// Copyright (c) Tailscale Inc & AUTHORS // SPDX-License-Identifier: BSD-3-Clause //go:build linux package linuxfw import ( "net/netip" "testing" "github.com/google/nftables" ) // This test creates a temporary network namespace for the nftables rules being // set up, so it needs to run in a privileged mode. Locally it needs to be run // by root, else it will be silently skipped. In CI it runs in a privileged // container. func Test_nftablesRunner_EnsurePortMapRuleForSvc(t *testing.T) { conn := newSysConn(t) runner := newFakeNftablesRunnerWithConn(t, conn, true) ipv4, ipv6 := netip.MustParseAddr("100.99.99.99"), netip.MustParseAddr("fd7a:115c:a1e0::701:b62a") pmTCP := PortMap{MatchPort: 4003, TargetPort: 80, Protocol: "TCP"} pmTCP1 := PortMap{MatchPort: 4004, TargetPort: 443, Protocol: "TCP"} // Create a rule for service 'foo' to forward TCP traffic to IPv4 endpoint runner.EnsurePortMapRuleForSvc("foo", "tailscale0", ipv4, pmTCP) svcChains(t, 1, conn) chainRuleCount(t, "foo", 1, conn, nftables.TableFamilyIPv4) chainRule(t, "foo", ipv4, pmTCP, runner, nftables.TableFamilyIPv4) // Create another rule for service 'foo' to forward TCP traffic to the // same IPv4 endpoint, but to a different port. runner.EnsurePortMapRuleForSvc("foo", "tailscale0", ipv4, pmTCP1) svcChains(t, 1, conn) chainRuleCount(t, "foo", 2, conn, nftables.TableFamilyIPv4) chainRule(t, "foo", ipv4, pmTCP1, runner, nftables.TableFamilyIPv4) // Create a rule for service 'foo' to forward TCP traffic to an IPv6 endpoint runner.EnsurePortMapRuleForSvc("foo", "tailscale0", ipv6, pmTCP) svcChains(t, 2, conn) chainRuleCount(t, "foo", 1, conn, nftables.TableFamilyIPv6) chainRule(t, "foo", ipv6, pmTCP, runner, nftables.TableFamilyIPv6) // Create a rule for service 'bar' to forward TCP traffic to IPv4 endpoint runner.EnsurePortMapRuleForSvc("bar", "tailscale0", ipv4, pmTCP) svcChains(t, 3, conn) chainRuleCount(t, "bar", 1, conn, nftables.TableFamilyIPv4) chainRule(t, "bar", ipv4, pmTCP, runner, nftables.TableFamilyIPv4) // Create a rule for service 'bar' to forward TCP traffic to an IPv6 endpoint runner.EnsurePortMapRuleForSvc("bar", "tailscale0", ipv6, pmTCP) svcChains(t, 4, conn) chainRuleCount(t, "bar", 1, conn, nftables.TableFamilyIPv6) chainRule(t, "bar", ipv6, pmTCP, runner, nftables.TableFamilyIPv6) // Delete service bar runner.DeleteSvc("bar", "tailscale0", []netip.Addr{ipv4, ipv6}, []PortMap{pmTCP}) svcChains(t, 2, conn) // Delete a rule from service foo runner.DeletePortMapRuleForSvc("foo", "tailscale0", ipv4, pmTCP) svcChains(t, 2, conn) chainRuleCount(t, "foo", 1, conn, nftables.TableFamilyIPv4) // Delete service foo runner.DeleteSvc("foo", "tailscale0", []netip.Addr{ipv4, ipv6}, []PortMap{pmTCP, pmTCP1}) svcChains(t, 0, conn) } // svcChains verifies that the expected number of chains exist (for either IP // family) and that each of them is configured as NAT prerouting chain. func svcChains(t *testing.T, wantCount int, conn *nftables.Conn) { t.Helper() chains, err := conn.ListChains() if err != nil { t.Fatalf("error listing chains: %v", err) } if len(chains) != wantCount { t.Fatalf("wants %d chains, got %d", wantCount, len(chains)) } for _, ch := range chains { if *ch.Policy != nftables.ChainPolicyAccept { t.Fatalf("chain %s has unexpected policy %v", ch.Name, *ch.Policy) } if ch.Type != nftables.ChainTypeNAT { t.Fatalf("chain %s has unexpected type %v", ch.Name, ch.Type) } if *ch.Hooknum != *nftables.ChainHookPrerouting { t.Fatalf("chain %s is attached to unexpected hook %v", ch.Name, ch.Hooknum) } if *ch.Priority != *nftables.ChainPriorityNATDest { t.Fatalf("chain %s has unexpected priority %v", ch.Name, ch.Priority) } } } // chainRuleCount returns number of rules in a chain identified by service name and IP family. func chainRuleCount(t *testing.T, svc string, count int, conn *nftables.Conn, fam nftables.TableFamily) { t.Helper() chains, err := conn.ListChainsOfTableFamily(fam) if err != nil { t.Fatalf("error listing chains: %v", err) } found := false for _, ch := range chains { if ch.Name == svc { found = true rules, err := conn.GetRules(ch.Table, ch) if err != nil { t.Fatalf("error getting rules: %v", err) } if len(rules) != count { t.Fatalf("unexpected number of rules, wants %d got %d", count, len(rules)) } break } } if !found { t.Fatalf("chain for service %s does not exist", svc) } } // chainRule verifies that rule for the provided target IP and PortMap exists in // a chain identified by service name and IP family. func chainRule(t *testing.T, svc string, targetIP netip.Addr, pm PortMap, runner *nftablesRunner, fam nftables.TableFamily) { t.Helper() chains, err := runner.conn.ListChainsOfTableFamily(fam) if err != nil { t.Fatalf("error listing chains: %v", err) } var chain *nftables.Chain for _, ch := range chains { if ch.Name == svc { chain = ch break } } if chain == nil { t.Fatalf("chain for service %s does not exist", svc) } meta := svcPortMapRuleMeta(svc, targetIP, pm) p, err := protoFromString(pm.Protocol) if err != nil { t.Fatalf("error converting protocol: %v", err) } wantsRule := portMapRule(chain.Table, chain, "tailscale0", targetIP, pm.MatchPort, pm.TargetPort, p, meta) gotRule, err := findRule(runner.conn, wantsRule) if err != nil { t.Fatalf("error looking up rule: %v", err) } if gotRule == nil { t.Fatalf("rule not found") } }