Merge branch 'main' into update-contributors

This commit is contained in:
Kristoffer Dalby 2022-02-21 23:38:56 +00:00 committed by GitHub
commit 52db6188df
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12 changed files with 1806 additions and 98 deletions

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@ -48,6 +48,7 @@ linters-settings:
- ip
- ok
- c
- tt
gocritic:
disabled-checks:

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@ -2,6 +2,24 @@
**TBD (TBD):**
**0.14.0 (2022-xx-xx):**
**UPCOMING BREAKING**:
From the **next** version (`0.15.0`), all machines will be able to communicate regardless of
if they are in the same namespace. This means that the behaviour currently limited to ACLs
will become default. From version `0.15.0`, all limitation of communications must be done
with ACLs.
This is a part of aligning `headscale`'s behaviour with Tailscale's upstream behaviour.
**BREAKING**:
- ACLs have been rewritten to align with the bevaviour Tailscale Control Panel provides. **NOTE:** This is only active if you use ACLs
- Namespaces are now treated as Users
- All machines can communicate with all machines by default
- Tags should now work correctly and adding a host to Headscale should now reload the rules.
- The documentation have a [fictional example](docs/acls.md) that should cover some use cases of the ACLs features
**0.13.0 (2022-02-18):**
**Features**:

219
acls.go
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@ -20,7 +20,6 @@ const (
errInvalidUserSection = Error("invalid user section")
errInvalidGroup = Error("invalid group")
errInvalidTag = Error("invalid tag")
errInvalidNamespace = Error("invalid namespace")
errInvalidPortFormat = Error("invalid port format")
)
@ -69,13 +68,17 @@ func (h *Headscale) LoadACLPolicy(path string) error {
}
h.aclPolicy = &policy
return h.UpdateACLRules()
}
func (h *Headscale) UpdateACLRules() error {
rules, err := h.generateACLRules()
if err != nil {
return err
}
h.aclRules = rules
log.Trace().Interface("ACL", rules).Msg("ACL rules generated")
h.aclRules = rules
return nil
}
@ -83,16 +86,23 @@ func (h *Headscale) LoadACLPolicy(path string) error {
func (h *Headscale) generateACLRules() ([]tailcfg.FilterRule, error) {
rules := []tailcfg.FilterRule{}
if h.aclPolicy == nil {
return nil, errEmptyPolicy
}
machines, err := h.ListAllMachines()
if err != nil {
return nil, err
}
for index, acl := range h.aclPolicy.ACLs {
if acl.Action != "accept" {
return nil, errInvalidAction
}
filterRule := tailcfg.FilterRule{}
srcIPs := []string{}
for innerIndex, user := range acl.Users {
srcs, err := h.generateACLPolicySrcIP(user)
srcs, err := h.generateACLPolicySrcIP(machines, *h.aclPolicy, user)
if err != nil {
log.Error().
Msgf("Error parsing ACL %d, User %d", index, innerIndex)
@ -101,11 +111,10 @@ func (h *Headscale) generateACLRules() ([]tailcfg.FilterRule, error) {
}
srcIPs = append(srcIPs, srcs...)
}
filterRule.SrcIPs = srcIPs
destPorts := []tailcfg.NetPortRange{}
for innerIndex, ports := range acl.Ports {
dests, err := h.generateACLPolicyDestPorts(ports)
dests, err := h.generateACLPolicyDestPorts(machines, *h.aclPolicy, ports)
if err != nil {
log.Error().
Msgf("Error parsing ACL %d, Port %d", index, innerIndex)
@ -124,11 +133,17 @@ func (h *Headscale) generateACLRules() ([]tailcfg.FilterRule, error) {
return rules, nil
}
func (h *Headscale) generateACLPolicySrcIP(u string) ([]string, error) {
return h.expandAlias(u)
func (h *Headscale) generateACLPolicySrcIP(
machines []Machine,
aclPolicy ACLPolicy,
u string,
) ([]string, error) {
return expandAlias(machines, aclPolicy, u)
}
func (h *Headscale) generateACLPolicyDestPorts(
machines []Machine,
aclPolicy ACLPolicy,
d string,
) ([]tailcfg.NetPortRange, error) {
tokens := strings.Split(d, ":")
@ -149,11 +164,11 @@ func (h *Headscale) generateACLPolicyDestPorts(
alias = fmt.Sprintf("%s:%s", tokens[0], tokens[1])
}
expanded, err := h.expandAlias(alias)
expanded, err := expandAlias(machines, aclPolicy, alias)
if err != nil {
return nil, err
}
ports, err := h.expandPorts(tokens[len(tokens)-1])
ports, err := expandPorts(tokens[len(tokens)-1])
if err != nil {
return nil, err
}
@ -172,21 +187,28 @@ func (h *Headscale) generateACLPolicyDestPorts(
return dests, nil
}
func (h *Headscale) expandAlias(alias string) ([]string, error) {
// expandalias has an input of either
// - a namespace
// - a group
// - a tag
// and transform these in IPAddresses.
func expandAlias(
machines []Machine,
aclPolicy ACLPolicy,
alias string,
) ([]string, error) {
ips := []string{}
if alias == "*" {
return []string{"*"}, nil
}
if strings.HasPrefix(alias, "group:") {
if _, ok := h.aclPolicy.Groups[alias]; !ok {
return nil, errInvalidGroup
}
ips := []string{}
for _, n := range h.aclPolicy.Groups[alias] {
nodes, err := h.ListMachinesInNamespace(n)
namespaces, err := expandGroup(aclPolicy, alias)
if err != nil {
return nil, errInvalidNamespace
return ips, err
}
for _, n := range namespaces {
nodes := filterMachinesByNamespace(machines, n)
for _, node := range nodes {
ips = append(ips, node.IPAddresses.ToStringSlice()...)
}
@ -196,35 +218,23 @@ func (h *Headscale) expandAlias(alias string) ([]string, error) {
}
if strings.HasPrefix(alias, "tag:") {
if _, ok := h.aclPolicy.TagOwners[alias]; !ok {
return nil, errInvalidTag
owners, err := expandTagOwners(aclPolicy, alias)
if err != nil {
return ips, err
}
// This will have HORRIBLE performance.
// We need to change the data model to better store tags
machines := []Machine{}
if err := h.db.Where("registered").Find(&machines).Error; err != nil {
return nil, err
}
ips := []string{}
for _, namespace := range owners {
machines := filterMachinesByNamespace(machines, namespace)
for _, machine := range machines {
hostinfo := tailcfg.Hostinfo{}
if len(machine.HostInfo) != 0 {
hi, err := machine.HostInfo.MarshalJSON()
if err != nil {
return nil, err
if len(machine.HostInfo) == 0 {
continue
}
err = json.Unmarshal(hi, &hostinfo)
hi, err := machine.GetHostInfo()
if err != nil {
return nil, err
return ips, err
}
// FIXME: Check TagOwners allows this
for _, t := range hostinfo.RequestTags {
if alias[4:] == t {
for _, t := range hi.RequestTags {
if alias == t {
ips = append(ips, machine.IPAddresses.ToStringSlice()...)
break
}
}
}
@ -233,38 +243,82 @@ func (h *Headscale) expandAlias(alias string) ([]string, error) {
return ips, nil
}
n, err := h.GetNamespace(alias)
if err == nil {
nodes, err := h.ListMachinesInNamespace(n.Name)
// if alias is a namespace
nodes := filterMachinesByNamespace(machines, alias)
nodes, err := excludeCorrectlyTaggedNodes(aclPolicy, nodes, alias)
if err != nil {
return nil, err
return ips, err
}
ips := []string{}
for _, n := range nodes {
ips = append(ips, n.IPAddresses.ToStringSlice()...)
}
if len(ips) > 0 {
return ips, nil
}
if h, ok := h.aclPolicy.Hosts[alias]; ok {
// if alias is an host
if h, ok := aclPolicy.Hosts[alias]; ok {
return []string{h.String()}, nil
}
// if alias is an IP
ip, err := netaddr.ParseIP(alias)
if err == nil {
return []string{ip.String()}, nil
}
// if alias is an CIDR
cidr, err := netaddr.ParseIPPrefix(alias)
if err == nil {
return []string{cidr.String()}, nil
}
return nil, errInvalidUserSection
return ips, errInvalidUserSection
}
func (h *Headscale) expandPorts(portsStr string) (*[]tailcfg.PortRange, error) {
// 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 namespace
// we assume in this function that we only have nodes from 1 namespace.
func excludeCorrectlyTaggedNodes(
aclPolicy ACLPolicy,
nodes []Machine,
namespace string,
) ([]Machine, error) {
out := []Machine{}
tags := []string{}
for tag, ns := range aclPolicy.TagOwners {
if containsString(ns, namespace) {
tags = append(tags, tag)
}
}
// for each machine if tag is in tags list, don't append it.
for _, machine := range nodes {
if len(machine.HostInfo) == 0 {
out = append(out, machine)
continue
}
hi, err := machine.GetHostInfo()
if err != nil {
return out, err
}
found := false
for _, t := range hi.RequestTags {
if containsString(tags, t) {
found = true
break
}
}
if !found {
out = append(out, machine)
}
}
return out, nil
}
func expandPorts(portsStr string) (*[]tailcfg.PortRange, error) {
if portsStr == "*" {
return &[]tailcfg.PortRange{
{First: portRangeBegin, Last: portRangeEnd},
@ -306,3 +360,64 @@ func (h *Headscale) expandPorts(portsStr string) (*[]tailcfg.PortRange, error) {
return &ports, nil
}
func filterMachinesByNamespace(machines []Machine, namespace string) []Machine {
out := []Machine{}
for _, machine := range machines {
if machine.Namespace.Name == namespace {
out = append(out, machine)
}
}
return out
}
// expandTagOwners will return a list of namespace. An owner can be either a namespace or a group
// a group cannot be composed of groups.
func expandTagOwners(aclPolicy ACLPolicy, tag string) ([]string, error) {
var owners []string
ows, ok := aclPolicy.TagOwners[tag]
if !ok {
return []string{}, fmt.Errorf(
"%w. %v isn't owned by a TagOwner. Please add one first. https://tailscale.com/kb/1018/acls/#tag-owners",
errInvalidTag,
tag,
)
}
for _, owner := range ows {
if strings.HasPrefix(owner, "group:") {
gs, err := expandGroup(aclPolicy, owner)
if err != nil {
return []string{}, err
}
owners = append(owners, gs...)
} else {
owners = append(owners, owner)
}
}
return owners, nil
}
// expandGroup will return the list of namespace inside the group
// after some validation.
func expandGroup(aclPolicy ACLPolicy, group string) ([]string, error) {
groups, ok := aclPolicy.Groups[group]
if !ok {
return []string{}, fmt.Errorf(
"group %v isn't registered. %w",
group,
errInvalidGroup,
)
}
for _, g := range groups {
if strings.HasPrefix(g, "group:") {
return []string{}, fmt.Errorf(
"%w. A group cannot be composed of groups. https://tailscale.com/kb/1018/acls/#groups",
errInvalidGroup,
)
}
}
return groups, nil
}

