package router import ( "bytes" "fmt" "math/rand" "net" "testing" "time" "github.com/hashicorp/go-hclog" "github.com/stretchr/testify/assert" "github.com/stretchr/testify/require" "github.com/hashicorp/consul/agent/metadata" ) var ( localLogBuffer *bytes.Buffer ) func init() { localLogBuffer = new(bytes.Buffer) } func GetBufferedLogger() hclog.Logger { localLogBuffer = new(bytes.Buffer) return hclog.New(&hclog.LoggerOptions{ Level: 0, Output: localLogBuffer, }) } type fauxConnPool struct { // failPct between 0.0 and 1.0 == pct of time a Ping should fail failPct float64 } func (cp *fauxConnPool) Ping(string, string, net.Addr) (bool, error) { var success bool successProb := rand.Float64() if successProb > cp.failPct { success = true } return success, nil } type fauxSerf struct { numNodes int } func (s *fauxSerf) NumNodes() int { return s.numNodes } func testManager() (m *Manager) { logger := GetBufferedLogger() shutdownCh := make(chan struct{}) m = New(logger, shutdownCh, &fauxSerf{numNodes: 16384}, &fauxConnPool{}, "", noopRebalancer) return m } func noopRebalancer() {} func testManagerFailProb(failPct float64) (m *Manager) { logger := GetBufferedLogger() shutdownCh := make(chan struct{}) m = New(logger, shutdownCh, &fauxSerf{}, &fauxConnPool{failPct: failPct}, "", noopRebalancer) return m } // func (l *serverList) cycleServer() (servers []*metadata.Server) { func TestManagerInternal_cycleServer(t *testing.T) { m := testManager() l := m.getServerList() server0 := &metadata.Server{Name: "server1"} server1 := &metadata.Server{Name: "server2"} server2 := &metadata.Server{Name: "server3"} l.servers = append(l.servers, server0, server1, server2) m.saveServerList(l) l = m.getServerList() if len(l.servers) != 3 { t.Fatalf("server length incorrect: %d/3", len(l.servers)) } if l.servers[0] != server0 && l.servers[1] != server1 && l.servers[2] != server2 { t.Fatalf("initial server ordering not correct") } l.servers = l.cycleServer() if len(l.servers) != 3 { t.Fatalf("server length incorrect: %d/3", len(l.servers)) } if l.servers[0] != server1 && l.servers[1] != server2 && l.servers[2] != server0 { t.Fatalf("server ordering after one cycle not correct") } l.servers = l.cycleServer() if len(l.servers) != 3 { t.Fatalf("server length incorrect: %d/3", len(l.servers)) } if l.servers[0] != server2 && l.servers[1] != server0 && l.servers[2] != server1 { t.Fatalf("server ordering after two cycles not correct") } l.servers = l.cycleServer() if len(l.servers) != 3 { t.Fatalf("server length incorrect: %d/3", len(l.servers)) } if l.servers[0] != server0 && l.servers[1] != server1 && l.servers[2] != server2 { t.Fatalf("server ordering after three cycles not correct") } } // func (m *Manager) getServerList() serverList { func TestManagerInternal_getServerList(t *testing.T) { m := testManager() l := m.getServerList() if l.servers == nil { t.Fatalf("serverList.servers nil") } if len(l.servers) != 0 { t.Fatalf("serverList.servers length not zero") } } func TestManagerInternal_New(t *testing.T) { m := testManager() if m == nil { t.Fatalf("Manager nil") } if m.clusterInfo == nil { t.Fatalf("Manager.clusterInfo nil") } if m.logger == nil { t.Fatalf("Manager.logger nil") } if m.shutdownCh == nil { t.Fatalf("Manager.shutdownCh nil") } } // func (m *Manager) reconcileServerList(l *serverList) bool { func TestManagerInternal_reconcileServerList(t *testing.T) { tests := []int{0, 1, 2, 3, 4, 5, 10, 100} for _, n := range tests { ok, err := test_reconcileServerList(n) if !ok { t.Errorf("Expected %d to pass: %v", n, err) } } } func test_reconcileServerList(maxServers int) (bool, error) { // Build a server list, reconcile, verify the missing servers are // missing, the added have been added, and the original server is // present. const failPct = 0.5 m := testManagerFailProb(failPct) var failedServers, healthyServers []*metadata.Server for