headscale/integration_cli_test.go
2022-03-20 12:31:18 +01:00

1224 lines
28 KiB
Go

//go:build integration
// +build integration
package headscale
import (
"encoding/json"
"fmt"
"log"
"net/http"
"os"
"testing"
"time"
v1 "github.com/juanfont/headscale/gen/go/headscale/v1"
"github.com/ory/dockertest/v3"
"github.com/stretchr/testify/assert"
"github.com/stretchr/testify/suite"
)
type IntegrationCLITestSuite struct {
suite.Suite
stats *suite.SuiteInformation
pool dockertest.Pool
network dockertest.Network
headscale dockertest.Resource
env []string
}
func TestCLIIntegrationTestSuite(t *testing.T) {
s := new(IntegrationCLITestSuite)
suite.Run(t, s)
}
func (s *IntegrationCLITestSuite) SetupTest() {
var err error
if ppool, err := dockertest.NewPool(""); err == nil {
s.pool = *ppool
} else {
log.Fatalf("Could not connect to docker: %s", err)
}
if pnetwork, err := s.pool.CreateNetwork("headscale-test"); err == nil {
s.network = *pnetwork
} else {
log.Fatalf("Could not create network: %s", err)
}
headscaleBuildOptions := &dockertest.BuildOptions{
Dockerfile: "Dockerfile",
ContextDir: ".",
}
currentPath, err := os.Getwd()
if err != nil {
log.Fatalf("Could not determine current path: %s", err)
}
headscaleOptions := &dockertest.RunOptions{
Name: "headscale",
Mounts: []string{
fmt.Sprintf("%s/integration_test/etc:/etc/headscale", currentPath),
},
Networks: []*dockertest.Network{&s.network},
Cmd: []string{"headscale", "serve"},
}
fmt.Println("Creating headscale container")
if pheadscale, err := s.pool.BuildAndRunWithBuildOptions(headscaleBuildOptions, headscaleOptions, DockerRestartPolicy); err == nil {
s.headscale = *pheadscale
} else {
log.Fatalf("Could not start headscale container: %s", err)
}
fmt.Println("Created headscale container")
fmt.Println("Waiting for headscale to be ready")
hostEndpoint := fmt.Sprintf("localhost:%s", s.headscale.GetPort("8080/tcp"))
if err := s.pool.Retry(func() error {
url := fmt.Sprintf("http://%s/health", hostEndpoint)
resp, err := http.Get(url)
if err != nil {
return err
}
if resp.StatusCode != http.StatusOK {
return fmt.Errorf("status code not OK")
}
return nil
}); err != nil {
// TODO(kradalby): If we cannot access headscale, or any other fatal error during
// test setup, we need to abort and tear down. However, testify does not seem to
// support that at the moment:
// https://github.com/stretchr/testify/issues/849
return // fmt.Errorf("Could not connect to headscale: %s", err)
}
fmt.Println("headscale container is ready")
}
func (s *IntegrationCLITestSuite) TearDownTest() {
if err := s.pool.Purge(&s.headscale); err != nil {
log.Printf("Could not purge resource: %s\n", err)
}
if err := s.network.Close(); err != nil {
log.Printf("Could not close network: %s\n", err)
}
}
func (s *IntegrationCLITestSuite) HandleStats(
suiteName string,
stats *suite.SuiteInformation,
) {
s.stats = stats
}
func (s *IntegrationCLITestSuite) createNamespace(name string) (*v1.Namespace, error) {
result, err := ExecuteCommand(
&s.headscale,
[]string{
"headscale",
"namespaces",
"create",
name,
"--output",
"json",
},
[]string{},
)
if err != nil {
return nil, err
}
var namespace v1.Namespace
err = json.Unmarshal([]byte(result), &namespace)
if err != nil {
return nil, err
}
return &namespace, nil
}
func (s *IntegrationCLITestSuite) TestNamespaceCommand() {
