netbird/client/firewall/nftables/router_linux_test.go

717 lines
21 KiB
Go
Raw Normal View History

//go:build !android
package nftables
import (
"encoding/binary"
"net/netip"
"os/exec"
"testing"
"github.com/coreos/go-iptables/iptables"
"github.com/google/nftables"
"github.com/google/nftables/binaryutil"
"github.com/google/nftables/expr"
"github.com/stretchr/testify/assert"
"github.com/stretchr/testify/require"
firewall "github.com/netbirdio/netbird/client/firewall/manager"
"github.com/netbirdio/netbird/client/firewall/test"
)
const (
// UNKNOWN is the default value for the firewall type for unknown firewall type
UNKNOWN = iota
// IPTABLES is the value for the iptables firewall type
IPTABLES
// NFTABLES is the value for the nftables firewall type
NFTABLES
)
func TestNftablesManager_AddNatRule(t *testing.T) {
if check() != NFTABLES {
t.Skip("nftables not supported on this OS")
}
for _, testCase := range test.InsertRuleTestCases {
t.Run(testCase.Name, func(t *testing.T) {
// need fw manager to init both acl mgr and router for all chains to be present
manager, err := Create(ifaceMock)
t.Cleanup(func() {
require.NoError(t, manager.Reset(nil))
})
require.NoError(t, err)
require.NoError(t, manager.Init(nil))
nftablesTestingClient := &nftables.Conn{}
rtr := manager.router
err = rtr.AddNatRule(testCase.InputPair)
require.NoError(t, err, "pair should be inserted")
t.Cleanup(func() {
require.NoError(t, rtr.RemoveNatRule(testCase.InputPair), "failed to remove rule")
})
if testCase.InputPair.Masquerade {
// Build expected expressions for connection tracking
conntrackExprs := []expr.Any{
&expr.Ct{
Key: expr.CtKeySTATE,
Register: 1,
},
&expr.Bitwise{
SourceRegister: 1,
DestRegister: 1,
Len: 4,
Mask: binaryutil.NativeEndian.PutUint32(expr.CtStateBitNEW),
Xor: binaryutil.NativeEndian.PutUint32(0),
},
&expr.Cmp{
Op: expr.CmpOpNeq,
Register: 1,
Data: []byte{0, 0, 0, 0},
},
}
// Build interface matching expression
ifaceExprs := []expr.Any{
&expr.Meta{
Key: expr.MetaKeyIIFNAME,
Register: 1,
},
&expr.Cmp{
Op: expr.CmpOpEq,
Register: 1,
Data: ifname(ifaceMock.Name()),
},
}
// Build CIDR matching expressions
sourceExp := generateCIDRMatcherExpressions(true, testCase.InputPair.Source)
destExp := generateCIDRMatcherExpressions(false, testCase.InputPair.Destination)
// Combine all expressions in the correct order
// nolint:gocritic
testingExpression := append(conntrackExprs, ifaceExprs...)
testingExpression = append(testingExpression, sourceExp...)
testingExpression = append(testingExpression, destExp...)
natRuleKey := firewall.GenKey(firewall.PreroutingFormat, testCase.InputPair)
found := 0
for _, chain := range rtr.chains {
if chain.Name == chainNamePrerouting {
rules, err := nftablesTestingClient.GetRules(chain.Table, chain)
require.NoError(t, err, "should list rules for %s table and %s chain", chain.Table.Name, chain.Name)
for _, rule := range rules {
if len(rule.UserData) > 0 && string(rule.UserData) == natRuleKey {
// Compare expressions up to the mark setting expressions
require.ElementsMatchf(t, rule.Exprs[:len(testingExpression)], testingExpression, "prerouting nat rule elements should match")
found = 1
}
}
}
}
require.Equal(t, 1, found, "should find at least 1 rule in prerouting chain")
}
})
}
}
func TestNftablesManager_RemoveNatRule(t *testing.T) {
if check() != NFTABLES {
t.Skip("nftables not supported on this OS")
}
for _, testCase := range test.RemoveRuleTestCases {
t.Run(testCase.Name, func(t *testing.T) {
manager, err := Create(ifaceMock)
t.Cleanup(func() {
require.NoError(t, manager.Reset(nil))
})
require.NoError(t, err)
require.NoError(t, manager.Init(nil))
rtr := manager.router
// First add the NAT rule using the router's method
err = rtr.AddNatRule(testCase.InputPair)
require.NoError(t, err, "should add NAT rule")
// Verify the rule was added