View File

@ -1,7 +1,14 @@
package headscale
import (
"errors"
"reflect"
"testing"
"gopkg.in/check.v1"
"gorm.io/datatypes"
"inet.af/netaddr"
"tailscale.com/tailcfg"
)
func (s *Suite) TestWrongPath(c *check.C) {
@ -52,6 +59,245 @@ func (s *Suite) TestBasicRule(c *check.C) {
c.Assert(rules, check.NotNil)
}
// TODO(kradalby): Make tests values safe, independent and descriptive.
func (s *Suite) TestInvalidAction(c *check.C) {
app.aclPolicy = &ACLPolicy{
ACLs: []ACL{
{Action: "invalidAction", Users: []string{"*"}, Ports: []string{"*:*"}},
},
}
err := app.UpdateACLRules()
c.Assert(errors.Is(err, errInvalidAction), check.Equals, true)
}
func (s *Suite) TestInvalidGroupInGroup(c *check.C) {
// this ACL is wrong because the group in users sections doesn't exist
app.aclPolicy = &ACLPolicy{
Groups: Groups{
"group:test": []string{"foo"},
"group:error": []string{"foo", "group:test"},
},
ACLs: []ACL{
{Action: "accept", Users: []string{"group:error"}, Ports: []string{"*:*"}},
},
}
err := app.UpdateACLRules()
c.Assert(errors.Is(err, errInvalidGroup), check.Equals, true)
}
func (s *Suite) TestInvalidTagOwners(c *check.C) {
// this ACL is wrong because no tagOwners own the requested tag for the server
app.aclPolicy = &ACLPolicy{
ACLs: []ACL{
{Action: "accept", Users: []string{"tag:foo"}, Ports: []string{"*:*"}},
},
}
err := app.UpdateACLRules()
c.Assert(errors.Is(err, errInvalidTag), check.Equals, true)
}
// this test should validate that we can expand a group in a TagOWner section and
// match properly the IP's of the related hosts. The owner is valid and the tag is also valid.
// the tag is matched in the Users section.
func (s *Suite) TestValidExpandTagOwnersInUsers(c *check.C) {
namespace, err := app.CreateNamespace("user1")
c.Assert(err, check.IsNil)
pak, err := app.CreatePreAuthKey(namespace.Name, false, false, nil)
c.Assert(err, check.IsNil)
_, err = app.GetMachine("user1", "testmachine")
c.Assert(err, check.NotNil)
hostInfo := []byte(
"{\"OS\":\"centos\",\"Hostname\":\"testmachine\",\"RequestTags\":[\"tag:test\"]}",
)
machine := Machine{
ID: 0,
MachineKey: "foo",
NodeKey: "bar",
DiscoKey: "faa",
Name: "testmachine",
IPAddresses: MachineAddresses{netaddr.MustParseIP("100.64.0.1")},
NamespaceID: namespace.ID,
Registered: true,
RegisterMethod: RegisterMethodAuthKey,
AuthKeyID: uint(pak.ID),
HostInfo: datatypes.JSON(hostInfo),
}
app.db.Save(&machine)
app.aclPolicy = &ACLPolicy{
Groups: Groups{"group:test": []string{"user1", "user2"}},
TagOwners: TagOwners{"tag:test": []string{"user3", "group:test"}},
ACLs: []ACL{
{Action: "accept", Users: []string{"tag:test"}, Ports: []string{"*:*"}},
},
}
err = app.UpdateACLRules()
c.Assert(err, check.IsNil)
c.Assert(app.aclRules, check.HasLen, 1)
c.Assert(app.aclRules[0].SrcIPs, check.HasLen, 1)
c.Assert(app.aclRules[0].SrcIPs[0], check.Equals, "100.64.0.1")
}
// this test should validate that we can expand a group in a TagOWner section and
// match properly the IP's of the related hosts. The owner is valid and the tag is also valid.
// the tag is matched in the Ports section.
func (s *Suite) TestValidExpandTagOwnersInPorts(c *check.C) {
namespace, err := app.CreateNamespace("user1")
c.Assert(err, check.IsNil)
pak, err := app.CreatePreAuthKey(namespace.Name, false, false, nil)
c.Assert(err, check.IsNil)
_, err = app.GetMachine("user1", "testmachine")
c.Assert(err, check.NotNil)
hostInfo := []byte(
"{\"OS\":\"centos\",\"Hostname\":\"testmachine\",\"RequestTags\":[\"tag:test\"]}",
)
machine := Machine{
ID: 1,
MachineKey: "12345",
NodeKey: "bar",
DiscoKey: "faa",
Name: "testmachine",
IPAddresses: MachineAddresses{netaddr.MustParseIP("100.64.0.1")},
NamespaceID: namespace.ID,
Registered: true,
RegisterMethod: RegisterMethodAuthKey,
AuthKeyID: uint(pak.ID),
HostInfo: datatypes.JSON(hostInfo),
}
app.db.Save(&machine)
app.aclPolicy = &ACLPolicy{
Groups: Groups{"group:test": []string{"user1", "user2"}},
TagOwners: TagOwners{"tag:test": []string{"user3", "group:test"}},
ACLs: []ACL{
{Action: "accept", Users: []string{"*"}, Ports: []string{"tag:test:*"}},
},
}
err = app.UpdateACLRules()
c.Assert(err, check.IsNil)
c.Assert(app.aclRules, check.HasLen, 1)
c.Assert(app.aclRules[0].DstPorts, check.HasLen, 1)
c.Assert(app.aclRules[0].DstPorts[0].IP, check.Equals, "100.64.0.1")
}
// need a test with:
// tag on a host that isn't owned by a tag owners. So the namespace
// of the host should be valid.
func (s *Suite) TestInvalidTagValidNamespace(c *check.C) {
namespace, err := app.CreateNamespace("user1")
c.Assert(err, check.IsNil)
pak, err := app.CreatePreAuthKey(namespace.Name, false, false, nil)
c.Assert(err, check.IsNil)
_, err = app.GetMachine("user1", "testmachine")
c.Assert(err, check.NotNil)
hostInfo := []byte(
"{\"OS\":\"centos\",\"Hostname\":\"testmachine\",\"RequestTags\":[\"tag:foo\"]}",
)
machine := Machine{
ID: 1,
MachineKey: "12345",
NodeKey: "bar",
DiscoKey: "faa",
Name: "testmachine",
IPAddresses: MachineAddresses{netaddr.MustParseIP("100.64.0.1")},
NamespaceID: namespace.ID,
Registered: true,
RegisterMethod: RegisterMethodAuthKey,
AuthKeyID: uint(pak.ID),
HostInfo: datatypes.JSON(hostInfo),
}
app.db.Save(&machine)
app.aclPolicy = &ACLPolicy{
TagOwners: TagOwners{"tag:test": []string{"user1"}},
ACLs: []ACL{
{Action: "accept", Users: []string{"user1"}, Ports: []string{"*:*"}},
},
}
err = app.UpdateACLRules()
c.Assert(err, check.IsNil)
c.Assert(app.aclRules, check.HasLen, 1)
c.Assert(app.aclRules[0].SrcIPs, check.HasLen, 1)
c.Assert(app.aclRules[0].SrcIPs[0], check.Equals, "100.64.0.1")
