package messages // Reference: https://www.ietf.org/rfc/rfc4120.txt // Section: 5.4.2 import ( "fmt" "time" "github.com/jcmturner/gofork/encoding/asn1" "github.com/jcmturner/gokrb5/v8/config" "github.com/jcmturner/gokrb5/v8/credentials" "github.com/jcmturner/gokrb5/v8/crypto" "github.com/jcmturner/gokrb5/v8/iana/asnAppTag" "github.com/jcmturner/gokrb5/v8/iana/flags" "github.com/jcmturner/gokrb5/v8/iana/keyusage" "github.com/jcmturner/gokrb5/v8/iana/msgtype" "github.com/jcmturner/gokrb5/v8/iana/patype" "github.com/jcmturner/gokrb5/v8/krberror" "github.com/jcmturner/gokrb5/v8/types" ) type marshalKDCRep struct { PVNO int `asn1:"explicit,tag:0"` MsgType int `asn1:"explicit,tag:1"` PAData types.PADataSequence `asn1:"explicit,optional,tag:2"` CRealm string `asn1:"generalstring,explicit,tag:3"` CName types.PrincipalName `asn1:"explicit,tag:4"` // Ticket needs to be a raw value as it is wrapped in an APPLICATION tag Ticket asn1.RawValue `asn1:"explicit,tag:5"` EncPart types.EncryptedData `asn1:"explicit,tag:6"` } // KDCRepFields represents the KRB_KDC_REP fields. type KDCRepFields struct { PVNO int MsgType int PAData []types.PAData CRealm string CName types.PrincipalName Ticket Ticket EncPart types.EncryptedData DecryptedEncPart EncKDCRepPart } // ASRep implements RFC 4120 KRB_AS_REP: https://tools.ietf.org/html/rfc4120#section-5.4.2. type ASRep struct { KDCRepFields } // TGSRep implements RFC 4120 KRB_TGS_REP: https://tools.ietf.org/html/rfc4120#section-5.4.2. type TGSRep struct { KDCRepFields } // EncKDCRepPart is the encrypted part of KRB_KDC_REP. type EncKDCRepPart struct { Key types.EncryptionKey `asn1:"explicit,tag:0"` LastReqs []LastReq `asn1:"explicit,tag:1"` Nonce int `asn1:"explicit,tag:2"` KeyExpiration time.Time `asn1:"generalized,explicit,optional,tag:3"` Flags asn1.BitString `asn1:"explicit,tag:4"` AuthTime time.Time `asn1:"generalized,explicit,tag:5"` StartTime time.Time `asn1:"generalized,explicit,optional,tag:6"` EndTime time.Time `asn1:"generalized,explicit,tag:7"` RenewTill time.Time `asn1:"generalized,explicit,optional,tag:8"` SRealm string `asn1:"generalstring,explicit,tag:9"` SName types.PrincipalName `asn1:"explicit,tag:10"` CAddr []types.HostAddress `asn1:"explicit,optional,tag:11"` EncPAData types.PADataSequence `asn1:"explicit,optional,tag:12"` } // LastReq part of KRB_KDC_REP. type LastReq struct { LRType int32 `asn1:"explicit,tag:0"` LRValue time.Time `asn1:"generalized,explicit,tag:1"` } // Unmarshal bytes b into the ASRep struct. func (k *ASRep) Unmarshal(b []byte) error { var m marshalKDCRep _, err := asn1.UnmarshalWithParams(b, &m, fmt.Sprintf("application,explicit,tag:%v", asnAppTag.ASREP)) if err != nil { return processUnmarshalReplyError(b, err) } if m.MsgType != msgtype.KRB_AS_REP { return krberror.NewErrorf(krberror.KRBMsgError, "message ID does not indicate an AS_REP. Expected: %v; Actual: %v", msgtype.KRB_AS_REP, m.MsgType) } //Process the raw ticket within tkt, err := unmarshalTicket(m.Ticket.Bytes) if err != nil { return krberror.Errorf(err, krberror.EncodingError, "error unmarshaling Ticket within AS_REP") } k.KDCRepFields = KDCRepFields{ PVNO: m.PVNO, MsgType: m.MsgType, PAData: m.PAData, CRealm: m.CRealm, CName: m.CName, Ticket: tkt, EncPart: m.EncPart, } return nil } // Unmarshal bytes b into the TGSRep struct. func (k *TGSRep) Unmarshal(b []byte) error { var m marshalKDCRep _, err := asn1.UnmarshalWithParams(b, &m, fmt.Sprintf("application,explicit,tag:%v", asnAppTag.TGSREP)) if err != nil { return processUnmarshalReplyError(b, err) } if m.MsgType != msgtype.KRB_TGS_REP { return krberror.NewErrorf(krberror.KRBMsgError, "message ID does not indicate an TGS_REP. Expected: %v; Actual: %v", msgtype.KRB_TGS_REP, m.MsgType) } //Process the raw ticket within tkt, err := unmarshalTicket(m.Ticket.Bytes) if err != nil { return krberror.Errorf(err, krberror.EncodingError, "error unmarshaling Ticket within TGS_REP") } k.KDCRepFields = KDCRepFields{ PVNO: m.PVNO, MsgType: m.MsgType, PAData: m.PAData, CRealm: m.CRealm, CName: m.CName, Ticket: tkt, EncPart: m.EncPart, } return nil } // Unmarshal bytes b into encrypted part of KRB_KDC_REP. func (e *EncKDCRepPart) Unmarshal(b []byte) error { _, err := asn1.UnmarshalWithParams(b, e, fmt.Sprintf("application,explicit,tag:%v", asnAppTag.EncASRepPart)) if err != nil { // Try using tag 26 // Ref: RFC 4120 - mentions that some implementations use application tag number 26 wether or not the reply is // a AS-REP or a TGS-REP. _, err = asn1.UnmarshalWithParams(b, e, fmt.Sprintf("application,explicit,tag:%v", asnAppTag.EncTGSRepPart)) if err != nil { return krberror.Errorf(err, krberror.EncodingError, "error unmarshaling encrypted part within KDC_REP") } } return nil } // DecryptEncPart decrypts the encrypted part of an AS_REP. func (k *ASRep) DecryptEncPart(c *credentials.Credentials) (types.EncryptionKey, error) { var key types.EncryptionKey var err error if c.HasKeytab() { key, _, err = c.Keytab().GetEncryptionKey(k.CName, k.CRealm, k.EncPart.KVNO, k.EncPart.EType) if err != nil { return key, krberror.Errorf(err, krberror.DecryptingError, "error decrypting AS_REP encrypted part") } } if c.HasPassword() { key, _, err = crypto.GetKeyFromPassword(c.Password(), k.CName, k.CRealm, k.EncPart.EType, k.PAData) if err != nil { return key, krberror.Errorf(err, krberror.DecryptingError, "error decrypting AS_REP encrypted part") } } if !c.HasKeytab() && !c.HasPassword() { return key, krberror.NewErrorf(krberror.DecryptingError, "no secret available in credentials to perform decryption of AS_REP encrypted part") } b, err := crypto.DecryptEncPart(k.EncPart, key, keyusage.AS_REP_ENCPART) if err != nil { return key, krberror.Errorf(err, krberror.DecryptingError, "error decrypting AS_REP encrypted part") } var denc EncKDCRepPart err = denc.Unmarshal(b) if err != nil { return key, krberror.Errorf(err, krberror.EncodingError, "error unmarshaling decrypted encpart of AS_REP") } k.DecryptedEncPart = denc return key, nil } // Verify checks the validity of AS_REP message. func (k *ASRep) Verify(cfg *config.Config, creds *credentials.Credentials, asReq ASReq) (bool, error) { //Ref RFC 4120 Section 3.1.5 if k.CName.NameType != asReq.ReqBody.CName.NameType || k.CName.NameString == nil { return false, krberror.NewErrorf(krberror.KRBMsgError, "CName in response does not match what was requested. Requested: %+v; Reply: %+v", asReq.ReqBody.CName, k.CName) } for i := range k.CName.NameString { if k.CName.NameString[i] != asReq.ReqBody.CName.NameString[i] { return false, krberror.NewErrorf(krberror.KRBMsgError, "CName in response does not match what was requested. Requested: %+v; Reply: %+v", asReq.ReqBody.CName, k.CName) } } if k.CRealm != asReq.ReqBody.Realm { return false, krberror.NewErrorf(krberror.KRBMsgError, "CRealm in response does