlags & tfClearNoRipple);
    bool const bSetFreeze = (uTxFlags & tfSetFreeze);
    bool const bClearFreeze = (uTxFlags & tfClearFreeze);

    if (bSetAuth && !(mTxnAccount->getFieldU32 (sfFlags) & lsfRequireAuth))
    {
        m_journal.trace <<
            "Retry: Auth not required.";
        return tefNO_AUTH_REQUIRED;
    }

    if (saLimitAmount.isNative ())
    {
        m_journal.trace <<
            "Malformed transaction: Native credit limit: " <<
            saLimitAmount.getFullText ();
        return temBAD_LIMIT;
    }

    if (saLimitAmount < zero)
    {
        m_journal.trace <<
            "Malformed transaction: Negative credit limit.";
        return temBAD_LIMIT;
    }

    // Check if destination makes sense.
    if (!uDstAccountID || uDstAccountID == noAccount())
    {
        m_journal.trace <<
            "Malformed transaction: Destination account not specified.";

        return temDST_NEEDED;
    }

    if (mTxnAccountID == uDstAccountID)
    {
        SLE::pointer selDelete (
            mEngine->entryCache (ltRIPPLE_STATE,
                Ledger::getRippleStateIndex (
                    mTxnAccountID, uDstAccountID, currency)));

        if (selDelete)
        {
            m_journal.warning <<
                "Clearing redundant line.";

            return mEngine->view ().trustDelete (
                selDelete, mTxnAccountID, uDstAccountID);
        }
        else
        {
            m_journal.trace <<
                "Malformed transaction: Can not extend credit to self.";
            return temDST_IS_SRC;
        }
    }

    SLE::pointer sleDst (mEngine->entryCache (
        ltACCOUNT_ROOT, Ledger::getAccountRootIndex (uDstAccountID)));

    if (!sleDst)
    {
        m_journal.trace <<
            "Delay transaction: Destination account does not exist.";
        return tecNO_DST;
    }

    std::uint32_t const uOwnerCount (mTxnAccount->getFieldU32 (sfOwnerCount));
    // The reserve required to create the line.
    std::uint64_t const uReserveCreate =
        (uOwnerCount < 2)
            ? 0
            : mEngine->getLedger ()->getReserve (uOwnerCount + 1);

    STAmount saLimitAllow = saLimitAmount;
    saLimitAllow.setIssuer (mTxnAccountID);

    SLE::pointer sleRippleState (mEngine->entryCache (ltRIPPLE_STATE,
        Ledger::getRippleStateIndex (mTxnAccountID, uDstAccountID, currency)));

    if (sleRippleState)
    {
        STAmount        saLowBalance;
        STAmount        saLowLimit;
        STAmount        saHighBalance;
        STAmount        saHighLimit;
        std::uint32_t   uLowQualityIn;
        std::uint32_t   uLowQualityOut;
        std::uint32_t   uHighQualityIn;
        std::uint32_t   uHighQualityOut;
        auto const& uLowAccountID   = !bHigh ? mTxnAccountID : uDstAccountID;
        auto const& uHighAccountID  =  bHigh ? mTxnAccountID : uDstAccountID;
        SLE::ref        sleLowAccount   = !bHigh ? mTxnAccount : sleDst;
        SLE::ref        sleHighAccount  =  bHigh ? mTxnAccount : sleDst;

        //
        // Balances
        //

        saLowBalance    = sleRippleState->getFieldAmount (sfBalance);
        saHighBalance   = -saLowBalance;

        //
        // Limits
        //

        sleRippleState->setFieldAmount (!bHigh ? sfLowLimit : sfHighLimit, saLimitAllow);

        saLowLimit  = !bHigh ? saLimitAllow : sleRippleState->getFieldAmount (sfLowLimit);
        saHighLimit =  bHigh ? saLimitAllow : sleRippleState->getFieldAmount (sfHighLimit);

        //
        // Quality in
        //

        if (!bQualityIn)
        {
            // Not setting. Just get it.

            uLowQualityIn   = sleRippleState->getFieldU32 (sfLowQualityIn);
            uHighQualityIn  = sleRippleState->getFieldU32 (sfHighQualityIn);
        }
        else if (uQualityIn)
        {
            // Setting.

            sleRippleState->setFieldU32 (!bHigh ? sfLowQualityIn : sfHighQualityIn, uQualityIn);

            uLowQualityIn   = !bHigh ? uQualityIn : sleRippleState->getFieldU32 (sfLowQualityIn);
            uHighQualityIn  =  bHigh ? uQualityIn : sleRippleState->getFieldU32 (sfHighQualityIn);
        }
        else
        {
            // Clearing.

