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moby--moby/libnetwork/netutils/utils_test.go
Josh Soref a06f1b2c4e Spelling fixes
* addresses
* assigned
* at least
* attachments
* auxiliary
* available
* cleanup
* communicate
* communications
* configuration
* connection
* connectivity
* destination
* encountered
* endpoint
* example
* existing
* expansion
* expected
* external
* forwarded
* gateway
* implementations
* implemented
* initialize
* internally
* loses
* message
* network
* occurred
* operational
* origin
* overlapping
* reaper
* redirector
* release
* representation
* resolver
* retrieve
* returns
* sanbdox
* sequence
* succesful
* synchronizing
* update
* validates

Signed-off-by: Josh Soref <jsoref@gmail.com>
2018-07-12 12:54:44 -07:00

355 lines
8.8 KiB
Go

package netutils
import (
"bytes"
"net"
"sort"
"testing"
"github.com/docker/libnetwork/ipamutils"
"github.com/docker/libnetwork/testutils"
"github.com/docker/libnetwork/types"
"github.com/vishvananda/netlink"
)
func TestNonOverlappingNameservers(t *testing.T) {
network := &net.IPNet{
IP: []byte{192, 168, 0, 1},
Mask: []byte{255, 255, 255, 0},
}
nameservers := []string{
"127.0.0.1/32",
}
if err := CheckNameserverOverlaps(nameservers, network); err != nil {
t.Fatal(err)
}
}
func TestOverlappingNameservers(t *testing.T) {
network := &net.IPNet{
IP: []byte{192, 168, 0, 1},
Mask: []byte{255, 255, 255, 0},
}
nameservers := []string{
"192.168.0.1/32",
}
if err := CheckNameserverOverlaps(nameservers, network); err == nil {
t.Fatalf("Expected error %s got %s", ErrNetworkOverlapsWithNameservers, err)
}
}
func TestCheckRouteOverlaps(t *testing.T) {
networkGetRoutesFct = func(netlink.Link, int) ([]netlink.Route, error) {
routesData := []string{"10.0.2.0/32", "10.0.3.0/24", "10.0.42.0/24", "172.16.42.0/24", "192.168.142.0/24"}
routes := []netlink.Route{}
for _, addr := range routesData {
_, netX, _ := net.ParseCIDR(addr)
routes = append(routes, netlink.Route{Dst: netX})
}
return routes, nil
}
defer func() { networkGetRoutesFct = nil }()
_, netX, _ := net.ParseCIDR("172.16.0.1/24")
if err := CheckRouteOverlaps(netX); err != nil {
t.Fatal(err)
}
_, netX, _ = net.ParseCIDR("10.0.2.0/24")
if err := CheckRouteOverlaps(netX); err == nil {
t.Fatal("10.0.2.0/24 and 10.0.2.0 should overlap but it doesn't")
}
}
func TestCheckNameserverOverlaps(t *testing.T) {
nameservers := []string{"10.0.2.3/32", "192.168.102.1/32"}
_, netX, _ := net.ParseCIDR("10.0.2.3/32")
if err := CheckNameserverOverlaps(nameservers, netX); err == nil {
t.Fatalf("%s should overlap 10.0.2.3/32 but doesn't", netX)
}
_, netX, _ = net.ParseCIDR("192.168.102.2/32")
if err := CheckNameserverOverlaps(nameservers, netX); err != nil {
t.Fatalf("%s should not overlap %v but it does", netX, nameservers)
}
}
func AssertOverlap(CIDRx string, CIDRy string, t *testing.T) {
_, netX, _ := net.ParseCIDR(CIDRx)
_, netY, _ := net.ParseCIDR(CIDRy)
if !NetworkOverlaps(netX, netY) {
t.Errorf("%v and %v should overlap", netX, netY)
}
}
func AssertNoOverlap(CIDRx string, CIDRy string, t *testing.T) {
