package network import "testing" var ( testNodeId = "testNode" testNodeAddress = "testAddress" testNodeNetName = "testNetwork" testNodePeerIds = []string{"peer1", "peer2", "peer3"} testPeerOfPeerIds = []string{"peer11", "peer12"} ) func testSetup() *node { testNode := &node{ id: testNodeId, address: testNodeAddress, peers: make(map[string]*node), network: newNetwork(Name(testNodeNetName)), } // add some peers to the node for _, id := range testNodePeerIds { testNode.peers[id] = &node{ id: id, address: testNode.address + "-" + id, peers: make(map[string]*node), network: testNode.network, } } // add peers to peer1 // NOTE: these are peers of peers! for _, id := range testPeerOfPeerIds { testNode.peers["peer1"].peers[id] = &node{ id: id, address: testNode.address + "-" + id, peers: make(map[string]*node), network: testNode.network, } } // connect peer1 with peer2 testNode.peers["peer1"].peers["peer2"] = testNode.peers["peer2"] // connect peer2 with peer3 testNode.peers["peer2"].peers["peer3"] = testNode.peers["peer3"] return testNode } func TestNodeId(t *testing.T) { node := testSetup() if node.Id() != testNodeId { t.Errorf("Expected id: %s, found: %s", testNodeId, node.Id()) } } func TestNodeAddress(t *testing.T) { node := testSetup() if node.Address() != testNodeAddress { t.Errorf("Expected address: %s, found: %s", testNodeAddress, node.Address()) } } func TestNodeNetwork(t *testing.T) { node := testSetup() if node.Network().Name() != testNodeNetName { t.Errorf("Expected network: %s, found: %s", testNodeNetName, node.Network().Name()) } } func TestNodes(t *testing.T) { // single node single := &node{ id: testNodeId, address: testNodeAddress, peers: make(map[string]*node), network: newNetwork(Name(testNodeNetName)), } // get all the nodes including yourself nodes := single.Nodes() nodeCount := 1 if len(nodes) != nodeCount { t.Errorf("Expected to find %d nodes, found: %d", nodeCount, len(nodes)) } // complicated node graph node := testSetup() // get all the nodes including yourself nodes = node.Nodes() // compile a list of ids of all nodes in the network into map for easy indexing nodeIds := make(map[string]bool) // add yourself nodeIds[node.id] = true // add peer Ids for _, id := range testNodePeerIds { nodeIds[id] = true } // add peer1 peers i.e. peers of peer for _, id := range testPeerOfPeerIds { nodeIds[id] = true } // we should return the correct number of nodes if len(nodes) != len(nodeIds) { t.Errorf("Expected %d nodes, found: %d", len(nodeIds), len(nodes)) } // iterate through the list of nodes and makes sure all have been returned for _, node := range nodes { if _, ok := nodeIds[node.Id()]; !ok { t.Errorf("Expected to find %s node", node.Id()) } } } func TestPeers(t *testing.T) { // single node single := &node{ id: testNodeId, address: testNodeAddress, peers: make(map[string]*node), network: newNetwork(Name(testNodeNetName)), } // get all the nodes including yourself peers := single.Peers() peerCount := 0 if len(peers) != peerCount { t.Errorf("Expected to find %d peers, found: %d", peerCount, len(peers)) } // complicated node graph node := testSetup() // get all the nodes including yourself peers = node.Peers() // compile a list of ids of all nodes in the network into map for easy indexing peerIds := make(map[string]bool) // add peer Ids for _, id := range testNodePeerIds { peerIds[id] = true } // we should return the correct number of peers if len(peers) != len(peerIds) { t.Errorf("Expected %d nodes, found: %d", len(peerIds), len(peers)) } // iterate through the list of peers and makes sure all have been returned for _, peer := range peers { if _, ok := peerIds[peer.Id()]; !ok { t.Errorf("Expected to find %s peer", node.Id()) } } } func TestTopology(t *testing.T) { // single node single := &node{ id: testNodeId, address: testNodeAddress, peers: make(map[string]*node), network: newNetwork(Name(testNodeNetName)), } // get all the nodes including yourself topology := single.Topology(MaxDepth) // you should not be in your topology topCount := 0 if len(topology) != topCount { t.Errorf("Expected to find %d nodes, found: %d", topCount, len(topology)) } }