not match what was requested. Requested: %s; Reply: %s", asReq.ReqBody.Realm, k.CRealm) } key, err := k.DecryptEncPart(creds) if err != nil { return false, krberror.Errorf(err, krberror.DecryptingError, "error decrypting EncPart of AS_REP") } if k.DecryptedEncPart.Nonce != asReq.ReqBody.Nonce { return false, krberror.NewErrorf(krberror.KRBMsgError, "possible replay attack, nonce in response does not match that in request") } if k.DecryptedEncPart.SName.NameType != asReq.ReqBody.SName.NameType || k.DecryptedEncPart.SName.NameString == nil { return false, krberror.NewErrorf(krberror.KRBMsgError, "SName in response does not match what was requested. Requested: %v; Reply: %v", asReq.ReqBody.SName, k.DecryptedEncPart.SName) } for i := range k.CName.NameString { if k.DecryptedEncPart.SName.NameString[i] != asReq.ReqBody.SName.NameString[i] { return false, krberror.NewErrorf(krberror.KRBMsgError, "SName in response does not match what was requested. Requested: %+v; Reply: %+v", asReq.ReqBody.SName, k.DecryptedEncPart.SName) } } if k.DecryptedEncPart.SRealm != asReq.ReqBody.Realm { return false, krberror.NewErrorf(krberror.KRBMsgError, "SRealm in response does not match what was requested. Requested: %s; Reply: %s", asReq.ReqBody.Realm, k.DecryptedEncPart.SRealm) } if len(asReq.ReqBody.Addresses) > 0 { if !types.HostAddressesEqual(k.DecryptedEncPart.CAddr, asReq.ReqBody.Addresses) { return false, krberror.NewErrorf(krberror.KRBMsgError, "addresses listed in the AS_REP does not match those listed in the AS_REQ") } } t := time.Now().UTC() if t.Sub(k.DecryptedEncPart.AuthTime) > cfg.LibDefaults.Clockskew || k.DecryptedEncPart.AuthTime.Sub(t) > cfg.LibDefaults.Clockskew { return false, krberror.NewErrorf(krberror.KRBMsgError, "clock skew with KDC too large. Greater than %v seconds", cfg.LibDefaults.Clockskew.Seconds()) } // RFC 6806 https://tools.ietf.org/html/rfc6806.html#section-11 if asReq.PAData.Contains(patype.PA_REQ_ENC_PA_REP) && types.IsFlagSet(&k.DecryptedEncPart.Flags, flags.EncPARep) { if len(k.DecryptedEncPart.EncPAData) < 2 || !k.DecryptedEncPart.EncPAData.Contains(patype.PA_FX_FAST) { return false, krberror.NewErrorf(krberror.KRBMsgError, "KDC did not respond appropriately to FAST negotiation") } for _, pa := range k.DecryptedEncPart.EncPAData { if pa.PADataType == patype.PA_REQ_ENC_PA_REP { var pafast types.PAReqEncPARep err := pafast.Unmarshal(pa.PADataValue) if err != nil { return false, krberror.Errorf(err, krberror.EncodingError, "KDC FAST negotiation response error, could not unmarshal PA_REQ_ENC_PA_REP") } etype, err := crypto.GetChksumEtype(pafast.ChksumType) if err != nil { return false, krberror.Errorf(err, krberror.ChksumError, "KDC FAST negotiation response error") } ab, _ := asReq.Marshal() if !etype.VerifyChecksum(key.KeyValue, ab, pafast.Chksum, keyusage.KEY_USAGE_AS_REQ) { return false, krberror.Errorf(err, krberror.ChksumError, "KDC FAST negotiation response checksum invalid") } } } } return true, nil } // DecryptEncPart decrypts the encrypted part of an TGS_REP. func (k *TGSRep) DecryptEncPart(key types.EncryptionKey) error { b, err := crypto.DecryptEncPart(k.EncPart, key, keyusage.TGS_REP_ENCPART_SESSION_KEY) if err != nil { return krberror.Errorf(err, krberror.DecryptingError, "error decrypting TGS_REP EncPart") } var denc EncKDCRepPart err = denc.Unmarshal(b) if err != nil { return krberror.Errorf(err, krberror.EncodingError, "error