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go/src/net/dial_test.go

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// Copyright 2011 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package net
import (
net: implement TCP connection setup with fast failover This CL adds minimal support of Happy Eyeballs-like TCP connection setup to Dialer API. Happy Eyeballs and derivation techniques are described in the following: - Happy Eyeballs: Success with Dual-Stack Hosts http://tools.ietf.org/html/rfc6555 - Analysing Dual Stack Behaviour and IPv6 Quality http://www.potaroo.net/presentations/2012-04-17-dual-stack-quality.pdf Usually, the techniques consist of three components below. - DNS query racers, that run A and AAAA queries in parallel or series - A short list of destination addresses - TCP SYN racers, that run IPv4 and IPv6 transport in parallel or series This CL implements only the latter two. The existing DNS query component gathers together A and AAAA records in series, so we don't touch it here. This CL just uses extended resolveInternetAddr and makes it possible to run multiple Dial racers in parallel. For example, when the given destination is a DNS name and the name has multiple address family A and AAAA records, and it happens on the TCP wildcard network "tcp" with DualStack=true like the following: (&net.Dialer{DualStack: true}).Dial("tcp", "www.example.com:80") The function will return a first established connection either TCP over IPv4 or TCP over IPv6, and close the other connection internally. Fixes #3610. Fixes #5267. Benchmark results on freebsd/amd64 virtual machine, tip vs. tip+12416043: benchmark old ns/op new ns/op delta BenchmarkTCP4OneShot 50696 52141 +2.85% BenchmarkTCP4OneShotTimeout 65775 66426 +0.99% BenchmarkTCP4Persistent 10986 10457 -4.82% BenchmarkTCP4PersistentTimeout 11207 10445 -6.80% BenchmarkTCP6OneShot 62009 63718 +2.76% BenchmarkTCP6OneShotTimeout 78351 79138 +1.00% BenchmarkTCP6Persistent 14695 14659 -0.24% BenchmarkTCP6PersistentTimeout 15032 14646 -2.57% BenchmarkTCP4ConcurrentReadWrite 7215 6217 -13.83% BenchmarkTCP6ConcurrentReadWrite 7528 7493 -0.46% benchmark old allocs new allocs delta BenchmarkTCP4OneShot 36 36 0.00% BenchmarkTCP4OneShotTimeout 36 36 0.00% BenchmarkTCP4Persistent 0 0 n/a% BenchmarkTCP4PersistentTimeout 0 0 n/a% BenchmarkTCP6OneShot 37 37 0.00% BenchmarkTCP6OneShotTimeout 37 37 0.00% BenchmarkTCP6Persistent 0 0 n/a% BenchmarkTCP6PersistentTimeout 0 0 n/a% BenchmarkTCP4ConcurrentReadWrite 0 0 n/a% BenchmarkTCP6ConcurrentReadWrite 0 0 n/a% benchmark old bytes new bytes delta BenchmarkTCP4OneShot 2500 2503 0.12% BenchmarkTCP4OneShotTimeout 2508 2505 -0.12% BenchmarkTCP4Persistent 0 0 n/a% BenchmarkTCP4PersistentTimeout 0 0 n/a% BenchmarkTCP6OneShot 2713 2707 -0.22% BenchmarkTCP6OneShotTimeout 2722 2720 -0.07% BenchmarkTCP6Persistent 0 0 n/a% BenchmarkTCP6PersistentTimeout 0 0 n/a% BenchmarkTCP4ConcurrentReadWrite 0 0 n/a% BenchmarkTCP6ConcurrentReadWrite 0 0 n/a% R=golang-dev, bradfitz, nightlyone, rsc CC=golang-dev https://golang.org/cl/12416043
2013-09-11 08:48:53 -06:00
"bytes"
"flag"
"fmt"
"io"
"os"
net: implement TCP connection setup with fast failover This CL adds minimal support of Happy Eyeballs-like TCP connection setup to Dialer API. Happy Eyeballs and derivation techniques are described in the following: - Happy Eyeballs: Success with Dual-Stack Hosts http://tools.ietf.org/html/rfc6555 - Analysing Dual Stack Behaviour and IPv6 Quality http://www.potaroo.net/presentations/2012-04-17-dual-stack-quality.pdf Usually, the techniques consist of three components below. - DNS query racers, that run A and AAAA queries in parallel or series - A short list of destination addresses - TCP SYN racers, that run IPv4 and IPv6 transport in parallel or series This CL implements only the latter two. The existing DNS query component gathers together A and AAAA records in series, so we don't touch it here. This CL just uses extended resolveInternetAddr and makes it possible to run multiple Dial racers in parallel. For example, when the given destination is a DNS name and the name has multiple address family A and AAAA records, and it happens on the TCP wildcard network "tcp" with DualStack=true like the following: (&net.Dialer{DualStack: true}).Dial("tcp", "www.example.com:80") The function will return a first established connection either TCP over IPv4 or TCP over IPv6, and close the other connection internally. Fixes #3610. Fixes #5267. Benchmark results on freebsd/amd64 virtual machine, tip vs. tip+12416043: benchmark old ns/op new ns/op delta BenchmarkTCP4OneShot 50696 52141 +2.85% BenchmarkTCP4OneShotTimeout 65775 66426 +0.99% BenchmarkTCP4Persistent 10986 10457 -4.82% BenchmarkTCP4PersistentTimeout 