natRuleKey := firewall.GenKey(firewall.PreroutingFormat, testCase.InputPair)
found := false
rules, err := rtr.conn.GetRules(rtr.workTable, rtr.chains[chainNamePrerouting])
require.NoError(t, err, "should list rules")
for _, rule := range rules {
if len(rule.UserData) > 0 && string(rule.UserData) == natRuleKey {
found = true
break
}
}
require.True(t, found, "NAT rule should exist before removal")
// Now remove the rule
err = rtr.RemoveNatRule(testCase.InputPair)
require.NoError(t, err, "shouldn't return error when removing rule")
// Verify the rule was removed
found = false
rules, err = rtr.conn.GetRules(rtr.workTable, rtr.chains[chainNamePrerouting])
require.NoError(t, err, "should list rules after removal")
for _, rule := range rules {
if len(rule.UserData) > 0 && string(rule.UserData) == natRuleKey {
found = true
break
}
}
require.False(t, found, "NAT rule should not exist after removal")
// Verify the static postrouting rules still exist
rules, err = rtr.conn.GetRules(rtr.workTable, rtr.chains[chainNameRoutingNat])
require.NoError(t, err, "should list postrouting rules")
foundCounter := false
for _, rule := range rules {
for _, e := range rule.Exprs {
if _, ok := e.(*expr.Counter); ok {
foundCounter = true
break
}
}
if foundCounter {
break
}
}
require.True(t, foundCounter, "static postrouting rule should remain")
})
}
}
func TestRouter_AddRouteFiltering(t *testing.T) {
if check() != NFTABLES {
t.Skip("nftables not supported on this system")
}
workTable, err := createWorkTable()
require.NoError(t, err, "Failed to create work table")
defer deleteWorkTable()
r, err := newRouter(workTable, ifaceMock)
require.NoError(t, err, "Failed to create router")
require.NoError(t, r.init(workTable))
defer func(r *router) {
require.NoError(t, r.Reset(), "Failed to reset rules")
}(r)
tests := []struct {
name string
sources []netip.Prefix
destination netip.Prefix
proto firewall.Protocol
sPort *firewall.Port
dPort *firewall.Port
direction firewall.RuleDirection
action firewall.Action
expectSet bool
}{
{
name: "Basic TCP rule with single source",
sources: []netip.Prefix{netip.MustParsePrefix("192.168.1.0/24")},
destination: netip.MustParsePrefix("10.0.0.0/24"),
proto: firewall.ProtocolTCP,
sPort: nil,
dPort: &firewall.Port{Values: []int{80}},
direction: firewall.RuleDirectionIN,
action: firewall.ActionAccept,
expectSet: false,
},
{
name: "UDP rule with multiple sources",
sources: []netip.Prefix{
netip.MustParsePrefix("172.16.0.0/16"),
netip.MustParsePrefix("192.168.0.0/16"),
},
destination: netip.MustParsePrefix("10.0.0.0/8"),
proto: firewall.ProtocolUDP,
sPort: &firewall.Port{Values: []int{1024, 2048}, IsRange: true},
dPort: nil,
direction: firewall.RuleDirectionOUT,
action: firewall.ActionDrop,
expectSet: true,
},
{
name: "All protocols rule",
sources: []netip.Prefix{netip.MustParsePrefix("10.0.0.0/8")},
destination: netip.MustParsePrefix("0.0.0.0/0"),
proto: firewall.ProtocolALL,
sPort: nil,
dPort: nil,
direction: firewall.RuleDirectionIN,
action: firewall.ActionAccept,
expectSet: false,
},
{
name: "ICMP rule",
sources: []netip.Prefix{netip.MustParsePrefix("192.168.0.0/16")},
destination: netip.MustParsePrefix("10.0.0.0/8"),
proto: firewall.ProtocolICMP,
sPort: nil,
dPort: nil,
direction: firewall.RuleDirectionIN,
action: firewall.ActionAccept,
expectSet: false,
},
{
name: "TCP rule with multiple source ports",
sources: []netip.Prefix{netip.MustParsePrefix("172.16.0.0/12")},
destination: netip.MustParsePrefix("192.168.0.0/16"),
proto: firewall.ProtocolTCP,
sPort: &firewall.Port{Values: []int{80, 443, 8080}},
dPort: nil,
direction: firewall.RuleDirectionOUT,
action: firewall.ActionAccept,
expectSet: false,
},
{
name: "UDP rule with single IP and port range",
sources: []netip.Prefix{netip.MustParsePrefix("192.168.1.1/32")},
destination: netip.MustParsePrefix("10.0.0.0/24"),
proto: firewall.ProtocolUDP,