            sleRippleState->makeFieldAbsent (!bHigh ? sfLowQualityIn : sfHighQualityIn);

            uLowQualityIn   = !bHigh ? 0 : sleRippleState->getFieldU32 (sfLowQualityIn);
            uHighQualityIn  =  bHigh ? 0 : sleRippleState->getFieldU32 (sfHighQualityIn);
        }

        if (QUALITY_ONE == uLowQualityIn)   uLowQualityIn   = 0;

        if (QUALITY_ONE == uHighQualityIn)  uHighQualityIn  = 0;

        //
        // Quality out
        //

        if (!bQualityOut)
        {
            // Not setting. Just get it.

            uLowQualityOut  = sleRippleState->getFieldU32 (sfLowQualityOut);
            uHighQualityOut = sleRippleState->getFieldU32 (sfHighQualityOut);
        }
        else if (uQualityOut)
        {
            // Setting.

            sleRippleState->setFieldU32 (!bHigh ? sfLowQualityOut : sfHighQualityOut, uQualityOut);

            uLowQualityOut  = !bHigh ? uQualityOut : sleRippleState->getFieldU32 (sfLowQualityOut);
            uHighQualityOut =  bHigh ? uQualityOut : sleRippleState->getFieldU32 (sfHighQualityOut);
        }
        else
        {
            // Clearing.

            sleRippleState->makeFieldAbsent (!bHigh ? sfLowQualityOut : sfHighQualityOut);

            uLowQualityOut  = !bHigh ? 0 : sleRippleState->getFieldU32 (sfLowQualityOut);
            uHighQualityOut =  bHigh ? 0 : sleRippleState->getFieldU32 (sfHighQualityOut);
        }

        std::uint32_t const uFlagsIn (sleRippleState->getFieldU32 (sfFlags));
        std::uint32_t uFlagsOut (uFlagsIn);

        if (bSetNoRipple && !bClearNoRipple && (bHigh ? saHighBalance : saLowBalance) >= zero)
        {
            uFlagsOut |= (bHigh ? lsfHighNoRipple : lsfLowNoRipple);
        }
        else if (bClearNoRipple && !bSetNoRipple)
        {
            uFlagsOut &= ~(bHigh ? lsfHighNoRipple : lsfLowNoRipple);
        }

        if (bSetFreeze && !bClearFreeze && !mTxnAccount->isFlag  (lsfNoFreeze))
        {
            uFlagsOut           |= (bHigh ? lsfHighFreeze : lsfLowFreeze);
        }
        else if (bClearFreeze && !bSetFreeze)
        {
            uFlagsOut           &= ~(bHigh ? lsfHighFreeze : lsfLowFreeze);
        }

        if (QUALITY_ONE == uLowQualityOut)  uLowQualityOut  = 0;

        if (QUALITY_ONE == uHighQualityOut) uHighQualityOut = 0;


        bool const  bLowReserveSet      = uLowQualityIn || uLowQualityOut ||
                                          (uFlagsOut & lsfLowNoRipple) ||
                                          (uFlagsOut & lsfLowFreeze) ||
                                          saLowLimit || saLowBalance > zero;
        bool const  bLowReserveClear    = !bLowReserveSet;

        bool const  bHighReserveSet     = uHighQualityIn || uHighQualityOut ||
                                          (uFlagsOut & lsfHighNoRipple) ||
                                          (uFlagsOut & lsfHighFreeze) ||
                                          saHighLimit || saHighBalance > zero;
        bool const  bHighReserveClear   = !bHighReserveSet;

        bool const  bDefault            = bLowReserveClear && bHighReserveClear;

        bool const  bLowReserved = (uFlagsIn & lsfLowReserve);
        bool const  bHighReserved = (uFlagsIn & lsfHighReserve);

        bool        bReserveIncrease    = false;

        if (bSetAuth)
        {
            uFlagsOut |= (bHigh ? lsfHighAuth : lsfLowAuth);
        }

        if (bLowReserveSet && !bLowReserved)
        {
            // Set reserve for low account.

            mEngine->view ().ownerCountAdjust (uLowAccountID, 1, sleLowAccount);
            uFlagsOut |= lsfLowReserve;

            if (!bHigh)
                bReserveIncrease = true;
        }

        if (bLowReserveClear && bLowReserved)
        {
            // Clear reserve for low account.

            mEngine->view ().ownerCountAdjust (uLowAccountID, -1, sleLowAccount);
            uFlagsOut &= ~lsfLowReserve;
        }

        if (bHighReserveSet && !bHighReserved)
        {
            // Set reserve for high account.

            mEngine->view ().ownerCountAdjust (uHighAccountID, 1, sleHighAccount);
            uFlagsOut |= lsfHighReserve;

            if (bHigh)
                bReserveIncrease    = true;
        }

        if (bHighReserveClear && bHighReserved)
        {
            // Clear reserve for high account.