names := []string{"namespace1", "otherspace", "tasty"}
namespaces := make([]*v1.Namespace, len(names))
for index, namespaceName := range names {
namespace, err := s.createNamespace(namespaceName)
assert.Nil(s.T(), err)
namespaces[index] = namespace
}
assert.Len(s.T(), namespaces, len(names))
assert.Equal(s.T(), names[0], namespaces[0].Name)
assert.Equal(s.T(), names[1], namespaces[1].Name)
assert.Equal(s.T(), names[2], namespaces[2].Name)
// Test list namespaces
listResult, err := ExecuteCommand(
&s.headscale,
[]string{
"headscale",
"namespaces",
"list",
"--output",
"json",
},
[]string{},
)
assert.Nil(s.T(), err)
var listedNamespaces []v1.Namespace
err = json.Unmarshal([]byte(listResult), &listedNamespaces)
assert.Nil(s.T(), err)
assert.Equal(s.T(), names[0], listedNamespaces[0].Name)
assert.Equal(s.T(), names[1], listedNamespaces[1].Name)
assert.Equal(s.T(), names[2], listedNamespaces[2].Name)
// Test rename namespace
renameResult, err := ExecuteCommand(
&s.headscale,
[]string{
"headscale",
"namespaces",
"rename",
"--output",
"json",
"tasty",
"newname",
},
[]string{},
)
assert.Nil(s.T(), err)
var renamedNamespace v1.Namespace
err = json.Unmarshal([]byte(renameResult), &renamedNamespace)
assert.Nil(s.T(), err)
assert.Equal(s.T(), renamedNamespace.Name, "newname")
// Test list after rename namespaces
listAfterRenameResult, err := ExecuteCommand(
&s.headscale,
[]string{
"headscale",
"namespaces",
"list",
"--output",
"json",
},
[]string{},
)
assert.Nil(s.T(), err)
var listedAfterRenameNamespaces []v1.Namespace
err = json.Unmarshal([]byte(listAfterRenameResult), &listedAfterRenameNamespaces)
assert.Nil(s.T(), err)
assert.Equal(s.T(), names[0], listedAfterRenameNamespaces[0].Name)
assert.Equal(s.T(), names[1], listedAfterRenameNamespaces[1].Name)
assert.Equal(s.T(), "newname", listedAfterRenameNamespaces[2].Name)
}
func (s *IntegrationCLITestSuite) TestPreAuthKeyCommand() {
count := 5
namespace, err := s.createNamespace("pre-auth-key-namespace")
keys := make([]*v1.PreAuthKey, count)
assert.Nil(s.T(), err)
for i := 0; i < count; i++ {
preAuthResult, err := ExecuteCommand(
&s.headscale,
[]string{
"headscale",
"preauthkeys",
"--namespace",
namespace.Name,
"create",
"--reusable",
"--expiration",
"24h",
"--output",
"json",
},
[]string{},
)
assert.Nil(s.T(), err)
var preAuthKey v1.PreAuthKey
err = json.Unmarshal([]byte(preAuthResult), &preAuthKey)
assert.Nil(s.T(), err)
keys[i] = &preAuthKey
}
assert.Len(s.T(), keys, 5)
// Test list of keys
listResult, err := ExecuteCommand(
&s.headscale,
[]string{
"headscale",
"preauthkeys",
"--namespace",
namespace.Name,
"list",
"--output",
"json",
},
[]string{},
)
assert.Nil(s.T(), err)
var listedPreAuthKeys []v1.PreAuthKey
err = json.Unmarshal([]byte(listResult), &listedPreAuthKeys)
assert.Nil(s.T(), err)
assert.Equal(s.T(), "1", listedPreAuthKeys[0].Id)
assert.Equal(s.T(), "2", listedPreAuthKeys[1].Id)
assert.Equal(s.T(), "3", listedPreAuthKeys[2].Id)
assert.Equal(s.T(), "4", listedPreAuthKeys[3].Id)
assert.Equal(s.T(), "5", listedPreAuthKeys[4].Id)
assert.NotEmpty(s.T(), listedPreAuthKeys[0].Key)
assert.NotEmpty(s.T(), listedPreAuthKeys[1].Key)
assert.NotEmpty(s.T(), listedPreAuthKeys[2].Key)
assert.NotEmpty(s.T(), listedPreAuthKeys[3].Key)
assert.NotEmpty(s.T(), listedPreAuthKeys[4].Key)