11207 10445 -6.80% BenchmarkTCP6OneShot 62009 63718 +2.76% BenchmarkTCP6OneShotTimeout 78351 79138 +1.00% BenchmarkTCP6Persistent 14695 14659 -0.24% BenchmarkTCP6PersistentTimeout 15032 14646 -2.57% BenchmarkTCP4ConcurrentReadWrite 7215 6217 -13.83% BenchmarkTCP6ConcurrentReadWrite 7528 7493 -0.46% benchmark old allocs new allocs delta BenchmarkTCP4OneShot 36 36 0.00% BenchmarkTCP4OneShotTimeout 36 36 0.00% BenchmarkTCP4Persistent 0 0 n/a% BenchmarkTCP4PersistentTimeout 0 0 n/a% BenchmarkTCP6OneShot 37 37 0.00% BenchmarkTCP6OneShotTimeout 37 37 0.00% BenchmarkTCP6Persistent 0 0 n/a% BenchmarkTCP6PersistentTimeout 0 0 n/a% BenchmarkTCP4ConcurrentReadWrite 0 0 n/a% BenchmarkTCP6ConcurrentReadWrite 0 0 n/a% benchmark old bytes new bytes delta BenchmarkTCP4OneShot 2500 2503 0.12% BenchmarkTCP4OneShotTimeout 2508 2505 -0.12% BenchmarkTCP4Persistent 0 0 n/a% BenchmarkTCP4PersistentTimeout 0 0 n/a% BenchmarkTCP6OneShot 2713 2707 -0.22% BenchmarkTCP6OneShotTimeout 2722 2720 -0.07% BenchmarkTCP6Persistent 0 0 n/a% BenchmarkTCP6PersistentTimeout 0 0 n/a% BenchmarkTCP4ConcurrentReadWrite 0 0 n/a% BenchmarkTCP6ConcurrentReadWrite 0 0 n/a% R=golang-dev, bradfitz, nightlyone, rsc CC=golang-dev https://golang.org/cl/12416043
2013-09-11 08:48:53 -06:00
"os/exec"
"reflect"
"regexp"
"runtime"
net: implement TCP connection setup with fast failover This CL adds minimal support of Happy Eyeballs-like TCP connection setup to Dialer API. Happy Eyeballs and derivation techniques are described in the following: - Happy Eyeballs: Success with Dual-Stack Hosts http://tools.ietf.org/html/rfc6555 - Analysing Dual Stack Behaviour and IPv6 Quality http://www.potaroo.net/presentations/2012-04-17-dual-stack-quality.pdf Usually, the techniques consist of three components below. - DNS query racers, that run A and AAAA queries in parallel or series - A short list of destination addresses - TCP SYN racers, that run IPv4 and IPv6 transport in parallel or series This CL implements only the latter two. The existing DNS query component gathers together A and AAAA records in series, so we don't touch it here. This CL just uses extended resolveInternetAddr and makes it possible to run multiple Dial racers in parallel. For example, when the given destination is a DNS name and the name has multiple address family A and AAAA records, and it happens on the TCP wildcard network "tcp" with DualStack=true like the following: (&net.Dialer{DualStack: true}).Dial("tcp", "www.example.com:80") The function will return a first established connection either TCP over IPv4 or TCP over IPv6, and close the other connection internally. Fixes #3610. Fixes #5267. Benchmark results on freebsd/amd64 virtual machine, tip vs. tip+12416043: benchmark old ns/op new ns/op delta BenchmarkTCP4OneShot 50696 52141 +2.85% BenchmarkTCP4OneShotTimeout 65775 66426 +0.99% BenchmarkTCP4Persistent 10986 10457 -4.82% BenchmarkTCP4PersistentTimeout 11207 10445 -6.80% BenchmarkTCP6OneShot 62009 63718 +2.76% BenchmarkTCP6OneShotTimeout 78351 79138 +1.00% BenchmarkTCP6Persistent 14695 14659 -0.24% BenchmarkTCP6PersistentTimeout 15032 14646 -2.57% BenchmarkTCP4ConcurrentReadWrite 7215 6217 -13.83% BenchmarkTCP6ConcurrentReadWrite 7528 7493 -0.46% benchmark old allocs new allocs delta BenchmarkTCP4OneShot 36 36 0.00% BenchmarkTCP4OneShotTimeout 36 36 0.00% BenchmarkTCP4Persistent 0 0 n/a% BenchmarkTCP4PersistentTimeout 0 0 n/a% BenchmarkTCP6OneShot 37 37 0.00% BenchmarkTCP6OneShotTimeout 37 37 0.00% BenchmarkTCP6Persistent 0 0 n/a% BenchmarkTCP6PersistentTimeout 0 0 n/a% BenchmarkTCP4ConcurrentReadWrite 0 0 n/a% BenchmarkTCP6ConcurrentReadWrite 0 0 n/a% benchmark old bytes new bytes delta BenchmarkTCP4OneShot 2500 2503 0.12% BenchmarkTCP4OneShotTimeout 2508 2505 -0.12% BenchmarkTCP4Persistent 0 0 n/a% BenchmarkTCP4PersistentTimeout 0 0 n/a% BenchmarkTCP6OneShot 2713 2707 -0.22% BenchmarkTCP6OneShotTimeout 2722 2720 -0.07% BenchmarkTCP6Persistent 0 0 n/a% BenchmarkTCP6PersistentTimeout 0 0 n/a% BenchmarkTCP4ConcurrentReadWrite 0 0 n/a% BenchmarkTCP6ConcurrentReadWrite 0 0 n/a% R=golang-dev, bradfitz, nightlyone, rsc CC=golang-dev https://golang.org/cl/12416043
2013-09-11 08:48:53 -06:00
"strconv"
"sync"
"testing"
"time"
)
func newLocalListener(t *testing.T) Listener {
ln, err := Listen("tcp", "127.0.0.1:0")
if err != nil {
ln, err = Listen("tcp6", "[::1]:0")
}
if err != nil {
t.Fatal(err)
}
return ln
}
func TestDialTimeout(t *testing.T) {
origBacklog := listenerBacklog
defer func() {
listenerBacklog = origBacklog
}()
listenerBacklog = 1
ln := newLocalListener(t)
defer ln.Close()
errc := make(chan error)
numConns := listenerBacklog + 100
// TODO(bradfitz): It's hard to test this in a portable
// way. This is unfortunate, but works for now.
