package policy import ( "encoding/json" "errors" "fmt" "io" "net/netip" "os" "slices" "strconv" "strings" "time" "github.com/juanfont/headscale/hscontrol/types" "github.com/juanfont/headscale/hscontrol/util" "github.com/rs/zerolog/log" "github.com/tailscale/hujson" "go4.org/netipx" "tailscale.com/net/tsaddr" "tailscale.com/tailcfg" ) var ( ErrEmptyPolicy = errors.New("empty policy") ErrInvalidAction = errors.New("invalid action") ErrInvalidGroup = errors.New("invalid group") ErrInvalidTag = errors.New("invalid tag") ErrInvalidPortFormat = errors.New("invalid port format") ErrWildcardIsNeeded = errors.New("wildcard as port is required for the protocol") ) const ( portRangeBegin = 0 portRangeEnd = 65535 expectedTokenItems = 2 ) var theInternetSet *netipx.IPSet // theInternet returns the IPSet for the Internet. // https://www.youtube.com/watch?v=iDbyYGrswtg func theInternet() *netipx.IPSet { if theInternetSet != nil { return theInternetSet } var internetBuilder netipx.IPSetBuilder internetBuilder.AddPrefix(netip.MustParsePrefix("2000::/3")) internetBuilder.AddPrefix(tsaddr.AllIPv4()) // Delete Private network addresses // https://datatracker.ietf.org/doc/html/rfc1918 internetBuilder.RemovePrefix(netip.MustParsePrefix("fc00::/7")) internetBuilder.RemovePrefix(netip.MustParsePrefix("10.0.0.0/8")) internetBuilder.RemovePrefix(netip.MustParsePrefix("172.16.0.0/12")) internetBuilder.RemovePrefix(netip.MustParsePrefix("192.168.0.0/16")) // Delete Tailscale networks internetBuilder.RemovePrefix(tsaddr.TailscaleULARange()) internetBuilder.RemovePrefix(tsaddr.CGNATRange()) // Delete "cant find DHCP networks" internetBuilder.RemovePrefix(netip.MustParsePrefix("fe80::/10")) // link-loca internetBuilder.RemovePrefix(netip.MustParsePrefix("169.254.0.0/16")) theInternetSet, _ := internetBuilder.IPSet() return theInternetSet } // For some reason golang.org/x/net/internal/iana is an internal package. const ( protocolICMP = 1 // Internet Control Message protocolIGMP = 2 // Internet Group Management protocolIPv4 = 4 // IPv4 encapsulation protocolTCP = 6 // Transmission Control protocolEGP = 8 // Exterior Gateway Protocol protocolIGP = 9 // any private interior gateway (used by Cisco for their IGRP) protocolUDP = 17 // User Datagram protocolGRE = 47 // Generic Routing Encapsulation protocolESP = 50 // Encap Security Payload protocolAH = 51 // Authentication Header protocolIPv6ICMP = 58 // ICMP for IPv6 protocolSCTP = 132 // Stream Control Transmission Protocol ProtocolFC = 133 // Fibre Channel ) // LoadACLPolicyFromPath loads the ACL policy from the specify path, and generates the ACL rules. func LoadACLPolicyFromPath(path string) (*ACLPolicy, error) { log.Debug(). Str("func", "LoadACLPolicy"). Str("path", path). Msg("Loading ACL policy from path") policyFile, err := os.Open(path) if err != nil { return nil, err } defer policyFile.Close() policyBytes, err := io.ReadAll(policyFile) if err != nil { return nil, err } log.Debug(). Str("path", path). Bytes("file", policyBytes). Msg("Loading ACLs") return LoadACLPolicyFromBytes(policyBytes) } func LoadACLPolicyFromBytes(acl []byte) (*ACLPolicy, error) { var policy ACLPolicy ast, err := hujson.Parse(acl) if err != nil { return nil, fmt.Errorf("parsing hujson, err: %w", err) } ast.Standardize() acl = ast.Pack() if err := json.Unmarshal(acl, &policy); err != nil { return nil, fmt.Errorf("unmarshalling policy, err: %w", err) } if policy.IsZero() { return nil, ErrEmptyPolicy } return &policy, nil } func GenerateFilterAndSSHRulesForTests( policy *ACLPolicy, node *types.Node, peers types.Nodes, ) ([]tailcfg.FilterRule, *tailcfg.SSHPolicy, error) { // If there is no policy defined, we default to allow all if policy == nil { return tailcfg.FilterAllowAll, &tailcfg.SSHPolicy{}, nil } rules, err := policy.CompileFilterRules(append(peers, node)) if err != nil { return []tailcfg.FilterRule{}, &tailcfg.SSHPolicy{}, err } log.Trace().Interface("ACL", rules).Str("node", node.GivenName).Msg("ACL rules") sshPolicy, err := policy.CompileSSHPolicy(node, peers) if err != nil { return []tailcfg.FilterRule{}, &tailcfg.SSHPolicy{}, err } return rules, sshPolicy, nil } // CompileFilterRules takes a set of nodes and an ACLPolicy and generates a // set of Tailscale compatible FilterRules used to allow traffic on clients. func (pol *ACLPolicy) CompileFilterRules( nodes types.Nodes, ) ([]tailcfg.FilterRule, error) { if pol == nil { return tailcfg.FilterAllowAll, nil } var rules []tailcfg.FilterRule for index, acl := range pol.ACLs { if acl.Action != "accept" { return nil, ErrInvalidAction } var srcIPs []string for srcIndex, src := range acl.Sources { srcs, err := pol.expandSource(src, nodes) if err != nil { return nil, fmt.Errorf("parsing policy, acl index: %d->%d: %w", index, srcIndex, err) } srcIPs = append(srcIPs, srcs...) } protocols, isWildcard, err := parseProtocol(acl.Protocol) if err != nil { return nil, fmt.Errorf("parsing policy, protocol err: %w ", err) } destPorts := []tailcfg.NetPortRange{} for _, dest := range acl.Destinations { alias, port, err := parseDestination(dest) if err != nil { return nil, err } expanded, err := pol.ExpandAlias( nodes, alias, ) if err != nil { return nil, err } ports, err := expandPorts(port, isWildcard) if err != nil { return nil, err } var dests []tailcfg.NetPortRange for _, dest := range expanded.Prefixes() { for _, port := range *ports { pr := tailcfg.NetPortRange{ IP: dest.String(), Ports: port, } dests = append(dests, pr) } } destPorts = append(destPorts, dests...) } rules = append(rules, tailcfg.FilterRule{ SrcIPs: srcIPs, DstPorts: destPorts, IPProto: protocols, }) } return rules, nil } // ReduceFilterRules takes a node and a set of rules and removes all rules and destinations // that are not relevant to that particular node. func ReduceFilterRules(node *types.Node, rules []tailcfg.FilterRule) []tailcfg.FilterRule { ret := []tailcfg.FilterRule{} for _, rule := range rules { // record if the rule is actually relevant for the given node. var dests []tailcfg.NetPortRange DEST_LOOP: for _, dest := range rule.DstPorts { expanded, err := util.ParseIPSet(dest.IP, nil) // Fail closed, if we cant parse it, then we should not allow // access. if err != nil { continue DEST_LOOP } if node.InIPSet(expanded) { dests = append(dests, dest) continue DEST_LOOP } // If the node exposes routes, ensure they are note removed // when the filters are reduced. if node.Hostinfo != nil { if len(node.Hostinfo.RoutableIPs) > 0 { for _, routableIP := range node.Hostinfo.RoutableIPs { if expanded.OverlapsPrefix(routableIP) { dests = append(dests, dest) continue DEST_LOOP } } } } } if len(dests) > 0 { ret = append(ret, tailcfg.FilterRule{ SrcIPs: rule.SrcIPs, DstPorts: dests, IPProto: rule.IPProto, }) } } return ret } func (pol *ACLPolicy) CompileSSHPolicy( node *types.Node, peers types.Nodes, ) (*tailcfg.SSHPolicy, error) { if pol == nil { return nil, nil } var rules []*tailcfg.SSHRule acceptAction := tailcfg.SSHAction{ Message: "", Reject: false, Accept: true, SessionDuration: 0, AllowAgentForwarding: true, HoldAndDelegate: "", AllowLocalPortForwarding: true, } rejectAction := tailcfg.SSHAction{ Message: "", Reject: true, Accept: false, SessionDuration: 0, AllowAgentForwarding: false, HoldAndDelegate: "", AllowLocalPortForwarding: false, } for index, sshACL := range pol.SSHs { var dest netipx.IPSetBuilder for _, src := range sshACL.Destinations { expanded, err := pol.ExpandAlias(append(peers, node), src) if err != nil { return nil, err } dest.AddSet(expanded) } destSet, err := dest.IPSet() if err != nil { return nil, err } if !node.InIPSet(destSet) { continue } action := rejectAction switch sshACL.Action { case "accept": action = acceptAction case "check": checkAction, err := sshCheckAction(sshACL.CheckPeriod) if err != nil { return nil, fmt.Errorf("parsing SSH policy, parsing check duration, index: %d: %w", index, err) } else { action = *checkAction } default: return nil, fmt.Errorf("parsing SSH policy, unknown action %q, index: %d: %w", sshACL.Action, index, err) } principals := make([]*tailcfg.SSHPrincipal, 0, len(sshACL.Sources)) for innerIndex, rawSrc := range sshACL.Sources { if isWildcard(rawSrc) { principals = append(principals, &tailcfg.SSHPrincipal{ Any: true, }) } else if isGroup(rawSrc) { users, err := pol.expandUsersFromGroup(rawSrc) if err != nil { return nil, fmt.Errorf("parsing SSH policy, expanding user from group, index: %d->%d: %w", index, innerIndex, err) } for _, user := range users { principals = append(principals, &tailcfg.SSHPrincipal{ UserLogin: user, }) } } else { expandedSrcs, err := pol.ExpandAlias( peers, rawSrc, ) if err != nil { return nil, fmt.Errorf("parsing SSH policy, expanding alias, index: %d->%d: %w", index, innerIndex, err) } for _, expandedSrc := range expandedSrcs.Prefixes() { principals = append(principals, &tailcfg.SSHPrincipal{ NodeIP: expandedSrc.Addr().String(), }) } } } userMap := make(map[string]string, len(sshACL.Users)) for _, user := range sshACL.Users { userMap[user] = "=" } rules = append(rules, &tailcfg.SSHRule{ Principals: principals, SSHUsers: userMap, Action: &action, }) } return &tailcfg.SSHPolicy{ Rules: rules, }, nil } func sshCheckAction(duration string) (*tailcfg.SSHAction, error) { sessionLength, err := time.ParseDuration(duration) if err != nil { return nil, err } return &tailcfg.SSHAction{ Message: "", Reject: false, Accept: true, SessionDuration: sessionLength, AllowAgentForwarding: true, HoldAndDelegate: "", AllowLocalPortForwarding: true, }, nil } func parseDestination(dest string) (string, string, error) { var tokens []string // Check if there is a IPv4/6:Port combination, IPv6 has more than // three ":". tokens = strings.Split(dest, ":") if len(tokens) < expectedTokenItems || len(tokens) > 3 { port := tokens[len(tokens)-1] maybeIPv6Str := strings.TrimSuffix(dest, ":"+port) log.Trace().Str("maybeIPv6Str", maybeIPv6Str).Msg("") filteredMaybeIPv6Str := maybeIPv6Str if strings.Contains(maybeIPv6Str, "/") { networkParts := strings.Split(maybeIPv6Str, "/") filteredMaybeIPv6Str = networkParts[0] } if maybeIPv6, err := netip.ParseAddr(filteredMaybeIPv6Str); err != nil && !maybeIPv6.Is6() { log.Trace().Err(err).Msg("trying to parse as IPv6") return "", "", fmt.Errorf( "failed to parse destination, tokens %v: %w", tokens, ErrInvalidPortFormat, ) } else { tokens = []string{maybeIPv6Str, port} } } var alias string // We can have here stuff like: // git-server:* // 192.168.1.0/24:22 // fd7a:115c:a1e0::2:22 // fd7a:115c:a1e0::2/128:22 // tag:montreal-webserver:80,443 // tag:api-server:443 // example-host-1:* if len(tokens) == expectedTokenItems { alias = tokens[0] } else { alias = fmt.Sprintf("%s:%s", tokens[0], tokens[1]) } return alias, tokens[len(tokens)-1], nil } // parseProtocol reads the proto field of the ACL and generates a list of // protocols that will be allowed, following the IANA IP protocol number // https://www.iana.org/assignments/protocol-numbers/protocol-numbers.xhtml // // If the ACL proto field is empty, it allows ICMPv4, ICMPv6, TCP, and UDP, // as per Tailscale behaviour (see tailcfg.FilterRule). // // Also returns a boolean indicating if the protocol // requires all the destinations to use wildcard as port number (only TCP, // UDP and SCTP support specifying ports). func parseProtocol(protocol string) ([]int, bool, error) { switch