            mEngine->view ().ownerCountAdjust (uHighAccountID, -1, sleHighAccount);
            uFlagsOut &= ~lsfHighReserve;
        }

        if (uFlagsIn != uFlagsOut)
            sleRippleState->setFieldU32 (sfFlags, uFlagsOut);

        if (bDefault || badCurrency() == currency)
        {
            // Delete.

            terResult = mEngine->view ().trustDelete (sleRippleState, uLowAccountID, uHighAccountID);
        }
        else if (bReserveIncrease
                 && mPriorBalance.getNValue () < uReserveCreate) // Reserve is not scaled by load.
        {
            m_journal.trace <<
                "Delay transaction: Insufficent reserve to add trust line.";

            // Another transaction could provide XRP to the account and then
            // this transaction would succeed.
            terResult = tecINSUF_RESERVE_LINE;
        }
        else
        {
            mEngine->entryModify (sleRippleState);

            m_journal.trace << "Modify ripple line";
        }
    }
    // Line does not exist.
    else if (!saLimitAmount                       // Setting default limit.
             && (!bQualityIn || !uQualityIn)      // Not setting quality in or setting default quality in.
             && (!bQualityOut || !uQualityOut))   // Not setting quality out or setting default quality out.
    {
        m_journal.trace <<
            "Redundant: Setting non-existent ripple line to defaults.";
        return tecNO_LINE_REDUNDANT;
    }
    else if (mPriorBalance.getNValue () < uReserveCreate) // Reserve is not scaled by load.
    {
        m_journal.trace <<
            "Delay transaction: Line does not exist. Insufficent reserve to create line.";

        // Another transaction could create the account and then this transaction would succeed.
        terResult = tecNO_LINE_INSUF_RESERVE;
    }
    else if (badCurrency() == currency)
    {
        terResult = temBAD_CURRENCY;
    }
    else
    {
        // Zero balance in currency.
        STAmount saBalance ({currency, noAccount()});

        uint256 index (Ledger::getRippleStateIndex (
            mTxnAccountID, uDstAccountID, currency));

        m_journal.trace <<
            "doTrustSet: Creating ripple line: " <<
            to_string (index);

        // Create a new ripple line.
        terResult = mEngine->view ().trustCreate (
                          bHigh,
                          mTxnAccountID,
                          uDstAccountID,
                          index,
                          mTxnAccount,
                          bSetAuth,
                          bSetNoRipple && !bClearNoRipple,
                          bSetFreeze && !bClearFreeze,
                          saBalance,
                          saLimitAllow,       // Limit for who is being charged.
                          uQualityIn,
                          uQualityOut);
    }

    return terResult;
}
Beispiel #9
0
TER
SetTrust::doApply ()
{
    TER terResult = tesSUCCESS;

    STAmount const saLimitAmount (tx().getFieldAmount (sfLimitAmount));
    bool const bQualityIn (tx().isFieldPresent (sfQualityIn));
    bool const bQualityOut (tx().isFieldPresent (sfQualityOut));

    Currency const currency (saLimitAmount.getCurrency ());
    AccountID uDstAccountID (saLimitAmount.getIssuer ());

    // true, iff current is high account.
    bool const bHigh = account_ > uDstAccountID;

    auto const sle = view().peek(
        keylet::account(account_));

    std::uint32_t const uOwnerCount = sle->getFieldU32 (sfOwnerCount);

    // The reserve required to create the line. Note that we allow up to
    // two trust lines without requiring a reserve because being able to
    // exchange currencies is a powerful Ripple feature.
    //
    // This is also a security feature: if you're a gateway and you want to
    // be able to let someone use your services, you would otherwise have to
    // give them enough XRP to cover the incremental reserve for their trust
    // line. If they had no intention of using your services, they could use
    // the XRP for their own purposes. So we make it possible for gateways
    // to fund accounts in a way where there's no incentive to trick them
    // into creating an account you have no intention of using.

    XRPAmount const reserveCreate ((uOwnerCount < 2)
        ? XRPAmount (zero)
        : view().fees().accountReserve(uOwnerCount + 1));

    std::uint32_t uQualityIn (bQualityIn ? tx().getFieldU32 (sfQualityIn) : 0);
    std::uint32_t uQualityOut (bQualityOut ? tx().getFieldU32 (sfQualityOut) : 0);

    if (bQualityOut && QUALITY_ONE == uQualityOut)
        uQualityOut = 0;

    std::uint32_t const uTxFlags = tx().getFlags ();

    bool const bSetAuth = (uTxFlags & tfSetfAuth);
    bool const bSetNoRipple = (uTxFlags & tfSetNoRipple);
    bool const bClearNoRipple  = (uTxFlags & tfClearNoRipple);
    bool const bSetFreeze = (uTxFlags & tfSetFreeze);
    bool const bClearFreeze = (uTxFlags & tfClearFreeze);

    auto viewJ = ctx_.app.journal ("View");

    if (bSetAuth && !(sle->getFieldU32 (sfFlags) & lsfRequireAuth))
    {
        j_.trace <<
            "Retry: Auth not required.";
        return tefNO_AUTH_REQUIRED;
    }

