netbird/client/internal/acl/manager_test.go
Zoltan Papp fd67892cb4
[client] Refactor/iface pkg (#2646)
Refactor the flat code structure
2024-10-02 18:24:22 +02:00

365 lines
9.7 KiB
Go

package acl
import (
"context"
"net"
"testing"
"github.com/golang/mock/gomock"
"github.com/netbirdio/netbird/client/firewall"
"github.com/netbirdio/netbird/client/firewall/manager"
"github.com/netbirdio/netbird/client/iface"
"github.com/netbirdio/netbird/client/internal/acl/mocks"
mgmProto "github.com/netbirdio/netbird/management/proto"
)
func TestDefaultManager(t *testing.T) {
networkMap := &mgmProto.NetworkMap{
FirewallRules: []*mgmProto.FirewallRule{
{
PeerIP: "10.93.0.1",
Direction: mgmProto.RuleDirection_OUT,
Action: mgmProto.RuleAction_ACCEPT,
Protocol: mgmProto.RuleProtocol_TCP,
Port: "80",
},
{
PeerIP: "10.93.0.2",
Direction: mgmProto.RuleDirection_OUT,
Action: mgmProto.RuleAction_DROP,
Protocol: mgmProto.RuleProtocol_UDP,
Port: "53",
},
},
}
ctrl := gomock.NewController(t)
defer ctrl.Finish()
ifaceMock := mocks.NewMockIFaceMapper(ctrl)
ifaceMock.EXPECT().IsUserspaceBind().Return(true).AnyTimes()
ifaceMock.EXPECT().SetFilter(gomock.Any())
ip, network, err := net.ParseCIDR("172.0.0.1/32")
if err != nil {
t.Fatalf("failed to parse IP address: %v", err)
}
ifaceMock.EXPECT().Name().Return("lo").AnyTimes()
ifaceMock.EXPECT().Address().Return(iface.WGAddress{
IP: ip,
Network: network,
}).AnyTimes()
// we receive one rule from the management so for testing purposes ignore it
fw, err := firewall.NewFirewall(context.Background(), ifaceMock)
if err != nil {
t.Errorf("create firewall: %v", err)
return
}
defer func(fw manager.Manager) {
_ = fw.Reset()
}(fw)
acl := NewDefaultManager(fw)
t.Run("apply firewall rules", func(t *testing.T) {
acl.ApplyFiltering(networkMap)
if len(acl.peerRulesPairs) != 2 {
t.Errorf("firewall rules not applied: %v", acl.peerRulesPairs)
return
}
})
t.Run("add extra rules", func(t *testing.T) {
existedPairs := map[string]struct{}{}
for id := range acl.peerRulesPairs {
existedPairs[id.GetRuleID()] = struct{}{}
}
// remove first rule
networkMap.FirewallRules = networkMap.FirewallRules[1:]
networkMap.FirewallRules = append(
networkMap.FirewallRules,
&mgmProto.FirewallRule{
PeerIP: "10.93.0.3",
Direction: mgmProto.RuleDirection_IN,
Action: mgmProto.RuleAction_DROP,
Protocol: mgmProto.RuleProtocol_ICMP,
},
)
acl.ApplyFiltering(networkMap)
// we should have one old and one new rule in the existed rules
if len(acl.peerRulesPairs) != 2 {
t.Errorf("firewall rules not applied")
return
}
// check that old rule was removed
previousCount := 0
for id := range acl.peerRulesPairs {
if _, ok := existedPairs[id.GetRuleID()]; ok {
previousCount++
}
}
if previousCount != 1 {
t.Errorf("old rule was not removed")
}
})
t.Run("handle default rules", func(t *testing.T) {
networkMap.FirewallRules = networkMap.FirewallRules[:0]
networkMap.FirewallRulesIsEmpty = true
if acl.ApplyFiltering(networkMap); len(acl.peerRulesPairs) != 0 {
t.Errorf("rules should be empty if FirewallRulesIsEmpty is set, got: %v", len(acl.peerRulesPairs))