switch runtime.GOOS {
case "linux":
// The kernel will start accepting TCP connections before userspace
// gets a chance to not accept them, so fire off a bunch to fill up
// the kernel's backlog. Then we test we get a failure after that.
for i := 0; i < numConns; i++ {
go func() {
_, err := DialTimeout("tcp", ln.Addr().String(), 200*time.Millisecond)
errc <- err
}()
}
case "darwin", "plan9", "windows":
// At least OS X 10.7 seems to accept any number of
// connections, ignoring listen's backlog, so resort
// to connecting to a hopefully-dead 127/8 address.
// Same for windows.
//
// Use an IANA reserved port (49151) instead of 80, because
// on our 386 builder, this Dial succeeds, connecting
// to an IIS web server somewhere. The data center
// or VM or firewall must be stealing the TCP connection.
//
// IANA Service Name and Transport Protocol Port Number Registry
// <http://www.iana.org/assignments/service-names-port-numbers/service-names-port-numbers.xml>
go func() {
c, err := DialTimeout("tcp", "127.0.71.111:49151", 200*time.Millisecond)
if err == nil {
err = fmt.Errorf("unexpected: connected to %s!", c.RemoteAddr())
c.Close()
}
errc <- err
}()
default:
// TODO(bradfitz):
// OpenBSD may have a reject route to 127/8 except 127.0.0.1/32
// by default. FreeBSD likely works, but is untested.
// TODO(rsc):
// The timeout never happens on Windows. Why? Issue 3016.
t.Skipf("skipping test on %q; untested.", runtime.GOOS)
}
connected := 0
for {
select {
case <-time.After(15 * time.Second):
t.Fatal("too slow")
case err := <-errc:
if err == nil {
connected++
if connected == numConns {
t.Fatal("all connections connected; expected some to time out")
}
} else {
terr, ok := err.(timeout)
if !ok {
t.Fatalf("got error %q; want error with timeout interface", err)
}
if !terr.Timeout() {
t.Fatalf("got error %q; not a timeout", err)
}
// Pass. We saw a timeout error.
return
}
}
}
}
func TestSelfConnect(t *testing.T) {
if runtime.GOOS == "windows" {
// TODO(brainman): do not know why it hangs.
t.Skip("skipping known-broken test on windows")
}
// Test that Dial does not honor self-connects.
// See the comment in DialTCP.
// Find a port that would be used as a local address.
l, err := Listen("tcp", "127.0.0.1:0")
if err != nil {
t.Fatal(err)
}
c, err := Dial("tcp", l.Addr().String())
if err != nil {
t.Fatal(err)
}
addr := c.LocalAddr().String()
c.Close()
l.Close()
// Try to connect to that address repeatedly.
n := 100000
if testing.Short() {
n = 1000
}
switch runtime.GOOS {
case "darwin", "dragonfly", "freebsd", "netbsd", "openbsd", "plan9", "solaris", "windows":
// Non-Linux systems take a long time to figure
// out that there is nothing listening on localhost.
n = 100
}
for i := 0; i < n; i++ {
c, err := DialTimeout("tcp", addr, time.Millisecond)
if err == nil {
if c.LocalAddr().String() == addr {
t.Errorf("#%d: Dial %q self-connect", i, addr)
} else {
t.Logf("#%d: Dial %q succeeded - possibly racing with other listener", i, addr)
}
c.Close()
}
}
}
var runErrorTest = flag.Bool("run_error_test", false, "let TestDialError check for dns errors")
type DialErrorTest struct {
Net string
Raddr string
Pattern string
}
var dialErrorTests = []DialErrorTest{
{
"datakit", "mh/astro/r70",
"dial datakit mh/astro/r70: unknown network datakit",
},
{
"tcp", "127.0.0.1:☺",
"dial tcp 127.0.0.1:☺: unknown port tcp/☺",
},
{
"tcp", "no-such-name.google.com.:80",
"dial tcp no-such-name.google.com.:80: lookup no-such-name.google.com.( on .*)?: no (.*)",
},
{
"tcp", "no-such-name.no-such-top-level-domain.:80",
"dial tcp no-such-name.no-such-top-level-domain.:80: lookup no-such-name.no-such-top-level-domain.( on .*)?: no (.*)",
},
{
"tcp", "no-such-name:80",
`dial tcp no-such-name:80: lookup no-such-name\.(.*\.)?( on .*)?: no (.*)`,
},
{
"tcp", "mh/astro/r70:http",
"dial tcp mh/astro/r70:http: lookup mh/astro/r70: invalid domain name",
},
{
"unix", "/etc/file-not-found",
"dial unix /etc/file-not-found: no such file or directory",
},
{
"unix", "/etc/",
"dial unix /etc/: (permission denied|socket operation on non-socket|connection refused)",
},
{
"unixpacket", "/etc/file-not-found",
"dial unixpacket /etc/file-not-found: no such file or directory",
},
{
"unixpacket", "/etc/",
"dial unixpacket /etc/: (permission denied|socket operation on non-socket|connection refused)",
},
}
var duplicateErrorPattern = `dial (.*) dial (.*)`
func TestDialError(t *testing.T) {
if !*runErrorTest {
t.Logf("test disabled; use -run_error_test to enable")
return
}
for i, tt := range dialErrorTests {
c, err := Dial(tt.Net, tt.Raddr)
