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package headscale
import (
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"context"
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"crypto/rand"
"encoding/hex"
"fmt"
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"net/http"
"regexp"
"strings"
"time"
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"github.com/coreos/go-oidc/v3/oidc"
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"github.com/gin-gonic/gin"
"github.com/patrickmn/go-cache"
"github.com/rs/zerolog/log"
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"golang.org/x/oauth2"
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)
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type IDTokenClaims struct {
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Name string ` json:"name,omitempty" `
Groups [ ] string ` json:"groups,omitempty" `
Email string ` json:"email" `
Username string ` json:"preferred_username,omitempty" `
}
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func ( h * Headscale ) initOIDC ( ) error {
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var err error
// grab oidc config if it hasn't been already
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if h . oauth2Config == nil {
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h . oidcProvider , err = oidc . NewProvider ( context . Background ( ) , h . cfg . OIDC . Issuer )
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if err != nil {
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log . Error ( ) . Msgf ( "Could not retrieve OIDC Config: %s" , err . Error ( ) )
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return err
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}
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h . oauth2Config = & oauth2 . Config {
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ClientID : h . cfg . OIDC . ClientID ,
ClientSecret : h . cfg . OIDC . ClientSecret ,
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Endpoint : h . oidcProvider . Endpoint ( ) ,
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RedirectURL : fmt . Sprintf ( "%s/oidc/callback" , strings . TrimSuffix ( h . cfg . ServerURL , "/" ) ) ,
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Scopes : [ ] string { oidc . ScopeOpenID , "profile" , "email" } ,
}
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}
// init the state cache if it hasn't been already
if h . oidcStateCache == nil {
h . oidcStateCache = cache . New ( time . Minute * 5 , time . Minute * 10 )
}
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return nil
}
// RegisterOIDC redirects to the OIDC provider for authentication
// Puts machine key in cache so the callback can retrieve it using the oidc state param
// Listens in /oidc/register/:mKey
func ( h * Headscale ) RegisterOIDC ( c * gin . Context ) {
mKeyStr := c . Param ( "mkey" )
if mKeyStr == "" {
c . String ( http . StatusBadRequest , "Wrong params" )
return
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}
b := make ( [ ] byte , 16 )
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_ , err := rand . Read ( b )
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if err != nil {
log . Error ( ) . Msg ( "could not read 16 bytes from rand" )
c . String ( http . StatusInternalServerError , "could not read 16 bytes from rand" )
return
}
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stateStr := hex . EncodeToString ( b ) [ : 32 ]
// place the machine key into the state cache, so it can be retrieved later
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h . oidcStateCache . Set ( stateStr , mKeyStr , time . Minute * 5 )
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authUrl := h . oauth2Config . AuthCodeURL ( stateStr )
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log . Debug ( ) . Msgf ( "Redirecting to %s for authentication" , authUrl )
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c . Redirect ( http . StatusFound , authUrl )
}
// OIDCCallback handles the callback from the OIDC endpoint
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// Retrieves the mkey from the state cache and adds the machine to the users email namespace
// TODO: A confirmation page for new machines should be added to avoid phishing vulnerabilities
// TODO: Add groups information from OIDC tokens into machine HostInfo
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// Listens in /oidc/callback
func ( h * Headscale ) OIDCCallback ( c * gin . Context ) {
code := c . Query ( "code" )
state := c . Query ( "state" )
if code == "" || state == "" {
c . String ( http . StatusBadRequest , "Wrong params" )
return
}
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oauth2Token , err := h . oauth2Config . Exchange ( context . Background ( ) , code )
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if err != nil {
c . String ( http . StatusBadRequest , "Could not exchange code for token" )
return
}
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log . Debug ( ) . Msgf ( "AccessToken: %v" , oauth2Token . AccessToken )
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rawIDToken , rawIDTokenOK := oauth2Token . Extra ( "id_token" ) . ( string )
if ! rawIDTokenOK {
c . String ( http . StatusBadRequest , "Could not extract ID Token" )
return
}
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verifier := h . oidcProvider . Verifier ( & oidc . Config { ClientID : h . cfg . OIDC . ClientID } )
