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dns_test.go
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dns_test.go
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package ofnet
import (
"fmt"
"net"
"runtime"
"strings"
"testing"
log "github.com/Sirupsen/logrus"
"github.com/contiv/libOpenflow/openflow13"
"github.com/contiv/libOpenflow/protocol"
"github.com/contiv/ofnet/ofctrl"
)
func assertOnTrue(t *testing.T, val bool, msg string) {
if val == true {
t.Fatalf("Error %s", msg)
}
}
func enterFunc() {
if pc, _, _, ok := runtime.Caller(1); ok {
log.Infof("=== enter %s() ====", runtime.FuncForPC(pc).Name())
}
}
// checksum test
func TestChecksum(t *testing.T) {
pkt := []byte{0x45, 0x00, 0x00, 0x73, 0x00, 0x00, 0x40, 0x00,
0x40, 0x11, 0x00, 0x00, 0xc0, 0xa8, 0x00, 0x01,
0xc0, 0xa8, 0x00, 0xc7,
}
s := ipChecksum(pkt)
assertOnTrue(t, s != 0xB861, fmt.Sprintf("checksum failed got %0x", s))
}
// test DNS response packet
func TestDnsRespPkt(t *testing.T) {
enterFunc()
udpData := []byte{0x00, 0x02, 0x03, 0x5, 077, 0x78, 0xAF}
ethPkt1 := protocol.NewEthernet()
ethPkt1.HWDst = net.HardwareAddr{0x00, 0xA0, 0xF8, 0x08, 0x09, 0x0A}
ethPkt1.HWSrc = net.HardwareAddr{0x00, 0xA0, 0xF8, 0x02, 0x03, 0x04}
ethPkt1.Ethertype = protocol.IPv4_MSG
ipPkt1 := protocol.NewIPv4()
ethPkt1.Data = ipPkt1
ipPkt1.Length = 100
ipPkt1.FragmentOffset = 123
ipPkt1.NWDst = net.IP{10, 1, 2, 3}
ipPkt1.NWSrc = net.IP{100, 10, 1, 4}
ipPkt1.Data = ethPkt1
udpPkt1 := protocol.NewUDP()
ipPkt1.Data = udpPkt1
udpPkt1.PortDst = uint16(53)
udpPkt1.PortSrc = uint16(6153)
ethPkt2, err := buildUDPRespPkt(ethPkt1, udpData)
assertOnTrue(t, err != nil, fmt.Sprintf("build udp response failed %s", err))
assertOnTrue(t, len(ethPkt2.HWDst) != len(ethPkt1.HWDst), "dst mac length error")
assertOnTrue(t, len(ethPkt2.HWSrc) != len(ethPkt1.HWSrc), "src mac length error")
for i := 0; i < len(ethPkt1.HWDst); i++ {
assertOnTrue(t, ethPkt2.HWSrc[i] != ethPkt1.HWDst[i], "src mac error")
}
for i := 0; i < len(ethPkt1.HWSrc); i++ {
assertOnTrue(t, ethPkt2.HWDst[i] != ethPkt1.HWSrc[i], "dst mac error")
}
ipPkt2, ok1 := ethPkt2.Data.(*protocol.IPv4)
assertOnTrue(t, ok1 == false, "invalid ipv4 pkt")
assertOnTrue(t, ipPkt2.TTL != 64, "invalid ttl")
assertOnTrue(t, len(ipPkt2.NWDst) != len(ipPkt1.NWDst), "dst ip length error")
assertOnTrue(t, len(ipPkt2.NWSrc) != len(ipPkt1.NWSrc), "src ip length error")
for i := 0; i < len(ipPkt1.NWDst); i++ {
assertOnTrue(t, ipPkt2.NWSrc[i] != ipPkt1.NWDst[i], "src ip error")
assertOnTrue(t, ipPkt2.NWDst[i] != ipPkt1.NWSrc[i], "dst ip error")
}
udpPkt2, ok2 := ipPkt2.Data.(*protocol.UDP)
assertOnTrue(t, ok2 == false, "invalid udp pkt")
assertOnTrue(t, udpPkt2.PortSrc != udpPkt1.PortDst, "src udp port error")
assertOnTrue(t, udpPkt2.PortDst != udpPkt1.PortSrc, "dest udp port error")
}
// test DNS forward packet
func TestDnsFwdPkt(t *testing.T) {
enterFunc()
ethPkt := protocol.NewEthernet()
ethPkt.HWDst = net.HardwareAddr{0x00, 0xA0, 0xF8, 0x08, 0x09, 0x0A}
ethPkt.HWSrc = net.HardwareAddr{0x00, 0xA0, 0xF8, 0x02, 0x03, 0x04}
ethPkt.Ethertype = protocol.IPv4_MSG
ethPkt.Data = new(protocol.IPv4)
outPkt := buildDnsForwardPkt(ethPkt)
assertOnTrue(t, outPkt.VLANID.VID != 4093, "vlan tag error")