if c != nil {
c.Close()
}
if err == nil {
t.Errorf("#%d: nil error, want match for %#q", i, tt.Pattern)
continue
}
s := err.Error()
match, _ := regexp.MatchString(tt.Pattern, s)
if !match {
t.Errorf("#%d: %q, want match for %#q", i, s, tt.Pattern)
}
match, _ = regexp.MatchString(duplicateErrorPattern, s)
if match {
t.Errorf("#%d: %q, duplicate error return from Dial", i, s)
}
}
}
var invalidDialAndListenArgTests = []struct {
net string
addr string
err error
}{
{"foo", "bar", &OpError{Op: "dial", Net: "foo", Addr: nil, Err: UnknownNetworkError("foo")}},
{"baz", "", &OpError{Op: "listen", Net: "baz", Addr: nil, Err: UnknownNetworkError("baz")}},
{"tcp", "", &OpError{Op: "dial", Net: "tcp", Addr: nil, Err: errMissingAddress}},
}
func TestInvalidDialAndListenArgs(t *testing.T) {
for _, tt := range invalidDialAndListenArgTests {
var err error
switch tt.err.(*OpError).Op {
case "dial":
_, err = Dial(tt.net, tt.addr)
case "listen":
_, err = Listen(tt.net, tt.addr)
}
if !reflect.DeepEqual(tt.err, err) {
t.Fatalf("got %#v; expected %#v", err, tt.err)
}
}
}
func TestDialTimeoutFDLeak(t *testing.T) {
if runtime.GOOS != "linux" {
// TODO(bradfitz): test on other platforms
t.Skipf("skipping test on %q", runtime.GOOS)
}
ln := newLocalListener(t)
defer ln.Close()
type connErr struct {
conn Conn
err error
}
dials := listenerBacklog + 100
// used to be listenerBacklog + 5, but was found to be unreliable, issue 4384.
maxGoodConnect := listenerBacklog + runtime.NumCPU()*10
resc := make(chan connErr)
for i := 0; i < dials; i++ {
go func() {
conn, err := DialTimeout("tcp", ln.Addr().String(), 500*time.Millisecond)
resc <- connErr{conn, err}
}()
}
var firstErr string
var ngood int
var toClose []io.Closer
for i := 0; i < dials; i++ {
ce := <-resc
if ce.err == nil {
ngood++
if ngood > maxGoodConnect {
t.Errorf("%d good connects; expected at most %d", ngood, maxGoodConnect)
}
toClose = append(toClose, ce.conn)
continue
}
err := ce.err
if firstErr == "" {
firstErr = err.Error()
} else if err.Error() != firstErr {
t.Fatalf("inconsistent error messages: first was %q, then later %q", firstErr, err)
}
}
for _, c := range toClose {
c.Close()
}
for i := 0; i < 100; i++ {
if got := numFD(); got < dials {
// Test passes.
return
}
time.Sleep(10 * time.Millisecond)
}
if got := numFD(); got >= dials {
t.Errorf("num fds after %d timeouts = %d; want <%d", dials, got, dials)
}
}
net: implement TCP connection setup with fast failover This CL adds minimal support of Happy Eyeballs-like TCP connection setup to Dialer API. Happy Eyeballs and derivation techniques are described in the following: - Happy Eyeballs: Success with Dual-Stack Hosts http://tools.ietf.org/html/rfc6555 - Analysing Dual Stack Behaviour and IPv6 Quality http://www.potaroo.net/presentations/2012-04-17-dual-stack-quality.pdf Usually, the techniques consist of three components below. - DNS query racers, that run A and AAAA queries in parallel or series - A short list of destination addresses - TCP SYN racers, that run IPv4 and IPv6 transport in parallel or series This CL implements only the latter two. The existing DNS query component gathers together A and AAAA records in series, so we don't touch it here. This CL just uses extended resolveInternetAddr and makes it possible to run multiple Dial racers in parallel. For example, when the given destination is a DNS name and the name has multiple address family A and AAAA records, and it happens on the TCP wildcard network "tcp" with DualStack=true like the following: (&net.Dialer{DualStack: true}).Dial("tcp", "www.example.com:80") The function will return a first established connection either TCP over IPv4 or TCP over IPv6, and close the other connection internally. Fixes #3610. Fixes #5267. Benchmark results on freebsd/amd64 virtual machine, tip vs. tip+12416043: benchmark old ns/op new ns/op delta BenchmarkTCP4OneShot 50696 52141 +2.85% BenchmarkTCP4OneShotTimeout 65775 66426 +0.99% BenchmarkTCP4Persistent 10986 10457 -4.82% BenchmarkTCP4PersistentTimeout 11207 10445 -6.80% BenchmarkTCP6OneShot 62009 63718 +2.76% BenchmarkTCP6OneShotTimeout 78351 79138 +1.00% BenchmarkTCP6Persistent 14695 14659 -0.24% BenchmarkTCP6PersistentTimeout 15032 14646 -2.57% BenchmarkTCP4ConcurrentReadWrite 7215 6217 -13.83% BenchmarkTCP6ConcurrentReadWrite 7528 7493 -0.46% benchmark old allocs new allocs delta BenchmarkTCP4OneShot 36 36 0.00% BenchmarkTCP4OneShotTimeout 36 36 0.00% BenchmarkTCP4Persistent 0 0 n/a% BenchmarkTCP4PersistentTimeout 0 0 n/a% BenchmarkTCP6OneShot 37 37 