    if (account_ == uDstAccountID)
    {
        // The only purpose here is to allow a mistakenly created
        // trust line to oneself to be deleted. If no such trust
        // lines exist now, why not remove this code and simply
        // return an error?
        SLE::pointer sleDelete = view().peek (
            keylet::line(account_, uDstAccountID, currency));

        if (sleDelete)
        {
            j_.warning <<
                "Clearing redundant line.";

            return trustDelete (view(),
                sleDelete, account_, uDstAccountID, viewJ);
        }
        else
        {
            j_.trace <<
                "Malformed transaction: Can not extend credit to self.";
            return temDST_IS_SRC;
        }
    }

    SLE::pointer sleDst =
        view().peek (keylet::account(uDstAccountID));

    if (!sleDst)
    {
        j_.trace <<
            "Delay transaction: Destination account does not exist.";
        return tecNO_DST;
    }

    STAmount saLimitAllow = saLimitAmount;
    saLimitAllow.setIssuer (account_);

    SLE::pointer sleRippleState = view().peek (
        keylet::line(account_, uDstAccountID, currency));

    if (sleRippleState)
    {
        STAmount        saLowBalance;
        STAmount        saLowLimit;
        STAmount        saHighBalance;
        STAmount        saHighLimit;
        std::uint32_t   uLowQualityIn;
        std::uint32_t   uLowQualityOut;
        std::uint32_t   uHighQualityIn;
        std::uint32_t   uHighQualityOut;
        auto const& uLowAccountID   = !bHigh ? account_ : uDstAccountID;
        auto const& uHighAccountID  =  bHigh ? account_ : uDstAccountID;
        SLE::ref        sleLowAccount   = !bHigh ? sle : sleDst;
        SLE::ref        sleHighAccount  =  bHigh ? sle : sleDst;

        //
        // Balances
        //

        saLowBalance    = sleRippleState->getFieldAmount (sfBalance);
        saHighBalance   = -saLowBalance;

        //
        // Limits
        //

        sleRippleState->setFieldAmount (!bHigh ? sfLowLimit : sfHighLimit, saLimitAllow);

        saLowLimit  = !bHigh ? saLimitAllow : sleRippleState->getFieldAmount (sfLowLimit);
        saHighLimit =  bHigh ? saLimitAllow : sleRippleState->getFieldAmount (sfHighLimit);

        //
        // Quality in
        //

        if (!bQualityIn)
        {
            // Not setting. Just get it.

            uLowQualityIn   = sleRippleState->getFieldU32 (sfLowQualityIn);
            uHighQualityIn  = sleRippleState->getFieldU32 (sfHighQualityIn);
        }
        else if (uQualityIn)
        {
            // Setting.

            sleRippleState->setFieldU32 (!bHigh ? sfLowQualityIn : sfHighQualityIn, uQualityIn);

            uLowQualityIn   = !bHigh ? uQualityIn : sleRippleState->getFieldU32 (sfLowQualityIn);
            uHighQualityIn  =  bHigh ? uQualityIn : sleRippleState->getFieldU32 (sfHighQualityIn);
        }
        else
        {
            // Clearing.

            sleRippleState->makeFieldAbsent (!bHigh ? sfLowQualityIn : sfHighQualityIn);

            uLowQualityIn   = !bHigh ? 0 : sleRippleState->getFieldU32 (sfLowQualityIn);
            uHighQualityIn  =  bHigh ? 0 : sleRippleState->getFieldU32 (sfHighQualityIn);
        }

        if (QUALITY_ONE == uLowQualityIn)   uLowQualityIn   = 0;

        if (QUALITY_ONE == uHighQualityIn)  uHighQualityIn  = 0;

        //
        // Quality out
        //

        if (!bQualityOut)
        {
            // Not setting. Just get it.

            uLowQualityOut  = sleRippleState->getFieldU32 (sfLowQualityOut);
            uHighQualityOut = sleRippleState->getFieldU32 (sfHighQualityOut);
        }
        else if (uQualityOut)
        {
            // Setting.

            sleRippleState->setFieldU32 (!bHigh ? sfLowQualityOut : sfHighQualityOut, uQualityOut);

            uLowQualityOut  = !bHigh ? uQualityOut : sleRippleState->getFieldU32 (sfLowQualityOut);
            uHighQualityOut =  bHigh ? uQualityOut : sleRippleState->getFieldU32 (sfHighQualityOut);
        }
        else
        {
            // Clearing.