_, netX, _ := net.ParseCIDR(CIDRx)
_, netY, _ := net.ParseCIDR(CIDRy)
if NetworkOverlaps(netX, netY) {
t.Errorf("%v and %v should not overlap", netX, netY)
}
}
func TestNetworkOverlaps(t *testing.T) {
//netY starts at same IP and ends within netX
AssertOverlap("172.16.0.1/24", "172.16.0.1/25", t)
//netY starts within netX and ends at same IP
AssertOverlap("172.16.0.1/24", "172.16.0.128/25", t)
//netY starts and ends within netX
AssertOverlap("172.16.0.1/24", "172.16.0.64/25", t)
//netY starts at same IP and ends outside of netX
AssertOverlap("172.16.0.1/24", "172.16.0.1/23", t)
//netY starts before and ends at same IP of netX
AssertOverlap("172.16.1.1/24", "172.16.0.1/23", t)
//netY starts before and ends outside of netX
AssertOverlap("172.16.1.1/24", "172.16.0.1/22", t)
//netY starts and ends before netX
AssertNoOverlap("172.16.1.1/25", "172.16.0.1/24", t)
//netX starts and ends before netY
AssertNoOverlap("172.16.1.1/25", "172.16.2.1/24", t)
}
func TestNetworkRange(t *testing.T) {
// Simple class C test
_, network, _ := net.ParseCIDR("192.168.0.1/24")
first, last := NetworkRange(network)
if !first.Equal(net.ParseIP("192.168.0.0")) {
t.Error(first.String())
}
if !last.Equal(net.ParseIP("192.168.0.255")) {
t.Error(last.String())
}
// Class A test
_, network, _ = net.ParseCIDR("10.0.0.1/8")
first, last = NetworkRange(network)
if !first.Equal(net.ParseIP("10.0.0.0")) {
t.Error(first.String())
}
if !last.Equal(net.ParseIP("10.255.255.255")) {
t.Error(last.String())
}
// Class A, random IP address
_, network, _ = net.ParseCIDR("10.1.2.3/8")
first, last = NetworkRange(network)
if !first.Equal(net.ParseIP("10.0.0.0")) {
t.Error(first.String())
}
if !last.Equal(net.ParseIP("10.255.255.255")) {
t.Error(last.String())
}
// 32bit mask
_, network, _ = net.ParseCIDR("10.1.2.3/32")
first, last = NetworkRange(network)
if !first.Equal(net.ParseIP("10.1.2.3")) {
t.Error(first.String())
}
if !last.Equal(net.ParseIP("10.1.2.3")) {
t.Error(last.String())
}
// 31bit mask
_, network, _ = net.ParseCIDR("10.1.2.3/31")
first, last = NetworkRange(network)
if !first.Equal(net.ParseIP("10.1.2.2")) {
t.Error(first.String())
}
if !last.Equal(net.ParseIP("10.1.2.3")) {
t.Error(last.String())
}
// 26bit mask
_, network, _ = net.ParseCIDR("10.1.2.3/26")
first, last = NetworkRange(network)
if !first.Equal(net.ParseIP("10.1.2.0")) {
t.Error(first.String())
}
if !last.Equal(net.ParseIP("10.1.2.63")) {
t.Error(last.String())
}
}
// Test veth name generation "veth"+rand (e.g.veth0f60e2c)
func TestGenerateRandomName(t *testing.T) {
name1, err := GenerateRandomName("veth", 7)
if err != nil {
t.Fatal(err)
}
// veth plus generated append equals a len of 11
if len(name1) != 11 {
t.Fatalf("Expected 11 characters, instead received %d characters", len(name1))
}
name2, err := GenerateRandomName("veth", 7)
if err != nil {
t.Fatal(err)
}
// Fail if the random generated names equal one another
if name1 == name2 {
t.Fatalf("Expected differing values but received %s and %s", name1, name2)
}
}
// Test mac generation.
