コード例 #1
0
ファイル: SetTrust.cpp プロジェクト: CCJY/rippled
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;
}
コード例 #2
0
ファイル: TrustSetTransactor.cpp プロジェクト: 12w21/rippled
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;
}
コード例 #3
0
ファイル: SetTrust.cpp プロジェクト: alexandrev/rippled
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;
}