assert.True(s.T(), listedPreAuthKeys[0].Expiration.AsTime().After(time.Now()))
assert.True(s.T(), listedPreAuthKeys[1].Expiration.AsTime().After(time.Now()))
assert.True(s.T(), listedPreAuthKeys[2].Expiration.AsTime().After(time.Now()))
assert.True(s.T(), listedPreAuthKeys[3].Expiration.AsTime().After(time.Now()))
assert.True(s.T(), listedPreAuthKeys[4].Expiration.AsTime().After(time.Now()))
assert.True(
s.T(),
listedPreAuthKeys[0].Expiration.AsTime().Before(time.Now().Add(time.Hour*26)),
)
assert.True(
s.T(),
listedPreAuthKeys[1].Expiration.AsTime().Before(time.Now().Add(time.Hour*26)),
)
assert.True(
s.T(),
listedPreAuthKeys[2].Expiration.AsTime().Before(time.Now().Add(time.Hour*26)),
)
assert.True(
s.T(),
listedPreAuthKeys[3].Expiration.AsTime().Before(time.Now().Add(time.Hour*26)),
)
assert.True(
s.T(),
listedPreAuthKeys[4].Expiration.AsTime().Before(time.Now().Add(time.Hour*26)),
)
// Expire three keys
for i := 0; i < 3; i++ {
_, err := ExecuteCommand(
&s.headscale,
[]string{
"headscale",
"preauthkeys",
"--namespace",
namespace.Name,
"expire",
listedPreAuthKeys[i].Key,
},
[]string{},
)
assert.Nil(s.T(), err)
}
// Test list pre auth keys after expire
listAfterExpireResult, err := ExecuteCommand(
&s.headscale,
[]string{
"headscale",
"preauthkeys",
"--namespace",
namespace.Name,
"list",
"--output",
"json",
},
[]string{},
)
assert.Nil(s.T(), err)
var listedAfterExpirePreAuthKeys []v1.PreAuthKey
err = json.Unmarshal([]byte(listAfterExpireResult), &listedAfterExpirePreAuthKeys)
assert.Nil(s.T(), err)
assert.True(
s.T(),
listedAfterExpirePreAuthKeys[0].Expiration.AsTime().Before(time.Now()),
)
assert.True(
s.T(),
listedAfterExpirePreAuthKeys[1].Expiration.AsTime().Before(time.Now()),
)
assert.True(
s.T(),
listedAfterExpirePreAuthKeys[2].Expiration.AsTime().Before(time.Now()),
)
assert.True(
s.T(),
listedAfterExpirePreAuthKeys[3].Expiration.AsTime().After(time.Now()),
)
assert.True(
s.T(),
listedAfterExpirePreAuthKeys[4].Expiration.AsTime().After(time.Now()),
)
}
func (s *IntegrationCLITestSuite) TestPreAuthKeyCommandWithoutExpiry() {
namespace, err := s.createNamespace("pre-auth-key-without-exp-namespace")
assert.Nil(s.T(), err)
preAuthResult, err := ExecuteCommand(
&s.headscale,
[]string{
"headscale",
"preauthkeys",
"--namespace",
namespace.Name,
"create",
"--reusable",
"--output",
"json",
},
[]string{},
)
assert.Nil(s.T(), err)
var preAuthKey v1.PreAuthKey
err = json.Unmarshal([]byte(preAuthResult), &preAuthKey)
assert.Nil(s.T(), err)
// Test list of keys
listResult, err := ExecuteCommand(
&s.headscale,
[]string{
"headscale",
"preauthkeys",
"--namespace",
namespace.Name,
"list",
"--output",
"json",
},
[]string{},
)
assert.Nil(s.T(), err)
var listedPreAuthKeys []v1.PreAuthKey
err = json.Unmarshal([]byte(listResult), &listedPreAuthKeys)
assert.Nil(s.T(), err)
assert.Len(s.T(), listedPreAuthKeys, 1)
assert.True(s.T(), listedPreAuthKeys[0].Expiration.AsTime().After(time.Now()))
assert.True(
s.T(),
listedPreAuthKeys[0].Expiration.AsTime().Before(time.Now().Add(time.Minute*70)),
)
}
func (s *IntegrationCLITestSuite) TestPreAuthKeyCommandReusableEphemeral() {
namespace, err := s.createNamespace("pre-auth-key-reus-ephm-namespace")
assert.Nil(s.T(), err)
preAuthReusableResult, err := ExecuteCommand(
&s.headscale,