}
// tag on a host is owned by a tag owner, the tag is valid.
// an ACL rule is matching the tag to a namespace. It should not be valid since the
// host should be tied to the tag now.
func (s *Suite) TestValidTagInvalidNamespace(c *check.C) {
namespace, err := app.CreateNamespace("user1")
c.Assert(err, check.IsNil)
pak, err := app.CreatePreAuthKey(namespace.Name, false, false, nil)
c.Assert(err, check.IsNil)
_, err = app.GetMachine("user1", "webserver")
c.Assert(err, check.NotNil)
hostInfo := []byte(
"{\"OS\":\"centos\",\"Hostname\":\"webserver\",\"RequestTags\":[\"tag:webapp\"]}",
)
machine := Machine{
ID: 1,
MachineKey: "12345",
NodeKey: "bar",
DiscoKey: "faa",
Name: "webserver",
IPAddresses: MachineAddresses{netaddr.MustParseIP("100.64.0.1")},
NamespaceID: namespace.ID,
Registered: true,
RegisterMethod: RegisterMethodAuthKey,
AuthKeyID: uint(pak.ID),
HostInfo: datatypes.JSON(hostInfo),
}
app.db.Save(&machine)
_, err = app.GetMachine("user1", "user")
hostInfo = []byte("{\"OS\":\"debian\",\"Hostname\":\"user\"}")
c.Assert(err, check.NotNil)
machine = Machine{
ID: 2,
MachineKey: "56789",
NodeKey: "bar2",
DiscoKey: "faab",
Name: "user",
IPAddresses: MachineAddresses{netaddr.MustParseIP("100.64.0.2")},
NamespaceID: namespace.ID,
Registered: true,
RegisterMethod: RegisterMethodAuthKey,
AuthKeyID: uint(pak.ID),
HostInfo: datatypes.JSON(hostInfo),
}
app.db.Save(&machine)
app.aclPolicy = &ACLPolicy{
TagOwners: TagOwners{"tag:webapp": []string{"user1"}},
ACLs: []ACL{
{
Action: "accept",
Users: []string{"user1"},
Ports: []string{"tag:webapp:80,443"},
},
},
}
err = app.UpdateACLRules()
c.Assert(err, check.IsNil)
c.Assert(app.aclRules, check.HasLen, 1)
c.Assert(app.aclRules[0].SrcIPs, check.HasLen, 1)
c.Assert(app.aclRules[0].SrcIPs[0], check.Equals, "100.64.0.2")
c.Assert(app.aclRules[0].DstPorts, check.HasLen, 2)
c.Assert(app.aclRules[0].DstPorts[0].Ports.First, check.Equals, uint16(80))
c.Assert(app.aclRules[0].DstPorts[0].Ports.Last, check.Equals, uint16(80))
c.Assert(app.aclRules[0].DstPorts[0].IP, check.Equals, "100.64.0.1")
c.Assert(app.aclRules[0].DstPorts[1].Ports.First, check.Equals, uint16(443))
c.Assert(app.aclRules[0].DstPorts[1].Ports.Last, check.Equals, uint16(443))
c.Assert(app.aclRules[0].DstPorts[1].IP, check.Equals, "100.64.0.1")
}
func (s *Suite) TestPortRange(c *check.C) {
err := app.LoadACLPolicy("./tests/acls/acl_policy_basic_range.hujson")
c.Assert(err, check.IsNil)
@ -94,7 +340,7 @@ func (s *Suite) TestPortNamespace(c *check.C) {
ips, _ := app.getAvailableIPs()
machine := Machine{
ID: 0,
MachineKey: "foo",
MachineKey: "12345",
NodeKey: "bar",
DiscoKey: "faa",
Name: "testmachine",
@ -165,3 +411,723 @@ func (s *Suite) TestPortGroup(c *check.C) {
c.Assert(len(ips), check.Equals, 1)
c.Assert(rules[0].SrcIPs[0], check.Equals, ips[0].String())
}
func Test_expandGroup(t *testing.T) {
type args struct {
aclPolicy ACLPolicy
group string
}
tests := []struct {
name string
args args
want []string
wantErr bool
}{
{
name: "simple test",
args: args{
aclPolicy: ACLPolicy{
Groups: Groups{
"group:test": []string{"user1", "user2", "user3"},
"group:foo": []string{"user2", "user3"},
},
},
group: "group:test",
},
want: []string{"user1", "user2", "user3"},
wantErr: false,
},
{
name: "InexistantGroup",
args: args{
aclPolicy: ACLPolicy{
Groups: Groups{
"group:test": []string{"user1", "user2", "user3"},
"group:foo": []string{"user2", "user3"},
},
},
group: "group:undefined",
},
want: []string{},
wantErr: true,
},
}
for _, test := range tests {
t.Run(test.name, func(t *testing.T) {
got, err := expandGroup(test.args.aclPolicy, test.args.group)
if (err != nil) != test.wantErr {
t.Errorf("expandGroup() error = %v, wantErr %v", err, test.wantErr)
return
}
if !reflect.DeepEqual(got, test.want) {
t.Errorf("expandGroup() = %v, want %v", got, test.want)
}
})
}
}
func Test_expandTagOwners(t *testing.T) {
type args struct {
aclPolicy ACLPolicy
tag string
}
tests := []struct {
name string
args args
want []string
wantErr bool
}{
{
name: "simple tag expansion",
args: args{
aclPolicy: ACLPolicy{
TagOwners: TagOwners{"tag:test": []string{"user1"}},
},
tag: "tag:test",
},
want: []string{"user1"},
wantErr: false,
},
{
name: "expand with tag and group",
args: args{
aclPolicy: ACLPolicy{
Groups: Groups{"group:foo": []string{"user1", "user2"}},
TagOwners: TagOwners{"tag:test": []string{"group:foo"}},
},
tag: "tag:test",
},
want: []string{"user1", "user2"},
wantErr: false,
},
{
name: "expand with namespace and group",
args: args{
aclPolicy: ACLPolicy{
Groups: Groups{"group:foo": []string{"user1", "user2"}},
TagOwners: TagOwners{"tag:test": []string{"group:foo", "user3"}},
},
tag: "tag:test",
},
want: []string{"user1", "user2", "user3"},
wantErr: false,
},
{
name: "invalid tag",
args: args{
aclPolicy: ACLPolicy{
TagOwners: TagOwners{"tag:foo": []string{"group:foo", "user1"}},
},
tag: "tag:test",
},
want: []string{},
wantErr: true,
},
{
name: "invalid group",
args: args{
aclPolicy: ACLPolicy{
Groups: Groups{"group:bar": []string{"user1", "user2"}},
TagOwners: TagOwners{"tag:test": []string{"group:foo", "user2"}},
},
tag: "tag:test",
},
want: []string{},
wantErr: true,
},
}
for _, test := range tests {
t.Run(test.name, func(t *testing.T) {
got, err := expandTagOwners(test.args.aclPolicy, test.args.tag)
if (err != nil) != test.wantErr {
t.Errorf("expandTagOwners() error = %v, wantErr %v", err, test.wantErr)
return
}
if !reflect.DeepEqual(got, test.want) {
t.Errorf("expandTagOwners() = %v, want %v", got, test.want)
