This loops through all sell orders and attempts to redeem the LTC from each one. It will return true if at least one was redeemed, or false if none are available to be redeemed. Details are logged to the log.txt file rather than returned in the API response.
The previous query was taking almost half a second to run each time, whereas the new version runs 10-100x faster. This was the main bottleneck with block serialization and should therefore allow for much faster syncing once rolled out to the network. Tested several thousand blocks to ensure that the results returned by the new query match those returned by the old one.
A couple of classes were using the bitcoinj alternative, which is twice as slow. This mostly affected the API on port 12392, as byte arrays were automatically encoded as base58 strings via the Base58TypeAdapter / JAXB package-info.
This is probably more validation than is actually needed, but given that we use the same field for LTC and QORT receiving addresses in the database, it is best to be extra careful.
This returns serialized, base58 encoded data for the entire block. It is the same format as the data sent between nodes when synchronizing, with base58 encoding added so that it can be outputted cleanly in the API response.
This is the equivalent of the refund API but can be used by the seller to redeem LTC from a stuck transaction, by supplying the associated AT address, There are no lockTime requirements; it is redeemable as soon as the buyer has redeemed the QORT and sent the secret to the seller.
This is designed to be called by the buyer, and will force refund their P2SH transaction associated with the supplied AT. The tradebot responsible for this trade must be present in the user's db for this API access the necessary data. It must be called after lockTime has passed, which for LTC is currently 60 minutes from the time that the P2SH was funded. Trying to refund before this time will result in a FOREIGN_BLOCKCHAIN_TOO_SOON error.
This can currently be used by either the buyer or the seller, but it requires the seller's trade private key & receiving address to be specified, along with the buyer's secret. Currently hardcoded to LITECOIN but I will aim to make this generic as we start adding more coins.
This makes them more compatible with the output of the /crosschain/tradebot and /crosschain/trade/{ataddress} APIs which is likely where most people will be retrieving data from, rather than the database itself.
This is similar to the BTC equivalent, but removes secretB as an input parameter. It also signs and broadcasts the transaction, because the wallet isn't needed for this. These transactions have to be signed using the tradePrivateKey from the tradebot data rather than any of the wallet's keys.
There are two other LitecoinACCTv1 APIs still to implement, but I will leave these until they are needed.