[]string{
"headscale",
"preauthkeys",
"--namespace",
namespace.Name,
"create",
"--reusable=true",
"--output",
"json",
},
[]string{},
)
assert.Nil(s.T(), err)
var preAuthReusableKey v1.PreAuthKey
err = json.Unmarshal([]byte(preAuthReusableResult), &preAuthReusableKey)
assert.Nil(s.T(), err)
assert.True(s.T(), preAuthReusableKey.GetReusable())
assert.False(s.T(), preAuthReusableKey.GetEphemeral())
preAuthEphemeralResult, err := ExecuteCommand(
&s.headscale,
[]string{
"headscale",
"preauthkeys",
"--namespace",
namespace.Name,
"create",
"--ephemeral=true",
"--output",
"json",
},
[]string{},
)
assert.Nil(s.T(), err)
var preAuthEphemeralKey v1.PreAuthKey
err = json.Unmarshal([]byte(preAuthEphemeralResult), &preAuthEphemeralKey)
assert.Nil(s.T(), err)
assert.True(s.T(), preAuthEphemeralKey.GetEphemeral())
assert.False(s.T(), preAuthEphemeralKey.GetReusable())
// TODO(kradalby): Evaluate if we need a case to test for reusable and ephemeral
// preAuthReusableAndEphemeralResult, err := ExecuteCommand(
// &s.headscale,
// []string{
// "headscale",
// "preauthkeys",
// "--namespace",
// namespace.Name,
// "create",
// "--ephemeral",
// "--reusable",
// "--output",
// "json",
// },
// []string{},
// )
// assert.NotNil(s.T(), err)
// Test list of keys
listResult, err := ExecuteCommand(
&s.headscale,
[]string{
"headscale",
"preauthkeys",
"--namespace",
namespace.Name,
"list",
"--output",
"json",
},
[]string{},
)
assert.Nil(s.T(), err)
var listedPreAuthKeys []v1.PreAuthKey
err = json.Unmarshal([]byte(listResult), &listedPreAuthKeys)
assert.Nil(s.T(), err)
assert.Len(s.T(), listedPreAuthKeys, 2)
}
func (s *IntegrationCLITestSuite) TestNodeCommand() {
namespace, err := s.createNamespace("machine-namespace")
assert.Nil(s.T(), err)
secondNamespace, err := s.createNamespace("other-namespace")
assert.Nil(s.T(), err)
// Randomly generated machine keys
machineKeys := []string{
"9b2ffa7e08cc421a3d2cca9012280f6a236fd0de0b4ce005b30a98ad930306fe",
"6abd00bb5fdda622db51387088c68e97e71ce58e7056aa54f592b6a8219d524c",
"f08305b4ee4250b95a70f3b7504d048d75d899993c624a26d422c67af0422507",
"8bc13285cee598acf76b1824a6f4490f7f2e3751b201e28aeb3b07fe81d5b4a1",
"cf7b0fd05da556fdc3bab365787b506fd82d64a70745db70e00e86c1b1c03084",
}
machines := make([]*v1.Machine, len(machineKeys))
assert.Nil(s.T(), err)
for index, machineKey := range machineKeys {
_, err := ExecuteCommand(
&s.headscale,
[]string{
"headscale",
"debug",
"create-node",
"--name",
fmt.Sprintf("machine-%d", index+1),
"--namespace",
namespace.Name,
"--key",
machineKey,
"--output",
"json",
},
[]string{},
)
assert.Nil(s.T(), err)
machineResult, err := ExecuteCommand(
&s.headscale,
[]string{
"headscale",
"nodes",
"--namespace",
namespace.Name,
"register",
"--key",
machineKey,
"--output",
"json",
},
[]string{},
)
assert.Nil(s.T(), err)
var machine v1.Machine
err = json.Unmarshal([]byte(machineResult), &machine)
assert.Nil(s.T(), err)
machines[index] = &machine
}
assert.Len(s.T(), machines, len(machineKeys))
// Test list all nodes after added seconds
listAllResult, err := ExecuteCommand(
&s.headscale,
[]string{
"headscale",
"nodes",
"list",
"--output",
"json",
},
[]string{},
)
assert.Nil(s.T(), err)
var listAll []v1.Machine
err = json.Unmarshal([]byte(listAllResult), &listAll)
assert.Nil(s.T(), err)