}
})
}
}
func Test_expandPorts(t *testing.T) {
type args struct {
portsStr string
}
tests := []struct {
name string
args args
want *[]tailcfg.PortRange
wantErr bool
}{
{
name: "wildcard",
args: args{portsStr: "*"},
want: &[]tailcfg.PortRange{
{First: portRangeBegin, Last: portRangeEnd},
},
wantErr: false,
},
{
name: "two ports",
args: args{portsStr: "80,443"},
want: &[]tailcfg.PortRange{
{First: 80, Last: 80},
{First: 443, Last: 443},
},
wantErr: false,
},
{
name: "a range and a port",
args: args{portsStr: "80-1024,443"},
want: &[]tailcfg.PortRange{
{First: 80, Last: 1024},
{First: 443, Last: 443},
},
wantErr: false,
},
{
name: "out of bounds",
args: args{portsStr: "854038"},
want: nil,
wantErr: true,
},
{
name: "wrong port",
args: args{portsStr: "85a38"},
want: nil,
wantErr: true,
},
{
name: "wrong port in first",
args: args{portsStr: "a-80"},
want: nil,
wantErr: true,
},
{
name: "wrong port in last",
args: args{portsStr: "80-85a38"},
want: nil,
wantErr: true,
},
{
name: "wrong port format",
args: args{portsStr: "80-85a38-3"},
want: nil,
wantErr: true,
},
}
for _, test := range tests {
t.Run(test.name, func(t *testing.T) {
got, err := expandPorts(test.args.portsStr)
if (err != nil) != test.wantErr {
t.Errorf("expandPorts() error = %v, wantErr %v", err, test.wantErr)
return
}
if !reflect.DeepEqual(got, test.want) {
t.Errorf("expandPorts() = %v, want %v", got, test.want)
}
})
}
}
func Test_listMachinesInNamespace(t *testing.T) {
type args struct {
machines []Machine
namespace string
}
tests := []struct {
name string
args args
want []Machine
}{
{
name: "1 machine in namespace",
args: args{
machines: []Machine{
{Namespace: Namespace{Name: "joe"}},
},
namespace: "joe",
},
want: []Machine{
{Namespace: Namespace{Name: "joe"}},
},
},
{
name: "3 machines, 2 in namespace",
args: args{
machines: []Machine{
{ID: 1, Namespace: Namespace{Name: "joe"}},
{ID: 2, Namespace: Namespace{Name: "marc"}},
{ID: 3, Namespace: Namespace{Name: "marc"}},
},
namespace: "marc",
},
want: []Machine{
{ID: 2, Namespace: Namespace{Name: "marc"}},
{ID: 3, Namespace: Namespace{Name: "marc"}},
},
},
{
name: "5 machines, 0 in namespace",
args: args{
machines: []Machine{
{ID: 1, Namespace: Namespace{Name: "joe"}},
{ID: 2, Namespace: Namespace{Name: "marc"}},
{ID: 3, Namespace: Namespace{Name: "marc"}},
{ID: 4, Namespace: Namespace{Name: "marc"}},
{ID: 5, Namespace: Namespace{Name: "marc"}},
},
namespace: "mickael",
},
want: []Machine{},
},
}
for _, test := range tests {
t.Run(test.name, func(t *testing.T) {
if got := filterMachinesByNamespace(test.args.machines, test.args.namespace); !reflect.DeepEqual(
got,
test.want,
) {
t.Errorf("listMachinesInNamespace() = %v, want %v", got, test.want)
}
})
}
}
// nolint
func Test_expandAlias(t *testing.T) {
type args struct {
machines []Machine
aclPolicy ACLPolicy
alias string
}
tests := []struct {
name string
args args
want []string
wantErr bool
}{
{
name: "wildcard",
args: args{
alias: "*",
machines: []Machine{
{IPAddresses: MachineAddresses{netaddr.MustParseIP("100.64.0.1")}},
{
IPAddresses: MachineAddresses{
netaddr.MustParseIP("100.78.84.227"),
},
},
},
aclPolicy: ACLPolicy{},
},
want: []string{"*"},
wantErr: false,
},
{
name: "simple group",
args: args{
alias: "group:accountant",
machines: []Machine{
{
IPAddresses: MachineAddresses{
netaddr.MustParseIP("100.64.0.1"),
},
Namespace: Namespace{Name: "joe"},
},
{
IPAddresses: MachineAddresses{
netaddr.MustParseIP("100.64.0.2"),
},
Namespace: Namespace{Name: "joe"},
},
{
IPAddresses: MachineAddresses{
netaddr.MustParseIP("100.64.0.3"),
},
Namespace: Namespace{Name: "marc"},
},
{
IPAddresses: MachineAddresses{
netaddr.MustParseIP("100.64.0.4"),
},
Namespace: Namespace{Name: "mickael"},
},
},
aclPolicy: ACLPolicy{
Groups: Groups{"group:accountant": []string{"joe", "marc"}},
},
},
want: []string{"100.64.0.1", "100.64.0.2", "100.64.0.3"},
wantErr: false,
},
{
name: "wrong group",
args: args{
alias: "group:hr",
machines: []Machine{
{
IPAddresses: MachineAddresses{
netaddr.MustParseIP("100.64.0.1"),
},
Namespace: Namespace{Name: "joe"},
},
{
IPAddresses: MachineAddresses{
netaddr.MustParseIP("100.64.0.2"),
},
Namespace: Namespace{Name: "joe"},
},
{
IPAddresses: MachineAddresses{
netaddr.MustParseIP("100.64.0.3"),
},
Namespace: Namespace{Name: "marc"},
},
{
IPAddresses: MachineAddresses{
netaddr.MustParseIP("100.64.0.4"),
},
Namespace: Namespace{Name: "mickael"},
},
},
aclPolicy: ACLPolicy{
Groups: Groups{"group:accountant": []string{"joe", "marc"}},
},
},
want: []string{},
wantErr: true,
},
{
name: "simple ipaddress",
args: args{
alias: "10.0.0.3",
machines: []Machine{},
aclPolicy: ACLPolicy{},
},
want: []string{"10.0.0.3"},
wantErr: false,
},
{
name: "private network",
args: args{
alias: "homeNetwork",
machines: []Machine{},
aclPolicy: ACLPolicy{
Hosts: Hosts{
"homeNetwork": netaddr.MustParseIPPrefix("192.168.1.0/24"),
},
},
},
want: []string{"192.168.1.0/24"},
wantErr: false,
},
{
name: "simple host",
args: args{
alias: "10.0.0.1",
machines: []Machine{},
aclPolicy: ACLPolicy{},
},
want: []string{"10.0.0.1"},
wantErr: false,
},
{
name: "simple CIDR",
args: args{
alias: "10.0.0.0/16",
machines: []Machine{},
aclPolicy: ACLPolicy{},
},
want: []string{"10.0.0.0/16"},
wantErr: false,
},
{
name: "simple tag",
args: args{
alias: "tag:hr-webserver",
machines: []Machine{
{
IPAddresses: MachineAddresses{
netaddr.MustParseIP("100.64.0.1"),
},
Namespace: Namespace{Name: "joe"},
HostInfo: []byte(
"{\"OS\":\"centos\",\"Hostname\":\"foo\",\"RequestTags\":[\"tag:hr-webserver\"]}",