i := 0; i < maxServers; i++ { nodeName := fmt.Sprintf("s%02d", i) node := &metadata.Server{Name: nodeName} // Add 66% of servers to Manager if rand.Float64() > 0.33 { m.AddServer(node) // Of healthy servers, (ab)use connPoolPinger to // failPct of the servers for the reconcile. This // allows for the selected server to no longer be // healthy for the reconcile below. if ok, _ := m.connPoolPinger.Ping(node.Datacenter, node.ShortName, node.Addr); ok { // Will still be present healthyServers = append(healthyServers, node) } else { // Will be missing failedServers = append(failedServers, node) } } else { // Will be added from the call to reconcile healthyServers = append(healthyServers, node) } } // Randomize Manager's server list m.RebalanceServers() selectedServer := m.FindServer() var selectedServerFailed bool for _, s := range failedServers { if selectedServer.Key().Equal(s.Key()) { selectedServerFailed = true break } } // Update Manager's server list to be "healthy" based on Serf. // Reconcile this with origServers, which is shuffled and has a live // connection, but possibly out of date. origServers := m.getServerList() m.saveServerList(serverList{servers: healthyServers}) // This should always succeed with non-zero server lists if !selectedServerFailed && !m.reconcileServerList(&origServers) && len(m.getServerList().servers) != 0 && len(origServers.servers) != 0 { // If the random gods are unfavorable and we end up with zero // length lists, expect things to fail and retry the test. return false, fmt.Errorf("Expected reconcile to succeed: %v %d %d", selectedServerFailed, len(m.getServerList().servers), len(origServers.servers)) } // If we have zero-length server lists, test succeeded in degenerate // case. if len(m.getServerList().servers) == 0 && len(origServers.servers) == 0 { // Failed as expected w/ zero length list return true, nil } resultingServerMap := make(map[metadata.Key]bool) for _, s := range m.getServerList().servers { resultingServerMap[*s.Key()] = true } // Test to make sure no failed servers are in the Manager's // list. Error if there are any failedServers in l.servers for _, s := range failedServers { _, ok := resultingServerMap[*s.Key()] if ok { return false, fmt.Errorf("Found failed server %v in merged list %v", s, resultingServerMap) } } // Test to make sure all healthy servers are in the healthy list. if len(healthyServers) != len(m.getServerList().servers) { return false, fmt.Errorf("Expected healthy map and servers to match: %d/%d", len(healthyServers), len(healthyServers)) } // Test to make sure all healthy servers are in the resultingServerMap list. for _, s := range healthyServers { _, ok := resultingServerMap[*s.Key()] if !ok { return false, fmt.Errorf("Server %v missing from healthy map after merged lists", s) } } return true, nil } func TestManager_refreshServerRebalanceTimer(t *testing.T) { type testCase struct { servers int nodes int expected time.Duration } testCases := []testCase{ {servers: 0, nodes: 1}, {servers: 0, nodes: 100}, {servers: 0, nodes: 65535}, {servers: 0, nodes: 1000000}, {servers: 1, nodes: 100}, {servers: 1, nodes: 1024}, {servers: 1, nodes: 8192}, {servers: 1, nodes: 11520}, {servers: 1, nodes: 11521, expected: 3*time.Minute + 15625*time.Microsecond}, {servers: 1, nodes: 16384, expected: 4*time.Minute + 16*time.Second}, {servers: 1, nodes: 65535, expected: 17*time.Minute + 3984375000}, {servers: 1, nodes: 1000000, expected: 4*time.Hour + 20*time.Minute + 25*time.Second}, {servers: 2, nodes: 100}, {servers: 2, nodes: 16384}, {servers: 2, nodes: 23040}, {servers: 2, nodes: 23041, expected: 3*time.Minute + 7812500}, {servers: 2, nodes: 65535, expected: 8*time.Minute + 31992187500}, {servers: 2, nodes: 1000000, expected: 2*time.Hour + 10*time.Minute + 12500*time.Millisecond}, {servers: 3, nodes: 0}, {servers: 3, nodes: 100}, {servers: 3, nodes: 