assert.Len(s.T(), listAll, 5)
assert.Equal(s.T(), uint64(1), listAll[0].Id)
assert.Equal(s.T(), uint64(2), listAll[1].Id)
assert.Equal(s.T(), uint64(3), listAll[2].Id)
assert.Equal(s.T(), uint64(4), listAll[3].Id)
assert.Equal(s.T(), uint64(5), listAll[4].Id)
assert.Equal(s.T(), "machine-1", listAll[0].Name)
assert.Equal(s.T(), "machine-2", listAll[1].Name)
assert.Equal(s.T(), "machine-3", listAll[2].Name)
assert.Equal(s.T(), "machine-4", listAll[3].Name)
assert.Equal(s.T(), "machine-5", listAll[4].Name)
otherNamespaceMachineKeys := []string{
"b5b444774186d4217adcec407563a1223929465ee2c68a4da13af0d0185b4f8e",
"dc721977ac7415aafa87f7d4574cbe07c6b171834a6d37375782bdc1fb6b3584",
}
otherNamespaceMachines := make([]*v1.Machine, len(otherNamespaceMachineKeys))
assert.Nil(s.T(), err)
for index, machineKey := range otherNamespaceMachineKeys {
_, err := ExecuteCommand(
&s.headscale,
[]string{
"headscale",
"debug",
"create-node",
"--name",
fmt.Sprintf("otherNamespace-machine-%d", index+1),
"--namespace",
secondNamespace.Name,
"--key",
machineKey,
"--output",
"json",
},
[]string{},
)
assert.Nil(s.T(), err)
machineResult, err := ExecuteCommand(
&s.headscale,
[]string{
"headscale",
"nodes",
"--namespace",
secondNamespace.Name,
"register",
"--key",
machineKey,
"--output",
"json",
},
[]string{},
)
assert.Nil(s.T(), err)
var machine v1.Machine
err = json.Unmarshal([]byte(machineResult), &machine)
assert.Nil(s.T(), err)
otherNamespaceMachines[index] = &machine
}
assert.Len(s.T(), otherNamespaceMachines, len(otherNamespaceMachineKeys))
// Test list all nodes after added otherNamespace
listAllWithotherNamespaceResult, err := ExecuteCommand(
&s.headscale,
[]string{
"headscale",
"nodes",
"list",
"--output",
"json",
},
[]string{},
)
assert.Nil(s.T(), err)
var listAllWithotherNamespace []v1.Machine
err = json.Unmarshal(
[]byte(listAllWithotherNamespaceResult),
&listAllWithotherNamespace,
)
assert.Nil(s.T(), err)
// All nodes, machines + otherNamespace
assert.Len(s.T(), listAllWithotherNamespace, 7)
assert.Equal(s.T(), uint64(6), listAllWithotherNamespace[5].Id)
assert.Equal(s.T(), uint64(7), listAllWithotherNamespace[6].Id)
assert.Equal(s.T(), "otherNamespace-machine-1", listAllWithotherNamespace[5].Name)
assert.Equal(s.T(), "otherNamespace-machine-2", listAllWithotherNamespace[6].Name)
// Test list all nodes after added otherNamespace
listOnlyotherNamespaceMachineNamespaceResult, err := ExecuteCommand(
&s.headscale,
[]string{
"headscale",
"nodes",
"list",
"--namespace",
secondNamespace.Name,
"--output",
"json",
},
[]string{},
)
assert.Nil(s.T(), err)
var listOnlyotherNamespaceMachineNamespace []v1.Machine
err = json.Unmarshal(
[]byte(listOnlyotherNamespaceMachineNamespaceResult),
&listOnlyotherNamespaceMachineNamespace,
)
assert.Nil(s.T(), err)
assert.Len(s.T(), listOnlyotherNamespaceMachineNamespace, 2)
assert.Equal(s.T(), uint64(6), listOnlyotherNamespaceMachineNamespace[0].Id)
assert.Equal(s.T(), uint64(7), listOnlyotherNamespaceMachineNamespace[1].Id)
assert.Equal(
s.T(),
"otherNamespace-machine-1",
listOnlyotherNamespaceMachineNamespace[0].Name,
)
assert.Equal(
s.T(),
"otherNamespace-machine-2",
listOnlyotherNamespaceMachineNamespace[1].Name,
)
// Delete a machines
_, err = ExecuteCommand(
&s.headscale,
[]string{
"headscale",
"nodes",
"delete",
