qrz/vendor/github.com/jcmturner/gokrb5/v8/gssapi/MICToken.go
Paul Lecuq d4b9954636
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updated qrz with postgresql support
2020-06-01 14:34:37 +02:00

175 lines
5.9 KiB
Go

package gssapi
import (
"bytes"
"crypto/hmac"
"encoding/binary"
"encoding/hex"
"errors"
"fmt"
"github.com/jcmturner/gokrb5/v8/crypto"
"github.com/jcmturner/gokrb5/v8/iana/keyusage"
"github.com/jcmturner/gokrb5/v8/types"
)
// RFC 4121, section 4.2.6.1
const (
// MICTokenFlagSentByAcceptor - this flag indicates the sender is the context acceptor. When not set, it indicates the sender is the context initiator
MICTokenFlagSentByAcceptor = 1 << iota
// MICTokenFlagSealed - this flag indicates confidentiality is provided for. It SHALL NOT be set in MIC tokens
MICTokenFlagSealed
// MICTokenFlagAcceptorSubkey - a subkey asserted by the context acceptor is used to protect the message
MICTokenFlagAcceptorSubkey
)
const (
micHdrLen = 16 // Length of the MIC Token's header
)
// MICToken represents a GSS API MIC token, as defined in RFC 4121.
// It contains the header fields, the payload (this is not transmitted) and
// the checksum, and provides the logic for converting to/from bytes plus
// computing and verifying checksums
type MICToken struct {
// const GSS Token ID: 0x0404
Flags byte // contains three flags: acceptor, sealed, acceptor subkey
// const Filler: 0xFF 0xFF 0xFF 0xFF 0xFF
SndSeqNum uint64 // sender's sequence number. big-endian
Payload []byte // your data! :)
Checksum []byte // checksum of { payload | header }
}
// Return the 2 bytes identifying a GSS API MIC token
func getGSSMICTokenID() *[2]byte {
return &[2]byte{0x04, 0x04}
}
// Return the filler bytes used in header
func fillerBytes() *[5]byte {
return &[5]byte{0xFF, 0xFF, 0xFF, 0xFF, 0xFF}
}
// Marshal the MICToken into a byte slice.
// The payload should have been set and the checksum computed, otherwise an error is returned.
func (mt *MICToken) Marshal() ([]byte, error) {
if mt.Checksum == nil {
return nil, errors.New("checksum has not been set")
}
bytes := make([]byte, micHdrLen+len(mt.Checksum))
copy(bytes[0:micHdrLen], mt.getMICChecksumHeader()[:])
copy(bytes[micHdrLen:], mt.Checksum)
return bytes, nil
}
// SetChecksum uses the passed encryption key and key usage to compute the checksum over the payload and
// the header, and sets the Checksum field of this MICToken.
// If the payload has not been set or the checksum has already been set, an error is returned.
func (mt *MICToken) SetChecksum(key types.EncryptionKey, keyUsage uint32) error {
if mt.Checksum != nil {
return errors.New("checksum has already been computed")
}
checksum, err := mt.checksum(key, keyUsage)
if err != nil {
return err
}
mt.Checksum = checksum
return nil
}
// Compute and return the checksum of this token, computed using the passed key and key usage.
// Note: This will NOT update the struct's Checksum field.
func (mt *MICToken) checksum(key types.EncryptionKey, keyUsage uint32) ([]byte, error) {
if mt.Payload == nil {
return nil, errors.New("cannot compute checksum with uninitialized payload")
}
d := make([]byte, micHdrLen+len(mt.Payload))
copy(d[0:], mt.Payload)
copy(d[len(mt.Payload):], mt.getMICChecksumHeader())
encType, err := crypto.GetEtype(key.KeyType)
if err != nil {
return nil, err
}
return encType.GetChecksumHash(key.KeyValue, d, keyUsage)
}
// Build a header suitable for a checksum computation
func (mt *MICToken) getMICChecksumHeader() []byte {
header := make([]byte, micHdrLen)
copy(header[0:2], getGSSMICTokenID()[:])
header[2] = mt.Flags
copy(header[3:8], fillerBytes()[:])
binary.BigEndian.PutUint64(header[8:16], mt.SndSeqNum)
return header
}
// Verify computes the token's checksum with the provided key and usage,
// and compares it to the checksum present in the token.
// In case of any failure, (false, err) is returned, with err an explanatory error.
func (mt *MICToken) Verify(key types.EncryptionKey, keyUsage uint32) (bool, error) {
computed, err := mt.checksum(key, keyUsage)
if err != nil {
return false, err
}
if !hmac.Equal(computed, mt.Checksum) {
return false, fmt.Errorf(
"checksum mismatch. Computed: %s, Contained in token: %s",
hex.EncodeToString(computed), hex.EncodeToString(mt.Checksum))
}
return true, nil
}
// Unmarshal bytes into the corresponding MICToken.
// If expectFromAcceptor is true we expect the token to have been emitted by the gss acceptor,
// and will check the according flag, returning an error if the token does not match the expectation.
func (mt *MICToken) Unmarshal(b []byte, expectFromAcceptor bool) error {
if len(b) < micHdrLen {
return errors.New("bytes shorter than header length")
}
if !bytes.Equal(getGSSMICTokenID()[:], b[0:2]) {
return fmt.Errorf("wrong Token ID, Expected %s, was %s",
hex.EncodeToString(getGSSMICTokenID()[:]),
hex.EncodeToString(b[0:2]))
}
flags := b[2]
isFromAcceptor := flags&MICTokenFlagSentByAcceptor != 0
if isFromAcceptor && !expectFromAcceptor {
return errors.New("unexpected acceptor flag is set: not expecting a token from the acceptor")
}
if !isFromAcceptor && expectFromAcceptor {
return errors.New("unexpected acceptor flag is not set: expecting a token from the acceptor, not in the initiator")
}
if !bytes.Equal(b[3:8], fillerBytes()[:]) {
return fmt.Errorf("unexpected filler bytes: expecting %s, was %s",
hex.EncodeToString(fillerBytes()[:]),
hex.EncodeToString(b[3:8]))
}
mt.Flags = flags
mt.SndSeqNum = binary.BigEndian.Uint64(b[8:16])
mt.Checksum = b[micHdrLen:]
return nil
}
// NewInitiatorMICToken builds a new initiator token (acceptor flag will be set to 0) and computes the authenticated checksum.
// Other flags are set to 0.
// Note that in certain circumstances you may need to provide a sequence number that has been defined earlier.
// This is currently not supported.
func NewInitiatorMICToken(payload []byte, key types.EncryptionKey) (*MICToken, error) {
token := MICToken{
Flags: 0x00,
SndSeqNum: 0,
Payload: payload,
}
if err := token.SetChecksum(key, keyusage.GSSAPI_INITIATOR_SIGN); err != nil {
return nil, err
}
return &token, nil
}