assertOnTrue(t, len(outPkt.HWDst) != len(ethPkt.HWDst), "dst mac length error")
assertOnTrue(t, len(outPkt.HWSrc) != len(ethPkt.HWSrc), "src mac length error")
for i := 0; i < len(ethPkt.HWDst); i++ {
assertOnTrue(t, outPkt.HWDst[i] != ethPkt.HWDst[i], "dst mac error")
assertOnTrue(t, outPkt.HWSrc[i] != ethPkt.HWSrc[i], "src mac error")
}
assertOnTrue(t, outPkt.Ethertype != ethPkt.Ethertype, "ether type error")
assertOnTrue(t, outPkt.Data != ethPkt.Data, "ipv4 data error")
}
func verifyFlow(t *testing.T, brName string, flow string, flowExist bool) {
flowList, err := ofctlFlowDump(brName)
assertOnTrue(t, err != nil, fmt.Sprintf("failed to get flows, %s", err))
assertOnTrue(t, ofctlFlowMatch(flowList, 0, flow) != flowExist,
fmt.Sprintf("[%s]failed to find [%s] in [%v]", brName, flow, strings.Join(flowList, "\n")))
}
func sendDnsPkt(t *testing.T, agent *OfnetAgent, inPort int32, vlan uint16) {
dnsReq := openflow13.NewPacketIn()
dnsReq.Match.Type = openflow13.MatchType_OXM
dnsReq.Match.AddField(*openflow13.NewInPortField(uint32(inPort)))
dnsReq.Data = *protocol.NewEthernet()
dnsReq.Data.Ethertype = protocol.IPv4_MSG
dnsReq.Data.HWDst = net.HardwareAddr{02, 02, 02, 05, 05, 05}
dnsReq.Data.HWSrc = net.HardwareAddr{02, 02, 02, 06, 06, 06}
if vlan != 0 {
dnsReq.Data.VLANID.VID = vlan
} else {
vlan = 12
}
ipPkt := protocol.NewIPv4()
dnsReq.Data.Data = ipPkt
ipPkt.NWDst = net.IP{10, 192, 10, 11}
ipPkt.NWSrc = net.IP{11, 192, 10, 31}
ipPkt.Protocol = protocol.Type_UDP
udpPkt := protocol.NewUDP()
ipPkt.Data = udpPkt
udpPkt.PortDst = 53
udpPkt.PortSrc = 1153
udpPkt.Data = []byte{1, 2, 3, 4}
pkt := ofctrl.PacketIn(*dnsReq)
agent.portVlanMap[uint32(inPort)] = &vlan
tenant := "ten1001"
agent.vlanVrf[uint16(vlan)] = &tenant
agent.PacketRcvd(agent.ofSwitch, &pkt)
}
func testOfnetDnsUplinkFlow(t *testing.T) {
testList := []struct {
agent *OfnetAgent
brName string
}{
{vrtrAgents[0], "vrtrBridge0"},
{vxlanAgents[0], "vxlanBridge0"},
{vlanAgents[0], "vlanBridge0"},
{vlrtrAgents[0], "vlrtrBridge0"},
}
for _, l := range testList {
agent := l.agent
brName := l.brName
switch agent.dpName {
case "vxlan", "vrouter":
err := agent.datapath.AddVtepPort(uint32(101), net.ParseIP("10.36.1.101"))
assertOnTrue(t, err != nil, fmt.Sprintf("failed to add vtep port: 101, %s", err))
flow := fmt.Sprintf("priority=102,udp,in_port=101,tp_dst=53 actions=goto_table:1")
verifyFlow(t, brName, flow, true)
err = agent.datapath.RemoveVtepPort(uint32(101), net.ParseIP("10.36.1.101"))
assertOnTrue(t, err != nil, fmt.Sprintf("failed to delete vtep port: 101, %s", err))
verifyFlow(t, brName, flow, false)
case "vlan", "vlrouter":
link := LinkInfo{
Name: "uplink101",
OfPort: uint32(101),
LinkStatus: linkDown,
Port: new(PortInfo),
}
port := PortInfo{
Name: "uplink101",
Type: PortType,
LinkStatus: linkDown,
MbrLinks: []*LinkInfo{&link},
}
err := addUplink(agent, &port)
assertOnTrue(t, err != nil, fmt.Sprintf("failed to add uplink port: 101, %s", err))
flow := fmt.Sprintf("priority=102,udp,in_port=101,tp_dst=53 actions=goto_table:1")
verifyFlow(t, brName, flow, true)
err = delUplink(agent, &port)
assertOnTrue(t, err != nil, fmt.Sprintf("failed to delete uplink port: 101, %s", err))
verifyFlow(t, brName, flow, false)
if agent.dpName == "vlan" {
link := []LinkInfo{{
Name: "uplink101",