"--identifier",
// Delete the last added machine
"4",
"--output",
"json",
"--force",
},
[]string{},
)
assert.Nil(s.T(), err)
// Test: list main namespace after machine is deleted
listOnlyMachineNamespaceAfterDeleteResult, err := ExecuteCommand(
&s.headscale,
[]string{
"headscale",
"nodes",
"list",
"--namespace",
namespace.Name,
"--output",
"json",
},
[]string{},
)
assert.Nil(s.T(), err)
var listOnlyMachineNamespaceAfterDelete []v1.Machine
err = json.Unmarshal(
[]byte(listOnlyMachineNamespaceAfterDeleteResult),
&listOnlyMachineNamespaceAfterDelete,
)
assert.Nil(s.T(), err)
assert.Len(s.T(), listOnlyMachineNamespaceAfterDelete, 4)
}
func (s *IntegrationCLITestSuite) TestNodeExpireCommand() {
namespace, err := s.createNamespace("machine-expire-namespace")
assert.Nil(s.T(), err)
// Randomly generated machine keys
machineKeys := []string{
"9b2ffa7e08cc421a3d2cca9012280f6a236fd0de0b4ce005b30a98ad930306fe",
"6abd00bb5fdda622db51387088c68e97e71ce58e7056aa54f592b6a8219d524c",
"f08305b4ee4250b95a70f3b7504d048d75d899993c624a26d422c67af0422507",
"8bc13285cee598acf76b1824a6f4490f7f2e3751b201e28aeb3b07fe81d5b4a1",
"cf7b0fd05da556fdc3bab365787b506fd82d64a70745db70e00e86c1b1c03084",
}
machines := make([]*v1.Machine, len(machineKeys))
assert.Nil(s.T(), err)
for index, machineKey := range machineKeys {
_, err := ExecuteCommand(
&s.headscale,
[]string{
"headscale",
"debug",
"create-node",
"--name",
fmt.Sprintf("machine-%d", index+1),
"--namespace",
namespace.Name,
"--key",
machineKey,
"--output",
"json",
},
[]string{},
)
assert.Nil(s.T(), err)
machineResult, err := ExecuteCommand(
&s.headscale,
[]string{
"headscale",
"nodes",
"--namespace",
namespace.Name,
"register",
"--key",
machineKey,
"--output",
"json",
},
[]string{},
)
assert.Nil(s.T(), err)
var machine v1.Machine
err = json.Unmarshal([]byte(machineResult), &machine)
assert.Nil(s.T(), err)
machines[index] = &machine
}
assert.Len(s.T(), machines, len(machineKeys))
listAllResult, err := ExecuteCommand(
&s.headscale,
[]string{
"headscale",
"nodes",
"list",
"--output",
"json",
},
[]string{},
)
assert.Nil(s.T(), err)
var listAll []v1.Machine
err = json.Unmarshal([]byte(listAllResult), &listAll)
assert.Nil(s.T(), err)
assert.Len(s.T(), listAll, 5)
assert.True(s.T(), listAll[0].Expiry.AsTime().IsZero())
assert.True(s.T(), listAll[1].Expiry.AsTime().IsZero())
assert.True(s.T(), listAll[2].Expiry.AsTime().IsZero())
assert.True(s.T(), listAll[3].Expiry.AsTime().IsZero())
assert.True(s.T(), listAll[4].Expiry.AsTime().IsZero())
for i := 0; i < 3; i++ {
_, err := ExecuteCommand(
&s.headscale,
[]string{
"headscale",
"nodes",
"expire",
"--identifier",
fmt.Sprintf("%d", listAll[i].Id),
},
[]string{},
)
assert.Nil(s.T(), err)
}
listAllAfterExpiryResult, err := ExecuteCommand(
&s.headscale,
[]string{
"headscale",
"nodes",
"list",
"--output",
"json",
},
[]string{},
)
assert.Nil(s.T(), err)
var listAllAfterExpiry []v1.Machine
err = json.Unmarshal([]byte(listAllAfterExpiryResult), &listAllAfterExpiry)
assert.Nil(s.T(), err)
assert.Len(s.T(), listAllAfterExpiry, 5)
assert.True(s.T(), listAllAfterExpiry[0].Expiry.AsTime().Before(time.Now()))
assert.True(s.T(), listAllAfterExpiry[1].Expiry.AsTime().Before(time.Now()))
assert.True(s.T(), listAllAfterExpiry[2].Expiry.AsTime().Before(time.Now()))