),
},
{
IPAddresses: MachineAddresses{
netaddr.MustParseIP("100.64.0.2"),
},
Namespace: Namespace{Name: "joe"},
HostInfo: []byte(
"{\"OS\":\"centos\",\"Hostname\":\"foo\",\"RequestTags\":[\"tag:hr-webserver\"]}",
),
},
{
IPAddresses: MachineAddresses{
netaddr.MustParseIP("100.64.0.3"),
},
Namespace: Namespace{Name: "marc"},
},
{
IPAddresses: MachineAddresses{
netaddr.MustParseIP("100.64.0.4"),
},
Namespace: Namespace{Name: "joe"},
},
},
aclPolicy: ACLPolicy{
TagOwners: TagOwners{"tag:hr-webserver": []string{"joe"}},
},
},
want: []string{"100.64.0.1", "100.64.0.2"},
wantErr: false,
},
{
name: "No tag defined",
args: args{
alias: "tag:hr-webserver",
machines: []Machine{
{
IPAddresses: MachineAddresses{
netaddr.MustParseIP("100.64.0.1"),
},
Namespace: Namespace{Name: "joe"},
},
{
IPAddresses: MachineAddresses{
netaddr.MustParseIP("100.64.0.2"),
},
Namespace: Namespace{Name: "joe"},
},
{
IPAddresses: MachineAddresses{
netaddr.MustParseIP("100.64.0.3"),
},
Namespace: Namespace{Name: "marc"},
},
{
IPAddresses: MachineAddresses{
netaddr.MustParseIP("100.64.0.4"),
},
Namespace: Namespace{Name: "mickael"},
},
},
aclPolicy: ACLPolicy{
Groups: Groups{"group:accountant": []string{"joe", "marc"}},
TagOwners: TagOwners{
"tag:accountant-webserver": []string{"group:accountant"},
},
},
},
want: []string{},
wantErr: true,
},
{
name: "list host in namespace without correctly tagged servers",
args: args{
alias: "joe",
machines: []Machine{
{
IPAddresses: MachineAddresses{
netaddr.MustParseIP("100.64.0.1"),
},
Namespace: Namespace{Name: "joe"},
HostInfo: []byte(
"{\"OS\":\"centos\",\"Hostname\":\"foo\",\"RequestTags\":[\"tag:accountant-webserver\"]}",
),
},
{
IPAddresses: MachineAddresses{
netaddr.MustParseIP("100.64.0.2"),
},
Namespace: Namespace{Name: "joe"},
HostInfo: []byte(
"{\"OS\":\"centos\",\"Hostname\":\"foo\",\"RequestTags\":[\"tag:accountant-webserver\"]}",
),
},
{
IPAddresses: MachineAddresses{
netaddr.MustParseIP("100.64.0.3"),
},
Namespace: Namespace{Name: "marc"},
},
{
IPAddresses: MachineAddresses{
netaddr.MustParseIP("100.64.0.4"),
},
Namespace: Namespace{Name: "joe"},
},
},
aclPolicy: ACLPolicy{
TagOwners: TagOwners{"tag:accountant-webserver": []string{"joe"}},
},
},
want: []string{"100.64.0.4"},
wantErr: false,
},
}
for _, test := range tests {
t.Run(test.name, func(t *testing.T) {
got, err := expandAlias(
test.args.machines,
test.args.aclPolicy,
test.args.alias,
)
if (err != nil) != test.wantErr {
t.Errorf("expandAlias() error = %v, wantErr %v", err, test.wantErr)
return
}
if !reflect.DeepEqual(got, test.want) {
t.Errorf("expandAlias() = %v, want %v", got, test.want)
}
})
}
}
func Test_excludeCorrectlyTaggedNodes(t *testing.T) {
type args struct {
aclPolicy ACLPolicy
nodes []Machine
namespace string
}
tests := []struct {
name string
args args
want []Machine
wantErr bool
}{
{
name: "exclude nodes with valid tags",
args: args{
aclPolicy: ACLPolicy{
TagOwners: TagOwners{"tag:accountant-webserver": []string{"joe"}},
},
nodes: []Machine{
{
IPAddresses: MachineAddresses{
netaddr.MustParseIP("100.64.0.1"),
},
Namespace: Namespace{Name: "joe"},
HostInfo: []byte(
"{\"OS\":\"centos\",\"Hostname\":\"foo\",\"RequestTags\":[\"tag:accountant-webserver\"]}",
),
},
{
IPAddresses: MachineAddresses{
netaddr.MustParseIP("100.64.0.2"),
},
Namespace: Namespace{Name: "joe"},
HostInfo: []byte(
"{\"OS\":\"centos\",\"Hostname\":\"foo\",\"RequestTags\":[\"tag:accountant-webserver\"]}",
),
},
{
IPAddresses: MachineAddresses{
netaddr.MustParseIP("100.64.0.4"),
},
Namespace: Namespace{Name: "joe"},
},
},
namespace: "joe",
},
want: []Machine{
{
IPAddresses: MachineAddresses{netaddr.MustParseIP("100.64.0.4")},
Namespace: Namespace{Name: "joe"},
},
},
wantErr: false,
},
{
name: "all nodes have invalid tags, don't exclude them",
args: args{
aclPolicy: ACLPolicy{
TagOwners: TagOwners{"tag:accountant-webserver": []string{"joe"}},
},
nodes: []Machine{
{
IPAddresses: MachineAddresses{
netaddr.MustParseIP("100.64.0.1"),
},
Namespace: Namespace{Name: "joe"},
HostInfo: []byte(
"{\"OS\":\"centos\",\"Hostname\":\"hr-web1\",\"RequestTags\":[\"tag:hr-webserver\"]}",
),
},
{
IPAddresses: MachineAddresses{
netaddr.MustParseIP("100.64.0.2"),
},
Namespace: Namespace{Name: "joe"},
HostInfo: []byte(
"{\"OS\":\"centos\",\"Hostname\":\"hr-web2\",\"RequestTags\":[\"tag:hr-webserver\"]}",
),
},
{
IPAddresses: MachineAddresses{
netaddr.MustParseIP("100.64.0.4"),
},
Namespace: Namespace{Name: "joe"},
},
},
namespace: "joe",
},
want: []Machine{
{
IPAddresses: MachineAddresses{
netaddr.MustParseIP("100.64.0.1"),
},
Namespace: Namespace{Name: "joe"},
HostInfo: []byte(
"{\"OS\":\"centos\",\"Hostname\":\"hr-web1\",\"RequestTags\":[\"tag:hr-webserver\"]}",
),
},
{
IPAddresses: MachineAddresses{
netaddr.MustParseIP("100.64.0.2"),
},
Namespace: Namespace{Name: "joe"},
HostInfo: []byte(
"{\"OS\":\"centos\",\"Hostname\":\"hr-web2\",\"RequestTags\":[\"tag:hr-webserver\"]}",
),
},
{
IPAddresses: MachineAddresses{
netaddr.MustParseIP("100.64.0.4"),
},
Namespace: Namespace{Name: "joe"},
},
},
wantErr: false,
},
}
for _, test := range tests {
t.Run(test.name, func(t *testing.T) {
got, err := excludeCorrectlyTaggedNodes(
test.args.aclPolicy,
test.args.nodes,
test.args.namespace,
)
if (err != nil) != test.wantErr {
t.Errorf(
"excludeCorrectlyTaggedNodes() error = %v, wantErr %v",
err,
test.wantErr,
)
return
}
if !reflect.DeepEqual(got, test.want) {
t.Errorf("excludeCorrectlyTaggedNodes() = %v, want %v", got, test.want)
}
})
}
}