protocol { case "": return nil, false, nil case "igmp": return []int{protocolIGMP}, true, nil case "ipv4", "ip-in-ip": return []int{protocolIPv4}, true, nil case "tcp": return []int{protocolTCP}, false, nil case "egp": return []int{protocolEGP}, true, nil case "igp": return []int{protocolIGP}, true, nil case "udp": return []int{protocolUDP}, false, nil case "gre": return []int{protocolGRE}, true, nil case "esp": return []int{protocolESP}, true, nil case "ah": return []int{protocolAH}, true, nil case "sctp": return []int{protocolSCTP}, false, nil case "icmp": return []int{protocolICMP, protocolIPv6ICMP}, true, nil default: protocolNumber, err := strconv.Atoi(protocol) if err != nil { return nil, false, fmt.Errorf("parsing protocol number: %w", err) } needsWildcard := protocolNumber != protocolTCP && protocolNumber != protocolUDP && protocolNumber != protocolSCTP return []int{protocolNumber}, needsWildcard, nil } } // expandSource returns a set of Source IPs that would be associated // with the given src alias. func (pol *ACLPolicy) expandSource( src string, nodes types.Nodes, ) ([]string, error) { ipSet, err := pol.ExpandAlias(nodes, src) if err != nil { return []string{}, err } var prefixes []string for _, prefix := range ipSet.Prefixes() { prefixes = append(prefixes, prefix.String()) } return prefixes, nil } // expandalias has an input of either // - a user // - a group // - a tag // - a host // - an ip // - a cidr // - an autogroup // and transform these in IPAddresses. func (pol *ACLPolicy) ExpandAlias( nodes types.Nodes, alias string, ) (*netipx.IPSet, error) { if isWildcard(alias) { return util.ParseIPSet("*", nil) } build := netipx.IPSetBuilder{} log.Debug(). Str("alias", alias). Msg("Expanding") // if alias is a group if isGroup(alias) { return pol.expandIPsFromGroup(alias, nodes) } // if alias is a tag if isTag(alias) { return pol.expandIPsFromTag(alias, nodes) } if isAutoGroup(alias) { return expandAutoGroup(alias) } // if alias is a user if ips, err := pol.expandIPsFromUser(alias, nodes); ips != nil { return ips, err } // if alias is an host // Note, this is recursive. if h, ok := pol.Hosts[alias]; ok { log.Trace().Str("host", h.String()).Msg("ExpandAlias got hosts entry") return pol.ExpandAlias(nodes, h.String()) } // if alias is an IP if ip, err := netip.ParseAddr(alias); err == nil { return pol.expandIPsFromSingleIP(ip, nodes) } // if alias is an IP Prefix (CIDR) if prefix, err := netip.ParsePrefix(alias); err == nil { return pol.expandIPsFromIPPrefix(prefix, nodes) } log.Warn().Msgf("No IPs found with the alias %v", alias) return build.IPSet() } // excludeCorrectlyTaggedNodes will remove from the list of input nodes the ones // that are correctly tagged since they should not be listed as being in the user // we assume in this function that we only have nodes from 1 user. // // TODO(kradalby): It is quite hard to understand what this function is doing, // it seems like it trying to ensure that we dont include nodes that are tagged // when we look up the nodes owned by a user. // This should be refactored to be more clear as part of the Tags work in #1369. func excludeCorrectlyTaggedNodes( aclPolicy *ACLPolicy, nodes types.Nodes, user string, ) types.Nodes { var out types.Nodes var tags []string for tag := range aclPolicy.TagOwners { owners, _ := expandOwnersFromTag(aclPolicy, user) ns := append(owners, user) if slices.Contains(ns, user) { tags = append(tags, tag) } } // for each node if tag is in tags list, don't append it. for _, node := range nodes { found := false if node.Hostinfo != nil { for _, t := range node.Hostinfo.RequestTags { if slices.Contains(tags, t) { found = true break } } } if len(node.ForcedTags) > 0 { found = true } if !found { out = append(out, node) } } return out } func