TER Change::applyFee ()
{
SLE::pointer feeObject = mEngine->entryCache (
ltFEE_SETTINGS, Ledger::getLedgerFeeIndex ());
if (!feeObject)
feeObject = mEngine->entryCreate (
ltFEE_SETTINGS, Ledger::getLedgerFeeIndex ());
m_journal.trace <<
"Previous fee object: " << feeObject->getJson (0);
feeObject->setFieldU64 (
sfBaseFee, mTxn.getFieldU64 (sfBaseFee));
feeObject->setFieldU32 (
sfReferenceFeeUnits, mTxn.getFieldU32 (sfReferenceFeeUnits));
feeObject->setFieldU32 (
sfReserveBase, mTxn.getFieldU32 (sfReserveBase));
feeObject->setFieldU32 (
sfReserveIncrement, mTxn.getFieldU32 (sfReserveIncrement));
mEngine->entryModify (feeObject);
m_journal.trace <<
"New fee object: " << feeObject->getJson (0);
m_journal.warning << "Fees have been changed";
return tesSUCCESS;
}
void
SetSignerList::writeSignersToSLE (SLE::pointer const& ledgerEntry) const
{
// Assign the quorum.
ledgerEntry->setFieldU32 (sfSignerQuorum, quorum_);
// For now, assign the default SignerListID.
ledgerEntry->setFieldU32 (sfSignerListID, defaultSignerListID_);
// Create the SignerListArray one SignerEntry at a time.
STArray toLedger (signers_.size ());
for (auto const& entry : signers_)
{
toLedger.emplace_back(sfSignerEntry);
STObject& obj = toLedger.back();
obj.reserve (2);
obj.setAccountID (sfAccount, entry.account);
obj.setFieldU16 (sfSignerWeight, entry.weight);
}
// Assign the SignerEntries.
ledgerEntry->setFieldArray (sfSignerEntries, toLedger);
}
TER doApply () override
{
assert (mTxnAccount);
// A ticket counts against the reserve of the issuing account, but we check
// the starting balance because we want to allow dipping into the reserve to
// pay fees.
auto const accountReserve (mEngine->getLedger ()->getReserve (
mTxnAccount->getFieldU32 (sfOwnerCount) + 1));
if (mPriorBalance.getNValue () < accountReserve)
return tecINSUFFICIENT_RESERVE;
std::uint32_t expiration (0);
if (mTxn.isFieldPresent (sfExpiration))
{
expiration = mTxn.getFieldU32 (sfExpiration);
if (!expiration)
{
m_journal.warning <<
"Malformed ticket requestion: bad expiration";
return temBAD_EXPIRATION;
}
if (mEngine->getLedger ()->getParentCloseTimeNC () >= expiration)
return tesSUCCESS;
}
SLE::pointer sleTicket = mEngine->entryCreate (ltTICKET,
Ledger::getTicketIndex (mTxnAccountID, mTxn.getSequence ()));
sleTicket->setFieldAccount (sfAccount, mTxnAccountID);
sleTicket->setFieldU32 (sfSequence, mTxn.getSequence ());
if (expiration != 0)
sleTicket->setFieldU32 (sfExpiration, expiration);
if (mTxn.isFieldPresent (sfTarget))
{
Account const target_account (mTxn.getFieldAccount160 (sfTarget));
SLE::pointer sleTarget = mEngine->entryCache (ltACCOUNT_ROOT,
Ledger::getAccountRootIndex (target_account));
// Destination account does not exist.
if (!sleTarget)
return tecNO_TARGET;
// The issuing account is the default account to which the ticket
// applies so don't bother saving it if that's what's specified.
if (target_account != mTxnAccountID)
sleTicket->setFieldAccount (sfTarget, target_account);
}
std::uint64_t hint;
auto describer = [&](SLE::pointer p, bool b)
{
Ledger::ownerDirDescriber(p, b, mTxnAccountID);
};
TER result = mEngine->view ().dirAdd (
hint,
Ledger::getOwnerDirIndex (mTxnAccountID),
sleTicket->getIndex (),
describer);
m_journal.trace <<
"Creating ticket " << to_string (sleTicket->getIndex ()) <<
": " << transHuman (result);
if (result != tesSUCCESS)
return result;
sleTicket->setFieldU64(sfOwnerNode, hint);
// If we succeeded, the new entry counts agains the creator's reserve.
