use of io.bitsquare.trade.protocol.availability.messages.OfferAvailabilityRequest in project bitsquare by bitsquare.
the class OpenOfferManager method handleOfferAvailabilityRequest.
///////////////////////////////////////////////////////////////////////////////////////////
// Offer Availability
///////////////////////////////////////////////////////////////////////////////////////////
private void handleOfferAvailabilityRequest(OfferAvailabilityRequest message, NodeAddress sender) {
log.trace("handleNewMessage: message = " + message.getClass().getSimpleName() + " from " + sender);
if (!stopped) {
try {
nonEmptyStringOf(message.offerId);
checkNotNull(message.getPubKeyRing());
} catch (Throwable t) {
log.warn("Invalid message " + message.toString());
return;
}
Optional<OpenOffer> openOfferOptional = findOpenOffer(message.offerId);
AvailabilityResult availabilityResult;
if (openOfferOptional.isPresent()) {
if (openOfferOptional.get().getState() == OpenOffer.State.AVAILABLE) {
final Offer offer = openOfferOptional.get().getOffer();
if (!preferences.getIgnoreTradersList().stream().filter(i -> i.equals(offer.getOffererNodeAddress().getHostNameWithoutPostFix())).findAny().isPresent()) {
availabilityResult = AvailabilityResult.AVAILABLE;
List<NodeAddress> acceptedArbitrators = user.getAcceptedArbitratorAddresses();
if (acceptedArbitrators != null && !acceptedArbitrators.isEmpty()) {
// We need to be backward compatible. takersTradePrice was not used before 0.4.9.
if (message.takersTradePrice > 0) {
// losses and therefore an outdated market price.
try {
offer.checkTradePriceTolerance(message.takersTradePrice);
} catch (TradePriceOutOfToleranceException e) {
log.warn("Trade price check failed because takers price is outside out tolerance.");
availabilityResult = AvailabilityResult.PRICE_OUT_OF_TOLERANCE;
} catch (MarketPriceNotAvailableException e) {
log.warn(e.getMessage());
availabilityResult = AvailabilityResult.MARKET_PRICE_NOT_AVAILABLE;
} catch (Throwable e) {
log.warn("Trade price check failed. " + e.getMessage());
availabilityResult = AvailabilityResult.UNKNOWN_FAILURE;
}
}
} else {
log.warn("acceptedArbitrators is null or empty: acceptedArbitrators=" + acceptedArbitrators);
availabilityResult = AvailabilityResult.NO_ARBITRATORS;
}
} else {
availabilityResult = AvailabilityResult.USER_IGNORED;
}
} else {
availabilityResult = AvailabilityResult.OFFER_TAKEN;
}
} else {
log.warn("handleOfferAvailabilityRequest: openOffer not found. That should never happen.");
availabilityResult = AvailabilityResult.OFFER_TAKEN;
}
try {
p2PService.sendEncryptedDirectMessage(sender, message.getPubKeyRing(), new OfferAvailabilityResponse(message.offerId, availabilityResult), new SendDirectMessageListener() {
@Override
public void onArrived() {
log.trace("OfferAvailabilityResponse successfully arrived at peer");
}
@Override
public void onFault() {
log.debug("Sending OfferAvailabilityResponse failed.");
}
});
} catch (Throwable t) {
t.printStackTrace();
log.debug("Exception at handleRequestIsOfferAvailableMessage " + t.getMessage());
}
} else {
log.debug("We have stopped already. We ignore that handleOfferAvailabilityRequest call.");
}
}
use of io.bitsquare.trade.protocol.availability.messages.OfferAvailabilityRequest in project bitsquare by bitsquare.
the class SendOfferAvailabilityRequest method run.
@Override
protected void run() {
try {
runInterceptHook();
model.p2PService.sendEncryptedDirectMessage(model.getPeerNodeAddress(), model.offer.getPubKeyRing(), new OfferAvailabilityRequest(model.offer.getId(), model.pubKeyRing, model.getTakersTradePrice()), new SendDirectMessageListener() {
@Override
public void onArrived() {
complete();
}
@Override
public void onFault() {
model.offer.setState(Offer.State.OFFERER_OFFLINE);
}
});
} catch (Throwable t) {
model.offer.setErrorMessage("An error occurred.\n" + "Error message:\n" + t.getMessage());
failed(t);
}
}
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