0.00% BenchmarkTCP6OneShotTimeout 37 37 0.00% BenchmarkTCP6Persistent 0 0 n/a% BenchmarkTCP6PersistentTimeout 0 0 n/a% BenchmarkTCP4ConcurrentReadWrite 0 0 n/a% BenchmarkTCP6ConcurrentReadWrite 0 0 n/a% benchmark old bytes new bytes delta BenchmarkTCP4OneShot 2500 2503 0.12% BenchmarkTCP4OneShotTimeout 2508 2505 -0.12% BenchmarkTCP4Persistent 0 0 n/a% BenchmarkTCP4PersistentTimeout 0 0 n/a% BenchmarkTCP6OneShot 2713 2707 -0.22% BenchmarkTCP6OneShotTimeout 2722 2720 -0.07% BenchmarkTCP6Persistent 0 0 n/a% BenchmarkTCP6PersistentTimeout 0 0 n/a% BenchmarkTCP4ConcurrentReadWrite 0 0 n/a% BenchmarkTCP6ConcurrentReadWrite 0 0 n/a% R=golang-dev, bradfitz, nightlyone, rsc CC=golang-dev https://golang.org/cl/12416043
2013-09-11 08:48:53 -06:00
func numTCP() (ntcp, nopen, nclose int, err error) {
lsof, err := exec.Command("lsof", "-n", "-p", strconv.Itoa(os.Getpid())).Output()
if err != nil {
return 0, 0, 0, err
}
ntcp += bytes.Count(lsof, []byte("TCP"))
for _, state := range []string{"LISTEN", "SYN_SENT", "SYN_RECEIVED", "ESTABLISHED"} {
nopen += bytes.Count(lsof, []byte(state))
}
for _, state := range []string{"CLOSED", "CLOSE_WAIT", "LAST_ACK", "FIN_WAIT_1", "FIN_WAIT_2", "CLOSING", "TIME_WAIT"} {
nclose += bytes.Count(lsof, []byte(state))
}
return ntcp, nopen, nclose, nil
}
func TestDialMultiFDLeak(t *testing.T) {
t.Skip("flaky test - golang.org/issue/8764")
net: implement TCP connection setup with fast failover This CL adds minimal support of Happy Eyeballs-like TCP connection setup to Dialer API. Happy Eyeballs and derivation techniques are described in the following: - Happy Eyeballs: Success with Dual-Stack Hosts http://tools.ietf.org/html/rfc6555 - Analysing Dual Stack Behaviour and IPv6 Quality http://www.potaroo.net/presentations/2012-04-17-dual-stack-quality.pdf Usually, the techniques consist of three components below. - DNS query racers, that run A and AAAA queries in parallel or series - A short list of destination addresses - TCP SYN racers, that run IPv4 and IPv6 transport in parallel or series This CL implements only the latter two. The existing DNS query component gathers together A and AAAA records in series, so we don't touch it here. This CL just uses extended resolveInternetAddr and makes it possible to run multiple Dial racers in parallel. For example, when the given destination is a DNS name and the name has multiple address family A and AAAA records, and it happens on the TCP wildcard network "tcp" with DualStack=true like the following: (&net.Dialer{DualStack: true}).Dial("tcp", "www.example.com:80") The function will return a first established connection either TCP over IPv4 or TCP over IPv6, and close the other connection internally. Fixes #3610. Fixes #5267. Benchmark results on freebsd/amd64 virtual machine, tip vs. tip+12416043: benchmark old ns/op new ns/op delta BenchmarkTCP4OneShot 50696 52141 +2.85% BenchmarkTCP4OneShotTimeout 65775 66426 +0.99% BenchmarkTCP4Persistent 10986 10457 -4.82% BenchmarkTCP4PersistentTimeout 11207 10445 -6.80% BenchmarkTCP6OneShot 62009 63718 +2.76% BenchmarkTCP6OneShotTimeout 78351 79138 +1.00% BenchmarkTCP6Persistent 14695 14659 -0.24% BenchmarkTCP6PersistentTimeout 15032 14646 -2.57% BenchmarkTCP4ConcurrentReadWrite 7215 6217 -13.83% BenchmarkTCP6ConcurrentReadWrite 7528 7493 -0.46% benchmark old allocs new allocs delta BenchmarkTCP4OneShot 36 36 0.00% BenchmarkTCP4OneShotTimeout 36 36 0.00% BenchmarkTCP4Persistent 0 0 n/a% BenchmarkTCP4PersistentTimeout 0 0 n/a% BenchmarkTCP6OneShot 37 37 0.00% BenchmarkTCP6OneShotTimeout 37 37 0.00% BenchmarkTCP6Persistent 0 0 n/a% BenchmarkTCP6PersistentTimeout 0 0 n/a% BenchmarkTCP4ConcurrentReadWrite 0 0 n/a% BenchmarkTCP6ConcurrentReadWrite 0 0 n/a% benchmark old bytes new bytes delta BenchmarkTCP4OneShot 2500 2503 0.12% BenchmarkTCP4OneShotTimeout 2508 2505 -0.12% BenchmarkTCP4Persistent 0 0 n/a% BenchmarkTCP4PersistentTimeout 0 0 n/a% BenchmarkTCP6OneShot 2713 2707 -0.22% BenchmarkTCP6OneShotTimeout 2722 2720 -0.07% BenchmarkTCP6Persistent 0 0 n/a% BenchmarkTCP6PersistentTimeout 0 0 n/a% BenchmarkTCP4ConcurrentReadWrite 0 0 n/a% BenchmarkTCP6ConcurrentReadWrite 0 0 n/a% R=golang-dev, bradfitz, nightlyone, rsc CC=golang-dev https://golang.org/cl/12416043
2013-09-11 08:48:53 -06:00
if !supportsIPv4 || !supportsIPv6 {
t.Skip("neither ipv4 nor ipv6 is supported")
}
halfDeadServer := func(dss *dualStackServer, ln Listener) {
for {
if c, err := ln.Accept(); err != nil {
return
} else {
// It just keeps established
// connections like a half-dead server
// does.