            sleRippleState->makeFieldAbsent (!bHigh ? sfLowQualityOut : sfHighQualityOut);

            uLowQualityOut  = !bHigh ? 0 : sleRippleState->getFieldU32 (sfLowQualityOut);
            uHighQualityOut =  bHigh ? 0 : sleRippleState->getFieldU32 (sfHighQualityOut);
        }

        std::uint32_t const uFlagsIn (sleRippleState->getFieldU32 (sfFlags));
        std::uint32_t uFlagsOut (uFlagsIn);

        if (bSetNoRipple && !bClearNoRipple && (bHigh ? saHighBalance : saLowBalance) >= zero)
        {
            uFlagsOut |= (bHigh ? lsfHighNoRipple : lsfLowNoRipple);
        }
        else if (bClearNoRipple && !bSetNoRipple)
        {
            uFlagsOut &= ~(bHigh ? lsfHighNoRipple : lsfLowNoRipple);
        }

        if (bSetFreeze && !bClearFreeze && !sle->isFlag  (lsfNoFreeze))
        {
            uFlagsOut           |= (bHigh ? lsfHighFreeze : lsfLowFreeze);
        }
        else if (bClearFreeze && !bSetFreeze)
        {
            uFlagsOut           &= ~(bHigh ? lsfHighFreeze : lsfLowFreeze);
        }

        if (QUALITY_ONE == uLowQualityOut)  uLowQualityOut  = 0;

        if (QUALITY_ONE == uHighQualityOut) uHighQualityOut = 0;

        bool const bLowDefRipple        = sleLowAccount->getFlags() & lsfDefaultRipple;
        bool const bHighDefRipple       = sleHighAccount->getFlags() & lsfDefaultRipple;

        bool const  bLowReserveSet      = uLowQualityIn || uLowQualityOut ||
                                            ((uFlagsOut & lsfLowNoRipple) == 0) != bLowDefRipple ||
                                            (uFlagsOut & lsfLowFreeze) ||
                                            saLowLimit || saLowBalance > zero;
        bool const  bLowReserveClear    = !bLowReserveSet;

        bool const  bHighReserveSet     = uHighQualityIn || uHighQualityOut ||
                                            ((uFlagsOut & lsfHighNoRipple) == 0) != bHighDefRipple ||
                                            (uFlagsOut & lsfHighFreeze) ||
                                            saHighLimit || saHighBalance > zero;
        bool const  bHighReserveClear   = !bHighReserveSet;

        bool const  bDefault            = bLowReserveClear && bHighReserveClear;

        bool const  bLowReserved = (uFlagsIn & lsfLowReserve);
        bool const  bHighReserved = (uFlagsIn & lsfHighReserve);

        bool        bReserveIncrease    = false;

        if (bSetAuth)
        {
            uFlagsOut |= (bHigh ? lsfHighAuth : lsfLowAuth);
        }

        if (bLowReserveSet && !bLowReserved)
        {
            // Set reserve for low account.
            adjustOwnerCount(view(),
                sleLowAccount, 1, viewJ);
            uFlagsOut |= lsfLowReserve;

            if (!bHigh)
                bReserveIncrease = true;
        }

        if (bLowReserveClear && bLowReserved)
        {
            // Clear reserve for low account.
            adjustOwnerCount(view(),
                sleLowAccount, -1, viewJ);
            uFlagsOut &= ~lsfLowReserve;
        }

        if (bHighReserveSet && !bHighReserved)
        {
            // Set reserve for high account.
            adjustOwnerCount(view(),
                sleHighAccount, 1, viewJ);
            uFlagsOut |= lsfHighReserve;

            if (bHigh)
                bReserveIncrease    = true;
        }

        if (bHighReserveClear && bHighReserved)
        {
            // Clear reserve for high account.
            adjustOwnerCount(view(),
                sleHighAccount, -1, viewJ);
            uFlagsOut &= ~lsfHighReserve;
        }

        if (uFlagsIn != uFlagsOut)
            sleRippleState->setFieldU32 (sfFlags, uFlagsOut);

        if (bDefault || badCurrency() == currency)
        {
            // Delete.

            terResult = trustDelete (view(),
                sleRippleState, uLowAccountID, uHighAccountID, viewJ);
        }
        // Reserve is not scaled by load.
        else if (bReserveIncrease && mPriorBalance < reserveCreate)
        {
            j_.trace <<
                "Delay transaction: Insufficent reserve to add trust line.";

            // Another transaction could provide XRP to the account and then
            // this transaction would succeed.
            terResult = tecINSUF_RESERVE_LINE;
        }
        else
        {
            view().update (sleRippleState);

            j_.trace << "Modify ripple line";
        }
    }
    // Line does not exist.
    else if (! saLimitAmount &&                          // Setting default limit.
        (! bQualityIn || ! uQualityIn) &&           // Not setting quality in or setting default quality in.
        (! bQualityOut || ! uQualityOut) &&         // Not setting quality out or setting default quality out.
        (! ((view().flags() & tapENABLE_TESTING) ||
            view().rules().enabled(featureTrustSetAuth,
                ctx_.config.features)) || ! bSetAuth))
    {
        j_.trace <<
            "Redundant: Setting non-existent ripple line to defaults.";
        return tecNO_LINE_REDUNDANT;
    }
    else if (mPriorBalance < reserveCreate) // Reserve is not scaled by load.
    {
        j_.trace <<
            "Delay transaction: Line does not exist. Insufficent reserve to create line.";