return
}
networkMap.FirewallRulesIsEmpty = false
acl.ApplyFiltering(networkMap)
if len(acl.peerRulesPairs) != 2 {
t.Errorf("rules should contain 2 rules if FirewallRulesIsEmpty is not set, got: %v", len(acl.peerRulesPairs))
return
}
})
}
func TestDefaultManagerSquashRules(t *testing.T) {
networkMap := &mgmProto.NetworkMap{
RemotePeers: []*mgmProto.RemotePeerConfig{
{AllowedIps: []string{"10.93.0.1"}},
{AllowedIps: []string{"10.93.0.2"}},
{AllowedIps: []string{"10.93.0.3"}},
{AllowedIps: []string{"10.93.0.4"}},
},
FirewallRules: []*mgmProto.FirewallRule{
{
PeerIP: "10.93.0.1",
Direction: mgmProto.RuleDirection_IN,
Action: mgmProto.RuleAction_ACCEPT,
Protocol: mgmProto.RuleProtocol_ALL,
},
{
PeerIP: "10.93.0.2",
Direction: mgmProto.RuleDirection_IN,
Action: mgmProto.RuleAction_ACCEPT,
Protocol: mgmProto.RuleProtocol_ALL,
},
{
PeerIP: "10.93.0.3",
Direction: mgmProto.RuleDirection_IN,
Action: mgmProto.RuleAction_ACCEPT,
Protocol: mgmProto.RuleProtocol_ALL,
},
{
PeerIP: "10.93.0.4",
Direction: mgmProto.RuleDirection_IN,
Action: mgmProto.RuleAction_ACCEPT,
Protocol: mgmProto.RuleProtocol_ALL,
},
{
PeerIP: "10.93.0.1",
Direction: mgmProto.RuleDirection_OUT,
Action: mgmProto.RuleAction_ACCEPT,
Protocol: mgmProto.RuleProtocol_ALL,
},
{
PeerIP: "10.93.0.2",
Direction: mgmProto.RuleDirection_OUT,
Action: mgmProto.RuleAction_ACCEPT,
Protocol: mgmProto.RuleProtocol_ALL,
},
{
PeerIP: "10.93.0.3",
Direction: mgmProto.RuleDirection_OUT,
Action: mgmProto.RuleAction_ACCEPT,
Protocol: mgmProto.RuleProtocol_ALL,
},
{
PeerIP: "10.93.0.4",
Direction: mgmProto.RuleDirection_OUT,
Action: mgmProto.RuleAction_ACCEPT,
Protocol: mgmProto.RuleProtocol_ALL,
},
},
}
manager := &DefaultManager{}
rules, _ := manager.squashAcceptRules(networkMap)
if len(rules) != 2 {
t.Errorf("rules should contain 2, got: %v", rules)
return
}
r := rules[0]
switch {
case r.PeerIP != "0.0.0.0":
t.Errorf("IP should be 0.0.0.0, got: %v", r.PeerIP)
return
case r.Direction != mgmProto.RuleDirection_IN:
t.Errorf("direction should be IN, got: %v", r.Direction)
return
case r.Protocol != mgmProto.RuleProtocol_ALL:
t.Errorf("protocol should be ALL, got: %v", r.Protocol)
return
case r.Action != mgmProto.RuleAction_ACCEPT:
t.Errorf("action should be ACCEPT, got: %v", r.Action)
return
}
r = rules[1]
switch {
case r.PeerIP != "0.0.0.0":
t.Errorf("IP should be 0.0.0.0, got: %v", r.PeerIP)
return
case r.Direction != mgmProto.RuleDirection_OUT:
t.Errorf("direction should be OUT, got: %v", r.Direction)
return
case r.Protocol != mgmProto.RuleProtocol_ALL:
t.Errorf("protocol should be ALL, got: %v", r.Protocol)
return
case r.Action != mgmProto.RuleAction_ACCEPT:
t.Errorf("action should be ACCEPT, got: %v", r.Action)
return
}
}
func TestDefaultManagerSquashRulesNoAffect(t *testing.T) {
networkMap := &mgmProto.NetworkMap{
RemotePeers: []*mgmProto.RemotePeerConfig{
{AllowedIps: []string{"10.93.0.1"}},
{AllowedIps: []string{"10.93.0.2"}},
{AllowedIps: []string{"10.93.0.3"}},
{AllowedIps: []string{"10.93.0.4"}},
},
