package servers_test import ( "fmt" "log" "math/rand" "net" "os" "strings" "testing" "github.com/hashicorp/nomad/client/servers" "github.com/hashicorp/nomad/helper/testlog" ) type fauxAddr struct { Addr string } func (fa *fauxAddr) String() string { return fa.Addr } func (fa *fauxAddr) Network() string { return fa.Addr } type fauxConnPool struct { // failPct between 0.0 and 1.0 == pct of time a Ping should fail failPct float64 } func (cp *fauxConnPool) Ping(net.Addr) error { successProb := rand.Float64() if successProb > cp.failPct { return nil } return fmt.Errorf("bad server") } func testManager(t *testing.T) (m *servers.Manager) { logger := testlog.Logger(t) shutdownCh := make(chan struct{}) m = servers.New(logger, shutdownCh, &fauxConnPool{}) return m } func testManagerFailProb(t *testing.T, failPct float64) (m *servers.Manager) { logger := testlog.Logger(t) shutdownCh := make(chan struct{}) m = servers.New(logger, shutdownCh, &fauxConnPool{failPct: failPct}) return m } func TestServers_SetServers(t *testing.T) { m := testManager(t) var num int num = m.NumServers() if num != 0 { t.Fatalf("Expected zero servers to start") } s1 := &servers.Server{Addr: &fauxAddr{"server1"}} s2 := &servers.Server{Addr: &fauxAddr{"server2"}} m.SetServers([]*servers.Server{s1, s2}) num = m.NumServers() if num != 2 { t.Fatalf("Expected two servers") } all := m.GetServers() if l := len(all); l != 2 { t.Fatalf("expected 2 servers got %d", l) } } func TestServers_FindServer(t *testing.T) { m := testManager(t) if m.FindServer() != nil { t.Fatalf("Expected nil return") } var srvs []*servers.Server srvs = append(srvs, &servers.Server{Addr: &fauxAddr{"s1"}}) m.SetServers(srvs) if m.NumServers() != 1 { t.Fatalf("Expected one server") } s1 := m.FindServer() if s1 == nil { t.Fatalf("Expected non-nil server") } if s1.String() != "s1" { t.Fatalf("Expected s1 server") } s1 = m.FindServer() if s1 == nil || s1.String() != "s1" { t.Fatalf("Expected s1 server (still)") } srvs = append(srvs, &servers.Server{Addr: &fauxAddr{"s2"}}) m.SetServers(srvs) if m.NumServers() != 2 { t.Fatalf("Expected two servers") } s1 = m.FindServer() for _, srv := range srvs { m.NotifyFailedServer(srv) } s2 := m.FindServer() if s1.Equal(s2) { t.Fatalf("Expected different server") } } func TestServers_New(t *testing.T) { logger := log.New(os.Stderr, "", log.LstdFlags) shutdownCh := make(chan struct{}) m := servers.New(logger, shutdownCh, &fauxConnPool{}) if m == nil { t.Fatalf("Manager nil") } } func TestServers_NotifyFailedServer(t *testing.T) { m := testManager(t) if m.NumServers() != 0 { t.Fatalf("Expected zero servers to start") } s1 := &servers.Server{Addr: &fauxAddr{"s1"}} s2 := &servers.Server{Addr: &fauxAddr{"s2"}} // Try notifying for a server that is not managed by Manager m.NotifyFailedServer(s1) if m.NumServers() != 0 { t.Fatalf("Expected zero servers to start") } m.SetServers([]*servers.Server{s1}) // Test again w/ a server not in the list m.NotifyFailedServer(s2) if m.NumServers() != 1 { t.Fatalf("Expected one server") } m.SetServers([]*servers.Server{s1, s2}) if m.NumServers() != 2 { t.Fatalf("Expected two servers") } // Grab a server first := m.FindServer() // Find the other server second := s1 if first.Equal(s1) { second = s2 } // Fail the other server m.NotifyFailedServer(second) next := m.FindServer() if !next.Equal(first) { t.Fatalf("Expected first server (still)") } // Fail the first m.NotifyFailedServer(first) next = m.FindServer() if !next.Equal(second) { t.Fatalf("Expected second server") } // Fail the second m.NotifyFailedServer(second) next = m.FindServer() if !next.Equal(first) { t.Fatalf("Expected first server") } } func TestServers_NumServers(t *testing.T) { m := testManager(t) var num int num = m.NumServers() if num != 0 { t.Fatalf("Expected zero servers to start") } s := &servers.Server{Addr: &fauxAddr{"server1"}} m.SetServers([]*servers.Server{s}) num = m.NumServers() if num != 1 { t.Fatalf("Expected one server after SetServers") } } func TestServers_RebalanceServers(t *testing.T) { const failPct = 0.5 m := testManagerFailProb(t, failPct) const maxServers = 100 const numShuffleTests = 100 const uniquePassRate = 0.5 // Make a huge list of nodes. var srvs []*servers.Server for i := 0; i < maxServers; i++ { nodeName := fmt.Sprintf("s%02d", i) srvs = append(srvs, &servers.Server{Addr: &fauxAddr{nodeName}}) } m.SetServers(srvs) // Keep track of how many unique shuffles we get. uniques := make(map[string]struct{}, maxServers) for i := 0; i < numShuffleTests; i++ { m.RebalanceServers() var names []string for j := 0; j < maxServers; j++ { server := m.FindServer() m.NotifyFailedServer(server) names = append(names, server.String()) } key := strings.Join(names, "|") uniques[key] = struct{}{} } // We have to allow for the fact that there won't always be a unique // shuffle each pass, so we just look for smell here without the test // being flaky. if len(uniques) < int(maxServers*uniquePassRate) { t.Fatalf("unique shuffle ratio too low: %d/%d", len(uniques), maxServers) } }