sPort: nil,
dPort: &firewall.Port{Values: []int{5000, 5100}, IsRange: true},
direction: firewall.RuleDirectionIN,
action: firewall.ActionDrop,
expectSet: false,
},
{
name: "TCP rule with source and destination ports",
sources: []netip.Prefix{netip.MustParsePrefix("10.0.0.0/24")},
destination: netip.MustParsePrefix("172.16.0.0/16"),
proto: firewall.ProtocolTCP,
sPort: &firewall.Port{Values: []int{1024, 65535}, IsRange: true},
dPort: &firewall.Port{Values: []int{22}},
direction: firewall.RuleDirectionOUT,
action: firewall.ActionAccept,
expectSet: false,
},
{
name: "Drop all incoming traffic",
sources: []netip.Prefix{netip.MustParsePrefix("0.0.0.0/0")},
destination: netip.MustParsePrefix("192.168.0.0/24"),
proto: firewall.ProtocolALL,
sPort: nil,
dPort: nil,
direction: firewall.RuleDirectionIN,
action: firewall.ActionDrop,
expectSet: false,
},
}
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
ruleKey, err := r.AddRouteFiltering(tt.sources, tt.destination, tt.proto, tt.sPort, tt.dPort, tt.action)
require.NoError(t, err, "AddRouteFiltering failed")
t.Cleanup(func() {
require.NoError(t, r.DeleteRouteRule(ruleKey), "Failed to delete rule")
})
// Check if the rule is in the internal map
rule, ok := r.rules[ruleKey.GetRuleID()]
assert.True(t, ok, "Rule not found in internal map")
t.Log("Internal rule expressions:")
for i, expr := range rule.Exprs {
t.Logf(" [%d] %T: %+v", i, expr, expr)
}
// Verify internal rule content
verifyRule(t, rule, tt.sources, tt.destination, tt.proto, tt.sPort, tt.dPort, tt.direction, tt.action, tt.expectSet)
// Check if the rule exists in nftables and verify its content
rules, err := r.conn.GetRules(r.workTable, r.chains[chainNameRoutingFw])
require.NoError(t, err, "Failed to get rules from nftables")
var nftRule *nftables.Rule
for _, rule := range rules {
if string(rule.UserData) == ruleKey.GetRuleID() {
nftRule = rule
break
}
}
require.NotNil(t, nftRule, "Rule not found in nftables")
t.Log("Actual nftables rule expressions:")
for i, expr := range nftRule.Exprs {
t.Logf(" [%d] %T: %+v", i, expr, expr)
}
// Verify actual nftables rule content
verifyRule(t, nftRule, tt.sources, tt.destination, tt.proto, tt.sPort, tt.dPort, tt.direction, tt.action, tt.expectSet)
})
}
}
func TestNftablesCreateIpSet(t *testing.T) {
if check() != NFTABLES {
t.Skip("nftables not supported on this system")
}
workTable, err := createWorkTable()
require.NoError(t, err, "Failed to create work table")
defer deleteWorkTable()
r, err := newRouter(workTable, ifaceMock)
require.NoError(t, err, "Failed to create router")
require.NoError(t, r.init(workTable))
defer func() {
require.NoError(t, r.Reset(), "Failed to reset router")
}()
tests := []struct {
name string
sources []netip.Prefix
expected []netip.Prefix
}{
{
name: "Single IP",
sources: []netip.Prefix{netip.MustParsePrefix("192.168.1.1/32")},
},
{
name: "Multiple IPs",
sources: []netip.Prefix{
netip.MustParsePrefix("192.168.1.1/32"),
netip.MustParsePrefix("10.0.0.1/32"),
netip.MustParsePrefix("172.16.0.1/32"),
},
},
{
name: "Single Subnet",
sources: []netip.Prefix{netip.MustParsePrefix("192.168.0.0/24")},
},
{
name: "Multiple Subnets with Various Prefix Lengths",
sources: []netip.Prefix{
netip.MustParsePrefix("10.0.0.0/8"),
netip.MustParsePrefix("172.16.0.0/16"),
netip.MustParsePrefix("192.168.1.0/24"),
netip.MustParsePrefix("203.0.113.0/26"),
},
},
{
name: "Mix of Single IPs and Subnets in Different Positions",
sources: []netip.Prefix{
netip.MustParsePrefix("192.168.1.1/32"),
netip.MustParsePrefix("10.0.0.0/16"),
netip.MustParsePrefix("172.16.0.1/32"),
netip.MustParsePrefix("203.0.113.0/24"),
},
},
{
name: "Overlapping IPs/Subnets",
sources: []netip.Prefix{
netip.MustParsePrefix("10.0.0.0/8"),
netip.MustParsePrefix("10.0.0.0/16"),
netip.MustParsePrefix("10.0.0.1/32"),
netip.MustParsePrefix("192.168.0.0/16"),