1024}, {servers: 3, nodes: 16384}, {servers: 3, nodes: 34560}, {servers: 3, nodes: 34561, expected: 3*time.Minute + 5208333}, {servers: 3, nodes: 65535, expected: 5*time.Minute + 41328125000}, {servers: 3, nodes: 1000000, expected: 86*time.Minute + 48333333333}, {servers: 5, nodes: 0}, {servers: 5, nodes: 1024}, {servers: 5, nodes: 16384}, {servers: 5, nodes: 32768}, {servers: 5, nodes: 57600}, {servers: 5, nodes: 65535, expected: 3*time.Minute + 24796875000}, {servers: 5, nodes: 1000000, expected: 52*time.Minute + 5*time.Second}, {servers: 7, nodes: 65535}, {servers: 7, nodes: 80500}, {servers: 7, nodes: 131070, expected: 4*time.Minute + 52566964285}, {servers: 11, nodes: 1000000, expected: 23*time.Minute + 40454545454}, {servers: 19, nodes: 1000000, expected: 13*time.Minute + 42368421052}, } for _, tc := range testCases { m := &Manager{clusterInfo: &fauxSerf{numNodes: tc.nodes}, rebalanceTimer: time.NewTimer(0)} m.saveServerList(serverList{servers: make([]*metadata.Server, tc.servers)}) delay := m.refreshServerRebalanceTimer() if tc.expected != 0 { assert.Equal(t, tc.expected, delay, "nodes=%d, servers=%d", tc.nodes, tc.servers) continue } min := 2 * time.Minute max := 3 * time.Minute if delay < min { t.Errorf("nodes=%d, servers=%d, expected >%v, actual %v", tc.nodes, tc.servers, min, delay) } if delay > max { t.Errorf("nodes=%d, servers=%d, expected <%v, actual %v", tc.nodes, tc.servers, max, delay) } } } // func (m *Manager) saveServerList(l serverList) { func TestManagerInternal_saveServerList(t *testing.T) { m := testManager() // Initial condition func() { l := m.getServerList() if len(l.servers) != 0 { t.Fatalf("Manager.saveServerList failed to load init config") } newServer := new(metadata.Server) l.servers = append(l.servers, newServer) m.saveServerList(l) }() // Test that save works func() { l1 := m.getServerList() t1NumServers := len(l1.servers) if t1NumServers != 1 { t.Fatalf("Manager.saveServerList failed to save mutated config") } }() // Verify mutation w/o a save doesn't alter the original func() { newServer := new(metadata.Server) l := m.getServerList() l.servers = append(l.servers, newServer) l_orig := m.getServerList() origNumServers := len(l_orig.servers) if origNumServers >= len(l.servers) { t.Fatalf("Manager.saveServerList unsaved config overwrote original") } }() } func TestManager_healthyServer(t *testing.T) { t.Run("checking itself", func(t *testing.T) { m := testManager() m.serverName = "s1" server := metadata.Server{Name: m.serverName} require.True(t, m.healthyServer(&server)) }) t.Run("checking another server with successful ping", func(t *testing.T) { m := testManager() server := metadata.Server{Name: "s1"} require.True(t, m.healthyServer(&server)) }) t.Run("checking another server with failed ping", func(t *testing.T) { m := testManagerFailProb(1) server := metadata.Server{Name: "s1"} require.False(t, m.healthyServer(&server)) }) } func TestManager_Rebalance(t *testing.T) { t.Run("single server cluster checking itself", func(t *testing.T) { m := testManager() m.serverName = "s1" m.AddServer(&metadata.Server{Name: m.serverName}) m.RebalanceServers() require.False(t, m.IsOffline()) }) t.Run("multi server cluster is unhealthy when pings always fail", func(t *testing.T) { m := testManagerFailProb(1) m.AddServer(&metadata.Server{Name: "s1"}) m.AddServer(&metadata.Server{Name: "s2"}) m.AddServer(&metadata.Server{Name: "s3"}) for i := 0; i < 100; i++ { m.RebalanceServers() require.True(t, m.IsOffline()) } }) t.Run("multi server cluster checking itself remains healthy despite pings always fail", func(t *testing.T) { m := testManagerFailProb(1) m.serverName = "s1" m.AddServer(&metadata.Server{Name: m.serverName}) m.AddServer(&metadata.Server{Name: "s2"}) m.AddServer(&metadata.Server{Name: "s3"}) for i := 0; i < 100; i++ { m.RebalanceServers() require.False(t, m.IsOffline()) } }) }