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package clientaccess
import (
"crypto/tls"
"crypto/x509"
"encoding/pem"
"net"
"net/http"
"net/http/httptest"
"os"
"testing"
"time"
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"github.com/k3s-io/k3s/pkg/bootstrap"
"github.com/k3s-io/k3s/pkg/daemons/config"
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"github.com/rancher/dynamiclistener/cert"
"github.com/rancher/dynamiclistener/factory"
"github.com/stretchr/testify/assert"
)
var (
defaultUsername = "server"
defaultPassword = "token"
)
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// Test_UnitTrustedCA confirms that tokens are validated when the server uses a cert (self-signed or otherwise)
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// that is trusted by the OS CA bundle. This test must be run first, since it mucks with the system root certs.
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func Test_UnitTrustedCA ( t * testing . T ) {
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assert := assert . New ( t )
server := newTLSServer ( t , defaultUsername , defaultPassword , false )
defer server . Close ( )
testInfo := & Info {
CACerts : getServerCA ( server ) ,
BaseURL : server . URL ,
Username : defaultUsername ,
Password : defaultPassword ,
caHash : hashCA ( getServerCA ( server ) ) ,
}
testCases := [ ] struct {
token string
expected string
} {
{ defaultPassword , "" } ,
{ testInfo . String ( ) , testInfo . Username } ,
}
// Point OS CA bundle at this test's CA cert to simulate a trusted CA cert.
// Note that this only works if the OS CA bundle has not yet been loaded in this process,
// as it is cached for the duration of the process lifetime.
// Ref: https://github.com/golang/go/issues/41888
path := t . TempDir ( ) + "/ca.crt"
writeServerCA ( server , path )
os . Setenv ( "SSL_CERT_FILE" , path )
for _ , testCase := range testCases {
info , err := ParseAndValidateToken ( server . URL , testCase . token )
if assert . NoError ( err , testCase ) {
assert . Nil ( info . CACerts , testCase )
assert . Equal ( testCase . expected , info . Username , testCase . token )
}
info , err = ParseAndValidateTokenForUser ( server . URL , testCase . token , "agent" )
if assert . NoError ( err , testCase ) {
assert . Nil ( info . CACerts , testCase )
assert . Equal ( "agent" , info . Username , testCase )
}
}
// Confirm that the cert is actually trusted by the OS CA bundle by making a request
// with empty cert pool
testInfo . CACerts = nil
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res , err := testInfo . Get ( "/v1-k3s/server-bootstrap" )
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assert . NoError ( err )
assert . NotEmpty ( res )
}
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// Test_UnitUntrustedCA confirms that tokens are validated when the server uses a self-signed cert
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// that is NOT trusted by the OS CA bundle.
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func Test_UnitUntrustedCA ( t * testing . T ) {
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assert := assert . New ( t )
server := newTLSServer ( t , defaultUsername , defaultPassword , false )
defer server . Close ( )
testInfo := & Info {
CACerts : getServerCA ( server ) ,
BaseURL : server . URL ,
Username : defaultUsername ,
Password : defaultPassword ,
caHash : hashCA ( getServerCA ( server ) ) ,
}
testCases := [ ] struct {
token string
expected string
} {
{ defaultPassword , "" } ,
{ testInfo . String ( ) , testInfo . Username } ,
}
for _ , testCase := range testCases {
info , err := ParseAndValidateToken ( server . URL , testCase . token )
if assert . NoError ( err , testCase ) {
assert . Equal ( testInfo . CACerts , info . CACerts , testCase )
assert . Equal ( testCase . expected , info . Username , testCase )
}
info , err = ParseAndValidateTokenForUser ( server . URL , testCase . token , "agent" )
if assert . NoError ( err , testCase ) {
assert . Equal ( testInfo . CACerts , info . CACerts , testCase )
assert . Equal ( "agent" , info . Username , testCase )
}
}
}
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// Test_UnitInvalidServers tests that invalid server URLs are properly rejected
func Test_UnitInvalidServers ( t * testing . T ) {
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assert := assert . New ( t )
testCases := [ ] struct {
server string
token string
expected string
} {
{ " https://localhost:6443" , "token" , "Invalid server url, failed to parse: https://localhost:6443: parse \" https://localhost:6443\": first path segment in URL cannot contain colon" } ,
{ "http://localhost:6443" , "token" , "only https:// URLs are supported, invalid scheme: http://localhost:6443" } ,
}
for _ , testCase := range testCases {
_ , err := ParseAndValidateToken ( testCase . server , testCase . token )
assert . EqualError ( err , testCase . expected , testCase )
_ , err = ParseAndValidateTokenForUser ( testCase . server , testCase . token , defaultUsername )
assert . EqualError ( err , testCase . expected , testCase )
}
}
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// Test_UnitInvalidTokens tests that tokens which are empty, invalid, or incorrect are properly rejected
func Test_UnitInvalidTokens ( t * testing . T ) {
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assert := assert . New ( t )
server := newTLSServer ( t , defaultUsername , defaultPassword , false )
defer server . Close ( )
testCases := [ ] struct {
server string
token string
expected string
} {
{ server . URL , "" , "token must not be empty" } ,
{ server . URL , "K10::" , "invalid token format" } ,
{ server . URL , "K10::x" , "invalid token format" } ,
{ server . URL , "K10::x:" , "invalid token format" } ,
{ server . URL , "K10XX::x:y" , "invalid token CA hash length" } ,
{ server . URL ,
"K10XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX::x:y" ,