netip.MustParsePrefix("192.168.1.0/24"),
netip.MustParsePrefix("192.168.1.1/32"),
},
expected: []netip.Prefix{
netip.MustParsePrefix("10.0.0.0/8"),
netip.MustParsePrefix("192.168.0.0/16"),
},
},
}
// Add this helper function inside TestNftablesCreateIpSet
printNftSets := func() {
cmd := exec.Command("nft", "list", "sets")
output, err := cmd.CombinedOutput()
if err != nil {
t.Logf("Failed to run 'nft list sets': %v", err)
} else {
t.Logf("Current nft sets:\n%s", output)
}
}
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
setName := firewall.GenerateSetName(tt.sources)
set, err := r.createIpSet(setName, tt.sources)
if err != nil {
t.Logf("Failed to create IP set: %v", err)
printNftSets()
require.NoError(t, err, "Failed to create IP set")
}
require.NotNil(t, set, "Created set is nil")
// Verify set properties
assert.Equal(t, setName, set.Name, "Set name mismatch")
assert.Equal(t, r.workTable, set.Table, "Set table mismatch")
assert.True(t, set.Interval, "Set interval property should be true")
assert.Equal(t, nftables.TypeIPAddr, set.KeyType, "Set key type mismatch")
// Fetch the created set from nftables
fetchedSet, err := r.conn.GetSetByName(r.workTable, setName)
require.NoError(t, err, "Failed to fetch created set")
require.NotNil(t, fetchedSet, "Fetched set is nil")
// Verify set elements
elements, err := r.conn.GetSetElements(fetchedSet)
require.NoError(t, err, "Failed to get set elements")
// Count the number of unique prefixes (excluding interval end markers)
uniquePrefixes := make(map[string]bool)
for _, elem := range elements {
if !elem.IntervalEnd {
ip := netip.AddrFrom4(*(*[4]byte)(elem.Key))
uniquePrefixes[ip.String()] = true
}
}
// Check against expected merged prefixes
expectedCount := len(tt.expected)
if expectedCount == 0 {
expectedCount = len(tt.sources)
}
assert.Equal(t, expectedCount, len(uniquePrefixes), "Number of unique prefixes in set doesn't match expected")
// Verify each expected prefix is in the set
for _, expected := range tt.expected {
found := false
for _, elem := range elements {
if !elem.IntervalEnd {
ip := netip.AddrFrom4(*(*[4]byte)(elem.Key))
if expected.Contains(ip) {
found = true
break
}
}
}
assert.True(t, found, "Expected prefix %s not found in set", expected)
}
r.conn.DelSet(set)
if err := r.conn.Flush(); err != nil {
t.Logf("Failed to delete set: %v", err)
printNftSets()
}
require.NoError(t, err, "Failed to delete set")
})
}
}
func verifyRule(t *testing.T, rule *nftables.Rule, sources []netip.Prefix, destination netip.Prefix, proto firewall.Protocol, sPort, dPort *firewall.Port, direction firewall.RuleDirection, action firewall.Action, expectSet bool) {
t.Helper()
assert.NotNil(t, rule, "Rule should not be nil")
// Verify sources and destination
if expectSet {
assert.True(t, containsSetLookup(rule.Exprs), "Rule should contain set lookup for multiple sources")
} else if len(sources) == 1 && sources[0].Bits() != 0 {
if direction == firewall.RuleDirectionIN {
assert.True(t, containsCIDRMatcher(rule.Exprs, sources[0], true), "Rule should contain source CIDR matcher for %s", sources[0])
} else {
assert.True(t, containsCIDRMatcher(rule.Exprs, sources[0], false), "Rule should contain destination CIDR matcher for %s", sources[0])
}
}
if direction == firewall.RuleDirectionIN {
assert.True(t, containsCIDRMatcher(rule.Exprs, destination, false), "Rule should contain destination CIDR matcher for %s", destination)
} else {
assert.True(t, containsCIDRMatcher(rule.Exprs, destination, true), "Rule should contain source CIDR matcher for %s", destination)
}
// Verify protocol
if proto != firewall.ProtocolALL {
assert.True(t, containsProtocol(rule.Exprs, proto), "Rule should contain protocol matcher for %s", proto)
}
// Verify ports
if sPort != nil {
assert.True(t, containsPort(rule.Exprs, sPort, true), "Rule should contain source port matcher for %v", sPort)