unmarshaling encrypted part") } k.DecryptedEncPart = denc return nil } // Verify checks the validity of the TGS_REP message. func (k *TGSRep) Verify(cfg *config.Config, tgsReq TGSReq) (bool, error) { if k.CName.NameType != tgsReq.ReqBody.CName.NameType || k.CName.NameString == nil { return false, krberror.NewErrorf(krberror.KRBMsgError, "CName type in response does not match what was requested. Requested: %+v; Reply: %+v", tgsReq.ReqBody.CName, k.CName) } for i := range k.CName.NameString { if k.CName.NameString[i] != tgsReq.ReqBody.CName.NameString[i] { return false, krberror.NewErrorf(krberror.KRBMsgError, "CName in response does not match what was requested. Requested: %+v; Reply: %+v", tgsReq.ReqBody.CName, k.CName) } } if k.Ticket.Realm != tgsReq.ReqBody.Realm { return false, krberror.NewErrorf(krberror.KRBMsgError, "realm in response ticket does not match what was requested. Requested: %s; Reply: %s", tgsReq.ReqBody.Realm, k.Ticket.Realm) } if k.DecryptedEncPart.Nonce != tgsReq.ReqBody.Nonce { return false, krberror.NewErrorf(krberror.KRBMsgError, "possible replay attack, nonce in response does not match that in request") } //if k.Ticket.SName.NameType != tgsReq.ReqBody.SName.NameType || k.Ticket.SName.NameString == nil { // return false, krberror.NewErrorf(krberror.KRBMsgError, "SName in response ticket does not match what was requested. Requested: %v; Reply: %v", tgsReq.ReqBody.SName, k.Ticket.SName) //} //for i := range k.Ticket.SName.NameString { // if k.Ticket.SName.NameString[i] != tgsReq.ReqBody.SName.NameString[i] { // return false, krberror.NewErrorf(krberror.KRBMsgError, "SName in response ticket does not match what was requested. Requested: %+v; Reply: %+v", tgsReq.ReqBody.SName, k.Ticket.SName) // } //} //if k.DecryptedEncPart.SName.NameType != tgsReq.ReqBody.SName.NameType || k.DecryptedEncPart.SName.NameString == nil { // return false, krberror.NewErrorf(krberror.KRBMsgError, "SName in response does not match what was requested. Requested: %v; Reply: %v", tgsReq.ReqBody.SName, k.DecryptedEncPart.SName) //} //for i := range k.DecryptedEncPart.SName.NameString { // if k.DecryptedEncPart.SName.NameString[i] != tgsReq.ReqBody.SName.NameString[i] { // return false, krberror.NewErrorf(krberror.KRBMsgError, "SName in response does not match what was requested. Requested: %+v; Reply: %+v", tgsReq.ReqBody.SName, k.DecryptedEncPart.SName) // } //} if k.DecryptedEncPart.SRealm != tgsReq.ReqBody.Realm { return false, krberror.NewErrorf(krberror.KRBMsgError, "SRealm in response does not match what was requested. Requested: %s; Reply: %s", tgsReq.ReqBody.Realm, k.DecryptedEncPart.SRealm) } if len(k.DecryptedEncPart.CAddr) > 0 { if !types.HostAddressesEqual(k.DecryptedEncPart.CAddr, tgsReq.ReqBody.Addresses) { return false, krberror.NewErrorf(krberror.KRBMsgError, "addresses listed in the TGS_REP does not match those listed in the TGS_REQ") } } if time.Since(k.DecryptedEncPart.StartTime) > cfg.LibDefaults.Clockskew || k.DecryptedEncPart.StartTime.Sub(time.Now().UTC()) > cfg.LibDefaults.Clockskew { if time.Since(k.DecryptedEncPart.AuthTime) > cfg.LibDefaults.Clockskew || k.DecryptedEncPart.AuthTime.Sub(time.Now().UTC()) > cfg.LibDefaults.Clockskew { return false, krberror.NewErrorf(krberror.KRBMsgError, "clock skew with KDC too large. Greater than %v seconds.", cfg.LibDefaults.Clockskew.Seconds()) } } return true, nil }