mEngine->view ().incrementOwnerCount (mTxnAccount);
return result;
}
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;
}
TER
CreateOffer::doApply ()
{
if (m_journal.debug) m_journal.debug <<
"OfferCreate> " << mTxn.getJson (0);
std::uint32_t const uTxFlags = mTxn.getFlags ();
bool const bPassive (uTxFlags & tfPassive);
bool const bImmediateOrCancel (uTxFlags & tfImmediateOrCancel);
bool const bFillOrKill (uTxFlags & tfFillOrKill);
bool const bSell (uTxFlags & tfSell);
STAmount saTakerPays = mTxn.getFieldAmount (sfTakerPays);
STAmount saTakerGets = mTxn.getFieldAmount (sfTakerGets);
if (!saTakerPays.isLegalNet () || !saTakerGets.isLegalNet ())
return temBAD_AMOUNT;
auto const& uPaysIssuerID = saTakerPays.getIssuer ();
auto const& uPaysCurrency = saTakerPays.getCurrency ();
auto const& uGetsIssuerID = saTakerGets.getIssuer ();
auto const& uGetsCurrency = saTakerGets.getCurrency ();
bool const bHaveExpiration (mTxn.isFieldPresent (sfExpiration));
bool const bHaveCancel (mTxn.isFieldPresent (sfOfferSequence));
std::uint32_t const uExpiration = mTxn.getFieldU32 (sfExpiration);
std::uint32_t const uCancelSequence = mTxn.getFieldU32 (sfOfferSequence);
// FIXME understand why we use SequenceNext instead of current transaction
// sequence to determine the transaction. Why is the offer seuqnce
// number insufficient?
std::uint32_t const uAccountSequenceNext = mTxnAccount->getFieldU32 (sfSequence);
std::uint32_t const uSequence = mTxn.getSequence ();
const uint256 uLedgerIndex = Ledger::getOfferIndex (mTxnAccountID, uSequence);
if (m_journal.debug)
{
m_journal.debug <<
"Creating offer node: " << to_string (uLedgerIndex) <<
" uSequence=" << uSequence;
if (bImmediateOrCancel)
m_journal.debug << "Transaction: IoC set.";
if (bFillOrKill)
m_journal.debug << "Transaction: FoK set.";
}
// This is the original rate of this offer, and is the rate at which it will
// be placed, even if crossing offers change the amounts.
std::uint64_t const uRate = STAmount::getRate (saTakerGets, saTakerPays);
TER terResult (tesSUCCESS);
// This is the ledger view that we work against. Transactions are applied
// as we go on processing transactions.
core::LedgerView& view (mEngine->view ());
// This is a checkpoint with just the fees paid. If something goes wrong
// with this transaction, we roll back to this ledger.
core::LedgerView view_checkpoint (view);
view.bumpSeq (); // Begin ledger variance.
SLE::pointer sleCreator = mEngine->entryCache (
ltACCOUNT_ROOT, Ledger::getAccountRootIndex (mTxnAccountID));
if (uTxFlags & tfOfferCreateMask)
{
if (m_journal.debug) m_journal.debug <<
"Malformed transaction: Invalid flags set.";
terResult = temINVALID_FLAG;
}
else if (bImmediateOrCancel && bFillOrKill)
{
if (m_journal.debug) m_journal.debug <<
"Malformed transaction: both IoC and FoK set.";
terResult = temINVALID_FLAG;
}
else if (bHaveExpiration && !uExpiration)
{
m_journal.warning <<
"Malformed offer: bad expiration";
terResult = temBAD_EXPIRATION;
}
else if (saTakerPays.isNative () && saTakerGets.isNative ())
{
m_journal.warning <<
"Malformed offer: XRP for XRP";
terResult = temBAD_OFFER;
}
else if (saTakerPays <= zero || saTakerGets <= zero)
{
m_journal.warning <<
"Malformed offer: bad amount";
terResult = temBAD_OFFER;
}
else if (uPaysCurrency == uGetsCurrency && uPaysIssuerID == uGetsIssuerID)
{
m_journal.warning <<
"Malformed offer: redundant offer";
terResult = temREDUNDANT;
}
// We don't allow a non-native currency to use the currency code XRP.
