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dnshostprovider_test.go
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dnshostprovider_test.go
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package zk
import (
"fmt"
"log"
"testing"
"time"
)
// localhostLookupHost is a test replacement for net.LookupHost that
// always returns 127.0.0.1
func localhostLookupHost(host string) ([]string, error) {
return []string{"127.0.0.1"}, nil
}
// TestDNSHostProviderCreate is just like TestCreate, but with an
// overridden HostProvider that ignores the provided hostname.
func TestDNSHostProviderCreate(t *testing.T) {
ts, err := StartTestCluster(t, 1, nil, logWriter{t: t, p: "[ZKERR] "})
if err != nil {
t.Fatal(err)
}
defer ts.Stop()
port := ts.Servers[0].Port
server := fmt.Sprintf("foo.example.com:%d", port)
hostProvider := &DNSHostProvider{lookupHost: localhostLookupHost}
zk, _, err := Connect([]string{server}, time.Second*15, WithHostProvider(hostProvider))
if err != nil {
t.Fatalf("Connect returned error: %+v", err)
}
defer zk.Close()
path := "/gozk-test"
if err := zk.Delete(path, -1); err != nil && err != ErrNoNode {
t.Fatalf("Delete returned error: %+v", err)
}
if p, err := zk.Create(path, []byte{1, 2, 3, 4}, 0, WorldACL(PermAll)); err != nil {
t.Fatalf("Create returned error: %+v", err)
} else if p != path {
t.Fatalf("Create returned different path '%s' != '%s'", p, path)
}
if data, stat, err := zk.Get(path); err != nil {
t.Fatalf("Get returned error: %+v", err)
} else if stat == nil {
t.Fatal("Get returned nil stat")
} else if len(data) < 4 {
t.Fatal("Get returned wrong size data")
}
}
// localHostPortsFacade wraps a HostProvider, remapping the
// address/port combinations it returns to "localhost:$PORT" where
// $PORT is chosen from the provided ports.
type localHostPortsFacade struct {
inner HostProvider // The wrapped HostProvider
ports []int // The provided list of ports
nextPort int // The next port to use
mapped map[string]string // Already-mapped address/port combinations
}
func newLocalHostPortsFacade(inner HostProvider, ports []int) *localHostPortsFacade {
return &localHostPortsFacade{
inner: inner,
ports: ports,
mapped: make(map[string]string),
}
}
func (lhpf *localHostPortsFacade) Len() int { return lhpf.inner.Len() }
func (lhpf *localHostPortsFacade) Connected() { lhpf.inner.Connected() }
func (lhpf *localHostPortsFacade) Init(servers []string) error { return lhpf.inner.Init(servers) }
func (lhpf *localHostPortsFacade) Next() (string, bool) {
server, retryStart := lhpf.inner.Next()
// If we've already set up a mapping for that server, just return it.
if localMapping := lhpf.mapped[server]; localMapping != "" {
return localMapping, retryStart
}
if lhpf.nextPort == len(lhpf.ports) {
log.Fatalf("localHostPortsFacade out of ports to assign to %q; current config: %q", server, lhpf.mapped)
}
localMapping := fmt.Sprintf("localhost:%d", lhpf.ports[lhpf.nextPort])
lhpf.mapped[server] = localMapping
lhpf.nextPort++
return localMapping, retryStart
}
var _ HostProvider = &localHostPortsFacade{}
// TestDNSHostProviderReconnect tests that the zk.Conn correctly
// reconnects when the Zookeeper instance it's connected to
// restarts. It wraps the DNSHostProvider in a lightweight facade that
// remaps addresses to localhost:$PORT combinations corresponding to
// the test ZooKeeper instances.
func TestDNSHostProviderReconnect(t *testing.T) {
ts, err := StartTestCluster(t, 3, nil, logWriter{t: t, p: "[ZKERR] "})
if err != nil {
t.Fatal(err)
}
defer ts.Stop()
innerHp := &DNSHostProvider{lookupHost: func(host string) ([]string, error) {
return []string{"192.0.2.1", "192.0.2.2", "192.0.2.3"}, nil
}}
ports := make([]int, 0, len(ts.Servers))
for _, server := range ts.Servers {
ports = append(ports, server.Port)
}
hp := newLocalHostPortsFacade(innerHp, ports)
zk, _, err := Connect([]string{"foo.example.com:12345"}, time.Second, WithHostProvider(hp))
if err != nil {
t.Fatalf("Connect returned error: %+v", err)
}
defer zk.Close()
path := "/gozk-test"
// Initial operation to force connection.
if err := zk.Delete(path, -1); err != nil && err != ErrNoNode {
t.Fatalf("Delete returned error: %+v", err)
}
// Figure out which server we're connected to.
currentServer := zk.Server()
t.Logf("Connected to %q. Finding test server index…", currentServer)
serverIndex := -1
for i, server := range ts.Servers {
server := fmt.Sprintf("localhost:%d", server.Port)
t.Logf("…trying %q", server)
if currentServer == server {
serverIndex = i
t.Logf("…found at index %d", i)
break
}
}
if serverIndex == -1 {
t.Fatalf("Cannot determine test server index.")
}
// Restart the connected server.
ts.Servers[serverIndex].Srv.Stop()
ts.Servers[serverIndex].Srv.Start()
// Continue with the basic TestCreate tests.
if p, err := zk.Create(path, []byte{1, 2, 3, 4}, 0, WorldACL(PermAll)); err != nil {
t.Fatalf("Create returned error: %+v", err)
} else if p != path {
t.Fatalf("Create returned different path '%s' != '%s'", p, path)
}
if data, stat, err := zk.Get(path); err != nil {
t.Fatalf("Get returned error: %+v", err)
} else if stat == nil {
t.Fatal("Get returned nil stat")
} else if len(data) < 4 {
t.Fatal("Get returned wrong size data")
}
if zk.Server() == currentServer {
t.Errorf("Still connected to %q after restart.", currentServer)
}
}
// TestDNSHostProviderRetryStart tests the `retryStart` functionality
// of DNSHostProvider.
// It's also probably the clearest visual explanation of exactly how
// it works.
func TestDNSHostProviderRetryStart(t *testing.T) {
t.Parallel()
hp := &DNSHostProvider{lookupHost: func(host string) ([]string, error) {
return []string{"192.0.2.1", "192.0.2.2", "192.0.2.3"}, nil
}}
if err := hp.Init([]string{"foo.example.com:12345"}); err != nil {
t.Fatal(err)
}
testdata := []struct {
retryStartWant bool
callConnected bool
}{
// Repeated failures.
{false, false},
{false, false},
{false, false},
{true, false},
{false, false},
{false, false},
{true, true},
// One success offsets things.
{false, false},
{false, true},
{false, true},
// Repeated successes.
{false, true},
{false, true},
{false, true},
{false, true},
{false, true},
// And some more failures.
{false, false},
{false, false},
{true, false}, // Looped back to last known good server: all alternates failed.
{false, false},
}
for i, td := range testdata {
_, retryStartGot := hp.Next()
if retryStartGot != td.retryStartWant {
t.Errorf("%d: retryStart=%v; want %v", i, retryStartGot, td.retryStartWant)
}
if td.callConnected {
hp.Connected()
}
}
}