d74a0560b8
* [WIP] New Eclair RPC client * channel, close, connect, getinfo, open, peers * allchannels, allnodes, allupdates * audit, channels, findroutetonode, forceclose, updaterelayfee * Initial version of createinvoice * ShortChannelId: improved error handling and scaladoc * addressed the PR comments * parseinvoice, payinvoice, getsentinfo, getreceivedinfo, sendtonode, sendtoroute * unit tests * addressed the PR comments * ws, usablebalances, channelstats, networkfees, getinvoice, listinvoices * addressed PR comments * change eclair URL * cleanup * addressed comments * fidex compiler warnings * Eclair 0.3.1 * scaladoc * cleanup |
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| README.md | ||
Philosphy of testkit
The high level of of the bitcoin-s testkit is to mimic provide functionality to test 3rd party applications.
There are other examples of these in the Scala ecosystem like the akka-testkit and slick-testkit.
We use this testkit to test bitcoin-s it self. For instance, our BitcoindRpcClient is tested with the functionality provided in the testkit. A quick example of a useful utility method is BitcoindRpcTestUtil.startedBitcoindRpcClient(). This spins up a bitcoind regtest instance on machine and generates 101 blocks on that node. This gives you the abililty to start spending money immediately with that bitcoind node.
We have similar utility methods for eclair.
Property based testing
There is also a robust set of generators available in the org.bitcoins.testkit.gen package. This allows you to integrate property based testing into your library and feel confident about implementing your application specific logic correctly.
You can see examples of us using these generators inside of testkit in our Private Key test cases