else if (badCurrency() == uPaysCurrency || badCurrency() == uGetsCurrency)
{
m_journal.warning <<
"Malformed offer: Bad currency.";
terResult = temBAD_CURRENCY;
}
else if (saTakerPays.isNative () != !uPaysIssuerID ||
saTakerGets.isNative () != !uGetsIssuerID)
{
m_journal.warning <<
"Malformed offer: bad issuer";
terResult = temBAD_ISSUER;
}
else if (view.isGlobalFrozen (uPaysIssuerID) || view.isGlobalFrozen (uGetsIssuerID))
{
m_journal.warning <<
"Offer involves frozen asset";
terResult = tecFROZEN;
}
else if (view.accountFunds (
mTxnAccountID, saTakerGets, fhZERO_IF_FROZEN) <= zero)
{
m_journal.warning <<
"delay: Offers must be at least partially funded.";
terResult = tecUNFUNDED_OFFER;
}
// This can probably be simplified to make sure that you cancel sequences
// before the transaction sequence number.
else if (bHaveCancel && (!uCancelSequence || uAccountSequenceNext - 1 <= uCancelSequence))
{
if (m_journal.debug) m_journal.debug <<
"uAccountSequenceNext=" << uAccountSequenceNext <<
" uOfferSequence=" << uCancelSequence;
terResult = temBAD_SEQUENCE;
}
if (terResult != tesSUCCESS)
{
if (m_journal.debug) m_journal.debug <<
"final terResult=" << transToken (terResult);
return terResult;
}
// Process a cancellation request that's passed along with an offer.
if ((terResult == tesSUCCESS) && bHaveCancel)
{
uint256 const uCancelIndex (
Ledger::getOfferIndex (mTxnAccountID, uCancelSequence));
SLE::pointer sleCancel = mEngine->entryCache (ltOFFER, uCancelIndex);
// It's not an error to not find the offer to cancel: it might have
// been consumed or removed as we are processing.
if (sleCancel)
{
m_journal.warning <<
"Cancelling order with sequence " << uCancelSequence;
terResult = view.offerDelete (sleCancel);
}
}
// Expiration is defined in terms of the close time of the parent ledger,
// because we definitively know the time that it closed but we do not
// know the closing time of the ledger that is under construction.
if (bHaveExpiration &&
(mEngine->getLedger ()->getParentCloseTimeNC () >= uExpiration))
{
return tesSUCCESS;
}
// Make sure that we are authorized to hold what the taker will pay us.
if (terResult == tesSUCCESS && !saTakerPays.isNative ())
terResult = checkAcceptAsset (Issue (uPaysCurrency, uPaysIssuerID));
bool crossed = false;
bool const bOpenLedger (mParams & tapOPEN_LEDGER);
if (terResult == tesSUCCESS)
{
// We reverse gets and pays because during offer crossing we are taking.
core::Amounts const taker_amount (saTakerGets, saTakerPays);
// The amount of the offer that we will need to place, after we finish
// offer crossing processing. It may be equal to the original amount,
// empty (fully crossed), or something in-between.
core::Amounts place_offer;
std::tie(terResult, place_offer) = crossOffers (view, taker_amount);
if (terResult == tecFAILED_PROCESSING && bOpenLedger)
terResult = telFAILED_PROCESSING;
if (terResult == tesSUCCESS)
{
// We now need to reduce the offer by the cross flow. We reverse
// in and out here, since during crossing we were takers.