        // Another transaction could create the account and then this transaction would succeed.
        terResult = tecNO_LINE_INSUF_RESERVE;
    }
    else
    {
        // Zero balance in currency.
        STAmount saBalance ({currency, noAccount()});

        uint256 index (getRippleStateIndex (
            account_, uDstAccountID, currency));

        j_.trace <<
            "doTrustSet: Creating ripple line: " <<
            to_string (index);

        // Create a new ripple line.
        terResult = trustCreate (view(),
            bHigh,
            account_,
            uDstAccountID,
            index,
            sle,
            bSetAuth,
            bSetNoRipple && !bClearNoRipple,
            bSetFreeze && !bClearFreeze,
            saBalance,
            saLimitAllow,       // Limit for who is being charged.
            uQualityIn,
            uQualityOut, viewJ);
    }

    return terResult;
}
Beispiel #10
0
TER PaymentTransactor::doApply ()
{
    // Ripple if source or destination is non-native or if there are paths.
    std::uint32_t const uTxFlags = mTxn.getFlags ();
	//bool const bPartialPayment = is_bit_set(uTxFlags, tfPartialPayment);
    bool const bLimitQuality = is_bit_set (uTxFlags, tfLimitQuality);
    bool const bNoRippleDirect = is_bit_set (uTxFlags, tfNoRippleDirect);
    bool const bPaths = mTxn.isFieldPresent (sfPaths);
    bool const bMax = mTxn.isFieldPresent (sfSendMax);
    uint160 const uDstAccountID = mTxn.getFieldAccount160 (sfDestination);
    STAmount const saDstAmount = mTxn.getFieldAmount (sfAmount);
    STAmount const saMaxAmount = bMax
                                   ? mTxn.getFieldAmount (sfSendMax)
                                   : saDstAmount.isNative ()
                                   ? saDstAmount
                                   : STAmount (saDstAmount.getCurrency (),
                                        mTxnAccountID,
                                        saDstAmount.getMantissa (),
                                        saDstAmount.getExponent (),
                                        saDstAmount < zero);
    uint160 const uSrcCurrency = saMaxAmount.getCurrency ();
    uint160 const uDstCurrency = saDstAmount.getCurrency ();
    bool const bSTRDirect = uSrcCurrency.isZero () && uDstCurrency.isZero ();

	
    m_journal.trace <<
        "saMaxAmount=" << saMaxAmount.getFullText () <<
        " saDstAmount=" << saDstAmount.getFullText ();

    if (!saDstAmount.isLegalNet () || !saMaxAmount.isLegalNet ())
        return temBAD_AMOUNT;

    if (uTxFlags & tfPaymentMask)
    {
        m_journal.trace <<
            "Malformed transaction: Invalid flags set.";

        return temINVALID_FLAG;
    }
    else if (!uDstAccountID)
    {
        m_journal.trace <<
            "Malformed transaction: Payment destination account not specified.";

        return temDST_NEEDED;
    }
    else if (bMax && saMaxAmount <= zero)
    {
        m_journal.trace <<
            "Malformed transaction: bad max amount: " << saMaxAmount.getFullText ();

        return temBAD_AMOUNT;
    }
    else if (saDstAmount <= zero)
    {
        m_journal.trace <<
            "Malformed transaction: bad dst amount: " << saDstAmount.getFullText ();

        return temBAD_AMOUNT;
    }
    else if (CURRENCY_BAD == uSrcCurrency || CURRENCY_BAD == uDstCurrency)
    {
        m_journal.trace <<
            "Malformed transaction: Bad currency.";

        return temBAD_CURRENCY;
    }
    else if (mTxnAccountID == uDstAccountID && uSrcCurrency == uDstCurrency && !bPaths)
    {
        m_journal.trace <<
            "Malformed transaction: Redundant transaction:" <<
            " src=" << to_string (mTxnAccountID) <<
            " dst=" << to_string (uDstAccountID) <<
            " src_cur=" << to_string (uSrcCurrency) <<
            " dst_cur=" << to_string (uDstCurrency);

        return temREDUNDANT;
    }
    else if (bMax && saMaxAmount == saDstAmount && saMaxAmount.getCurrency () == saDstAmount.getCurrency ())
    {
        m_journal.trace <<
            "Malformed transaction: Redundant SendMax.";

        return temREDUNDANT_SEND_MAX;
    }
    else if (bSTRDirect && bMax)
    {
        m_journal.trace <<
            "Malformed transaction: SendMax specified for STR to STR.";