FirewallRules: []*mgmProto.FirewallRule{
{
PeerIP: "10.93.0.1",
Direction: mgmProto.RuleDirection_IN,
Action: mgmProto.RuleAction_ACCEPT,
Protocol: mgmProto.RuleProtocol_ALL,
},
{
PeerIP: "10.93.0.2",
Direction: mgmProto.RuleDirection_IN,
Action: mgmProto.RuleAction_ACCEPT,
Protocol: mgmProto.RuleProtocol_ALL,
},
{
PeerIP: "10.93.0.3",
Direction: mgmProto.RuleDirection_IN,
Action: mgmProto.RuleAction_ACCEPT,
Protocol: mgmProto.RuleProtocol_ALL,
},
{
PeerIP: "10.93.0.4",
Direction: mgmProto.RuleDirection_IN,
Action: mgmProto.RuleAction_ACCEPT,
Protocol: mgmProto.RuleProtocol_TCP,
},
{
PeerIP: "10.93.0.1",
Direction: mgmProto.RuleDirection_OUT,
Action: mgmProto.RuleAction_ACCEPT,
Protocol: mgmProto.RuleProtocol_ALL,
},
{
PeerIP: "10.93.0.2",
Direction: mgmProto.RuleDirection_OUT,
Action: mgmProto.RuleAction_ACCEPT,
Protocol: mgmProto.RuleProtocol_ALL,
},
{
PeerIP: "10.93.0.3",
Direction: mgmProto.RuleDirection_OUT,
Action: mgmProto.RuleAction_ACCEPT,
Protocol: mgmProto.RuleProtocol_ALL,
},
{
PeerIP: "10.93.0.4",
Direction: mgmProto.RuleDirection_OUT,
Action: mgmProto.RuleAction_ACCEPT,
Protocol: mgmProto.RuleProtocol_UDP,
},
},
}
manager := &DefaultManager{}
if rules, _ := manager.squashAcceptRules(networkMap); len(rules) != len(networkMap.FirewallRules) {
t.Errorf("we should get the same amount of rules as output, got %v", len(rules))
}
}
func TestDefaultManagerEnableSSHRules(t *testing.T) {
networkMap := &mgmProto.NetworkMap{
PeerConfig: &mgmProto.PeerConfig{
SshConfig: &mgmProto.SSHConfig{
SshEnabled: true,
},
},
RemotePeers: []*mgmProto.RemotePeerConfig{
{AllowedIps: []string{"10.93.0.1"}},
{AllowedIps: []string{"10.93.0.2"}},
{AllowedIps: []string{"10.93.0.3"}},
},
FirewallRules: []*mgmProto.FirewallRule{
{
PeerIP: "10.93.0.1",
Direction: mgmProto.RuleDirection_IN,
Action: mgmProto.RuleAction_ACCEPT,
Protocol: mgmProto.RuleProtocol_TCP,
},
{
PeerIP: "10.93.0.2",
Direction: mgmProto.RuleDirection_IN,
Action: mgmProto.RuleAction_ACCEPT,
Protocol: mgmProto.RuleProtocol_TCP,
},
{
PeerIP: "10.93.0.3",
Direction: mgmProto.RuleDirection_OUT,
Action: mgmProto.RuleAction_ACCEPT,
Protocol: mgmProto.RuleProtocol_UDP,
},
},
}
ctrl := gomock.NewController(t)
defer ctrl.Finish()
ifaceMock := mocks.NewMockIFaceMapper(ctrl)
ifaceMock.EXPECT().IsUserspaceBind().Return(true).AnyTimes()
ifaceMock.EXPECT().SetFilter(gomock.Any())
ip, network, err := net.ParseCIDR("172.0.0.1/32")
if err != nil {
t.Fatalf("failed to parse IP address: %v", err)
}
ifaceMock.EXPECT().Name().Return("lo").AnyTimes()
ifaceMock.EXPECT().Address().Return(iface.WGAddress{
IP: ip,
Network: network,
}).AnyTimes()
// we receive one rule from the management so for testing purposes ignore it
fw, err := firewall.NewFirewall(context.Background(), ifaceMock)
if err != nil {
t.Errorf("create firewall: %v", err)
return
}
defer func(fw manager.Manager) {
_ = fw.Reset()
}(fw)
acl := NewDefaultManager(fw)
acl.ApplyFiltering(networkMap)
if len(acl.peerRulesPairs) != 4 {
t.Errorf("expect 4 rules (last must be SSH), got: %d", len(acl.peerRulesPairs))
return
}
}