}
if dPort != nil {
assert.True(t, containsPort(rule.Exprs, dPort, false), "Rule should contain destination port matcher for %v", dPort)
}
// Verify action
assert.True(t, containsAction(rule.Exprs, action), "Rule should contain correct action: %s", action)
}
func containsSetLookup(exprs []expr.Any) bool {
for _, e := range exprs {
if _, ok := e.(*expr.Lookup); ok {
return true
}
}
return false
}
func containsCIDRMatcher(exprs []expr.Any, prefix netip.Prefix, isSource bool) bool {
var offset uint32
if isSource {
offset = 12 // src offset
} else {
offset = 16 // dst offset
}
var payloadFound, bitwiseFound, cmpFound bool
for _, e := range exprs {
switch ex := e.(type) {
case *expr.Payload:
if ex.Base == expr.PayloadBaseNetworkHeader && ex.Offset == offset && ex.Len == 4 {
payloadFound = true
}
case *expr.Bitwise:
if ex.Len == 4 && len(ex.Mask) == 4 && len(ex.Xor) == 4 {
bitwiseFound = true
}
case *expr.Cmp:
if ex.Op == expr.CmpOpEq && len(ex.Data) == 4 {
cmpFound = true
}
}
}
return (payloadFound && bitwiseFound && cmpFound) || prefix.Bits() == 0
}
func containsPort(exprs []expr.Any, port *firewall.Port, isSource bool) bool {
var offset uint32 = 2 // Default offset for destination port
if isSource {
offset = 0 // Offset for source port
}
var payloadFound, portMatchFound bool
for _, e := range exprs {
switch ex := e.(type) {
case *expr.Payload:
if ex.Base == expr.PayloadBaseTransportHeader && ex.Offset == offset && ex.Len == 2 {
payloadFound = true
}
case *expr.Cmp:
if port.IsRange {
if ex.Op == expr.CmpOpGte || ex.Op == expr.CmpOpLte {
portMatchFound = true
}
} else {
if ex.Op == expr.CmpOpEq && len(ex.Data) == 2 {
portValue := binary.BigEndian.Uint16(ex.Data)
for _, p := range port.Values {
if uint16(p) == portValue {
portMatchFound = true
break
}
}
}
}
}
if payloadFound && portMatchFound {
return true
}
}
return false
}
func containsProtocol(exprs []expr.Any, proto firewall.Protocol) bool {
var metaFound, cmpFound bool
expectedProto, _ := protoToInt(proto)
for _, e := range exprs {
switch ex := e.(type) {
case *expr.Meta:
if ex.Key == expr.MetaKeyL4PROTO {
metaFound = true
}
case *expr.Cmp:
if ex.Op == expr.CmpOpEq && len(ex.Data) == 1 && ex.Data[0] == expectedProto {
cmpFound = true
}
}
}
return metaFound && cmpFound
}
func containsAction(exprs []expr.Any, action firewall.Action) bool {
for _, e := range exprs {
if verdict, ok := e.(*expr.Verdict); ok {
switch action {
case firewall.ActionAccept:
return verdict.Kind == expr.VerdictAccept
case firewall.ActionDrop:
return verdict.Kind == expr.VerdictDrop
}
}
}
return false
}
// check returns the firewall type based on common lib checks. It returns UNKNOWN if no firewall is found.
func check() int {
nf := nftables.Conn{}
if _, err := nf.ListChains(); err == nil {
return NFTABLES
}
ip, err := iptables.NewWithProtocol(iptables.ProtocolIPv4)
if err != nil {
return UNKNOWN
}
if isIptablesClientAvailable(ip) {
return IPTABLES
}
return UNKNOWN
}
func isIptablesClientAvailable(client *iptables.IPTables) bool {
_, err := client.ListChains("filter")
return err == nil
}
func createWorkTable() (*nftables.Table, error) {
sConn, err := nftables.New(nftables.AsLasting())
if err != nil {
return nil, err
}
tables, err := sConn.ListTablesOfFamily(nftables.TableFamilyIPv4)
if err != nil {
return nil, err
}
for _, t := range tables {
if t.Name == tableNameNetbird {
sConn.DelTable(t)
}
}
table := sConn.AddTable(&nftables.Table{Name: tableNameNetbird, Family: nftables.TableFamilyIPv4})
err = sConn.Flush()
return table, err
}
func deleteWorkTable() {
sConn, err := nftables.New(nftables.AsLasting())
if err != nil {
return
}
tables, err := sConn.ListTablesOfFamily(nftables.TableFamilyIPv4)
if err != nil {
return
}
for _, t := range tables {
if t.Name == tableNameNetbird {
sConn.DelTable(t)
}
}
}