        return temBAD_SEND_STR_MAX;
    }
    else if (bSTRDirect && bPaths)
    {
        m_journal.trace <<
            "Malformed transaction: Paths specified for STR to STR.";

        return temBAD_SEND_STR_PATHS;
    }
    else if (bSTRDirect && bLimitQuality)
    {
        m_journal.trace <<
            "Malformed transaction: Limit quality specified for STR to STR.";

        return temBAD_SEND_STR_LIMIT;
    }
    else if (bSTRDirect && bNoRippleDirect)
    {
        m_journal.trace <<
            "Malformed transaction: No ripple direct specified for STR to STR.";

        return temBAD_SEND_STR_NO_DIRECT;
    }

    SLE::pointer sleDst (mEngine->entryCache (
        ltACCOUNT_ROOT, Ledger::getAccountRootIndex (uDstAccountID)));

    if (!sleDst)
    {
        // Destination account does not exist.

        if (!saDstAmount.isNative ())
        {
            m_journal.trace <<
                "Delay transaction: Destination account does not exist.";

            // Another transaction could create the account and then this transaction would succeed.
            return tecNO_DST;
        }
        
        // Note: Reserve is not scaled by load.
        else if (saDstAmount.getNValue () < mEngine->getLedger ()->getReserve (0))
        {
            m_journal.trace <<
                "Delay transaction: Destination account does not exist. " <<
                "Insufficient payment to create account.";

            // Another transaction could create the account and then this
            // transaction would succeed.
            return tecNO_DST_INSUF_STR;
        }

        // Create the account.
        sleDst = mEngine->entryCreate (
            ltACCOUNT_ROOT, Ledger::getAccountRootIndex (uDstAccountID));

        sleDst->setFieldAccount (sfAccount, uDstAccountID);
        sleDst->setFieldU32 (sfSequence, 1);
    }
    else if ((sleDst->getFlags () & lsfRequireDestTag) && !mTxn.isFieldPresent (sfDestinationTag))
    {
        m_journal.trace <<
            "Malformed transaction: DestinationTag required.";

        return tefDST_TAG_NEEDED;
    }
    else
    {
        mEngine->entryModify (sleDst);
    }

    TER terResult;
    // XXX Should bMax be sufficient to imply ripple?
    bool const bRipple = bPaths || bMax || !saDstAmount.isNative ();

    if (bRipple)
    {
        // Ripple payment

        STPathSet spsPaths = mTxn.getFieldPathSet (sfPaths);
        std::vector<PathState::pointer> vpsExpanded;
        STAmount saMaxAmountAct;
        STAmount saDstAmountAct;

        try
        {
            bool const openLedger = is_bit_set (mParams, tapOPEN_LEDGER);
			bool tooManyPaths = false;
			if (spsPaths.size() > MAX_NUM_PATHS) tooManyPaths = true;
			else
			{
				for (auto const& path : spsPaths)
				{
					if (path.size() > MAX_PATH_SIZE)
					{
						tooManyPaths = true;
						break;
					}
				}
			}

			
			terResult = openLedger && tooManyPaths
				? telBAD_PATH_COUNT // Too many paths for proposed ledger.
				: RippleCalc::rippleCalc(
				mEngine->view(),
				saMaxAmountAct,
				saDstAmountAct,
				vpsExpanded,
				saMaxAmount,
				saDstAmount,
				uDstAccountID,
				mTxnAccountID,
				spsPaths,
				false,
				bLimitQuality,
				bNoRippleDirect, // Always compute for finalizing ledger.
				false, // Not standalone, delete unfundeds.
				is_bit_set(mParams, tapOPEN_LEDGER));

			if (isTerRetry(terResult))
				terResult = tecPATH_DRY;

			if ((tesSUCCESS == terResult) && (saDstAmountAct != saDstAmount))
				mEngine->view().setDeliveredAmount(saDstAmountAct);
			
        }
        catch (std::exception const& e)
        {
            m_journal.trace <<
                "Caught throw: " << e.what ();

            terResult   = tefEXCEPTION;
        }
    }
    else
    {
        // Direct STR payment.

        std::uint32_t const uOwnerCount (mTxnAccount->getFieldU32 (sfOwnerCount));
        std::uint64_t const uReserve (mEngine->getLedger ()->getReserve (uOwnerCount));