22
api.go
View File

@ -261,7 +261,16 @@ func (h *Headscale) getMapResponse(
var respBody []byte
if req.Compress == "zstd" {
src, _ := json.Marshal(resp)
src, err := json.Marshal(resp)
if err != nil {
log.Error().
Caller().
Str("func", "getMapResponse").
Err(err).
Msg("Failed to marshal response for the client")
return nil, err
}
encoder, _ := zstd.NewWriter(nil)
srcCompressed := encoder.EncodeAll(src, nil)
@ -290,7 +299,16 @@ func (h *Headscale) getMapKeepAliveResponse(
var respBody []byte
var err error
if mapRequest.Compress == "zstd" {
src, _ := json.Marshal(mapResponse)
src, err := json.Marshal(mapResponse)
if err != nil {
log.Error().
Caller().
Str("func", "getMapKeepAliveResponse").
Err(err).
Msg("Failed to marshal keepalive response for the client")
return nil, err
}
encoder, _ := zstd.NewWriter(nil)
srcCompressed := encoder.EncodeAll(src, nil)
respBody = h.privateKey.SealTo(machineKey, srcCompressed)

20
dns.go
View File

@ -163,7 +163,15 @@ func getMapResponseDNSConfig(
dnsConfig = dnsConfigOrig.Clone()
dnsConfig.Domains = append(
dnsConfig.Domains,
fmt.Sprintf("%s.%s", machine.Namespace.Name, baseDomain),
fmt.Sprintf(
"%s.%s",
strings.ReplaceAll(
machine.Namespace.Name,
"@",
".",
), // Replace @ with . for valid domain for machine
baseDomain,
),
)
namespaceSet := set.New(set.ThreadSafe)
@ -171,8 +179,14 @@ func getMapResponseDNSConfig(
for _, p := range peers {
namespaceSet.Add(p.Namespace)
}
for _, namespace := range namespaceSet.List() {
dnsRoute := fmt.Sprintf("%s.%s", namespace.(Namespace).Name, baseDomain)
for _, ns := range namespaceSet.List() {
namespace, ok := ns.(Namespace)
if !ok {
dnsConfig = dnsConfigOrig
continue
}
dnsRoute := fmt.Sprintf("%v.%v", namespace.Name, baseDomain)
dnsConfig.Routes[dnsRoute] = nil
}
} else {

View File

@ -39,6 +39,14 @@ use namespaces (which are the equivalent to user/logins in Tailscale.com).
Please check https://tailscale.com/kb/1018/acls/, and `./tests/acls/` in this repo for working examples.
When using ACL's the Namespace borders are no longer applied. All machines
whichever the Namespace have the ability to communicate with other hosts as
long as the ACL's permits this exchange.
The [ACLs](acls.md) document should help understand a fictional case of setting
up ACLs in a small company. All concepts presented in this document could be
applied outside of business oriented usage.
### Apple devices
An endpoint with information on how to connect your Apple devices (currently macOS only) is available at `/apple` on your running instance.

141
docs/acls.md Normal file
View File

@ -0,0 +1,141 @@
# ACLs use case example
Let's build an example use case for a small business (It may be the place where
ACL's are the most useful).
We have a small company with a boss, an admin, two developers and an intern.
The boss should have access to all servers but not to the users hosts. Admin
should also have access to all hosts except that their permissions should be
limited to maintaining the hosts (for example purposes). The developers can do
anything they want on dev hosts, but only watch on productions hosts. Intern
can only interact with the development servers.
Each user have at least a device connected to the network and we have some
servers.
- database.prod
- database.dev
- app-server1.prod
- app-server1.dev
- billing.internal
## Setup of the network
Let's create the namespaces. Each user should have his own namespace. The users
here are represented as namespaces.
```bash
headscale namespaces create boss
headscale namespaces create admin1
headscale namespaces create dev1
headscale namespaces create dev2
headscale namespaces create intern1
```
We don't need to create namespaces for the servers because the servers will be
tagged. When registering the servers we will need to add the flag
`--advertised-tags=tag:<tag1>,tag:<tag2>`, and the user (namespace) that is
registering the server should be allowed to do it. Since anyone can add tags to
a server they can register, the check of the tags is done on headscale server
and only valid tags are applied. A tag is valid if the namespace that is
registering it is allowed to do it.
Here are the ACL's to implement the same permissions as above:
```json
{
// groups are collections of users having a common scope. A user can be in multiple groups
// groups cannot be composed of groups
"groups": {
"group:boss": ["boss"],
"group:dev": ["dev1", "dev2"],
"group:admin": ["admin1"],
"group:intern": ["intern1"]
},
// tagOwners in tailscale is an association between a TAG and the people allowed to set this TAG on a server.
// This is documented [here](https://tailscale.com/kb/1068/acl-tags#defining-a-tag)
// and explained [here](https://tailscale.com/blog/rbac-like-it-was-meant-to-be/)
"tagOwners": {
// the administrators can add servers in production
"tag:prod-databases": ["group:admin"],
"tag:prod-app-servers": ["group:admin"],
// the boss can tag any server as internal
"tag:internal": ["group:boss"],
// dev can add servers for dev purposes as well as admins
"tag:dev-databases": ["group:admin", "group:dev"],
"tag:dev-app-servers": ["group:admin", "group:dev"]
// interns cannot add servers
},
"acls": [
// boss have access to all servers
{
"action": "accept",
"users": ["group:boss"],
"ports": [
"tag:prod-databases:*",
"tag:prod-app-servers:*",
"tag:internal:*",
"tag:dev-databases:*",
"tag:dev-app-servers:*"
]
},
// admin have only access to administrative ports of the servers
{
"action": "accept",
"users": ["group:admin"],
"ports": [
"tag:prod-databases:22",
"tag:prod-app-servers:22",
"tag:internal:22",
"tag:dev-databases:22",
"tag:dev-app-servers:22"
]
},
// developers have access to databases servers and application servers on all ports
// they can only view the applications servers in prod and have no access to databases servers in production
{
"action": "accept",
"users": ["group:dev"],
"ports": [
"tag:dev-databases:*",
"tag:dev-app-servers:*",
"tag:prod-app-servers:80,443"
]
},
// servers should be able to talk to database. Database should not be able to initiate connections to
// applications servers
{
"action": "accept",
"users": ["tag:dev-app-servers"],
"ports": ["tag:dev-databases:5432"]
},
{
"action": "accept",
"users": ["tag:prod-app-servers"],
"ports": ["tag:prod-databases:5432"]
},
// interns have access to dev-app-servers only in reading mode
{
"action": "accept",
"users": ["group:intern"],
"ports": ["tag:dev-app-servers:80,443"]
},
// We still have to allow internal namespaces communications since nothing guarantees that each user have
// their own namespaces.
{ "action": "accept", "users": ["boss"], "ports": ["boss:*"] },
{ "action": "accept", "users": ["dev1"], "ports": ["dev1:*"] },
{ "action": "accept", "users": ["dev2"], "ports": ["dev2:*"] },
{ "action": "accept", "users": ["admin1"], "ports": ["admin1:*"] },
{ "action": "accept", "users": ["intern1"], "ports": ["intern1:*"] }
]
}
```

