The FederatedBtcNodeProvider compared the list of banned nodes with each
BtcNode's hostname instead of checking a BtcNode's hostname, ip address,
and onion address.
When the user uses our federated BTC nodes, we merge the hard-coded
nodes with the ones provided by the filter. The hard-coded node's
operator field is set to the node's operator and operator field of the
nodes from the filter is set to "Provided by filter". When the same BTC
node is in the hard-coded list and the filter, Bisq adds both to the
merged list because the operator field is different.
This change explicitly marks the onionAddress, hostName, address, and
port field to be used in the hashCode and equals implementation.
We try to connect to the first 7 Bitcoin Core nodes always in the same
order. Only if connections to these nodes fail we look further into the
list. This change shuffles the node addresses before passing them to
BitcoinJ thus removing the bias from the first 7 prioritized nodes.
The FederatedBtcNodeProvider compared the list of banned nodes with each
BtcNode's hostname instead of checking a BtcNode's hostname, ip address,
and onion address.
When the user uses our federated BTC nodes, we merge the hard-coded
nodes with the ones provided by the filter. The hard-coded node's
operator field is set to the node's operator and operator field of the
nodes from the filter is set to "Provided by filter". When the same BTC
node is in the hard-coded list and the filter, Bisq adds both to the
merged list because the operator field is different.
This change explicitly marks the onionAddress, hostName, address, and
port field to be used in the hashCode and equals implementation.
We try to connect to the first 7 Bitcoin Core nodes always in the same
order. Only if connections to these nodes fail we look further into the
list. This change shuffles the node addresses before passing them to
BitcoinJ thus removing the bias from the first 7 prioritized nodes.
First, the sendBsq test creates one BTC and two BSQ wallets. Afterward,
it funds the BTC and one BSQ wallet with 1 BTC. Next, the funded BSQ
wallet sends 100 BSQ to the second BSQ wallet.
First, the sendBsq test creates one BTC and two BSQ wallets. Afterward,
it funds the BTC and one BSQ wallet with 1 BTC. Next, the funded BSQ
wallet sends 100 BSQ to the second BSQ wallet.