"token CA hash does not match the Cluster CA certificate hash: XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX != " + hashCA ( getServerCA ( server ) ) } ,
}
for _ , testCase := range testCases {
info , err := ParseAndValidateToken ( testCase . server , testCase . token )
assert . EqualError ( err , testCase . expected , testCase )
assert . Nil ( info , testCase )
info , err = ParseAndValidateTokenForUser ( testCase . server , testCase . token , defaultUsername )
assert . EqualError ( err , testCase . expected , testCase )
assert . Nil ( info , testCase )
}
}
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// Test_UnitInvalidCredentials tests that tokens which don't have valid credentials are rejected
func Test_UnitInvalidCredentials ( t * testing . T ) {
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assert := assert . New ( t )
server := newTLSServer ( t , defaultUsername , defaultPassword , false )
defer server . Close ( )
testInfo := & Info {
CACerts : getServerCA ( server ) ,
BaseURL : server . URL ,
Username : "nobody" ,
Password : "invalid" ,
caHash : hashCA ( getServerCA ( server ) ) ,
}
testCases := [ ] string {
testInfo . Password ,
testInfo . String ( ) ,
}
for _ , testCase := range testCases {
info , err := ParseAndValidateToken ( server . URL , testCase )
assert . NoError ( err , testCase )
if assert . NotNil ( info ) {
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res , err := info . Get ( "/v1-k3s/server-bootstrap" )
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assert . Error ( err , testCase )
assert . Empty ( res , testCase )
}
info , err = ParseAndValidateTokenForUser ( server . URL , testCase , defaultUsername )
assert . NoError ( err , testCase )
if assert . NotNil ( info ) {
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res , err := info . Get ( "/v1-k3s/server-bootstrap" )
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assert . Error ( err , testCase )
assert . Empty ( res , testCase )
}
}
}
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// Test_UnitWrongCert tests that errors are returned when the server's cert isn't issued by its CA
func Test_UnitWrongCert ( t * testing . T ) {
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assert := assert . New ( t )
server := newTLSServer ( t , defaultUsername , defaultPassword , true )
defer server . Close ( )
info , err := ParseAndValidateToken ( server . URL , defaultPassword )
assert . Error ( err )
assert . Nil ( info )
info , err = ParseAndValidateTokenForUser ( server . URL , defaultPassword , defaultUsername )
assert . Error ( err )
assert . Nil ( info )
}
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// Test_UnitConnectionFailures tests that connections are timed out properly
func Test_UnitConnectionFailures ( t * testing . T ) {
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testDuration := ( defaultClientTimeout * 2 ) + time . Second
assert := assert . New ( t )
testCases := [ ] struct {
server string
token string
} {
{ "https://192.0.2.1:6443" , "token" } , // RFC 5735 TEST-NET-1 for use in documentation and example code
{ "https://localhost:1" , "token" } ,
}
for _ , testCase := range testCases {
startTime := time . Now ( )
info , err := ParseAndValidateToken ( testCase . server , testCase . token )
assert . Error ( err , testCase )
assert . Nil ( info , testCase )
assert . WithinDuration ( time . Now ( ) , startTime , testDuration , testCase )
startTime = time . Now ( )
info , err = ParseAndValidateTokenForUser ( testCase . server , testCase . token , defaultUsername )
assert . Error ( err , testCase )
assert . Nil ( info , testCase )
assert . WithinDuration ( startTime , time . Now ( ) , testDuration , testCase )
}
}
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// Test_UnitUserPass tests that usernames and passwords are parsed or not parsed from token strings
func Test_UnitUserPass ( t * testing . T ) {
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assert := assert . New ( t )
testCases := [ ] struct {
token string
username string
password string
expect bool
} {
{ "K10XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX::username:password" , "username" , "password" , true } ,
{ "password" , "" , "password" , true } ,
{ "K10X::x" , "" , "" , false } ,
}
for _ , testCase := range testCases {
username , password , ok := ParseUsernamePassword ( testCase . token )
assert . Equal ( testCase . expect , ok , testCase )
if ok {
assert . Equal ( testCase . username , username , testCase )
assert . Equal ( testCase . password , password , testCase )
}
}
}
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// Test_UnitParseAndGet tests URL handling along some hard-to-reach code paths
func Test_UnitParseAndGet ( t * testing . T ) {
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assert := assert . New ( t )
server := newTLSServer ( t , defaultUsername , defaultPassword , false )
defer server . Close ( )
testCases := [ ] struct {
extraBasePre string
extraBasePost string
path string
parseFail bool
getFail bool
} {
{ "/" , "" , "/cacerts" , false , false } ,
{ "/%2" , "" , "/cacerts" , true , false } ,
{ "" , "" , "/%2" , false , true } ,
{ "" , "/%2" , "/cacerts" , false , true } ,
}
for _ , testCase := range testCases {
info , err := ParseAndValidateTokenForUser ( server . URL + testCase . extraBasePre , defaultPassword , defaultUsername )
// Check for expected error when parsing server + token
if testCase . parseFail {
assert . Error ( err , testCase )
} else if assert . NoError ( err , testCase ) {
info . BaseURL = server . URL + testCase . extraBasePost
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_ , err := info . Get ( testCase . path )
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// Check for expected error when making Get request
if testCase . getFail {
assert . Error ( err , testCase )
} else {
assert . NoError ( err , testCase )
}
}
}
}
// newTLSServer returns a HTTPS server that mocks the basic functionality required to validate K3s join tokens.