expandPorts(portsStr string, isWild bool) (*[]tailcfg.PortRange, error) { if isWildcard(portsStr) { return &[]tailcfg.PortRange{ {First: portRangeBegin, Last: portRangeEnd}, }, nil } if isWild { return nil, ErrWildcardIsNeeded } var ports []tailcfg.PortRange for _, portStr := range strings.Split(portsStr, ",") { log.Trace().Msgf("parsing portstring: %s", portStr) rang := strings.Split(portStr, "-") switch len(rang) { case 1: port, err := strconv.ParseUint(rang[0], util.Base10, util.BitSize16) if err != nil { return nil, err } ports = append(ports, tailcfg.PortRange{ First: uint16(port), Last: uint16(port), }) case expectedTokenItems: start, err := strconv.ParseUint(rang[0], util.Base10, util.BitSize16) if err != nil { return nil, err } last, err := strconv.ParseUint(rang[1], util.Base10, util.BitSize16) if err != nil { return nil, err } ports = append(ports, tailcfg.PortRange{ First: uint16(start), Last: uint16(last), }) default: return nil, ErrInvalidPortFormat } } return &ports, nil } // expandOwnersFromTag will return a list of user. An owner can be either a user or a group // a group cannot be composed of groups. func expandOwnersFromTag( pol *ACLPolicy, tag string, ) ([]string, error) { noTagErr := fmt.Errorf( "%w. %v isn't owned by a TagOwner. Please add one first. https://tailscale.com/kb/1018/acls/#tag-owners", ErrInvalidTag, tag, ) if pol == nil { return []string{}, noTagErr } var owners []string ows, ok := pol.TagOwners[tag] if !ok { return []string{}, noTagErr } for _, owner := range ows { if isGroup(owner) { gs, err := pol.expandUsersFromGroup(owner) if err != nil { return []string{}, err } owners = append(owners, gs...) } else { owners = append(owners, owner) } } return owners, nil } // expandUsersFromGroup will return the list of user inside the group // after some validation. func (pol *ACLPolicy) expandUsersFromGroup( group string, ) ([]string, error) { var users []string log.Trace().Caller().Interface("pol", pol).Msg("test") aclGroups, ok := pol.Groups[group] if !ok { return []string{}, fmt.Errorf( "group %v isn't registered. %w", group, ErrInvalidGroup, ) } for _, group := range aclGroups { if isGroup(group) { return []string{}, fmt.Errorf( "%w. A group cannot be composed of groups. https://tailscale.com/kb/1018/acls/#groups", ErrInvalidGroup, ) } users = append(users, group) } return users, nil } func (pol *ACLPolicy) expandIPsFromGroup( group string, nodes types.Nodes, ) (*netipx.IPSet, error) { var build netipx.IPSetBuilder users, err := pol.expandUsersFromGroup(group) if err != nil { return &netipx.IPSet{}, err } for _, user := range users { filteredNodes := filterNodesByUser(nodes, user) for _, node := range filteredNodes { node.AppendToIPSet(&build) } } return build.IPSet() } func (pol *ACLPolicy) expandIPsFromTag( alias string, nodes types.Nodes, ) (*netipx.IPSet, error) { var build netipx.IPSetBuilder // check for forced tags for _, node := range nodes { if slices.Contains(node.ForcedTags, alias) { node.AppendToIPSet(&build) } } // find tag owners owners, err := expandOwnersFromTag(pol, alias) if err != nil { if errors.Is(err, ErrInvalidTag) { ipSet, _ := build.IPSet() if len(ipSet.Prefixes()) == 0 { return ipSet, fmt.Errorf( "%w. %v isn't owned by a TagOwner and no forced tags are defined", ErrInvalidTag, alias, ) } return build.IPSet() } else { return nil, err } } // filter out nodes per tag owner for _, user := range owners { nodes := filterNodesByUser(nodes, user) for _, node := range nodes { if node.Hostinfo == nil { continue } if slices.Contains(node.Hostinfo.RequestTags, alias) { node.AppendToIPSet(&build) } } } return build.IPSet() } func (pol *ACLPolicy) expandIPsFromUser( user string, nodes types.Nodes, ) (*netipx.IPSet, error) { var build netipx.IPSetBuilder filteredNodes := filterNodesByUser(nodes, user) filteredNodes = excludeCorrectlyTaggedNodes(pol, filteredNodes, user) // shortcurcuit if we have no nodes to get ips from. if len(filteredNodes) == 0 { return nil, nil // nolint } for _, node := range filteredNodes { node.AppendToIPSet(&build) } return build.IPSet() } func (pol *ACLPolicy) expandIPsFromSingleIP( ip netip.Addr, nodes types.Nodes, ) (*netipx.IPSet, error) { log.Trace().Str("ip", ip.String()).Msg("ExpandAlias got ip") matches := nodes.FilterByIP(ip) var build netipx.IPSetBuilder build.Add(ip) for _, node := range matches { node.AppendToIPSet(&build) } return build.IPSet() } func (pol *ACLPolicy) expandIPsFromIPPrefix( prefix netip.Prefix, nodes types.Nodes, ) (*netipx.IPSet, error) { log.Trace().Str("prefix", prefix.String()).Msg("expandAlias got prefix") var build netipx.IPSetBuilder build.AddPrefix(prefix) // This is suboptimal and quite expensive, but if we only add the prefix, we will miss all the relevant IPv6 // addresses for the hosts that belong to tailscale. This doesnt really affect stuff like subnet routers. for _, node := range nodes { for _, ip := range node.IPs() { // log.Trace(). // Msgf("checking if node ip (%s) is part of prefix (%s): %v, is single ip prefix (%v), addr: %s", ip.String(), prefix.String(), prefix.Contains(ip), prefix.IsSingleIP(), prefix.Addr().String()) if prefix.Contains(ip) { node.AppendToIPSet(&build) } } } return build.IPSet() } func expandAutoGroup(alias string) (*netipx.IPSet, error) { switch { case strings.HasPrefix(alias, "autogroup:internet"): return theInternet(), nil default: return nil, fmt.Errorf("unknown autogroup %q", alias) } } func isWildcard(str string) bool { return str == "*" } func isGroup(str string) bool { return strings.HasPrefix(str, "group:") } func isTag(str string) bool { return strings.HasPrefix(str, "tag:") } func isAutoGroup(str string) bool { return strings.HasPrefix(str, "autogroup:") } // TagsOfNode will return the tags of the current node. // Invalid tags are tags added by a user on a node, and that user doesn't have authority to add this tag. // Valid tags are tags added by a user that is allowed in the ACL policy to add this tag. func (pol *ACLPolicy) TagsOfNode( node *types.Node, ) ([]string, []string) { var validTags []string var invalidTags []string // TODO(kradalby): Why is this sometimes nil? coming from tailNode? if node == nil { return validTags, invalidTags } validTagMap := make(map[string]bool) invalidTagMap := make(map[string]bool) if node.Hostinfo != nil { for _, tag := range node.Hostinfo.RequestTags { owners, err := expandOwnersFromTag(pol, tag) if errors.Is(err, ErrInvalidTag) { invalidTagMap[tag] = true continue } var found bool for _, owner := range owners { if node.User.Username() == owner { found = true } } if found { validTagMap[tag] = true } else { invalidTagMap[tag] = true } } for tag := range invalidTagMap { invalidTags = append(invalidTags, tag) } for tag := range validTagMap { validTags = append(validTags, tag) } } return validTags, invalidTags } func filterNodesByUser(nodes types.Nodes, user string) types.Nodes { var out types.Nodes for _, node := range nodes { if node.User.Username() == user { out = append(out, node) } } return out } // FilterNodesByACL returns the list of peers authorized to be accessed from a given node. func FilterNodesByACL( node *types.Node, nodes types.Nodes, filter []tailcfg.FilterRule, ) types.Nodes { var result types.Nodes for index, peer := range nodes { if peer.ID == node.ID { continue } log.Printf("Checking if %s can access %s", node.Hostname, peer.Hostname) if node.CanAccess(filter, nodes[index]) || peer.CanAccess(filter, node) { log.Printf("CAN ACCESS %s can access %s", node.Hostname, peer.Hostname) result = append(result, peer) } } return result }