OfPort: uint32(101),
LinkStatus: linkDown,
Port: new(PortInfo),
},
{
Name: "uplink102",
OfPort: uint32(102),
LinkStatus: linkDown,
Port: new(PortInfo),
},
}
port := PortInfo{
Name: "uplink101",
Type: PortType,
LinkStatus: linkDown,
MbrLinks: []*LinkInfo{&link[0], &link[1]},
}
err := addUplink(agent, &port)
assertOnTrue(t, err != nil, fmt.Sprintf("failed to add uplink port: 101, %s", err))
flow1 := fmt.Sprintf("priority=102,udp,in_port=101,tp_dst=53 actions=goto_table:1")
flow2 := fmt.Sprintf("priority=102,udp,in_port=102,tp_dst=53 actions=goto_table:1")
verifyFlow(t, brName, flow1, true)
verifyFlow(t, brName, flow2, true)
err = delUplink(agent, &port)
assertOnTrue(t, err != nil, fmt.Sprintf("failed to delete uplink port: 101, %s", err))
verifyFlow(t, brName, flow1, false)
verifyFlow(t, brName, flow2, false)
}
}
}
}
func testOfnetDnsInitFlow(t *testing.T) {
testList := []string{
"vrtrBridge0",
"vxlanBridge0",
"vlanBridge0",
"vlrtrBridge0",
}
flow1 := fmt.Sprintf("priority=100,udp,dl_src=02:02:00:00:00:00/ff:ff:00:00:00:00,tp_dst=53 actions=CONTROLLER:65535")
flow2 := fmt.Sprintf("priority=101,udp,dl_vlan=4093,dl_src=02:02:00:00:00:00/ff:ff:00:00:00:00,tp_dst=53 actions=pop_vlan,goto_table:1")
for _, brName := range testList {
flowList, err := ofctlFlowDump(brName)
assertOnTrue(t, err != nil, fmt.Sprintf("Error getting flow entries. Err: %v", err))
assertOnTrue(t, ofctlFlowMatch(flowList, 0, flow1) != true,
fmt.Sprintf("[%s]failed to find [%s] in [%v]", brName, flow1, strings.Join(flowList, "\n")))
assertOnTrue(t, ofctlFlowMatch(flowList, 0, flow2) != true,
fmt.Sprintf("[%s]failed to find [%s] in [%v]", brName, flow2, strings.Join(flowList, "\n")))
}
}
type dls1 struct {
dummy int
}
func (dl *dls1) NsLookup([]byte, *string) ([]byte, error) {
return []byte{1, 2, 3, 4}, nil
}
type dlf1 struct {
dummy int
}
func (dl *dlf1) NsLookup([]byte, *string) ([]byte, error) {
return []byte{1, 2, 3, 4}, fmt.Errorf("")
}
type edns1 struct {
dummy int
}
func (dl *edns1) NsLookup([]byte, *string) ([]byte, error) {
a := [1500]byte{}
return a[0:], nil
}
func TestDnsLookup(t *testing.T) {
testList := []struct {
agent *OfnetAgent
brName string
}{
{vrtrAgents[0], "vrtrBridge0"},
{vxlanAgents[0], "vxlanBridge0"},
{vlanAgents[0], "vlanBridge0"},
{vlrtrAgents[0], "vlrtrBridge0"},
}
for _, l := range testList {
agent := l.agent
log.Infof("processing :%s", l.brName)
agent.AddNameServer(new(dls1))
delete(agent.stats, "dnsPktReply")
sendDnsPkt(t, agent, 12, uint16(0))
s := agent.stats["dnsPktReply"]
assertOnTrue(t, s != 1, fmt.Sprintf("[%s] reply-stats didnt match %+v", l.brName, agent.stats))
agent.AddNameServer(new(dlf1))
delete(agent.stats, "dnsPktForward")
sendDnsPkt(t, agent, 12, uint16(0))
s = agent.stats["dnsPktForward"]
assertOnTrue(t, s != 1, fmt.Sprintf("[%s] fwd-stats didnt match %+v ", l.brName, agent.stats))
// check length of resp.
agent.AddNameServer(new(edns1))
delete(agent.stats, "dnsPktForward")
sendDnsPkt(t, agent, 12, uint16(0))
s = agent.stats["dnsPktForward"]
assertOnTrue(t, s != 1,
fmt.Sprintf("[%s] pkts > 1024 should be ignored, fwd-stats didnt match %+v ",
l.brName, agent.stats))
}
}
// test dns flows
func TestDnsFlows(t *testing.T) {
enterFunc()
testOfnetDnsInitFlow(t)
testOfnetDnsUplinkFlow(t)
}