// Each call to this function will generate new CA and server certificates unique to the returned server.
func newTLSServer ( t * testing . T , username , password string , sendWrongCA bool ) * httptest . Server {
var server * httptest . Server
server = httptest . NewUnstartedServer ( http . HandlerFunc ( func ( w http . ResponseWriter , r * http . Request ) {
if r . URL . Path == "/v1-k3s/server-bootstrap" {
if authUsername , authPassword , ok := r . BasicAuth ( ) ; ok != true || authPassword != password || authUsername != username {
http . Error ( w , http . StatusText ( http . StatusInternalServerError ) , http . StatusInternalServerError )
return
}
bootstrapData := & config . ControlRuntimeBootstrap { }
w . Header ( ) . Set ( "Content-Type" , "application/json" )
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if err := bootstrap . ReadFromDisk ( w , bootstrapData ) ; err != nil {
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t . Errorf ( "failed to write bootstrap: %v" , err )
}
return
}
if r . URL . Path == "/cacerts" {
w . Header ( ) . Set ( "Content-Type" , "text/plain" )
if _ , err := w . Write ( getServerCA ( server ) ) ; err != nil {
t . Errorf ( "Failed to write cacerts: %v" , err )
}
return
}
http . Error ( w , http . StatusText ( http . StatusUnauthorized ) , http . StatusUnauthorized )
} ) )
// Create new CA cert and key
caCert , caKey , err := factory . GenCA ( )
if err != nil {
t . Fatal ( err )
}
// Generate new server cert; reuse the key from the CA
cfg := cert . Config {
CommonName : "localhost" ,
Organization : [ ] string { "testing" } ,
Usages : [ ] x509 . ExtKeyUsage { x509 . ExtKeyUsageServerAuth } ,
AltNames : cert . AltNames {
DNSNames : [ ] string { "localhost" } ,
IPs : [ ] net . IP { net . IPv4 ( 127 , 0 , 0 , 1 ) } ,
} ,
}
serverCert , err := cert . NewSignedCert ( cfg , caKey , caCert , caKey )
if err != nil {
t . Fatal ( err )
}
// Bind server and CA certs into chain for TLS listener configuration
server . TLS = & tls . Config { }
server . TLS . Certificates = [ ] tls . Certificate {
{ Certificate : [ ] [ ] byte { serverCert . Raw } , Leaf : serverCert , PrivateKey : caKey } ,
{ Certificate : [ ] [ ] byte { caCert . Raw } , Leaf : caCert } ,
}
if sendWrongCA {
// Create new CA cert and key and use that as the CA cert instead of the one that actually signed the server cert
badCert , _ , err := factory . GenCA ( )
if err != nil {
t . Fatal ( err )
}
server . TLS . Certificates [ 1 ] . Certificate [ 0 ] = badCert . Raw
server . TLS . Certificates [ 1 ] . Leaf = badCert
}
server . StartTLS ( )
return server
}
// getServerCA returns a byte slice containing the PEM encoding of the server's CA certificate
func getServerCA ( server * httptest . Server ) [ ] byte {
certLen := len ( server . TLS . Certificates )
return pem . EncodeToMemory ( & pem . Block { Type : "CERTIFICATE" , Bytes : server . TLS . Certificates [ certLen - 1 ] . Certificate [ 0 ] } )
}
// writeServerCA writes the PEM-encoded server certificate to a given path
func writeServerCA ( server * httptest . Server , path string ) error {
certOut , err := os . Create ( path )
if err != nil {
return err
}
defer certOut . Close ( )
if _ , err := certOut . Write ( getServerCA ( server ) ) ; err != nil {
return err
}
return nil
}