View File

@ -119,6 +119,118 @@ func (machine Machine) isExpired() bool {
return time.Now().UTC().After(*machine.Expiry)
}
func (h *Headscale) ListAllMachines() ([]Machine, error) {
machines := []Machine{}
if err := h.db.Preload("AuthKey").
Preload("AuthKey.Namespace").
Preload("Namespace").
Where("registered").
Find(&machines).Error; err != nil {
return nil, err
}
return machines, nil
}
func containsAddresses(inputs []string, addrs []string) bool {
for _, addr := range addrs {
if containsString(inputs, addr) {
return true
}
}
return false
}
// matchSourceAndDestinationWithRule.
func matchSourceAndDestinationWithRule(
ruleSources []string,
ruleDestinations []string,
source []string,
destination []string,
) bool {
return containsAddresses(ruleSources, source) &&
containsAddresses(ruleDestinations, destination)
}
// getFilteredByACLPeerss should return the list of peers authorized to be accessed from machine.
func getFilteredByACLPeers(
machines []Machine,
rules []tailcfg.FilterRule,
machine *Machine,
) Machines {
log.Trace().
Caller().
Str("machine", machine.Name).
Msg("Finding peers filtered by ACLs")
peers := make(map[uint64]Machine)
// Aclfilter peers here. We are itering through machines in all namespaces and search through the computed aclRules
// for match between rule SrcIPs and DstPorts. If the rule is a match we allow the machine to be viewable.
// FIXME: On official control plane if a rule allow user A to talk to user B but NO rule allows user B to talk to
// user A. The behaviour is the following
//
// On official tailscale control plane:
// on first `tailscale status`` on node A we can see node B. The `tailscale status` command on node B doesn't show node A
// We can successfully establish a communication from A to B. When it's done, if we run the `tailscale status` command
// on node B again we can now see node A. It's not possible to establish a communication from node B to node A.
// On this implementation of the feature
// on any `tailscale status` command on node A we can see node B. The `tailscale status` command on node B DOES show A.
//
// I couldn't find a way to not clutter the output of `tailscale status` with all nodes that we could be talking to.
// In order to do this we would need to be able to identify that node A want to talk to node B but that Node B doesn't know
// how to talk to node A and then add the peering resource.
for _, peer := range machines {
if peer.ID == machine.ID {
continue
}
for _, rule := range rules {
var dst []string
for _, d := range rule.DstPorts {
dst = append(dst, d.IP)
}
if matchSourceAndDestinationWithRule(
rule.SrcIPs,
dst,
machine.IPAddresses.ToStringSlice(),
peer.IPAddresses.ToStringSlice(),
) || // match source and destination
matchSourceAndDestinationWithRule(
rule.SrcIPs,
dst,
machine.IPAddresses.ToStringSlice(),
[]string{"*"},
) || // match source and all destination
matchSourceAndDestinationWithRule(
rule.SrcIPs,
dst,
peer.IPAddresses.ToStringSlice(),
machine.IPAddresses.ToStringSlice(),
) { // match return path
peers[peer.ID] = peer
}
}
}
authorizedPeers := make([]Machine, 0, len(peers))
for _, m := range peers {
authorizedPeers = append(authorizedPeers, m)
}
sort.Slice(
authorizedPeers,
func(i, j int) bool { return authorizedPeers[i].ID < authorizedPeers[j].ID },
)
log.Trace().
Caller().
Str("machine", machine.Name).
Msgf("Found some machines: %v", machines)
return authorizedPeers
}
func (h *Headscale) getDirectPeers(machine *Machine) (Machines, error) {
log.Trace().
Caller().
@ -206,6 +318,21 @@ func (h *Headscale) getSharedTo(machine *Machine) (Machines, error) {
}
func (h *Headscale) getPeers(machine *Machine) (Machines, error) {
var peers Machines
var err error
// If ACLs rules are defined, filter visible host list with the ACLs
// else use the classic namespace scope
if h.aclPolicy != nil {
var machines []Machine
machines, err = h.ListAllMachines()
if err != nil {
log.Error().Err(err).Msg("Error retrieving list of machines")
return Machines{}, err
}
peers = getFilteredByACLPeers(machines, h.aclRules, machine)
} else {
direct, err := h.getDirectPeers(machine)
if err != nil {
log.Error().
@ -235,9 +362,9 @@ func (h *Headscale) getPeers(machine *Machine) (Machines, error) {
return Machines{}, err
}
peers := append(direct, shared...)
peers = append(direct, shared...)
peers = append(peers, sharedTo...)
}
sort.Slice(peers, func(i, j int) bool { return peers[i].ID < peers[j].ID })
@ -597,7 +724,11 @@ func (machine Machine) toNode(
hostname = fmt.Sprintf(
"%s.%s.%s",
machine.Name,
strings.ReplaceAll(
machine.Namespace.Name,
"@",
".",
), // Replace @ with . for valid domain for machine
baseDomain,
)
} else {