dss.putConn(c)
}
}
}
dss, err := newDualStackServer([]streamListener{
{net: "tcp4", addr: "127.0.0.1"},
{net: "tcp6", addr: "[::1]"},
})
if err != nil {
t.Fatalf("newDualStackServer failed: %v", err)
}
defer dss.teardown()
if err := dss.buildup(halfDeadServer); err != nil {
t.Fatalf("dualStackServer.buildup failed: %v", err)
}
_, before, _, err := numTCP()
if err != nil {
t.Skipf("skipping test; error finding or running lsof: %v", err)
}
var wg sync.WaitGroup
portnum, _, _ := dtoi(dss.port, 0)
ras := addrList{
// Losers that will fail to connect, see RFC 6890.
&TCPAddr{IP: IPv4(198, 18, 0, 254), Port: portnum},
&TCPAddr{IP: ParseIP("2001:2::254"), Port: portnum},
// Winner candidates of this race.
&TCPAddr{IP: IPv4(127, 0, 0, 1), Port: portnum},
&TCPAddr{IP: IPv6loopback, Port: portnum},
// Losers that will have established connections.
&TCPAddr{IP: IPv4(127, 0, 0, 1), Port: portnum},
&TCPAddr{IP: IPv6loopback, Port: portnum},
}
const T1 = 10 * time.Millisecond
const T2 = 2 * T1
const N = 10
for i := 0; i < N; i++ {
wg.Add(1)
go func() {
defer wg.Done()
if c, err := dialMulti("tcp", "fast failover test", nil, ras, time.Now().Add(T1)); err == nil {
c.Close()
}
}()
}
wg.Wait()
time.Sleep(T2)
ntcp, after, nclose, err := numTCP()
if err != nil {
t.Skipf("skipping test; error finding or running lsof: %v", err)
}
t.Logf("tcp sessions: %v, open sessions: %v, closing sessions: %v", ntcp, after, nclose)
if after != before {
t.Fatalf("got %v open sessions; expected %v", after, before)
}
}
func numFD() int {
if runtime.GOOS == "linux" {
f, err := os.Open("/proc/self/fd")
if err != nil {
panic(err)
}
defer f.Close()
names, err := f.Readdirnames(0)
if err != nil {
panic(err)
}
return len(names)
}
// All tests using this should be skipped anyway, but:
panic("numFDs not implemented on " + runtime.GOOS)
}
func TestDialer(t *testing.T) {
ln, err := Listen("tcp4", "127.0.0.1:0")
if err != nil {
t.Fatalf("Listen failed: %v", err)
}
defer ln.Close()
ch := make(chan error, 1)
go func() {
c, err := ln.Accept()
if err != nil {
ch <- fmt.Errorf("Accept failed: %v", err)
return
}
defer c.Close()
ch <- nil
}()
laddr, err := ResolveTCPAddr("tcp4", "127.0.0.1:0")
if err != nil {
t.Fatalf("ResolveTCPAddr failed: %v", err)
}
d := &Dialer{LocalAddr: laddr}
c, err := d.Dial("tcp4", ln.Addr().String())
if err != nil {
t.Fatalf("Dial failed: %v", err)
}
defer c.Close()
c.Read(make([]byte, 1))
err = <-ch
if err != nil {
t.Error(err)
}
}
net: implement TCP connection setup with fast failover This CL adds minimal support of Happy Eyeballs-like TCP connection setup to Dialer API. Happy Eyeballs and derivation techniques are described in the following: - Happy Eyeballs: Success with Dual-Stack Hosts http://tools.ietf.org/html/rfc6555 - Analysing Dual Stack Behaviour and IPv6 Quality http://www.potaroo.net/presentations/2012-04-17-dual-stack-quality.pdf Usually, the techniques consist of three components below. - DNS query racers, that run A and AAAA queries in parallel or series - A short list of destination addresses - TCP SYN racers, that run IPv4 and IPv6 transport in parallel or series This CL implements only the latter two. The existing DNS query component gathers together A and AAAA records in series, so we don't touch it here. This CL just uses extended resolveInternetAddr and makes it possible to run multiple Dial racers in parallel. For example, when the given destination is a DNS name and the name has multiple address family A and AAAA records, and it happens on the TCP wildcard network "tcp" with DualStack=true like the following: (&net.Dialer{DualStack: true}).Dial("tcp", "www.example.com:80") The function will return a first established connection either TCP over IPv4 or TCP over IPv6, and close the other connection internally. Fixes #3610. Fixes #5267. Benchmark results on freebsd/amd64 virtual machine, tip vs. tip+12416043: benchmark old ns/op new ns/op delta BenchmarkTCP4OneShot 50696 52141 +2.85% BenchmarkTCP4OneShotTimeout 65775 66426 +0.99% BenchmarkTCP4Persistent 10986 10457 -4.82% BenchmarkTCP4PersistentTimeout 11207 10445 -6.80% BenchmarkTCP6OneShot 62009 63718 +2.76% BenchmarkTCP6OneShotTimeout 78351 79138 +1.00% BenchmarkTCP6Persistent 14695 14659 -0.24% BenchmarkTCP6PersistentTimeout 15032 14646 -2.57% BenchmarkTCP4ConcurrentReadWrite 7215 6217 -13.83% BenchmarkTCP6ConcurrentReadWrite 7528 7493 -0.46% benchmark old allocs new allocs delta BenchmarkTCP4OneShot 36 36 0.00% BenchmarkTCP4OneShotTimeout 36 36 0.00% BenchmarkTCP4Persistent 0 0 n/a% BenchmarkTCP4PersistentTimeout 0 0 n/a% BenchmarkTCP6OneShot 37 37 0.00% BenchmarkTCP6OneShotTimeout 37 37 0.00% BenchmarkTCP6Persistent 0 0 n/a% BenchmarkTCP6PersistentTimeout 0 0 n/a% BenchmarkTCP4ConcurrentReadWrite 0 0 n/a% BenchmarkTCP6ConcurrentReadWrite 0 0 n/a% benchmark old bytes new bytes delta BenchmarkTCP4OneShot 2500 2503 0.12% BenchmarkTCP4OneShotTimeout 2508 2505 -0.12% BenchmarkTCP4Persistent 0 0 n/a% BenchmarkTCP4PersistentTimeout 0 0 n/a% BenchmarkTCP6OneShot 2713 2707 -0.22% BenchmarkTCP6OneShotTimeout 2722 2720 -0.07% BenchmarkTCP6Persistent 0 0 n/a% BenchmarkTCP6PersistentTimeout 0 0 n/a% BenchmarkTCP4ConcurrentReadWrite 0 0 n/a% BenchmarkTCP6ConcurrentReadWrite 0 0 n/a% R=golang-dev, bradfitz, nightlyone, rsc CC=golang-dev https://golang.org/cl/12416043
2013-09-11 08:48:53 -06:00
func TestDialDualStackLocalhost(t *testing.T) {
switch runtime.GOOS {
case "nacl":
t.Skipf("skipping test on %q", runtime.GOOS)
}
net: implement TCP connection setup with fast failover This CL adds minimal support of Happy Eyeballs-like TCP connection setup to Dialer API. Happy Eyeballs and derivation techniques are described in the following: - Happy Eyeballs: Success with Dual-Stack Hosts http://tools.ietf.org/html/rfc6555 - Analysing Dual Stack Behaviour and IPv6 Quality http://www.potaroo.net/presentations/2012-04-17-dual-stack-quality.pdf Usually, the techniques consist of three components below. - DNS query racers, that run A and AAAA queries in parallel or series - A short list of destination addresses - TCP SYN racers, that run IPv4 and IPv6 transport in parallel or series This CL implements only the latter two. The existing DNS query component gathers together A and AAAA records in series, so we don't touch it here. This CL just uses extended resolveInternetAddr and makes it possible to run multiple Dial racers in parallel. For example, when the given destination is a DNS name and the name has multiple address family A and AAAA records, and it happens on the TCP wildcard network "tcp" with DualStack=true like the following: (&net.Dialer{DualStack: true}).Dial("tcp", "www.example.com:80") The function will return a first established connection either TCP over IPv4 or TCP over IPv6, and close the other connection internally. Fixes #3610. Fixes #5267. Benchmark results on freebsd/amd64 virtual machine, tip vs. tip+12416043: benchmark old ns/op new ns/op delta BenchmarkTCP4OneShot 50696 52141 +2.85% BenchmarkTCP4OneShotTimeout 65775 66426 +0.99% BenchmarkTCP4Persistent 10986 10457 -4.82% BenchmarkTCP4PersistentTimeout 11207 10445 -6.80% BenchmarkTCP6OneShot 62009 63718 +2.76% BenchmarkTCP6OneShotTimeout 78351 79138 +1.00% BenchmarkTCP6Persistent 14695 14659 -0.24% BenchmarkTCP6PersistentTimeout 15032 14646 -2.57% BenchmarkTCP4ConcurrentReadWrite 7215 6217 -13.83% BenchmarkTCP6ConcurrentReadWrite 7528 7493 -0.46% benchmark old allocs new allocs delta BenchmarkTCP4OneShot 36 36 0.00% BenchmarkTCP4OneShotTimeout 36 36 0.00% BenchmarkTCP4Persistent 0 0 n/a% BenchmarkTCP4PersistentTimeout 0 0 n/a% BenchmarkTCP6OneShot 37 37 0.00% BenchmarkTCP6OneShotTimeout 37 37 0.00% BenchmarkTCP6Persistent 0 0 n/a% BenchmarkTCP6PersistentTimeout 0 0 n/a% BenchmarkTCP4ConcurrentReadWrite 0 0 n/a% BenchmarkTCP6ConcurrentReadWrite 0 0 n/a% benchmark old bytes new bytes delta BenchmarkTCP4OneShot 2500 2503 0.12% BenchmarkTCP4OneShotTimeout 2508 2505 -0.12% BenchmarkTCP4Persistent 0 0 n/a% BenchmarkTCP4PersistentTimeout 0 0 n/a% BenchmarkTCP6OneShot 2713 2707 -0.22% BenchmarkTCP6OneShotTimeout 2722 2720 -0.07% BenchmarkTCP6Persistent 0 0 n/a% BenchmarkTCP6PersistentTimeout 0 0 n/a% BenchmarkTCP4ConcurrentReadWrite 0 0 n/a% BenchmarkTCP6ConcurrentReadWrite 0 0 n/a% R=golang-dev, bradfitz, nightlyone, rsc CC=golang-dev https://golang.org/cl/12416043
2013-09-11 08:48:53 -06:00
if ips, err := LookupIP("localhost"); err != nil {
t.Fatalf("LookupIP failed: %v", err)
} else if len(ips) < 2 || !supportsIPv4 || !supportsIPv6 {
t.Skip("localhost doesn't have a pair of different address family IP addresses")
