770c7686ba
branches
335 lines
7.8 KiB
Go
335 lines
7.8 KiB
Go
package network
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import (
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"testing"
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"time"
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pb "github.com/micro/go-micro/network/service/proto"
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)
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var (
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testNodeId = "testNode"
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testNodeAddress = "testAddress"
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testNodeNetName = "testNetwork"
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testNodePeerIds = []string{"peer1", "peer2", "peer3"}
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testPeerOfPeerIds = []string{"peer11", "peer12"}
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)
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func testSetup() *node {
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testNode := &node{
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id: testNodeId,
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address: testNodeAddress,
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peers: make(map[string]*node),
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network: newNetwork(Name(testNodeNetName)),
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}
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// add some peers to the node
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for _, id := range testNodePeerIds {
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testNode.peers[id] = &node{
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id: id,
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address: testNode.address + "-" + id,
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peers: make(map[string]*node),
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network: testNode.network,
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}
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}
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// add peers to peer1
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// NOTE: these are peers of peers!
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for _, id := range testPeerOfPeerIds {
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testNode.peers["peer1"].peers[id] = &node{
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id: id,
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address: testNode.address + "-" + id,
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peers: make(map[string]*node),
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network: testNode.network,
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}
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}
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// connect peer1 with peer2
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testNode.peers["peer1"].peers["peer2"] = testNode.peers["peer2"]
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// connect peer2 with peer3
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testNode.peers["peer2"].peers["peer3"] = testNode.peers["peer3"]
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return testNode
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}
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func TestNodeId(t *testing.T) {
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node := testSetup()
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if node.Id() != testNodeId {
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t.Errorf("Expected id: %s, found: %s", testNodeId, node.Id())
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}
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}
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func TestNodeAddress(t *testing.T) {
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node := testSetup()
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if node.Address() != testNodeAddress {
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t.Errorf("Expected address: %s, found: %s", testNodeAddress, node.Address())
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}
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}
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func TestNodeNetwork(t *testing.T) {
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node := testSetup()
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if node.Network().Name() != testNodeNetName {
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t.Errorf("Expected network: %s, found: %s", testNodeNetName, node.Network().Name())
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}
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}
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func TestNodes(t *testing.T) {
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// single node
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single := &node{
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id: testNodeId,
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address: testNodeAddress,
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peers: make(map[string]*node),
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network: newNetwork(Name(testNodeNetName)),
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}
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// get all the nodes including yourself
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nodes := single.Nodes()
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nodeCount := 1
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if len(nodes) != nodeCount {
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t.Errorf("Expected to find %d nodes, found: %d", nodeCount, len(nodes))
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}
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// complicated node graph
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node := testSetup()
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// get all the nodes including yourself
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nodes = node.Nodes()
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// compile a list of ids of all nodes in the network into map for easy indexing
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nodeIds := make(map[string]bool)
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// add yourself
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nodeIds[node.id] = true
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// add peer Ids
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for _, id := range testNodePeerIds {
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nodeIds[id] = true
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}
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// add peer1 peers i.e. peers of peer
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for _, id := range testPeerOfPeerIds {
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nodeIds[id] = true
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}
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// we should return the correct number of nodes
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if len(nodes) != len(nodeIds) {
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t.Errorf("Expected %d nodes, found: %d", len(nodeIds), len(nodes))
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}
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// iterate through the list of nodes and makes sure all have been returned
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for _, node := range nodes {
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if _, ok := nodeIds[node.Id()]; !ok {
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t.Errorf("Expected to find %s node", node.Id())
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}
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}
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// this is a leaf node
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id := "peer11"
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if nodePeer := node.GetPeerNode(id); nodePeer == nil {
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t.Errorf("Expected to find %s node", id)
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}
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}
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func collectPeerIds(peer Node, ids map[string]bool) map[string]bool {
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if len(peer.Peers()) == 0 {
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return ids
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}
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// iterate through the whole graph
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for _, peer := range peer.Peers() {
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ids = collectPeerIds(peer, ids)
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if _, ok := ids[peer.Id()]; !ok {
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ids[peer.Id()] = true
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}
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}
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return ids
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}
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func TestPeers(t *testing.T) {
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// single node
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single := &node{
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id: testNodeId,
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address: testNodeAddress,
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peers: make(map[string]*node),
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network: newNetwork(Name(testNodeNetName)),
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}
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// get node peers
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peers := single.Peers()
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// there should be no peers
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peerCount := 0
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if len(peers) != peerCount {
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t.Errorf("Expected to find %d nodes, found: %d", peerCount, len(peers))
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}
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// complicated node graph
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node := testSetup()
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// list of ids of nodes of MaxDepth
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peerIds := make(map[string]bool)
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// add peer Ids
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for _, id := range testNodePeerIds {
