package acl import ( "net" "testing" "github.com/golang/mock/gomock" "github.com/netbirdio/netbird/client/internal/acl/mocks" "github.com/netbirdio/netbird/iface" 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.FirewallRule_OUT, Action: mgmProto.FirewallRule_ACCEPT, Protocol: mgmProto.FirewallRule_TCP, Port: "80", }, { PeerIP: "10.93.0.2", Direction: mgmProto.FirewallRule_OUT, Action: mgmProto.FirewallRule_DROP, Protocol: mgmProto.FirewallRule_UDP, Port: "53", }, }, } ctrl := gomock.NewController(t) defer ctrl.Finish() ifaceMock := mocks.NewMockIFaceMapper(ctrl) ifaceMock.EXPECT().IsUserspaceBind().Return(true) 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 acl, err := Create(ifaceMock) if err != nil { t.Errorf("create ACL manager: %v", err) return } defer acl.Stop() t.Run("apply firewall rules", func(t *testing.T) { acl.ApplyFiltering(networkMap) if len(acl.rulesPairs) != 2 { t.Errorf("firewall rules not applied: %v", acl.rulesPairs) return } }) t.Run("add extra rules", func(t *testing.T) { existedPairs := map[string]struct{}{} for id := range acl.rulesPairs { existedPairs[id] = struct{}{} } // remove first rule networkMap.FirewallRules = networkMap.FirewallRules[1:] networkMap.FirewallRules = append( networkMap.FirewallRules, &mgmProto.FirewallRule{ PeerIP: "10.93.0.3", Direction: mgmProto.FirewallRule_IN, Action: mgmProto.FirewallRule_DROP, Protocol: mgmProto.FirewallRule_ICMP, }, ) acl.ApplyFiltering(networkMap) // we should have one old and one new rule in the existed rules if len(acl.rulesPairs) != 2 { t.Errorf("firewall rules not applied") return } // check that old rule was removed previousCount := 0 for id := range acl.rulesPairs { if _, ok := existedPairs[id]; 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.rulesPairs) != 0 { t.Errorf("rules should be empty if FirewallRulesIsEmpty is set, got: %v", len(acl.rulesPairs)) return } networkMap.FirewallRulesIsEmpty = false acl.ApplyFiltering(networkMap) if len(acl.rulesPairs) != 2 { t.Errorf("rules should contain 2 rules if FirewallRulesIsEmpty is not set, got: %v", len(acl.rulesPairs)) 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.FirewallRule_IN, Action: mgmProto.FirewallRule_ACCEPT, Protocol: mgmProto.FirewallRule_ALL, }, { PeerIP: "10.93.0.2", Direction: mgmProto.FirewallRule_IN, Action: mgmProto.FirewallRule_ACCEPT, Protocol: mgmProto.FirewallRule_ALL, }, { PeerIP: "10.93.0.3", Direction: mgmProto.FirewallRule_IN, Action: mgmProto.FirewallRule_ACCEPT, Protocol: mgmProto.FirewallRule_ALL, }, { PeerIP: "10.93.0.4", Direction: mgmProto.FirewallRule_IN, Action: mgmProto.FirewallRule_ACCEPT, Protocol: mgmProto.FirewallRule_ALL, }, { PeerIP: "10.93.0.1", Direction: mgmProto.FirewallRule_OUT, Action: mgmProto.FirewallRule_ACCEPT, Protocol: mgmProto.FirewallRule_ALL, }, { PeerIP: "10.93.0.2", Direction: mgmProto.FirewallRule_OUT, Action: mgmProto.FirewallRule_ACCEPT, Protocol: mgmProto.FirewallRule_ALL, }, { PeerIP: "10.93.0.3", Direction: mgmProto.FirewallRule_OUT, Action: mgmProto.FirewallRule_ACCEPT, Protocol: mgmProto.FirewallRule_ALL, }, { PeerIP: "10.93.0.4", Direction: mgmProto.FirewallRule_OUT, Action: mgmProto.FirewallRule_ACCEPT, Protocol: mgmProto.FirewallRule_ALL, }, }, } manager := &DefaultManager{} rules, _ := manager.squashAcceptRules(networkMap) if len(rules) != 2 { t.Errorf("rules should contain 2, got: %v", rules) return } r := rules[0] if r.PeerIP != "0.0.0.0" { t.Errorf("IP should be 0.0.0.0, got: %v", r.PeerIP) return } else if r.Direction != mgmProto.FirewallRule_IN { t.Errorf("direction should be IN, got: %v", r.Direction) return } else if r.Protocol != mgmProto.FirewallRule_ALL { t.Errorf("protocol should be ALL, got: %v", r.Protocol) return } else if r.Action != mgmProto.FirewallRule_ACCEPT { t.Errorf("action should be ACCEPT, got: %v", r.Action) return } r = rules[1] if r.PeerIP != "0.0.0.0" { t.Errorf("IP should be 0.0.0.0, got: %v", r.PeerIP) return } else if r.Direction != mgmProto.FirewallRule_OUT { t.Errorf("direction should be OUT, got: %v", r.Direction) return } else if r.Protocol != mgmProto.FirewallRule_ALL { t.Errorf("protocol should be ALL, got: %v", r.Protocol) return } else if r.Action != mgmProto.FirewallRule_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.FirewallRule_IN, Action: mgmProto.FirewallRule_ACCEPT, Protocol: mgmProto.FirewallRule_ALL, }, { PeerIP: "10.93.0.2", Direction: mgmProto.FirewallRule_IN, Action: mgmProto.FirewallRule_ACCEPT, Protocol: mgmProto.FirewallRule_ALL, }, { PeerIP: "10.93.0.3", Direction: mgmProto.FirewallRule_IN, Action: mgmProto.FirewallRule_ACCEPT, Protocol: mgmProto.FirewallRule_ALL, }, { PeerIP: "10.93.0.4", Direction: mgmProto.FirewallRule_IN, Action: mgmProto.FirewallRule_ACCEPT, Protocol: mgmProto.FirewallRule_TCP, }, { PeerIP: "10.93.0.1", Direction: mgmProto.FirewallRule_OUT, Action: mgmProto.FirewallRule_ACCEPT, Protocol: mgmProto.FirewallRule_ALL, }, { PeerIP: "10.93.0.2", Direction: mgmProto.FirewallRule_OUT, Action: mgmProto.FirewallRule_ACCEPT, Protocol: mgmProto.FirewallRule_ALL, }, { PeerIP: "10.93.0.3", Direction: mgmProto.FirewallRule_OUT, Action: mgmProto.FirewallRule_ACCEPT, Protocol: mgmProto.FirewallRule_ALL, }, { PeerIP: "10.93.0.4", Direction: mgmProto.FirewallRule_OUT, Action: mgmProto.FirewallRule_ACCEPT, Protocol: mgmProto.FirewallRule_UDP, }, }, } manager := &DefaultManager{} if rules, _ := manager.squashAcceptRules(networkMap); len(rules) != len(networkMap.FirewallRules) { t.Errorf("we should got same amount of rules as intput, 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.FirewallRule_IN, Action: mgmProto.FirewallRule_ACCEPT, Protocol: mgmProto.FirewallRule_TCP, }, { PeerIP: "10.93.0.2", Direction: mgmProto.FirewallRule_IN, Action: mgmProto.FirewallRule_ACCEPT, Protocol: mgmProto.FirewallRule_TCP, }, { PeerIP: "10.93.0.3", Direction: mgmProto.FirewallRule_OUT, Action: mgmProto.FirewallRule_ACCEPT, Protocol: mgmProto.FirewallRule_UDP, }, }, } ctrl := gomock.NewController(t) defer ctrl.Finish() ifaceMock := mocks.NewMockIFaceMapper(ctrl) ifaceMock.EXPECT().IsUserspaceBind().Return(true) 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 acl, err := Create(ifaceMock) if err != nil { t.Errorf("create ACL manager: %v", err) return } defer acl.Stop() acl.ApplyFiltering(networkMap) if len(acl.rulesPairs) != 4 { t.Errorf("expect 4 rules (last must be SSH), got: %d", len(acl.rulesPairs)) return } }