assert.True(s.T(), listAllAfterExpiry[3].Expiry.AsTime().IsZero())
assert.True(s.T(), listAllAfterExpiry[4].Expiry.AsTime().IsZero())
}
func (s *IntegrationCLITestSuite) TestRouteCommand() {
namespace, err := s.createNamespace("routes-namespace")
assert.Nil(s.T(), err)
// Randomly generated machine keys
machineKey := "9b2ffa7e08cc421a3d2cca9012280f6a236fd0de0b4ce005b30a98ad930306fe"
_, err = ExecuteCommand(
&s.headscale,
[]string{
"headscale",
"debug",
"create-node",
"--name",
"route-machine",
"--namespace",
namespace.Name,
"--key",
machineKey,
"--route",
"10.0.0.0/8",
"--route",
"192.168.1.0/24",
"--output",
"json",
},
[]string{},
)
assert.Nil(s.T(), err)
machineResult, err := ExecuteCommand(
&s.headscale,
[]string{
"headscale",
"nodes",
"--namespace",
namespace.Name,
"register",
"--key",
machineKey,
"--output",
"json",
},
[]string{},
)
assert.Nil(s.T(), err)
var machine v1.Machine
err = json.Unmarshal([]byte(machineResult), &machine)
assert.Nil(s.T(), err)
assert.Equal(s.T(), uint64(1), machine.Id)
assert.Equal(s.T(), "route-machine", machine.Name)
listAllResult, err := ExecuteCommand(
&s.headscale,
[]string{
"headscale",
"routes",
"list",
"--output",
"json",
"--identifier",
"0",
},
[]string{},
)
assert.Nil(s.T(), err)
var listAll v1.Routes
err = json.Unmarshal([]byte(listAllResult), &listAll)
assert.Nil(s.T(), err)
assert.Len(s.T(), listAll.AdvertisedRoutes, 2)
assert.Contains(s.T(), listAll.AdvertisedRoutes, "10.0.0.0/8")
assert.Contains(s.T(), listAll.AdvertisedRoutes, "192.168.1.0/24")
assert.Empty(s.T(), listAll.EnabledRoutes)
enableTwoRoutesResult, err := ExecuteCommand(
&s.headscale,
[]string{
"headscale",
"routes",
"enable",
"--output",
"json",
"--identifier",
"0",
"--route",
"10.0.0.0/8",
"--route",
"192.168.1.0/24",
},
[]string{},
)
assert.Nil(s.T(), err)
var enableTwoRoutes v1.Routes
err = json.Unmarshal([]byte(enableTwoRoutesResult), &enableTwoRoutes)
assert.Nil(s.T(), err)
assert.Len(s.T(), enableTwoRoutes.AdvertisedRoutes, 2)
assert.Contains(s.T(), enableTwoRoutes.AdvertisedRoutes, "10.0.0.0/8")
assert.Contains(s.T(), enableTwoRoutes.AdvertisedRoutes, "192.168.1.0/24")
assert.Len(s.T(), enableTwoRoutes.EnabledRoutes, 2)
assert.Contains(s.T(), enableTwoRoutes.EnabledRoutes, "10.0.0.0/8")
assert.Contains(s.T(), enableTwoRoutes.EnabledRoutes, "192.168.1.0/24")
// Enable only one route, effectively disabling one of the routes
enableOneRouteResult, err := ExecuteCommand(
&s.headscale,
[]string{
"headscale",
"routes",
"enable",
"--output",
"json",
"--identifier",
"0",
"--route",
"10.0.0.0/8",
},
[]string{},
)
assert.Nil(s.T(), err)
var enableOneRoute v1.Routes
err = json.Unmarshal([]byte(enableOneRouteResult), &enableOneRoute)
assert.Nil(s.T(), err)
assert.Len(s.T(), enableOneRoute.AdvertisedRoutes, 2)
assert.Contains(s.T(), enableOneRoute.AdvertisedRoutes, "10.0.0.0/8")
assert.Contains(s.T(), enableOneRoute.AdvertisedRoutes, "192.168.1.0/24")
assert.Len(s.T(), enableOneRoute.EnabledRoutes, 1)
assert.Contains(s.T(), enableOneRoute.EnabledRoutes, "10.0.0.0/8")
// Enable only one route, effectively disabling one of the routes
failEnableNonAdvertisedRoute, err := ExecuteCommand(
&s.headscale,
[]string{
"headscale",
"routes",
"enable",
"--output",
"json",
"--identifier",
"0",
"--route",
"11.0.0.0/8",
},
[]string{},
)
assert.Nil(s.T(), err)