func TestUtilGenerateRandomMAC(t *testing.T) {
mac1 := GenerateRandomMAC()
mac2 := GenerateRandomMAC()
// ensure bytes are unique
if bytes.Equal(mac1, mac2) {
t.Fatalf("mac1 %s should not equal mac2 %s", mac1, mac2)
}
// existing tests check string functionality so keeping the pattern
if mac1.String() == mac2.String() {
t.Fatalf("mac1 %s should not equal mac2 %s", mac1, mac2)
}
}
func TestNetworkRequest(t *testing.T) {
defer testutils.SetupTestOSContext(t)()
ipamutils.InitNetworks(nil)
nw, err := FindAvailableNetwork(ipamutils.PredefinedBroadNetworks)
if err != nil {
t.Fatal(err)
}
var found bool
for _, exp := range ipamutils.PredefinedBroadNetworks {
if types.CompareIPNet(exp, nw) {
found = true
break
}
}
if !found {
t.Fatalf("Found unexpected broad network %s", nw)
}
nw, err = FindAvailableNetwork(ipamutils.PredefinedGranularNetworks)
if err != nil {
t.Fatal(err)
}
found = false
for _, exp := range ipamutils.PredefinedGranularNetworks {
if types.CompareIPNet(exp, nw) {
found = true
break
}
}
if !found {
t.Fatalf("Found unexpected granular network %s", nw)
}
// Add iface and ssert returned address on request
createInterface(t, "test", "172.17.42.1/16")
_, exp, err := net.ParseCIDR("172.18.0.0/16")
if err != nil {
t.Fatal(err)
}
nw, err = FindAvailableNetwork(ipamutils.PredefinedBroadNetworks)
if err != nil {
t.Fatal(err)
}
if !types.CompareIPNet(exp, nw) {
t.Fatalf("expected %s. got %s", exp, nw)
}
}
func TestElectInterfaceAddressMultipleAddresses(t *testing.T) {
defer testutils.SetupTestOSContext(t)()
ipamutils.InitNetworks(nil)
nws := []string{"172.101.202.254/16", "172.102.202.254/16"}
createInterface(t, "test", nws...)
ipv4NwList, ipv6NwList, err := ElectInterfaceAddresses("test")
if err != nil {
t.Fatal(err)
}
if len(ipv4NwList) == 0 {
t.Fatal("unexpected empty ipv4 network addresses")
}
if len(ipv6NwList) == 0 {
t.Fatal("unexpected empty ipv6 network addresses")
}
nwList := []string{}
for _, ipv4Nw := range ipv4NwList {
nwList = append(nwList, ipv4Nw.String())
}
sort.Strings(nws)
sort.Strings(nwList)
if len(nws) != len(nwList) {
t.Fatalf("expected %v. got %v", nws, nwList)
}
for i, nw := range nws {
if nw != nwList[i] {
t.Fatalf("expected %v. got %v", nw, nwList[i])
}
}
}
func TestElectInterfaceAddress(t *testing.T) {
defer testutils.SetupTestOSContext(t)()
ipamutils.InitNetworks(nil)
nws := "172.101.202.254/16"
createInterface(t, "test", nws)
ipv4Nw, ipv6Nw, err := ElectInterfaceAddresses("test")
if err != nil {
t.Fatal(err)
}
if len(ipv4Nw) == 0 {
t.Fatal("unexpected empty ipv4 network addresses")
}
if len(ipv6Nw) == 0 {
t.Fatal("unexpected empty ipv6 network addresses")
}
if nws != ipv4Nw[0].String() {
t.Fatalf("expected %s. got %s", nws, ipv4Nw[0])
}
}
func createInterface(t *testing.T, name string, nws ...string) {
// Add interface
link := &netlink.Bridge{
LinkAttrs: netlink.LinkAttrs{
Name: "test",
},
}
bips := []*net.IPNet{}
for _, nw := range nws {
bip, err := types.ParseCIDR(nw)
if err != nil {
t.Fatal(err)
}
bips = append(bips, bip)
}
if err := netlink.LinkAdd(link); err != nil {
t.Fatalf("Failed to create interface via netlink: %v", err)
}
for _, bip := range bips {
if err := netlink.AddrAdd(link, &netlink.Addr{IPNet: bip}); err != nil {
t.Fatal(err)
}
}
if err := netlink.LinkSetUp(link); err != nil {
t.Fatal(err)
}
}