// Check that it starts downloading the block chain correctly on request. @Test public void startBlockChainDownload() throws Exception { Block b1 = createFakeBlock(blockStore).block; blockChain.add(b1); Block b2 = makeSolvedTestBlock(b1); blockChain.add(b2); connect(); fail.set(true); peer.addEventListener( new AbstractPeerEventListener() { @Override public void onChainDownloadStarted(Peer p, int blocksLeft) { if (p == peer && blocksLeft == 108) fail.set(false); } }, Threading.SAME_THREAD); peer.startBlockChainDownload(); List<Sha256Hash> expectedLocator = new ArrayList<Sha256Hash>(); expectedLocator.add(b2.getHash()); expectedLocator.add(b1.getHash()); expectedLocator.add(unitTestParams.getGenesisBlock().getHash()); GetBlocksMessage message = (GetBlocksMessage) outbound(writeTarget); assertEquals(message.getLocator(), expectedLocator); assertEquals(Sha256Hash.ZERO_HASH, message.getStopHash()); }
@Test public void fastCatchup() throws Exception { connect(); // Check that blocks before the fast catchup point are retrieved using getheaders, and after // using getblocks. // This test is INCOMPLETE because it does not check we handle >2000 blocks correctly. Block b1 = createFakeBlock(blockStore).block; blockChain.add(b1); Utils.rollMockClock(60 * 10); // 10 minutes later. Block b2 = makeSolvedTestBlock(b1); Utils.rollMockClock(60 * 10); // 10 minutes later. Block b3 = makeSolvedTestBlock(b2); Utils.rollMockClock(60 * 10); Block b4 = makeSolvedTestBlock(b3); // Request headers until the last 2 blocks. peer.setDownloadParameters((Utils.now().getTime() / 1000) - (600 * 2) + 1, false); peer.startBlockChainDownload(); GetHeadersMessage getheaders = (GetHeadersMessage) outbound(writeTarget); List<Sha256Hash> expectedLocator = new ArrayList<Sha256Hash>(); expectedLocator.add(b1.getHash()); expectedLocator.add(unitTestParams.getGenesisBlock().getHash()); assertEquals(getheaders.getLocator(), expectedLocator); assertEquals(getheaders.getStopHash(), Sha256Hash.ZERO_HASH); // Now send all the headers. HeadersMessage headers = new HeadersMessage( unitTestParams, b2.cloneAsHeader(), b3.cloneAsHeader(), b4.cloneAsHeader()); // We expect to be asked for b3 and b4 again, but this time, with a body. expectedLocator.clear(); expectedLocator.add(b2.getHash()); expectedLocator.add(b1.getHash()); expectedLocator.add(unitTestParams.getGenesisBlock().getHash()); inbound(writeTarget, headers); GetBlocksMessage getblocks = (GetBlocksMessage) outbound(writeTarget); assertEquals(expectedLocator, getblocks.getLocator()); assertEquals(Sha256Hash.ZERO_HASH, getblocks.getStopHash()); // We're supposed to get an inv here. InventoryMessage inv = new InventoryMessage(unitTestParams); inv.addItem(new InventoryItem(InventoryItem.Type.Block, b3.getHash())); inbound(writeTarget, inv); GetDataMessage getdata = (GetDataMessage) outbound(writeTarget); assertEquals(b3.getHash(), getdata.getItems().get(0).hash); // All done. inbound(writeTarget, b3); pingAndWait(writeTarget); closePeer(peer); }
@Test public void chainDownloadEnd2End() throws Exception { // A full end-to-end test of the chain download process, with a new block being solved in the // middle. Block b1 = createFakeBlock(blockStore).block; blockChain.add(b1); Block b2 = makeSolvedTestBlock(b1); Block b3 = makeSolvedTestBlock(b2); Block b4 = makeSolvedTestBlock(b3); Block b5 = makeSolvedTestBlock(b4); connect(); peer.startBlockChainDownload(); GetBlocksMessage getblocks = (GetBlocksMessage) outbound(writeTarget); assertEquals(blockStore.getChainHead().getHeader().getHash(), getblocks.getLocator().get(0)); assertEquals(Sha256Hash.ZERO_HASH, getblocks.getStopHash()); // Remote peer sends us an inv with some blocks. InventoryMessage inv = new InventoryMessage(unitTestParams); inv.addBlock(b2); inv.addBlock(b3); // We do a getdata on them. inbound(writeTarget, inv); GetDataMessage getdata = (GetDataMessage) outbound(writeTarget); assertEquals(b2.getHash(), getdata.getItems().get(0).hash); assertEquals(b3.getHash(), getdata.getItems().get(1).hash); assertEquals(2, getdata.getItems().size()); // Remote peer sends us the blocks. The act of doing a getdata for b3 results in getting an inv // with just the // best chain head in it. inbound(writeTarget, b2); inbound(writeTarget, b3); inv = new InventoryMessage(unitTestParams); inv.addBlock(b5); // We request the head block. inbound(writeTarget, inv); getdata = (GetDataMessage) outbound(writeTarget); assertEquals(b5.getHash(), getdata.getItems().get(0).hash); assertEquals(1, getdata.getItems().size()); // Peer sends us the head block. The act of receiving the orphan block triggers a getblocks to // fill in the // rest of the chain. inbound(writeTarget, b5); getblocks = (GetBlocksMessage) outbound(writeTarget); assertEquals(b5.getHash(), getblocks.getStopHash()); assertEquals(b3.getHash(), getblocks.getLocator().get(0)); // At this point another block is solved and broadcast. The inv triggers a getdata but we do NOT // send another // getblocks afterwards, because that would result in us receiving the same set of blocks twice // which is a // timewaste. The getblocks message that would have been generated is set to be the same as the // previous // because we walk backwards down the orphan chain and then discover we already asked for those // blocks, so // nothing is done. Block b6 = makeSolvedTestBlock(b5); inv = new InventoryMessage(unitTestParams); inv.addBlock(b6); inbound(writeTarget, inv); getdata = (GetDataMessage) outbound(writeTarget); assertEquals(1, getdata.getItems().size()); assertEquals(b6.getHash(), getdata.getItems().get(0).hash); inbound(writeTarget, b6); assertNull(outbound(writeTarget)); // Nothing is sent at this point. // We're still waiting for the response to the getblocks (b3,b5) sent above. inv = new InventoryMessage(unitTestParams); inv.addBlock(b4); inv.addBlock(b5); inbound(writeTarget, inv); getdata = (GetDataMessage) outbound(writeTarget); assertEquals(1, getdata.getItems().size()); assertEquals(b4.getHash(), getdata.getItems().get(0).hash); // We already have b5 from before, so it's not requested again. inbound(writeTarget, b4); assertNull(outbound(writeTarget)); // b5 and b6 are now connected by the block chain and we're done. assertNull(outbound(writeTarget)); closePeer(peer); }