Note: this relies on (a modified version of) liblitewallet-jni which is not included, but will ultimately be compiled for each supported architecture and hosted on QDN.
LiteWalletJni code is based on https://github.com/PirateNetwork/cordova-plugin-litewallet - thanks to @CryptoForge for the help in getting this up and running.
Also removed CrossChainDigibyteACCTv1Resource, since this is unused, and it seems excessive to maintain support of this for every coin (and potentially every ACCT version).
BlockMessage was broken because the repository 'connection' associated with the message's Block object was closed between message queuing and message sending.
The fix was to serialize Message subclasses on construction, thus freeing reliance on objects passed into constructor.
The serialized byte[] is held by the message between queuing and sending.
This forces messages into one of two 'modes': outgoing or incoming.
Outgoing messages contain serialized byte[] whereas incoming messages unpack a ByteBuffer into Message subclass fields.
As a result, all network message types have been refactored in this way.
More details in Message's class comment.
A knock-on effect is that incoming messages cannot then be sent out - a new message needs to be constructed.
Some changes needed to Arbitrary controller package classes in this respect.
Bonus: Network no longer needs broadcast threads because 'broadcasting' is now simply the act of queuing a message for many peers.
Instead of synchronizing/blocking in Peer.sendMessage(),
we queue messages in a concurrent blocking TransferQueue, with timeout.
In EPC, ChannelWriteTasks consume from TransferQueue, unblocking callers to Peer.sendMessage().
If a new message is to be sent, or socket output buffer is full,
then OP_WRITE is used to wait for socket to become writable again.
Only one ChannelWriteTask per peer can be active/pending at a time.
Each ChannelWriteTask tries to send as much as it can in one go.
Other minor tidy-ups.