assert (saTakerPays.getCurrency () == place_offer.out.getCurrency ());
assert (saTakerPays.getIssuer () == place_offer.out.getIssuer ());
assert (saTakerGets.getCurrency () == place_offer.in.getCurrency ());
assert (saTakerGets.getIssuer () == place_offer.in.getIssuer ());
if (taker_amount != place_offer)
crossed = true;
if (m_journal.debug)
{
m_journal.debug << "Offer Crossing: " << transToken (terResult);
if (terResult == tesSUCCESS)
{
m_journal.debug <<
" takerPays: " << saTakerPays.getFullText () <<
" -> " << place_offer.out.getFullText ();
m_journal.debug <<
" takerGets: " << saTakerGets.getFullText () <<
" -> " << place_offer.in.getFullText ();
}
}
saTakerPays = place_offer.out;
saTakerGets = place_offer.in;
}
}
if (terResult != tesSUCCESS)
{
m_journal.debug <<
"final terResult=" << transToken (terResult);
return terResult;
}
if (m_journal.debug)
{
m_journal.debug <<
"takeOffers: saTakerPays=" <<saTakerPays.getFullText ();
m_journal.debug <<
"takeOffers: saTakerGets=" << saTakerGets.getFullText ();
m_journal.debug <<
"takeOffers: mTxnAccountID=" <<
to_string (mTxnAccountID);
m_journal.debug <<
"takeOffers: FUNDS=" << view.accountFunds (
mTxnAccountID, saTakerGets, fhZERO_IF_FROZEN).getFullText ();
}
if (saTakerPays < zero || saTakerGets < zero)
{
// Earlier, we verified that the amounts, as specified in the offer,
// were not negative. That they are now suggests that something went
// very wrong with offer crossing.
m_journal.fatal << (crossed ? "Partially consumed" : "Full") <<
" offer has negative component:" <<
" pays=" << saTakerPays.getFullText () <<
" gets=" << saTakerGets.getFullText ();
assert (saTakerPays >= zero);
assert (saTakerGets >= zero);
return tefINTERNAL;
}
if (bFillOrKill && (saTakerPays != zero || saTakerGets != zero))
{
// Fill or kill and have leftovers.
view.swapWith (view_checkpoint); // Restore with just fees paid.
return tesSUCCESS;
}
// What the reserve would be if this offer was placed.
auto const accountReserve (mEngine->getLedger ()->getReserve (
sleCreator->getFieldU32 (sfOwnerCount) + 1));
if (saTakerPays == zero || // Wants nothing more.
saTakerGets == zero || // Offering nothing more.
bImmediateOrCancel) // Do not persist.
{
// Complete as is.
}
else if (mPriorBalance.getNValue () < accountReserve)
{
// If we are here, the signing account had an insufficient reserve
// *prior* to our processing. We use the prior balance to simplify
// client writing and make the user experience better.
if (bOpenLedger) // Ledger is not final, can vote no.
{
// Hope for more reserve to come in or more offers to consume. If we
// specified a local error this transaction will not be retried, so
// specify a tec to distribute the transaction and allow it to be
// retried. In particular, it may have been successful to a
// degree (partially filled) and if it hasn't, it might succeed.
terResult = tecINSUF_RESERVE_OFFER;
}
else if (!crossed)
{
// Ledger is final, insufficent reserve to create offer, processed
// nothing.
terResult = tecINSUF_RESERVE_OFFER;
}
else
{
// Ledger is final, insufficent reserve to create offer, processed
// something.
// Consider the offer unfunded. Treat as tesSUCCESS.
}
}
else
{
assert (saTakerPays > zero);
assert (saTakerGets > zero);
// We need to place the remainder of the offer into its order book.
if (m_journal.debug) m_journal.debug <<
"offer not fully consumed:" <<
" saTakerPays=" << saTakerPays.getFullText () <<
" saTakerGets=" << saTakerGets.getFullText ();
std::uint64_t uOwnerNode;
std::uint64_t uBookNode;
uint256 uDirectory;
// Add offer to owner's directory.
terResult = view.dirAdd (uOwnerNode,
Ledger::getOwnerDirIndex (mTxnAccountID), uLedgerIndex,
std::bind (
&Ledger::ownerDirDescriber, std::placeholders::_1,
std::placeholders::_2, mTxnAccountID));
if (tesSUCCESS == terResult)
{
// Update owner count.