assert.Contains(
s.T(),
string(failEnableNonAdvertisedRoute),
"route (route-machine) is not available on node",
)
}
func (s *IntegrationCLITestSuite) TestApiKeyCommand() {
count := 5
keys := make([]string, count)
for i := 0; i < count; i++ {
apiResult, err := ExecuteCommand(
&s.headscale,
[]string{
"headscale",
"apikeys",
"create",
"--expiration",
"24h",
"--output",
"json",
},
[]string{},
)
assert.Nil(s.T(), err)
assert.NotEmpty(s.T(), apiResult)
// var apiKey v1.ApiKey
// err = json.Unmarshal([]byte(apiResult), &apiKey)
// assert.Nil(s.T(), err)
keys[i] = apiResult
}
assert.Len(s.T(), keys, 5)
// Test list of keys
listResult, err := ExecuteCommand(
&s.headscale,
[]string{
"headscale",
"apikeys",
"list",
"--output",
"json",
},
[]string{},
)
assert.Nil(s.T(), err)
var listedApiKeys []v1.ApiKey
err = json.Unmarshal([]byte(listResult), &listedApiKeys)
assert.Nil(s.T(), err)
assert.Len(s.T(), listedApiKeys, 5)
assert.Equal(s.T(), uint64(1), listedApiKeys[0].Id)
assert.Equal(s.T(), uint64(2), listedApiKeys[1].Id)
assert.Equal(s.T(), uint64(3), listedApiKeys[2].Id)
assert.Equal(s.T(), uint64(4), listedApiKeys[3].Id)
assert.Equal(s.T(), uint64(5), listedApiKeys[4].Id)
assert.NotEmpty(s.T(), listedApiKeys[0].Prefix)
assert.NotEmpty(s.T(), listedApiKeys[1].Prefix)
assert.NotEmpty(s.T(), listedApiKeys[2].Prefix)
assert.NotEmpty(s.T(), listedApiKeys[3].Prefix)
assert.NotEmpty(s.T(), listedApiKeys[4].Prefix)
assert.True(s.T(), listedApiKeys[0].Expiration.AsTime().After(time.Now()))
assert.True(s.T(), listedApiKeys[1].Expiration.AsTime().After(time.Now()))
assert.True(s.T(), listedApiKeys[2].Expiration.AsTime().After(time.Now()))
assert.True(s.T(), listedApiKeys[3].Expiration.AsTime().After(time.Now()))
assert.True(s.T(), listedApiKeys[4].Expiration.AsTime().After(time.Now()))
assert.True(
s.T(),
listedApiKeys[0].Expiration.AsTime().Before(time.Now().Add(time.Hour*26)),
)
assert.True(
s.T(),
listedApiKeys[1].Expiration.AsTime().Before(time.Now().Add(time.Hour*26)),
)
assert.True(
s.T(),
listedApiKeys[2].Expiration.AsTime().Before(time.Now().Add(time.Hour*26)),
)
assert.True(
s.T(),
listedApiKeys[3].Expiration.AsTime().Before(time.Now().Add(time.Hour*26)),
)
assert.True(
s.T(),
listedApiKeys[4].Expiration.AsTime().Before(time.Now().Add(time.Hour*26)),
)
expiredPrefixes := make(map[string]bool)
// Expire three keys
for i := 0; i < 3; i++ {
_, err := ExecuteCommand(
&s.headscale,
[]string{
"headscale",
"apikeys",
"expire",
"--prefix",
listedApiKeys[i].Prefix,
},
[]string{},
)
assert.Nil(s.T(), err)
expiredPrefixes[listedApiKeys[i].Prefix] = true
}
// Test list pre auth keys after expire
listAfterExpireResult, err := ExecuteCommand(
&s.headscale,
[]string{
"headscale",
"apikeys",
"list",
"--output",
"json",
},
[]string{},
)
assert.Nil(s.T(), err)
var listedAfterExpireApiKeys []v1.ApiKey
err = json.Unmarshal([]byte(listAfterExpireResult), &listedAfterExpireApiKeys)
assert.Nil(s.T(), err)
for index := range listedAfterExpireApiKeys {
if _, ok := expiredPrefixes[listedAfterExpireApiKeys[index].Prefix]; ok {
// Expired
assert.True(
s.T(),
listedAfterExpireApiKeys[index].Expiration.AsTime().Before(time.Now()),
)
} else {
// Not expired
assert.False(
s.T(),
listedAfterExpireApiKeys[index].Expiration.AsTime().Before(time.Now()),
)
}
}
}