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idToken , err := verifier . Verify ( context . Background ( ) , rawIDToken )
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if err != nil {
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c . String ( http . StatusBadRequest , "Failed to verify id token: %s" , err . Error ( ) )
return
}
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// TODO: we can use userinfo at some point to grab additional information about the user (groups membership, etc)
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//userInfo, err := oidcProvider.UserInfo(context.Background(), oauth2.StaticTokenSource(oauth2Token))
//if err != nil {
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// c.String(http.StatusBadRequest, fmt.Sprintf("Failed to retrieve userinfo: %s", err))
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// return
//}
// Extract custom claims
var claims IDTokenClaims
if err = idToken . Claims ( & claims ) ; err != nil {
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c . String ( http . StatusBadRequest , fmt . Sprintf ( "Failed to decode id token claims: %s" , err ) )
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return
}
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// retrieve machinekey from state cache
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mKeyIf , mKeyFound := h . oidcStateCache . Get ( state )
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if ! mKeyFound {
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log . Error ( ) . Msg ( "requested machine state key expired before authorisation completed" )
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c . String ( http . StatusBadRequest , "state has expired" )
return
}
mKeyStr , mKeyOK := mKeyIf . ( string )
if ! mKeyOK {
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log . Error ( ) . Msg ( "could not get machine key from cache" )
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c . String ( http . StatusInternalServerError , "could not get machine key from cache" )
return
}
// retrieve machine information
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m , err := h . GetMachineByMachineKey ( mKeyStr )
if err != nil {
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log . Error ( ) . Msg ( "machine key not found in database" )
c . String ( http . StatusInternalServerError , "could not get machine info from database" )
return
}
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now := time . Now ( ) . UTC ( )
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if nsName , ok := h . getNamespaceFromEmail ( claims . Email ) ; ok {
// register the machine if it's new
if ! m . Registered {
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log . Debug ( ) . Msg ( "Registering new machine after successful callback" )
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ns , err := h . GetNamespace ( nsName )
if err != nil {
ns , err = h . CreateNamespace ( nsName )
if err != nil {
log . Error ( ) . Msgf ( "could not create new namespace '%s'" , claims . Email )
c . String ( http . StatusInternalServerError , "could not create new namespace" )
return
}
}
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ip , err := h . getAvailableIP ( )
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if err != nil {
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c . String ( http . StatusInternalServerError , "could not get an IP from the pool" )
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return
}
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m . IPAddress = ip . String ( )
m . NamespaceID = ns . ID
m . Registered = true
m . RegisterMethod = "oidc"
m . LastSuccessfulUpdate = & now
h . db . Save ( & m )
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}
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h . updateMachineExpiry ( m )
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c . Data ( http . StatusOK , "text/html; charset=utf-8" , [ ] byte ( fmt . Sprintf ( `
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< html >
< body >
< h1 > headscale < / h1 >
< p >
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Authenticated as % s , you can now close this window .
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< / p >
< / body >
< / html >
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` , claims . Email ) ) )
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}
log . Error ( ) .
Str ( "email" , claims . Email ) .
Str ( "username" , claims . Username ) .
Str ( "machine" , m . Name ) .
Msg ( "Email could not be mapped to a namespace" )
c . String ( http . StatusBadRequest , "email from claim could not be mapped to a namespace" )
}
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// getNamespaceFromEmail passes the users email through a list of "matchers"
// and iterates through them until it matches and returns a namespace.
// If no match is found, an empty string will be returned.
// TODO(kradalby): golang Maps key order is not stable, so this list is _not_ deterministic. Find a way to make the list of keys stable, preferably in the order presented in a users configuration.
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func ( h * Headscale ) getNamespaceFromEmail ( email string ) ( string , bool ) {
for match , namespace := range h . cfg . OIDC . MatchMap {
regex := regexp . MustCompile ( match )
if regex . MatchString ( email ) {
return namespace , true
}
}
return "" , false
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}