view.ownerCountAdjust (mTxnAccountID, 1, sleCreator);
uint256 const uBookBase (Ledger::getBookBase (
{{uPaysCurrency, uPaysIssuerID},
{uGetsCurrency, uGetsIssuerID}}));
if (m_journal.debug) m_journal.debug <<
"adding to book: " << to_string (uBookBase) <<
" : " << saTakerPays.getHumanCurrency () <<
"/" << to_string (saTakerPays.getIssuer ()) <<
" -> " << saTakerGets.getHumanCurrency () <<
"/" << to_string (saTakerGets.getIssuer ());
// We use the original rate to place the offer.
uDirectory = Ledger::getQualityIndex (uBookBase, uRate);
// Add offer to order book.
terResult = view.dirAdd (uBookNode, uDirectory, uLedgerIndex,
std::bind (
&Ledger::qualityDirDescriber, std::placeholders::_1,
std::placeholders::_2, saTakerPays.getCurrency (),
uPaysIssuerID, saTakerGets.getCurrency (),
uGetsIssuerID, uRate));
}
if (tesSUCCESS == terResult)
{
if (m_journal.debug)
{
m_journal.debug <<
"sfAccount=" <<
to_string (mTxnAccountID);
m_journal.debug <<
"uPaysIssuerID=" <<
to_string (uPaysIssuerID);
m_journal.debug <<
"uGetsIssuerID=" <<
to_string (uGetsIssuerID);
m_journal.debug <<
"saTakerPays.isNative()=" <<
saTakerPays.isNative ();
m_journal.debug <<
"saTakerGets.isNative()=" <<
saTakerGets.isNative ();
m_journal.debug <<
"uPaysCurrency=" <<
saTakerPays.getHumanCurrency ();
m_journal.debug <<
"uGetsCurrency=" <<
saTakerGets.getHumanCurrency ();
}
SLE::pointer sleOffer (mEngine->entryCreate (ltOFFER, uLedgerIndex));
sleOffer->setFieldAccount (sfAccount, mTxnAccountID);
sleOffer->setFieldU32 (sfSequence, uSequence);
sleOffer->setFieldH256 (sfBookDirectory, uDirectory);
sleOffer->setFieldAmount (sfTakerPays, saTakerPays);
sleOffer->setFieldAmount (sfTakerGets, saTakerGets);
sleOffer->setFieldU64 (sfOwnerNode, uOwnerNode);
sleOffer->setFieldU64 (sfBookNode, uBookNode);
if (uExpiration)
sleOffer->setFieldU32 (sfExpiration, uExpiration);
if (bPassive)
sleOffer->setFlag (lsfPassive);
if (bSell)
sleOffer->setFlag (lsfSell);
if (m_journal.debug) m_journal.debug <<
"final terResult=" << transToken (terResult) <<
" sleOffer=" << sleOffer->getJson (0);
}
}
if (terResult != tesSUCCESS)
{
m_journal.debug <<
"final terResult=" << transToken (terResult);
}
return terResult;
}
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;
}
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;
}
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;
}
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;
}
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;
}
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;
}
TER WalletAddTransactor::doApply ()
{
std::uint32_t const uTxFlags = mTxn.getFlags ();
if (uTxFlags & tfUniversalMask)
{
m_journal.trace <<
"Malformed transaction: Invalid flags set.";
return temINVALID_FLAG;
}
Blob const vucPubKey = mTxn.getFieldVL (sfPublicKey);
Blob const vucSignature = mTxn.getFieldVL (sfSignature);
uint160 const uAuthKeyID (mTxn.getFieldAccount160 (sfRegularKey));
RippleAddress const naMasterPubKey (
RippleAddress::createAccountPublic (vucPubKey));
uint160 const uDstAccountID (naMasterPubKey.getAccountID ());
// FIXME: This should be moved to the transaction's signature check logic and cached
if (!naMasterPubKey.verifySignature(
Serializer::getSHA512Half (uAuthKeyID.begin (), uAuthKeyID.size ()),
vucSignature))
{
m_journal.trace <<
"Unauthorized: bad signature ";
return tefBAD_ADD_AUTH;
}
SLE::pointer sleDst (mEngine->entryCache (
ltACCOUNT_ROOT, Ledger::getAccountRootIndex (uDstAccountID)));
if (sleDst)
{
m_journal.trace <<
"account already created";
return tefCREATED;
}
// Direct STR payment.