        // Make sure have enough reserve to send. Allow final spend to use reserve for fee.
        if (mPriorBalance < saDstAmount + std::max(uReserve, mTxn.getTransactionFee ().getNValue ()))
        {
            // Vote no. However, transaction might succeed, if applied in a different order.
            m_journal.trace << "Delay transaction: Insufficient funds: " <<
                " " << mPriorBalance.getText () <<
                " / " << (saDstAmount + uReserve).getText () <<
                " (" << uReserve << ")";

            terResult   = tecUNFUNDED_PAYMENT;
        }
        else
        {
            mTxnAccount->setFieldAmount (sfBalance, mSourceBalance - saDstAmount);
            sleDst->setFieldAmount (sfBalance, sleDst->getFieldAmount (sfBalance) + saDstAmount);


            terResult = tesSUCCESS;
        }
    }

    std::string strToken;
    std::string strHuman;

    if (transResultInfo (terResult, strToken, strHuman))
    {
        m_journal.trace <<
            strToken << ": " << strHuman;
    }
    else
    {
        assert (false);
    }

    return terResult;
}
Beispiel #11
0
// {
//   account: <account>|<account_public_key>
//   account_index: <number>        // optional, defaults to 0.
//   ledger_hash : <ledger>
//   ledger_index : <ledger_index>
//   limit: integer                 // optional
//   marker: opaque                 // optional, resume previous query
// }
Json::Value doAccountOffers (RPC::Context& context)
{
    auto const& params (context.params_);

    Ledger::pointer ledger;
    Json::Value result (RPC::lookupLedger (params, ledger, context.netOps_));

    if (! ledger)
        return result;

    if (! params.isMember (jss::account))
        return RPC::missing_field_error ("account");

    std::string strIdent (params[jss::account].asString ());
    bool bIndex (params.isMember (jss::account_index));
    int const iIndex (bIndex ? params[jss::account_index].asUInt () : 0);

    RippleAddress rippleAddress;

    result = RPC::accountFromString (ledger, rippleAddress, bIndex, strIdent,
        iIndex, false, context.netOps_);

    if (! result.empty ())
        return result;

    // Get info on account.
    result[jss::account] = rippleAddress.humanAccountID ();

    if (bIndex)
        result[jss::account_index] = iIndex;

    if (! ledger->hasAccount (rippleAddress))
        return rpcError (rpcACT_NOT_FOUND);

    unsigned int limit;
    if (params.isMember (jss::limit))
    {
        limit = std::max (RPC::Tuning::minOffersPerRequest,
            std::min (params[jss::limit].asUInt (),
            RPC::Tuning::maxOffersPerRequest));
    }
    else
    {
        limit = RPC::Tuning::defaultOffersPerRequest;
    }
    
    Account const& raAccount (rippleAddress.getAccountID ());
    Json::Value& jsonOffers (result[jss::offers] = Json::arrayValue); 
    std::vector <SLE::pointer> offers;
    unsigned int reserve (limit);
    uint256 startAfter;
    std::uint64_t startHint;

    if (params.isMember(jss::marker))
    {
        // We have a start point. Use limit - 1 from the result and use the
        // very last one for the resume.        
        Json::Value const& marker (params[jss::marker]);

        if (! marker.isString ())
            return rpcError (rpcACT_MALFORMED);

        startAfter.SetHex (marker.asString ());
        SLE::pointer sleOffer (ledger->getSLEi (startAfter));

        if (sleOffer == nullptr ||
            sleOffer->getType () != ltOFFER ||
            raAccount != sleOffer->getFieldAccount160 (sfAccount))
        {
            return rpcError (rpcINVALID_PARAMS);
        }

        startHint = sleOffer->getFieldU64(sfOwnerNode);

        // Caller provided the first offer (startAfter), add it as first result
        Json::Value& obj (jsonOffers.append (Json::objectValue));
        sleOffer->getFieldAmount (sfTakerPays).setJson (obj[jss::taker_pays]);
        sleOffer->getFieldAmount (sfTakerGets).setJson (obj[jss::taker_gets]);
        obj[jss::seq] = sleOffer->getFieldU32 (sfSequence);
        obj[jss::flags] = sleOffer->getFieldU32 (sfFlags);            

        offers.reserve (reserve);
    }
    else
    {
        startHint = 0;
        // We have no start point, limit should be one higher than requested.            
        offers.reserve (++reserve);
    }

    if (! ledger->visitAccountItems (raAccount, startAfter, startHint, reserve,
        [&offers](SLE::ref offer)
        {
            if (offer->getType () == ltOFFER)
            {
                offers.emplace_back (offer);
                return true;
            }

            return false;
        }))
    {
        return rpcError (rpcINVALID_PARAMS);
    }

    if (offers.size () == reserve)
    {
        result[jss::limit] = limit;

        result[jss::marker] = to_string (offers.back ()->getIndex ());        
        offers.pop_back ();
    }

    for (auto const& offer : offers)
    {
        Json::Value& obj (jsonOffers.append (Json::objectValue));
        offer->getFieldAmount (sfTakerPays).setJson (obj[jss::taker_pays]);
        offer->getFieldAmount (sfTakerGets).setJson (obj[jss::taker_gets]);
        obj[jss::seq] = offer->getFieldU32 (sfSequence);
        obj[jss::flags] = offer->getFieldU32 (sfFlags);            
    }

    context.loadType_ = Resource::feeMediumBurdenRPC;
    return result;
}