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peerIds[id] = true
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}
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// add peers of peers to peerIds
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for _, id := range testPeerOfPeerIds {
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peerIds[id] = true
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}
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// get node peers
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peers = node.Peers()
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// we will collect all returned Peer Ids into this map
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resPeerIds := make(map[string]bool)
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for _, peer := range peers {
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resPeerIds[peer.Id()] = true
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resPeerIds = collectPeerIds(peer, resPeerIds)
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}
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// if correct, we must collect all peerIds
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if len(resPeerIds) != len(peerIds) {
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t.Errorf("Expected to find %d peers, found: %d", len(peerIds), len(resPeerIds))
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}
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for id := range resPeerIds {
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if _, ok := peerIds[id]; !ok {
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t.Errorf("Expected to find %s peer", id)
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}
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}
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}
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func TestDeletePeerNode(t *testing.T) {
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// complicated node graph
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node := testSetup()
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nodeCount := len(node.Nodes())
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// should not find non-existent peer node
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if err := node.DeletePeerNode("foobar"); err != ErrPeerNotFound {
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t.Errorf("Expected: %v, got: %v", ErrPeerNotFound, err)
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}
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// lets pick one of the peer1 peers
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if err := node.DeletePeerNode(testPeerOfPeerIds[0]); err != nil {
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t.Errorf("Error deleting peer node: %v", err)
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}
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nodeDelCount := len(node.Nodes())
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if nodeDelCount != nodeCount-1 {
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t.Errorf("Expected node count: %d, got: %d", nodeCount-1, nodeDelCount)
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}
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}
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func TestPrunePeer(t *testing.T) {
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// complicated node graph
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node := testSetup()
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before := node.Nodes()
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node.PrunePeer("peer3")
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now := node.Nodes()
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if len(now) != len(before)-1 {
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t.Errorf("Expected pruned node count: %d, got: %d", len(before)-1, len(now))
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}
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}
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func TestPruneStalePeers(t *testing.T) {
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// complicated node graph
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node := testSetup()
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nodes := node.Nodes()
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pruneTime := 10 * time.Millisecond
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time.Sleep(pruneTime)
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// should delete all nodes besides (root) node
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pruned := node.PruneStalePeers(pruneTime)
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if len(pruned) != len(nodes)-1 {
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t.Errorf("Expected pruned node count: %d, got: %d", len(nodes)-1, len(pruned))
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}
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}
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func TestUnpackPeerTopology(t *testing.T) {
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pbPeer := &pb.Peer{
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Node: &pb.Node{
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Id: "newPeer",
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Address: "newPeerAddress",
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},
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Peers: make([]*pb.Peer, 0),
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}
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// it should add pbPeer to the single node peers
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peer := UnpackPeerTopology(pbPeer, time.Now(), 5)
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if peer.id != pbPeer.Node.Id {
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t.Errorf("Expected peer id %s, found: %s", pbPeer.Node.Id, peer.id)
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}
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node := testSetup()
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// build a simple topology to update node peer1
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peer1 := node.peers["peer1"]
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pbPeer1Node := &pb.Node{
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Id: peer1.id,
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Address: peer1.address,
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}
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pbPeer111 := &pb.Peer{
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Node: &pb.Node{
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Id: "peer111",
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Address: "peer111Address",
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},
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Peers: make([]*pb.Peer, 0),
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}
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pbPeer121 := &pb.Peer{
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Node: &pb.Node{
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Id: "peer121",
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Address: "peer121Address",
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},
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Peers: make([]*pb.Peer, 0),
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}
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// topology to update
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pbPeer1 := &pb.Peer{
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Node: pbPeer1Node,
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Peers: []*pb.Peer{pbPeer111, pbPeer121},
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}
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// unpack peer1 topology
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peer = UnpackPeerTopology(pbPeer1, time.Now(), 5)
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// make sure peer1 topology has been correctly updated
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newPeerIds := []string{pbPeer111.Node.Id, pbPeer121.Node.Id}
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for _, id := range newPeerIds {
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if _, ok := peer.peers[id]; !ok {
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t.Errorf("Expected %s to be a peer of %s", id, "peer1")
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}
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}
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}
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func TestPeersToProto(t *testing.T) {
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// single node
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single := &node{
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id: testNodeId,
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address: testNodeAddress,
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peers: make(map[string]*node),
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network: newNetwork(Name(testNodeNetName)),
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}
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topCount := 0
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protoPeers := PeersToProto(single, 0)
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if len(protoPeers.Peers) != topCount {
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t.Errorf("Expected to find %d nodes, found: %d", topCount, len(protoPeers.Peers))
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}
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// complicated node graph
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node := testSetup()
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topCount = 3
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// list of ids of nodes of depth 1 i.e. node peers
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peerIds := make(map[string]bool)
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// add peer Ids
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for _, id := range testNodePeerIds {
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peerIds[id] = true
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}
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// depth 1 should give us immmediate neighbours only
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protoPeers = PeersToProto(node, 1)
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if len(protoPeers.Peers) != topCount {
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t.Errorf("Expected to find %d nodes, found: %d", topCount, len(protoPeers.Peers))
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}
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}
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