STAmount saDstAmount = mTxn.getFieldAmount (sfAmount);
STAmount saPaid = mTxn.getTransactionFee ();
STAmount const saSrcBalance = mTxnAccount->getFieldAmount (sfBalance);
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.
// Note: Reserve is not scaled by fee.
if (saSrcBalance + saPaid < saDstAmount + uReserve)
{
// Vote no. However, transaction might succeed, if applied in a
// different order.
m_journal.trace <<
"Delay transaction: Insufficient funds: %s / %s (%d)" <<
saSrcBalance.getText () << " / " <<
(saDstAmount + uReserve).getText () << " with reserve = " <<
uReserve;
return tecUNFUNDED_ADD;
}
// Deduct initial balance from source account.
mTxnAccount->setFieldAmount (sfBalance, saSrcBalance - saDstAmount);
// Create the account.
sleDst = mEngine->entryCreate (ltACCOUNT_ROOT,
Ledger::getAccountRootIndex (uDstAccountID));
sleDst->setFieldAccount (sfAccount, uDstAccountID);
sleDst->setFieldU32 (sfSequence, 1);
sleDst->setFieldAmount (sfBalance, saDstAmount);
sleDst->setFieldAccount (sfRegularKey, uAuthKeyID);
return tesSUCCESS;
}
TER
CreateTicket::doApply ()
{
auto const sle = view().peek(keylet::account(account_));
// A ticket counts against the reserve of the issuing account, but we
// check the starting balance because we want to allow dipping into the
// reserve to pay fees.
{
auto const reserve = view().fees().accountReserve(
sle->getFieldU32(sfOwnerCount) + 1);
if (mPriorBalance < reserve)
return tecINSUFFICIENT_RESERVE;
}
NetClock::time_point expiration{};
if (ctx_.tx.isFieldPresent (sfExpiration))
{
expiration = NetClock::time_point(NetClock::duration(ctx_.tx[sfExpiration]));
if (view().parentCloseTime() >= expiration)
return tesSUCCESS;
}
SLE::pointer sleTicket = std::make_shared<SLE>(ltTICKET,
getTicketIndex (account_, ctx_.tx.getSequence ()));
sleTicket->setAccountID (sfAccount, account_);
sleTicket->setFieldU32 (sfSequence, ctx_.tx.getSequence ());
if (expiration != NetClock::time_point{})
sleTicket->setFieldU32 (sfExpiration, expiration.time_since_epoch().count());
view().insert (sleTicket);
if (ctx_.tx.isFieldPresent (sfTarget))
{
AccountID const target_account (ctx_.tx.getAccountID (sfTarget));
SLE::pointer sleTarget = view().peek (keylet::account(target_account));
// Destination account does not exist.
if (!sleTarget)
return tecNO_TARGET;
// The issuing account is the default account to which the ticket
// applies so don't bother saving it if that's what's specified.
if (target_account != account_)
sleTicket->setAccountID (sfTarget, target_account);
}
auto viewJ = ctx_.app.journal ("View");
auto const page = dirAdd(view(), keylet::ownerDir (account_),
sleTicket->key(), false, describeOwnerDir (account_), viewJ);
JLOG(j_.trace()) <<
"Creating ticket " << to_string (sleTicket->key()) <<
": " << (page ? "success" : "failure");
if (!page)
return tecDIR_FULL;
sleTicket->setFieldU64(sfOwnerNode, *page);
// If we succeeded, the new entry counts against the
// creator's reserve.
adjustOwnerCount(view(), sle, 1, viewJ);
return tesSUCCESS;
}