View File

@ -1,11 +1,15 @@
package headscale
import (
"fmt"
"reflect"
"strconv"
"testing"
"time"
"gopkg.in/check.v1"
"inet.af/netaddr"
"tailscale.com/tailcfg"
)
func (s *Suite) TestGetMachine(c *check.C) {
@ -154,6 +158,89 @@ func (s *Suite) TestGetDirectPeers(c *check.C) {
c.Assert(peersOfMachine0[8].Name, check.Equals, "testmachine10")
}
func (s *Suite) TestGetACLFilteredPeers(c *check.C) {
type base struct {
namespace *Namespace
key *PreAuthKey
}
stor := make([]base, 0)
for _, name := range []string{"test", "admin"} {
namespace, err := app.CreateNamespace(name)
c.Assert(err, check.IsNil)
pak, err := app.CreatePreAuthKey(namespace.Name, false, false, nil)
c.Assert(err, check.IsNil)
stor = append(stor, base{namespace, pak})
}
_, err := app.GetMachineByID(0)
c.Assert(err, check.NotNil)
for index := 0; index <= 10; index++ {
machine := Machine{
ID: uint64(index),
MachineKey: "foo" + strconv.Itoa(index),
NodeKey: "bar" + strconv.Itoa(index),
DiscoKey: "faa" + strconv.Itoa(index),
IPAddresses: MachineAddresses{
netaddr.MustParseIP(fmt.Sprintf("100.64.0.%v", strconv.Itoa(index+1))),
},
Name: "testmachine" + strconv.Itoa(index),
NamespaceID: stor[index%2].namespace.ID,
Registered: true,
RegisterMethod: RegisterMethodAuthKey,
AuthKeyID: uint(stor[index%2].key.ID),
}
app.db.Save(&machine)
}
app.aclPolicy = &ACLPolicy{
Groups: map[string][]string{
"group:test": {"admin"},
},
Hosts: map[string]netaddr.IPPrefix{},
TagOwners: map[string][]string{},
ACLs: []ACL{
{Action: "accept", Users: []string{"admin"}, Ports: []string{"*:*"}},
{Action: "accept", Users: []string{"test"}, Ports: []string{"test:*"}},
},
Tests: []ACLTest{},
}
err = app.UpdateACLRules()
c.Assert(err, check.IsNil)
adminMachine, err := app.GetMachineByID(1)
c.Logf("Machine(%v), namespace: %v", adminMachine.Name, adminMachine.Namespace)
c.Assert(err, check.IsNil)
testMachine, err := app.GetMachineByID(2)
c.Logf("Machine(%v), namespace: %v", testMachine.Name, testMachine.Namespace)
c.Assert(err, check.IsNil)
_, err = testMachine.GetHostInfo()
c.Assert(err, check.IsNil)
machines, err := app.ListAllMachines()
c.Assert(err, check.IsNil)
peersOfTestMachine := getFilteredByACLPeers(machines, app.aclRules, testMachine)
peersOfAdminMachine := getFilteredByACLPeers(machines, app.aclRules, adminMachine)
c.Log(peersOfTestMachine)
c.Assert(len(peersOfTestMachine), check.Equals, 4)
c.Assert(peersOfTestMachine[0].Name, check.Equals, "testmachine4")
c.Assert(peersOfTestMachine[1].Name, check.Equals, "testmachine6")
c.Assert(peersOfTestMachine[3].Name, check.Equals, "testmachine10")
c.Log(peersOfAdminMachine)
c.Assert(len(peersOfAdminMachine), check.Equals, 9)
c.Assert(peersOfAdminMachine[0].Name, check.Equals, "testmachine2")
c.Assert(peersOfAdminMachine[2].Name, check.Equals, "testmachine4")
c.Assert(peersOfAdminMachine[5].Name, check.Equals, "testmachine7")
}
func (s *Suite) TestExpireMachine(c *check.C) {
namespace, err := app.CreateNamespace("test")
c.Assert(err, check.IsNil)
@ -208,3 +295,178 @@ func (s *Suite) TestSerdeAddressStrignSlice(c *check.C) {
c.Assert(deserialized[i], check.Equals, input[i])
}
}
func Test_getFilteredByACLPeers(t *testing.T) {
type args struct {
machines []Machine
rules []tailcfg.FilterRule
machine *Machine
}
tests := []struct {
name string
args args
want Machines
}{
{
name: "all hosts can talk to each other",
args: args{
machines: []Machine{ // list of all machines in the database
{
ID: 1,
IPAddresses: MachineAddresses{
netaddr.MustParseIP("100.64.0.1"),
},
Namespace: Namespace{Name: "joe"},
},
{
ID: 2,
IPAddresses: MachineAddresses{
netaddr.MustParseIP("100.64.0.2"),
},
Namespace: Namespace{Name: "marc"},
},
{
ID: 3,
IPAddresses: MachineAddresses{
netaddr.MustParseIP("100.64.0.3"),
},
Namespace: Namespace{Name: "mickael"},
},
},
rules: []tailcfg.FilterRule{ // list of all ACLRules registered
{
SrcIPs: []string{"100.64.0.1", "100.64.0.2", "100.64.0.3"},
DstPorts: []tailcfg.NetPortRange{
{IP: "*"},
},
},
},
machine: &Machine{ // current machine
ID: 1,
IPAddresses: MachineAddresses{netaddr.MustParseIP("100.64.0.1")},
Namespace: Namespace{Name: "joe"},
},
},
want: Machines{
{
ID: 2,
IPAddresses: MachineAddresses{netaddr.MustParseIP("100.64.0.2")},
Namespace: Namespace{Name: "marc"},
},
{
ID: 3,
IPAddresses: MachineAddresses{netaddr.MustParseIP("100.64.0.3")},
Namespace: Namespace{Name: "mickael"},
},
},
},
{
name: "One host can talk to another, but not all hosts",
args: args{
machines: []Machine{ // list of all machines in the database
{
ID: 1,
IPAddresses: MachineAddresses{
netaddr.MustParseIP("100.64.0.1"),
},
Namespace: Namespace{Name: "joe"},
},
{
ID: 2,
IPAddresses: MachineAddresses{
netaddr.MustParseIP("100.64.0.2"),
},
Namespace: Namespace{Name: "marc"},
},
{
ID: 3,
IPAddresses: MachineAddresses{
netaddr.MustParseIP("100.64.0.3"),
},
Namespace: Namespace{Name: "mickael"},
},
},
rules: []tailcfg.FilterRule{ // list of all ACLRules registered
{
SrcIPs: []string{"100.64.0.1", "100.64.0.2", "100.64.0.3"},
DstPorts: []tailcfg.NetPortRange{
{IP: "100.64.0.2"},
},
},
},
machine: &Machine{ // current machine
ID: 1,
IPAddresses: MachineAddresses{netaddr.MustParseIP("100.64.0.1")},
Namespace: Namespace{Name: "joe"},
},
},
want: Machines{
{
ID: 2,
IPAddresses: MachineAddresses{netaddr.MustParseIP("100.64.0.2")},
Namespace: Namespace{Name: "marc"},
},
},
},
{
name: "host cannot directly talk to destination, but return path is authorized",
args: args{
machines: []Machine{ // list of all machines in the database
{
ID: 1,
IPAddresses: MachineAddresses{
netaddr.MustParseIP("100.64.0.1"),
},
Namespace: Namespace{Name: "joe"},
},
{
ID: 2,
IPAddresses: MachineAddresses{
netaddr.MustParseIP("100.64.0.2"),
},
Namespace: Namespace{Name: "marc"},
},
{
ID: 3,
IPAddresses: MachineAddresses{
netaddr.MustParseIP("100.64.0.3"),
},
Namespace: Namespace{Name: "mickael"},
},
},
rules: []tailcfg.FilterRule{ // list of all ACLRules registered
{
SrcIPs: []string{"100.64.0.3"},
DstPorts: []tailcfg.NetPortRange{
{IP: "100.64.0.2"},
},
},
},
machine: &Machine{ // current machine
ID: 1,
IPAddresses: MachineAddresses{netaddr.MustParseIP("100.64.0.2")},
Namespace: Namespace{Name: "marc"},
},
},
want: Machines{
{
ID: 3,
IPAddresses: MachineAddresses{netaddr.MustParseIP("100.64.0.3")},
Namespace: Namespace{Name: "mickael"},
},
},
},
}
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
got := getFilteredByACLPeers(
tt.args.machines,
tt.args.rules,
tt.args.machine,
)
if !reflect.DeepEqual(got, tt.want) {
t.Errorf("getFilteredByACLPeers() = %v, want %v", got, tt.want)
}
})
}
}

28
poll.go
View File

@ -85,12 +85,26 @@ func (h *Headscale) PollNetMapHandler(ctx *gin.Context) {
Str("machine", machine.Name).
Msg("Found machine in database")
hostinfo, _ := json.Marshal(req.Hostinfo)
hostinfo, err := json.Marshal(req.Hostinfo)
if err != nil {
return
}
machine.Name = req.Hostinfo.Hostname
machine.HostInfo = datatypes.JSON(hostinfo)
machine.DiscoKey = DiscoPublicKeyStripPrefix(req.DiscoKey)
now := time.Now().UTC()
// update ACLRules with peer informations (to update server tags if necessary)
if h.aclPolicy != nil {
err = h.UpdateACLRules()
if err != nil {
log.Error().
Caller().
Str("func", "handleAuthKey").
Str("machine", machine.Name).
Err(err)
}
}
// From Tailscale client:
//
// ReadOnly is whether the client just wants to fetch the MapResponse,
@ -100,7 +114,17 @@ func (h *Headscale) PollNetMapHandler(ctx *gin.Context) {
// The intended use is for clients to discover the DERP map at start-up
// before their first real endpoint update.
if !req.ReadOnly {
endpoints, _ := json.Marshal(req.Endpoints)
endpoints, err := json.Marshal(req.Endpoints)
if err != nil {
log.Error().
Caller().
Str("func", "PollNetMapHandler").
Err(err).
Msg("Failed to mashal requested endpoints for the client")
ctx.String(http.StatusInternalServerError, ":(")
return
}
machine.Endpoints = datatypes.JSON(endpoints)
machine.LastSeen = &now
}

View File

@ -212,6 +212,16 @@ func (h *Headscale) getUsedIPs() ([]netaddr.IP, error) {
return ips, nil
}
func containsString(ss []string, s string) bool {
for _, v := range ss {
if v == s {
return true
}
}
return false
}
func containsIPs(ips []netaddr.IP, ip netaddr.IP) bool {
for _, v := range ips {
if v == ip {