}
touchAndByeServer := func(dss *dualStackServer, ln Listener) {
for {
if c, err := ln.Accept(); err != nil {
return
} else {
c.Close()
}
}
}
dss, err := newDualStackServer([]streamListener{
{net: "tcp4", addr: "127.0.0.1"},
{net: "tcp6", addr: "[::1]"},
})
if err != nil {
t.Fatalf("newDualStackServer failed: %v", err)
}
defer dss.teardown()
if err := dss.buildup(touchAndByeServer); err != nil {
t.Fatalf("dualStackServer.buildup failed: %v", err)
}
d := &Dialer{DualStack: true}
for range dss.lns {
net: implement TCP connection setup with fast failover This CL adds minimal support of Happy Eyeballs-like TCP connection setup to Dialer API. Happy Eyeballs and derivation techniques are described in the following: - Happy Eyeballs: Success with Dual-Stack Hosts http://tools.ietf.org/html/rfc6555 - Analysing Dual Stack Behaviour and IPv6 Quality http://www.potaroo.net/presentations/2012-04-17-dual-stack-quality.pdf Usually, the techniques consist of three components below. - DNS query racers, that run A and AAAA queries in parallel or series - A short list of destination addresses - TCP SYN racers, that run IPv4 and IPv6 transport in parallel or series This CL implements only the latter two. The existing DNS query component gathers together A and AAAA records in series, so we don't touch it here. This CL just uses extended resolveInternetAddr and makes it possible to run multiple Dial racers in parallel. For example, when the given destination is a DNS name and the name has multiple address family A and AAAA records, and it happens on the TCP wildcard network "tcp" with DualStack=true like the following: (&net.Dialer{DualStack: true}).Dial("tcp", "www.example.com:80") The function will return a first established connection either TCP over IPv4 or TCP over IPv6, and close the other connection internally. Fixes #3610. Fixes #5267. Benchmark results on freebsd/amd64 virtual machine, tip vs. tip+12416043: benchmark old ns/op new ns/op delta BenchmarkTCP4OneShot 50696 52141 +2.85% BenchmarkTCP4OneShotTimeout 65775 66426 +0.99% BenchmarkTCP4Persistent 10986 10457 -4.82% BenchmarkTCP4PersistentTimeout 11207 10445 -6.80% BenchmarkTCP6OneShot 62009 63718 +2.76% BenchmarkTCP6OneShotTimeout 78351 79138 +1.00% BenchmarkTCP6Persistent 14695 14659 -0.24% BenchmarkTCP6PersistentTimeout 15032 14646 -2.57% BenchmarkTCP4ConcurrentReadWrite 7215 6217 -13.83% BenchmarkTCP6ConcurrentReadWrite 7528 7493 -0.46% benchmark old allocs new allocs delta BenchmarkTCP4OneShot 36 36 0.00% BenchmarkTCP4OneShotTimeout 36 36 0.00% BenchmarkTCP4Persistent 0 0 n/a% BenchmarkTCP4PersistentTimeout 0 0 n/a% BenchmarkTCP6OneShot 37 37 0.00% BenchmarkTCP6OneShotTimeout 37 37 0.00% BenchmarkTCP6Persistent 0 0 n/a% BenchmarkTCP6PersistentTimeout 0 0 n/a% BenchmarkTCP4ConcurrentReadWrite 0 0 n/a% BenchmarkTCP6ConcurrentReadWrite 0 0 n/a% benchmark old bytes new bytes delta BenchmarkTCP4OneShot 2500 2503 0.12% BenchmarkTCP4OneShotTimeout 2508 2505 -0.12% BenchmarkTCP4Persistent 0 0 n/a% BenchmarkTCP4PersistentTimeout 0 0 n/a% BenchmarkTCP6OneShot 2713 2707 -0.22% BenchmarkTCP6OneShotTimeout 2722 2720 -0.07% BenchmarkTCP6Persistent 0 0 n/a% BenchmarkTCP6PersistentTimeout 0 0 n/a% BenchmarkTCP4ConcurrentReadWrite 0 0 n/a% BenchmarkTCP6ConcurrentReadWrite 0 0 n/a% R=golang-dev, bradfitz, nightlyone, rsc CC=golang-dev https://golang.org/cl/12416043
2013-09-11 08:48:53 -06:00
if c, err := d.Dial("tcp", "localhost:"+dss.port); err != nil {
t.Errorf("Dial failed: %v", err)
} else {
if addr := c.LocalAddr().(*TCPAddr); addr.IP.To4() != nil {
dss.teardownNetwork("tcp4")
} else if addr.IP.To16() != nil && addr.IP.To4() == nil {
dss.teardownNetwork("tcp6")
}
c.Close()
}
}
}
func TestDialerKeepAlive(t *testing.T) {
ln := newLocalListener(t)
defer ln.Close()
defer func() {
testHookSetKeepAlive = func() {}
}()
go func() {
for {
c, err := ln.Accept()
if err != nil {
return
}
c.Close()
}
}()
for _, keepAlive := range []bool{false, true} {
got := false
testHookSetKeepAlive = func() { got = true }
var d Dialer
if keepAlive {
d.KeepAlive = 30 * time.Second
}
c, err := d.Dial("tcp", ln.Addr().String())
if err != nil {
t.Fatal(err)
}
c.Close()
if got != keepAlive {
t.Errorf("Dialer.KeepAlive = %v: SetKeepAlive called = %v, want %v", d.KeepAlive, got, !got)
}
}
}